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– 50 Years of Growth and InnovationSensing SolutionsDigital and Analog Power ManagementAutomotive ASICs and Industrial ASSPs

pink is the new green®

enablInG enerGY effIcIent solutIons

Multi-Market SensingPrecise and Deliberate

Mobile SensingSmart and Mobile

Battery ManagementAdaptive and Efficient

automotive asIcs and Industrial assPsMulti-functional and robust

Power ManagementPower and Precision

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Zentrum Mikroelektronik Dresden aG (ZMDI) is a global, innovation-driven, customer-focused enterprise delivering high-performance analog and mixed signal semiconductor solutions for over 50 years. The ZMDI difference is that we partner fully throughout the development of innovative analog and digital power and sensing technologies, expertly exploring your unique system requirements, solving design challenges, and then collaboratively designing and delivering subsystem and/or architectural solutions. ZMDI’s solutions enable our customers to create the most energy-efficient products for sensors, power management, and lighting.

• ZMDI is a global provider of energy-efficient mixed signal solutions

• Over 50 years of system and applications know-how applied to every customized and standard product

• Turnkey solution delivery from specification to final product

• Continuous strategic investment in talent and state-of-the-art engineering and test facilities

• Long-term commitment to “1st-Time Right” strategy for IC development

• High-level modeling for system simulation• Well-established record of excellence in serving

an international customer base

ZMDI - At a Glance

The HUMMINGBIRD is the fastest and most agile of birdswhilealsobeingthemostenergyefficient.Asanintelligent consumer of energy, the hummingbird best represents ZMDI‘s ICs for mobile sensing.

smart and Mobile

Mobile Sensing

The CHaMeleoN is hardy enough to thrive in tough environments — similar to ZMDI’s robust and reliable products for automotive and industrial applications.

Multi-functional and robust

Automotive ASICs and Industrial ASSP

The DRaGoNfly quickly and accurately processes multiple analog signals in demanding environments – just like the precise measurements ZMDI sensor interfaceproductsmake“onthefly.”

Precise and Deliberate

Multi-Market Sensing

The pUMA exhibits power and precision in a flashbut with minimal power consumption — just like ZMDI Power Management products. ZMDI power solutions provideprovenreliability,andtheyareflexible,easytouse, high performance, easily optimized, and reusable.

Power and Precision

Power Management

The PolaR BeaR demonstrates the ability to store energy and moderate its internal systems to thrive in harsh and unforgiving climates – critical elements that ZMDI Battery Management devices provide in conserving energy through precise predictions of battery requirements and conditions, enabling optimized usage and extended lifetime of the battery.

Battery Management

Adaptive and Efficient

Global corporate catalogProducts available at on-line store3

for over 50 years,

we have offered

our customers

high-quality

products and

services at great

value

Asa resultofZMDI’s leadership inenergy-efficientsolutions for automotive, industrial, and mobile applications, we have been honored with prestigious awards. Wewereselectedasafinalist in theee times and eDn annual creativity in electronics (ace) awards 2014 for the ”Energy Technology Award“ for our ZSSC1956 Intelligent Battery Monitoring Solution, as well as for the ”The Marketing Team of the Year“ for our marketing campaigns. In 2012 as well as 2013, we received the Green apple award for products that contribute to “passive” energy savings. ZMDI was honored with the “best company for Innovation and sustainability award” (regional) by the International Alternative Investment Review (IAIR) for 2013. In 2012, we received the “Innovative enterprise of the Year 2012” presented by the president of Bulgaria. Frost & Sullivan have recognized us with the 2012 europe frost & sullivan new Product Innovation award for our innovative battery-monitoring device.

ZMDI - Making A Positive Impact

pink is the new green®

enablInG enerGY effIcIent solutIons

Battery ManagementAdaptive and Efficient

Multi-Market SensingPrecise and Deliberate

Multi-Market sensing from Highlyefficient,highvalueapplication-specificandstandardproduct sensor signal conditioners


Designing sensor interfaces can be quite challenging and time consuming, and producing them in volume is often expensive due to long test cycles on costly production test equipment. ZMDI SSC ICs facilitate both design and production of sensor interfaces by providing programmable, highly accurate, wide gain and quantization functions combined with powerful, high-order digital correction and linearization algorithms.

ZMDI Sensor Signal Conditioner ICs are all-in-one, energy-efficient products that are easy to use andare supported by advanced software and expert technical support staff with extensive sensor system design experience. A distinct advantage of our correction algorithms is that they are calibrated and programmedinanefficient“single-pass”operationthat lowers costs by reducing test time and loading of production test equipment without sacrificingprecision. ZMDI Sensor Signal Conditioner ICs also lower total system costs by simplifying sensor design with our excellent support tools, reducing external components, minimizing board space, and providing a faster migration to production.

ZMDI sensor signal conditioning Ics enable you to get it right – on the first pass!

easy-to-use sensor signal conditioner Ics from ZMDI

is a leading-edge

global technology

company with

over 50 years of

success designing

semiconductor

solutions that

enable our

customers to

create energy-

efficient products

Highlyefficient,highvalueapplication-specificandstandard product sensor signal conditioners:

• Humidity• Pressure• Flow• Position • Applications across multiple growth markets

Typical Applications


Pro

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ZSC31010 -50 to +150 6 / 12 / 24 / 48 14 Bit Up to 1.0kHz / -Ratiometric Voltage

Absolute Voltage 0 to 1V or 5VZACwire™

2.7 to 5.5 (>5.5V with ext. JFET) 0.25mA SOP8 / Die

ZSC31014 -40 to +125 1.5 / 3 / 6 / 12 / 24 / 48 / 96 / 192 14 Bit Up to 2.0kHz / - I²C™ & SPI 2.7 to 5.5 70µA (2µA Sleep Mode) SOP8 / Die

ZSC31015 -50 to +150 6 / 24 / 48 / 96 14 Bit Up to 1.0kHz / Ratiometric Voltage

Absolute Voltage 0 to 1V or 5VZACwire™ (12-Bit DAC)

2.7 to 5.5 (>5.5V with ext. JFET) 250µA SOP8 / Die

ZSSC3016 -40 to +85 13.2 to 72 16 Bit Up to 175Hz / - I²C™ & SPI 1.8 to 3.6900µA

(40nA Sleep Mode at 25°C) Die


(50nA Sleep Mode at <85C) PQFN24 / Die

ZSSC3027 -40 to +85 13.2 to 72 16 Bit Up to 175Hz / - I²C™ & SPI 1.7 to 3.6 930µA (20nA Sleep Mode) Die


(20nA Sleep Mode at 85C) Die

ZSSC3218 -40 to + 85 6.6 to 216 (linear) 18 Bit Up to 450Hz / - I²C™ & SPI 1.68 to 3.61.0mA


ZSC31050 As wide as-40 to +150

(see data sheet)

3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105 / 140 / 210 / 280 / 420 9 to 15 Bit Up to 3.9kHz /

Ratiometric or Absolute Voltage; 4mA to 20mATwo PWMs; Two Alarms;

I²C™ & SPI & ZACwire™ (11-Bit DAC)

2.7 to 5.5 (>5.5V with ext. JFET) 2.5mA SSOP16 / Die

ZSC31150 -40 to +150 3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105 / 140 / 210 / 280 / 420 13 to 16 Bit Up to 7.8kHz / Ratiometric 0 to 5V

I²C™ & ZACwire™ (12-Bit DAC) 4.5 to 5.5 5.5mA SSOP14 / DFN14 / Die

ZSSC3015 -50 to +150 6 / 24 / 48 / 96 14 Bit Up to 1.0kHz / Ratiometric Voltage



ZSSC3131 -40 to +150 3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105 13 to 14 Bit Up to 200Hz / - Ratiometric 0 to 5VI²C™ & ZACwire™ (12-Bit DAC) 4.5 to 5.5 5.5mA SSOP14 / Die

ZSSC3135 -40 to +150 3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105 13 to 14 Bit Up to 200Hz / Ratiometric 0 to 5VI²C™ & ZACwire™ (12-Bit DAC) 4.5 to 5.5 5.5mA SSOP14 / Die


ZSSC3138 -40 to +150 3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105 / 140 / 210 / 280 / 420 13 to 16 Bit Up to 7.8kHz / - Ratiometric 0 to 5V

I²C™ & ZACwire™ (12-Bit DAC) 4.5 to 5.5 5.5mA SSOP14 / Die

ZSSC3154 -40 to +150 3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105 / 140 / 210 / 280 / 420 14 Bit Up to 2.0kHz /

Dual Analog Out Ratiometric 0 to 5V

I²C™ & ZACwire™ (12-Bit DAC)4.5 to 5.5 10mA QFN32 / Die

ZSSC3170 -40 to +150 3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105 / 140 / 210 / 280 / 420 13 to 14 Bit Up to 430Hz / PWM (12-Bit)

LIN (1.3 / 2.0 / 2.1) 7 to 18 7mA (40µA Sleep Mode)

SSOP20/ DFN20 / Die

Input Capacitance Ranges in pF

ZSSC3122 -20 to +125 2 to 10 8 to 14 Bit Up to 1.0kHz / -I²C™ & SPI (only MISO)

PDM (ratiometric analog output possible - RC filter) Two Alarms

1.8 to 5.5 60µA (1µA Sleep Mode) TSSOP14 / Die

ZSSC3123 -40 to +125

2 to 88 to 32

32 to 130130 to 260

8 to 14 Bit Up to 1.0kHz / -I²C™ & SPI (only MISO)

PDM (ratiometric analog output possible - RC filter)Two Alarms


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ZSSC/ZSC Selection Guide

sensor signal conditioner Product family

ZMDI‘s Sensor Signal Conditioner

(SSC) ICs typically interface with two

main sensor types: resistive bridges

and differential capacitors. For each

sensor type, further specialization

allows selecting the optimal balance

between price and performance

for the required operating voltage

and temperature range, gain,

resolution, input/output format, and

qualificationlevel.

ZMDI‘s SSC ICs offer digital

compensation of sensor offset,

sensitivity, temperature drift, and

nonlinearity in wide operational

temperature ranges: -50°C to

+150°C (maximum range).

Pro

duct

Nam

e

Ope

ratio

n Te

mpe

ratu

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Ran

ge in

°C

Adj

usta

ble

Ana

log

Gai

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alue

s

AD

C R

esol

utio

n

Sam

ple

Rat

e

Tem

pera

ture

Com

pens

atio

n /

Ext

.Tem

pera

ture

Sen

sor

Inte

rface

Opt

ions

(Not

e: I2 C

™ is

a

trade

mar

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NX

P)

Sup

ply

Vol

tage

in

V D

C

Cur

rent

Con

sum

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n (s

ee d

ata

shee

t for

co

nditi

ons)

Pac

kage

Opt

ions

ZSC31010 -50 to +150 6 / 12 / 24 / 48 14 Bit Up to 1.0kHz / -Ratiometric Voltage

Absolute Voltage 0 to 1V or 5VZACwire™

2.7 to 5.5 (>5.5V with ext. JFET) 0.25mA SOP8 / Die

ZSC31014 -40 to +125 1.5 / 3 / 6 / 12 / 24 / 48 / 96 / 192 14 Bit Up to 2.0kHz / - I²C™ & SPI 2.7 to 5.5 70µA (2µA Sleep Mode) SOP8 / Die

ZSC31015 -50 to +150 6 / 24 / 48 / 96 14 Bit Up to 1.0kHz / Ratiometric Voltage




(40nA Sleep Mode at 25°C) Die


(50nA Sleep Mode at <85C) PQFN24 / Die

ZSSC3027 -40 to +85 13.2 to 72 16 Bit Up to 175Hz / - I²C™ & SPI 1.7 to 3.6 930µA (20nA Sleep Mode) Die



ZSSC3218 -40 to + 85 6.6 to 216 (linear) 18 Bit Up to 450Hz / - I²C™ & SPI 1.68 to 3.61.0mA


ZSC31050 As wide as-40 to +150

(see data sheet)

3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105 / 140 / 210 / 280 / 420 9 to 15 Bit Up to 3.9kHz /

Ratiometric or Absolute Voltage; 4mA to 20mATwo PWMs; Two Alarms;

I²C™ & SPI & ZACwire™ (11-Bit DAC)

2.7 to 5.5 (>5.5V with ext. JFET) 2.5mA SSOP16 / Die

ZSC31150 -40 to +150 3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105 / 140 / 210 / 280 / 420 13 to 16 Bit Up to 7.8kHz / Ratiometric 0 to 5V

I²C™ & ZACwire™ (12-Bit DAC) 4.5 to 5.5 5.5mA SSOP14 / DFN14 / Die

ZSSC3015 -50 to +150 6 / 24 / 48 / 96 14 Bit Up to 1.0kHz / Ratiometric Voltage



ZSSC3131 -40 to +150 3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105 13 to 14 Bit Up to 200Hz / - Ratiometric 0 to 5VI²C™ & ZACwire™ (12-Bit DAC) 4.5 to 5.5 5.5mA SSOP14 / Die



ZSSC3138 -40 to +150 3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105 / 140 / 210 / 280 / 420 13 to 16 Bit Up to 7.8kHz / - Ratiometric 0 to 5V

I²C™ & ZACwire™ (12-Bit DAC) 4.5 to 5.5 5.5mA SSOP14 / Die

ZSSC3154 -40 to +150 3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105 / 140 / 210 / 280 / 420 14 Bit Up to 2.0kHz /

Dual Analog Out Ratiometric 0 to 5V

I²C™ & ZACwire™ (12-Bit DAC)4.5 to 5.5 10mA QFN32 / Die

ZSSC3170 -40 to +150 3 / 7 / 9 / 14 / 26 / 35 / 52 / 70 / 105 / 140 / 210 / 280 / 420 13 to 14 Bit Up to 430Hz / PWM (12-Bit)

LIN (1.3 / 2.0 / 2.1) 7 to 18 7mA (40µA Sleep Mode)

SSOP20/ DFN20 / Die

Input Capacitance Ranges in pF

ZSSC3122 -20 to +125 2 to 10 8 to 14 Bit Up to 1.0kHz / -I²C™ & SPI (only MISO)

PDM (ratiometric analog output possible - RC filter) Two Alarms


ZSSC3123 -40 to +125

2 to 88 to 32

32 to 130130 to 260

8 to 14 Bit Up to 1.0kHz / -I²C™ & SPI (only MISO)

PDM (ratiometric analog output possible - RC filter)Two Alarms


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ZSC31010RBicLite™ Analog Output Sensor Signal Conditioner

ZSC31010 RBicLite™ Analog Output Sensor Signal Conditioner

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 2.91 — November 1, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

For more information, contact ZMDI via [email protected].

ZSC31010

Bsink

VBP

VBNVSS

Sig™

Vgate

0.1µF

Vsupply

Ground

+4.5 to +5.5 V

OUT/OWI

VDD

10nF

Brief Description The ZSC31010 is a sensor signal conditioner inte-grated circuit, which enables easy and precise calibration of resistive bridge sensors via EEPROM. When mated to a resistive bridge sensor, it will digitally correct offset and gain with the option to correct offset and gain coefficients and linearity over temperature. A second-order compensation can be enabled for temperature coefficients of gain or offset or bridge linearity. The ZSC31010 communicates via ZMDI’s ZACwire™ serial interface to the host computer and is easily mass calibrated in a Windows® environment. Once calibrated, the output pin Sig™ can provide selectable 0 to 1 V, rail-to-rail ratiometric analog output, or digital serial output of bridge data with optional temperature data.

Features Digital compensation of sensor offset, sensitivity,

temperature drift, and non-linearity Accommodates differential sensor signal spans,

from 3 mV/V to 105 mV/V ZACwire™ One-Wire Interface (OWI) Internal temperature compensation and detection

via bandgap PTAT (proportional to absolute temperature)

Output options: rail-to-rail analog output voltage, absolute analog voltage, digital ZACwire™ One-Wire Interface (OWI)

Optional sequential output of both temperature and bridge readings on ZACwire™ digital output

Fast response time, 1 ms (typical) High voltage protection up to 30 V with

external JFET Chopper-stabilized true differential ADC Buffered and chopper-stabilized output DAC

Benefits No external trimming components required Simple PC-controlled configuration and

calibration via ZACwire™ One-Wire Interface High accuracy (±0.1% FSO @ -25 to 85°C;

±0.25% FSO @ -50 to 150°C) Single pass calibration – quick and precise Suitable for battery-powered applications Small SOP8 package

Available Support Development Kit available Mass Calibration Kit available Support for industrial mass calibration available Quick circuit customization possible for large

production volumes

Physical Characteristics Supply voltage 2.7 to 5.5 V, with external JFET

5.5V to 30 V Current consumption depending on adjusted

sample rate: 0.25 mA to 1 mA Wide operational temperature: –50 to +150°C ZSC31010 Application Circuit – Digital Output




ZSC31010

Bsink

VBP

VBNVSS

Sig™

Vgate

0.1µF

Vsupply

Ground

+4.5 to +5.5 V

OUT/OWI

VDD

10nF

Brief Description The ZSC31010 is a sensor signal conditioner inte-grated circuit, which enables easy and precise calibration of resistive bridge sensors via EEPROM. When mated to a resistive bridge sensor, it will digitally correct offset and gain with the option to correct offset and gain coefficients and linearity over temperature. A second-order compensation can be enabled for temperature coefficients of gain or offset or bridge linearity. The ZSC31010 communicates via ZMDI’s ZACwire™ serial interface to the host computer and is easily mass calibrated in a Windows® environment. Once calibrated, the output pin Sig™ can provide selectable 0 to 1 V, rail-to-rail ratiometric analog output, or digital serial output of bridge data with optional temperature data.


temperature drift, and non-linearity Accommodates differential sensor signal spans,

from 3 mV/V to 105 mV/V ZACwire™ One-Wire Interface (OWI) Internal temperature compensation and detection

via bandgap PTAT (proportional to absolute temperature)

Output options: rail-to-rail analog output voltage, absolute analog voltage, digital ZACwire™ One-Wire Interface (OWI)

Optional sequential output of both temperature and bridge readings on ZACwire™ digital output

Fast response time, 1 ms (typical) High voltage protection up to 30 V with

external JFET Chopper-stabilized true differential ADC Buffered and chopper-stabilized output DAC


calibration via ZACwire™ One-Wire Interface High accuracy (±0.1% FSO @ -25 to 85°C;

±0.25% FSO @ -50 to 150°C) Single pass calibration – quick and precise Suitable for battery-powered applications Small SOP8 package

Available Support Development Kit available Mass Calibration Kit available Support for industrial mass calibration available Quick circuit customization possible for large

production volumes

Physical Characteristics Supply voltage 2.7 to 5.5 V, with external JFET

5.5V to 30 V Current consumption depending on adjusted

sample rate: 0.25 mA to 1 mA Wide operational temperature: –50 to +150°C ZSC31010 Application Circuit – Digital Output



© 2013 Zentrum Mikroelektronik Dresden AG— Rev. 2.91 — November 1, 2013 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

2

1

5

6

7

8

3

4

ZSC31010

Bsink

VBP

N/C

VBN

VSS

SIGTM

VDD

Vgate

0.1 F

Vsupply

Ground

+5.5 to +30 V

OUT

Optional Bsink

S DJFET

10 nF

ADC

Analog Block

Digital Block

RBicLITE™ZSC31010

0 V to 1 VRatiometricRail-to-RailOWI/ZACwireTM

0.1 F

VSS

VBP

DAC

OUTBUF

ZACwireTM

InterfaceDSPEEPROM

PREAMPINMUX

Temp.Reference

VDDRegulator

Power Save

POR Osc.

VBN

VgateVDD

SIGTM

Bsinkoptional

2.7 to 5.5 V

JFET(optional if supply is 2.7 to 5.5 V)

DS VSUPPLY5.5 V to 30 V

1nF

Highly Versatile Applications in Many Markets Including Industrial Building Automation Office Automation White Goods Automotive Portable Devices Your Innovative Designs

2

1

5

6

7

8

3

4

ZSC31010

Bsink

VBP

N/C

VBN

VSS

SIGTM

VDD

Vgate

0.1 F

Vsupply

Ground

+2.7 to +5.5 V

OUT

Optional Bsink

10 nF

ZSC31010 Block Diagram

Rail-to-Rail Ratiometric Voltage Output Applications Absolute Analog Voltage Output Applications

Ordering Examples (Please see section 11 in the data sheet for additional options.) Sales Code Description Package ZSC31010CEB ZSC31010 Die — Temperature range: -50°C to +150°C Unsawn on Wafer

ZSC31010CEC ZSC31010 Die — Temperature range: -50°C to +150°C Sawn on Wafer Frame

ZSC31010CEG1 ZSC31010 SOP8 (150 mil) — Temperature range: -50°C to +150°C Tube: add “-T” to sales code Reel: add “-R”

ZSC31010KIT ZSC31010 ZACwire™ SSC Evaluation Kit: Communication Board, SSC Board, Sensor Replacement Board, USB Cable, 5 IC Samples

Kit

Sales and Further Information www.zmdi.com [email protected] Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden, Germany Central Office: Phone +49.351.8822.0 Fax +49.351.8822.600

ZMD America, Inc. 1525 McCarthy Blvd., #212 Milpitas, CA 95035-7453 USA

USA Phone +855.275.9634

Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg. 4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan

ZMD FAR EAST, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Zentrum Mikroelektronik Dresden AG, Korea Office U-space 1 Building 11th Floor, Unit JA-1102 670 Sampyeong-dong Bundang-gu, Seongnam-si Gyeonggi-do, 463-400 Korea Phone +82.31.950.7679 Fax +82.504.841.3026

Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

European Technical Support Phone +49.351.8822.7.772 Fax +49.351.8822.87.772

DISCLAIMER: This information applies to a product under development. Its characteristics and specifications are subject to change without notice. Zentrum Mikroelektronik Dresden AG (ZMD AG) assumes no obligation regarding future manufacture unless otherwise agreed to in writing. The information furnished hereby is believed to be true and accurate. However, under no circumstances shall ZMD AG be liable to any customer, licensee, or any other third party for any special, indirect, incidental, or consequential damages of any kind or nature whatsoever arising out of or in any way related to the furnishing, performance, or use of this technical data. ZMD AG hereby expressly disclaims any liability of ZMD AG to any customer, licensee or any other third party, and any such customer, licensee and any other third party hereby waives any liability of ZMD AG for any damages in connection with or arising out of the furnishing, performance or use of this technical data, whether based on contract, warranty, tort (including negligence), strict liability, or otherwise.

European Sales (Stuttgart) Phone +49.711.674517.55 Fax +49.711.674517.87955


ZSC31014RBiciLiteTM Digital Output Sensor Signal Conditioner

ZSC31014 RBiciLite

TM Digital Output Sensor Signal Conditioner

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.63 — December 10, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


Vsupply(2.7V to 5.5V)

GND

0.1µF

VSS VDD

BSINK INT/SS

VBP SDA/MISO

VBN SCL/SCLK

ZSC31014

Brief Description The ZSC31014 is a CMOS integrated circuit for highly accurate amplification and analog-to-digital conversion of differential and half-bridge input signals. The ZSC31014 can compensate the mea-sured signal for offset, 1st and 2nd order span, and 1st and 2nd order temperature (Tco and Tcg). It is well suited for sensor-specific correction of bridge sen-sors. Digital compensation of signal offset, sensitivity, temperature drift, and non-linearity is accomplished via an internal digital signal processor running a correction algorithm with calibration coefficients stored in a non-volatile EEPROM. The ZSC31014 is adjustable to nearly all piezo-resistive bridge sensors. Measured and corrected bridge values are provided at digital output pins, which can be configured as I2C™* or SPI. The digital I2C™ interface can be used for a simple PC-controlled calibration procedure to program cali-bration coefficients into an on-chip EEPROM. The calibrated ZSC31014 and a specific sensor are mated digitally: fast, precise, and without the cost overhead associated with trimming by external devices or laser trimming. The ZSC31014’s integrated diagnostics functions are well suited for safety-critical applications.

Features High accuracy (±0.1% FSO @ -25 to +85°C;

±0.25% FSO @ -40 to +125°C) 2nd order charge-balancing analog-to-digital

converter provides low noise, 14-bit data at sample rates exceeding 2kHz

Fast power-up to data output response: 3ms at 4MHz

Digital compensation of sensor offset, sensitivity, temperature drift, and non-linearity

Eight programmable analog gain settings com-bine with a digital gain term; accommodates bridges with spans <1mV/V and high offset

Internal temperature compensation for sensor correction and for corrected temperature output

48-bit customer ID field for module traceability

* I2C™ is a trademark of NXP.

Benefits Simple PC-controlled configuration and single-

pass digital calibration via I2C™ interface – quick and precise; SPI option for measurement mode

Eliminates need for external trimming components

On-chip diagnostic features add safety to the application (e.g., EEPROM signature, bridge connection checks, bridge short detection).

Low-power Sleep Mode lengthens battery life Enables multiple sensor networks

Available Support Evaluation Kit Application Notes Mass Calibration Solution

Physical Characteristics Wide supply voltage capability: 2.7V to 5.5V Current consumption as low as 70μA depending

on programmed sample rate Low-power Sleep Mode (<2μA @ 25°C) Operation temperature: -40°C to +125°C Small SOP8 package

ZSC31014 Application: I2C™ Interface, Low-Power Bsink Option, Internal Temperature Correction


ZSC31014 RBiciLite

TM Digital Output Sensor Signal Conditioner

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.63 — December 10, 2013 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

INMUX PreAmp

VDD(2.7V - 5.5V)

VSS

EEPROM w/Charge Pump& Checksum

DSPCore

POR/Oscillator

AD

14-Bit ADC

I2C or SPIInterface

TemperatureReference

VBP

RBiciLite™ZSC31014

Bsupply

OptionalBsink

0.1µF

INT/SS

SDA/MISO

SCL/SCLK

SensorDiagnostics

VBN

Vsupply 5V

GND

0.1µF

OUT/

VBP VBN

VSS VDD

SDA/MISO SCL/SCLK

INT/SS BSINK

ZSC31014 e.g. HIH4000


Application: Half-Bridge Voltage Measurement Application: Generic Differential A2D Converter

Ordering Examples (Refer to section 10 in the data sheet for additional options.)

Sales Code Description Package ZSC31014EAB ZSC31014 Die — Temperature range: -40°C to +125°C Unsawn on Wafer

ZSC31014EAC ZSC31014 Die — Temperature range: -40°C to +125°C Sawn on Wafer Frame

ZSC31014EAG1 ZSC31014 SOP8 (150 mil) — Temperature range: -40° to +125°C Tube: add “-T” to sales code / Reel: add “-R”

ZSC31014KIT ZSC31014 SSC Evaluation Kit: Communication Board, SSC Board, Sensor Replacement Board, USB Cable, 5 IC Samples (software can downloaded on www.zmdi.com/zsc31014)

Kit



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199




Applications: Industrial: building automation, data loggers, pressure meters, leak detection monitoring Medical: infusion pumps, blood pressure meters, air mattresses, apnea monitors White Goods / Appliances: fluid level, refrigerant Consumer: body monitors, portable monitors, desktop weather stations, bathroom scales, toys/games

Differential Signal from Any Source

V Supply

GND

0 . 1 µF

VSS BSINK VBP VBN

VDD INT / SS

SDA / MISO SCL / SCLK

ZSC31014


ZSC31015RBicdLite™ Analog Output Sensor Signal Conditioner w/ Diagnostic Features

ZSC31015 RBicdLite™ Analog Output Sensor Signal Conditioner w/ Diagnostic Features

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 2.11— December 11, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


ZSC31015 VBP

VBN VSS

SIG™

Vgate 0.1 F

V supply

Ground

+2.7 to +5.5 V

OUT/OWI

VDD

Brief Description The ZSC31015 is adjustable to nearly all piezo-resistive bridge sensors. Measured and corrected bridge values are provided at the SIG™ pin, which can be configured as an analog voltage output or as a one-wire serial digital output.

The digital one-wire interface (OWI) can be used for a simple PC-controlled calibration procedure to prog-ram a set of calibration coefficients into an on-chip EEPROM. The calibrated ZSC31015 and a specific sensor are mated digitally: fast, precise, and without the cost overhead associated with trimming by external devices or laser. Integrated diagnostics functions make the ZSC31015 particularly well suited for automotive applications.*


temperature drift, and non-linearity Programmable analog gain and digital gain;

accommodates bridges with spans < 1mV/V and high offset

Many diagnostic features on chip (e.g., EEPROM signature, bridge connection checks, bridge short detection, power loss detection)

Independently programmable high and low clipping levels

24-bit customer ID field for module traceability Internal temperature compensation reference

(no external components) Option for external temperature compensation

with addition of single diode Output options: rail-to-rail ratiometric analog

voltage (12-bit resolution), absolute analog voltage, digital one-wire interface

Fast power-up to data out response; output available 5ms after power-up

Current consumption depends on programmed sample rate: 1mA down to 250A (typical)

Fast response time: 1ms (typical) High voltage protection up to 30V with

external JFET


calibration via one-wire interface High accuracy: ±0.1% FSO @ -25 to 85°C;

±0.25% FSO @ -50 to 150°C Single-pass calibration – quick and precise

Available Support Evaluation Kit available Mass Calibration System available Support for industrial mass calibration available Quick circuit customization possible for large

production volumes

Physical Characteristics Wide operation temperature: –50°C to +150°C Supply voltage 2.7 to 5.5V; with external JFET,

5.5 to 30V Small SOP8 package

ZSC31015 Application Circuit

* Not AEC-Q100-qualified.


ZSC31015 RBicdLite™ Analog Output Sensor Signal Conditioner w/ Diagnostic Features


Highly Versatile Applications in Many Markets Including Industrial Building Automation Office Automation White Goods Automotive * Portable Devices Your Innovative Designs

* Not AEC-Q100-qualified.

Analog Block

Digital Block

RBicdLiteZSC31015

0.1 F

VSS

VBP

12-BitDAC

OUTBUF1

ZACwireTM

InterfaceDigitalCore

EEPROMwith Charge

Pump

PREAMPINMUX


VDDRegulator

Power Save

POR/Oscillator

VBN

Vgate

SIGTM

Bsink(Optional)

VDD (2.7 to 5.5 V)

JFET1

(Optional if supply is 2.7 to 5.5 V)DS VSUPPLY

5.5 V to 30 V

SensorDiagnostics

Ext Temp

Power LostDiagnostic

AD

14-Bit ADC

_

+

PTAT

OptionalExt. Diodefor Temp


2

1

5

6

7

8

3

4

ZSC31015

Bsink

VBP

ExtTemp

VBN

VSS

SigTM

VDD

Vgate

0.1 F

Vsupply

Ground

+2.7 to +5.5 V

OUT

Optional Bsink

2

1

5

6

7

8

3

4

ZSC31015

Bsink

VBP

ExtTemp

VBN

VSS

SigTM

VDD

Vgate

0.1 F

Vsupply

Ground

+5.5 to +30 V

OUT

Optional Bsink

S DBSS169



Ordering Examples (See section 11 of the data sheet for additional temperature range options.)

Sales Code Description Package ZSC31015EEB ZSC31015 Die — Temperature range: -50°C to +150°C Unsawn on Wafer

ZSC31015EEC ZSC31015 Die — Temperature range: -50°C to +150°C Sawn on Wafer Frame

ZSC31015EEG1 ZSC31015 SOP8 (150 mil) — Temperature range: -50°C to +150°C Tube: add “-T” to sales code. Reel: add “-R”

ZSC31015KIT ZSC31015 ZACwire™ SSC Evaluation Kit: Communication Board, SSC Board, Sensor Replacement Board, USB Cable, 5 IC Samples (SOP8 150mil) (ZACwire™ SSC Evaluation Software can be downloaded from www.zmdi.com/zsc31015)

Kit



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199






ZSC31050 Advanced Differential Sensor Signal Conditioner

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.20 —May 11, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

Brief Description ZSC31050 is a CMOS integrated circuit for highly accurate amplification and sensor-specific correction of bridge sensor and temperature sensor signals. The device provides digital compensation of sensor offset, sensitivity, temperature drift, and non-linearity via a 16-bit RISC microcontroller running a polyno-mial correction algorithm. The ZSC31050 accommodates virtually any bridge sensor type (e.g., piezo-resistive, ceramic thick-film, or steel membrane based). In addition, it can inter-face to a separate temperature sensor. The bi-direc-tional digital interfaces (I2C™*, SPI, and ZACwire™) can be used for a simple PC-controlled one-pass calibration procedure to program a set of calibration coefficients into an on-chip EEPROM. A specific sensor and a ZSC31050 can be mated digitally: fast, precise and without the cost overhead associated with trimming by external devices or laser. The ZACwire™ interface enables an end-of-line calibra-tion of the sensor module. Typical applications for the ZSC31050 include indus-trial, medical, and consumer products. It is specifi-cally engineered for most resistive bridge sensors; e.g., sensors for measuring pressure, force, torque, acceleration, angle, position, and revolution.

Benefits No external trimming components required PC-controlled configuration and calibration via

digital bus interface – simple, low cost High accuracy (±0.1% FSO @ -25 to 85°C;

±0.25% FSO @ -40 to 125°C) †

Available Support Evaluation kit available Support for industrial mass calibration available Quick circuit customization possible for large

production volumes

* I2C™ is a trademark of NXP. † Digital output signal.


temperature drift, and nonlinearity Accommodates nearly all resistive bridge sensor

types (signal spans from 1mV/V up to 275mV/V) Digital one-pass calibration: quick and precise Selectable compensation temperature source:

bridge, thermistor, or internal or external diode Output options: voltage (0 to 5V), current

(4 to 20mA), PWM, I2C™, SPI, ZACwire™ (one-wire interface), alarm

Adjustable output resolution (up to 15 bits) versus sampling rate (up to 3.9kHz)

Current consumption: 2.5mA (typical) Selectable bridge excitation: ratiometric voltage,

constant voltage, or constant current Input channel for separate temperature sensor Sensor connection and common mode check

(sensor aging detection) AEC-Q100 qualification (temperature grade 0)

Physical Characteristics Operation temperature -40 to +125°C (-40 to

+150°C de-rated, depending on product version) Supply voltage: 2.7 to 5.5 V; with external JFET:

5 to 40 V Available in SSOP16 package or as die

ZSC31050 Overview

OUT

VCC

GND

Sensor Module

ZSC31050

ZSC31050Advanced Differential Sensor Signal Conditioner







±0.25% FSO @ -40 to 125°C) †


production volumes














ZSC31050 Overview

OUT

VCC

GND

Sensor Module

ZSC31050







±0.25% FSO @ -40 to 125°C) †


production volumes














ZSC31050 Overview

OUT

VCC

GND

Sensor Module

ZSC31050



© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.20 — May 11, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.


Ordering Information (Please refer to section 8 in the data sheet for additional options.)

Product Sales Code Description Package

ZSC31050FEB ZSC31050 Die — Temperature range: -40°C to +150°C Unsawn on Wafer

ZSC31050FEC ZSC31050 Die — Temperature range: -40°C to +150°C Sawn on Wafer Frame

ZSC31050FEG1 ZSC31050 SSOP-16 — Temperature range: -40°C to +150°C Tube: add “-T” to sales code

Reel: add “-R”

ZSC31050KIT Evaluation Kit V3.0

Modular ZSC31050 SSC Evaluation Kit: three interconnecting boards, five ZSC31050 SSOP-16 samples

Kit

ZSC31050 Mass Calibration System V1.1

Modular Mass Calibration System (MSC) for ZSC31050: MCS boards, cable, connectors

Kit

GainFactor

Sensor Bridge

Ext. Temp. Sens.

Int. Temp. Sensor

Analog Front-End (AFE)

MUX ADCPGA

+

ExternalTemperature

Sensor

IR_TEMP

VBR

VINP

VINN

Digital Section

Temp. Sens.Select

ADC ModeOffsetShift

CTRL-REGS SCLSIF SDA

PCOMP

FIO1

FIO2

OUT /OWI

IO1IO2

DAC

PWM

Interfaces

CMC

EEPROM

RAM

IN3

Typical Applications: Consumer Goods Weight scales Flow meters Strain gauges Load meters HVAC

Industrial Applications 4-20mA transmitters Intelligent sensor networks Process automation

Factory automation

Portable Devices Altimeters Blood pressure

monitors

Automotive Sensors* Oil pressure Temperature sensing Strain gauges

* AEC-Q100 qualified



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.20 — May 11, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.


Ordering Information (Please refer to section 8 in the data sheet for additional options.)


ZSC31050FEB ZSC31050 Die — Temperature range: -40°C to +150°C Unsawn on Wafer

ZSC31050FEC ZSC31050 Die — Temperature range: -40°C to +150°C Sawn on Wafer Frame

ZSC31050FEG1 ZSC31050 SSOP-16 — Temperature range: -40°C to +150°C Tube: add “-T” to sales code

Reel: add “-R”


Modular ZSC31050 SSC Evaluation Kit: three interconnecting boards, five ZSC31050 SSOP-16 samples

Kit


Modular Mass Calibration System (MSC) for ZSC31050: MCS boards, cable, connectors

Kit

GainFactor

Sensor Bridge

Ext. Temp. Sens.

Int. Temp. Sensor


MUX ADCPGA

+

ExternalTemperature

Sensor

IR_TEMP

VBR

VINP

VINN

Digital Section

Temp. Sens.Select

ADC ModeOffsetShift

CTRL-REGS SCLSIF SDA

PCOMP

FIO1

FIO2

OUT /OWI

IO1IO2

DAC

PWM

Interfaces

CMC

EEPROM

RAM

IN3

Typical Applications: Consumer Goods Weight scales Flow meters Strain gauges Load meters HVAC

Industrial Applications 4-20mA transmitters Intelligent sensor networks Process automation

Factory automation

Portable Devices Altimeters Blood pressure

monitors

Automotive Sensors* Oil pressure Temperature sensing Strain gauges

* AEC-Q100 qualified



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





ZSC31150Fast Automotive Sensor Signal Conditioner


ZSC31150 Fast Automotive Sensor Signal Conditioner

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 2.30— August 27, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

Brief Description The ZSC31150 is a CMOS integrated circuit for highly accurate amplification and sensor-specific correction of bridge sensor signals. Digital com-pensation of sensor offset, sensitivity, temperature drift, and non-linearity is accomplished via an inter-nal 16-bit RISC microcontroller running a correction algorithm, with calibration coefficients stored in an EEPROM. The ZSC31150 is adjustable to nearly all bridge sen-sor types. Measured values are provided at the analog voltage output or at the digital ZACwire™ and I²C™* interface. The digital interface can be used for a simple PC-controlled calibration proce-dure in order to program a set of calibration coeffi-cients into an on-chip EEPROM. A specific sensor and a ZSC31150 can be mated digitally: fast, precise, and without the cost overhead associated with trimming by external devices or a laser.


temperature drift, and non-linearity Adjustable to nearly all bridge sensor types Analog gain of up to 420 Output options: ratiometric analog voltage output

(5% to 95% maximum, 12.4-bit resolution) or ZACwire™ (digital one-wire-interface)

Temperature compensation: internal or external diode, bridge resistance, thermistor

Sensor biasing by voltage or constant current Sample rate: up to 7.8kHz High voltage protection up to 33V Supply current: max. 5.5mA Reverse polarity and short-circuit protection Wide operation temperature depending on part

number: up to -40 to +150°C Traceability by user-defined EEPROM entries Safety and diagnostic functions

* I²C™ is a trademark of NXP.

Benefits No external trimming components required Only a few external protection devices needed PC-controlled configuration and single pass

calibration via I²C™ or ZACwire™ interface: simple, cost efficient, quick, and precise

End-of-line calibration via I²C™ or ZACwire™ interface

High accuracy (0.25% FSO @ -25 to 85°C; 0.5% FSO @ -40 to 125°C)

Excellent EMC/ESD robustness and AEC-Q100 qualification

Available Support Evaluation Kits Application Notes Mass Calibration System

Physical Characteristics Supply voltage: 4.5 to 5.5 V Operation temperature: -40°C to 125°C

(-40°C to +150°C extended temperature range) Available as DFN14 (5mm x 4mm; wettable

flanks), SSOP14, and die


Serial Interface

Sensor Bridge

SDA

SCL

Out / OWI

GND

VSUPPC3

47nF+4.5V to +5.5V

ZSC

3115

0

2

1

3

4

6

5

7

14

13

11

12

10

VDDA

VSSA

SDA

SCL

n.c.

VDD

VDDE

IRTEMP

VBR_T

VBP

VBR_B

VBN

AOUT

VSSE

9

8

C2100nF

C1100nF

Temperature Sensor

C5C4



© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 2.20— April 30, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.
















(-40°C to +150°C de-rated, depending on product version)

Available as DFN14 (5mm x 4mm; wettable flanks), SSOP14, and die (3.84mm x 2.30mm)


Serial Interface

Sensor Bridge

SDA

SCL

Out / OWI

GND

VSUPPC3

47nF+4.5V to +5.5V

ZSC

3115

0

2

1

3

4

6

5

7

14

13

11

12

10

VDDA

VSSA

SDA

SCL

n.c.

VDD

VDDE

IRTEMP

VBR_T

VBP

VBR_B

VBN

AOUT

VSSE

9

8

C2100nF

C1100nF

Temperature Sensor

C5C4



© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 2.30— August 27, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.
















(-40°C to +150°C extended temperature range) Available as DFN14 (5mm x 4mm; wettable

flanks), SSOP14, and die


Serial Interface

Sensor Bridge

SDA

SCL

Out / OWI

GND

VSUPPC3

47nF+4.5V to +5.5V

ZSC

3115

0

2

1

3

4

6

5

7

14

13

11

12

10

VDDA

VSSA

SDA

SCL

n.c.

VDD

VDDE

IRTEMP

VBR_T

VBP

VBR_B

VBN

AOUT

VSSE

9

8

C2100nF

C1100nF

Temperature Sensor

C5C4



© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 2.30— August 27, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.


PGA

TS

ADC CMC

ROM

RAM EEPROM

DAC BAMP

ZACwire™I2C™

MUX

Analog Block

Digital BlockZSC31150

DigitalData I/O

AnalogOut

Ordering Information Sales Code Description Package

ZSC31150GE ZSC31150 Die, 3.84mmx2.30mm — Temperature range: -40°C to +150°C

Unsawn on Wafer: add “B” to sales code Sawn on Wafer Frame: add “C” Waffle Pack: add “D”

ZSC31150GEG2-R ZSC31150 DFN14 (5mmx4mm; wettable flanks) —Temperature range: -40°C to 150°C

Tape & Reel

ZSC31150GAG2-R ZSC31150 DFN14 (5mmx4mm; wettable flanks) —Temperature range: -40°C to 125°C

Tape & Reel

ZSC31150GEG1 ZSC31150 SSOP14—Temperature range: -40°C to +150°C Tube: add “-T” to sales code Tape & Reel: add “-R”

ZSC31150GLG1 ZSC31150 SSOP14—Temperature range: -40°C to +150°C (Long life: 5000h @150°C)

ZSC31150GAG1 ZSC31150 SSOP14—Temperature range: -40°C to +125°C


ZSC31150 SSC Evaluation Kit: three interconnecting boards, five ZSC31150 SSOP14 samples, USB cable (software can be downloaded from product page at www.zmdi.com/zsc31150)


Modular Mass Calibration System (MSC) for ZSC31150: MCS boards, cable, connectors (software can be downloaded from product page)



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 2.30— August 27, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.


PGA

TS

ADC CMC

ROM

RAM EEPROM

DAC BAMP

ZACwire™I2C™

MUX

Analog Block

Digital BlockZSC31150

DigitalData I/O

AnalogOut


ZSC31150GE ZSC31150 Die, 3.84mmx2.30mm — Temperature range: -40°C to +150°C

Unsawn on Wafer: add “B” to sales code Sawn on Wafer Frame: add “C” Waffle Pack: add “D”

ZSC31150GEG2-R ZSC31150 DFN14 (5mmx4mm; wettable flanks) —Temperature range: -40°C to 150°C

Tape & Reel

ZSC31150GAG2-R ZSC31150 DFN14 (5mmx4mm; wettable flanks) —Temperature range: -40°C to 125°C

Tape & Reel

ZSC31150GEG1 ZSC31150 SSOP14—Temperature range: -40°C to +150°C Tube: add “-T” to sales code Tape & Reel: add “-R”

ZSC31150GLG1 ZSC31150 SSOP14—Temperature range: -40°C to +150°C (Long life: 5000h @150°C)

ZSC31150GAG1 ZSC31150 SSOP14—Temperature range: -40°C to +125°C


ZSC31150 SSC Evaluation Kit: three interconnecting boards, five ZSC31150 SSOP14 samples, USB cable (software can be downloaded from product page at www.zmdi.com/zsc31150)


Modular Mass Calibration System (MSC) for ZSC31150: MCS boards, cable, connectors (software can be downloaded from product page)



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





ZSSC3015RBicdLite-Auto™ Sensor Signal Conditioner with Diagnostics

ZSSC3015 RBicdLite-Auto™ Sensor Signal Conditioner with Diagnostics

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.11 —December 11, 2013 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


ZSSC3015 VBP

VBN VSS

Sig™

Vgate 0.1 F

V supply

Ground

+2.7 to +5.5 V

OUT/OWI

VDD

Brief Description The ZSSC3015 sensor signal conditioner is adjust-able to nearly all piezo-resistive bridge sensors. Measured and corrected bridge values are provided at the Sig™ pin, which can be configured as an analog voltage output or as a one-wire serial digital output.

The ZACwire™ digital one-wire interface (OWI) can be used for a simple PC-controlled calibration procedure to program a set of calibration coefficients into an on-chip EEPROM. The calibrated ZSSC3015 and a specific sensor are mated digitally: fast, precise, and without the cost overhead associated with trimming by external devices or laser. Integrated diagnostics functions make the ZSSC3015 IC parti-cularly well suited for automotive applications.


temperature drift, and nonlinearity Programmable analog gain and digital gain;




24-bit customer ID field for module traceability Internal temperature compensation reference (no

external components) Option for external temperature compensation


voltage (12-bit resolution), absolute analog voltage, ZACwire™ digital one-wire interface


Current consumption depends on programmed sample rate and mode: 1mA down to 300µA (typ.)

Fast response time: 1.4ms typical High voltage protection: ≤ 30V with external JFET AEC-Q100 qualified


ZACwire™ one-wire interface – simple, low cost High accuracy (as high as ±0.1% FSO @ -25 to

85°C; ±0.25% FSO @ -50 to 150°C) Single-pass calibration – quick and precise


production volumes



ZSSC3015 Application Circuit




ZSSC3015 VBP

VBN VSS

Sig™

Vgate 0.1 F

V supply

Ground

+2.7 to +5.5 V

OUT/OWI

VDD



















production volumes







ZSSC3015 VBP

VBN VSS

Sig™

Vgate 0.1 F

V supply

Ground

+2.7 to +5.5 V

OUT/OWI

VDD



















production volumes






© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.11—December 11, 2013 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

2

1

5

6

7

8

3

4

ZSSC3015

Bsink

VBP

ExtTemp

VBN

VSS

SigTM

VDD

Vgate

0.1 F

Vsupply

Ground

+2.7 to +5.5 V

OUT

Optional Bsink

2

1

5

6

7

8

3

4

ZSSC3015

Bsink

VBP

ExtTemp

VBN

VSS

SigTM

VDD

Vgate

0.1 F

Vsupply

Ground

+5.5 to +30 V

OUT

Optional Bsink

S DBSS169

Highly Versatile Applications in Many Markets Including

Industrial Building Automation Office Automation White Goods Automotive Portable Devices Your Innovative Designs Analog Block

Digital Block

RBicdLite-AutoZSSC3015

0.1 F

VSS

VBP

12-BitDAC

OUTBUF1

ZACwireTM

InterfaceDigitalCore

EEPROMwith Charge

Pump

PREAMPINMUX


VoltageReference

Power Save

POR/Oscillator

VBN

Vgate

SigTM

Bsink(Optional)

VDD (2.7 to 5.5 V)

JFET1

(Optional if supply is 2.7 to 5.5 V)DS VSUPPLY

5.5 V to 30 V

SensorDiagnostics

ExtTemp

Power LostDiagnostic

AD

14-Bit ADC

_

+

PTAT

OptionalExt. Diodefor Temp


ZSSC3015 Block Diagram


Part Ordering Examples (See section 11 in the data sheet for additional options.)

Sales Code Description Package ZSSC3015NE1B ZSSC3015 Die — Temperature range: -50°C to +150°C Unsawn on Wafer

ZSSC3015NE1C ZSSC3015 Die — Temperature range: -50°C to +150°C Sawn on Wafer Frame

ZSSC3015NE2T(R) ZSSC3015 SOP8 (150 mil) — Temperature range: -50°C to +150°C Tube: add “-T” to sales code. Reel: add “-R”

ZSSC3015KIT ZSSC3015 SSC Evaluation Kit: Communication Board, SSC Board, Sensor Replacement Board, USB cable, 5 IC samples, instructions for downloading SSC Evaluation Software

Kit



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





ZSSC3131Sensor Signal Conditioner for Cost-Optimized Switch Applications

ZSSC3131 Sensor Signal Conditioner for Cost-Optimized Switch Applications

© 2014 Zentrum Mikroelektronik Dresden AG — Rev.1.23 — April 15, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


GND

OUT

VCC

SensorModule

ZSSC3131

Brief Description The ZSSC3131 is a member of the ZSSC313x product family of CMOS integrated circuits designed for automotive/ industrial sensor applications. All family members are well suited for highly-accurate amplification and sensor-specific correction of resistive bridge sensor signals. An internal 16-bit RISC microcontroller running a correction algorithm compensates sensor offset, sensitivity, temperature drift, and non-linearity of the connected sensor element. The required calibration coefficients are stored by the one-pass calibration procedure in an on-chip EEPROM. The ZSSC3131 is optimized for simple switch and cost-sensitive sensor applications. The integrated adjustable digital filter enables building fast-switch-ing real-time applications as well as stabilized applications for switching input signals that are unstable or disrupted.

Features Adjustable to nearly all resistive bridge sensor

types: maximum analog gain of 105; maximum overall gain of 420

Sample rate up to 200 Hz ADC resolution 13/14 bit Internal temperature compensation Integrated adjustable digital filter Digital compensation of sensor offset, sensitivity,

temperature drift, and non-linearity Output options: ratiometric analog voltage output

(5 - 95% maximum, 12.4 bit resolution) or ZACwireTM (digital One-Wire Interface (OWI))

Sensor biasing by voltage High voltage protection up to 33 V Supply current: Max. 5.5mA Reverse polarity and short circuit protection Wide operation temperature range:

-40 to +150°C Traceability by user-defined EEPROM entries

* Note: I2C™ is a trademark of NXP. ** FSO = Full Scale Output.

Benefits Family approach offers the best fitting IC selec-

tion to build cost-optimized applications No external trimming components required Low number of external components needed PC-controlled configuration and One-Pass/ end-

of-line calibration via I²C™* or ZACwire™ interface: Simple, cost-efficient, quick, and pre-cise

High accuracy (0.25% FSO** @ -25 to +85°C; 0.5% FSO @ -40 to +125°C)

Optimized for automotive/industrial environments due to robust protection circuitries, excellent electromagnetic compatibility, and AEC-Q100 qualification


Physical Characteristics Supply voltage 4.5 to 5.5 V Operation temperature: -40°C to +125°C

(-40°C to +150°C extended temperature range depending on product version)

Available in RoHS-compliant JEDEC-SSOP14 package or delivery as die

ZSSC3131 Minimum Application Requirements



© 2014 Zentrum Mikroelektronik Dresden AG — Rev.1.23 — April 15, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

ZSSC3131 Switch Application Example

Sensor Bridge

GND

VSUPPC3

47nF +4.5V to +5.5V

ZSSC

3131

2

1

3

4

6

5

7

14

13

11

12

10

VDDA

VSSA

SDA

SCL

n.c.

VDD

VDDE

N.C.

VBR_T

VBP

VBR_B

VBN

AOUT

VSSE

9

8

C2100nF

C1100nF

C5C4

Out µC13

12

GPIO

VSUPP

Out

VSUPP

14 GND

R12kΩ

Ordering Information (See data sheet section 8 for complete delivery options.)


ZSSC3131BE1 ZSSC3131 die – tested; temperature range -40 to +150°C Unsawn wafer: add “B” to sales code Die on frame: add “C” to sales code

ZSSC3131BA1 ZSSC3131 die – tested; temperature range -40 to +125°C Unsawn wafer: add “B” to sales code Die on frame: add “C” to sales code

ZSSC3131BE2 ZSSC3131 SSOP14 – temperature range -40 to +150°C Tube: add “T” to sales code Tape & Reel: add “R”

ZSSC3131BA2 ZSSC3131 SSOP14 – temperature range -40 to +125°C Tube: add “T” to sales code Tape & Reel: add “R”

ZSSC313xKITV1.1 ZSSC313x Evaluation Kit, revision 1.1, including Evaluation Board, ZSSC3131 IC samples, USB cable (software can be downloaded from the product page www.zmdi.com/zssc3131)

Kit

ZSSC313x Mass Calibration System V1.1

Modular Mass Calibration System (MSC) for ZSSC313x including MCS boards, cable, connectors (software can be downloaded from the product page www.zmdi.com/zssc3131)

Kit



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





© 2014 Zentrum Mikroelektronik Dresden AG — Rev.1.23 — April 15, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.


Sensor Bridge

GND

VSUPPC3

47nF +4.5V to +5.5V

ZSSC

3131

2

1

3

4

6

5

7

14

13

11

12

10

VDDA

VSSA

SDA

SCL

n.c.

VDD

VDDE

N.C.

VBR_T

VBP

VBR_B

VBN

AOUT

VSSE

9

8

C2100nF

C1100nF

C5C4

Out µC13

12

GPIO

VSUPP

Out

VSUPP

14 GND

R12kΩ








Kit



Kit



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





ZSSC3135Sensor Signal Conditioner for Piezoresistive Bridge Sensors

ZSSC3135 Sensor Signal Conditioner for Piezoresistive Bridge Sensors

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.23—April 17, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


GND

OUT

VCC

SensorModule

ZSSC3135

Brief Description The ZSSC3135 is a member of the ZSSC313x family of CMOS integrated circuits designed for automotive/industrial sensor applications. All family members are well suited for highly accurate amp-lification and sensor-specific correction of resistive bridge sensor signals. An internal 16-bit RISC microcontroller running a correction algorithm compensates sensor offset, sensitivity, temperature drift, and non-linearity of the connected sensor element. The required calibration coefficients are stored by the one-pass calibration procedure in an on-chip EEPROM. The ZSSC3135 is specially designed for piezo-resistive bridge sensor elements. The amplification stage with an analog gain of 105 in combination with optional temperature compensation via an external temperature sensor meets or exceeds the require-ments of piezoresistive sensor applications.


types: analog gain of up to 105, maximum overall gain of 420

Sample rate up to 200 Hz ADC resolution 13/14 bit Safety functionality sensor connection External temperature sensor Digital compensation of sensor offset, sensitivity,


(5 - 95% maximum, 12.4 bit resolution) or ZACwire™ (digital One-Wire Interface (OWI))

Sensor biasing by voltage High voltage protection up to 33 V Supply current: max. 5.5mA Reverse polarity and short circuit protection Wide operation temperature range:

-40 to +150°C Traceability by user-defined EEPROM entries



tion to build cost-optimized applications No external trimming components required Low number of external components needed PC-controlled configuration and one-pass/

end-of-line calibration via I²C™* or ZACwireTM interface: simple, cost-efficient, quick, and pre-cise

High accuracy: 0.25% FSO** @ -25 to +85°C; 0.5% FSO @ -40 to +125°C

Optimized for automotive/industrial environments due to robust protection circuitries, excellent electromagnetic compatibility and AEC-Q100 qualification


Physical Characteristics Supply voltage: 4.5 to 5.5 V Operation temperature: -40°C to +125°C






© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.23—April 17, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

ZSSC3135 Application Example

Serial Interface

Sensor Bridge

SDA

SCL

Out / OWI

GND

VSUPPC3

47nF+4.5V to +5.5V

ZSSC

3135

2

1

3

4

6

5

7

14

13

11

12

10

VDDA

VSSA

SDA

SCL

n.c.

VDD

VDDE

IRTEMP

VBR_T

VBP

VBR_B

VBN

AOUT

VSSE

9

8

C2100nF

C1100nF

C5

R1

C4

Temperature Sensor







ZSSC313xKITV1.1 ZSSC313x Evaluation Kit, revision 1.1 including Evaluation Board, ZSSC3135 IC samples, USB cable (software can be downloaded from the product page www.zmdi.com/zssc3135)

Kit



Kit



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

European Technical Support Phone: +49.351.8822.306 Fax: +49.351.8822.337




© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.23—April 17, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.


Serial Interface

Sensor Bridge

SDA

SCL

Out / OWI

GND

VSUPPC3

47nF+4.5V to +5.5V

ZSSC

3135

2

1

3

4

6

5

7

14

13

11

12

10

VDDA

VSSA

SDA

SCL

n.c.

VDD

VDDE

IRTEMP

VBR_T

VBP

VBR_B

VBN

AOUT

VSSE

9

8

C2100nF

C1100nF

C5

R1

C4

Temperature Sensor







ZSSC313xKITV1.1 ZSSC313x Evaluation Kit, revision 1.1 including Evaluation Board, ZSSC3135 IC samples, USB cable (software can be downloaded from the product page www.zmdi.com/zssc3135)

Kit



Kit



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

European Technical Support Phone: +49.351.8822.306 Fax: +49.351.8822.337




ZSSC3136Sensor Signal Conditioner for Safety Switch Applications

ZSSC3136 Sensor Signal Conditioner for Safety Switch Applications



GND

OUT

VCC

SensorModule

ZSSC3136

Brief Description The ZSSC3136 is a member of the ZSSC313x family of CMOS integrated circuits for automotive/ industrial sensor applications. All family members are well suited for highly accurate amplification and sensor-specific correction of resistive bridge sensor signals. An internal 16-bit RISC microcontroller running a correction algorithm compensates sensor offset, sensitivity, temperature drift, and non-linearity of the connected sensor element. The required calibration coefficients are stored by the one-pass calibration procedure in an on-chip EEPROM. The ZSSC3136 is optimized for SIL (Safety Integrity Level) rated switch applications. The integrated adjustable digital filter offers the possibility of setting up fast switching real-time applications as well as stabilized switching applications in the case of disturbed or unstable input signals. In addition to the general features for switch appli-cations, the ZSSC3136 offers the capability to set up safety-relevant SIL2 rated switches due to its extended safety functionalities.

Features Analog gain of 105, maximum overall

gain of 420 Sample rate: 200 Hz maximum ADC resolution: 13/14 bit External temperature sensor Safety functionalities: Calibration microcontroller,

sensor connection, analog front-end Adjustable to nearly all resistive bridge sensor

types Digital compensation of sensor offset, sensitivity,


(5 - 95% in maximum, 12.4 bit resolution) or ZACwireTM (digital One-Wire Interface (OWI))

Sensor biasing by voltage High voltage protection up to 33 V Supply current: max. 5.5mA Reverse polarity and short circuit protection Wide operation temperature: -40 to +150°C Traceability by user-defined EEPROM entries


Benefits Capability for setting up SIL level 2 applications Application-focused feature set No external trimming components required Only a few external protection devices needed PC-controlled configuration and one-pass/

end-of-line calibration via I²C™* or ZACwireTM interface: simple, cost-efficient, quick, and pre-cise


Optimized for automotive/ industrial environment due to robust protection circuitries, excellent electromagnetic compatibility and AEC-Q100 qualification








© 2014 Zentrum Mikroelektronik Dresden AG — Rev.1.23 — April 15, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.


Sensor Bridge

Out

GND

VSUPPC3

47nF+4.5V to +5.5V

ZSSC

3136

2

1

3

4

6

5

7

14

13

11

12

10

VDDA

VSSA

SDA

SCL

n.c.

VDD

VDDE

IRTEMP

VBR_T

VBP

VBR_B

VBN

AOUT

VSSE

9

8

C2100nF

C1100nF

C5

R1

C4

Temperature Sensor

Out µC13

12

GPIO

VSUPP

VSUPP

14 GND

R12kΩ








Kit



Kit



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199




* Note: I2C™ is a trademark of NXP.** FSO = Full Scale Output.




Sensor Bridge

Out

GND

VSUPPC3

47nF+4.5V to +5.5V

ZSSC

3136

2

1

3

4

6

5

7

14

13

11

12

10

VDDA

VSSA

SDA

SCL

n.c.

VDD

VDDE

IRTEMP

VBR_T

VBP

VBR_B

VBN

AOUT

VSSE

9

8

C2100nF

C1100nF

C5

R1

C4

Temperature Sensor

Out µC13

12

GPIO

VSUPP

VSUPP

14 GND

R12kΩ








Kit



Kit



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





ZSSC3138Sensor Signal Conditioner for Ceramic Sensor Applications

ZSSC3138 Sensor Signal Conditioner for Ceramic Sensor Applications



Brief Description The ZSSC3138 is a member of the ZSSC313x product family of CMOS integrated circuits designed for automotive/ industrial sensor applications. All family members are well suited for highly accurate amplification and sensor-specific correction of resistive bridge sensor signals. An internal 16-bit RISC microcontroller running a correction algorithm compensates sensor offset, sensitivity, temperature drift, and non-linearity of the connected sensor element. The required calibration coefficients are stored by the one-pass calibration procedure on chip (EEPROM). The ZSSC3138 offers a maximum analog gain of 420 and two offset compensation features. These fit perfectly with the requirements of ceramic thick-film-based sensor elements as well as strain gauges. The high amplification in combination with the offset compensation offers the capability to set up ceramic thick-film-based sensor applications without laser trimming, which leads to better long-term stability.


types, analog gain of 420, maximum overall gain of 1680

Enhanced sample rate: 7.8 kHz maximum High ADC resolution 15/16 bit Safety functionality sensor connection Internal temperature compensation Digital compensation of sensor offset, sensitivity,


(5 - 95% maximum, 12.4 bit resolution) or ZACwireTM (digital One-Wire Interface (OWI))

Sensor biasing by voltage High voltage protection up to 33 V Supply current: 5.5mA maximum Reverse polarity and short circuit protection Wide operation temperature range between

-40 to +150°C Traceability by user-defined EEPROM entries * Note: I2C™ is a trademark of NXP. ** FSO = Full Scale Output.


tion to build cost-optimized applications No external trimming components required Low number of external components needed PC-controlled configuration and one-pass/

end-of-line calibration via I²C™* or ZACwire™ interface: simple, cost efficient, quick, and precise


Optimized for automotive/industrial environments due to robust protection circuitries, excellent electromagnetic compatibility and AEC-Q100 qualification






GND

OUT

VCC

SensorModule

ZSSC3138

** FSO = Full Scale Output.











ZSSC313xKITV1.1 ZSSC313x Evaluation Kit, version 1.1, including Evaluation Board, ZSSC3138 IC samples, USB cable

Kit


Modular Mass Calibration System (MSC) for ZSSC313x including MCS boards, cable, connectors

Kit

Serial Interface

Sensor Bridge

SDA

SCL

Out / OWI

GND

VSUPPC3

47nF+4.5V to +5.5V

ZSSC

3138

2

1

3

4

6

5

7

14

13

11

12

10

VDDA

VSSA

SDA

SCL

n.c.

VDD

VDDE

N.C.

VBR_T

VBP

VBR_B

VBN

AOUT

VSSE

9

8

C2100nF

C1100nF

C5C4



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199













ZSSC313xKITV1.1 ZSSC313x Evaluation Kit, version 1.1, including Evaluation Board, ZSSC3138 IC samples, USB cable

Kit


Modular Mass Calibration System (MSC) for ZSSC313x including MCS boards, cable, connectors

Kit

Serial Interface

Sensor Bridge

SDA

SCL

Out / OWI

GND

VSUPPC3

47nF+4.5V to +5.5V

ZSSC

3138

2

1

3

4

6

5

7

14

13

11

12

10

VDDA

VSSA

SDA

SCL

n.c.

VDD

VDDE

N.C.

VBR_T

VBP

VBR_B

VBN

AOUT

VSSE

9

8

C2100nF

C1100nF

C5C4



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





ZSSC3154Automotive Sensor Signal Conditioner with Dual Analog Output

ZSSC3154 Automotive Sensor Signal Conditioner with Dual Analog Output

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.41 — August 27, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


Brief Description The ZSSC3154 is an integrated circuit for highly accurate amplification and sensor-specific correction of a bridge sensor signal. Up to two temperature sensors can also be read in parallel.

The circuitry provides different configurations of the analog outputs to show two measurement results simultaneously. This also allows generating a com-plementary bridge sensor signal, which is often a requirement in safety-relevant applications.

The ZSSC3154 can measure and process two exter-nal temperature sensors to compensate the temper-ature drift of the bridge sensor signal and to output a separate temperature signal.

An integrated calibration microcontroller with an on-chip EEPROM performs the digital compensation of the sensor offset, the sensitivity, the temperature drift, and the nonlinearity of a sensor signal.

The single-pass, digital end-of-line calibration com-bined with the integrated broken-chip detection sup-ports automatic and highly efficient mass production.

Features Differential bridge sensor input Half-bridge sensor or temperature sensor input Digital compensation of offset, gain, nonlinearity,

and temperature dependency Two analog outputs; behavior programmable by

EEPROM configuration Sequential analog output mode provides two

measurement values at one output pin On-chip diagnostic and safety features including

sensor connection diagnostic and broken-chip detection

2 EEPROM words for arbitrary user data Multiple configurable output options

Benefits Bridge sensor signal validation for safety

applications via two antivalent analog outputs or via half-bridge sensor measurement output

Simultaneous measurement of sensor signals, including temperature signal for compensation and for temperature output

Efficient use of non-calibrated elements for bridge sensors and temperature sensors without external trimming components

Single-pass end-of-line calibration algorithm minimizes production costs


Available Support Evaluation Kit Application Notes Calculation Tools

Physical Characteristics Supply voltage: 4.5 to 5.5V Maximum supply voltage: 7.7V Input span: 1.8 to 267mV/V ADC resolution: 14 bit Output resolution: > 12 bit from 10% to 90% Operating temperature range: -40°C to 150°C Package: QFN32 (5x5mm; wettable flank) or die

ZSSC3154 Basic Circuit

VCC

GND

ZSSC

3154

VDDA

VSSA

SDA

SCL

VDD

AOUT1

VDDE

VTN1

VBP

VBNVSSE

VBR_T

VBR_B AOUT2

AOUT1

AOUT2

VTN2

DFBH


© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.41 — August 27, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


Brief Description The ZSSC3154 is an integrated circuit for highly accurate amplification and sensor-specific correction of a bridge sensor signal. Up to two temperature sensors can also be read in parallel.

The circuitry provides different configurations of the analog outputs to show two measurement results simultaneously. This also allows generating a com-plementary bridge sensor signal, which is often a requirement in safety-relevant applications.

The ZSSC3154 can measure and process two exter-nal temperature sensors to compensate the temper-ature drift of the bridge sensor signal and to output a separate temperature signal.

An integrated calibration microcontroller with an on-chip EEPROM performs the digital compensation of the sensor offset, the sensitivity, the temperature drift, and the nonlinearity of a sensor signal.

The single-pass, digital end-of-line calibration com-bined with the integrated broken-chip detection sup-ports automatic and highly efficient mass production.

Features Differential bridge sensor input Half-bridge sensor or temperature sensor input Digital compensation of offset, gain, nonlinearity,

and temperature dependency Two analog outputs; behavior programmable by

EEPROM configuration Sequential analog output mode provides two

measurement values at one output pin On-chip diagnostic and safety features including

sensor connection diagnostic and broken-chip detection

2 EEPROM words for arbitrary user data Multiple configurable output options

Benefits Bridge sensor signal validation for safety

applications via two antivalent analog outputs or via half-bridge sensor measurement output

Simultaneous measurement of sensor signals, including temperature signal for compensation and for temperature output

Efficient use of non-calibrated elements for bridge sensors and temperature sensors without external trimming components

Single-pass end-of-line calibration algorithm minimizes production costs



Physical Characteristics Supply voltage: 4.5 to 5.5V Maximum supply voltage: 7.7V Input span: 1.8 to 267mV/V ADC resolution: 14 bit Output resolution: > 12 bit from 10% to 90% Operating temperature range: -40°C to 150°C Package: QFN32 (5x5mm; wettable flank) or die


VCC

GND

ZSSC

3154

VDDA

VSSA

SDA

SCL

VDD

AOUT1

VDDE

VTN1

VBP

VBNVSSE

VBR_T

VBR_B AOUT2

AOUT1

AOUT2

VTN2

DFBH



© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.41 — August 27, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.


Analog Front-End AFE

Digital Core Interfaces

ExternalTemperature

Sensor 1

SensorBridge

TemperatureSensor Select

GainFactor

OffsetShift

ADCMode

Conditioning Coefficients

Conditioning Calculation

Conditioning Formula

I2C™*

AOUT1

InternalTemperature

Sensor

MUX PGA ADC

EEPROM

CMC

ROM

I2C™*

DAC

ZACwire™

BAMP

BAMP

AOUT2

OWI(DigitalData IO)

ExternalTemperature

Sensor 2

Diagnostic FaultBand Mode

RAM


Ordering Information Product Sales Code Description Package

ZSSC3154BA1B ZSSC3154 Die – Temperature Range -40 to 125°C Wafer

ZSSC3154BA1C ZSSC3154 Die – Temperature Range -40 to 125°C Sawn on frame

ZSSC3154BA3R ZSSC3154 QFN32 (5x5 mm; wettable flank) – Temperature Range -40 to 125 °C Reel

ZSSC3154BE3R ZSSC3154 QFN32 (5x5 mm; wettable flank) – Temperature Range -40 to 150 °C Reel

ZSSC3154KIT ZSSC3154 SSC Evaluation Kit: Communication Board, SSC Board, Sensor Replacement Board, 5 QFN32 samples (software can be downloaded from the product page www.zmdi.com/zssc3154)

Kit



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.41 — August 27, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.


Analog Front-End AFE

Digital Core Interfaces

ExternalTemperature

Sensor 1

SensorBridge

TemperatureSensor Select

GainFactor

OffsetShift

ADCMode

Conditioning Coefficients

Conditioning Calculation

Conditioning Formula

I2C™*

AOUT1

InternalTemperature

Sensor

MUX PGA ADC

EEPROM

CMC

ROM

I2C™*

DAC

ZACwire™

BAMP

BAMP

AOUT2

OWI(DigitalData IO)

ExternalTemperature

Sensor 2

Diagnostic FaultBand Mode

RAM



ZSSC3154BA1B ZSSC3154 Die – Temperature Range -40 to 125°C Wafer

ZSSC3154BA1C ZSSC3154 Die – Temperature Range -40 to 125°C Sawn on frame

ZSSC3154BA3R ZSSC3154 QFN32 (5x5 mm; wettable flank) – Temperature Range -40 to 125 °C Reel

ZSSC3154BE3R ZSSC3154 QFN32 (5x5 mm; wettable flank) – Temperature Range -40 to 150 °C Reel

ZSSC3154KIT ZSSC3154 SSC Evaluation Kit: Communication Board, SSC Board, Sensor Replacement Board, 5 QFN32 samples (software can be downloaded from the product page www.zmdi.com/zssc3154)

Kit



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





ZSSC3170Automotive Sensor Signal Conditioner with LIN & PWM Interface

ZSSC3170 Automotive Sensor Signal Conditioner with LIN & PWM Interface



Brief Description The ZSSC3170 is a CMOS integrated circuit for highly accurate amplification and sensor specific correction of bridge sensor signals. Featuring a maximum analog gain of 420, as well as extended offset compensation capabilities, the ZSSC3170 is adjustable to nearly all resistive bridge sensor types.

Digital compensation of offset, sensitivity, temperature drift, and nonlinearity is accomplished via a 16-bit RISC microcontroller. Conditioning coefficients are stored in an EEPROM certified for automotive appli-cations.

Measured values are provided by one of the digital LIN or PWM interfaces. Each interface can support end-of-line calibration using the sensor output. Noise sensitivity is greatly reduced because the calibration equipment and the ZSSC3170 are mated digitally.

For quick and easy evaluation and support for calibrating prototypes, ZMDI offers the ZSSC3170 SSC Evaluation Kit, which includes evaluation hard-ware, SSOP20 samples, and software.

Features Complies with LIN specifications 1.3 / 2.0 / 2.1 Configurable LIN publisher frame content Data conversion rate of up to 430Hz fully utilizes

the maximum LIN channel capacity of 20kbit/s PWM high-side and low-side switches, support for

LIN communication for end-of-line calibration Digital compensation of offset, gain, temperature

effects up to 2nd order, and nonlinearity up to 3rd order. Compensation of temperature sensor offset, gain, and nonlinearity up to 2nd order.

Internal or external temperature reference Media temperature sensing by diode or RTD Load dump protection of the LIN pin up to ±40V Accuracy ±0.25% FSO @ -20 to 85°C ±0.50% FSO @ -40 to 125°C ±1.00% FSO @ -40 to 150°C 3 EEPROM words available for optional user data

Benefits Measurand and temperature signal available via

one output pin Compatible with nearly all resistive bridge inputs No external trimming components required Single-pass calibration minimizes calibration costs End-of-line calibration using sensor output Optimized for automotive environments with

special protection circuitry, excellent electro-magnetic compatibility, and numerous diagnostic features


Physical Characteristics Supply voltage: 7 to 18 V Current consumption in Sleep Mode: ≤ 100μA Input span: 1.8 to 267 mV/V ADC resolution: 13 to 14 bit Output resolution: up to 12-bit (LIN and PWM) Operating temperature range: -40 to 125°C Extended operating temperature range: ≤150°C Package: SSOP20, DFN20, or die


ZSSC

3170

LIN

VBAT

GND




Brief Description The ZSSC3170 is a CMOS integrated circuit for highly accurate amplification and sensor specific correction of bridge sensor signals. Featuring a maximum analog gain of 420, as well as extended offset compensation capabilities, the ZSSC3170 is adjustable to nearly all resistive bridge sensor types.

Digital compensation of offset, sensitivity, temperature drift, and nonlinearity is accomplished via a 16-bit RISC microcontroller. Conditioning coefficients are stored in an EEPROM certified for automotive appli-cations.

Measured values are provided by one of the digital LIN or PWM interfaces. Each interface can support end-of-line calibration using the sensor output. Noise sensitivity is greatly reduced because the calibration equipment and the ZSSC3170 are mated digitally.

For quick and easy evaluation and support for calibrating prototypes, ZMDI offers the ZSSC3170 SSC Evaluation Kit, which includes evaluation hard-ware, SSOP20 samples, and software.

Features Complies with LIN specifications 1.3 / 2.0 / 2.1 Configurable LIN publisher frame content Data conversion rate of up to 430Hz fully utilizes

the maximum LIN channel capacity of 20kbit/s PWM high-side and low-side switches, support for

LIN communication for end-of-line calibration Digital compensation of offset, gain, temperature

effects up to 2nd order, and nonlinearity up to 3rd order. Compensation of temperature sensor offset, gain, and nonlinearity up to 2nd order.

Internal or external temperature reference Media temperature sensing by diode or RTD Load dump protection of the LIN pin up to ±40V Accuracy ±0.25% FSO @ -20 to 85°C ±0.50% FSO @ -40 to 125°C ±1.00% FSO @ -40 to 150°C 3 EEPROM words available for optional user data

Benefits Measurand and temperature signal available via

one output pin Compatible with nearly all resistive bridge inputs No external trimming components required Single-pass calibration minimizes calibration costs End-of-line calibration using sensor output Optimized for automotive environments with

special protection circuitry, excellent electro-magnetic compatibility, and numerous diagnostic features


Physical Characteristics Supply voltage: 7 to 18 V Current consumption in Sleep Mode: ≤ 100μA Input span: 1.8 to 267 mV/V ADC resolution: 13 to 14 bit Output resolution: up to 12-bit (LIN and PWM) Operating temperature range: -40 to 125°C Extended operating temperature range: ≤150°C Package: SSOP20, DFN20, or die


ZSSC

3170

LIN

VBAT

GND






Digital Block Interfaces

Ext. Temp.Diode

SensorBridge Temp. Sens.

SelectGain

FactorOffsetShift

ADCMode

HOUT

LOUT

LIN

InternalTemp.Sensor

MUX PGA ADC

EEPROM

CMC

RAM

I2CTM*

PWM

+

Ext. RTD

LIN

Protection &Power

Management

SCL

SDA

VB

VSSE

Control Registers

VTN2

VTN1

VBR_B

VBR_T

VBN

VBP

ZSSC3170 * I2C™ is a trademark of NXP.

Applications LIN Pressure Sensor with Temperature Sensor

Sensor BridgeWith Integrated

Temperature Diode

SDA

SCL

ZSSC

3170

12

11

13

14

16

15

17

18

9

10

5

6

4

3

LIN

LOUT

n.c.

VBN

VBR_B

VBP

VTN 1

VBR_T

VSS

VSSE

VB

HOUT

VDD

SCL

SDA

VSSA

20

19

1

2VTN2

n.c.

VDDA

7

8

R110W

LIN

VBAT

GND

C2220nF

C3220pF

C1100nF

R2

RTD MediaTemperature

Sensor

n.c.

Ordering Information (See section 7 of the data sheet for additional options.)

Product Sales Code Description Package ZSSC3170EE1B ZSSC3170 Die — Temperature range: -40°C to +150°C Unsawn on Wafer, 2450 pcs. ZSSC3170EE1C ZSSC3170 Die — Temperature range: -40°C to +150°C Sawn on Wafer Frame, 2450 pcs. ZSSC3170EE2 ZSSC3170— SSOP20 — Temperature range: -40°C to +150°C Add R for 13” reel, 2000 pcs.

Add T for tube, 660 pcs.

ZSSC3170EE3R ZSSC3170 DFN20 – Temperature Range -40°C to +150°C Tape & Reel - 13"

ZSSC3170EA1B ZSSC3170 Die — Temperature range: -40°C to +125°C Unsawn on Wafer, 2450 pcs.

ZSSC3170EA1C ZSSC3170 Die — Temperature range: -40°C to +125°C Sawn on Wafer Frame, 2450 pcs. ZSSC3170EA3R ZSSC3170 DFN20 – Temperature Range -40°C to +125°C Tape & Reel - 13"

ZSSC3170KIT ZSSC3170 Evaluation Kit and 5 SSOP20 samples Kit



USA Phone +855.275.9634



Zentrum Mikroelektronik Dresden AG, Korea Office U-space 1 Building Unit B, 906-1 660, Daewangpangyo-ro Bundang-gu, Seongnam-si Gyeonggi-do, 463-400 Korea Phone +82.31.950.7679 Fax +82.504.841.3026

Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199








Digital Block Interfaces

Ext. Temp.Diode

SensorBridge Temp. Sens.

SelectGain

FactorOffsetShift

ADCMode

HOUT

LOUT

LIN

InternalTemp.Sensor

MUX PGA ADC

EEPROM

CMC

RAM

I2CTM*

PWM

+

Ext. RTD

LIN

Protection &Power

Management

SCL

SDA

VB

VSSE

Control Registers

VTN2

VTN1

VBR_B

VBR_T

VBN

VBP

ZSSC3170 * I2C™ is a trademark of NXP.

Applications LIN Pressure Sensor with Temperature Sensor

Sensor BridgeWith Integrated

Temperature Diode

SDA

SCL

ZSSC

3170

12

11

13

14

16

15

17

18

9

10

5

6

4

3

LIN

LOUT

n.c.

VBN

VBR_B

VBP

VTN 1

VBR_T

VSS

VSSE

VB

HOUT

VDD

SCL

SDA

VSSA

20

19

1

2VTN2

n.c.

VDDA

7

8

R110W

LIN

VBAT

GND

C2220nF

C3220pF

C1100nF

R2

RTD MediaTemperature

Sensor

n.c.

Ordering Information (See section 7 of the data sheet for additional options.)

Product Sales Code Description Package ZSSC3170EE1B ZSSC3170 Die — Temperature range: -40°C to +150°C Unsawn on Wafer, 2450 pcs. ZSSC3170EE1C ZSSC3170 Die — Temperature range: -40°C to +150°C Sawn on Wafer Frame, 2450 pcs. ZSSC3170EE2 ZSSC3170— SSOP20 — Temperature range: -40°C to +150°C Add R for 13” reel, 2000 pcs.

Add T for tube, 660 pcs.

ZSSC3170EE3R ZSSC3170 DFN20 – Temperature Range -40°C to +150°C Tape & Reel - 13"

ZSSC3170EA1B ZSSC3170 Die — Temperature range: -40°C to +125°C Unsawn on Wafer, 2450 pcs.

ZSSC3170EA1C ZSSC3170 Die — Temperature range: -40°C to +125°C Sawn on Wafer Frame, 2450 pcs. ZSSC3170EA3R ZSSC3170 DFN20 – Temperature Range -40°C to +125°C Tape & Reel - 13"

ZSSC3170KIT ZSSC3170 Evaluation Kit and 5 SSOP20 samples Kit



USA Phone +855.275.9634



Zentrum Mikroelektronik Dresden AG, Korea Office U-space 1 Building Unit B, 906-1 660, Daewangpangyo-ro Bundang-gu, Seongnam-si Gyeonggi-do, 463-400 Korea Phone +82.31.950.7679 Fax +82.504.841.3026

Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





ZSSC3122cLite™ Low Voltage Capacitive Sensor Signal Conditioner

ZSSC3122 cLite™ Low Voltage Capacitive Sensor Signal Conditioner

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.62 — August 27, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

Brief Description The ZSSC3122 is a CMOS integrated circuit for accurate capacitance-to-digital conversion and sensor-specific correction of capacitive sensor sig-nals. Digital compensation of sensor offset, sensiti-vity, and temperature drift is accomplished via an internal digital signal processor running a correction algorithm with calibration coefficients stored in a non-volatile EEPROM. The ZSSC3122 is configurable for capacitive sen-sors with capacitances up to 10pF and a sensitivity of 125aF/LSB. It is compatible with both single capacitive sensors (both terminals must be accessible) and differential capacitive sensors. Measured and corrected sensor values can be output as I2C™ *, SPI, PDM, or alarms. The I2C™ interface can be used for a simple PC-controlled calibration procedure to program a set of calibration coefficients into an on-chip EEPROM. The calibrated ZSSC3122 and a specific sensor are mated digitally: fast, precise, and without the cost overhead of trimming by external devices or laser.

Features Maximum target input capacitance: 10pF Sampling rates as fast as 0.7ms at 8-bit resolution;

1.6ms at 10-bit; 5.0ms at 12-bit; 18.5ms at14-bit Digital compensation of sensor: piece-wise 1st

and 2nd order sensor compensation or up to 3rd order single-region sensor compensation

Digital compensation of 1st and 2nd order temperature gain and offset drift

Internal temperature compensation reference (no external components)

Programmable capacitance span and offset Layout customized for die-die bonding with sensor

for low-cost, high-density chip-on-board assembly Accuracy † as high as

±0.25% FSO@ -20 to 125°C, 3V, 5V, Vsupply ±10%

* I2C™ is a registered trademark of NXP. † See data sheet section 1.3 for restrictions.

Benefits Minimized calibration costs: no laser trimming,

one-pass calibration using a digital interface Excellent for low-power battery applications

Interfaces I²C™ or SPI interface—easy connection to a

microcontroller PDM outputs (Filtered Analog Ratiometric) for

both capacitance and temperature Up to two alarms that can act as full push-pull or

open-drain switches

Physical Characteristics Supply voltage: 1.8 to 5.5V Typical current consumption 650μA down to

60μA depending on configuration Typical Sleep Mode current: ≤ 1μA at 85°C Operation temperature: –20°C to +125°C Die or TSSOP14 package

Available Support ZSSC3122 SSC Evaluation Kit available: SSC

Evaluation Board, samples, software, documentation.

Support for industrial mass calibration available. Quick circuit customization option for large

production volumes.

Application: Digital Output, Alarms

VSUPPLY(+1.8V to 5.5V)

GND

0.1µF

VDD

Vcore

Ready

VSS SDA/MISO

SCL/SCLK

C0 SS

Alarm_High

CC Alarm_Low

cLite™ZSSC3122

0.1µF


















open-drain switches






production volumes.



GND

0.1µF

VDD

Vcore

Ready

VSS SDA/MISO

SCL/SCLK

C0 SS

Alarm_High

CC Alarm_Low

cLite™ZSSC3122

0.1µF


















open-drain switches






production volumes.



GND

0.1µF

VDD

Vcore

Ready

VSS SDA/MISO

SCL/SCLK

C0 SS

Alarm_High

CC Alarm_Low

cLite™ZSSC3122

0.1µF


















open-drain switches






production volumes.



GND

0.1µF

VDD

Vcore

Ready

VSS SDA/MISO

SCL/SCLK

C0 SS

Alarm_High

CC Alarm_Low

cLite™ZSSC3122

0.1µF



© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.61 — June 13, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

ZSSC3122 Block Diagram Application: Analog Output Application: Differential Capacitance Input


GND

0.1µF

VDD

Vcore

VSS

C0

CC

cLite™ZSSC3122

0.1µF Cap.AnalogOutput

LED

PDM_C

PDM_T

Alarm_High

TempAnalogOutput


GND

0.1µF

VDD

Vcore

Ready

VSS SDA/MISO

SCL/SCLKC0

SS

Alarm_High

C1 Alarm_Low

cLite™ZSSC3122

0.1µF

CC

Ordering Codes Sales Code Description Package

ZSSC3122AA1BN ZSSC3122 Die — Temperature range: -20°C to +125°C Tested dice on un-sawn wafer, 370µm

ZSSC3122AI1BN ZSSC3122 Die — Temperature range: -20°C to +85°C Tested dice on un-sawn wafer, 370µm



ZSSC3122AA1CN ZSSC3122 Die — Temperature range: -20°C to +125°C Tested dice on frame, 370µm

ZSSC3122AI1CN ZSSC3122 Die — Temperature range: -20°C to +85°C Tested dice on frame, 370µm

ZSSC3122AA2*N ZSSC3122 TSSOP14 — Temperature range: -20°C to +125°C – Lead-free package Tube: substitute “T” for * in code Reel: substitute “R” for * in code

ZSSC3122AI2*N ZSSC3122 TSSOP14 — Temperature range: -20°C to +85°C – Lead-free package Tube: substitute “T” for * in code Reel: substitute “R” for * in code

ZSSC3122KIT ZSSC3122 SSC Evaluation Kit: Communication Board, SSC Board, Sensor Replacement Board, USB Cable, 5 IC Samples (software can be downloaded from www.zmdi.com/zssc3122)

Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





Digital CoreAnalog Core

Sensor

C0

C1

(Optional)

OutputCommunication

MUX

C0

CC

C1

VSS

VDD (1.8V to 5.5V)

TempSensor CLK/Reset

C/AD

CDC

RefCap

OffsetCap

SCL/SCLK

SDA/MISO

Ready/PDM_C

Alarm_Low/PDM_T

SS

Alarm_High

Ready

PDM

I2C / SPI

Low Alarm

High Alarm

EEPROM

ROM

DSP0.1µF

0.1µF

Vcore


© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.62 — August 27, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.



GND

0.1µF

VDD

Vcore

VSS

C0

CC

cLite™ZSSC3122


LED

PDM_C

PDM_T

Alarm_High

TempAnalogOutput


GND

0.1µF

VDD

Vcore

Ready

VSS SDA/MISO

SCL/SCLKC0

SS

Alarm_High

C1 Alarm_Low

cLite™ZSSC3122

0.1µF

CC











Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199






Sensor

C0

C1

(Optional)

OutputCommunication

MUX

C0

CC

C1

VSS

VDD (1.8V to 5.5V)


C/AD

CDC

RefCap

OffsetCap

SCL/SCLK

SDA/MISO

Ready/PDM_C

Alarm_Low/PDM_T

SS

Alarm_High

Ready

PDM

I2C / SPI

Low Alarm

High Alarm

EEPROM

ROM

DSP0.1µF

0.1µF

Vcore

(





GND

0.1µF

VDD

Vcore

VSS

C0

CC

cLite™ZSSC3122


LED

PDM_C

PDM_T

Alarm_High

TempAnalogOutput


GND

0.1µF

VDD

Vcore

Ready

VSS SDA/MISO

SCL/SCLKC0

SS

Alarm_High

C1 Alarm_Low

cLite™ZSSC3122

0.1µF

CC











Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199






Sensor

C0

C1

(Optional)

OutputCommunication

MUX

C0

CC

C1

VSS

VDD (1.8V to 5.5V)


C/AD

CDC

RefCap

OffsetCap

SCL/SCLK

SDA/MISO

Ready/PDM_C

Alarm_Low/PDM_T

SS

Alarm_High

Ready

PDM

I2C / SPI

Low Alarm

High Alarm

EEPROM

ROM

DSP0.1µF

0.1µF

Vcore

)


ZSSC3123cLite™ Capacitive Sensor Signal Conditioner

For more information, contact us at [email protected].

ZSSC3123 cLite™ Capacitive Sensor Signal Conditioner


VSUPPLY(2.3V to 5.5V)

GND

0.1µF

VDD

Vcore

Ready

VSS SDA/MISO

SCL/SCLK

C0 SS

Alarm_High

CC Alarm_Low

cLite™ZSSC3123

0.1µF

Brief Description The ZSSC3123 is a CMOS integrated circuit for accurate capacitance-to-digital conversion and sensor-specific correction of capacitive sensor signals. Digital compen-sation of sensor offset, sensitivity, and temperature drift is accomplished via an internal digital signal processor running a correction algorithm with calibration coefficients stored in a non-volatile EEPROM. The ZSSC3123 is configurable for capacitive sensors with capacitances up to 260pF and a sensitivity of 125aF/LSB to 1pF/LSB depending on resolution, speed, and range settings. It is compatible with both single capacitive sensors (both terminals must be accessible) and differential capacitive sensors. Measured and corrected sensor values can be output as I2C™*, SPI, PDM, or alarms. The I2C™ interface can be used for a simple PC-controlled calibration procedure to program a set of calibration coefficients into an on-chip EEPROM. The calibrated ZSSC3123 and a specific sensor are mated digitally: fast, precise, and without the cost overhead of trimming by external devices or laser.

Features Maximum Target input capacitance: 260pF Sampling rates as fast as 0.7ms at 8-bit resolution;

1.6ms at 10-bit; 5.0ms at 12-bit; 18.5ms at 14-bit Digital compensation of sensor: piece-wise 1st and 2nd

order sensor compensation or up to 3rd order single-region sensor compensation



Programmable capacitance span and offset Layout customized for die-die bonding with sensor for

low-cost, high-density chip-on-board assembly Accuracy † as high as



Benefits Minimized calibration costs: no laser trimming, one-

pass calibration using a digital interface Wide capacitance range to support a broad portfolio of

different sensor elements Excellent for low-power battery applications

Interfaces I²C™ or SPI interface—easy connection to a µC PDM outputs (Filtered Analog Ratiometric) for both

capacitance and temperature Up to two alarms that can act as full push-pull or open-

drain switches

Physical Characteristics Supply voltage: 2.3V to 5.5V Typical current consumption 650μA down to 60μA

depending on configuration Typical Sleep Mode current: ≤ 1μA at 85°C Operation temperature: –40°C to +125°C Die or TSSOP14 package


Evaluation Board, samples, software, documentation. Support for industrial mass calibration available. Quick circuit customization option for large production

volumes.






GND

0.1µF

VDD

Vcore

Ready

VSS SDA/MISO

SCL/SCLK

C0 SS

Alarm_High

CC Alarm_Low

cLite™ZSSC3123

0.1µF
















drain switches





volumes.






GND

0.1µF

VDD

Vcore

Ready

VSS SDA/MISO

SCL/SCLK

C0 SS

Alarm_High

CC Alarm_Low

cLite™ZSSC3123

0.1µF
















drain switches





volumes.







Sensor

C0

C1

(Optional)

OutputCommunication

MUX

C0

CC

C1

VSS

VDD (2.3V to 5.5V)


C/AD

CDC

RefCap

OffsetCap

SCL/SCLK

SDA/MISO

Ready/PDM_C

Alarm_Low/PDM_T

SS

Alarm_High

Ready

PDM

I2C / SPI

Low Alarm

High Alarm

EEPROM

ROM

DSP0.1µF

0.1µF

Vcore


GND

0.1µF

VDD

Vcore

Ready

VSS SDA/MISO

SCL/SCLKC0

SS

Alarm_High

C1 Alarm_Low

cLite™ZSSC3123

0.1µF

CC


GND

0.1µF

VDD

Vcore

VSS

C0

CC

cLite™ZSSC3123


LED

PDM_C

PDM_T

Alarm_High

TempAnalogOutput


Application: Analog Output Application: Differential Capacitance Input

Ordering Codes

Sales Code Description Package

ZSSC3123AA1B ZSSC3123 die — Temperature range: -40°C to +125°C Tested dice on un-sawn wafer

ZSSC3123AI1B ZSSC3123 die — Temperature range: -40°C to +85°C Tested dice on un-sawn wafer

ZSSC3123AA1C ZSSC3123 die — Temperature range: -40°C to +125°C Tested dice on frame

ZSSC3123AI1C ZSSC3123 die — Temperature range: -40°C to +85°C Tested dice on frame

ZSSC3123AA2 ZSSC3123 TSSOP14 — Temperature range: -40°C to +125°C – Lead-free package Tube: add “T” to code; reel: add “R”

ZSSC3123AI2 ZSSC3123 TSSOP14 — Temperature range: -40°C to +85°C – Lead-free package Tube: add “T” to code; reel: add “R”


Kit



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199








Sensor

C0

C1

(Optional)

OutputCommunication

MUX

C0

CC

C1

VSS

VDD (2.3V to 5.5V)


C/AD

CDC

RefCap

OffsetCap

SCL/SCLK

SDA/MISO

Ready/PDM_C

Alarm_Low/PDM_T

SS

Alarm_High

Ready

PDM

I2C / SPI

Low Alarm

High Alarm

EEPROM

ROM

DSP0.1µF

0.1µF

Vcore


GND

0.1µF

VDD

Vcore

Ready

VSS SDA/MISO

SCL/SCLKC0

SS

Alarm_High

C1 Alarm_Low

cLite™ZSSC3123

0.1µF

CC


GND

0.1µF

VDD

Vcore

VSS

C0

CC

cLite™ZSSC3123


LED

PDM_C

PDM_T

Alarm_High

TempAnalogOutput


Application: Analog Output Application: Differential Capacitance Input

Ordering Codes


ZSSC3123AA1B ZSSC3123 die — Temperature range: -40°C to +125°C Tested dice on un-sawn wafer

ZSSC3123AI1B ZSSC3123 die — Temperature range: -40°C to +85°C Tested dice on un-sawn wafer

ZSSC3123AA1C ZSSC3123 die — Temperature range: -40°C to +125°C Tested dice on frame

ZSSC3123AI1C ZSSC3123 die — Temperature range: -40°C to +85°C Tested dice on frame

ZSSC3123AA2 ZSSC3123 TSSOP14 — Temperature range: -40°C to +125°C – Lead-free package Tube: add “T” to code; reel: add “R”

ZSSC3123AI2 ZSSC3123 TSSOP14 — Temperature range: -40°C to +85°C – Lead-free package Tube: add “T” to code; reel: add “R”


Kit



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





Basic Application OverviewZMDI‘s Sensor Signal Conditioners

Analog Output Digital Output Analog Output Digital Output Analog Output Digital Output Analog Output

PressureTemperatureFlowLevel

Ceramic Thick Film BridgeMetal Thin-Film BridgeStrain Gauge Bridge

Position Magneto-resistive

Altitude Resistive Bridge ZSSC3218

ZSSC3016ZSSC3026ZSSC3036ZSSC3027

Analog Output Digital Output Analog Output Digital Output

Humidity Capacitive ZSSC3122 ZSSC3122 ZSSC3123 ZSSC3123

Supply Voltage RangeResistive SSC

Supply Voltage RangeAutomotive Resistive SSC

ZSSC3218: 1.68 to 3.6 V ZSSC3015: 2.7 to 5.5 V *

ZSSC3027: 1.7 to 3.6 V ZSC31050: 2.7 to 5.5 V **

ZSSC3016: 1.8 to 3.6 V ZSC31150: 4.5 to 5.5 V

ZSSC3026: 1.8 to 3.6 V ZSSC3131: 4.5 to 5.5 V

ZSSC3036: 1.8 to 3.6 V ZSSC3135: 4.5 to 5.5 V

ZSC31010: 2.7 to 5.5 V * ZSSC3136: 4.5 to 5.5 V

ZSC31014: 2.7 to 5.5 V ZSSC3138: 4.5 to 5.5 V

ZSC31015: 2.7 to 5.5 V * ZSSC3154: 4.5 to 5.5 V

ZSSC3170: 7 to 18 V

NOTE: PINK FONT INDICATES AUTOMOTIVE QUALIFIED PRODUCTS

2-260pF

Sensor Measurand Typical Resistive Sensor Type

> 2mV/V

Resistive SSC Sensitivity

> 10mV/V> 20mV/V

Maximum Input CapacitanceTypical Sensor Type

>5mV/V

2 - 10pFSensor Measurand

* 5.5 to 30 V with external JFET

Supply Voltage RangeCapacitive SSC

ZSSC3122: 1.8 to 5.5 V

ZSSC3123: 2.3 to 5.5 V

** 5 to 40 V with external JFET

ZSC31010

ZSC31050ZSSC3138ZSC31150ZSSC3154

ZSC31050ZSSC3170 ZSSC3138 ZSC31014

ZSC31015ZSSC3015ZSSC3131ZSSC3135ZSSC3136

ZSSC3016ZSSC3026ZSSC3036ZSSC3027

The modular sensor signal conditioner (ssc) evaluation Kits are designed to provide an overview of the functionsandconfigurationoptionsforZMDI’sSSCICFamily.Thesekitsprovidesupportfornewcomersandexperiencedusers.ToevaluatedifferentSSCswithaZMDImodularkit,simplyinterchangetheIC-specificSSCEvaluationBoardsandsoftwaredesignedspecificallyfortheSSCs.EachSSCEvaluationBoardissimpleto connect and operate. ICs under test are installed in a common ZIF-socket for easy interchange.

On-board LEDs display the status of the power supply and, if applicable, the status of digital outputs (e.g., alarm signals for the ZSC31050). Several connectors allow access to all I/O signal lines for the SSC for simple systemverification.Screwterminalscanbeusedtoconnectactualsensorelements.InitialevaluationoftheSSC can be done with a Sensor Replacement Board.

battery Management from

OurAward-WinningSolutionsEnableEnergy-EfficientUsage

Battery ManagementAdaptiveandEfficient


ZMDI’s Battery Monitoring ICs EnableEnergy-Efficiency

Due to the urgent global need to reduce environmental pollution and to meet governmen-tal regulations limiting maximum harmful emission from vehicles, automotive companies are increasing their efforts to introduce features aimed towards reducing fuel consumption.One of these highly effective fuel saving features is the start-stop system, which automatically shuts down and restarts the engine as needed to reduce the amount of time the engine spends idling, thereby reducing fuel consumption and emissions by as much as 5 to10 percent. In order to ensure a safe re-start of the engine once it has been turned off, precise information on the charge condition of the starter battery is essential.ZMDI’s battery monitoring ICs accurately determine the charge condition of the battery based on inputs including charge and discharge currents, battery voltage, temperature, and aging. Both voltage and current are measured with two highly linear, synchronous 24-bit analog-to-digital converters.Measuring charge and discharge currents is particularly challenging as the battery monitoring IC must be capable of precisely measuring milliampere currents when the engine is turned off and up to more than one thousand amperes when the engine is started. ZMDI’s battery monitoring ICs can achieve this requirement by means of a shunt-resistor-based current measurement technique combined with a highly dynamic embeddedprogrammablegainamplifier.Another challenging requirement is for ultra-low power consumption in standby mode, for example when a vehicle is parked. The battery monitoring IC must continue to monitor the battery’s state even when the engine is turned off. In this standby mode, our battery monitoring ICs typicallyconsumeonly55to60μA.

ZMDI offers two product lines for battery monitor-ing ICs: one for external microcontrollers and a more advanced line with an integrated 32-bit ARM© Cortex™ based microcontroller.*Our leading-edge ICs with an internal microcontroller are preferred for small form-factor, standalone intelligent battery monitoring systems. Our battery monitoring ICs for use with external microcontrollers are preferred for solutions that are embedded in systems that already contain a microcontroller or where one master controller controls several battery monitoring slaves, such as in multi-battery applications or systems requiring additional safety via redundant measurement of battery current.ZMDI’s ICs with an internal microcontroller offer effective intellectual property safeguarding for customer software by employing copy protection fortheuser’sfirmwareonthechip.

Battery Monitoring ICs with Internal and External Microcontrollers

The ever-increasing global demand for energy underscores the need for products that have a real impact in helping to conserve energy and therefore reduce CO2 emissions. We at ZMDI believe that energy-efficiency begins at thechip level, and we are proud of being leaders in this area. Our product designers develop semiconductor products that are used by our customers to design innovative energy-efficientsystems.Our efforts have received worldwide recognition. The jury for the 2013 Green apple awards chose ZMDI for its award for “Battery Monitoring ICs for Start-Stop Features in Vehicles.” We were selected as a finalist in the ee times and eDn annual creativity in electronics

(ace) awards 2014 for the category ”Energy Technology Award“ for our ZSSC1956 Intelligent Battery Monitoring Solution. Frost & Sullivan recognized ZMDI with the 2012 europe frost & sullivan new Product Innovation award for our battery monitoring device.

battery Management by ZMDI –award Winning Products


• Lead-acid battery monitoring• Battery monitoring for energy storage; e.g., in

photovoltaic installations• Intelligent sensors and sensor interfaces• Electric energy measurement and monitoring

Applications for ZMDI Battery Management ICs

’s award

winning battery

monitoring Ics

offer high precision,

high resolution,

ultra-low power

consumption,

and the smallest

package footprint

of its kind on the

market

ARM© and Cortex™ are trademarks of ARM, Ltd.

• ZSPM4121Under-VoltageLoadSwitch

• ZSPM4521High-EfficiencyChargerfor Li-Ion Batteries with Photovoltaic Sources

• ZSPM4523High-EfficiencySolarPVMPPTRegulator for Super Capacitor Systems

• ZSPM4551High-EfficiencyLi-IonBatteryCharger

Highly Efficient Analog ICs for charge Management

• Wide operating temperature: -40°C to +125°C• High-Precision 24-bit sigma-delta ADC

(18 bits with no missing codes)• On-chip voltage reference (5ppm/K)• External or internal, factory-calibrated

temperature sensor• Small PQFN packages: 5x5mm or 6x6mm• 32-bit ARM® Cortex™-M0* microcontroller

Key features Intelligent battery sensor Ics


ZSSC1750/51Data Acquisition System Basis Chip (SBC)

ZSSC1750/51 Data Acquisition System Basis Chip (SBC)

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.00 — July 10, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


Brief Description The ZSSC1750 and ZSSC1751 are System Basis Chips (SBCs) with a dual-channel ADC for battery sensing/management in automotive, industrial, and medical systems. The ZSSC1750 and ZSSC1751 feature an SPI interface; in addition, the ZSSC1750 has an integrated LIN 2.1 transceiver. One of the two input channels measures the battery current IBAT via the voltage drop at the external shunt resistor. The second channel measures the battery voltage VBAT and the temperature. By simultaneously measuring VBAT and IBAT, it is possible to determine dynamically the internal resistance of the battery, Rdi, which is correlated with the state-of-health (SOH) of the battery. By integrating IBAT, it is possible to determine the state-of-charge (SOC) and the state-of-function (SOF) of the battery. During Sleep Mode, the system makes periodic measurements to monitor the discharge of the battery. Measurement cycles are controlled by user software and include various wake-up conditions. The ZSSC1750/51 is optimized for ultra-low power consumption drawing only 60µA or less in this mode.

Features Two high-precision 24-bit sigma-delta ADCs

(18-bit with no missing codes); sample rate: 1Hz to 16kHz

On-chip voltage reference (5ppm/K typical) Current channel

IBAT offset error: ≤ 10mA IBAT resolution: ≤ 1mA Programmable gain: 4 to 512 Max. differential input stage input range: ±300mV

Voltage channel Input range: 4 to 28.8V Voltage accuracy: ±60ppm FSR* = 1.73mV

Temperature channel External temperature sensor (NTC) Factory-calibrated internal temp. sensor: ±2°C

LIN 2.1/SAE J2602-1 transceiver (ZSSC1750 only) Typical current consumption

Normal Mode: 12mA Sleep Mode: ≤ 60µA

Benefits Integrated, precision measurement solution for

accurate prediction of battery state of health (SOH), state of charge (SOC), or state of function (SOF)

Robust power-on-reset (POR) concept for harsh automotive environments

On-chip precision oscillator accuracy: ±1% On-chip low-power oscillator Only a few external components needed Easy communication via SPI interface Power supply, interrupt, and reset signals for

external microcontroller Watchdog timer with dedicated oscillator Industry’s smallest footprint allows minimal

module size and cost AEC-Q100 qualified solution

Available Support Evaluation Kit Application Notes

Physical Characteristics Operation temperature up to -40°C to +125°C Supply voltage: 4.2 to 18V Small footprint package: PQFN36 6x6 mm * FSR = full-scale range.

Basic ZSSC1750/51 Application Circuit

VBAT

INNINP

-Car Chassis Ground

LIN

Rshunt

VDDE

+ -

VSSA VSSE

+

Battery SPI

To Harness

VDDA

NTH

SPI

VSS

VDD

VDDP

RXTX

ZSSC1750/51 µC

LIN-I/F(ZSSC1750 )

IRQN IRQ

3.3V, <30mA

MCU_RSTN RST

I/F

Interfaceto Host

(e.g. CAN)MCU_CLK CLK (opt.)

NTLNTC

Global Corporate CatalogProducts available at On-Line Store41


© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.00 — July 10, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

MCU_CLK

IRQN

VDDP

VDDC

ZSSC1750/51 Analog Front End SBCCommonGround

PGA

MUX

VBAT

LIN

VDDP_REG BG_REF WD_TIMER

VDDC_REG OSCGP_TIMER

LP_REG

VDDA_REG

DIGITALFILTER

CONFIGREGISTER

RESULTREGISTER

DIGITALFILTER

CALIBRATIONDATA PATH

SHUNT

+ –BATTERY

SD_ADC

SD_ADC

RREF

NTC

LIN_PHYS (1) RXDTXD

CSNSCLKMISOMOSI

VDDE

VDDA

INP

INNVBAT

NTH

LIN

AnalogBlockDigitalBlock

SBC_PMU

MCU_RSTN

SLEEPN

IRQ_CTRL

SPI

WDT_DIS

1) Available in ZSSC1750 only

NTL

Applications Intelligent battery monitoring in

automotive applications; start/stop systems, e-bikes, scooters, and e-carts

Battery monitoring in Industrial, medical and photovoltaic applications;

High precision data acquisition

ZSSC1750/51 Block Diagram

Rbat

100Ω

Rinn

220Ω

Rinp

220Ω

Rdde

2.2ΩVDDE

INN

VSSE

VSSA

INP

VP

P

TRSTN

VDDA

NTH

VBAT

VD

DP

VD

DC

TES

T

SLE

EP

N

VD

DL LIN

VSSA

TMS

TCK

STO

TESTL

TESTH

VSSLIN

VSSN

rxd txd mcu_rstn irqn csn sclk mosi

Cin100nF

Cddl10nF

Rshunt100µΩ

Cntc470pF

Ddde

BAS21

Rref75kΩ

Rntc10kΩ

Cdda470nF

Cinn10nF

Cinp10nF

Cdde1

10µF

Cbat100nF

n.c.

RXD

ChassisGND

BAT+

BAT-

tck

tms

trstn

n.c.

sto

ZSSC1750

Cdde2

100nF

NTL

VS

SR

Cddp2.2µF

Cddc2.2µF

slee

pn

MCU_CLK

WDT_DIS wdt_dis

mcu_clk

miso

TXD

MC

U_R

STN

IRQ

N

CS

N

SC

LK

MO

SI

MIS

O

Clin220pF

LIN

ZSSC1750 Typical Application Circuit

1

Rbat

100Ω

Rinn

220Ω

Rinp

220Ω

Rdde

2.2ΩVDDE

INN

VSSE

VSSA

INP

VPP

TRSTN

VDDA

NTH

VBAT

VDD

P

VDD

C

TEST

SLEE

PN

VDD

L NC

VSSA

TMS

TCK

STO

TESTL

TESTH

VSS

VSSN

open

mcu_rstn irqn csn sclk mosi

Cin100nF

Cddl10nF

Rshunt100µΩ

Cntc470pF

Ddde

BAS21

Rref75kΩ

Rntc10kΩ

Cdda470nF

Cinn10nF

Cinp10nF

Cdde1

10µF

Cbat100nF

n.c.

NC

ChassisGND

BAT+

BAT-

tck

tms

trstn

n.c.

sto

ZSSC1751

Cdde2

100nF

NTL

VSSR

Cddp2.2µF

Cddc2.2µF

slee

pn

MCU_CLK

WDT_DIS wdt_dis

mcu_clk

miso

MC

U_R

STN

IRQ

N

CSN

SCLK

MO

SI

MIS

O


NC

open

VDDP

1


ZSSC1750EA1B ZSSC1750 Battery Sensing SBC—Temperature Range: -40°C to 125°C Tested die on unsawn wafer ZSSC1750EA3R ZSSC1750 Battery Sensing SBC—Temperature Range: -40°C to 125°C PQFN36 6x6 mm, reel ZSSC1751EA3R ZSSC1751 Battery Sensing SBC—Temperature Range: -40°C to 125°C PQFN36 6x6 mm, reel ZSSC1750KIT V1.1 ZSSC1750/51 Evaluation Kit: modular evaluation and development board for ZSSC1750/51, 3 IC samples, and

USB cable (software and documentation can be downloaded from the product page at www.zmdi.com/zssc175x)



USA Phone: 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.00 — July 10, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

MCU_CLK

IRQN

VDDP

VDDC

ZSSC1750/51 Analog Front End SBCCommonGround

PGA

MUX

VBAT

LIN


VDDC_REG OSCGP_TIMER

LP_REG

VDDA_REG

DIGITALFILTER

CONFIGREGISTER

RESULTREGISTER

DIGITALFILTER


SHUNT

+ –BATTERY

SD_ADC

SD_ADC

RREF

NTC

LIN_PHYS (1) RXDTXD

CSNSCLKMISOMOSI

VDDE

VDDA

INP

INNVBAT

NTH

LIN

AnalogBlockDigitalBlock

SBC_PMU

MCU_RSTN

SLEEPN

IRQ_CTRL

SPI

WDT_DIS

1) Available in ZSSC1750 only

NTL

Applications Intelligent battery monitoring in

automotive applications; start/stop systems, e-bikes, scooters, and e-carts

Battery monitoring in Industrial, medical and photovoltaic applications;

High precision data acquisition

ZSSC1750/51 Block Diagram

Rbat

100Ω

Rinn

220Ω

Rinp

220Ω

Rdde

2.2ΩVDDE

INN

VSSE

VSSA

INP

VP

P

TRSTN

VDDA

NTH

VBAT

VD

DP

VD

DC

TES

T

SLE

EP

N

VD

DL LIN

VSSA

TMS

TCK

STO

TESTL

TESTH

VSSLIN

VSSN

rxd txd mcu_rstn irqn csn sclk mosi

Cin100nF

Cddl10nF

Rshunt100µΩ

Cntc470pF

Ddde

BAS21

Rref75kΩ

Rntc10kΩ

Cdda470nF

Cinn10nF

Cinp10nF

Cdde1

10µF

Cbat100nF

n.c.

RXD

ChassisGND

BAT+

BAT-

tck

tms

trstn

n.c.

sto

ZSSC1750

Cdde2

100nF

NTL

VS

SR

Cddp2.2µF

Cddc2.2µF

slee

pn

MCU_CLK

WDT_DIS wdt_dis

mcu_clk

miso

TXD

MC

U_R

STN

IRQ

N

CS

N

SC

LK

MO

SI

MIS

O

Clin220pF

LIN


1

Rbat

100Ω

Rinn

220Ω

Rinp

220Ω

Rdde

2.2ΩVDDE

INN

VSSE

VSSA

INP

VPP

TRSTN

VDDA

NTH

VBAT

VDD

P

VDD

C

TEST

SLEE

PN

VDD

L NC

VSSA

TMS

TCK

STO

TESTL

TESTH

VSS

VSSN

open

mcu_rstn irqn csn sclk mosi

Cin100nF

Cddl10nF

Rshunt100µΩ

Cntc470pF

Ddde

BAS21

Rref75kΩ

Rntc10kΩ

Cdda470nF

Cinn10nF

Cinp10nF

Cdde1

10µF

Cbat100nF

n.c.

NC

ChassisGND

BAT+

BAT-

tck

tms

trstn

n.c.

sto

ZSSC1751

Cdde2

100nF

NTL

VSSR

Cddp2.2µF

Cddc2.2µF

slee

pn

MCU_CLK

WDT_DIS wdt_dis

mcu_clk

miso

MC

U_R

STN

IRQ

N

CSN

SCLK

MO

SI

MIS

O


NC

open

VDDP

1


ZSSC1750EA1B ZSSC1750 Battery Sensing SBC—Temperature Range: -40°C to 125°C Tested die on unsawn wafer ZSSC1750EA3R ZSSC1750 Battery Sensing SBC—Temperature Range: -40°C to 125°C PQFN36 6x6 mm, reel ZSSC1751EA3R ZSSC1751 Battery Sensing SBC—Temperature Range: -40°C to 125°C PQFN36 6x6 mm, reel ZSSC1750KIT V1.1 ZSSC1750/51 Evaluation Kit: modular evaluation and development board for ZSSC1750/51, 3 IC samples, and

USB cable (software and documentation can be downloaded from the product page at www.zmdi.com/zssc175x)



USA Phone: 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





ZSSC1856 Intelligent Battery Sensor IC

Brief Description The ZSSC1856 is a dual-channel ADC with an em-bedded microcontroller for battery sensing/manage-ment in automotive, industrial, and medical systems. One of the two input channels measures the battery current IBAT via the voltage drop at the external shunt resistor. The second channel measures the battery voltage VBAT and the temperature. An integrated flash memory is provided for customer-specific soft-ware; e.g., dedicated algorithms for calculating the battery state. During Sleep Mode (e.g., engine off), the system makes periodic measurements to monitor the dis-charge of the battery. Measurement cycles are controlled by the software and include various wake-up conditions. The ZSSC1856 is optimized for ultra-low power consumption and draws only 100µA or less in this mode.

Features High-precision 24-bit sigma-delta ADC

(18 bits with no missing codes) On-chip voltage reference (5ppm/K) Current channel

IBAT offset error: ≤ 10mA IBAT resolution: ≤ 1mA Programmable gain: 4 to 512 Sampling rate: 1Hz to 16kHz

Voltage channel Input range: 4 to 28.8V Voltage accuracy: ± 2mV

Temperature channel Internal temperature sensor: ± 2°C External temperature sensor (NTC)

On-chip precision oscillator (1%) On-chip low-power oscillator ARM® Cortex™-M0* microcontroller:

32-bit core, 10MHz to 20MHz 96kB Flash/EE Memory with ECC, 8kB SRAM LIN2.1 / SAE J2602-1 Transceiver Directly connected to 12V battery supply Current consumption

Normal Mode: 10mA to 20mA Low-Power Mode: ≤ 100µA

* The ARM®, Cortex™, and Thumb®-2 trademarks are owned by ARM, Ltd. The I2C™ trademark is owned by NXP.

Benefits Precision measurement solution for accurate

prediction of battery state of health (SOH), state of charge (SOC) or state of function (SOF)

Flexible wake-up modes allow minimum power consumption without sacrificing performance

No temperature calibration or external trimming components required

Optimized code density through small instruction set architecture Thumb®-2 *

Robust POR concept for harsh automotive environments

Industry’s smallest footprint allows minimal module size and cost

Available Support Evaluation Kit and application notes

Physical Characteristics Wide operation temperature: -40°C to +125°C Supply voltage: 3.5 to 18 V Small footprint package: PQFN32 5x5 mm

Basic ZSSC1856 Application Circuit

ZSSC1856

VBAT

INNINP

-Car Chassis Ground

5

LIN

Rshunt

VDDE

+ - VSSA VSSE

+

Battery

GPIO

Host Controller

LIN Interface

Optional GPIO:SPI, I²C™,UART

To Harness

VDDA

NTH

f

NTC

ZSSC1856Intelligent Battery Sensor IC






















ZSSC1856

VBAT

INNINP

-Car Chassis Ground

5

LIN

Rshunt

VDDE

+ - VSSA VSSE

+

Battery

GPIO

Host Controller

LIN Interface


To Harness

VDDA

NTH

f

NTC






















ZSSC1856

VBAT

INNINP

-Car Chassis Ground

5

LIN

Rshunt

VDDE

+ - VSSA VSSE

+

Battery

GPIO

Host Controller

LIN Interface


To Harness

VDDA

NTH

f

NTC






















ZSSC1856

VBAT

INNINP

-Car Chassis Ground

5

LIN

Rshunt

VDDE

+ - VSSA VSSE

+

Battery

GPIO

Host Controller

LIN Interface


To Harness

VDDA

NTH

f

NTC



Applications

Intelligent battery sensing for automotive applications; e.g., start/stop systems, e-bikes, scooters, and e-carts

Industrial and medical applica-tions requiring precise battery SOC, SOH and SOF monitoring; e.g., emergency lighting, uninter-ruptable power supplies, hospital equipment, alarm systems, and more

Rbat

r=100Ω

Rinn

r=221Ω

Rinp

r=221Ω

Rdde

r=2.2Ω1 VDDE

INN

VSSE

VSSA

INP

VPP

TRSTNVDDA

NTH

VBAT VDDP VDDC TEST VSSPC VDDL LIN

VSSA TMS

TCK

STO

TESTL

TESTH

VSSLIN

VSSN

gpio0

NTL

gpio1 gpio2 gpio3 gpio4 tdo tdi

Cinc=10nF

Cddpc=2.2µF

Cddlc=10nF

lin

Rtestr=1kΩ

Cddpc=2.2µF

Clinc=220pF

DbatPESD1LIN

Rshuntr=100µΩ

Cntcc=470pF

Ddde

BAS20

Rrefr=2.2kΩ

Rntcr=1kΩ

Cddac=470nF

Cinnc=1nF

Cinpc=1nF

Cddec=10µF

Cbatc=22nF

n.c.

GPIO0 GPIO1 GPIO2 GPIO3 GPIO4 TDO TDI

ChassisGND

BAT+

BAT-tck

tms

trstn

n.c.

sto

ZSSC1856

Typical Application Circuit



ZSSC1856CA6R ZSSC1856 battery sensing IC – temperature range -40°C to +125°C

PQFN32 5x5 mm (reel)

ZSSC1856KIT V1.0 Modular evaluation and development board for ZSSC1856

Kit boards, IC samples, USB cable, DVD with software and documentation

ZSSC1856 Stacked Die

SBC Microcontroller

Analog Block

Digital Block

CAR BODY

PGA

MUX

UBAT

LIN

GPIO:SPI, I2C™,UART


VDDC_REG OSC GP_TIMER

GPIO: SPI, I2C™, UART

LP_REG

VDDA_REG

RAM FLASH µC

DIGITALFILTER

CONFIGREGISTER

RESULTREGISTER

SPIDIGITALFILTER


SHUNT

+ –BATTERY

SD_ADC

SD_ADC

RREF

NTC

LIN_PHYSLIN

UART


Applications


Industrial and medical applica-tions requiring precise battery SOC, SOH and SOF monitoring; e.g., emergency lighting, uninter-ruptable power supplies, hospital equipment, alarm systems, and more

Rbat

r=100Ω

Rinn

r=221Ω

Rinp

r=221Ω

Rdde

r=2.2Ω1 VDDE

INN

VSSE

VSSA

INP

VPP

TRSTNVDDA

NTH


VSSA TMS

TCK

STO

TESTL

TESTH

VSSLIN

VSSN

gpio0

NTL


Cinc=10nF

Cddpc=2.2µF

Cddlc=10nF

lin

Rtestr=1kΩ

Cddpc=2.2µF

Clinc=220pF

DbatPESD1LIN

Rshuntr=100µΩ

Cntcc=470pF

Ddde

BAS20

Rrefr=2.2kΩ

Rntcr=1kΩ

Cddac=470nF

Cinnc=1nF

Cinpc=1nF

Cddec=10µF

Cbatc=22nF

n.c.


ChassisGND

BAT+

BAT-tck

tms

trstn

n.c.

sto

ZSSC1856




ZSSC1856CA6R ZSSC1856 battery sensing IC – temperature range -40°C to +125°C

PQFN32 5x5 mm (reel)

ZSSC1856KIT V1.0 Modular evaluation and development board for ZSSC1856

Kit boards, IC samples, USB cable, DVD with software and documentation


SBC Microcontroller

Analog Block

Digital Block

CAR BODY

PGA

MUX

UBAT

LIN





LP_REG

VDDA_REG

RAM FLASH µC

DIGITALFILTER

CONFIGREGISTER

RESULTREGISTER

SPIDIGITALFILTER


SHUNT

+ –BATTERY

SD_ADC

SD_ADC

RREF

NTC

LIN_PHYSLIN

UART

Rev. 1.xx



© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.04 — May 19, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

For more information, contact ZMDI via [email protected]

Brief Description The ZSSC1956 is a dual-channel ADC with an em-bedded microcontroller for battery sensing/manage-ment in automotive, industrial, and medical systems. One of the two input channels measures the battery current IBAT via the voltage drop at the external shunt resistor. The second input channel measures the battery voltage VBAT and the temperature. An integrated flash memory is provided for customer-specific software; e.g., dedicated algorithms for calculating the battery state. During Sleep Mode (e.g., engine is off), the system makes periodic measurements to monitor the dis-charge of the battery. Measurement cycles are controlled by the software and include various wake-up conditions. The ZSSC1956 is optimized for ultra-low power consumption and draws only 100µA or less in Low-Power Mode.

Features High-precision 24-bit sigma-delta ADC (18-bit

with no missing codes); sample rate: 1Hz – 16kHz On-chip voltage reference (5ppm/K typical) Current channel

IBAT offset error: ≤ 10mA IBAT resolution: ≤ 1mA Programmable gain: 4 to 512 Differential input stage input range: ± 300mV

Voltage channel Input range: 4 to 28.8V Voltage accuracy: better than ±2mV


On-chip precision oscillator (1%) and on-chip low-power oscillator

ARM® Cortex™-M0* microcontroller: 32-bit core, 10MHz to 20MHz

96kB Flash/EE Memory with ECC, 8kB SRAM LIN2.2 / SAE J2602-2 compliant Directly connected to 12V battery supply Current consumption


Benefits Integrated, precision measurement solution for

accurate prediction of battery state of health (SOH), state of charge (SOC) or state of function (SOF)




Robust power-on-reset (POR) concept for harsh automotive environments


AEC-Q100 qualified solution

Available Support Evaluation Kit Application Notes



ZSSC1956

VBAT

INNINP

-Car Chassis Ground

5

LIN

Rshunt

VDDE

+ - VSSA VSSE

+

Battery

GPIO

Host Controller

LIN Interface


To Harness

VDDA

NTHf NTC

Module Ground

NTL


ZSSC1956Intelligent Battery Sensor IC



© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.04 — May 19, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Applications


Industrial and medical applications requiring precise battery SOC, SOH and SOF monitoring; e.g., emergency lighting, uninterruptable power supplies, hospital equipment, alarm systems, and more

Rbat

100Ω

Rinn

221Ω

Rinp

221Ω

Rdde

2.2Ω1 VDDE

INN

VSSE

VSSA

INP

VPP

TRSTNVDDA

NTH


VSSA TMS

TCK

STO

TESTL

TESTH

VSSLIN

VSSN

gpio0

NTL


Cin100nF

Cddc2.2µF

Cddl10nF

lin

Rtest1kΩ

Cddp2.2µF

Clin220pF

DbatGSOT36

Rshunt100µΩ

Cntc470pF

Ddde

BAS21

Rref75kΩ

Rntc10kΩ

Cdda470nF

Cinn10nF

Cinp10nF

Cdde1

10µF

Cbat100nF

n.c.


ChassisGND

BAT+

BAT-tck

tms

trstn

n.c.

sto

ZSSC1956


Cdde2

100nF



ZSSC1956AA2R ZSSC1956 battery sensing IC – temperature range -40°C to +125°C PQFN32 5x5 mm (reel) ZSSC1956KIT V1.0 ZSSC1956 Evaluation Kit: modular evaluation and development board for ZSSC1956, IC samples, and USB cable,

(software and documentation can be downloaded from the product page at www.zmdi.com/zssc1956)


SBC Microcontroller

Analog Block

Digital Block

CAR BODY

PGA

MUX

UBAT

LIN





LP_REG

VDDA_REG

RAM FLASH µC

DIGITALFILTER

CONFIGREGISTER

RESULTREGISTER

SPIDIGITALFILTER


SHUNT

+ –BATTERY

SD_ADC

SD_ADC

RREF

NTC

LIN_PHYSLIN

UART

Module GND



Applications


Industrial and medical applications requiring precise battery SOC, SOH and SOF monitoring; e.g., emergency lighting, uninterruptable power supplies, hospital equipment, alarm systems, and more

Rbat

100Ω

Rinn

221Ω

Rinp

221Ω

Rdde

2.2Ω1 VDDE

INN

VSSE

VSSA

INP

VPP

TRSTNVDDA

NTH


VSSA TMS

TCK

STO

TESTL

TESTH

VSSLIN

VSSN

gpio0

NTL


Cin100nF

Cddc2.2µF

Cddl10nF

lin

Rtest1kΩ

Cddp2.2µF

Clin220pF

DbatGSOT36

Rshunt100µΩ

Cntc470pF

Ddde

BAS21

Rref75kΩ

Rntc10kΩ

Cdda470nF

Cinn10nF

Cinp10nF

Cdde1

10µF

Cbat100nF

n.c.


ChassisGND

BAT+

BAT-tck

tms

trstn

n.c.

sto

ZSSC1956


Cdde2

100nF



ZSSC1956AA2R ZSSC1956 battery sensing IC – temperature range -40°C to +125°C PQFN32 5x5 mm (reel) ZSSC1956KIT V1.0 ZSSC1956 Evaluation Kit: modular evaluation and development board for ZSSC1956, IC samples, and USB cable,

(software and documentation can be downloaded from the product page at www.zmdi.com/zssc1956)


SBC Microcontroller

Analog Block

Digital Block

CAR BODY

PGA

MUX

UBAT

LIN





LP_REG

VDDA_REG

RAM FLASH µC

DIGITALFILTER

CONFIGREGISTER

RESULTREGISTER

SPIDIGITALFILTER


SHUNT

+ –BATTERY

SD_ADC

SD_ADC

RREF

NTC

LIN_PHYSLIN

UART

Module GND

Mobile Sensing from Interface Solutions for Mobile And Wearable Sensors

Mobile SensingSmart and Mobile


Global Corporate CatalogProducts available at ZMDI On-Line Store47

Industry leaders are predicting double-digit growth for the global market for mobile sensors, which is expected to expand to over 22 billion dollars by 2018. ZMDI’s next generation sensing technology can shorten critical time-to-market essential to meeting the increasing demands for smaller mobile products with more sophisticated features.Given ZMDI’s focus on designing best-in-class energy efficient solutions that reduce the demand for energy consumption, it is clear why market leaders build long-term relationships with ZMDI. With new solutions rapidly emerging in the market for mobile sensing systems and higher levels of integration driving new development, ZMDI is well placed to offer solutions that advance opportunities in this high-growth market. With highly integrated products providing advanced signal conditioning and sensing capabilities, ZMDI is positioned to be a true partner to tier-one suppliers, emerging market suppliers, MEMS suppliers, and reference design houses. For example, our recently released ZOPT3100 includes an ambient light sensor (ALS), a color sensor (CS), a proximity sensor (PS), and an integrated IR LED driver on a single chip.

Mobile Sensing ICs from ZMDI

• Altimeter/barometric• Proximity sensing• Ambient light/color sensing• Temperature sensing• Vital parameter sensing• Humidity sensing

Applications for ZMDI Mobile Sensor ICs

Key Features for ZMDI Mobile Sensor ICs

• High accuracy and resolution for precise sensor signal conditioning

• Best-in-class power consumption, accuracy, and resolution

• Small package size and flexible delivery forms• Minimal number of external components• Single-pass calibration

Sensor

Signal Conditioner

ICs are highly

integrated energy-

efficient products

that are easy to

use as they are

supported by

sophisticated

evaluation software

and experienced

technical staff


ZSSC3016 Low Power 16 Bit Sensor Signal Conditioner IC

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.04— August 27, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


Brief Description The ZSSC3016 is a sensor signal conditioner (SSC) integrated circuit for high-accuracy amplification and analog-to-digital conversion of a differential input signal. Designed for high-resolution altimeter module applications, the ZSSC3016 can perform offset, span, and 1st and 2nd order temperature compensa-tion of the measured signal. Developed for correc-tion of resistive bridge sensors, it can also provide a corrected temperature output measured with an internal sensor. The measured and corrected bridge values are provided at the digital output pins, which can be configured as I2C™* (≤ 3.4MHz) or SPI (≤ 20MHz). Digital compensation of signal offset, sensitivity, temperature, and non-linearity is accomplished via an 18-bit internal digital signal processor (DSP) running a correction algorithm. Calibration coeffici-ents are stored on-chip in a highly reliable, non-volatile, multiple-time programmable (MTP) memory. Programming the ZSSC3016 is simple via the serial interface and the PC-controlled calibration software provided in the ZMDI Development Kit. The interface is used for the PC-controlled calibration procedure, which programs the set of calibration coefficients in memory. The digital mating is fast and precise, eliminating the overhead normally associated with trimming external components and multi-pass calibration routines.

Features Flexible, programmable analog front-end design;

up to 16-bit scalable, charge-balancing, two-segment analog-to-digital converter (ADC)

Fully programmable gain amplifier for optimizing sensor signals: gain range 14 to 72 (linear factor)

Internal auto-compensated temperature sensor Digital compensation of individual sensor offset;

1st and 2nd order digital compensation of sensor gain

Digital compensation of 1st and 2nd order temper-ature gain and offset drift

Intelligent power management unit Typical sensor elements can achieve accuracy of

better than ±0.10% FSO @ -40 to 85 °C

Benefits Integrated 18-bit calibration math DSP Fully corrected signal at digital output Minimize calibration costs through the one-pass

calibration concept No external trimming components required Highly integrated CMOS design Layout customized for die-die bonding with

sensor for high-density chip-on-board assembly Excellent for low-voltage and low-power battery

applications

Support Evaluation Kit

Physical Characteristics Supply voltage range: 1.8 to 3.6V Current consumption: 1mA (operating mode) Sleep State current: 70nA (25°C) Temperature resolution: <0.003K/LSB Operation temperature: –40°C to +85 °C Small die size Delivery options: die for wafer bonding


SensorBridge

1

2

3

4

ZSSC3016

INP

VDDB

INN

VSSB

VDD

VSS

VPP

EOC

SEL

SS

MISO

MOSISDA

SCLKSCL

VDDVSS EOC

VPP

Microcontroller

VDD

VSS

Sign

alO

utpu

t/Po

st-p

roce

ssin

g

Sensor ModuleSEL

SS

MISO

MOSI_SDA

SCLK_SCL

Battery

6.75V … programming voltage for setup & calibration


ZSSC3016Low Power 16-Bit Sensor Signal Conditioner IC




Brief Description The ZSSC3016 is a sensor signal conditioner (SSC) integrated circuit for high-accuracy amplification and analog-to-digital conversion of a differential input signal. Designed for high-resolution altimeter module applications, the ZSSC3016 can perform offset, span, and 1st and 2nd order temperature compensa-tion of the measured signal. Developed for correc-tion of resistive bridge sensors, it can also provide a corrected temperature output measured with an internal sensor. The measured and corrected bridge values are provided at the digital output pins, which can be configured as I2C™* (≤ 3.4MHz) or SPI (≤ 20MHz). Digital compensation of signal offset, sensitivity, temperature, and non-linearity is accomplished via an 18-bit internal digital signal processor (DSP) running a correction algorithm. Calibration coeffici-ents are stored on-chip in a highly reliable, non-volatile, multiple-time programmable (MTP) memory. Programming the ZSSC3016 is simple via the serial interface and the PC-controlled calibration software provided in the ZMDI Development Kit. The interface is used for the PC-controlled calibration procedure, which programs the set of calibration coefficients in memory. The digital mating is fast and precise, eliminating the overhead normally associated with trimming external components and multi-pass calibration routines.


up to 16-bit scalable, charge-balancing, two-segment analog-to-digital converter (ADC)

Fully programmable gain amplifier for optimizing sensor signals: gain range 14 to 72 (linear factor)


1st and 2nd order digital compensation of sensor gain

Digital compensation of 1st and 2nd order temper-ature gain and offset drift

Intelligent power management unit Typical sensor elements can achieve accuracy of

better than ±0.10% FSO @ -40 to 85 °C

Benefits Integrated 18-bit calibration math DSP Fully corrected signal at digital output Minimize calibration costs through the one-pass

calibration concept No external trimming components required Highly integrated CMOS design Layout customized for die-die bonding with

sensor for high-density chip-on-board assembly Excellent for low-voltage and low-power battery

applications

Support Evaluation Kit

Physical Characteristics Supply voltage range: 1.8 to 3.6V Current consumption: 1mA (operating mode) Sleep State current: 70nA (25°C) Temperature resolution: <0.003K/LSB Operation temperature: –40°C to +85 °C Small die size Delivery options: die for wafer bonding


SensorBridge

1

2

3

4

ZSSC3016

INP

VDDB

INN

VSSB

VDD

VSS

VPP

EOC

SEL

SS

MISO

MOSISDA

SCLKSCL

VDDVSS EOC

VPP

Microcontroller

VDD

VSS

Sign

alO

utpu

t/Po

st-p

roce

ssin

g

Sensor ModuleSEL

SS

MISO

MOSI_SDA

SCLK_SCL

Battery

6.75V … programming voltage for setup & calibration




© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.04— August 27, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Applications The ZSSC3016 is designed for operation in cali-brated resistive (e.g., pressure) sensor modules: Barometric altitude measurement for portable

navigation Altitude measurement for emergency call

systems and car navigation Inside hard disk pressure measurement Weather forecast Fan control


Ordering Information (Contact ZMDI Sales for additional options.) Ordering Examples Description Package

ZSSC3016CC1B Temperature range: –40°C to +85°C, consumer-level parameters according to section 1 of the data sheet

Wafer (304µm) unsawn

ZSSC3016CI1B Temperature range: –40°C to +85°C, industrial-level parameters according to section 1 of the data sheet, 10 years MTP data retention


ZSSC3016CI1D ES Engineering samples, temperature range: –40°C to +85°C Dice in waffle pack

ZSSC3016KIT ZSSC3016 Evaluation Kit, including sample and modular evaluation board (Evaluation Software is downloadable from www.zmdi.com/zssc3016)

Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199


DISCLAIMER: This information applies to a product under development. Its characteristics and specifications are subject to change without notice. Zentrum Mikroelektronik Dresden AG (ZMD AG) assumes no obligation regarding future manufacture unless otherwise agreed to in writing. The information furnished hereby is believed to be true and accurate. However, under no circumstances shall ZMD AG be liable to any customer, licensee, or any other third party for any special, indirect, incidental, or consequential damages of any kind or nature whatsoever arising out of or in any way related to the furnishing, performance, or use of this technical data. ZMD AG hereby expressly disclaims any l iability of ZMD AG to any customer, licensee or any other third party, and any such customer, licensee and any other third party hereby waives any liability of ZMD AG for any damages in connection with or arising out of the furnishing, performance or use of this technical data, whether based on contract, warranty, tort (including negligence), strict liability, or otherwise.




Applications The ZSSC3016 is designed for operation in cali-brated resistive (e.g., pressure) sensor modules: Barometric altitude measurement for portable




Ordering Information (Contact ZMDI Sales for additional options.) Ordering Examples Description Package

ZSSC3016CC1B Temperature range: –40°C to +85°C, consumer-level parameters according to section 1 of the data sheet


ZSSC3016CI1B Temperature range: –40°C to +85°C, industrial-level parameters according to section 1 of the data sheet, 10 years MTP data retention


ZSSC3016CI1D ES Engineering samples, temperature range: –40°C to +85°C Dice in waffle pack

ZSSC3016KIT ZSSC3016 Evaluation Kit, including sample and modular evaluation board (Evaluation Software is downloadable from www.zmdi.com/zssc3016)

Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199


DISCLAIMER: This information applies to a product under development. Its characteristics and specifications are subject to change without notice. Zentrum Mikroelektronik Dresden AG (ZMD AG) assumes no obligation regarding future manufacture unless otherwise agreed to in writing. The information furnished hereby is believed to be true and accurate. However, under no circumstances shall ZMD AG be liable to any customer, licensee, or any other third party for any special, indirect, incidental, or consequential damages of any kind or nature whatsoever arising out of or in any way related to the furnishing, performance, or use of this technical data. ZMD AG hereby expressly disclaims any l iability of ZMD AG to any customer, licensee or any other third party, and any such customer, licensee and any other third party hereby waives any liability of ZMD AG for any damages in connection with or arising out of the furnishing, performance or use of this technical data, whether based on contract, warranty, tort (including negligence), strict liability, or otherwise.



ZSSC3026 Low-Power, High-Resolution 16-Bit Sensor Signal Conditioner

© 2014 Zentrum Mikroelektronik Dresden AG — Rev.1.04 — August 27, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


Brief Description The ZSSC3026 is a sensor signal conditioner (SSC) integrated circuit for high-accuracy amplification and analog-to-digital conversion of a differential input signal. Developed for correction of resistive bridge sensors and optimized for high-resolution altimeter module applications, the ZSSC3026 can perform offset, span, and 1st and 2nd order temperature com-pensation of the measured signal. It can also provide a corrected temperature output measured with an internal sensor. The corrected measurement values are provided at the digital output pins, which can be configured as I2C™* (≤3.4MHz) or SPI (≤ 20MHz). Digital compensation of the signal offset, sensitivity, temperature, and non-linearity is accomplished via an 18-bit internal digital signal processor (DSP) run-ning a correction algorithm. Calibration coefficients are stored on-chip in a highly reliable, non-volatile, multiple-time programmable (MTP) memory. Prog-ramming the IC is simple via the serial interface. An internal charge pump provides the programming voltage. The interface is used for the PC-controlled calibration procedure, which programs the calibra-tion coefficients in memory. The digital mating is fast and precise, eliminating the overhead normally associated with trimming external components and multi-pass calibration routines.


up to 16-bit scalable, charge-balancing two-segment analog-to-digital converter (ADC)

Fully programmable gain amplifier accepting sensors from 14 to 72 (linear factor)


1st and 2nd order compensation of sensor gain Digital compensation of 1st and 2nd order tem-

perature gain and offset drift Intelligent power management unit Layout customized for die-die bonding with

sensor for high-density chip-on-board assembly Typical sensor elements can achieve accuracy of

better than ±0.10% FSO @ -40 to 110°C

* I2C™ is a registered trademark of NXP.

Benefits Excellent for low-voltage and low-power battery

applications Integrated 18-bit calibration math DSP Costs minimized via one-pass calibration No external trimming components required Highly integrated CMOS design

Physical Characteristics Supply voltage range: 1.8 to 3.6V Current consumption: 1mA (operating mode) Sleep State current: 50nA (typical) Temperature resolution: <0.003K/LSB Operation temperatures depending on part

number: –40°C to +85°C; –40°C to +110°C Small die size Delivery options: die for wafer bonding, bumped

die for Flip Chip, PQFN24

Typical Applications The ZSSC3026 is designed for operation in calibrated resistive (pressure) sensor modules: Barometric altitude measurement for portable








Brief Description The ZSSC3026 is a sensor signal conditioner (SSC) integrated circuit for high-accuracy amplification and analog-to-digital conversion of a differential input signal. Developed for correction of resistive bridge sensors and optimized for high-resolution altimeter module applications, the ZSSC3026 can perform offset, span, and 1st and 2nd order temperature com-pensation of the measured signal. It can also provide a corrected temperature output measured with an internal sensor. The corrected measurement values are provided at the digital output pins, which can be configured as I2C™* (≤3.4MHz) or SPI (≤ 20MHz). Digital compensation of the signal offset, sensitivity, temperature, and non-linearity is accomplished via an 18-bit internal digital signal processor (DSP) run-ning a correction algorithm. Calibration coefficients are stored on-chip in a highly reliable, non-volatile, multiple-time programmable (MTP) memory. Prog-ramming the IC is simple via the serial interface. An internal charge pump provides the programming voltage. The interface is used for the PC-controlled calibration procedure, which programs the calibra-tion coefficients in memory. The digital mating is fast and precise, eliminating the overhead normally associated with trimming external components and multi-pass calibration routines.





1st and 2nd order compensation of sensor gain Digital compensation of 1st and 2nd order tem-

perature gain and offset drift Intelligent power management unit Layout customized for die-die bonding with

sensor for high-density chip-on-board assembly Typical sensor elements can achieve accuracy of

better than ±0.10% FSO @ -40 to 110°C


Benefits Excellent for low-voltage and low-power battery

applications Integrated 18-bit calibration math DSP Costs minimized via one-pass calibration No external trimming components required Highly integrated CMOS design

Physical Characteristics Supply voltage range: 1.8 to 3.6V Current consumption: 1mA (operating mode) Sleep State current: 50nA (typical) Temperature resolution: <0.003K/LSB Operation temperatures depending on part

number: –40°C to +85°C; –40°C to +110°C Small die size Delivery options: die for wafer bonding, bumped

die for Flip Chip, PQFN24

Typical Applications The ZSSC3026 is designed for operation in calibrated resistive (pressure) sensor modules: Barometric altitude measurement for portable








Ordering Information (Please contact ZMDI Sales for additional options) Sales Code Description Package

ZSSC3026CC1B ZSSC3026 Die — temperature range: –40°C to +85 °C, tested Unsawn wafer (304µm)

ZSSC3026CI1B ZSSC3026 Die — temperature range: –40°C to +85 °C, tested, 10 years MTP-data retention

Unsawn wafer (304µm)

ZSSC3026CI4 ZSSC3026 PQFN24 4x4mm – temperature range: –40°C to +110 °C, tested

ZSSC3026KIT Evaluation Kit for ZSSC30x6 Product Family: circuit boards, cable, 1 sample (Evaluation Software can be downloaded from www.zmdi.com/zssc3026)

Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199







Ordering Information (Please contact ZMDI Sales for additional options) Sales Code Description Package

ZSSC3026CC1B ZSSC3026 Die — temperature range: –40°C to +85 °C, tested Unsawn wafer (304µm)

ZSSC3026CI1B ZSSC3026 Die — temperature range: –40°C to +85 °C, tested, 10 years MTP-data retention

Unsawn wafer (304µm)

ZSSC3026CI4 ZSSC3026 PQFN24 4x4mm – temperature range: –40°C to +110 °C, tested

ZSSC3026KIT Evaluation Kit for ZSSC30x6 Product Family: circuit boards, cable, 1 sample (Evaluation Software can be downloaded from www.zmdi.com/zssc3026)

Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





ZSSC3027 Low-Power 16-Bit Sensor Signal Conditioner IC



Brief Description The ZSSC3027 is a sensor signal conditioner (SSC) integrated circuit for high-accuracy amplification and analog-to-digital conversion of a differential input signal. Designed for high-resolution altimeter module applications, the ZSSC3027 can perform offset, span, and 1st and 2nd order temperature compen-sation of the measured signal. Developed for correc-tion of resistive bridge sensors, it can also provide a corrected temperature output measured with an internal sensor. The measured and corrected bridge values are provided at the digital output pins, which can be configured as I2C™* (≤ 3.4MHz) or SPI (≤ 20MHz). Digital compensation of signal offset, sensitivity, temperature, and non-linearity is accomplished via an 18-bit internal digital signal processor (DSP) run-ning a correction algorithm. Calibration coefficients are stored on-chip in a highly reliable, non-volatile, multiple-time programmable (MTP) memory. Pro-gramming the ZSSC3027 is simple via the serial interface. The IC-internal charge pump provides the MTP programming voltage. The interface is used for the PC-controlled calibration procedure, which pro-grams the set of calibration coefficients in memory. The ZSSC3027 provides accelerated signal process-ing in order to support high-speed control, safety, and real-time sensing applications. It complements ZMDI’s ZSSC30x6 products.





1st and 2nd order digital compensation of sensor gain as well as of 1st and 2nd order temperature gain and offset drift

Layout optimized for stacked-die bonding for high-density chip-on-board assembly

Typical sensor elements can achieve accuracy of better than ±0.10% FSO** @ -40 to 85°C

Benefits Integrated 18-bit calibration math DSP Fully corrected signal at digital output One-pass calibration minimizes calibration costs No external trimming, filter, or buffering com-

ponents required Highly integrated CMOS design Excellent for low-voltage and low-power battery

applications Optimized for operation in calibrated resistive

sensor modules

Physical Characteristics Supply voltage range: 1.7 to 3.6V Operating mode current consumption:

930µA (typical) Sleep State current: 20nA (typical) Temperature resolution: <0.003K/LSB Operation temperatures: –40°C to +85°C Small die size Delivery options: die for wafer bonding

Available Support ZSSC3026 Evaluation Kit can be used to

evaluate ZSSC3027 capabilities Support Documentation



















sensor modules






















sensor modules










© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.01—August 24, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Applications Barometric altitude measurement for

portable navigation or emergency call systems

Altitude measurement for car navigation Inside hard disk pressure measurement Weather forecast Fan control Industrial, pneumatic, and liquid pressure High-resolution temperature measurements


Ordering Information (See section 6 in the data sheet for additional options for delivery)

Sales Code Description Delivery Package

ZSSC3027AC1B Die—temperature range: –40°C to +85 °C Wafer (304µm) unsawn, tested


ZSSC3027AC7C Die—temperature range: –40°C to +85°C Wafer (200µm) unsawn, tested

ZSSC3027AI1D Engineering samples, die—temperature range: –40°C to +85°C Dice in waffle pack (304µm)

ZSSC3026-KIT Evaluation Kit for ZSSC3026, including boards, cable, software, and 1 ZSSC3026 PQFN24 sample (equivalent to ZSSC3027—kit is recommended for evaluation of the capabilities of the ZSSC3027)



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199




SensorBridge

AGND / CMGenerator

Bias CurrentGenerator

Power-ONReset

TemperatureReferenceSensor

18-bit DSP Core(Calculations,Communication)

MTPROM

SystemControl

Unit

Mul

tiple

xer

Pre-Amplifier

VTP

VTN

EOCINP

INN

VDD

VSSB

RingOscillator

ClockGenerator

SEL

SPI

I²CTM

SCLK/SCL

MISOMOSI/SDASS

VSS

VoltageRegulator

Power Ctr.

Vreg int

AD16 Bit

VDDB

ZSSC3027


© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.01—August 24, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.



Altitude measurement for car navigation Inside hard disk pressure measurement Weather forecast Fan control Industrial, pneumatic, and liquid pressure High-resolution temperature measurements


Ordering Information (See section 6 in the data sheet for additional options for delivery)




ZSSC3027AC7C Die—temperature range: –40°C to +85°C Wafer (200µm) unsawn, tested

ZSSC3027AI1D Engineering samples, die—temperature range: –40°C to +85°C Dice in waffle pack (304µm)

ZSSC3026-KIT Evaluation Kit for ZSSC3026, including boards, cable, software, and 1 ZSSC3026 PQFN24 sample (equivalent to ZSSC3027—kit is recommended for evaluation of the capabilities of the ZSSC3027)



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199




SensorBridge

AGND / CMGenerator


Power-ONReset



MTPROM

SystemControl

Unit

Mul

tiple

xer

Pre-Amplifier

VTP

VTN

EOCINP

INN

VDD

VSSB

RingOscillator

ClockGenerator

SEL

SPI

I²CTM

SCLK/SCL

MISOMOSI/SDASS

VSS

VoltageRegulator

Power Ctr.

Vreg int

AD16 Bit

VDDB

ZSSC3027





Brief Description The ZSSC3036 is a sensor signal conditioner (SSC) integrated circuit for high-accuracy amplification and analog-to-digital conversion of a differential input signal. Designed for high-resolution altimeter module applications, the ZSSC3036 can perform offset, span, and 1st and 2nd order temperature compen-sation of the measured signal. Developed for correc-tion of resistive bridge sensors, it can also provide a corrected temperature output measured with an internal sensor. The measured and corrected bridge values are provided at the digital output pins, which can be configured as I2C™* (≤ 3.4MHz) or SPI (≤ 20MHz). Digital compensation of signal offset, sensitivity, temperature, and non-linearity is accomplished via an 18-bit internal digital signal processor (DSP) run-ning a correction algorithm. Calibration coefficients are stored on-chip in a highly reliable, non-volatile, multiple-time programmable (MTP) memory. Pro-gramming the ZSSC3036 is simple via the serial interface. The IC-internal charge pump provides the MTP programming voltage. The interface is used for the PC-controlled calibration procedure, which pro-grams the set of calibration coefficients in memory. The ZSSC3036 provides accelerated signal process-ing in order to support high-speed control, safety, and real-time sensing applications. It complements ZMDI’s additional ZSSC30x6 products.






Fast sensing: 16-bit conditioned sensor signal measurement rate at more than 200s-1

Typical sensor elements can achieve accuracy of less than ±0.10% FSO** @ -40 to 110°C

Benefits Integrated 18-bit calibration math DSP Fully corrected signal at digital output Layout customized for die-die bonding with

sensor for high-density chip-on-board assembly Single-pass calibration minimizes calibration

costs No external trimming, filter, or buffering com-



sensor modules

Physical Characteristics Supply voltage range: 1.8 to 3.6V Current consumption: 1mA (operating mode) Sleep State current: 50nA (typical) Temperature resolution: <0.003K/LSB Operation temperatures: –40°C to +85°C

–40°C to +110°C Small die size Delivery options: die for wafer bonding * I2C™ is a trademark of NXP.









Altitude measurement for car navigation Inside hard disk pressure measurement Weather forecast Fan control Industrial, pneumatic, and liquid pressure High-resolution temperature

measurements


Ordering Information (See section 6 in the data sheet for additional options for delivery package and wafer thickness of 725µm.)


ZSSC3036CC1B Die—temperature range: –40°C to +85 °C Wafer (304µm) unsawn, tested

ZSSC3036CI1B Die—temperature range: –40°C to +85 °C, extended qualification Wafer (304µm) unsawn, tested

ZSSC3036CC1C Die—temperature range: –40°C to +85°C Dice on frame (304µm), tested

ZSSC3036CI1BH Die—temperature range: –40°C to +110 °C, extended qualification Wafer (304µm) unsawn, tested

ZSSC3036CI1CH Die—temperature range: –40°C to +110 °C, extended qualification Dice on frame (304µm), tested

ZSSC30x6-KIT Evaluation Kit for ZSSC30x6 Product Family, including boards, cable, software, and 1 sample



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199




SensorBridge

AGND / CMGenerator


Power-ONReset



MTPROM

SystemControl

Unit

Mul

tiple

xer

Pre-Amplifier

VTP

VTN

EOCINP

INN

VDD

VSSB

RingOscillator

ClockGenerator

SEL

SPI

I²CTM

SCLK/SCL

MISOMOSI/SDASS

VSS

VoltageRegulator

Power Ctr.

Vreg int

AD16 Bit

VDDB

ZSSC3036





Altitude measurement for car navigation Inside hard disk pressure measurement Weather forecast Fan control Industrial, pneumatic, and liquid pressure High-resolution temperature

measurements


Ordering Information (See section 6 in the data sheet for additional options for delivery package and wafer thickness of 725µm.)


ZSSC3036CC1B Die—temperature range: –40°C to +85 °C Wafer (304µm) unsawn, tested

ZSSC3036CI1B Die—temperature range: –40°C to +85 °C, extended qualification Wafer (304µm) unsawn, tested

ZSSC3036CC1C Die—temperature range: –40°C to +85°C Dice on frame (304µm), tested

ZSSC3036CI1BH Die—temperature range: –40°C to +110 °C, extended qualification Wafer (304µm) unsawn, tested

ZSSC3036CI1CH Die—temperature range: –40°C to +110 °C, extended qualification Dice on frame (304µm), tested

ZSSC30x6-KIT Evaluation Kit for ZSSC30x6 Product Family, including boards, cable, software, and 1 sample



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199




SensorBridge

AGND / CMGenerator


Power-ONReset



MTPROM

SystemControl

Unit

Mul

tiple

xer

Pre-Amplifier

VTP

VTN

EOCINP

INN

VDD

VSSB

RingOscillator

ClockGenerator

SEL

SPI

I²CTM

SCLK/SCL

MISOMOSI/SDASS

VSS

VoltageRegulator

Power Ctr.

Vreg int

AD16 Bit

VDDB

ZSSC3036


ZSSC3218 High-End 18-Bit Sensor Signal Conditioner IC

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.01 — September 11, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


Brief Description The ZSSC3218 is a sensor signal conditioner (SSC) integrated circuit for high-accuracy amplification and analog-to-digital conversion of a differential or pseudo-differential input signal. Designed for high-resolution sensor module applications, the ZSSC3218 can perform offset, span, and 1st and 2nd order temperature compensation of the measured signal. Developed for correction of resistive bridge or absolute voltage sensors, it can also provide a corrected temperature output measured with an internal sensor. The measured and corrected sensor values are provided at the digital output pins, which can be configured as I2C™* (≤ 3.4MHz) or SPI (≤ 20MHz). Digital compensation of signal offset, sensitivity, temperature, and non-linearity is accomplished via a 26-bit internal digital signal processor (DSP) running a correction algorithm. Calibration coefficients are stored on-chip in a highly reliable, non-volatile, multiple-time programmable (MTP) memory. Pro-gramming the ZSSC3218 is simple via the serial interface. The interface is used for the PC-controlled calibration procedure, which programs the set of calibration coefficients in memory. The ZSSC3218 provides accelerated signal processing, increased resolution, and improved noise immunity in order to support high-speed control, safety, and real-time sensing applications with the highest requirements for energy efficiency.


up to 18-bit analog-to-digital converter (ADC) Fully programmable gain amplifier for optimizing

sensor signals: gain range 6.6 to 216 (linear) Internal auto-compensated temperature sensor Digital compensation of individual sensor offset;

1st and 2nd order digital compensation of sensor gain as well as 1st and 2nd order temperature gain and offset drift

Programmable interrupt operation High-speed sensing: e.g. 16-bit conditioned

sensor signal measurement rate >500s-1 Typical sensor elements can achieve an accu-

racy of better than ±0.10% FSO** at -40 to 85°C

Benefits Integrated 26-bit calibration math digital signal

processor (DSP) Fully corrected signal at digital output Layout customized for die-die bonding with

sensor for high-density chip-on-board assembly One-pass calibration minimizes calibration costs No external trimming, filter, or buffering com-

ponents required Highly integrated CMOS design Integrated reprogrammable non-volatile memory Excellent for low-voltage and low-power battery


(e.g., pressure) sensor or calibrated absolute voltage (e.g., thermopile) sensor modules

Physical Characteristics Supply voltage range: 1.68V to 3.6V Current consumption: 1.0mA (operating mode) Sleep State current: 20nA (typical) Temperature resolution: <0.003K/LSB Best-in-class energy-efficiency:

with 16-bit resolution: <140pJ/step with 18-bit resolution: <50pJ/step

Operation temperature: –40°C to +85°C Small die size Delivery options: die for wafer bonding




VSSB

VDD

INN

VDDB

VSS

EOC

RES

MOSISDA

SCLKSCL

sensor element

VDDB

VSSB

INP(+)

INN(-)

INP

MISO

SS

Stacked-Die Sensor Module

VDD

VSS

Microcontroller

VDD

VSSS

igna

lOut

put/

Pos

t-pro

cess

ing

SS

MISO

MOSISDA

SCLKSCL

Battery

ZSSC3218

RES

EOC

ZSSC3218High-End 18-Bit Sensor Signal Conditioner IC



© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.01— September 11, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.



Altitude measurement for car navigation Weather forecast Fan control Industrial, pneumatic, and liquid pressure High-resolution temperature measurements Object-temperature radiation (via thermopile)



ZSSC3218BI1B Die—temperature range: –40°C to +85 °C; thickness 304µm Unsawn wafer

ZSSC3218BI2B Die—temperature range: –40°C to +85 °C; thickness 725µm (w/o backlapping)

Unsawn wafer

ZSSC3218BI1D ES Die—temperature range: –40°C to +85 °C; thickness 304µm, engineering samples

Sawn die in waffle pack

ZSSC3218BI3R ES PQFN24—temperature range: –40°C to +85 °C; engineering samples

Packaged die



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199




SensorBridge

AGND / CMGenerator


Power-ONReset


DSP Core(Calculations,Communication)

MTPSystemControl

UnitM

ultip

lexe

r

Pre-Amplifier

VTP

VTN

EOCINP

INN

VDD

VSSB

Oscillator

ClockGenerator

SPI

I²CTM

SCLK/SCL

MISOMOSI/SDASS

VSS

VoltageRegulator

Power Ctr.

Vreg int

AD18 Bit

VDDB

ZSSC3218

RES


© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.01— September 11, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.



Altitude measurement for car navigation Weather forecast Fan control Industrial, pneumatic, and liquid pressure High-resolution temperature measurements Object-temperature radiation (via thermopile)



ZSSC3218BI1B Die—temperature range: –40°C to +85 °C; thickness 304µm Unsawn wafer

ZSSC3218BI2B Die—temperature range: –40°C to +85 °C; thickness 725µm (w/o backlapping)

Unsawn wafer

ZSSC3218BI1D ES Die—temperature range: –40°C to +85 °C; thickness 304µm, engineering samples

Sawn die in waffle pack

ZSSC3218BI3R ES PQFN24—temperature range: –40°C to +85 °C; engineering samples

Packaged die



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199




SensorBridge

AGND / CMGenerator


Power-ONReset


DSP Core(Calculations,Communication)

MTPSystemControl

Unit

Mul

tiple

xer

Pre-Amplifier

VTP

VTN

EOCINP

INN

VDD

VSSB

Oscillator

ClockGenerator

SPI

I²CTM

SCLK/SCL

MISOMOSI/SDASS

VSS

VoltageRegulator

Power Ctr.

Vreg int

AD18 Bit

VDDB

ZSSC3218

RES


ZOPT3100 Digital RGB/Ambient Light + Proximity Sensor IC



Brief Description The ZOPT3100 Sensor IC integrates an ambient light sensor (ALS), a color sensor (CS), and a prox-imity sensor (PS), as well as an LED driver on a single chip. The device is connected by an I²C™* interface to a microcontroller. Other I²C™ or SMBus devices can be connected to the same interface. The device has a programmable interrupt with hysteresis to respond to events and reduce the microcontroller tasks. The device allows adjusting the brightness as well as the color of the display panel. This device can also measure distance in parallel with ALS and CS measurements in order to deactivate the touch screen during phone calls.

Features 5 integrated photodiodes (1 proximity diode and

4 diodes for white, green, blue, and red channels) 5 analog-to-digital converters (ADCs) to measure

PS in parallel to ALS/CS I²C™ capable of standard mode (100kHz) or fast

mode (400kHz) communication; 1.8V logic compatible

Programmable interrupt function for ALS (green channel) and PS with upper and lower thresholds

PS measurement parallel to ALS/CS measure-ments

Many measurement modes: PS+ALS+CS, ALS+CS, PS+ALS, PS only, ALS only, CS only

PS Features High ambient light suppression Built-in LED driver and detector Detection of movement (in/out) Cancelation of crosstalk (lowest PS value is

stored and subtracted from output value to memorize the reflection quantity)

Programmable pulsed LED driver: up to 125mA output current

11-bit resolution

* I2C is a trademark of NXP.

ALS Features Dynamic range : 0.006 lux to 32,000 lux ALS measurement uses CS green filtered values Temperature compensation CS/ALS output resolution: 14 to 18 bits Linear output code 50ms conversion rate for 14-bit resolution 50Hz/60Hz light flicker immunity Fluorescent light flicker immunity

CS Features Temperature compensation CS/ALS output resolution: 14 to 18 bits Linear output code 50ms conversion rate for 14-bit resolution 50Hz/60Hz light flicker immunity Fluorescent light flicker immunity

Physical Characteristics Wide operation temperature: -40 to +90 °C Wide supply voltage: 2.4 to 3.6 V Low supply current: < 200µA

(LED driver excluded) Low standby current: < 2µA

ZOPT3100 Application Circuit

VDD

AGND

INT

SEL

PWM

SDASCL

SDASCL

VDD

3.3V

VDD

VSS

INT

3.3V

Microcontroller

ZOPT3100

LED_GND

LED VDD

ZOPT3100Digital RGB/Ambient Light + Proximity Sensor IC




Brief Description The ZOPT3100 Sensor IC integrates an ambient light sensor (ALS), a color sensor (CS), and a prox-imity sensor (PS), as well as an LED driver on a single chip. The device is connected by an I²C™* interface to a microcontroller. Other I²C™ or SMBus devices can be connected to the same interface. The device has a programmable interrupt with hysteresis to respond to events and reduce the microcontroller tasks. The device allows adjusting the brightness as well as the color of the display panel. This device can also measure distance in parallel with ALS and CS measurements in order to deactivate the touch screen during phone calls.

Features 5 integrated photodiodes (1 proximity diode and

4 diodes for white, green, blue, and red channels) 5 analog-to-digital converters (ADCs) to measure

PS in parallel to ALS/CS I²C™ capable of standard mode (100kHz) or fast

mode (400kHz) communication; 1.8V logic compatible

Programmable interrupt function for ALS (green channel) and PS with upper and lower thresholds

PS measurement parallel to ALS/CS measure-ments

Many measurement modes: PS+ALS+CS, ALS+CS, PS+ALS, PS only, ALS only, CS only

PS Features High ambient light suppression Built-in LED driver and detector Detection of movement (in/out) Cancelation of crosstalk (lowest PS value is

stored and subtracted from output value to memorize the reflection quantity)

Programmable pulsed LED driver: up to 125mA output current

11-bit resolution

* I2C is a trademark of NXP.

ALS Features Dynamic range : 0.006 lux to 32,000 lux ALS measurement uses CS green filtered values Temperature compensation CS/ALS output resolution: 14 to 18 bits Linear output code 50ms conversion rate for 14-bit resolution 50Hz/60Hz light flicker immunity Fluorescent light flicker immunity

CS Features Temperature compensation CS/ALS output resolution: 14 to 18 bits Linear output code 50ms conversion rate for 14-bit resolution 50Hz/60Hz light flicker immunity Fluorescent light flicker immunity

Physical Characteristics Wide operation temperature: -40 to +90 °C Wide supply voltage: 2.4 to 3.6 V Low supply current: < 200µA

(LED driver excluded) Low standby current: < 2µA

ZOPT3100 Application Circuit

VDD

AGND

INT

SEL

PWM

SDASCL

SDASCL

VDD

3.3V

VDD

VSS

INT

3.3V

Microcontroller

ZOPT3100

LED_GND

LED VDD



© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.01— September 13, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

Applications Cellular phones

Notebooks

Consumer devices

I²C

Register File

INT

SDA

SCL

ADC

DualSlope ADC

11 Bit

Main State Machine

CS/ALSFSM

PSFSM

Fuses

OSCPOR

Bandgap

IR LEDDriver

Regulator

Reference

IR LED

LED GND AGND

VDD2.4 to 3.6V

InterruptFSM

ADC

ADC

ADC

SEL

= Digital Block= Analog Block

PWM

ZOPT3100 Block Diagram


ZOPT3100AC6B ZOPT3100 die — Temperature Range: -40 to +90 °C Unsawn wafer

ZOPT3100 KIT ZOPT3100 Evaluation Kit, including Evaluation Board, cable, and 1 IC sample

Kit



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





• Temperature compensation

• CS output resolution: 14 to 18 bits

• Linear output code

• 50ms conversion rate for 14-bit resolution

• 50Hz/60Hz light flicker immunity

• Fluorescent light flicker immunity

ZOPT3100’s Integrated Color Sensor (CS)

• High ambient light suppression

• Built-in LED driver and detector

• Detection of movement (in/out)

• Cancelation of cross-talk (lowest PS value is stored and subtracted from output value to memorize the reflection quantity)

• Programmable pulsed LED driver: up to 125mA output current

• 11-bit resolution

ZOPT3100’s Integrated Proximity Sensor (PS)

• Unique, all-in-one optical sensor IC – integrated ambient light sensor, color sensor, proximity sensor, and IR LED

• Low-power – ideal for mobile applications including consumer devices, cell phones, notebooks

• Current consumption: 200μA (LED driver excluded); low standby mode current: 2μA (see data sheet for conditions)

• Maximum temperature range: -40 to +90°C

• Supply voltage: 2.4 to 3.6 VDC

• Available as die

ZOPT3100 Physical Characteristics

ZOPT3100 Application OverviewZMDI‘s Optical Sensor IC

• Dynamic range: 0.006 lux to 32,000 lux

• ALS measurement uses CS green filtered values

• Temperature compensation

• ALS output resolution: 14 to 18 bits

• 50ms conversion rate for 14-bits resolution

• Linear output code

• 50Hz/60Hz light flicker immunity

• Fluorescent light flicker immunity

ZOPT3100’s Integrated Ambient Light Sensor (ALS)

Automotive ASSICs and Industrial ASSPsMulti-Functional and Robust

The Fast Track to Energy-Efficient Vehicles’s Leading-Edge Automotive ASICs and Industrial ASSPs:

Precise, Rugged, Versatile and Low-Power


IOLink compliant HV Line Driver (Single Channel)

20112.1.0All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is and subject to changes without notice.

The ZIOL2201 is a smart power solution of a line driver/level shifter IC containing an HV1 I/Ochannel having a wide range of configurable system features. It addresses the physical layer of sensor/actuator systems in factory automation and is especially designed to support the communication standard IOLink.

The output driver is a push pull stage which reaches an RDSon of less than 6.6 Ohms at all operational temperatures.

The configuration is stored in an onchip EEPROM and automatically loaded into the IC’s control register during power up. The IC also provides status information, such as overload and over temperature. An implemented SPI interface supports access to configuration and status registers.

The IC is produced in a powerful CMOS Mixed Signal Technology that allows supply voltages up to 40V. The EEPROM read/write functionality is guaranteed within the entire operating temperature range in combination with a low Voltage core supply of 3.3V.

Output current limitation (50 300mA) Standard cable driver/ physical layer transceiver

for IOLink (Device) Slewrate controlled driver Wide range of configurable feature set which is

automatically loaded after power on reset Onboard DC/DC converter IOLink specific WURQ2 detection On chip registers and EEPROM for system

configuration and status information SPI to access on chip registers and EEPROM Dig. interface: 3.3V output, 5V tolerant inputs Chip temperature monitoring/diagnosis Overcurrent and temperature signaling

1 High Voltage (max. power supply / signal swing is 36 volt) 2 IOLink device wakeup

Configurable feature set Non volatile storage of system configuration Excellent EMC performance due to adjustable

output slew rate control Low RDSon of 6.6 Ohms Programmable limitation of driver output current DC/DC converter on Chip EEPROM read/write functionality within entire

operating temperature range Space saving 4x4 mm² 24 pin QFN

Evaluation Kits Application Notes

Operation temperature 40 to +85 °C Supply voltage 8.0 to 36.0 V QFN 24 package

ZIOL2201IO-Link compliant HV Line Driver (Single Channel)



The ZIOL2201 is a smart power solution of a line driver/level shifter IC containing an HV1 I/Ochannel having a wide range of configurable system features. It addresses the physical layer of sensor/actuator systems in factory automation and is especially designed to support the communication standard IOLink.

The output driver is a push pull stage which reaches an RDSon of less than 6.6 Ohms at all operational temperatures.




for IOLink (Device) Slewrate controlled driver Wide range of configurable feature set which is

automatically loaded after power on reset Onboard DC/DC converter IOLink specific WURQ2 detection On chip registers and EEPROM for system




output slew rate control Low RDSon of 6.6 Ohms Programmable limitation of driver output current DC/DC converter on Chip EEPROM read/write functionality within entire







The ZIOL2201 application field is acting as universal cable driver. Furthermore the IC supports IOLink communications as physical layer transceiver (PHY) for IOLink master ports and IOLink devices.

An integrated DC/DC converter in combination with two linear voltage regulators allows optimizing the power supply of the application.

24V line driver/level shifter IOLink compliant devices

Note: The datasheet contains detailed technical information

(# stands for the device revision)

# Single Channel IOLink compliant HV Line Driver IC, packing: 13” reel PQFN24, 4x4

# Single Channel IOLink compliant HV Line Driver IC, packing: 7” tray PQFN24, 4x4

ZIOL2401 LabKit for detailed lab evaluation (suitable for ) (configurable IC/Communication/Controller PCB, software, USBcable)

ZIOL2401 Introduction tool (USB stick, extension board, software) (suitable for )

Grenzstrasse 28 01109 Dresden Germany

8413 Excelsior Drive Suite 200 Madison, WI 53717 USA

2nd Floor, Shinbashi Tokyu Bldg. 4213, Shinbashi, Minatoku Tokyo, 1050004 Japan

3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +49 (0)351.8822.7465 Fax +49 (0)351.8822.87465

Phone +1 (608) 8291987 Fax +1 (631) 5492882

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886 2 2377 8189 Fax +886 2 2377 8199

DISCLAIMER: This information applies to a product under development. Its characteristics and specifications are and subject to change without notice. Zentrum Mikroelektronik Dresden AG (ZMD AG) assumes no obligation regarding future manufacture unless otherwise agreed to in writing. The information furnished hereby is believed to be true and accurate. However, under no circumstances shall ZMD AG be liable to any customer, licensee, or any other third party for any special, indirect, incidental, or consequential damages of any kind or nature whatsoever arising out of or in any way related to the furnishing, performance, or use of this technical data. ZMD AG hereby expressly disclaims any liability of ZMD AG to any customer, licensee or any other third party, and any such customer, licensee and any other third party hereby waives any liability of ZMD AG for any damages in connection with or arising out of the furnishing, performance or use of this technical data, whether based on contract, warranty, tort (including negligence), strict liability, or otherwise.


ZIOL2211 IO-Link-Compliant HV Line Driver (Single Channel)

© 2012 Zentrum Mikroelektronik Dresden AG — Rev. 2.20 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

Brief Description The ZIOL2211 is a line driver/level shifter IC that provides an HV1 I/O channel with a wide range of configurable system features. It addresses the physi-cal layer of sensor/actuator systems in factory auto-mation applications, and it is specifically designed to support the communication standard IO-Link 2.

The output driver is a push-pull stage that reaches an RDSon of less than 6.6Ω at all operational tem-peratures.

The configuration is stored in an on-chip EEPROM and automatically loaded into the ZIOL2211’s control register during power-up. The ZIOL2211 also pro-vides status information, such as overload and over-temperature. An integrated SPI interface supports access to configuration and status registers.

The ZIOL2211 is fabricated in a powerful CMOS Mixed Signal Technology that allows supply voltages up to 40V. The EEPROM read/write functionality is guaranteed within the entire operating temperature range in combination with a low-voltage core supply of 3.3V.

Features Output current limitation: 50mA to 410mA Standard cable driver / physical-layer transceiver

for IO-Link (device) Slew-rate controlled driver Wide range for configurable feature set that is

automatically loaded after power-on reset IO-Link specific WURQ3 detection On-chip registers and EEPROM for system

configuration and status information SPI interface for access on chip registers and

EEPROM Digital interface: 3.3V output, 5V-tolerant inputs Chip temperature monitoring/diagnosis Over-current and over-temperature indication

1 HV: high voltage (maximum power supply / signal swing is 36V) 2 ZMDI is a member of the IO-Link Consortium: www.io-link.com 3 IO-Link device wake-up

Benefits Configurable feature set Nonvolatile storage of system configuration Excellent electromagnetic compatibility (EMC)

performance due to adjustable output slew rate control

Low RDSon: 6.6Ω Programmable limitation of driver output current EEPROM read/write functionality within entire

operating temperature range Space saving package options

Available Support Evaluation Kits Application Notes

Physical Characteristics Operation temperature: -40 to +85 °C Supply voltage: 8.0V to 36.0V Package options: PQFN 24 4x4 mm,

WL-CSP 35 2.5x2.5mm

ZIOL2211 Application Circuits

sensor ZIOL2211 Traditional PLC

sensor ZIOL2211

actuator ZIOL2211

IO-LinkPLC(master)

ZIOL24x1

ZIOL24x1

sensor ZIOL2211

sensor ZIOL2211 ZIOL24x1

SIO

IO-L

IO-L

IO-L

ZIOL2211IO-Link compliant HV Line Driver (Single Channel)



Brief Description The ZIOL2211 is a line driver/level shifter IC that provides an HV1 I/O channel with a wide range of configurable system features. It addresses the physi-cal layer of sensor/actuator systems in factory auto-mation applications, and it is specifically designed to support the communication standard IO-Link 2.

The output driver is a push-pull stage that reaches an RDSon of less than 6.6Ω at all operational tem-peratures.

The configuration is stored in an on-chip EEPROM and automatically loaded into the ZIOL2211’s control register during power-up. The ZIOL2211 also pro-vides status information, such as overload and over-temperature. An integrated SPI interface supports access to configuration and status registers.

The ZIOL2211 is fabricated in a powerful CMOS Mixed Signal Technology that allows supply voltages up to 40V. The EEPROM read/write functionality is guaranteed within the entire operating temperature range in combination with a low-voltage core supply of 3.3V.

Features Output current limitation: 50mA to 410mA Standard cable driver / physical-layer transceiver

for IO-Link (device) Slew-rate controlled driver Wide range for configurable feature set that is

automatically loaded after power-on reset IO-Link specific WURQ3 detection On-chip registers and EEPROM for system

configuration and status information SPI interface for access on chip registers and

EEPROM Digital interface: 3.3V output, 5V-tolerant inputs Chip temperature monitoring/diagnosis Over-current and over-temperature indication

1 HV: high voltage (maximum power supply / signal swing is 36V) 2 ZMDI is a member of the IO-Link Consortium: www.io-link.com 3 IO-Link device wake-up

Benefits Configurable feature set Nonvolatile storage of system configuration Excellent electromagnetic compatibility (EMC)

performance due to adjustable output slew rate control

Low RDSon: 6.6Ω Programmable limitation of driver output current EEPROM read/write functionality within entire

operating temperature range Space saving package options

Available Support Evaluation Kits Application Notes

Physical Characteristics Operation temperature: -40 to +85 °C Supply voltage: 8.0V to 36.0V Package options: PQFN 24 4x4 mm,

WL-CSP 35 2.5x2.5mm

ZIOL2211 Application Circuits

sensor ZIOL2211 Traditional PLC

sensor ZIOL2211

actuator ZIOL2211

IO-LinkPLC(master)

ZIOL24x1

ZIOL24x1

sensor ZIOL2211

sensor ZIOL2211 ZIOL24x1

SIO

IO-L

IO-L

IO-L




Typical Applications ZIOL2211 Block Diagram

In field applications, the ZIOL2211 acts as a universal cable driver. The ZIOL2211 can support IO-Link communications as a physical-layer transceiver (PHY) for IO-Link mas-ter ports and IO-Link devices.

Common applications: 24V line driver/level shifter IO-Link-compliant devices

See the ZIOL2xxx IC Family datasheet for detailed technical information.

Application SideLow Voltage (LV) Signals

PowerSupply

Single channeltransceiver

COM

Control

ApplicationCircuit

RX/TX

ConfigurationDiagnosis

Cable

Power

GND

Ch 0

Cable SideHigh Voltage (HV)

Signals

ZIOL2211

Actuator,Sensor,orInterfaceto HostSystem

Ordering Information Product Sales Code Description IC Package

ZIOL2211BI1R Single Channel IO-Link-compliant HV Line Driver IC, packaging; 13” reel PQFN24, 4x4mm

ZIOL2211BI1W Single Channel IO-Link-compliant HV Line Driver IC, packaging; 7” tray PQFN24, 4x4mm

ZIOL2211BI2R (CSP) Single Channel IO-Link-compliant HV Line Driver IC, packaging; reel WL-CSP35, 2.5x2.5mm

ZIOL2401-Lab Kit ZIOL2401 lab kit for evaluation of the ZIOL2xxx family including ZIOL2211: configurable IC/communication/controller circuit board, software, USB cable

ZIOL2401-Starter Kit ZIOL2401 demonstration tool for the ZIOL2xxx family including ZIOL2211(USB stick, extension board, software)

Sales and Further Information www.zmdi.com [email protected] Zentrum Mikroelektronik Dresden AG Grenzstrasse 28 01109 Dresden Germany




Zentrum Mikroelektronik Dresden AG, Korean Office POSCO Centre Building West Tower, 11th Floor 892 Daechi, 4-Dong, Kangnam-Gu Seoul, 135-777 Korea

Phone +49.351.8822.7465 Fax +49.351.8822.87465

Phone +855-ASK-ZMDI (+855.275.9634)

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Phone +82.2.559.0660 Fax +82.2.559.0700



ZIOL2401IO-Link compliant HV Line Driver (Dual Channel)


IOLink compliant HV Line Driver (Dual Channel)


The ZIOL2411 is a line driver/level shifter IC with two independent HV1 I/Ochannels having a wide range of configurable system features. It addresses the physical layer of sensor/actuator systems in factory automation and is especially designed to support the communication standard IOLink.

The output drivers are push pull stages which reach in tandem mode an RDSon of less than 3.3 Ohms at all operational temperatures.




for IOLink (Master & Device) Slewrate controlled drivers Wide range of configurable feature set which is

automatically loaded after power on reset IOLink specific WURQ2 detection On chip registers and EEPROM for system




output slew rate control Low RDSon of 3.3 Ohms in tandem mode Programmable limitation of driver output current EEPROM read/write functionality within entire




ZIOL2411IO-Link compliant HV Line Driver (Dual Channel)



The ZIOL2411 is a line driver/level shifter IC with two independent HV1 I/Ochannels having a wide range of configurable system features. It addresses the physical layer of sensor/actuator systems in factory automation and is especially designed to support the communication standard IOLink.

The output drivers are push pull stages which reach in tandem mode an RDSon of less than 3.3 Ohms at all operational temperatures.




for IOLink (Master & Device) Slewrate controlled drivers Wide range of configurable feature set which is

automatically loaded after power on reset IOLink specific WURQ2 detection On chip registers and EEPROM for system




output slew rate control Low RDSon of 3.3 Ohms in tandem mode Programmable limitation of driver output current EEPROM read/write functionality within entire







The ZIOL2411 application field is acting as universal cable driver. Furthermore the IC supports IOLink communications as physical layer transceiver (PHY) for IOLink master ports and IOLink devices.

24V line driver/level shifter IOLink compliant master IOLink compliant device

Note: The datasheet contains detailed technical information.

(# stands for the device revision)

# Dual Channel IOLink compliant HV Line Driver, packing: 13” reel QFN24, 4x4

# Dual Channel IOLink compliant HV Line Driver, packing: 7” reel QFN24, 4x4

ZIOL2401 LabKit for detailed lab evaluation (suitable for ) (configurable IC/Communication/Controller PCB, software, USBcable)

ZIOL2401 Introduction tool (USB stick, extension board, software) (suitable for )

Grenzstrasse 28 01109 Dresden Germany

8413 Excelsior Drive Suite 200 Madison, WI 53717 USA

2nd Floor, Shinbashi Tokyu Bldg. 4213, Shinbashi, Minatoku Tokyo, 1050004 Japan

3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +49 (0)351.8822.7465 Fax +49 (0)351.8822.87465

Phone +1 (608) 8291987 Fax +1 (631) 5492882

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886 2 2377 8189 Fax +886 2 2377 8199

DISCLAIMER: This information applies to a product under development. Its characteristics and specifications are and subject to change without notice. Zentrum Mikroelektronik Dresden AG (ZMD AG) assumes no obligation regarding future manufacture unless otherwise agreed to in writing. The information furnished hereby is believed to be true and accurate. However, under no circumstances shall ZMD AG be liable to any customer, licensee, or any other third party for any special, indirect, incidental, or consequential damages of any kind or nature whatsoever arising out of or in any way related to the furnishing, performance, or use of this technical data. ZMD AG hereby expressly disclaims any liability of ZMD AG to any customer, licensee or any other third party, and any such customer, licensee and any other third party hereby waives any liability of ZMD AG for any damages in connection with or arising out of the furnishing, performance or use of this technical data, whether based on contract, warranty, tort (including negligence), strict liability, or otherwise.


ASI4U / ASI4U-E / ASI4U-F Spec. 3.0 Compliant Universal AS-I IC

© 2012 Zentrum Mikroelektronik Dresden AG— Rev. 2.2 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

Brief Description ASI4U is a new generation CMOS integrated circuit for AS-I networks. The low-level field bus AS-I (Actuator Sensor Interface) was designed for easy, safe and cost-effective interconnection of sensors, actuators and switches. It transports both power and data over the same two-wire unshielded cable. ASI4U is used as a part of a master or slave node and works as an interface to the physical bus. The device realizes power supply, physical data transfer and communication protocol handling. ASI4U is fully compliant with AS-I Complete Specification 3.0 and functioning and PIN compatible with the A²SI IC. All configuration data are stored in an internal EEPROM that can be easily programmed by a stationary or handheld programming device. The special AS-I safety option assures short response times regarding security related events.

Features Compliant with AS-I Complete Specification V3.0

Universal application: in slaves, masters, repeaters and bus-monitors

Compatible with A²SI

Floating AS-I transmitter and receiver for high symmetrical high power applications

On-chip electronic inductor with current drive capability of 55 mA

Two configurable LED outputs to support all Spec. V3.0 status indication modes

Several data pre-processing functions, including configurable data input filters and bit selective data inverting

Additional addressing channel for easy wireless module setup

Support of 8 / 16 MHz crystals by automatic frequency detection

Special AS-I safety option

Clock watchdog for high system security

Benefits Flexible, separated I/Os

Flexible AS-I Bus adoption (isolated transceiver)

Very small package SSOP 28 (ASI4U)

Supports AS-I complete Specification V3.0

Supports high ambient temperature applications (ASI4U-E)

Available Support ZMDI AS-Interface Programmer Kit USB

ZMDI ASI4U Evaluation Board V2.0

Physical Characteristics Operational temp. range: -25 to +85°C (ASI4U)

Operational temp. range: -40 to +85°C (ASI4U-F)

Operational temp. range: -25 to +105°C (ASI4U-E)

SSOP28 (ASI4U) / SOP28 (ASI4U-E) package

ASI4U Basic Application Circuit +24V

+0V

ASI+

ASI-

+24V

+0V

ASI+

ASI-

ASI4U

GND

0V

U5R

CAP

ASIN

ASIP

OSC2

OSC1

UIN UOUT

FID

DI0...3DO0...3

DSR

P0...3

IRD

LED2LED1

PST

ASI4U

GND

0V

U5R

CAP

ASIN

ASIP

OSC2

OSC1

UIN UOUT

FID

DI0...3DO0...3

DSR

P0...3

IRD

LED2LED1

PST

Standard Application

Extended Power Application with IR-Addressing Option

ASI4U / ASI4U-E / ASI4U-FSpec. 3.0 Compliant Universal AS-I IC


© 2012 Zentrum Mikroelektronik Dresden AG— Rev. 2.2 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

Brief Description ASI4U is a new generation CMOS integrated circuit for AS-I networks. The low-level field bus AS-I (Actuator Sensor Interface) was designed for easy, safe and cost-effective interconnection of sensors, actuators and switches. It transports both power and data over the same two-wire unshielded cable. ASI4U is used as a part of a master or slave node and works as an interface to the physical bus. The device realizes power supply, physical data transfer and communication protocol handling. ASI4U is fully compliant with AS-I Complete Specification 3.0 and functioning and PIN compatible with the A²SI IC. All configuration data are stored in an internal EEPROM that can be easily programmed by a stationary or handheld programming device. The special AS-I safety option assures short response times regarding security related events.

Features Compliant with AS-I Complete Specification V3.0

Universal application: in slaves, masters, repeaters and bus-monitors

Compatible with A²SI

Floating AS-I transmitter and receiver for high symmetrical high power applications

On-chip electronic inductor with current drive capability of 55 mA

Two configurable LED outputs to support all Spec. V3.0 status indication modes

Several data pre-processing functions, including configurable data input filters and bit selective data inverting

Additional addressing channel for easy wireless module setup

Support of 8 / 16 MHz crystals by automatic frequency detection

Special AS-I safety option

Clock watchdog for high system security

Benefits Flexible, separated I/Os

Flexible AS-I Bus adoption (isolated transceiver)

Very small package SSOP 28 (ASI4U)

Supports AS-I complete Specification V3.0

Supports high ambient temperature applications (ASI4U-E)

Available Support ZMDI AS-Interface Programmer Kit USB

ZMDI ASI4U Evaluation Board V2.0

Physical Characteristics Operational temp. range: -25 to +85°C (ASI4U)

Operational temp. range: -40 to +85°C (ASI4U-F)

Operational temp. range: -25 to +105°C (ASI4U-E)

SSOP28 (ASI4U) / SOP28 (ASI4U-E) package

ASI4U Basic Application Circuit +24V

+0V

ASI+

ASI-

+24V

+0V

ASI+

ASI-

ASI4U

GND

0V

U5R

CAP

ASIN

ASIP

OSC2

OSC1

UIN UOUT

FID

DI0...3DO0...3

DSR

P0...3

IRD

LED2LED1

PST

ASI4U

GND

0V

U5R

CAP

ASIN

ASIP

OSC2

OSC1

UIN UOUT

FID

DI0...3DO0...3

DSR

P0...3

IRD

LED2LED1

PST


Extended Power Application with IR-Addressing Option



Typical Applications AS-I Master Modules

AS-I Slave Modules

AS-I Safety Modules

ASI4U Block Diagram

Ordering Information

Ordering Code Type Operating Temperature Range

Package Type RoHS Conform Packaging Minumum

Order Quantity

ASI4UE-G1-ST Standard -25°C to +85°C SSOP28 / 5.3mm Y Tube (47 parts/tube)

470 pcs. (10 tubes)

ASI4UE-G1-SR Standard -25°C to +85°C SSOP28 / 5.3mm Y Tape & Reel (1500 parts/reel)

1500 pcs. (one reel)

ASI4UE-G1-SR-7 Standard -25°C to +85°C SSOP28 / 5.3mm Y Tape & Reel (500 parts/reel)

500 pcs. (one 7" reel)

ASI4UE-G1-MT Master -25°C to +85°C SSOP28 / 5.3mm Y Tube (47 parts/tube)

470 pcs. (10 tubes)

ASI4UE-G1-MR Master -25°C to +85°C SSOP28 / 5.3mm Y Tape & Reel (1500 parts/reel)


ASI4UE-E-G1-ST Standard -25°C to +105°C SOP28 / 300 mil Y Tube (27 parts/tube)

270 pcs. (10 tubes)

ASI4UE-E-G1-SR Standard -25°C to +105°C SOP28 / 300 mil Y Tape & Reel (1000 parts/reel)


ASI4UE-F-G1-ST Standard -40°C to +85°C SSOP28 / 5.3mm Y Tube (47 parts/tube)

470 pcs. (10 tubes)

ASI4UE-F-G1-SR Standard -40°C to +85°C SSOP28 / 5.3mm Y Tape & Reel (1500 parts/reel)


Sales and Further Information www.zmdi.com [email protected] Mikroelektronik Dresden AG Grenzstrasse 28 01109 Dresden Germany


Zentrum Mikroelektronik Dresden AG, Japan Office 2nd Floor, Shinbashi Tokyu Bldg.4-21-3, Shinbashi, Minato-ku Tokyo, 105-0004 Japan



Phone +49.351.8822.7274 Fax +49.351.8822.87274

Phone +855-ASK-ZMDI (+855.275.9634)

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Phone +82.2.559.0660 Fax +82.2.559.0700



SAP5S / SAP51Universal Actuator-Sensor Interface IC

© 2012 Zentrum Mikroelektronik Dresden AG — Rev. 3.1 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is PRELIMINARY and subject to changes without notice.

Brief Description SAP5S/SAP51 is a new generation CMOS integrated circuit for AS-I networks. The low-level field bus AS-I (Actuator Sensor Interface) was designed for easy, safe and cost-effective interconnection of sensors, actuators and switches. It transports both power and data over the same two-wire unshielded cable. SAP5S/SAP51 is used as a part of a master or slave node and works as an interface to the physical bus. The device realizes power supply, physical data transfer and communication protocol handling and is fully compliant with AS-Interface Complete Specification V3.0. SAP5S/SAP51 can be programmed by the user to operate in Standard Slave Mode, Safety Mode SAP5S only) or Master Mode. The special AS-I Safety Mode (SAP5S only) assures short response times regarding security related events. All configuration data are stored in an internal EEPROM that can be easily programmed by a stationary or handheld programming device. SAP5S / SAP51 is optimized for harsh environments by it’s special burst protection circuitry and excellent electromagnetic compatibility.

Features Compliant with ASI Complete Specification V3.0 Integrated safety code generator (SAP5S only) Universal application: in slaves, masters,

repeaters and bus-monitors On-chip electronic inductor: 55 mA current drive

capability Two LED outputs to support Spec. V3.0 status

indication modes User programmable to operation in Standard

Slave Mode, Safety Mode or Master Mode Supports 5.33/16 MHz crystals by automatic

frequency detection Data pre-processing functions Special burst protection circuitry Excellent electromagnetic compatibility Clock and communication watchdogs for high

system security

Benefits Cost savings due to integrated Safety code

Generator (SAP5S) Functional and pin compatible to SAP4.1 Automatic x-tal detection (5,3333MHz or

16,0000MHz) Supports AS-I complete Specification 3.0

Available Support ZMDI AS-Interface Programmer Kit USB ZMDI SAP5 Evaluation Board V2.0

Physical Characteristics Operational temperature range: -25 to +85°C SOP16 and SOP20 package

SAP5S/SAP51 Basic Application Circuit +24V

+0V

ASI+

ASI-

ASI+

ASI-SAP5S

U5R

CDC

LTPN

LTGP

OSC2

OSC1

UIN UOUT

D2

D0

D1

D3


Safety Mode Slave Application

SAP51/SAP5S

U5R

CDC

LTPN

LTGP

OSC2

OSC1

UIN UOUT

PFAULT

D0...3

DSTBn

P0...3

LED2LED1

PSTBn











system security







+0V

ASI+

ASI-

ASI+

ASI-SAP5S

U5R

CDC

LTPN

LTGP

OSC2

OSC1

UIN UOUT

D2

D0

D1

D3



SAP51/SAP5S

U5R

CDC

LTPN

LTGP

OSC2

OSC1

UIN UOUT

PFAULT

D0...3

DSTBn

P0...3

LED2LED1

PSTBn










system security







+0V

ASI+

ASI-

ASI+

ASI-SAP5S

U5R

CDC

LTPN

LTGP

OSC2

OSC1

UIN UOUT

D2

D0

D1

D3



SAP51/SAP5S

U5R

CDC

LTPN

LTGP

OSC2

OSC1

UIN UOUT

PFAULT

D0...3

DSTBn

P0...3

LED2LED1

PSTBn




Typical Applications AS-I Master Modules

AS-I Slave Modules

AS-I Safety Modules (SAP5S only)

SAP5S/SAP51 Block Diagram


Ordering Code Operating Temperature Range

Package Type RoHSConform

Packaging MinimumOrder Quantity

SAP5SD-A-G1-T

SAP51D-A-G1-T -25°C to +85°C SOP20 / 300 mil Y Tubes

(37 parts/tube) 370 pcs. (10 tubes)

SAP5SD-A-G1-R

SAP51D-A-G1-R-25°C to +85°C SOP20 / 300 mil Y Tape & Reel

(1000 parts/reel) 1000 pcs. (one reel)

SAP5SD-B-G1-T

SAP51D-B-G1-T -25°C to +85°C SOP16 / 300 mil Y Tubes

(46 parts/tube) 460 pcs. (10 tubes)

SAP5SD-B-G1-R

SAP51D-B-G1-R-25°C to +85°C SOP16 / 300 mil Y Tape & Reel

(1000 parts/reel) 1000 pcs. (one reel)

Sales and Further Information www.zmdi.com [email protected] Mikroelektronik Dresden AG Grenzstrasse 28 01109 Dresden Germany




Zentrum Mikroelektronik Dresden AG, Korean OfficePOSCO Centre Building West Tower, 11th Floor 892 Daechi, 4-Dong, Kangnam-GuSeoul, 135-777 Korea

Phone +49.351.8822.7274 Fax +49.351.8822.87274

Phone +855-ASK-ZMDI (+855.275.9634)

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Phone +82.2.559.0660 Fax +82.2.559.0700



ZLED7000 40V LED Driver with Internal Switch


Brief Description The ZLED7000, one of our ZLED Family of LED control ICs, is an inductive step-down converter that is optimal for driving a single LED or multiple LEDs (connected in series) from a voltage source greater than the voltage rating of the LED. The ZLED7000 operates in continu-ous mode. Capable of operating efficiently with voltage supplies ranging from 6 VDC to 40 VDC, it is ideal for low-voltage lighting applications. The ZLED7000 minimizes current consumption by remaining in a low-current standby mode (output is off) until a voltage of ≥0.3V is applied to the ADJ pin. In operating mode, the ZLED7000 can source LEDs with an output current of ≤ 750mA (≤ 30 watts of output power) that is externally adjustable.* The ZLED7000’s integrated output switch and high-side current sensing circuit use an external resistor to adjust the average output current. Linearity is achieved via an external control signal at the ZLED7000’s ADJ pin, implemented either as a pulse-width modulation (PWM) waveform for a gated output current or a DC voltage for a continuous current.

ZLED7000 Application Circuit

VIN

ADJ GND

ISENSE

LXZLED7000

VS

n LED

L1

C11μF

RS

D1

47μH

6 to 40 VDC

5 4

1

2

3

* See section 2.3 in the data-sheet for details

Features Capable of up to 95% efficiency* Operates in continuous mode with a wide input

range from 6 VDC to 40 VDC Integrated 40V power switch One pin on/off or brightness control via PWM or DC

voltage control signal input Switching frequency: ≤ 1MHz Dimming rate: 1200:1 (typical) Output current accuracy: 5% (typical) Built-in thermal shutdown and open-circuit protection

for LED Very few external components needed for operation Broad range of applications: outputs up to ≤750mA SOT89-5 package

Application Examples Illuminated LED signs and other displays LED traffic and street lighting (low-voltage) Architectural LED lighting, including low-voltage

applications for buildings Halogen replacement LEDs (low-voltage) LED backlighting General purpose exterior and interior LED lighting,

including applications requiring low-voltage General purpose low-voltage industrial applications

ZLED700040V LED Driver with Internal Switch



Brief Description The ZLED7000, one of our ZLED Family of LED control ICs, is an inductive step-down converter that is optimal for driving a single LED or multiple LEDs (connected in series) from a voltage source greater than the voltage rating of the LED. The ZLED7000 operates in continu-ous mode. Capable of operating efficiently with voltage supplies ranging from 6 VDC to 40 VDC, it is ideal for low-voltage lighting applications. The ZLED7000 minimizes current consumption by remaining in a low-current standby mode (output is off) until a voltage of ≥0.3V is applied to the ADJ pin. In operating mode, the ZLED7000 can source LEDs with an output current of ≤ 750mA (≤ 30 watts of output power) that is externally adjustable.* The ZLED7000’s integrated output switch and high-side current sensing circuit use an external resistor to adjust the average output current. Linearity is achieved via an external control signal at the ZLED7000’s ADJ pin, implemented either as a pulse-width modulation (PWM) waveform for a gated output current or a DC voltage for a continuous current.


VIN

ADJ GND

ISENSE

LXZLED7000

VS

n LED

L1

C11μF

RS

D1

47μH

6 to 40 VDC

5 4

1

2

3


Features Capable of up to 95% efficiency* Operates in continuous mode with a wide input

range from 6 VDC to 40 VDC Integrated 40V power switch One pin on/off or brightness control via PWM or DC

voltage control signal input Switching frequency: ≤ 1MHz Dimming rate: 1200:1 (typical) Output current accuracy: 5% (typical) Built-in thermal shutdown and open-circuit protection

for LED Very few external components needed for operation Broad range of applications: outputs up to ≤750mA SOT89-5 package


applications for buildings Halogen replacement LEDs (low-voltage) LED backlighting General purpose exterior and interior LED lighting,




© 2010 Zentrum Mikroelektronik Dresden AG — Rev. 1.1 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

SOT89-5 Package Dimensions and Pin Assignments

b

b1

e1e

D

D1

L

E1 E

LX VIN

GND Thermal Pad

ADJ ISENSE

Dimension (mm) Dimension (mm) Symbol

Min Max Symbol

Min Max A 1.400 1.600 E 2.300 2.600 b 0.320 0.520 E1 3.940 4.250 b1 0.360 0.560 e 1.500 Typ c 0.350 0.440 e1 2.900 3.100 D 4.400 4.600 L 0.900 1.100

D1 1.400 1.800


Sales and Further Information www.zmdi.com [email protected]

Zentrum Mikroelektronik Dresden AG (ZMD AG) Grenzstrasse 28 01109 Dresden Germany

ZMD America, Inc. 8413 Excelsior Drive Suite 200 Madison, WI 53717 USA


ZMD Far East, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +49 (0)351.8822.7.533 Fax +49(0)351.8822.8.7533

Phone +1 (608) 829-1987 Fax +1 (631) 549-2882

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

DISCLAIMER: This information applies to a product under development. Its characteristics and specifications are subject to change without notice. Zentrum Mikroelektronik Dresden AG (ZMD AG) assumes no obligation regarding future manufacture unless otherwise agreed to in writing. The information furnished hereby is believed to be true and accurate. However, under no circumstances shall ZMD AG be liable to any customer, licensee, or any other third party for any special, indirect, incidental, or consequential damages of any kind or nature whatsoever arising out of or in any way related to the furnishing, performance, or use of this technical data. ZMD AG hereby expressly disclaims any liability of ZMD AG to any customer, licensee or any other third party, and any such customer, licensee and any other third party hereby waives any liability of ZMD AG for any damages in connection with or arising out of the furnishing, perfor-mance or use of this technical data, whether based on contract, warranty, tort (including negligence), strict liability, or otherwise.

Product Sales Code Description Package ZLED7000-ZI1R ZLED7000 – 40V LED Driver SOT89-5 (Tape & Reel)

ZLED7000KIT-D1 ZLED7000 used in a MR16 Halogen replacement Demo Kit 12VAC/VDC, including 1 ZLED-PCB1

Kit

ZLED-PCB1 Test PCB with one 3W white High Brightness (HB) LED, cascadable to one multiple LED string

Printed Circuit Board (PCB)

ZLED-PCB2 10 unpopulated test PCBs for modular LED string with footprints of 9 common HB LED types

Printed Circuit Board (PCB)


ZLED7001 Universal LED Driver with Temperature Compensation


Brief Description The ZLED7001, one of our ZLED family of LED control ICs, is a peak current-mode control LED driver IC that is optimal for buck LED driver applications. The ZLED7001 operates in constant off-time mode. Capable of operating efficiently with voltage sources ranging from 8 VDC to 450 VDC or rectified 110 VAC/ 220 VAC, it is ideal for High Brightness (HB) LED applications. The ZLED7001 provides a PWM input for an external dimming control signal. The ZLED7001’s linear dimming input can be used both for linear dimming (0 to 240 mV) and temperature compensation of the LED current. Because the ZLED7001’s response time is limited only by the rate of change in the inductor current, it attains a high performance pulse-width modulation (PWM) dim-ming response. The ZLED7001 ensures proper output current regulation, without loop compensation, via peak current-mode operation.


VREF

LDPWMD

CS

GATE

ZLED7001

VS

n LED

L1

R2NTC

CIN

C1

R1

8 to 450 VDC

8

5

623

1

GND4

TOFF7

VIN

D1

COFF

RCS

CLEDRIN

Q1

ZLED7001 Features Wide input range from 8 VDC to 450 VDC or

110 VAC/220 VAC Temperature compensation to protect the LEDs and

extend LED lifetime Operates in constant off-time mode Both PWM and linear dimming control signal inputs

available Very few external components needed for operation Broad range of applications: outputs greater than 1A

Application Examples Line-powered replacement LED lighting Illuminated LED signs and other displays LED street and traffic lighting Constant-current source for general purposes Architecture / building LED lighting LED backlighting Line powered LED flood lighting Interior / exterior LED lighting

ZLED7001Universal LED Driver with Temperature Compensation



Brief Description The ZLED7001, one of our ZLED family of LED control ICs, is a peak current-mode control LED driver IC that is optimal for buck LED driver applications. The ZLED7001 operates in constant off-time mode. Capable of operating efficiently with voltage sources ranging from 8 VDC to 450 VDC or rectified 110 VAC/ 220 VAC, it is ideal for High Brightness (HB) LED applications. The ZLED7001 provides a PWM input for an external dimming control signal. The ZLED7001’s linear dimming input can be used both for linear dimming (0 to 240 mV) and temperature compensation of the LED current. Because the ZLED7001’s response time is limited only by the rate of change in the inductor current, it attains a high performance pulse-width modulation (PWM) dim-ming response. The ZLED7001 ensures proper output current regulation, without loop compensation, via peak current-mode operation.


VREF

LDPWMD

CS

GATE

ZLED7001

VS

n LED

L1

R2NTC

CIN

C1

R1

8 to 450 VDC

8

5

623

1

GND4

TOFF7

VIN

D1

COFF

RCS

CLEDRIN

Q1

ZLED7001 Features Wide input range from 8 VDC to 450 VDC or

110 VAC/220 VAC Temperature compensation to protect the LEDs and

extend LED lifetime Operates in constant off-time mode Both PWM and linear dimming control signal inputs

available Very few external components needed for operation Broad range of applications: outputs greater than 1A

Application Examples Line-powered replacement LED lighting Illuminated LED signs and other displays LED street and traffic lighting Constant-current source for general purposes Architecture / building LED lighting LED backlighting Line powered LED flood lighting Interior / exterior LED lighting




ZLED7001 Block Diagram

SOP-8 Package Dimensions (mm, except θ) A 1.550 ± 0.200 E 3.900 ± 0.100

A1 0.175 ± 0.075 E1 6.020 ± 0.220

A2 1.450 Typical e 1.270 Typical

b 0.420 ± 0.070 L 0.835 ± 0.435

c 0.214 ± 0.036 θ 4° ± 4°

D 4.900 ± 0.100


Sales Code Description Package ZLED7001-ZI1R ZLED7001 – Universal LED Driver with Temperature Compensation SOP8 (Tape & Reel)

ZLED7001Kit-E1 ZLED7001 Evaluation Board up to 24VAC / 40VDC, including 1 ZLED-PCB1 Kit

ZLED-PCB1 Test PCB with one 3W white HB-LED, cascadable to one multiple LED string Printed Circuit Board

ZLED-PCB2 10 unpopulated test PCBs for modular LED string with footprints of 9 common HB-LED types Printed Circuit Board

Sales and Further Information www.zmdi.com [email protected] Mikroelektronik Dresden AG (ZMD AG) Grenzstrasse 28 01109 Dresden Germany




Phone +49 (0)351.8822.7.533 Fax +49(0)351.8822.8.7533

Phone +1 (608) 829-1987 Fax +1 (631) 549-2882

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





SOP-8 Package Dimensions (mm, except θ) A 1.550 ± 0.200 E 3.900 ± 0.100

A1 0.175 ± 0.075 E1 6.020 ± 0.220

A2 1.450 Typical e 1.270 Typical

b 0.420 ± 0.070 L 0.835 ± 0.435

c 0.214 ± 0.036 θ 4° ± 4°

D 4.900 ± 0.100


Sales Code Description Package ZLED7001-ZI1R ZLED7001 – Universal LED Driver with Temperature Compensation SOP8 (Tape & Reel)

ZLED7001Kit-E1 ZLED7001 Evaluation Board up to 24VAC / 40VDC, including 1 ZLED-PCB1 Kit

ZLED-PCB1 Test PCB with one 3W white HB-LED, cascadable to one multiple LED string Printed Circuit Board

ZLED-PCB2 10 unpopulated test PCBs for modular LED string with footprints of 9 common HB-LED types Printed Circuit Board





Phone +49 (0)351.8822.7.533 Fax +49(0)351.8822.8.7533

Phone +1 (608) 829-1987 Fax +1 (631) 549-2882

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199



ZLED7002 Toggle (Side-Step) Dual-Channel LED Driver


Brief Description The ZLED7002 toggle (side-step) dual-channel LED driver is one of our ZLED family of LED control ICs. It operates in the lower DC voltage supply range of 2.7V to 5.5V. This unique LED driver is capable of controlling a MAIN channel and a SUB channel. Typically, only one of the two channels is active and the ZLED7002 toggles between the channels automatically in response to the voltage supply level and the related voltage at the UV (under-voltage protection) pin. A high-to-low transition of the power supply causes the output current to switch from the MAIN channel to the SUB channel if the UV pinvoltage (VUV-PIN) is below the ZLED7002’s under-voltage threshold (VUVTHRSH=1.17V, typical). A low-to-high tran-sition switches the output current from the SUB channel to the MAIN channel if the UV pin voltage is 80mV (typi-cal) above the under-voltage threshold. The MAIN channel is a configurable constant current source driving the MAIN LED string with a maximum current draw of 250mA. The MAIN LED channel current is set by an external resistor (R3) connected to the Iset pin. Alternately, the SUB channel is activated when the ZLED7002’s SUB pin is pulled to ground. Its current is determined by the forward voltage of the SUB LED and external components. The SUB channel can drive up to 100mA current through the LED channel when active. The ZLED7002 enables voltage-level indicator applica-tions and low-power battery-driven lighting applications that require switching to a lower-current LED channel when the supply is low, which extends the lighting life-time. Because the dropout voltage (VDP) is minimal (as low as 0.1V when the MAIN channel output current is ~200mA), the ZLED7002 is optimal for battery-powered applications. Capable of operating efficiently with DC voltage supplies ranging from 2.7V to 5.5V, it is ideal for small portable lighting applications. The ZLED7002 can also reduce bill-of-material costs because very few external components are required for most applications, making it an optimal fit for small devices for which lighting lifetime is critical. Only four resistors, a diode, and a capacitor are needed for a typical basic application.

Features • Automatic MAIN channel short-circuit protection

switches the output current to the SUB channel if the MAIN LED is shorted

• Under-voltage power supply detection • Over-temperature protection

Benefits • Extends lighting life-time by switching to a lower-

current LED channel when the supply is low • 80mV (typical) hysteresis prevents unintended

switching activation due to power supply ripple • Ultra low quiescent current: 250A typical • Very few external components needed for operation

Available Support • Evaluation Kit

Physical Characteristics • Voltage supply: 2.7V to 5.5V DC • Operating temperature: -25°C to 85°C • Small SOP8 package

For additional information on our ZLED driver family, visit www.zmdi.com/products/led-drivers/

ZLED7002 Typical Application Circuit

ZLED7002Toggle (Side-Step) Dual-Channel LED Driver






























SOP8 Package Dimensions and Pin Assignments

Dimension (mm, except θ) Symbol

Min Max

A 1.350 1.750

A1 0.100 0.250

A2 1.450 Typical

b 0.350 0.490

c 0.178 0.250

D 4.800 5.000

E 3.800 4.000

E1 5.800 6.240

e 1.270 Typical

L 0.400 1.270

θ 0° 8°

Ordering Information Product Sales Code Description Package ZLED7002-ZI1R ZLED7002 – Toggle (Side-Step) Dual-Channel LED Driver SOP8 (Tape & Reel) ZLED7002KIT-E1 ZLED7002 Evaluation Kit Kit





Phone +49 (0)351.8822.7.533 Fax +49 (0)351.8822.8.7533

Phone +1 (608) 829-1987 Fax +1 (631) 549-2882

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199


Typical Applications Battery-driven LED lighting including

• Helmet lighting • Bicycle lighting • Miner lamps • Pocket lights

Voltage-level indicators

General purpose low-voltage industrial and consumer LED applications


ZLED7010 40V LED Driver with Temperature Compensation


Brief Description The ZLED7010, one of our ZLED Family of LED control ICs, is an inductive step-down converter that is optimal for driving a single LED or multiple LEDs (connected in series) from a voltage source greater than the voltage rating of the LED. The ZLED7010 operates in continu-ous mode. Capable of operating efficiently with voltage supplies ranging from 6 VDC to 40 VDC, it is ideal for low-voltage lighting applications. The ZLED7010 mini-mizes current consumption by remaining in a low-current standby mode (output is off) until a voltage of ≥0.3V is applied to the ADJI pin. In operating mode, the ZLED7010 can source LEDs with an output current of ≤ 750mA (≤ 30 watts of output power*) that is externally adjustable. The ZLED7010’s integrated output switch and high-side current sensing circuit use an external resistor to adjust the average out-put current. LED control is achieved via an external con-trol signal at the ZLED7010’s ADJI pin, implemented as a pulse-width modulation (PWM) waveform for a gated output current or a DC voltage for continuous current. The ZLED7010 provides a temperature compen-sation function for maintaining stable and reliable LED operation. LED over-temperature conditions are detected via a negative temperature coefficient (NTC) thermistor mounted close to the LEDs. If an over-temperature condition occurs, the NTC value reaches the value of a threshold resistor and the IC reduces LED current automatically. After the circuit recovers to a safe temperature, current returns to the set value. ADJO outputs and ADJI inputs of consecutive ICs can be interconnected as a driver chain deploying the temperature compensation information of the predecessor. This reduces the part count because only the first stage of the series requires an NTC.

RNTC

VIN

RTH

ADJI ADJOGND

ISENSE

LXZLED7010

VS

n LED

L1

R3NTCC1

1μF

C2100nF

R250kΩ

RS

D1

47μH

6 to 40 VDC

1 2

8

5

7

6

3

4


Features Capable of 95% efficiency* Operates in continuous mode with a wide input

range from 6 VDC to 40 VDC Integrated 40V power switch One-pin on/off or brightness control via DC voltage

or PWM control signal Switching frequency: ≤ 1MHz Dimming rate: 1200:1 (typical) Output current accuracy: 5% (typical) Built-in temperature compensation and open-circuit

protection for LEDs Thermal shutdown protection for the ZLED7010 Very few external components needed for operation Broad range of applications: outputs up to ≤750mA SOP-8 package


applications for buildings Halogen replacement LEDs (low-voltage) LED flood-lighting LED backlighting General purpose exterior and interior LED lighting,



ZLED701040V LED Driver with Remperature Compensation


ZLED7010 40V LED Driver with Temperature Compensation


SOP-8 Package Dimensions and Pin Assignments

Dimension (mm) Dimension (mm, except θ)Symbol Min Max

Symbol Min Max

A 1.350 1.750 E 3.800 4.000 A1 0.100 0.250 E1 5.800 6.240 A2 1.450 Typical e 1.270 Typical b 0.350 0.490 L 0.400 1.270 c 0.178 0.250 θ 0° 8° D 4.800 5.000


Product Sales Code Description Package ZLED7010-ZI1R ZLED7010 – 40V LED Driver with Temperature Compensation SOP8 (Tape & Reel)ZLED7010KIT-D1 ZLED7010 Demo Board with LED on Cool Body 12VAC/VDC Kit ZLED-PCB1 Test PCB with one 3W white HB-LED, cascadable to 1 multiple LED string Printed Circuit BoardZLED-PCB2 10 unpopulated test PCBs for modular LED string with footprints of 9

common HB-LED types Printed Circuit Board

Sales and Further Information www.zmdi.com [email protected]

Zentrum Mikroelektronik Dresden AG (ZMD AG) Grenzstrasse 28 01109 Dresden Germany



ZMD Far East, Ltd. 3F, No. 51, Sec. 2, Keelung Road 11052 Taipei Taiwan

Phone +49 (0)351.8822.7.533 Fax +49(0)351.8822.8.7533

Phone +1 (608) 829-1987 Fax +1 (631) 549-2882

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

DISCLAIMER: This information applies to a product under development. Its characteristics and specifications are subject to change without notice. Zentrum Mikroelektronik Dresden AG (ZMD AG) assumes no obligation regarding future manufacture unless otherwise agreed to in writing. The information furnished hereby is believed to be true and accurate. However, under no circumstances shall ZMD AG be liable to any customer, licensee, or any other third party for any special, indirect, incidental, or consequential damages of any kind or nature whatsoever arising out of or in any way related to the furnishing, performance, or use of this technical data. ZMD AG hereby expressly disclaims any liability of ZMD AG to any customer, licensee or any other third party, and any such customer, licensee and any other third party hereby waives any liability of ZMD AG for any damages in connection with or arising out of the furnishing, perfor-mance or use of this technical data, whether based on contract, warranty, tort (including negligence), strict liability, or otherwise.


ZLED7012 Low-Voltage Four-Channel LED Driver

© 2010 Zentrum Mikroelektronik Dresden AG - Rev. 1.0 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

Brief Description The ZLED7012, one of our ZLED family of LED control ICs, is a low-noise, constant-frequency charge pump DC/DC converter that can drive up to four LED channels, providing a programmable constant current level ranging from 1.8mA to 20mA per LED channel. It can also drive higher current LEDs because its current sinks can operate in parallel. It enables white or other color LED applications that require uniform intensity and/or linear progressions in brightness. Capable of operating efficiently with DC voltage supplies ranging from 2.8V to 5.5V, it is ideal for small, battery-powered applications because very few external components are needed: typically one small-dimension 1μF capacitor across the C+ and C- pins and two small-dimension 2.2μF capacitors to GND from the VCC and Vout pins. The ZLED7012’s Pulse Count Control (PCC) serial digi-tal input is used to enable/disable the LEDs and set the current level (14 settings using a nearly logarithmic scale to provide a linear brightness progression). This simple, high-speed interface allows efficient real-time management of LEDs via microcontrollers or control systems. The ZLED7012’s features include integrated soft-start circuitry to protect against excessive in-rush current dur-ing power-on and a low-current shutdown mode that reduces quiescent current consumption to approximately 1μA (typical) by disconnecting the load from the input when the EN/SET pin is low for a specified time.

Features Low quiescent current in low-current shutdown

mode: 1μA typical; <2μA maximum Integrated thermal shutdown protection prevents

damage by shutting down the ZLED7012 if the die junction temperature exceeds 160°C (typical)

Fixed charge pump switching frequency: 1MHz (typ.) Soft-start feature protects against excessive

inrush current during power-on

Benefits Current matching accuracy: ±0.9% (typical) One-pin on/off or brightness control for up to four

LEDs via a simple PCC serial interface—no pulse-width modulation or additional control circuit needed

14 programmable current levels for achieving real-time control of effects such as LED fade-out or sudden changes in brightness

Low EMI and back-injected noise because the charge pump is not inductor-based

Very few external components needed for operation Flexible design enables diverse LED applications: up

to 20mA per channel LED driver family concept with low-voltage

six-channel LED driver ZLED7022

Available Support Evaluation Kit

Physical Characteristics Voltage supply: 2.8V to 5.5V DC Operating temperature: -40°C to 85°C Small footprint 12-pin UTQFN package (2mm×2mm)


ZLED7012Low-Voltage Four-Channel LED Driver



Brief Description The ZLED7012, one of our ZLED family of LED control ICs, is a low-noise, constant-frequency charge pump DC/DC converter that can drive up to four LED channels, providing a programmable constant current level ranging from 1.8mA to 20mA per LED channel. It can also drive higher current LEDs because its current sinks can operate in parallel. It enables white or other color LED applications that require uniform intensity and/or linear progressions in brightness. Capable of operating efficiently with DC voltage supplies ranging from 2.8V to 5.5V, it is ideal for small, battery-powered applications because very few external components are needed: typically one small-dimension 1μF capacitor across the C+ and C- pins and two small-dimension 2.2μF capacitors to GND from the VCC and Vout pins. The ZLED7012’s Pulse Count Control (PCC) serial digi-tal input is used to enable/disable the LEDs and set the current level (14 settings using a nearly logarithmic scale to provide a linear brightness progression). This simple, high-speed interface allows efficient real-time management of LEDs via microcontrollers or control systems. The ZLED7012’s features include integrated soft-start circuitry to protect against excessive in-rush current dur-ing power-on and a low-current shutdown mode that reduces quiescent current consumption to approximately 1μA (typical) by disconnecting the load from the input when the EN/SET pin is low for a specified time.






Benefits Current matching accuracy: ±0.9% (typical) One-pin on/off or brightness control for up to four






six-channel LED driver ZLED7022







Block Diagram

Typical Applications LED backlighting for portable devices

LED lighting for cell phones, smartphones. PDAs

Illumination of digital photo frames

Backlighting for GPS / navigation systems

Low voltage LED lighting fixtures

General purpose low-voltage industrial and consumer applications


Product Sales Code Description Package ZLED7012-ZI1R ZLED7012 – Low-Voltage Four-Channel LED Driver UTQFN12 (2x2)mm Tape & Reel ZLED7012KIT-E1 ZLED7012 Evaluation Board Kit





Phone +49 (0)351.8822.7.533 Fax +49 (0)351.8822.8.7533

Phone +1 (608) 829-1987 Fax +1 (631) 549-2882

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199



ZLED7015 1.0MHz Boost Converter with Internal 35V Switch


EN LX

ZLED7015

LEDString

VIN = 6 to 30 VDC

COUT

R1

L1

CIN

D1

FB

PGND AGND

OVPR2

RS

VP

VDDC1

CVDD

CVP

C2RVDD

REN

COVP

VOUT

Brief Description The ZLED7015, one of our ZLED family of LED control ICs, is a constant current boost converter with an internal high-power 35V switch. It is opti-mal for driving multiple white LEDs connected in series so that the LED current is uniform for better brightness and color control. It can also drive devices that require a constant voltage and is capable of operating efficiently with voltage supplies ranging from 6VDC to 30VDC. It is ideal for diverse lighting applications requiring low sup-ply voltages such as SELV applications. Typically, smaller, less expensive external components can be used since the ZLED7015 switches at 1.0MHz (typical). The ZLED7015 output current is adjustable via an external current sense resistor RS connected from the FB pin to ground. The ZLED7015 improves efficiency and minimizes power losses in the current setting resistor RS by use of an internal 0.3V feedback reference vol-tage. Dimming can be controlled using a pulse-width modulation (PWM) waveform or a DC voltage applied to the FB pin. The ZLED7015 provides a “soft-start” function to prevent excessive in-rush current on start-up and ensures a controlled rise of the output voltage. Over-voltage protection is adjustable via external resistors R1 and R2.


Features Integrated 35V power switch Wide input range: 6VDC to 30VDC Over-temperature protection Over-voltage (open LED string) protection adjusted

via external resistor divider Under-voltage lockout ensures reliable circuit

operation Control of output current during start-up via internal

“soft-start” Switching frequency: 1.0MHz Single pin on/off or brightness control via PWM,

microcontroller, or DC voltage control signal input MSOP-10 package

Benefits High efficiency: up to 95% efficiency Few small, low-profile components needed for

operation Small form-factor package


Physical Characteristics Operating temperature: -40°C to 85°C RoHS-compliant

ZLED70151.0MHz Boost Converter with Internal 35V Switch



EN LX

ZLED7015

LEDString

VIN = 6 to 30 VDC

COUT

R1

L1

CIN

D1

FB

PGND AGND

OVPR2

RS

VP

VDDC1

CVDD

CVP

C2RVDD

REN

COVP

VOUT

Brief Description The ZLED7015, one of our ZLED family of LED control ICs, is a constant current boost converter with an internal high-power 35V switch. It is opti-mal for driving multiple white LEDs connected in series so that the LED current is uniform for better brightness and color control. It can also drive devices that require a constant voltage and is capable of operating efficiently with voltage supplies ranging from 6VDC to 30VDC. It is ideal for diverse lighting applications requiring low sup-ply voltages such as SELV applications. Typically, smaller, less expensive external components can be used since the ZLED7015 switches at 1.0MHz (typical). The ZLED7015 output current is adjustable via an external current sense resistor RS connected from the FB pin to ground. The ZLED7015 improves efficiency and minimizes power losses in the current setting resistor RS by use of an internal 0.3V feedback reference vol-tage. Dimming can be controlled using a pulse-width modulation (PWM) waveform or a DC voltage applied to the FB pin. The ZLED7015 provides a “soft-start” function to prevent excessive in-rush current on start-up and ensures a controlled rise of the output voltage. Over-voltage protection is adjustable via external resistors R1 and R2.


Features Integrated 35V power switch Wide input range: 6VDC to 30VDC Over-temperature protection Over-voltage (open LED string) protection adjusted

via external resistor divider Under-voltage lockout ensures reliable circuit

operation Control of output current during start-up via internal

“soft-start” Switching frequency: 1.0MHz Single pin on/off or brightness control via PWM,

microcontroller, or DC voltage control signal input MSOP-10 package

Benefits High efficiency: up to 95% efficiency Few small, low-profile components needed for

operation Small form-factor package


Physical Characteristics Operating temperature: -40°C to 85°C RoHS-compliant





Low-Voltage Retro-fit Lighting Architectural/Building Lighting

MR16 Lights Replacement Tubes

SELV Lighting LED Backlighting

Signage and Outdoor Lighting General Purpose Low-Voltage Industrial and Consumer Applications

Bandgap

Shutdown

n LED

L1

3, 5

4

RS

CVP

VIN

CVDD

REN

6 to 30 VDC

6

7

RVDD

EN

FB

VDD

OVP

AGND

ZLED7015

Bias & Reference

9LDO

VPCIN

2

C1

D1

Oscillator

COUT

C2

LX

COVP

RSS

R

Q

+

–

∑

CurrentLimit

Over-VoltageProtection

Ramp Gen

Slope Compensation

Current Sense

VREF

ThermalProtection

R2

R1

1PGND

10


Ordering Information Product Sales Code Description Package ZLED7015-ZI1R ZLED7015 – 1.0MHz Boost Converter with Internal 35V Switch MSOP-10 (Tape & Reel)

ZLED7015KIT-E1 ZLED7015-E1 Evaluation Board, 1 ZLED-PCB10, and 5 ZLED7015 ICs Kit


ZMD America, Inc. 275 South 5th Avenue Pocatello, ID 83201 USA




Phone +49.351.8822.7.533 Fax +49.351.8822.8.7533

Phone +1.208.478.7200 Fax +1.208.478.7200

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Phone +82.2.559.0660 Fax +82.2.559.0700



ZLED7x20High Current 40V LED Driver with Internal Switch

ZLED7x20 Family High Current 40V LED Driver with Internal Switch

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.40 — June 11, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


Vin I SENSE

LX

GND

ZLED7x20

D1

LEDString

Vs = 6 to 40 VDC

(C3)

Rs

L1(C1) C20.1µF

ADJ 33µH to220µH

Brief Description The ZLED7x20 continuous-mode inductive step-down converter family is part of our line of LED-control ICs. It is designed for applications requiring high brightness and high current. It can efficiently drive a single LED or multiple series-connected LEDs from a voltage input higher than the LED for-ward voltage: Vin = 6 to 40 VDC. It provides an adjustable output current ≤1.2A, which is set via an external resistor and controlled by the ZLED7x20’s integrated high-side output current-sensing circuit and high speed internal 40V power switch. An external control signal, which can be a DC voltage, PWM, or microcontroller-generated waveform, on the ADJ pin can also be used to linearly adjust a continuous output current or to control a gated out-put current. The output can be turned off by applying a voltage lower than 0.2V to the ADJ pin, which puts the ZLED7x20 in a low-current standby state. The ZLED7x20 enables diverse industrial and consumer lighting applications requiring high driving currents, wide operating voltage range, high efficiency, and variable brightness control. It offers over-temperature and LED open-circuit pro-tection. The ZLED7x20 can also minimize bill-of-material costs because very few external com-ponents are required for most applications. Only a resistor, a diode, an inductor, and three capacitors are needed for a typical basic application.

Features Up to 1.2A output current Internal 40V power switch Wide DC input voltage range 6 to 40 VDC Output current accuracy: 3% (typical) Dimming ratio: 1200:1 LED open-circuit protection Thermal shutdown protection

Benefits High efficiency: up to 98% Single pin on/off and brightness control using

DC voltage or PWM Very few external components needed for

operation Footprint compatible with our ZLED7000

depending on the application.


Physical Characteristics Operating junction temperature: -40°C to 125°C Switching frequency: up to 1MHz

ZLED7x20 Family Selection Matrix

Product Max. Current Output Package

ZLED7020 1.2A SOT89-5

ZLED7320 1.0A DFN-5

ZLED7520 0.75A DFN-5


ZLED7x20 Typical Application Circuit




Vin I SENSE

LX

GND

ZLED7x20

D1

LEDString

Vs = 6 to 40 VDC

(C3)

Rs

L1(C1) C20.1µF

ADJ 33µH to220µH

Brief Description The ZLED7x20 continuous-mode inductive step-down converter family is part of our line of LED-control ICs. It is designed for applications requiring high brightness and high current. It can efficiently drive a single LED or multiple series-connected LEDs from a voltage input higher than the LED for-ward voltage: Vin = 6 to 40 VDC. It provides an adjustable output current ≤1.2A, which is set via an external resistor and controlled by the ZLED7x20’s integrated high-side output current-sensing circuit and high speed internal 40V power switch. An external control signal, which can be a DC voltage, PWM, or microcontroller-generated waveform, on the ADJ pin can also be used to linearly adjust a continuous output current or to control a gated out-put current. The output can be turned off by applying a voltage lower than 0.2V to the ADJ pin, which puts the ZLED7x20 in a low-current standby state. The ZLED7x20 enables diverse industrial and consumer lighting applications requiring high driving currents, wide operating voltage range, high efficiency, and variable brightness control. It offers over-temperature and LED open-circuit pro-tection. The ZLED7x20 can also minimize bill-of-material costs because very few external com-ponents are required for most applications. Only a resistor, a diode, an inductor, and three capacitors are needed for a typical basic application.

Features Up to 1.2A output current Internal 40V power switch Wide DC input voltage range 6 to 40 VDC Output current accuracy: 3% (typical) Dimming ratio: 1200:1 LED open-circuit protection Thermal shutdown protection

Benefits High efficiency: up to 98% Single pin on/off and brightness control using

DC voltage or PWM Very few external components needed for

operation Footprint compatible with our ZLED7000

depending on the application.


Physical Characteristics Operating junction temperature: -40°C to 125°C Switching frequency: up to 1MHz



ZLED7020 1.2A SOT89-5

ZLED7320 1.0A DFN-5






© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.40 — June 11, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

ZLED7x20 Block Diagram

Trim

1

VS

6 to 40 VDC

3

ADJ

LX

GND 2

4

ZLED7X20

VDDA

VDDD

n LED

L1

D1

(C3)(C1) C20.1µF

Rs

VIN

5

VCC

ISENSE

ISENSE

UV

POR

VREF

VIN

500kΩShutdown

SD SD

DRISENSEAnd

Driver

LX

POR

ISENSE

PowerSupply,

Oscillator,and Under-

VoltageDetection

(UV)

PowerMOS

33µH to220µH

Typical Applications Illuminated LED signs and other displays Interior/exterior LED lighting

LED street and traffic lighting (low voltage) MR16 LED spot lights

Architecture/building LED lighting Retrofit LED lighting fixtures

LED backlighting General purpose industrial and consumer LED applications

Ordering Information Product Code Description Package ZLED7020-ZI1R ZLED7020 – High Current (1200mA) 40V LED Driver with Internal Switch SOT89-5 (Tape & Reel) ZLED7320-ZI1R ZLED7320 – High Current (1000mA) 40V LED Driver with Internal Switch DFN-5 (Tape & Reel) ZLED7520-ZI1R ZLED7520 – High Current (750mA) 40V LED Driver with Internal Switch DFN-5 (Tape & Reel) ZLED7720-ZI1R ZLED7720 – High Current (350mA) 40V LED Driver with Internal Switch DFN-5 (Tape & Reel) ZLED7020KIT-D1 ZLED7020-D1 Demo Board, 1 ZLED-PCB8 and 5 ZLED7020 ICs Kit ZLED-PCB8 Test PCB with a 5W white high brightness (HB) LED, cascadable to a multiple LED string Printed Circuit Board (PCB)



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199




(


© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.40 — June 11, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.


Trim

1

VS

6 to 40 VDC

3

ADJ

LX

GND 2

4

ZLED7X20

VDDA

VDDD

n LED

L1

D1

(C3)(C1) C20.1µF

Rs

VIN

5

VCC

ISENSE

ISENSE

UV

POR

VREF

VIN

500kΩShutdown

SD SD

DRISENSEAnd

Driver

LX

POR

ISENSE

PowerSupply,

Oscillator,and Under-

VoltageDetection

(UV)

PowerMOS

33µH to220µH





Ordering Information Product Code Description Package ZLED7020-ZI1R ZLED7020 – High Current (1200mA) 40V LED Driver with Internal Switch SOT89-5 (Tape & Reel) ZLED7320-ZI1R ZLED7320 – High Current (1000mA) 40V LED Driver with Internal Switch DFN-5 (Tape & Reel) ZLED7520-ZI1R ZLED7520 – High Current (750mA) 40V LED Driver with Internal Switch DFN-5 (Tape & Reel) ZLED7720-ZI1R ZLED7720 – High Current (350mA) 40V LED Driver with Internal Switch DFN-5 (Tape & Reel) ZLED7020KIT-D1 ZLED7020-D1 Demo Board, 1 ZLED-PCB8 and 5 ZLED7020 ICs Kit ZLED-PCB8 Test PCB with a 5W white high brightness (HB) LED, cascadable to a multiple LED string Printed Circuit Board (PCB)



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199




)


ZLED7022Low-Voltage Six-Channel LED Driver

ZLED7022 Low-Voltage Six-Channel LED Driver


Brief Description The ZLED7022, one of our ZLED family of LED control ICs, is a low-noise, constant-frequency charge pump DC/DC converter that can drive up to six LED channels, providing a programmable constant current level ranging from 1.8mA to 20mA per LED channel. It can also drive higher current LEDs because its current sinks can operate in parallel. It enables white or other color LED applications that require uniform intensity and/or linear progressions in brightness. Capable of operating effi-ciently with DC voltage supplies ranging from 2.8V to 5.5V, it is ideal for small, battery-powered applications because very few external components are needed: typically one small-dimension 1μF capacitor across the C+ and C- pins and two small-dimension 2.2μF capaci-tors to GND from the VCC and Vout pins. The ZLED7022’s Pulse Count Control (PCC) serial digi-tal input is used to enable/disable the LEDs and set the current level (14 settings using a nearly logarithmic scale to provide a linear brightness progression). This simple, high-speed interface allows efficient real-time management of LEDs via microcontrollers or control systems. The ZLED7022’s features include integrated soft-start circuitry to protect against excessive in-rush current dur-ing power-on and a low-current shutdown mode that reduces quiescent current consumption to approximately 1μA (typical) by disconnecting the load from the input when the EN/SET pin is low for a specified time.






Benefits Current matching accuracy: ±0.9% (typical) One-pin on/off or brightness control for up to six






four-channel LED driver ZLED7012




Cin Cout

.

1 2 n<=14

1μF

VCC

EN/SET

GND

C+ C-

Vout

D0

D1

D2

D3

D4

D5

2.8V to 5.5V

2.2μF2.2μF ZLED7022

Cpump



Brief Description The ZLED7022, one of our ZLED family of LED control ICs, is a low-noise, constant-frequency charge pump DC/DC converter that can drive up to six LED channels, providing a programmable constant current level ranging from 1.8mA to 20mA per LED channel. It can also drive higher current LEDs because its current sinks can operate in parallel. It enables white or other color LED applications that require uniform intensity and/or linear progressions in brightness. Capable of operating effi-ciently with DC voltage supplies ranging from 2.8V to 5.5V, it is ideal for small, battery-powered applications because very few external components are needed: typically one small-dimension 1μF capacitor across the C+ and C- pins and two small-dimension 2.2μF capaci-tors to GND from the VCC and Vout pins. The ZLED7022’s Pulse Count Control (PCC) serial digi-tal input is used to enable/disable the LEDs and set the current level (14 settings using a nearly logarithmic scale to provide a linear brightness progression). This simple, high-speed interface allows efficient real-time management of LEDs via microcontrollers or control systems. The ZLED7022’s features include integrated soft-start circuitry to protect against excessive in-rush current dur-ing power-on and a low-current shutdown mode that reduces quiescent current consumption to approximately 1μA (typical) by disconnecting the load from the input when the EN/SET pin is low for a specified time.






Benefits Current matching accuracy: ±0.9% (typical) One-pin on/off or brightness control for up to six






four-channel LED driver ZLED7012




Cin Cout

.

1 2 n<=14

1μF

VCC

EN/SET

GND

C+ C-

Vout

D0

D1

D2

D3

D4

D5

2.8V to 5.5V

2.2μF2.2μF ZLED7022

Cpump



© 2010 Zentrum Mikroelektronik Dresden AG - Rev. 1.0 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Block Diagram

Typical Applications LED backlighting for portable devices

LED lighting for cell phones, smartphones. PDAs

Illumination of digital photo frames

Backlighting for GPS / navigation systems

Low voltage LED lighting fixtures

General purpose low-voltage industrial and consumer applications


Product Sales Code Description Package ZLED7022-ZI1R ZLED7022 – Low-Voltage Six-Channel LED Driver UTQFN12 (2x2)mm - Tape & Reel ZLED7022KIT-E1 ZLED7022 Evaluation Board Kit





Phone +49 (0)351.8822.7.533 Fax +49 (0)351.8822.8.7533

Phone +1 (608) 829-1987 Fax +1 (631) 549-2882

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199



ZLED7x30High Current 40V LED Driver with Switch Dimming

ZLED7030 High Current 40V LED Driver with Switch Dimming


Brief Description The ZLED7x30 continuous-mode inductive step-down converter family is one of our ZLED LED-control ICs. It is designed for applications requiring high brightness and high current. The ZLED7x30 can efficiently drive a single LED or multiple series-connected LEDs from a voltage input higher than the LED forward voltage (Vin = 8.5 to 40VDC). It provides an adjustable output current (1.2A maximum), which is set via an external resistor and controlled by the ZLED7x30’s integrated high-side output current-sensing circuitand high speed internal 40V power switch. Its low conducting impedance ensures high system effi-ciency. The ZLED7x30 provides a switch dimming func-tion. It detects external switch action to adjust out-put current, allowing dimming functionality to be achieved without changing the original lighting sys-tem circuitry. The switch dimming is implemented in either two-level mode or three-level mode. The output current of every level and the total number of levels are customer selected by setting the corresponding input conditions of DIM1 and DIM2 pin. The ZLED7x30 enables diverse industrial and consumer lighting applications requiring high driving currents, wide operating voltage range, high efficiency, and variable brightness control. It offers over-temperature and LED open-circuit protection. The ZLED7x30 can also minimize bill-of-material costs because very few external components are required for most applications. Only a resistor, a diode, an inductor, and three capacitors are needed for a typical basic application.


Features • Switch dimming with multiple levels • Three modes for output level settings • Up to 1.2A output current • Internal 40V power switch • Wide DC input voltage range 8.5 to 40 VDC • Output current accuracy: 5% (typical) • LED open-circuit protection • Thermal shutdown protection

Benefits • High efficiency: up to 98% • Very few external components needed for

operation • Adds switch dimming function to existing

installation


Physical Characteristics • Operating temperature: -40°C to 105°C • Switching frequency: up to 1MHz • SOP-8 package



ZLED7030 1.2A SOP-8

ZLED7330 1.0A SOP-8

ZLED7530 0.75A SOP-8










installation





ZLED7030 1.2A SOP-8

ZLED7330 1.0A SOP-8











installation





ZLED7030 1.2A SOP-8

ZLED7330 1.0A SOP-8











installation





ZLED7030 1.2A SOP-8

ZLED7330 1.0A SOP-8












Ordering Information Product Sales Code Description Package ZLED7030-ZI1R ZLED7030 – High Current (1200mA) 40V LED Driver with Switch Dimming SOP-8 (Tape & Reel) ZLED7330-ZI1R ZLED7330 – High Current (1000mA) 40V LED Driver with Switch Dimming SOP-8 (Tape & Reel) ZLED7530-ZI1R ZLED7530 – High Current (750mA) 40V LED Driver with Switch Dimming SOP-8 (Tape & Reel) ZLED7730-ZI1R ZLED7730 – High Current (350mA) 40V LED Driver with Switch Dimming SOP-8 (Tape & Reel) ZLED7030KIT-D1 ZLED7030-D1 Demo Board, 1 ZLED-PCB8 and 5 ZLED7030 ICs Kit ZLED-PCB8 Test PCB with one 5W white High Brightness (HB) LED, cascadable to one

multiple LED string Printed Circuit Board (PCB)





Phone +49 (0)351.8822.7.533 Fax +49 (0)351.8822.8.7533

Phone +1 (608) 829-1987 Fax +1 (631) 549-2882

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199


Trim

8

VS

6 to 40 VDC

5DIM2

LX

GND 7

2

ZLED7x30

VDDA

VDDD

n LED

L1

D1

(C3)(C1) C20.1µF

Rs

VIN

1

VCC

ISENSE

ISENSE

UV

POR

VREF VIN

SDSD

DRISENSEAnd

Driver

Power MOS

33µH to 220µH

6

DIM1

Power Supply,

Oscillator and

Under- Voltage

Detection (UV)

CLK

Shut-down

Dim Select

S

Analog Dim

Logic

VCC

SD


ZSLS7025Boost LED Driver

ZSLS7025 Boost LED Driver


TOFF

GATE

ZSLS7025LED

String

VIN =5 to 100 VDC

COUTR1

L1

CIND1

OVPGND

RFB

VDD

CVDD

RVDD

RTOFF

ADJ

R2RCS

Q1

FB

CS

Brief Description The ZSLS7025, one of our ZSLS Family of LED control ICs, is a constant current boost converter designed for driving high-brightness LEDs. It is optimal for driving multiple white LEDs connected in series so that the LED current is uniform for better brightness and color control. The wide input range and high output current enables diverse industrial, after-market automotive, and consumer lighting applications. The ZSLS7025 output current is adjustable via an external current sense resistor and can deliver stable constant output current from a few milliamps up to 2A or higher. The ZSLS7025 drives a constant current into the load. The control loop features a pulse frequency modulated (PFM) architecture that is inherently stable and does not need loop compensation. The ZSLS7025 supports pulse-width modulation (PWM) or linear voltage dimming, which allows flexible control of the LED luminance. The ZSLS7025 can operate in applications with a wide input voltage range from 5V to 100V. An integrated over-voltage protection (OVP) circuit protects the system, even under no-load conditions. The over-voltage protection is adjustable via external resistors R1 and R2.

Features Wide application input voltage range: 5V to 100V

(Higher voltage supported. See section 2.1 in the data sheet.)

Constant current output limited only by external component selection

No loop compensation required Internal over-voltage protection Internal over-temperature protection Brightness control via PWM or DC voltage control

signal input SOP-8 package

Benefits High efficiency: up to 95% Minimum bill of materials Small form-factor package

Available Support Demonstration Kit

Physical Characteristics Junction temperature: -40°C to 125°C RoHS compliant

For additional information on our LED driver family, visit www.zmdi.com/products/led-drivers/

ZSLS7025 Typical Application Circuit



TOFF

GATE

ZSLS7025LED

String

VIN =5 to 100 VDC

COUTR1

L1

CIND1

OVPGND

RFB

VDD

CVDD

RVDD

RTOFF

ADJ

R2RCS

Q1

FB

CS

Brief Description The ZSLS7025, one of our ZSLS Family of LED control ICs, is a constant current boost converter designed for driving high-brightness LEDs. It is optimal for driving multiple white LEDs connected in series so that the LED current is uniform for better brightness and color control. The wide input range and high output current enables diverse industrial, after-market automotive, and consumer lighting applications. The ZSLS7025 output current is adjustable via an external current sense resistor and can deliver stable constant output current from a few milliamps up to 2A or higher. The ZSLS7025 drives a constant current into the load. The control loop features a pulse frequency modulated (PFM) architecture that is inherently stable and does not need loop compensation. The ZSLS7025 supports pulse-width modulation (PWM) or linear voltage dimming, which allows flexible control of the LED luminance. The ZSLS7025 can operate in applications with a wide input voltage range from 5V to 100V. An integrated over-voltage protection (OVP) circuit protects the system, even under no-load conditions. The over-voltage protection is adjustable via external resistors R1 and R2.

Features Wide application input voltage range: 5V to 100V

(Higher voltage supported. See section 2.1 in the data sheet.)

Constant current output limited only by external component selection

No loop compensation required Internal over-voltage protection Internal over-temperature protection Brightness control via PWM or DC voltage control

signal input SOP-8 package

Benefits High efficiency: up to 95% Minimum bill of materials Small form-factor package

Available Support Demonstration Kit

Physical Characteristics Junction temperature: -40°C to 125°C RoHS compliant

For additional information on our LED driver family, visit www.zmdi.com/products/led-drivers/

ZSLS7025 Typical Application Circuit




Typical Applications Retro-fit Lighting Architectural/Building Lighting

MR16 Lights Replacement Tubes

SELV Lighting LED Backlighting

Signage and Outdoor Lighting General Purpose Low-Voltage Industrial and Consumer Applications

n LED

L1

RTOFF

VIN

CVDD

5 to 100 VDC

RVDD

CIN

D1

COUT

Q1

R2

R1

UVLO

POR

Blanking500ns

VDD

CurrentMirror

CS

ADJ50k

900k

100k

Vref4Vref1

5V Clamp

VoltageRegulator

Block

+

-

GATE

FB

OVP

Vref2

Vref1

Vref1 (1.0V)Vref2 (0.3V)Vref3 (0.25V)

Vref3

Vref4 (0.05V)

-

+

-

+

TOFF

S

R Q

VDD

+

-

+

-

-

+

ZSLS7025

GND 4

1

3

6

2

5

7

8RFBRCS

ZSLS7025 Block Diagram

Ordering Information Product Sales Code Description Package ZSLS7025-ZI1R ZSLS7025 – Boost LED Driver SOP-8 (Tape & Reel) ZSLS7025KIT-D1 ZSLS7025PCB-D1 Demo Board, 1 ZLED-PCB10, and 5 ZSLS7025 ICs Kit






Phone +49 (0)351.8822.7.533 Fax +49 (0)351.8822.8.7533

Phone +855-ASK-ZMDI (+855.275.9634)

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199

Phone +82.2.559.0660 Fax +82.2.559.0700



ZSLS7031Isolated and Non-isolated Flyback LED Driver with Active PFC


ZSLS7031 Isolated and Non-isolated Flyback LED Driver with Active PFC

© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.00 — May 7, 2013 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

Brief Description The ZSLS7031 is a primary-side controlled, peak-current-mode high-brightness LED flyback driver that supports both isolated and non-isolated designs with active power factor correction (PFC). The device works at a constant frequency in discontinuous conduction mode to provide con-stant power to the output. It eliminates the need for an opto-coupler, TL431 shunt regulator, or any other type of secondary-side feedback device. It operates from a wide input voltage range of 85VAC to 265VAC. The ZSLS7031 integrates over-current and over-voltage protection, as well as a thermal shutdown to halt the switching action in the event of abnor-mally high operating temperatures.

Benefits High efficiency Minimum bill of materials Small form-factor package No loop compensation required Isolated and non-isolated applications

Features Power factor PF > 0.95 depending on

application Wide application input voltage range: 85V to

265VAC Internal over-temperature protection Output over-voltage protection (OVP) Output over-current protection (OCP) on

primary side


Physical Characteristics Operating temperature:-45°C to 105°C Maximum junction temperature: 150°C Package: MSOP-8, RoHS-compliant

ZSLS7031 Typical Isolated Application

Q1

IC1 ZSLS7031VSINE

1

FSET3

GND4

GATE7

CS6

FB5

n.c.2

VCC8

D3

TR LED+

LED1 to LEDn

LED-

D4

C6 R8

C1 R1

R2

C2 Rset

R3

C4 RcsR9

C3R5

C5

R6

R7

D2D1

-+ DB1 to DB4

L

85VAC to 265VAC

N

Fuse









primary side




Q1

IC1 ZSLS7031VSINE

1

FSET3

GND4

GATE7

CS6

FB5

n.c.2

VCC8

D3

TR LED+

LED1 to LEDn

LED-

D4

C6 R8

C1 R1

R2

C2 Rset

R3

C4 RcsR9

C3R5

C5

R6

R7

D2D1

-+ DB1 to DB4

L

85VAC to 265VAC

N

Fuse









primary side




Q1

IC1 ZSLS7031VSINE

1

FSET3

GND4

GATE7

CS6

FB5

n.c.2

VCC8

D3

TR LED+

LED1 to LEDn

LED-

D4

C6 R8

C1 R1

R2

C2 Rset

R3

C4 RcsR9

C3R5

C5

R6

R7

D2D1

-+ DB1 to DB4

L

85VAC to 265VAC

N

Fuse




Typical Applications LED bulb lamps LED tube lamps General LED lighting

Circuit Block Diagram


Ordering Code Description Package

ZSLS7031ZI1R ZSLS7031 Flyback LED Driver IC, MSOP-8 Tape on Reel

ZSLS7031KIT-D1 ZSLS7031PCB-D1 Evaluation Board, 5 ZSLS7031 ICs Kit



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199




(



Typical Applications LED bulb lamps LED tube lamps General LED lighting

Circuit Block Diagram


Ordering Code Description Package

ZSLS7031ZI1R ZSLS7031 Flyback LED Driver IC, MSOP-8 Tape on Reel

ZSLS7031KIT-D1 ZSLS7031PCB-D1 Evaluation Board, 5 ZSLS7031 ICs Kit



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199




)


ZWIR4512Secure Low-Power Wireless IPv6 Module

ZWIR4512 Secure Low-Power Wireless IPv6 Module

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.20 — July 28, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


Cloud /Internet

ZWIR45xxDevice

Computer

ZWIR45xxGateway

LANRouter

HandheldDevice

Specific Devices:

Off-the-ShelfComponents:

LAN

WANPAN

Brief Description The ZWIR4512 enables secure low-power wireless IPv6 communication for sensors and small devices. ZMDI provides a user-programmable, royalty-free 6LoWPAN stack with mesh routing capability with the ZWIR4512. 6LoWPAN is an Internet Engineer-ing Task Force (IETF) standard for building wireless, low-power IP-based sensor and device networks. These networks can easily be integrated into exist-ing IT infrastructure or operate autonomously. Secure communication is provided by standard-compliant implementations of the Internet Protocol Security (IPSec) protocol suite and the Internet Key Exchange Protocol version 2 (IKEv2), which enable highly secure end-to-end communication, including over unsecure network nodes. The module is powered by an ARM® Cortex™-M3 (ARM, Ltd. trademark) microcontroller and provides a rich set of GPIO and peripheral interfaces. Up to 192kB of flash and 32kB of RAM are available for applications. Different low power modes are pro-vided to save energy in battery-operated devices. The modules provide superior radio properties with-out the need for complicated external RF design.

Benefits Uniquely simple programmability Standard-compliant security solution No need for external microcontroller Plug-and-play integration into local and wide-

area networks No RF design required 2D barcode label containing MAC address Superior radio propagation ETSI/FCC certified

Typical ZWIR4512 Application Setup

Hardware Features License-free 868/915 MHz frequency bands ARM® Cortex™-M3 32-bit microcontroller

192kB flash and 32kB RAM for user applications Unique EUI64 address 4 channels in EU mode; 10 channels in US mode 19 (ZWIR4512AC1) or 21 (ZWIR4512AC2)

GPIOs with multiplexed peripheral functions: 2 x UART, SPI, 3 x ADC, 2 x DAC, 11 x PWM,

USB, CAN, I2C™ (NXP trademark), 8 x timer Several 5V tolerant I/Os available Low current consumption: 3.5 µA in Standby

Mode; 10.5 mA in Receive Mode; 16.0 mA in Transmit Mode @ 0 dBm

Modulation schemes BPSK (20 kBps EU, 40 kBps US) O-QPSK (100 kBps EU, 250 kBps US)

Receiver sensitivity: up to -110 dBm TX output power: up to 10 dBm (US Mode)

Firmware Features Serial command interface with built-in security

and over-the-air update (OTAU) functionality Royalty-free library bundle for custom firmware:

6LoWPAN communication library with mesh routing capability; IPSec and IKEv2 security libraries; over-the-air update library; several peripheral libraries

Available Support Development Kit Programming guide and application notes Ethernet, USB and UART gateways Free packet sniffer and example programs

demonstrating C-API usage Windows® (Microsoft Corp. trademark) and

Linux® (Linus Torvalds trademark) support tools

Physical Characteristics Supply voltage: 2.0 V to 3.6 V Operating temperature: -40 °C to +85 °C 30-pin edge-board contact package or

32-pin land grid array package



© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.20 — July 28, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Stack Architecture

Applications

The ZWIR4512 serves as a universal secure radio communication module. Typical applications include home and industry automation, health monitoring, smart metering / smart grid applications, and key-less entry systems. Its very low current consumption makes the module suitable for battery-operated devices. ZW

IR45

12 B

lock

Diag

ram

DAC

RF – Transceiver

Thin

MAC

Dig

italP

HY

Anal

ogFr

onte

nd

Microcontroller

ADCADCADC

ARM®Cortex™-M3

ADCDAC ADCUART

SPI

USB

CAN

ADCADCPWM ADCADCTIM I2C™RF

RF-

Ctrl

Supp

lyR

eset

General Purpose & Peripheral IO

Boot



ZWIR4512AC1xA Unprogrammed module for user application programs 30 pin SMT, 27.9 mm x 16.5 mm

ZWIR4512AC1xI Preprogrammed module with serial command interface 30 pin SMT, 27.9 mm x 16.5 mm

ZWIR4512AC2xA Unprogrammed module for user application programs 32 pin LGA, 23.1 mm x 15.1 mm

ZWIR4512AC2xI Preprogrammed module with serial command interface 32 pin LGA, 23.1 mm x 15.1 mm

ZWIR4512-Devkit Development Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199




* ARM© and Cortex™ are trademarks of ARM, Ltd.† I2CTM is a trademarks of NXP.


© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.20 — July 28, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Stack Architecture

Applications

The ZWIR4512 serves as a universal secure radio communication module. Typical applications include home and industry automation, health monitoring, smart metering / smart grid applications, and key-less entry systems. Its very low current consumption makes the module suitable for battery-operated devices. ZW

IR45

12 B

lock

Diag

ram

DAC

RF – Transceiver

Thin

MAC

Dig

italP

HY

Anal

ogFr

onte

nd

Microcontroller

ADCADCADC

ARM®Cortex™-M3

ADCDAC ADCUART

SPI

USB

CAN

ADCADCPWM ADCADCTIM I2C™RF

RF-

Ctrl

Supp

lyR

eset

General Purpose & Peripheral IO

Boot



ZWIR4512AC1xA Unprogrammed module for user application programs 30 pin SMT, 27.9 mm x 16.5 mm

ZWIR4512AC1xI Preprogrammed module with serial command interface 30 pin SMT, 27.9 mm x 16.5 mm

ZWIR4512AC2xA Unprogrammed module for user application programs 32 pin LGA, 23.1 mm x 15.1 mm

ZWIR4512AC2xI Preprogrammed module with serial command interface 32 pin LGA, 23.1 mm x 15.1 mm

ZWIR4512-Devkit Development Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199




Power ManagementPower and Precision

Smart Power Management Solutions

Semiconductor Solutions for Tomorrow‘s Energy Efficiency Challenge


Designers of today’s high performance systems face many challenges: competitive features, regulatory requirements, solution stability, aggressive time-to-market, and quick migration to manufacturing. Often the power requirements of the system are not well understood in the early part of the design process and features that help improve overall system reliability are becoming key differentiators. Consequently power system designers need solutions that are high performance, easily optimized, fully-featured, easy to use, flexible, and reusable.ZMDI’s smart power management chipsets provide designers with a complete range of high efficiency solutions to meet low, medium, and high power requirements. Configurability via hardware or software ensures optimum flexibility and reusability of your design. Our solutions offer optional communications for telemetry and fault reporting allowing easier implementation in smart managed systems to meet system reliability, energy efficiency, and regulatory requirements. ZMDI’s digital smart power management ICs are supported by our easy-to-use PC-based Pink Power Designer™ design optimizer tool. A key advantage of this software and our true digital architecture is the ability to make real time trade-offs between performance, size, and cost. The software helps maintain your design investment as the resulting solution can be easily migrated to meet different power requirements.Our team of expert technical support staff with extensive power management system design experience is available to help you at all stages from system design through to board layout.

ZMDI smart power management solutions – for tomorrow’s energy efficiency challenge

Smart Power Management Solutions from ZMDI

’s

smart power

management

ICs and extensive

system expertise

help you develop

the optimal

solution and

minimize your

time-to-market• Server and storage units• Industrial and high-end PCs• Telecommunications equipment and base stations• Network routers and switches• FPGAs• Wireless access points, cable modems• Set-top boxes

Applications

Power and Precision


PWM = Pulse-Width Modulation; PFM = Pulse-Frequency Modulation ** Note: Output of external power stage

Inte

rnal

sw

itch

Ext

erna

l sw

itch

ZSPM1000ZI1R Single-Phase Digital PWM Controller PMBus™ Monitoring and Configuration 3.3 or 5.0 0.5 to 5.0** -** ≤1000 -40 to 85 n/a 1% QFN24 (4x4)

ZSPM1000ZA1R Single-Phase Digital PWM Controller PMBus™ Monitoring and Configuration 3.3 or 5.0 0.5 to 5.0** -** ≤1000 -40 to 125 n/a 1% QFN24 (4x4)

ZSPM1005ZA1R Single-Phase Digital PWM Controller Pin-Strap Configuration 3.3 or 5.0 0.5 to 5.0** -** ≤1000 -40 to 125 n/a 1% QFN24 (4x4)

ZSPM1025AA1W Single-Phase Digital PWM Controller PMBus™ Monitoring and ConfigurationOptimized for Murata 25A Power Block 3.3 or 5.0 0.35 to 3.6** 25** 500 -40 to 125 n/a 1% QFN24 (4x4)

ZSPM1025CA1W Single-Phase Digital PWM Controller Pin-Strap ConfigurationOptimized for Murata 25A Power Block 3.3 or 5.0 0.62 to 1.20** 25** 500 -40 to 125 n/a 1% QFN24 (4x4)

ZSPM1025DA1W Single-Phase Digital PWM Controller Pin-Strap ConfigurationOptimized for Murata 25A Power Block 3.3 or 5.0 1.25 to 3.40** 25** 500 -40 to 125 n/a 1% QFN24 (4x4)




ZSPM1501ZA1W0 Single-Phase Digital PWM Controller Pin-Strap Configuration Optimized for ZSPM90xx DrMOS Family 5.0 0.85** 40** 500 -40 to 125 n/a 1% QFN24 (4x4)






ZSPM2000ZI2R Single-Phase Digital PWM Controller and Integrated MOSFET Driver PMBus™ Monitoring and Configuration 5.0 0.5 to 5.0** -** ≤1000 -40 to 85 n/a 1% QFN28 (4x4)

ZSPM9000AI1R Integrated Power Stage Intel® 4.0 DrMOSIntegrated 5V LDO, Thermal Flag, Skip Mode

3.0 to 15.0 0.5 to 5.0 50 ≤1000 -40 to 125 93% n/a PQFN40 (6x6)

ZSPM9010ZA1R Integrated Power Stage Intel® 4.0 DrMOSThermal Flag, Skip Mode

3.0 to 15.0 0.5 to 5.0 50 ≤1000 -40 to 125 93% n/a PQFN40 (6x6)

ZSPM9015ZI1R Integrated Power Stage Intel® 4.0 DrMOSThermal Shutdown and Flag, Zero Current Detect

4.5 to 25.0 0.5 to 5.0 35 ≤1000 0 to 150* 93% n/a PQFN40 (6x6)


3.0 to 16.0 0.5 to 5.0 60 ≤1000 -40 to 125 93% n/a PQFN40 (6x6)

ZSPM4011BA1Wxx Analog DC-DC Regulator Fixed and Variable Output VoltageSoft-Start, PWM, and PFM Modes 4.5 to 24.0 0.9 to 5.5 1 1000 -40 to 125* 95% 2% QFN16 (3x3)



ZSPM4022AA1W06 Analog DC-DC Regulator Fixed and Variable Output VoltageSoft-Start, PWM, and PFM Modes 4.5 to 19.0 0.8 to 5.5 6 600 -40 to 125* 95% 1% QFN28 (5x6)






PWM = Pulse-Width Modulation; PFM = Pulse-Frequency Modulation** Note: Output of external power stage

Pac

kage

(m

m x

mm

)

Vou

t (V

)

Iout

(A)

Ope

ratin

g Fr

eque

ncy

(kH

z)

Ta (°

C)

* Tj

(°C

)

Effi

cien

cy

Out

put V

olta

ge

Acc

urac

y

Vin

(V)

Par

t Num

ber

Des

crip

tion

Type

Feat

ures


Our world-

class customer

support, easy-

to-use tools

and system

experience help

you throughout

the entire design

process and

beyond

Inte

rnal

sw

itch

Ext

erna

l sw

itch

ZSPM1000ZI1R Single-Phase Digital PWM Controller PMBus™ Monitoring and Configuration 3.3 or 5.0 0.5 to 5.0** -** ≤1000 -40 to 85 n/a 1% QFN24 (4x4)

ZSPM1000ZA1R Single-Phase Digital PWM Controller PMBus™ Monitoring and Configuration 3.3 or 5.0 0.5 to 5.0** -** ≤1000 -40 to 125 n/a 1% QFN24 (4x4)

ZSPM1005ZA1R Single-Phase Digital PWM Controller Pin-Strap Configuration 3.3 or 5.0 0.5 to 5.0** -** ≤1000 -40 to 125 n/a 1% QFN24 (4x4)













ZSPM2000ZI2R Single-Phase Digital PWM Controller and Integrated MOSFET Driver PMBus™ Monitoring and Configuration 5.0 0.5 to 5.0** -** ≤1000 -40 to 85 n/a 1% QFN28 (4x4)

ZSPM9000AI1R Integrated Power Stage Intel® 4.0 DrMOSIntegrated 5V LDO, Thermal Flag, Skip Mode

3.0 to 15.0 0.5 to 5.0 50 ≤1000 -40 to 125 93% n/a PQFN40 (6x6)


3.0 to 15.0 0.5 to 5.0 50 ≤1000 -40 to 125 93% n/a PQFN40 (6x6)

ZSPM9015ZI1R Integrated Power Stage Intel® 4.0 DrMOSThermal Shutdown and Flag, Zero Current Detect

4.5 to 25.0 0.5 to 5.0 35 ≤1000 0 to 150* 93% n/a PQFN40 (6x6)


3.0 to 16.0 0.5 to 5.0 60 ≤1000 -40 to 125 93% n/a PQFN40 (6x6)










PWM = Pulse-Width Modulation; PFM = Pulse-Frequency Modulation** Note: Output of external power stage

Pac

kage

(m

m x

mm

)

Vou

t (V

)

Iout

(A)

Ope

ratin

g Fr

eque

ncy

(kH

z)

Ta (°

C)

* Tj

(°C

)

Effi

cien

cy

Out

put V

olta

ge

Acc

urac

y

Vin

(V)

Par

t Num

ber

Des

crip

tion

Type

Feat

ures


ZSPM1000True Digital PWM Controller (Single-Phase, Single-Rail)


ZSPM1000 True Digital PWM Controller (Single-Phase, Single-Rail)

© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 2.01— October 13, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

Brief Description The ZSPM1000 is a configurable true-digital single-phase PWM controller for high-current, non-isolated DC/DC supplies. It operates as a synchronous step-down converter in a single-rail and single-phase con-figuration. The ZSPM1000 integrates a digital control loop, opti-mized for maximum flexibility and stability, as well as load step and steady-state performance. In addition, a rich set of protection and monitoring functions is provided. On-chip, non-volatile memory (NVM) and an I2C™ * interface facilitate configuration. The PC-based ZMDI’s Pink Power Designer™ pro-vides a user-friendly and easy-to-use interface to the device for communication and configuration. It can guide the user through the design of the digital com-pensator and offers intuitive configuration methods for additional features, such as protection and sequencing.

Features Programmable digital control loop Advanced digital control techniques

Tru-sample Technology™ State-Law Control™ (SLC) Sub-cycle Response™ (SCR)

Improved transient response and noise immunity Protection features

Over-current protection Over-voltage protection (VIN, VOUT) Under-voltage protection (VIN, VOUT) Overloaded startup Restart and delay

Support for SMOD and ZCD drivers Fuse-based NVM for improved reliability Operation from a single 5V or 3.3V supply Optional PMBus™ address selection without

external resistors

* I2C™ is a registered trademark of NXP. ** Subject to product type.

Benefits Fast configurability and design flexibility Simplified design and integration Reduced component count through system level

integration Simplified monitoring for system power and

thermal management Higher energy efficiency across all output loading

conditions

Available Support Evaluation Kit PC-based Pink Power Designer™

Physical Characteristics Operation temperature: -40°C to +125°C** VOUT max: 5V Lead free (RoHS compliant) 24-pin QFN package

(4 mm x 4 mm)

ZSPM1000 Typical Application Diagram










external resistors





conditions



(4 mm x 4 mm)











external resistors





conditions



(4 mm x 4 mm)











external resistors





conditions



(4 mm x 4 mm)




© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 2.01— October 13, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Typical Applications Telecom Switches

Servers and Storage

Base Stations

Network Routers

Industrial Applications

Single-Rail/Single-Phase Supplies for Processors, ASICs, FPGAs, DSPs

Sequencer

Configurable Error Handler

ClockGeneration

OV Detection

OC Detection

FLASH ADC

CPU Core NVM (OTP)

1.8V RegDigital

1.8V RegAnalog

VREF

VFBP

VFBN

VDD

50

AVDD18

VDD18

Adaptive Digital Controller

PWM

LSEPWM

VFBDigital Control Loop

ISNSP

ISNSN

Current Sensing

HKADC

Int. Temp Sense

TEMP

Bias Current Source VREFP

3.3V Reg

ADC

VRE

F

SMBusGPIO

GPI

O0

PGO

OD

CO

NTR

OL

SDA

SC

L

SMBA

LER

T

DAC

DAC

CurrentLimiting

Average Current Sensing

OT Detection

Vin OV/UV Detection

ADDR0

ADDR1

VIN

VDD33

Vout UV Detection



ZSPM1000ZI1R 1 ZSPM1000 Lead-free QFN24 — Temperature range: -40°C to +85°C * Reel

ZSPM1000ZA1R 1 ZSPM1000 Lead-free QFN24 — Temperature range: -40°C to +125°C * Reel

ZSPM8000-KIT Evaluation Kit for ZSPM1000 with PMBus™ Communication Interface Kit

* This product is sold under a limited license from PowerOne, Inc. related to digital power technology as set forth in U.S. Patent 7000125 and other related patents owned by PowerOne, Inc. This license does not extend to stand-alone power supply products.



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199




ZSPM1000 Block Diagram




Servers and Storage

Base Stations

Network Routers



Sequencer


ClockGeneration

OV Detection

OC Detection

FLASH ADC

CPU Core NVM (OTP)

1.8V RegDigital

1.8V RegAnalog

VREF

VFBP

VFBN

VDD

50

AVDD18

VDD18


PWM

LSEPWM


ISNSP

ISNSN

Current Sensing

HKADC

Int. Temp Sense

TEMP


3.3V Reg

ADC

VRE

F

SMBusGPIO

GPI

O0

PGO

OD

CO

NTR

OL

SDA

SC

L

SMBA

LER

T

DAC

DAC

CurrentLimiting


OT Detection

Vin OV/UV Detection

ADDR0

ADDR1

VIN

VDD33

Vout UV Detection



ZSPM1000ZI1R 1 ZSPM1000 Lead-free QFN24 — Temperature range: -40°C to +85°C * Reel

ZSPM1000ZA1R 1 ZSPM1000 Lead-free QFN24 — Temperature range: -40°C to +125°C * Reel

ZSPM8000-KIT Evaluation Kit for ZSPM1000 with PMBus™ Communication Interface Kit




USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199







© 2014 Zentrum Mikroelektronik Dresden AG — Rev.2.00 — October 14, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


Brief Description The ZSPM1005 is a configurable true-digital single-phase PWM controller for high-current, non-isolated DC/DC supplies. It operates as a synchronous step-down converter in a single-rail and single-phase con-figuration. The ZSPM1005 integrates a digital control loop, opti-mized for maximum flexibility and stability as well as load step and steady-state performance. In addition, a rich set of protection and monitoring functions is provided. To facilitate user configuration of the part, a set of configuration options can be pre-prog-rammed in the ZSPM1005 that can be selected by setting the values of two external resistors. ZMDI’s Pink Power Designer™; a PC-based, user-friendly interface to the ZSPM1005, can be used to expedite the design of the digital compensator. It offers intuitive configuration methods for additional features, such as protection and sequencing. Once the part is programmed, the resistor options can be used to select the required configuration without a digital bus.

Features Programmable digital control loop Advanced, digital control techniques




Support for SMOD and ZCD drivers Fuse-based one-time programmable (OTP)

nonvolatile memory for improved reliability Operation from a single 5V or 3.3V supply 2-pin configuration for compensation, output

voltage, and more

Benefits Fast configuration and design flexibility improves

time-to-market Simplified design and integration FPGA designer-friendly solution Highest power density with smallest footprint Pin-to-pin compatible with the ZSPM1000 PWM

controller enabling point-of-load power module platform designs with or without digital communication

Higher energy efficiency across all output loading conditions


Physical Characteristics Operation temperature: -40°C to +125°C VOUT max: 5V Lead free (RoHS compliant) 24-pin QFN package

(4mm x 4mm)


ZSPM1005True Digital PWM Controller (Single-Phase, Single-Rail)



© 2014 Zentrum Mikroelektronik Dresden AG — Rev.2.00 — October 14, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.

Optimal Applications FPGA designs

Point-of-load power modules for single-phase applications including telecommunication, base stations, servers and storage




ZSPM1005ZA1R 0 ZSPM1005 Lead-free QFN24 — Temperature range: -40°C to +125°C Reel

ZSPM8001-KIT Integrated Evaluation Kit for ZSPM9060 and ZSPM1005 - closed loop evaluation board Kit

Sequencer


ClockGeneration

OV Detection

OC Detection

FLASH ADC

CPU Core NVM (OTP)

1.8V RegDigital

1.8V RegAnalog

VREF

VFBP

VFBN

VDD

50

AVDD18

VDD18


PWM

LSEPWM


ISNSP

ISNSN

Current Sensing

HKADC

Int. Temp Sense

TEMP


3.3V Reg

ADC

VREF

GPIO

GPI

O0

PGO

OD

CO

NTR

OL

GPI

O1

GPI

O2

GPI

O3

DAC

DAC

CurrentLimiting


OT Detection

Vin OV/UV Detection

CONFIG0

CONFIG1

VIN

VDD33

Vout UV Detection



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199






Optimal Applications FPGA designs

Point-of-load power modules for single-phase applications including telecommunication, base stations, servers and storage




ZSPM1005ZA1R 0 ZSPM1005 Lead-free QFN24 — Temperature range: -40°C to +125°C Reel

ZSPM8001-KIT Integrated Evaluation Kit for ZSPM9060 and ZSPM1005 - closed loop evaluation board Kit

Sequencer


ClockGeneration

OV Detection

OC Detection

FLASH ADC

CPU Core NVM (OTP)

1.8V RegDigital

1.8V RegAnalog

VREF

VFBP

VFBN

VDD

50

AVDD18

VDD18


PWM

LSEPWM


ISNSP

ISNSN

Current Sensing

HKADC

Int. Temp Sense

TEMP


3.3V Reg

ADC

VREF

GPIO

GPI

O0

PGO

OD

CO

NTR

OL

GPI

O1

GPI

O2

GPI

O3

DAC

DAC

CurrentLimiting


OT Detection

Vin OV/UV Detection

CONFIG0

CONFIG1

VIN

VDD33

Vout UV Detection



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199






ZSPM1025A True Digital PWM Controller (Single-Phase, Single-Rail)


Brief Description The ZSPM1025A is a flexible true-digital single-phase PWM controller optimally configured for use with the Murata Power Solutions 25A Power Block OKLP-X/25-W12-C in smart digital power solutions. The ZSPM1025A integrates a digital control loop, optimized for maximum flexibility and stability, as well as load step and steady-state performance. In addition, a rich set of protection and monitoring functions is provided. On-chip, non-volatile memory (NVM) and an I2C™ * interface facilitate configuration. ZMDI’s PC-based Pink Power Designer™ graphic user interface (GUI) provides a user-friendly and easy-to-use interface to the ZSPM1025A for communication, monitoring, and configuration of the protection and sequencing features. A downloadable reference solution is available, including a graphical user interface, layout guide-lines, bill of materials, and step-by-step instructions.




Over-current protection Over-voltage protection (VIN, VOUT) Under-voltage protection (VIN, VOUT) Overloaded startup Continuous retry (“hiccup”) mode for fault

conditions Fuse-based NVM for improved reliability Operation from a single 5V or 3.3V supply Optional PMBus™ address selection without

external resistors


Benefits Fast time-to-market using off-the-shelf, optimally

configured controller and power block Fast configurability and design flexibility Simplified design flow and high reliability via

proven system design solution Reduced component count through system level


thermal management Pin-to-pin compatible with the ZSPM1025C and

ZSPM1025D PWM controllers, enabling point-of-load platform designs with or without digital communication


Available Support Evaluation Kit Reference Solution PC-based Pink Power Designer™ GUI

Physical Characteristics Operation temperature: -40°C to +125°C VOUT: 0.35V to 3.6V Lead free (RoHS compliant) 24-pin QFN package

(4 mm x 4 mm)

ZSPM1025A Typical Application Diagram

Driver

ZSPM1025QFN 4x4 mm

MurataOKLP-X/25-W12-C

Current Sensing

Digital Control Loop

Power Management(Sequencing, Protection,…)

Housekeeping and

Communication

Driver

ZSPM1025ATrue Digital PWM Controller (Single-Phase, Single-Rail)





Servers and Storage

Base Stations

Network Routers




ZSPM1025AA1W 1 ZSPM1025A Lead-free QFN24 — Temperature range: -40°C to +125°C Reel

ZSPM8025-KIT Evaluation Kit for ZSPM1025A with PMBus™ Communication Interface — Pink Power Designer™ GUI for kit can be downloaded from the ZMDI web site at www.zmdi.com/zspm1025a

Kit


Sequencer


ClockGeneration

OV Detection

OC Detection

FLASH ADC

CPU Core NVM (OTP)

1.8V RegDigital

1.8V RegAnalog

VREF

VFBP

VFBN

VDD

50

AVDD18

VDD18


PWM

LSEPWM


ISNSP

ISNSN

Current Sensing

HKADC

Int. Temp Sense

TEMP


3.3V Reg

ADC

VRE

F

SMBusGPIOG

PIO

0

PGO

OD

CO

NTR

OL

SDA

SC

L

SMBA

LER

T

DAC

DAC

CurrentLimiting


OT Detection

Vin OV/UV Detection

ADDR0

ADDR1

VIN

VDD33

Vout UV Detection



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199




ZSPM1025A Block Diagram




Servers and Storage

Base Stations

Network Routers




ZSPM1025AA1W 1 ZSPM1025A Lead-free QFN24 — Temperature range: -40°C to +125°C Reel


Kit


Sequencer


ClockGeneration

OV Detection

OC Detection

FLASH ADC

CPU Core NVM (OTP)

1.8V RegDigital

1.8V RegAnalog

VREF

VFBP

VFBN

VDD

50

AVDD18

VDD18


PWM

LSEPWM


ISNSP

ISNSN

Current Sensing

HKADC

Int. Temp Sense

TEMP


3.3V Reg

ADC

VRE

F

SMBusGPIO

GPI

O0

PGO

OD

CO

NTR

OL

SDA

SC

L

SMBA

LER

T

DAC

DAC

CurrentLimiting


OT Detection

Vin OV/UV Detection

ADDR0

ADDR1

VIN

VDD33

Vout UV Detection



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199






ZSPM1025C / ZSPM1025D True Digital PWM Controller (Single-Phase, Single-Rail)

© 2014 Zentrum Mikroelektronik Dresden AG — Rev.1.01 — October 15, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


Brief Description The ZSPM1025C and ZSPM1025D are true-digital single-phase PWM controllers optimally configured for use with the Murata Power Solutions 25A Power Block OKLP-X/25 in smart digital power solutions. The ZSPM1025C and ZSPM1025D integrate a digital control loop, optimized for maximum flexibility and stability as well as load step and steady-state performance. In addition, a rich set of protection functions is provided. To simplify the system design, a set of optimized configuration options have been pre-programmed in the devices. These configurations can be selected by setting the values of two external resistors. Reference solutions are available complete with layout recommendations, example circuit board layouts, complete bill of materials and more.

Features Application-optimized digital control loop Advanced, digital control techniques




conditions Pre-programmed for optimized use with Murata

Power Solutions 25A Power Block OKLP-X/25 2-pin configuration for loop compensation, output

voltage, and slew rate. Operation from a single 5V or 3.3V supply


configured controller and power block Fast configuration and design flexibility Simplified design and integration FPGA designer-friendly solution Highest power density with smallest footprint Pin-to-pin compatible with the ZSPM1025A PWM

controller enabling point-of-load platform designs with or without digital communication


Available Support Evaluation Kit Reference Solutions PC-based Pink Power Designer™ Graphic User

Interface (GUI)

Physical Characteristics Operation temperature: -40°C to +125°C ZSPM1025C VOUT: 0.62V to 1.20V ZSPM1025D VOUT: 1.25V to 3.40V Lead free (RoHS compliant) 24-pin QFN package

(4mm x 4mm)

ZSPM1025C/D Typical Application Diagram

Driver

ZSPM1025QFN 4x4 mm


Current Sensing



Housekeeping and

Communication

Driver

ZSPM1025C / ZSPM1025DTrue Digital PWM Controller (Single-Phase, Single-Rail)





Servers and Storage

Base Stations

Network Routers


FPGA Designs

Point-of-load power solutions

Telecommunications

Single-Rail/Single-Phase supplies for Processors, ASICs, DSP’s, etc.


ZSPM1025CA1W 0 ZSPM1025C Lead-free QFN24 — Temperature range: -40°C to +125°C 7” Reel

ZSPM1025DA1W 0 ZSPM1025D Lead-free QFN24 — Temperature range: -40°C to +125°C 7” Reel

ZSPM8725-KIT Evaluation Kit for ZSPM1025C with PMBus™ Communication Interface * Kit

ZSPM8825-KIT Evaluation Kit for ZSPM1025D with PMBus™ Communication Interface * Kit

* Pink Power Designer™ GUI for kit can be downloaded from the ZMDI web site at www.zmdi.com/zspm1025c or www.zmdi.com/zspm1025d.

Sequencer


ClockGeneration

OV Detection

OC Detection

FLASH ADC

CPU Core NVM (OTP)

1.8V RegDigital

1.8V RegAnalog

VREF

VFBP

VFBN

VDD

50

AVDD18

VDD18


PWM

LSEPWM


ISNSP

ISNSN

Current Sensing

HKADC

Int. Temp Sense

TEMP


3.3V Reg

ADC

VREF

GPIO

GPI

O0

PG

OO

D

CO

NTR

OL

GPI

O1

GPI

O2

GPI

O3

DAC

DAC


OT Detection

Vin OV/UV Detection

CONFIG0

CONFIG1

VIN

VDD33

Vout UV Detection



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199




ZSPM1025C/D Block Diagram




Servers and Storage

Base Stations

Network Routers


FPGA Designs

Point-of-load power solutions

Telecommunications

Single-Rail/Single-Phase supplies for Processors, ASICs, DSP’s, etc.







Sequencer


ClockGeneration

OV Detection

OC Detection

FLASH ADC

CPU Core NVM (OTP)

1.8V RegDigital

1.8V RegAnalog

VREF

VFBP

VFBN

VDD

50

AVDD18

VDD18


PWM

LSEPWM


ISNSP

ISNSN

Current Sensing

HKADC

Int. Temp Sense

TEMP


3.3V Reg

ADC

VREF

GPIO

GPI

O0

PG

OO

D

CO

NTR

OL

GPI

O1

GPI

O2

GPI

O3

DAC

DAC


OT Detection

Vin OV/UV Detection

CONFIG0

CONFIG1

VIN

VDD33

Vout UV Detection



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199









Brief Description The ZSPM1035A is a flexible true-digital single-phase PWM controller optimally configured for use with the Murata Power Solutions 35A Power Block OKLP-X/35-W12-C in smart digital power solutions. The ZSPM1035A integrates a digital control loop, optimized for maximum flexibility and stability, as well as load step and steady-state performance. In addition, a rich set of protection and monitoring func-tions is provided. On-chip, non-volatile memory (NVM) and an I2C™ * interface facilitate configuration. ZMDI’s PC-based Pink Power Designer™ graphic user interface (GUI) provides a user-friendly and easy-to-use interface to the ZSPM1035A for com-munication, monitoring, and configuration of the pro-tection and sequencing features. A downloadable reference solution is available, including a graphical user interface, layout guide-lines, bill of materials, and step-by-step instructions.





conditions Fuse-based NVM for improved reliability Operation from a single 5V or 3.3V supply Optional PMBus™ address selection without

external resistors



configured controller and power block Fast configurability and design flexibility Simplified design flow and high reliability via

proven system design solution Reduced component count through system level


thermal management Pin-to-pin compatible with the ZSPM1035C and

ZSPM1035D PWM controllers enabling point-of-load platform designs with or without digital communication


Available Support Evaluation Kit Reference Solution PC-based Pink Power Designer™ GUI

Physical Characteristics Operation temperature: -40°C to +125°C VOUT: 0.35V to 3.6V Lead free (RoHS compliant) 24-pin QFN package

(4mm x 4mm)

ZSPM1035A Typical Application Diagram

Driver

ZSPM1035QFN 4x4 mm


Current Sensing



Housekeeping and

Communication

Driver

VIN12V typical

VOUT






Servers and Storage

Base Stations

Network Routers





ZSPM1035AA1W 1 ZSPM1035A Lead-free QFN24 — Temperature range: -40°C to +125°C * Reel


Kit


Sequencer


ClockGeneration

OV Detection

OC Detection

FLASH ADC

CPU Core NVM (OTP)

1.8V RegDigital

1.8V RegAnalog

VREF

VFBP

VFBN

VDD

50

AVDD18

VDD18


PWM

LSEPWM


ISNSP

ISNSN

Current Sensing

HKADC

Int. Temp Sense

TEMP


3.3V Reg

ADC

VRE

F

SMBusGPIOG

PIO

0

PGO

OD

CO

NTR

OL

SDA

SC

L

SMBA

LER

T

DAC

DAC

CurrentLimiting


OT Detection

Vin OV/UV Detection

ADDR0

ADDR1

VIN

VDD33

Vout UV Detection



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199








Servers and Storage

Base Stations

Network Routers





ZSPM1035AA1W 1 ZSPM1035A Lead-free QFN24 — Temperature range: -40°C to +125°C * Reel


Kit


Sequencer


ClockGeneration

OV Detection

OC Detection

FLASH ADC

CPU Core NVM (OTP)

1.8V RegDigital

1.8V RegAnalog

VREF

VFBP

VFBN

VDD

50

AVDD18

VDD18


PWM

LSEPWM


ISNSP

ISNSN

Current Sensing

HKADC

Int. Temp Sense

TEMP


3.3V Reg

ADC

VRE

F

SMBusGPIO

GPI

O0

PGO

OD

CO

NTR

OL

SDA

SC

L

SMBA

LER

T

DAC

DAC

CurrentLimiting


OT Detection

Vin OV/UV Detection

ADDR0

ADDR1

VIN

VDD33

Vout UV Detection



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199







© 2013 Zentrum Mikroelektronik Dresden AG — Rev.1.00 — December 4, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


Brief Description The ZSPM1035C and ZSPM1035D are true-digital single-phase PWM controllers optimally configured for use with the Murata Power Solutions 35A Power Block OKLP-X/35-W12-C in smart digital power solutions. The ZSPM1035C and ZSPM1035D integrate a digi-tal control loop, optimized for maximum flexibility and stability as well as load step and steady-state perfor-mance. In addition, a rich set of protection functions is provided. To simplify the system design, a set of optimized configuration options have been pre-programmed in the devices. These configurations can be selected by setting the values of two external resistors. Reference solutions are available complete with layout recommendations, example circuit board layouts, complete bill of materials and more.

Features Application-optimized digital control loop Advanced, digital control techniques




conditions Pre-programmed for optimized use with Murata

Power Solutions 35A Power Block OKLP-X/35-W12-C

2-pin configuration for loop compensation, output voltage, and slew rate.

Operation from a single 5V or 3.3V supply


configured controller and power block Fast configuration and design flexibility Simplified design and integration FPGA designer-friendly solution Highest power density with smallest footprint Pin-to-pin compatible with the ZSPM1035A PWM

controller enabling point-of-load platform designs with or without digital communication


Available Support Evaluation Kit Reference Solutions PC-based Pink Power Designer™ Graphic User

Interface (GUI)

Physical Characteristics Operation temperature: -40°C to +125°C ZSPM1035C VOUT: 0.62V to 1.20V ZSPM1035D VOUT: 1.25V to 3.40V Lead free (RoHS compliant) 24-pin QFN package

(4mm x 4mm)

ZSPM1035C/D Typical Application Diagram

Driver

ZSPM1035QFN 4x4 mm


Current Sensing



Housekeeping and

Communication

Driver

VIN12V typical

VOUT




© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.00 — December 4, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.


Servers and Storage

Base Stations

Network Routers


FPGA Designs

Point-of-Load Power Solutions

Telecommunications

Single-Rail/Single-Phase Supplies for Processors, ASICs, DSPs, etc.








Sequencer


ClockGeneration

OV Detection

OC Detection

FLASH ADC

CPU Core NVM (OTP)

1.8V RegDigital

1.8V RegAnalog

VREF

VFBP

VFBN

VDD

50

AVDD18

VDD18


PWM

LSEPWM


ISNSP

ISNSN

Current Sensing

HKADC

Int. Temp Sense

TEMP


3.3V Reg

ADC

VREF

GPIO

GPI

O0

PG

OO

D

CO

NTR

OL

GPI

O1

GPI

O2

GPI

O3

DAC

DAC


OT Detection

Vin OV/UV Detection

CONFIG0

CONFIG1

VIN

VDD33

Vout UV Detection



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199







ZSPM15xx True-Digital PWM Controller (Single-Phase, Single-Rail)


Brief Description ZSPM15xx family ICs are controllers designed for high-current, non-isolated DC/DC step-down point of load (POL) converters. The ZSPM15xx has a digital control loop that is optimized for maximum stability as well as load step and steady-state performance. ZSPM15xx family ICs have a rich set of integrated fault protection features including over-voltage/ under-voltage, output over-current, and over-temper-ature protections. To facilitate ease of use, the ZSPM15xx is pre-programmed and available for common output voltages. To provide flexibility for the end-customer, the over-current protection threshold and the control loop compensation are selectable by the end-customer to match a number of selected power stages. ZSPM15xx family ICs have been optimized for max-imum efficiency when used with ZMDI’s DrMOS devices. Reference designs and application instruc-tions enable a high performance turnkey solution without extensive engineering development.

Features Advanced digital control techniques


Preconfigured compensation for selected inductance values.


Configuration for over-current protection Over-voltage protection (VIN, VOUT) Under-voltage protection (VIN, VOUT) Over-temperature protection Overloaded startup Restart and delay

Benefits Factory pre-configured for industry standard

output voltages and currents enabling fast time-to-market

Simplified design and integration FPGA designer-friendly solution Highest power density with smallest footprint Higher energy efficiency across all output loading

conditions Operation from a single 5V supply

Available Support Reference designs Evaluation kits

Physical Characteristics Operation temperature: -40°C to +125°C VIN for POL application:10.8V to 13.2V VDD50 voltage supply: 4.75 to 5.25V Available Output Voltages: 0.85V, 1.0V, 1.2V,

1.5V, 1.8V, and 2.0V Lead free (RoHS compliant) 24-pin QFN package

(4mm x 4mm)

ZSPM15xx Typical Application Diagram

Driver

ZSPM15xxQFN 4x4 mm

ZSPM90xxPQFN 6x6 mm

Current Sensing



Housekeeping and

Communication

Driver




© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 2.00 — November 24, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.


Servers and Storage

Base Stations

Network Routers



Sequencer


ClockGeneration

OV Detection

OC Detection

FLASH ADC

CPU Core NVM (OTP)

1.8V RegDigital

1.8V RegAnalog

VREF

VFBP

VFBN

VDD

50

AVDD18

VDD18


PWM

DRVENPWM


ISNSP

ISNSN

Current Sensing

HKADC

Int. Temp Sense

TEMP


3.3V Reg

ADC

VR

EF

GPIO

THSH

DN

PGO

OD

CO

NTR

OL

DAC

DAC

CurrentLimiting


OT Detection

Vin OV/UV Detection

CONFIG0

CONFIG1

VIN

VDD33

Vout UV Detection

ZSPM15xx Block Diagram


Product Code Description Package

ZSPM1501ZA1W0 ZSPM1501 lead-free QFN24; output voltage: 0.85V; inductance: 330nH; temperature: -40°C to +125°C Reel








USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 2.00 — November 24, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.


Servers and Storage

Base Stations

Network Routers



Sequencer


ClockGeneration

OV Detection

OC Detection

FLASH ADC

CPU Core NVM (OTP)

1.8V RegDigital

1.8V RegAnalog

VREF

VFBP

VFBN

VDD

50

AVDD18

VDD18


PWM

DRVENPWM


ISNSP

ISNSN

Current Sensing

HKADC

Int. Temp Sense

TEMP


3.3V Reg

ADC

VR

EF

GPIO

THSH

DN

PGO

OD

CO

NTR

OL

DAC

DAC

CurrentLimiting


OT Detection

Vin OV/UV Detection

CONFIG0

CONFIG1

VIN

VDD33

Vout UV Detection

ZSPM15xx Block Diagram


Product Code Description Package









USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199






ZSPM2000 True Digital PWM Controller with Integrated MOSFET Driver


Brief Description The ZSPM2000 is a configurable true-digital single-phase PWM controller for high-current, non-isolated DC/DC supplies. The ZSPM2000 includes a high-speed MOSFET driver for a synchronous step-down converter in a single-rail and single-phase con-figuration. The ZSPM2000 integrates a digital control loop, opti-mized for maximum flexibility and stability, as well as load step and steady-state performance. In addition, a rich set of protection and monitoring functions is provided. On-chip, non-volatile memory (NVM) and an I2C™ * interface facilitate configuration. ZMDI’s PC-based Pink Power Designer™ graphical user interface (GUI) provides a user-friendly and easy-to-use interface to the device for communica-tion and configuration. It can guide the user through the design of the digital compensator and offers in-tuitive configuration methods for additional features, such as protection and sequencing.





Integrated MOSFET driver with adaptive anti-cross-conduction protection

Fuse-based NVM for improved reliability Operation from a single 5V or 3.3V supply Optional PMBus™ address selection without

external resistors





conditions

Available Support Evaluation Kit PC-based Pink Power Designer™ GUI

Physical Characteristics Operation temperature: -40°C to +85°C VOUT max: 5V VDD50 and VDD50DRV supply: 4.75V to 5.25V Lead free (RoHS-compliant)


ZSPM2000QFN 4x4 mm

Current Sensing



Housekeeping and

Communication

Gate Driver

VIN12V (typ.)

VOUT0.5 to 5V




© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.00— November 16, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.


Servers and Storage

Base Stations

Network Routers





ZSPM2000ZI2R 1 ZSPM2000 Lead-free QFN28 — Temperature range: -40°C to +85°C* Reel

ZSPM2000-KIT01 Evaluation Kit for ZSPM2000 with PMBus™ Communication Interface — the Pink Power Designer™ GUI for kit can be downloaded from the ZMDI web site at www.zmdi.com/zspm2000 (login required; see data sheet section 9 for details)

Kit

* Note: This product is sold under a limited license from PowerOne, Inc. related to digital power technology as set forth in U.S. Patent 7000125 and other related patents owned by PowerOne, Inc. This license does not extend to stand-alone power supply products.

Sequencer


ClockGeneration

OV Detection

OC Detection

FLASH ADC

CPU Core NVM (OTP)

1.8V Reg

Digital

1.8V Reg

Analog

VREF

VFBP

VFBN

VDD

50

AVD

D18

VDD

18

Adaptive Digital Controller PWM

VFB


ISNSP

ISNSN

Current Sensing

HKADC

Int. Temp Sense

TEMP

Bias Current Source

VREF

P

3.3V Reg

ADC

VREF

SMBusGPIO

GPI

O0

PG

OO

D

CO

NTR

OL

SD

A

SCL

SMB

ALE

RT

DAC

DAC

CurrentLimiting


OT Detection

Vin OV/UV Detection

ADDR0

ADDR1

VIN

VDD

33

Vout UV Detection

HSdriver DRVH

DRVL

BST

SW

PGND

LSdriver

VDD

50D

RV



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199






© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.00— November 16, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.


Servers and Storage

Base Stations

Network Routers





ZSPM2000ZI2R 1 ZSPM2000 Lead-free QFN28 — Temperature range: -40°C to +85°C* Reel

ZSPM2000-KIT01 Evaluation Kit for ZSPM2000 with PMBus™ Communication Interface — the Pink Power Designer™ GUI for kit can be downloaded from the ZMDI web site at www.zmdi.com/zspm2000 (login required; see data sheet section 9 for details)

Kit

* Note: This product is sold under a limited license from PowerOne, Inc. related to digital power technology as set forth in U.S. Patent 7000125 and other related patents owned by PowerOne, Inc. This license does not extend to stand-alone power supply products.

Sequencer


ClockGeneration

OV Detection

OC Detection

FLASH ADC

CPU Core NVM (OTP)

1.8V Reg

Digital

1.8V Reg

Analog

VREF

VFBP

VFBN

VDD

50

AVD

D18

VDD

18

Adaptive Digital Controller PWM

VFB


ISNSP

ISNSN

Current Sensing

HKADC

Int. Temp Sense

TEMP

Bias Current Source

VREF

P

3.3V Reg

ADC

VREF

SMBusGPIO

GPI

O0

PG

OO

D

CO

NTR

OL

SD

A

SCL

SMB

ALE

RT

DAC

DAC

CurrentLimiting


OT Detection

Vin OV/UV Detection

ADDR0

ADDR1

VIN

VDD

33

Vout UV Detection

HSdriver DRVH

DRVL

BST

SW

PGND

LSdriver

VDD

50D

RV



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199






ZSPM4011B High Efficiency 1A Synchronous Buck Converter

© 2014 Zentrum Mikroelektronik Dresden AG — Rev.1.20 — February 13, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


Brief Description The ZSPM4011B is a DC/DC synchronous switching regulator with fully integrated power switches, internal compensation, and full fault protection. The 1MHz switching frequency enables using small filter components, resulting in reduced board space and reduced bill-of-materials costs. The ZSPM4011B utilizes current mode feedback in normal regulation pulse-width modulation (PWM) mode. When the regulator is disabled (EN pin is low), the ZSPM4011B draws less than 10µA quies-cent current. The ZSPM4011B integrates a wide range of protection circuitry, including input supply under-voltage lockout, output voltage soft start, current limit, VOUT over-voltage, and thermal shutdown. The ZSPM4011B includes supervisory reporting through the PG (Power Good) open drain output to interface other components in the system.

Features Output voltage options (depends on order code):

Fixed output voltages: 1.5V, 1.8V, 2.5V, 3.3V, or 5V with +/- 2% output tolerance

Adjustable output voltage range: 0.9V to 5.5V with +/- 1.5% reference

Wide input voltage range: 4.5V to 24V 1MHz +/- 10% fixed switching frequency 1A continuous output current High efficiency – up to 95% Current mode PWM control with pulse-

frequency modulation (PFM) mode for improved light load efficiency

Voltage supervisor for VOUT reported at the PG pin

Input supply under voltage lockout Soft start for controlled startup with no

overshoot Full protection for over-current, over-

temperature, and VOUT over-voltage Less than 10µA in Disabled Mode Low external component count

Benefits Increased battery life Minimal external component count

(3 capacitors, 1 inductor) Inherent fault protection and reporting

Available Support Evaluation Kit Documentation

Physical Characteristics Junction operating temperature -40°C to 125°C Packaged in a 16pin QFN (3x3mm)

Related ZMDI Products ZSPM4012B/ZSPM4013B: 2A/3A synchronous

buck converters, available with adjustable out-put from 0.9 to 5.5V or fixed output voltages at 1.5V, 1.8V, 2.5V, 3.3V, 5.0V (16-pin 3x3 QFN)

ZSPM1000: >5A single-phase, single-rail, true digital PWM controller (24-lead 4x4mm QFN)

ZSPM4011B Application Circuits

ZSPM

4011

B

VOUT

Adjustable Output

PG

ND

VSW

VCC

FB

GN

D

BSTVCC

PG PG

RTOP

RBOT

10 kΩ(optional)

VOUT

ENEN

CBYPASS LOUT

COUT

CBST

ZSPM

4011

B VOUT

Fixed Output

EN

PGN

D

VSW

VCC

FB

GN

D

VCC

EN

PG PG

10kΩ(optional)

VOUT

BST

CBYPASS

CBST

COUT

LOUT




© 2014 Zentrum Mikroelektronik Dresden AG — Rev.1.20— February 13, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.


Wireless access points, cable modems

Set-top boxes DVD, LCD, LED supplies Portable products, including

GPS, smart phones, tablet PCs

Printers

VCC

Over CurrentProtection

GateDrive

GateDrive

BootstrapVoltage

VCC

Gate DriveControl

FB

VSW

Vref&

Soft Start

Oscillator

RampGenerator

ComparatorError Amp

GND

Under-VoltageProtectionMONITOR

&CONTROL

ThermalProtection


VCC

FB

VCC

VCC

BST

EN

PGND

PG

PFM ModeComparator

Vref

4.2V

CompensationNetwork

High-Side Switch

Low-Side Switch

ZSPM4011B Block Diagram


Ordering Code Description Package ZSPM4011BA1W00 1A Synchronous Buck Converter: adjustable output, 0.9V to 5.5V, 16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4011BA1W15 1A Synchronous Buck Converter: fixed output, 1.5V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4011BA1W18 1A Synchronous Buck Converter: fixed output, 1.8V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4011BA1W25 1A Synchronous Buck Converter: fixed output, 2.5V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4011BA1W33 1A Synchronous Buck Converter: fixed output, 3.3V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4011BA1W50 1A Synchronous Buck Converter: fixed output, 5.0V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4011BKIT ZSPM4011BKIT, Evaluation Kit for 1A Synchronous Buck Converter Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





© 2014 Zentrum Mikroelektronik Dresden AG — Rev.1.20— February 13, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.





Printers

VCC


GateDrive

GateDrive

BootstrapVoltage

VCC

Gate DriveControl

FB

VSW

Vref&

Soft Start

Oscillator

RampGenerator

ComparatorError Amp

GND


&CONTROL

ThermalProtection


VCC

FB

VCC

VCC

BST

EN

PGND

PG

PFM ModeComparator

Vref

4.2V

CompensationNetwork

High-Side Switch

Low-Side Switch



Ordering Code Description Package ZSPM4011BA1W00 1A Synchronous Buck Converter: adjustable output, 0.9V to 5.5V, 16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4011BA1W15 1A Synchronous Buck Converter: fixed output, 1.5V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4011BA1W18 1A Synchronous Buck Converter: fixed output, 1.8V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4011BA1W25 1A Synchronous Buck Converter: fixed output, 2.5V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4011BA1W33 1A Synchronous Buck Converter: fixed output, 3.3V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4011BA1W50 1A Synchronous Buck Converter: fixed output, 5.0V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4011BKIT ZSPM4011BKIT, Evaluation Kit for 1A Synchronous Buck Converter Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199






© 2014 Zentrum Mikroelektronik Dresden AG — Rev.1.20 — February 18, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


Brief Description The ZSPM4012B is a DC/DC synchronous switching regulator with fully integrated power switches, internal compensation, and full fault protection. The 1MHz switching frequency enables using small filter components, resulting in reduced board space and reduced bill-of-materials costs. The ZSPM4012B utilizes current mode feedback in normal regulation pulse-width modulation (PWM) mode. When the regulator is disabled (EN pin is low), the ZSPM4012B draws less than 10µA quies-cent current. The ZSPM4012B integrates a wide range of protection circuitry, including input supply under-voltage lockout, output voltage soft start, current limit, VOUT over-voltage, and thermal shutdown. The ZSPM4012B includes supervisory reporting through the PG (Power Good) open drain output to interface other components in the system.







Input supply under voltage lockout Soft start for controlled startup with no






Physical Characteristics Junction operating temperature -40°C to 125°C Packaged in a 16pin QFN (3x3mm)


buck converters, available with adjustable out-put from 0.9 to 5.5V or fixed output voltages at 1.5V, 1.8V, 2.5V, 3.3V, 5.0V (16-lead 3x3mm QFN)

ZSPM1000: >5A single-phase, single-rail, true digital PWM controller (24-pin 4x4mm QFN)


ZSPM

4012

B

VOUT

Adjustable Output

PG

ND

VSW

VCC

FB

GN

D

BSTVCC

PG PG

RTOP

RBOT

10 kΩ(optional)

VOUT

ENEN

CBYPASS LOUT

COUT

CBST

ZSPM

4012

B VOUT

Fixed Output

EN

PGN

D

VSW

VCC

FB

GN

D

VCC

EN

PG PG

10kΩ(optional)

VOUT

BST

CBYPASS

CBST

COUT

LOUT




© 2014 Zentrum Mikroelektronik Dresden AG — Rev.1.20 — February 18, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.





Printers

VCC


GateDrive

GateDrive

BootstrapVoltage

VCC

Gate DriveControl

FB

VSW

Vref&

Soft Start

Oscillator

RampGenerator

ComparatorError Amp

GND


&CONTROL

ThermalProtection


VCC

FB

VCC

VCC

BST

EN

PGND

PG

PFM ModeComparator

Vref

4.2V

CompensationNetwork

High-Side Switch

Low-Side Switch


Ordering Information Ordering Code Description Package ZSPM4012BA1W00 2A Synchronous Buck Converter: adjustable output, 0.9V to 5.5V, 16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4012BA1W15 2A Synchronous Buck Converter: fixed output, 1.5V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4012BA1W18 2A Synchronous Buck Converter: fixed output, 1.8V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4012BA1W25 2A Synchronous Buck Converter: fixed output, 2.5V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4012BA1W33 2A Synchronous Buck Converter: fixed output, 3.3V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4012BA1W50 2A Synchronous Buck Converter: fixed output, 5.0V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4012BKIT ZSPM4012B Evaluation Kit for 2A Synchronous Buck Converter Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





© 2014 Zentrum Mikroelektronik Dresden AG — Rev.1.20 — February 18, 2014 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.





Printers

VCC


GateDrive

GateDrive

BootstrapVoltage

VCC

Gate DriveControl

FB

VSW

Vref&

Soft Start

Oscillator

RampGenerator

ComparatorError Amp

GND


&CONTROL

ThermalProtection


VCC

FB

VCC

VCC

BST

EN

PGND

PG

PFM ModeComparator

Vref

4.2V

CompensationNetwork

High-Side Switch

Low-Side Switch


Ordering Information Ordering Code Description Package ZSPM4012BA1W00 2A Synchronous Buck Converter: adjustable output, 0.9V to 5.5V, 16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4012BA1W15 2A Synchronous Buck Converter: fixed output, 1.5V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4012BA1W18 2A Synchronous Buck Converter: fixed output, 1.8V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4012BA1W25 2A Synchronous Buck Converter: fixed output, 2.5V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4012BA1W33 2A Synchronous Buck Converter: fixed output, 3.3V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4012BA1W50 2A Synchronous Buck Converter: fixed output, 5.0V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4012BKIT ZSPM4012B Evaluation Kit for 2A Synchronous Buck Converter Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199






© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.20 — February 18, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


Brief Description The ZSPM4013B is a DC/DC synchronous switching regulator with fully integrated power switches, internal compensation, and full fault protection. The 1MHz switching frequency enables using small filter components, resulting in reduced board space and reduced bill-of-materials costs. The ZSPM4013B utilizes current mode feedback in normal regulation pulse-width modulation (PWM) mode. When the regulator is disabled (EN pin is low), the ZSPM4013B draws less than 10µA quies-cent current. The ZSPM4013B integrates a wide range of protection circuitry, including input supply under-voltage lockout, output voltage soft start, current limit, VOUT over-voltage, and thermal shutdown. The ZSPM4013B includes supervisory reporting through the PG (Power Good) open-drain output to interface other components in the system.







Input supply under-voltage lockout Soft start for controlled startup with no






Physical Characteristics Junction operating temperature: -40°C to 125°C Packaged in a 16-pin QFN (3x3mm)





ZSPM

4013

B

VOUT

Adjustable Output

PG

ND

VSW

VCC

FB

GN

D

BSTVCC

PG PG

RTOP

RBOT

10 kΩ(optional)

VOUT

ENEN

CBYPASS LOUT

COUT

CBST

ZSPM

4013

B VOUT

Fixed Output

EN

PGN

D

VSW

VCC

FB

GN

D

VCC

EN

PG PG

10kΩ(optional)

VOUT

BST

CBYPASS

CBST

COUT

LOUT



© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.20 — February 18, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


Brief Description The ZSPM4013B is a DC/DC synchronous switching regulator with fully integrated power switches, internal compensation, and full fault protection. The 1MHz switching frequency enables using small filter components, resulting in reduced board space and reduced bill-of-materials costs. The ZSPM4013B utilizes current mode feedback in normal regulation pulse-width modulation (PWM) mode. When the regulator is disabled (EN pin is low), the ZSPM4013B draws less than 10µA quies-cent current. The ZSPM4013B integrates a wide range of protection circuitry, including input supply under-voltage lockout, output voltage soft start, current limit, VOUT over-voltage, and thermal shutdown. The ZSPM4013B includes supervisory reporting through the PG (Power Good) open-drain output to interface other components in the system.







Input supply under-voltage lockout Soft start for controlled startup with no






Physical Characteristics Junction operating temperature: -40°C to 125°C Packaged in a 16-pin QFN (3x3mm)





ZSPM

4013

B

VOUT

Adjustable Output

PG

ND

VSW

VCC

FB

GN

D

BSTVCC

PG PG

RTOP

RBOT

10 kΩ(optional)

VOUT

ENEN

CBYPASS LOUT

COUT

CBST

ZSPM

4013

B VOUT

Fixed Output

EN

PGN

D

VSW

VCC

FB

GN

D

VCC

EN

PG PG

10kΩ(optional)

VOUT

BST

CBYPASS

CBST

COUT

LOUT



© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.20 — February 18, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.





Printers

VCC


GateDrive

GateDrive

BootstrapVoltage

VCC

Gate DriveControl

FB

VSW

Vref&

Soft Start

Oscillator

RampGenerator

ComparatorError Amp

GND


&CONTROL

ThermalProtection


VCC

FB

VCC

VCC

BST

EN

PGND

PG

PFM ModeComparator

Vref

4.2V

CompensationNetwork

High-Side Switch

Low-Side Switch


Ordering Information Ordering Code Description Package ZSPM4013BA1W00 3A Synchronous Buck Converter: adjustable output, 0.9V to 5.5V, 16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4013BA1W15 3A Synchronous Buck Converter: fixed output, 1.5V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4013BA1W18 3A Synchronous Buck Converter: fixed output, 1.8V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4013BA1W25 3A Synchronous Buck Converter: fixed output, 2.5V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4013BA1W33 3A Synchronous Buck Converter: fixed output, 3.3V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4013BA1W50 3A Synchronous Buck Converter: fixed output, 5.0V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4013BKIT ZSPM4013BKIT, Evaluation Kit for 3A Synchronous Buck Converter Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





© 2014 Zentrum Mikroelektronik Dresden AG — Rev. 1.20 — February 18, 2014. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.





Printers

VCC


GateDrive

GateDrive

BootstrapVoltage

VCC

Gate DriveControl

FB

VSW

Vref&

Soft Start

Oscillator

RampGenerator

ComparatorError Amp

GND


&CONTROL

ThermalProtection


VCC

FB

VCC

VCC

BST

EN

PGND

PG

PFM ModeComparator

Vref

4.2V

CompensationNetwork

High-Side Switch

Low-Side Switch


Ordering Information Ordering Code Description Package ZSPM4013BA1W00 3A Synchronous Buck Converter: adjustable output, 0.9V to 5.5V, 16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4013BA1W15 3A Synchronous Buck Converter: fixed output, 1.5V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4013BA1W18 3A Synchronous Buck Converter: fixed output, 1.8V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4013BA1W25 3A Synchronous Buck Converter: fixed output, 2.5V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4013BA1W33 3A Synchronous Buck Converter: fixed output, 3.3V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4013BA1W50 3A Synchronous Buck Converter: fixed output, 5.0V,16-pin 3x3mm QFN 7” reel with 1000 ICs ZSPM4013BKIT ZSPM4013BKIT, Evaluation Kit for 3A Synchronous Buck Converter Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





ZSPM4023/ZSPM4022 24V/12V Synchronous DC/DC Buck Regulator




Brief Description The ZSPM4023 and ZSPM4022 product families are constant-frequency, synchronous DC/DC buck regu-lators featuring adaptive on-time control architecture. The output voltage is adjustable down to 0.8V. The ZSPM4023 family operates over a supply range of 4.5V to 28V (24V typical). The supply range for the ZSPM4022 family is 4.5V to 19V (12V typical). Both families have an internal linear regulator that provides a regulated 5V to power the internal control circuitry. They operate at a constant 600kHz switching frequency in continuous-conduction mode. Each IC family includes three product versions that support different maximum load capabilities: 6A, 9A, and 12A. Under medium to heavy loads, the ZSPM4023 and ZSPM4022 provide high efficiency and ultra-fast transient response via their rapid-control architec-ture. Under light load conditions, they maintain high efficiency and a superior transient response by tran-sitioning to variable-frequency, discontinuous mode operation with their ultra-light-load architecture. Both families offer a full suite of protection features to ensure protection of the IC during fault conditions. These include under-voltage lockout to ensure proper operation under power-sag conditions; thermal shutdown; internal soft-start to reduce inrush current; foldback current limiting; and “hiccup” mode short-circuit protection. A power good (PG) output pin is provided to allow simple sequencing.

Pin Configuration

Benefits Ultra-light load efficiency – up to 80% at 10mA Up to 95% efficiency Feedback reference accuracy as high as ±1%

Features Rapid-control architecture enables operation with

a high input/output voltage ratio (e.g., for the ZSPM4023, VIN = 28V and VOUT = 0.8V) and a small output capacitance

Adjustable output voltage from 0.8V to 5.5V Universally compatible with most output

capacitors – stable with zero to high ESR Power good (PG) output Foldback current limiting and “hiccup” mode

short-circuit protection Safe start-up into pre-biased loads

Available Support Evaluation Kit Support documentation

Physical Characteristics Switching frequency: 600kHz Junction temperature: –40C to +125C 28-pin QFN package (5mm 6mm)

VIN 12A 9A 6A

4.5V to 19V ZSPM4022-12 ZSPM4022-09 ZSPM4022-06

4.5V to 28V ZSPM4023-12 ZSPM4023-09 ZSPM4023-06

Example Application Circuit: ZSPM4023-12




Typical Applications Servers, workstations

Routers, switches, and telecommunication equipment

Base stations STB, high-end consumer

electronics Distributed point-of-load

ZSPM4023/ZSPM4022 Functional Diagram

Ordering Information Sales Code Description Package ZSPM4022AA1W06 ZSPM4022-06, QFN28 5mmx6mm, 6A max. — Temperature range: –40C to +125C 7” Reel with 1000 ICs

ZSPM4022AA1W09 ZSPM4022-09, QFN28 5mmx6mm, 9A max. — Temperature range: –40C to +125C 7” Reel with 1000 ICs




ZSPM4023AA1W12 ZSPM4023-12, QFN28 5mmx6mm, 12A max.— Temperature range: –40C to +125C 7” Reel with 1000 ICs

ZSPM402x-yy-KIT Evaluation Kit, including ZSPM402x-yy Evaluation Board (substitute product number for ZSPM402x-yy when ordering; e.g., ZSPM4022-06-KIT)

Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199






Typical Applications Servers, workstations

Routers, switches, and telecommunication equipment

Base stations STB, high-end consumer

electronics Distributed point-of-load

ZSPM4023/ZSPM4022 Functional Diagram

Ordering Information Sales Code Description Package ZSPM4022AA1W06 ZSPM4022-06, QFN28 5mmx6mm, 6A max. — Temperature range: –40C to +125C 7” Reel with 1000 ICs





ZSPM4023AA1W12 ZSPM4023-12, QFN28 5mmx6mm, 12A max.— Temperature range: –40C to +125C 7” Reel with 1000 ICs

ZSPM402x-yy-KIT Evaluation Kit, including ZSPM402x-yy Evaluation Board (substitute product number for ZSPM402x-yy when ordering; e.g., ZSPM4022-06-KIT)

Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199





ZSPM9000 Ultra-Compact, High-Performance DrMOS Device


© 2013 Zentrum Mikroelektronik Dresden AG — Rev.1.03 — March 8, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

Brief Description The ZSPM9000 DrMOS is a fully optimized, ultra-compact, integrated MOSFET plus driver power-stage solution for high-current, high-frequency, synchronous buck DC-DC applications. The device incorporates a driver IC, two power MOSFETs, and a bootstrap Schottky diode in a thermally enhanced, ultra-compact 6mmx6mm PQFN40 package. With an integrated approach, the ZSPM9000’s com-plete switching power stage is optimized for driver and MOSFET dynamic performance, system induc-tance, and power MOSFET RDS(ON). It uses innova-tive high-performance MOSFET technology, which dramatically reduces switch ringing, eliminating the snubber circuit in most buck converter applications. An innovative driver IC with reduced dead times and propagation delays further enhances performance. An internal 12V to 5V linear regulator enables the ZSPM9000 to operate from a single 12V supply. A thermal warning function (THWN) warns of potential over-temperature situations. The ZSPM9000 also incorporates features such as Skip Mode (SMOD) for improved light-load efficiency and a tri-state 3.3V pulse-width modulation (PWM) input for compatibility with a wide range of PWM controllers. The ZSPM9000 DrMOS is ideally compatible with ZMDI’s ZSPM1000, a leading-edge configurable dig-ital power-management system controller for non-isolated point-of-load (POL) supplies.

Features Based on the Intel® 4.0 DrMOS standard Internal 12V to 5V linear regulator (LDO) High-current handling: up to 50A High-performance copper-clip package Tri-state 3.3V PWM input driver Skip Mode (low-side gate turn off) input (SMOD#) Warning flag for over-temperature conditions Driver output disable function (DISB# pin) Internal pull-up and pull-down for SMOD# and

DISB# inputs, respectively Integrated Schottky diode technology in the

low-side MOSFET Integrated bootstrap Schottky diode Adaptive gate drive timing for shoot-through

protection Under-voltage lockout (UVLO) Optimized for switching frequencies up to 1MHz

Benefits Fully optimized system efficiency: >93% peak Clean switching waveforms with minimal ringing 72% space-saving compared to conventional

discrete solutions Ideally compatible with ZMDI’s ZSPM1000 true

digital PWM controller

Available Support ZSPM8000-KIT: Closed Loop Evaluation Kit

combined for the ZSPM9000 and ZSPM1000

Physical Characteristics Operation temperature: -40°C to +125°C VIN: 8V to 15V (typical 12V) IOUT: 40A (average), 50A (maximum) Low-profile SMD package: 6mmx6mm PQFN40 ZMDI green packaging and RoHS compliant

Typical Application




© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.03 — March 8, 2013 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.


Telecom switches Servers and storage Desktop computers Workstations High-performance

gaming motherboards Base stations Network routers Industrial applications

VDRV

VCIN

GH

DBoot

GL

VCIN

5VLDO

TempSense

30k

30k

GLLogic

10µA

10µA

DISB#

PWM

THWN#

VCIN

VINUVLO

VCCUVLO

CGND SMOD# PGND

PHASE

VINBOOT

VCIN

RUP_PWM

R DN_PWM

(Q1)HS PowerMOSFET

(Q2)LS PowerMOSFET

GHLogic

Level Shift

Dead TimeControl

VSWH

GL

GH

InputTri-State

Logic



ZSPM9000AI1R ZSPM9000 Lead-free PQFN40 — Temperature range: -40°C to +125°C Reel

ZSPM8000-KIT Integrated Evaluation Kit for ZSPM9000 and ZSPM1000 Kit



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199






ZSPM9010 Ultra-Compact, High-Performance, High-Frequency DrMOS

© 2013 Zentrum Mikroelektronik Dresden AG — Rev.1.04— March 8, 2013 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

Brief Description The ZSPM9010 DrMOS is a fully optimized, ultra-compact, integrated MOSFET plus driver power stage solution for high-current, high-frequency, syn-chronous buck DC-DC applications. The ZSPM9010 incorporates a driver IC, two power MOSFETs, and a bootstrap Schottky diode in a thermally enhanced, ultra-compact PQFN40 package (6mmx6mm). With an integrated approach, the ZSPM9010’s com-plete switching power stage is optimized for driver and MOSFET dynamic performance, system induc-tance, and power MOSFET RDS(ON). It uses innova-tive high-performance MOSFET technology, which dramatically reduces switch ringing, eliminating the snubber circuit in most buck converter applications. An innovative driver IC with reduced dead times and propagation delays further enhances performance. A thermal warning function (THWN) warns of potential over-temperature situations. The ZSPM9010 also incorporates features such as Skip Mode (SMOD) for improved light-load efficiency with a tri-state 3.3V pulse-width modulation (PWM) input for compatibility with a wide range of PWM controllers. The ZSPM9010 DrMOS is compatible with ZMDI’s ZSPM1000, a leading-edge configurable digital power-management system controller for non-isolated point-of-load (POL) supplies.


discrete solutions Optimized for use with ZMDI’s ZSPM1000 true


Features Based on the Intel® 4.0 DrMOS standard High-current handling: up to 50A High-performance copper-clip package Tri-state 3.3V PWM input driver Skip Mode (low-side gate turn-off) input (SMOD#) Warning flag for over-temperature conditions Driver output disable function (DISB# pin) Internal pull-up and pull-down for SMOD# and




Available Support ZSPM8010-KIT: Open-Loop Evaluation Board for

ZSPM9010


Typical Application

ZSPM9010 Ultra-Compact, High-Performance, High-Frequency DrMOS Device



© 2013 Zentrum Mikroelektronik Dresden AG — Rev.1.04— March 8, 2013 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.

Brief Description The ZSPM9010 DrMOS is a fully optimized, ultra-compact, integrated MOSFET plus driver power stage solution for high-current, high-frequency, syn-chronous buck DC-DC applications. The ZSPM9010 incorporates a driver IC, two power MOSFETs, and a bootstrap Schottky diode in a thermally enhanced, ultra-compact PQFN40 package (6mmx6mm). With an integrated approach, the ZSPM9010’s com-plete switching power stage is optimized for driver and MOSFET dynamic performance, system induc-tance, and power MOSFET RDS(ON). It uses innova-tive high-performance MOSFET technology, which dramatically reduces switch ringing, eliminating the snubber circuit in most buck converter applications. An innovative driver IC with reduced dead times and propagation delays further enhances performance. A thermal warning function (THWN) warns of potential over-temperature situations. The ZSPM9010 also incorporates features such as Skip Mode (SMOD) for improved light-load efficiency with a tri-state 3.3V pulse-width modulation (PWM) input for compatibility with a wide range of PWM controllers. The ZSPM9010 DrMOS is compatible with ZMDI’s ZSPM1000, a leading-edge configurable digital power-management system controller for non-isolated point-of-load (POL) supplies.


discrete solutions Optimized for use with ZMDI’s ZSPM1000 true


Features Based on the Intel® 4.0 DrMOS standard High-current handling: up to 50A High-performance copper-clip package Tri-state 3.3V PWM input driver Skip Mode (low-side gate turn-off) input (SMOD#) Warning flag for over-temperature conditions Driver output disable function (DISB# pin) Internal pull-up and pull-down for SMOD# and




Available Support ZSPM8010-KIT: Open-Loop Evaluation Board for

ZSPM9010


Typical Application




Typical Applications Telecom switches Servers and storage Desktop computers Workstations High-performance


VDRV

VDRV

GH

DBoot

GL

VCIN

TempSense

30k

30k

GLLogic

10µA

10µA

DISB#

PWM

THWN#

CGND SMOD# PGND

PHASE

VINBOOT

VCIN

RUP_PWM

R DN_PWM

(Q1)HS PowerMOSFET

(Q2)LS PowerMOSFET

GHLogic

Level Shift

Dead TimeControl

VSWH

GL

GH

InputTri-State

Logic

VCIN UVLO



ZSPM9010ZA1R ZSPM9010 Lead-Free PQFN40 — Temperature range: -40°C to +125°C Reel

ZSPM8010-KIT Open-Loop Evaluation Board for ZSPM9010 Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199






Typical Applications Telecom switches Servers and storage Desktop computers Workstations High-performance


VDRV

VDRV

GH

DBoot

GL

VCIN

TempSense

30k

30k

GLLogic

10µA

10µA

DISB#

PWM

THWN#

CGND SMOD# PGND

PHASE

VINBOOT

VCIN

RUP_PWM

R DN_PWM

(Q1)HS PowerMOSFET

(Q2)LS PowerMOSFET

GHLogic

Level Shift

Dead TimeControl

VSWH

GL

GH

InputTri-State

Logic

VCIN UVLO



ZSPM9010ZA1R ZSPM9010 Lead-Free PQFN40 — Temperature range: -40°C to +125°C Reel

ZSPM8010-KIT Open-Loop Evaluation Board for ZSPM9010 Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199








Brief Description The ZSPM9015 is ZMDI’s next-generation, fully optimized, ultra-compact, integrated MOSFET plus driver power stage solution for high-current, high-frequency, synchronous buck DC-DC applications. The ZSPM9015 integrates a driver IC, two power MOSFETs, and a bootstrap Schottky diode into a thermally enhanced, ultra-compact 6x6mm package. With an integrated approach, the complete switching power stage is optimized with regard to driver and MOSFET dynamic performance, system inductance, and power MOSFET RDS(ON). The ZSPM9015 uses innovative high-performance MOSFET technology, which dramatically reduces switch ringing, eliminat-ing the need for a snubber circuit in most buck converter applications. A driver IC with reduced dead times and propagation delays further enhances the performance. A thermal warning function indicates if a potential over-temper-ature situation (>150°C) has occurred. An automatic thermal shutdown activates if an over-temperature condition (>180°C) is detected. The ZSPM9015 also incorporates a Zero Current Detection Mode (ZCD) for improved light-load efficiency and provides a tri-state 3.3V and 5V PWM input for compatibility with a wide range of PWM controllers. The ZSPM9015 DrMOS is compatible with ZMDI’s ZSPM1000, a leading-edge configurable digital power-management system controller designed for non-isolated point-of-load (POL) supplies.

Features High-current handling: up to 35A PWM input capable of 3.3V and 5V Optimized for switching frequencies up to 1MHz Zero-current detection and under-voltage lockout

(UVLO) Thermal shutdown and warning flag for over-

temperature conditions Driver output disable function (DISB# pin) Integrated Schottky diode technology in the


protection

Benefits Improved efficiency with zero current detection Clean switching waveforms with minimal ringing Based on the Intel® 4.0 DrMOS standard 72% space-saving compared to conventional

discrete solutions High current handling Optimized for use with ZMDI’s ZSPM1000 true


Available Support ZSPM8015-KIT: Evaluation Kit for ZSPM9015

Physical Characteristics Operation temperature: 0°C to +150°C VIN: 4.5V to 25V (typical 12V) IOUT: up to 35A Low-profile SMD package: 6mmx6mm QFN40 ZMDI green packaging and RoHS compliant

Typical Application





Typical Applications High-performance gaming

motherboards Compact blade servers,

Vcore and non-Vcore DC-DC converters

Desktop computers, Vcore and Non-Vcore DC-DC converters

Workstations High-current DC-DC

point-of-load converters Networking and telecom

microprocessor voltage regulators

Small form-factor voltage regulator modules

VCIN

GH

DBoot

GL

ThermalWarning

GLLogic

PWM

THWN#

PGND

PHASE

VINBOOT

(Q1)HS PowerMOSFET

(Q2)LS PowerMOSFET

GHLogic

Level Shift

Anti-CrossConduction

VSWH

GL

GHLOGIC

VCIN

DISB#

ZCD_EN#

ThermalShutdown

UVLO

CGND

ZSPM9015



ZSPM9015ZI1R ZSPM9015 RoHS-Compliant QFN40 – Junction temperature range: 0°C to 150°C Reel

ZSPM8015-KIT Evaluation Kit for ZSPM9015 Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199










Workstations High-current DC-DC

point-of-load converters Networking and telecom



VCIN

GH

DBoot

GL

ThermalWarning

GLLogic

PWM

THWN#

PGND

PHASE

VINBOOT

(Q1)HS PowerMOSFET

(Q2)LS PowerMOSFET

GHLogic

Level Shift

Anti-CrossConduction

VSWH

GL

GHLOGIC

VCIN

DISB#

ZCD_EN#

ThermalShutdown

UVLO

CGND

ZSPM9015



ZSPM9015ZI1R ZSPM9015 RoHS-Compliant QFN40 – Junction temperature range: 0°C to 150°C Reel

ZSPM8015-KIT Evaluation Kit for ZSPM9015 Kit



USA Phone 1.855.275.9634




Phone +1.408.883.6310 Fax +1.408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199






© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.01 — March 8, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The information furnished in this publication is subject to changes without notice.


Brief Description The ZSPM9060 is ZMDI’s next-generation, fully optimized, ultra-compact, integrated MOSFET plus driver power stage solution for high-current, high-frequency, synchronous buck DC-DC applications. The ZSPM9060 integrates a driver IC, two power MOSFETs, and a bootstrap Schottky diode into a thermally enhanced, ultra-compact 6x6mm package. With an integrated approach, the complete switching power stage is optimized with regard to driver and MOSFET dynamic performance, system inductance, and power MOSFET RDS(ON). The ZSPM9060 uses innovative high-performance MOSFET technology, which dramatically reduces switch ringing, eliminating the need for a snubber circuit in most buck converter applications. A driver IC with reduced dead times and propagation delays further enhances the performance. A thermal warning function warns of a potential over-tempera-ture situation. The ZSPM9060 also provides a Skip Mode (SMOD#) for improved light-load efficiency. It also provides a tri-state 3.3V PWM input for compatibility with a wide range of PWM controllers. The ZSPM9060 DrMOS is compatible with ZMDI’s ZSPM1000, a leading-edge configurable digital power-management system controller for non-iso-lated point-of-load (POL) supplies.

Features Based on the Intel® 4.0 DrMOS standard High-current handling: up to 60A High-performance PQFN copper-clip package Tri-state 3.3V PWM input driver Skip Mode (low-side gate turn-off) input (SMOD#) Warning flag for over-temperature conditions Driver output disable function (DISB# pin) Internal pull-up and pull-down for SMOD# and



protection Under-voltage lockout (UVLO) Optimized for switching frequencies 1MHz


discrete solutions High current handling Optimized for use with ZMDI’s ZSPM1000 true


Available Support ZSPM8060-KIT: Open-Loop Evaluation Board

for ZSPM9060

Physical Characteristics Operation temperature: -40°C to +125°C VIN: 3V to 16V (typical 12V) IOUT: up to 60A Low-profile SMD package: 6mmx6mm PQFN40 ZMDI green packaging and RoHS compliant

Typical Application




© 2013 Zentrum Mikroelektronik Dresden AG — Rev. 1.01 — March 8, 2013. All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.





Workstations High-current DC-DC point-

of-load converters Networking and telecom



VDRV

VDRV

GH

DBoot

GL

VCIN

TempSense

30k

30k

GLLogic

10µA

10µA

DISB#

PWM

THWN#

CGND SMOD# PGND

PHASE

VINBOOT

VCIN

RUP_PWM

R DN_PWM

(Q1)HS PowerMOSFET

(Q2)LS PowerMOSFET

GHLogic

Level Shift

Dead TimeControl

VSWH

GL

GH

InputTri-State

Logic

VCIN UVLO



ZSPM9060ZA1R ZSPM9060 RoHS-Compliant Clip-Bond PQFN40 - Temperature range: -40 to +125 °C Reel

ZSPM8060-KIT Open-Loop Evaluation Board for ZSPM9060 Circuit Board



USA Phone +855.275.9634




Phone +408.883.6310 Fax +408.883.6358

Phone +81.3.6895.7410 Fax +81.3.6895.7301

Phone +886.2.2377.8189 Fax +886.2.2377.8199




Zentrum Mikroelektronik Dresden AG

Zentrum MikroelektronikDresden AG, Japan Office2nd Fl., Shinbashi Tokyu Bldg.,4-21-3, Shinbashi, Minato-ku,Tokyo, 105-0004 Japan

Phone +81.3.6895.7410Fax +81.3.6895.7301

ZMD America, Inc.1525 McCarthy Blvd., #212Milpitas, CA 95035-7453USA

Phone 1.855.275.9634 (USA)Phone +408.883.6310Fax +408.883.6358

ZMD Far East, Ltd.3F, No. 51, Sec. 2,Keelung Road 11052 TaipeiTaiwan

Phone +886.2.2377.8189Fax +886.2.2377.8199

Zentrum Mikroelektronik Dresden AG,Korea Office Unit B, 906-1, U-Space 1 Building660, Daewangpangyo-ro,Bundang-gu, Seongnam-si,Gyeonggi-do, 463-400KOREA

Phone +82.31.950.7679 Fax +82.504.841.3026

Zentrum Mikroelektronik Dresden AG Global Headquarters Grenzstrasse 28 01109 Dresden Germany

Central Office:Phone +49.351.8822.306Fax +49.351.8822.337

European Technical SupportPhone +49.351.8822.7.772Fax +49.351.8822.87.772


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