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Digital Process Indicator Model 9162-VXXXX

© 2008 burster präzisionsmeßtechnik gmbh & co kg All rights reserved Edition 08.04.2008

Note: The following information may be amended without prior notice. No part of this document may be reproduced or processed using electronic systems without prior consent in writing. burster provides no warranty of any kind with respect to this material, including the implied warranty of merchantable quality and fitness for purpose. burster is not liable under any circumstances for errors, incidental damage or consequential loss sustained in connection with the function or use of this material.

Manufacturer: burster präzisionsmeßtechnik gmbh & co kg Talstrasse 1 - 5 P.O.Box 1432 76593 Gernsbach 76587 Gernsbach

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1 • INSTALLATION................................................................................................................................................................................... 4 2 • TECHNICAL DATA............................................................................................................................................................................. 4 3 • CONTROLS AND INDICATORS....................................................................................................................................................... 5

DESCRIPTION OF FUNCTION BUTTONS AND SETTING THE LIMITS .........................................................................................................5 4 • TERMINAL CONNECTIONS............................................................................................................................................................. 5

0-20 MA / 4-20 MA SIGNAL CONNECTION ......................................................................................................................................5 2-LINE 0..20 MA / 4..20 MA SIGNAL CONNECTION............................................................................................................................6 4-LINE 0..20 MA / 4..20 MA SIGNAL CONNECTION............................................................................................................................6 POTENTIOMETER CONNECTION ...................................................................................................................................................6 0..10 V DC SIGNAL CONNECTION ................................................................................................................................................7 0..1 V DC SIGNAL CONNECTION ..................................................................................................................................................7 0..10 V TRANSMITTER SIGNAL CONNECTION, TRANSMITTER SUPPLIED BY THE 9162...............................................................................7 CONNECTION OF A STRAIN-GAGE SENSOR WITH MONITORING OF SENSOR SUPPLY VOLTAGE ....................................................................8 CONNECTION OF A STRAIN-GAGE SENSOR WITH AND WITHOUT SHUNT RESISTOR, OR INPUT SIGNAL: 0-50 MV, 0-60 MV AND 0-100 MV...........8 SYMMETRICAL ANALOG OUTPUT VOLTAGE .....................................................................................................................................8

5 • HARDWARE CONFIGURATION...................................................................................................................................................... 9 POSITION OF JUMPERS ON THE CPU BOARD, COMPONENT SIDE.........................................................................................................9 POSITION OF SOLDER BRIDGES ON THE CPU BOARD, SOLDER SIDE ....................................................................................................9 POSITION OF JUMPERS ON THE PSU BOARD, COMPONENT SIDE ............................................................................................9 HARDWARE CONFIGURATION OF SENSOR SUPPLY .........................................................................................................................10 HARDWARE CONFIGURATION OF RELAY SWITCHING DIRECTION ........................................................................................................10 HARDWARE CONFIGURATION OF THE INPUT SIGNALS .....................................................................................................................10 HARDWARE CONFIGURATION OF EXTERNAL SETPOINT ASSIGNMENT..................................................................................................10 HARDWARE CONFIGURATION OF THE DIGITAL INPUTS.....................................................................................................................10 HARDWARE CONFIGURATION OF THE SERIAL INTERFACE ................................................................................................................11

6 • PROGRAMMING............................................................................................................................................................................... 11 INFO MENU ..........................................................................................................................................................................12 CFG1 DEVICE ADDRESS, SWITCHING HYSTERESIS..............................................................................................................12 CFG2 - HARDWARE DEFINITIONS ......................................................................................................................................13 CFG3 MENU, MEASUREMENT PARAMETERS ................................................................................................................................15 CFG4 MENU, LINEARIZATION POINTS .........................................................................................................................................16

7 • CALIBRATION................................................................................................................................................................................... 17 CALIBRATION OF THE 0..50 MV-, 0..60 MV- OR 0..100 MV INPUT.....................................................................................................17 CALIBRATION OF THE 0..1 V INPUT.............................................................................................................................................17 CALIBRATION OF THE 0..10 V DC INPUT .....................................................................................................................................17 CALIBRATION OF THE 0..20 MA OR 4..20 MA INPUT.......................................................................................................................17 MANUAL CALIBRATION OF THE STRAIN-GAGE INPUT .......................................................................................................................18 CALIBRATION OF THE POTENTIOMETER INPUT...............................................................................................................................19 CALIBRATION OF EXTERNAL LIMIT ASSIGNMENT 1 .........................................................................................................................19 CALIBRATION OF EXTERNAL LIMIT ASSIGNMENT 2 .........................................................................................................................19 CALIBRATION OF THE ANALOG OUTPUT .......................................................................................................................................19

8 • ORDER CODES .................................................................................................................................................................................. 19 9 • ALARM FUNCTIONS........................................................................................................................................................................ 20 10 • CHECKING THE CALIBRATION ................................................................................................................................................ 21 11 • HOLD FUNCTION ........................................................................................................................................................................... 21 12 • FLASH FUNCTION.......................................................................................................................................................................... 21 13 • QUICK CALIBRATION .................................................................................................................................................................. 21 14 • SERIAL INTERFACE...................................................................................................................................................................... 21 15 • LOGIC OUTPUT .............................................................................................................................................................................. 21 16 • LOGIC INPUT .................................................................................................................................................................................. 22 17 • TECHNICAL APPENDIX, TABLE-TOP UNITS 9162-V2XXXX ............................................................................................... 22 18 • OPERATIONAL SAFETY INSTRUCTIONS................................................................................................................................ 23 19 • EXAMPLES FOR PROGRAMMING THE RS232 INTERFACE ............................................................................................... 24 20 • MEMORY ADDRESSES.................................................................................................................................................................. 25 21 • CONNECTION TO THE PC ........................................................................................................................................................... 27 22 • USING THE “BURSTER 9162-P001” TERMINAL SIMULATION SOFTWARE.................................................................... 27 • READING THE SETTINGS 9162 AND EXAMPLE CALIBRATION FOR A STRAIN-GAGE FORCE .............................. 28 • CONFIGURATION DATA LIST .................................................................................................................................................... 28

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1 • INSTALLATION

Dimensions and cutout window; front panel mounting

Install in accordance with diagram Use the clips provided to fix the units in the panel cutouts. The windows must be cut to the size shown in the diagram.

Unit dimensions: 96 x 48 x 152 mm (W x H x D) Cutout window size: 92 x 45 mm (W x H)

CE marking: Electromagnetic compatibility as specified in Directive 89/336/EC with reference to the generic standard EN50082-2 (Interference immunity in an industrial environment) and EN50081-1 (Certification for residential use). Conformity with the BT (low voltage) Directive 73/23/EEC and its amendment by Directive 93/68. Technical support and maintenance: Repairs must be carried out by suitably qualified technical personnel. The unit must be disconnected from the power supply before carrying out any work inside the unit. burster's own Customer Service department can provide technical support. Faults that result from disregarding the operating manual are not covered by the warranty. CE conformity was tested under the following conditions:

Connection Conductor cross-section Conductor length Power supply lead 1 mm2 1 m Relay output lead 1 mm2 3.5 m Serial interface 0.35 mm2 3.5 m Sensor leads 0.8 mm2 5 m

2 • TECHNICAL DATA Display 5 digit (4 digit + fixed zero for x10 resolution), red LED Buttons 6 mechanical buttons, of which 3 programmable Strain gage main input 350 Ohm strain-gage bridge with a sensitivity of 1.5 / 2 /

2.5 / 3/ 3.3 mV/V, with positive, symmetrical and negative polarization.

Potentiometer main input R Potentiometer > 350 Ω Linear main input 0..50 mV, -25..25 mV, -50..0 mV, 0..60 mV,

-0..30 mV, 60..0 mV, 0..100 mV, -50..50 mV, -100..0 mV, 0..1 V, 500..500 mV, -1..0 V, 0..10 V, -5..5 V, -10..0 V, 0..20 mA, 4...20 mA

Sampling rate 2 msec Converter 12 bit / 10 µsec. Accuracy Better than 0.2% of defined limit of scale Digital inputs 24 V NPN, 4 mA

24 V PNP, 4 mA Function of digital inputs Tare, Reset limit-memory, Reset peak-value memory,

Calibration check, Enable external setpoint assignment, Freeze display, Freeze unit functionality

Secondary inputs 0..10 V DC, 0..20 mA, 4..20 mA, Function of secondary inputs External limit assignment Accuracy Better than 0.3 % of defined limit of scale Relay outputs Max. 3 relay outputs Load rating of relay outputs 5 A / 230 V for cos ϕ = 1

1.5 A / 230 V for cos ϕ = 0.2 Switching direction of relay outputs

NO or NC, configurable

Response time of relay outputs

2 msec

Logic outputs Maximum 3 outputs, 24 V DC / 15 mA Function of alarm outputs Alarm memory, Reset via keyboard or external

contacts, alarm-inhibit during Power ON phase Supply voltage for sensors 5 V DC, 10 V DC, 15 V DC, 200 mA in each case

24 V DC 100 mA Insulation up to 1500 V

Analog output (option) 0-10 V DC Rload ≥ 500 Ω 0..20 mA, 4..20 mA Rmax = 500 Ω Insulation up to 1500 V

Analog output resolution 12 bit Analog output response time 8 msec Function of analog output Forwarding process variables, peak values, local or

external setpoint values Accuracy Better than 0.2% of defined limit of scale Serial interface (option) CL, RS422/485, RS232

Insulation up to 1500 V Interface baud rate 1200, 2400, 4800, 9600, 19200 baud Protocol CENCAL or MODBUS RTU Power supply Switch-mode power supplies:

11 to 27 V AC/DC 100 to 240 V AC/DC (standard) Max. power consumption 12 VA

Front panel degree of protection

IP 54 (IP65 optional)

Operating temperature range 0 to 50 °C Storage temperature range -20 to 70 °C Relative air humidity 20 to 85 % rel. air humidity Installation Front panel mounting Dimensions 96 x 48 x 150 mm Weight 600 g

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3 • CONTROLS AND INDICATORS A- Function button B- UP button C- DOWN button D- "special functions" programmable button E- Calibration check / Reset button F- Memory recall button G- Actual-value display H- Status display for outputs I- Status LEDs : Memory (PEAK - LED) Calibration (CAL -LED) External assignments or interface enabled (REM-LED) Status of the 3rd output OUT3 (EXP-LED) J- Dimensional units label Dimensions: 96 x 48 x 152 1/8 DIN Display: red 5-digit LED display, height 14 mm Degree of protection: Front panel IP54; IP65 on request Temperature range: 0..50 °C Weight: approx. 600 g

Description of function buttons and setting the limits

Function buttons

A- " F " In measurement mode, this button is used to run the limit-setting functions for displaying and changing the OUT1, OUT2 and OUT3 limits. If a change is not confirmed by pressing the button, the value is saved automatically after 10 seconds. To access the Software, Calibration and Configuration levels, the button must be held down until the function appears on the display.

B- arrow This button is used to increment the values on the display. The longer the button is held pressed, the faster the values change in decade steps. Within a decade, the value can be changed in increments of one by a single touch of the button. The display stops when the maximum value is reached.

C- arrow This button is used to decrement the values on the display. The longer the button is held pressed, the faster the values change in decade steps. Within a decade, the value can be changed in decrements of one by pressing the button briefly. The display stops when the minimum value is reached.

Arrow + In the CFG and CAL level, the CFG and CAL short-code flashes alternately with a number.

D- “ * ” This button is used to run special functions. Pressing it once enables the function. Factory set to the TARE (zero display) function. CFG2 / Butt.3

E- "CAL/RST" This button is used to perform special functions. Pressing it once enables the function. Factory set to RST (clear memory value). CFG2 / Butt.2

F- "PEAK" This button is used to display the contents of the peak-value memory. Factory set to PEAK (peak value). The (PEAK) LED is on when the function is in use. CFG2 / Butt.1

4 • TERMINAL CONNECTIONS

0-20 mA / 4-20 mA signal connection

aux. power

Configuration of input signal: S1=ON, S3A=ON, S3B=ON, S3C=OFF Configuration of sensor supply: not required Relevant parameters: CFG3 In.tyP = 4, 5 or 6 CFG3 In.Cod = 5

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2-line 0..20 mA / 4..20 mA signal connection

* Please observe the notes on page 7 for connecting the shield

4-line 0..20 mA / 4..20 mA signal connection

* Please observe the notes on page 7 for connecting the shield

Potentiometer connection

* Please observe the notes on page 7 for connecting the shield

Configuration of input signal: S1=ON, S3A=ON, S3B=ON, S3C=OFF Configuration of sensor supply: 24 V DC (J24= ON, J5 = J10 = J15= OFF). Relevant parameters: CFG3 In.tyP = 0 CFG3 In.Cod = 16, 17 Calibration: CAL.SG procedure

Configuration of input signal: S1=ON, S3A=ON, S3B=ON, S3C=OFF Configuration of sensor supply: 24 V DC (J24= ON, J5 = J10 = J15 =OFF). Relevant parameters: CFG3 In.tyP = 0 CFG3 In.Cod = 16, 17 Calibration: CAL.SG, CAL.Au, CAL.80 procedure

Configuration of input signal: S1=OFF, S3A=OFF, S3B=OFF, S3C=OFF Configuration of sensor supply: 10 V DC (J10 ON, J5 = J15 = J24 OFF). Relevant parameters: CFG3 In.tyP = 4 CFG3 In.Cod = 7 Calibration: CAL.Po procedure

Power

Power

Power

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0..10 V DC signal connection

0..1 V DC signal connection

0..10 V transmitter signal connection, transmitter supplied by the 9162

* Please observe the notes on page 7 for connecting the shield

Configuration of input signal: S1=OFF, S3A=OFF, S3B=OFF, S3C=OFF Configuration of sensor supply: not required Relevant parameters: CFG3 In.Typ = 4 CFG3 In.Cod = 4 Calibration: CAL.L3 procedure

Configuration of input signal: S1=OFF, S3A=ON, S3B=ON, S3C=OFF Configuration of sensor voltage: not required Relevant parameters: CFG3 In.Typ = 4 CFG3 In.Cod = 3 Calibration: CAL.L2 procedure

Configuration of input signal: S1=OFF, S3A=OFF, S3B=OFF, S3C=OFF Configuration of sensor supply: 24 V DC (J24 ON, J5 = J10 = J15 OFF). Relevant parameters: CFG3 In.tyP = 0 CFG3 In.Cod = 15 Calibration: CAL.SG procedure

Power

Power

Power

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Connection of a strain-gage sensor with monitoring of sensor supply voltage

J

A

G C

F

H K

C A

H

K

A

C

J

G

F

Shield

CAL

CAL

- Supply

+ Supply

- Signal+Signal

cable color Pin-out for connector 9941 burster standard

brown

yellow

green

white

blue

Connection of a strain-gage sensor with and without shunt resistor, or input signal: 0-50 mV, 0-60 mV and 0-100 mV

J

Shunt (only fitted if necessary)

i b t)

A F G C

K

H H

K

A

C

J

G

F

shield

CAL

CAL

- Supply

+ Supply

- Signal+Signal

brown

yellow

green

white

blue J

Cable colour Pin-out for connector 9941 burster standard

Symmetrical analog output voltage

ANALOG GND (-)

-IN-EXC

ANALOG OUT (+ )

IN1

+ IN

211

222 3

20

GND IN1

167

184 519

617 14

815

10913

REMSET1

REMSET2SERIAL

LINETX+

RX+

-

-

+

+-

-

GEFRAN 23001112

CAL

CAL

+ EXC

OUT3NO (+ )

C (-)

NC C (+ )

NO/NC (-)

POWER

C (+ )

NO/NC (-)

OUT2OUT1

Configuration of output signal for voltage: Jumpers on CPU board J5V=ON, J5I=OFF, J6=ON, Configuration of output voltage: Solder bridges on CPU board +/- 5 V DC: S0A=OFF, S0B=ON, S1=OFF, S10=OFF, S11=ON +/- 10 V DC: S0A=OFF, S0B=ON, S1=ON, S10=OFF, S11=ON Calibration of output voltage: CAL.rt procedure Caution: With this hardware configuration the digital input (In2) is no longer available. (See also Important note on hardware configuration of the analog output on page 10)

* Note on connecting the shield: Always use shielded instrument leads wherever possible. In theory the cable shield should always be connected to ground potential. The 9162 unit has class II protection, however, i.e. for a standalone unit there is often no equipment grounding conductor or potential equalization conductor for the shield connection. Thus the cable shield is shown connected to - EXC (-supply) in the circuit diagram. In systems with more than one unit, the ground connection of input-side and output-side electronics must be taken into account. In these applications we recommend connecting the shields of all cables to ground at one common point (potential equalization) and not to -EXC (-supply).

Configuration of input signal: S1=OFF, S3A=OFF, S3B=OFF, S3C=ON J1P=ON, J1N=OFF (digital input 1) J2P=ON, J2N=OFF (digital input 2) Configuration of sensor supply: Depends on supply required Relevant parameters: CFG3 In.tyP = 0..2 (depends on polarity) CFG3 In.Cod = 0..14 (depends on sensitivity) CFG2 diF.1 =14 CFG2 diF.1 =15 Lo.Lin = minimum of zero or load-free value Hi.Lin = 110% of maximum value of display range (or In.tyP 0..2 +64) = max value of display range then 100 % Calibration: CAL.SG, CAL.Au, CAL 80 procedure

Configuration of input signal: S1=OFF, S3A=OFF, S3B=ON, S3C=ON Configuration of sensor supply: Depends on supply required Relevant parameters: Strain gage sensor: CFG3 In.tyP = 0..2 (depends on polarity) CFG3 In.Cod = 0..14 (depends on sensitivity) Input signal: 0-50mV, 0-60mV, 0-100mV CFG3 In.Cod = 0..2 (depends on input signal] CFG3 In.tyP = 4..6 (depends on polarity) Calibration: CAL.SG, CAL.Au, CAL 80 procedure

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5 • HARDWARE CONFIGURATION

Position of jumpers on the CPU board, component side

Position of solder bridges on the CPU board, solder side

Position of jumpers on the PSU board, component side

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General hardware configuration Enabling configuration levels CPU board: Jumper J3 = closed: Configuration levels accessible (component side) Jumper J3 = open: Configuration levels CFG2, CFG3 and CFG4 blocked CFG1 and CAL accessible depending on the Prot setting in CFG2

Enabling calibration CPU board: Solder bridge S4 = closed: Calibration enabled (solder side) Solder bridge S4 = open: Calibration disabled

Hardware configuration of sensor supply

Jumpers on PSU board, component side Output voltage J5 J10 J15 J24

5 V / 200 mA ON OFF OFF OFF 10 V / 200 mA OFF ON OFF OFF 15 V / 200 mA OFF OFF ON OFF 24 V / 200 mA OFF OFF OFF ON

Hardware configuration of relay switching direction

The default configuration for the outputs is NO (normally open). The switching direction can be changed to NC (normally closed) by disconnecting the relevant NO solder bridge and connecting the appropriate NC solder bridge. The solder bridges are labeled accordingly and are located on the solder side of the PSU board near the corresponding relay.

Hardware configuration of the input signals

Jumpers on CPU board, component sideInput signal

S3A S3B S3C SI Voltage signal 0..1 V ON ON OFF OFF Voltage signal 0..10 V or transmitter 0..10 V OFF OFF OFF OFF Potentiometer OFF OFF OFF OFF Strain-gage sensor output 0..50 mV, 0..60 mV or 0..100 mV OFF OFF ON OFF Current signal 0 / 4..20 mA or transmitter 0 / 4..20 mA from version 7.0 ON ON OFF ON Current signal 0 / 4..20 mA or transmitter 0 / 4..20 mA only version 6.7 ON ON OFF ON

Hardware configuration of external setpoint assignment

Jumpers on CPU board, component sideInput

S1A S1B S2A S2B Input 1, 0..10 V OFF OFF --- --- Input 1, 0/4..20 mA ON ON --- --- Input 2, 0..10 V --- --- OFF OFF Input 2, 0/4..20 mA --- --- ON ON

Hardware configuration of the digital inputs

Jumpers on CPU board, component sideType

J1P J1N J2P J2N IN1 NPN: floating contact or open collector 24 V / 4mA OFF ON --- --- IN1 PNP 24 V / 4 mA ON OFF --- --- IN2 NPN: floating contact or open collector 24 V / 4mA --- --- OFF ON IN2 PNP 24 V / 4 mA --- --- ON OFF

Hardware configuration of the analog output

CPU board jumpers, comp. Solder bridges on CPU board, solder side Analog output J5V J5I J6 S0-0V S0-5/10V S1 S10 S11

0..10 V DC or 2..10 V DC ON OFF ON ON OFF ON ON OFF 0..20 mA or 4..20 mA OFF ON OFF ON OFF ON ON OFF -5 V..+5 V DC * ON OFF ON OFF ON OFF OFF ON -10 V DC..+10 V DC * ON OFF ON OFF ON ON OFF ON

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* Important note: For a symmetrical output, digital input 2 (ln2) must be programmed as PNP. See hardware configuration of the digital inputs on page 9/24 (jumper J2P inserted or "ON"). In addition, the ground connection for digital input 1 (IN1) has been moved from Pin 4 to Pin 7 (IGND), so digital input 2 can no longer be used. See wiring diagrams on page 4/24 to 6/24. PIN 7 is reference ground for digital input 1 PIN 4 is reference ground for the analog output

Hardware configuration of the serial interface

Jumpers on CPU board, component side Function J7 J8 J9 J10

external limit assignment Position B Position B Position B Position B serial interface Position A Position A Position A Position A

Solder bridges on CPU board, solder side Function

S5 S6 active current loop OFF ON

passive current loop ON OFF

Note: When changing the solder bridges S1 to S12, note that there may be conductor tracks below the solder bridges which then need to be disconnected as well.

6 • PROGRAMMING Note: The parameter levels are accessed by pressing and holding the F button. Each parameter can be displayed, and changed if necessary, in the parameter-level menus. The parameters are selected by pressing the F button briefly. The value of the parameters can be changed using the Up and Down buttons. Changes are confirmed by pressing the "F button" briefly, or are adopted automatically after about 10 seconds. The configuration level is closed by pressing and holding the F button again.

LEVEL 1, Display of operating parameters

Process variable

Alarm value 1

Alarm value 2

Alarm value 3

Press F button for about 2 sec;

access possible only if J3 closed

PARAMETER LEVELS

Information (Revision, Code, Device protection)

CFG1 Configuration level 1

CFG2, Configuration level 2

CFG3, Configuration level 3

CFG4, Configuration level 4

CAL, Selection of calibration routine

NO YES Solder bridge S4 = set?

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INFO menu INFO Information display

CodE Device address

UPdt Software version Prot Device protection

CFG1 device address, switching hysteresis Press and hold the F button to access the configuration level. After a short time the message _CFG flashes alternately with “0” on the display. You can now used the Up and Down buttons to select the required configuration level, in this case level 1. Press the F button to confirm the selection. Once you have confirmed the configuration level, the individual parameters can be accessed by a short press of the F button. The configuration level is only accessible if enabled by jumper J3.

CFG1 Device address, operating parameters

Code Device address 0..255

HY_1 Switching hysteresis, output 1 -999..999

HY_2 Switching hysteresis, output 2 -999..999

HY_3 Switching hysteresis, output 3 -999..999

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CFG2 - Hardware definitions

CFG2 Hardware parameters

Prot Function: Definition of access authorization Default value: 1

Prot Display Edit

0 Process variable, limits, Info level, CFG.1 level Limits, parameters of the CFG.1 level

1 Process variable, limits, Info level Limits 2 Process variable, limits, Info level 3 Process variable, Info level 4 Process variable

+ 8 Disable calibration + 16 Save the tare value after measuring the tare value *

+ 32 Save the enable/disable setting for peak value and external limit assignment. When unit switched on, the last enable/disable setting before switching off applies.

Sr.P Function: Serial interface protocol Default value: 0

Sr.P Protocol 0 CENCAL 1 MODBUS

Baud Function: Transfer rate of

serial interface Default value: 3

Baud Transfer rate 0 1200 bit / sec 1 2400 bit / sec 2 4800 bit / sec 3 9600 bit / sec 4 19200 bit / sec

PA.r Function: Parity – only available for MODBUS

protocol

Default value: 0

PA.r Parity 0 none 1 odd 2 even

Butt.1 Function: Definition of “PEAK” button Default value: 1

Butt.1 Function 0 No function, button passive 1 Display positive peak value 2 Display negative peak value 3 Display peak-to-peak value

Butt.2 Function: Definition of “CAL / RST” button Default value: 2

Butt.2 Function 0 No function, button passive 1 Reset alarm memory 2 Reset peak-value memory 3 Reset alarm memory and peak-value memory 4 Tare function 5 Tare function and reset alarm memory 6 Tare function and reset peak-value memory 7 Tare function and reset alarm memory and peak-value memory 8 Calibration check 9 Enable / Disable external limit assignment no. 1 10 Enable / Disable external limit assignment no. 2 11 Enable / Disable external limit assignment no. 1 & 2 12 Display hold function: freeze the display while the button is pressed 13 Input hold function: freeze the input while the button is pressed.

Butt.3 Function: Definition of “*” button Default value: 4

Butt.3 Function 0 No function, button passive 1 Reset alarm memory 2 Reset peak-value memory 3 Reset alarm memory and peak-value memory 4 Tare function 5 Tare function and reset alarm memory 6 Tare function and reset peak-value memory 7 Tare function and reset alarm memory and peak-value memory 8 Calibration check 9 Enable / Disable external limit assignment no. 1 10 Enable / Disable external limit assignment no. 2 11 Enable / Disable external limit assignment no. 1 & 2 12 Display hold function: freeze the display while the button is pressed 13 Input hold function: freeze the input while the button is pressed.

14 Switch between net / gross. The last decimal point flashes to indicate when gross values are displayed. The net value continues to be used as the reference value for all functions however.

D.I.F.1Function: Definition of digital input 1 Default value: 7

d.i.F.1 Function 0 No function, input passive 1 Reset alarm memory 2 Reset peak-value memory 3 Reset alarm memory and peak-value memory 4 Tare function 5 Tare function and reset alarm memory 6 Tare function and reset peak-value memory 7 Tare function and reset alarm memory and peak-value memory 8 Calibration check 9 Enable / Disable external limit assignment no. 1

10 Enable / Disable external limit assignment no. 2 11 Enable / Disable external limit assignment no. 1 & 2 12 Hold display: freeze the display while the button is pressed

13 Hold input: freeze the input while the button is pressed. The alarm memory is cleared, active alarm outputs are disabled.

14 Flash function: the alarm states are frozen when digital input open. If the digital input is closed, the input signal is then frozen and the alarms are updated accordingly.

15

Monitor sensor supply. (*) Digital input must be configured as PNP type; see "Configuration of digital inputs". Connect terminal 4 to "Exc -", terminal 6 to "Exc +". "E.br" is displayed if the sensor supply is faulty. The outputs assume the states defined under the "rEL" parameter.

d.i.F.2 Function: Definition of digital input 2 Default value: 11

d.i.F.2 Function 0 No function, input passive 1 Reset alarm memory 2 Reset peak-value memory 3 Reset alarm memory and peak-value memory 4 Tare function 5 Tare function and reset alarm memory 6 Tare function and reset peak-value memory 7 Tare function and reset alarm memory and peak-value memory 8 Calibration check 9 Enable / Disable external limit assignment no. 1

10 Enable / Disable external limit assignment no. 2 11 Enable / Disable external limit assignment no. 1 & 2 12 Hold display: freeze the display while the button is pressed

13 Hold input: freeze the input while the button is pressed. The alarm memory is cleared, active alarm outputs are disabled.

14 Flash function: the alarm states are frozen when digital input open. If the digital input is closed, the input signal is then frozen and the alarms are updated accordingly.

15

Monitor sensor supply. (*) Digital input must be configured as PNP type; see "Configuration of digital inputs". Connect terminal 4 to "Exc -", terminal 6 to "Exc +". "E.br" is displayed if the sensor supply is faulty. The outputs assume the states defined under the "rEL" parameter.

The “HOLD” and “FLASH” functions are mutually exclusive

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Out_1

Function: Definition of alarm output 1 Default value: 0 Out_1 Function

0 Absolute value: Output is enabled when the limit is exceeded

1 Absolute value: Output is disabled when the limit is exceeded

6 Absolute alarm window Output is enabled when the actual value lies outside the window. Window width is defined by the HY_x parameter; definition is absolute

7 Absolute alarm window Output is disabled when the actual value lies outside the window. Window width is defined by the HY_x parameter; definition is absolute

+ 8 Output disabled during power-up + 16 Alarm memory enabled

+ 32 Generate an alarm for a sensor break or faulty sensor voltage (only if d.i.F.1 or 2 = 15)

+ 64 Enable response delay for the output. Delay period defined under HY_1. (display = 0-999 msec)

+ 128 Do not offset the limit after tare function carried out

Out_2 to Out_3

Function: Definition of alarm outputs 2 and 3 Default value: 0 Out_X Function

0 Absolute value: Output is enabled when the limit is exceeded

1 Absolute value: Output is disabled when the limit is exceeded

2 Relative to previous absolute alarm: Output is enabled when the limit is exceeded

3 Relative to previous absolute alarm: Output is disabled when the limit is exceeded

4 Relative to previous absolute alarm, symmetrical: Output is enabled outside the alarm window

5 Relative to previous absolute alarm, symmetrical: Output is enabled inside the alarm window

6 Absolute alarm window Output is enabled when the actual value lies outside the window. Window width is defined by the HY_x parameter; definition is absolute

7 Absolute alarm window Output is disabled when the actual value lies outside the window. Window width is defined by the HY_x parameter; definition is absolute

+ 8 Output disabled during power-up + 16 Alarm memory enabled

+ 32 Generate an alarm for a sensor break or faulty sensor voltage (only if d.i.F.1 or 2 = 15)

+ 64 Enable response delay for the output. Delay period defined under HY_1. (display = 0-999 msec)

+ 128 Do not offset the limit after tare function carried out

rEL

Function: Output states in the event of a fault Default value: 0 Output response for: rEL

Sensor break, sensor polarity reversal, out-of-range Message: H_Sbr

Sensor break, sensor polarity reversal, out-of-range Message: L_Sbr

Sensor supply faulty Message: H_Sbr

0 OFF OFF OFF 1 OFF OFF ON 2 OFF ON OFF 3 OFF ON ON 4 ON OFF OFF 5 ON OFF ON 6 ON ON OFF 7 ON ON ON

Programming for an absolute alarm window Function 6 or 7 Evaluation, window 1: 140-160 N = good Programming: Out1 = 150 (center value of good

range) Hy1 = 10 (add./sub limit) Evaluation, window 2: 130-170 N = good (warning limit) Programming: Out2 = 150 (center value) Hy2 = 20 (add./sub limit) Evaluation, window 3: 120-180 N = good (action limit) Programming: Out3 = 150 (center value) Hy3 = 30 (add./sub limit) The definitions for the rEL parameter only apply when the function is enabled for the output concerned (Outx + 32). In the event of a calibration error (message Er.Cal), the outputs assume the "off" state irrespective of the rEL parameter definition. The output states when the value lies out of range (message _Lo_ or _Hi_) are the same as the output states at the upper and lower limits of the defined scale range. If the flash function is triggered (assuming it is enabled), the outputs are updated to the states defined in the rEL table.

* The maximum number of tare saves available after measuring the tare value depends on the EEPROM and equals about 8000 save actions.

Example:

You wish to display just the measured value, but disable access to calibration. Thus, referring to the PROT table, a value of 12 (4+8) must be entered.

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CFG3 menu, Measurement parameters Press and hold the F button to access the configuration level. After a short time the message _CFG flashes alternately with "0" on the display. You can now use the Up and Down buttons to select the required configuration level, in this case level 3. Press the F button to confirm the selection. Once you have confirmed the configuration level, the individual parameters can be accessed by a short press of the F button. The configuration level is only accessible if enabled by jumper J3.

In.tyP

Function: Definition of the input Default value: 1 In.tyP Input signal Signal polarity

0 Positive (e.g. 0..10 mV) 1 Symmetrical (e.g. –10..10 mV) 2

Strain-gage bridge (pressure transducer, load cell)

Negative (e.g. –10..0 mV) 4 Positive (e.g. 0..10 V) 5 Symmetrical ±5 V ±0.5 V ±50 mV 6

DC voltage or current, potentiometer Negative (e.g. –10..0 V)

+8 Enable custom linearization +16 Enable algebraic sum of the inputs (main input + secondary input) +32 Signal input via serial interface with resolution 0..16,000 points +64 Suppress display of _Lo_ and _Hi_ messages (out of measuring range)

In.Cod Function: Definition of sensitivity Default value: 1

Strain-gage bridges DC V / I and potentiometer In.Cod Sensitivity mV/V Supply (V) In.Cod Signal

0 1.5 0 0..50 mV 1 2 1 0..60 mV 2 2.5 2 0..100 mV (±50 mV) 3 3 3 0..1 V (±0.5 V) 4 3.3

5

4 0..10 V (±5 V)

5 1.5 5 0..20 mA and 4..20 mA

6 2 6 do not use 7 2.5 8 3 7 Potentiometer ≥ 50 Ω

Supply 10 V DC 9 3.3

10

10 1.5 11 2 12 2.5 13 3 14 3.3

15

15 (*) 0..10 V DC Transmitter 16 (*) 0..20 mA Transmitter 17 (*) 4..20 mA Transmitter

(*) positive polarization only

FiLt Function: time constant of digital filter for the

sensor input in the range 0..2.00 sec. Filter disabled by entering “0”.

Default value: 0.01

FiLd Function: time constant of display filter in the range 0..9.9sec Filter disabled by entering “0” Default value: 0.5

dEC.P Function: Definition of decimal places Default value: 1 0 Number format: xxxx 1 Number format: xxx.y 2 Number format: xx.yy 3 Number format: x.yyy

+ 4 Multiplication x10

oFSEt Function: input signal offset in the range -999..+999

Default value: 0.0

Lo.Lin Function: lower limit of scale for signal input in the range: -9999..+9999 Default value: 0.0

Hi.Lin Function: upper limit of scale for the signal input in the range: -9999..+9999

Default value: 110.0

tYP.r1 External limit assignment Default value: 0 0 Function disabled 1 0..10 V DC linear 2 0..20 mA linear 3 4..20 mA linear

+ 4 External limit assignment relative to the local Out1

The Out 1 and REM LEDs flash to indicate an enabled external limit assignment.

tYP.r2 External limit assignment Default value: 0 0 Function disabled 1 0..10V DC linear 2 0..20mA linear 3 4..20mA linear

+ 4 External limit assignment relative to the local Out2 The Out 2 and REM LEDs flash to indicate an enabled external limit

assignment.

Lo_SP Function: lower limit of scale for limit assignments in the range: -9999..+9999 Default value: 0.0

Hi_SP Function: upper limit of scale for limit assignments in the range: -9999..+9999

Default value: 100.0

Out_trFunction: Definition of the analog output Default value: 0

out_tr value output Signal type 0 Input signal 1 Positive peak value 2 Negative peak value 3 Peak-to-peak value 4 Setpoint 1 5 Setpoint 2 6 Setpoint 3

14 External setpoint assignment 1 15 External setpoint assignment 2 64 65 Gross value 66 Tare value 67 Value input via the serial interface

+ 16 To achieve an output signal of 2..10 V DC or 4..20 mA.

+ 32 Enable the analog output during configuration of the limits. Only applies to parameters 4 to 13

0..10 V DC or 0..20 mA

Lo_tr Function: lower limit of scale for analog output

in the range: -9999..+9999

Default value: 0.0

Hi_tr Function: upper limit of scale for the analog

output in the range: -9999..+9999

Default value: 100.0

Lo_Al Function: lower limit of scale for the absolute

alarm setting in the range: -9999..+9999

Default value: 0.0

Hi_Al Function: upper limit of scale for the absolute

alarm setting in the range: -9999..+9999

Default value: 100.0

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CFG4 menu, Linearization points Press and hold the F button to access the configuration level. After a short time the message _CFG flashes alternately with "0" on the display. You can now use the Up and Down buttons to select the required configuration level, in this case level 4. Press the F button to confirm the selection. Once you have confirmed the configuration level, the individual parameters can be accessed by a short press of the F button. The configuration level is only accessible if enabled by jumper J3. CAUTION. Before entering any values, find out the corresponding relationship between input signal and display value. See also the linearization example below.

StP.0 Function: Point 0 of the linearization Default value: x

StP.1 Function: Point 1 of the linearization Default value: x

StP.2 Function: Point 2 of the linearization Default value: x

StP.32 Function: Point 32 of the linearization Default value: x

Example:

Task: A sensor having a 4..20 mA output signal requires custom linearization. The output function is shown in the graph on the left. The display needs to be set to a scale of 0 to 1000 for this range of values. Configuration: StP.0 = 0 StP.8 = 150 StP.16 = 400 StP.24 = 750 StP.32 = 950 Intermediate values must be found by calculation.

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7 • CALIBRATION

IMPORTANT: The units are calibrated at the end of the production process, and should not normally need to be re-calibrated by the user.

If, however, a calibration routine needs to be performed, connect the unit to the operating voltage for at least 10 minutes prior to calibration. Press and hold the “F” button to access the calibration level. After a short time the message _CAL flashes alternately with "0" on the display. Use can now the Up and Down buttons to select the required calibration routine. Press the “F” button to confirm the selection. After confirming the calibration routine, you are prompted to perform specific actions. At the end of each calibration routine, the display indicates whether or not the calibration was successful. An “Er.Cal” message in the display indicates a failed calibration routine, while a “Cal 0” message means that the calibration was completed successfully. The calibration level can only be accessed if it has been enabled by closing solder bridge S4 or by defining the “Prot” parameter accordingly. The sensor type, i.e. the parameters “In.TyP” und “In.Cod”, also ultimately determine whether certain calibration routines can be accessed. The Calibration menu contains 11 programs. With the display alternating between the message _CAL and “0”, use the Up and Down buttons to select the program and confirm with the F button. The table below summarizes the programs available.

Setting CAL.XX Calibration routine 1 CAL.L1 Calibration of the 0..50 mV, 0..60 mV or 0..100 mV input 2 CAL.L2 Calibration of the 0..1 V input 3 CAL.L3 Calibration of the 0..10 V input 4 CAL.L4 Calibration of the 0..20 mA or 4..20 mA input 5 CAL.SG manual calibration of the strain-gage input using strain-gage sensor or strain-gage simulator e.g. type 9405 6 CAL.Au automatic calibration of the strain-gage input using calibration offset (shunt calibration) 7 CAL.80 automatic calibration of the strain-gage input with integral 80% unbalance. SERIES 8221 SENSORS ONLY

8 CAL.Po Calibration of the potentiometer input 9 CAL.S1 Calibration of external limit assignment 1

10 CAL.S2 Calibration of external limit assignment 2 11 CAL.rt Calibration of the analog output

CAL.L1 Calibration of the 0..50 mV-, 0..60 mV- or 0..100 mV input

_CAL With _CAL shown on the display, use the Up and Down buttons to enter a 1, and confirm with the F button. The display shows CAL.L1.

CAL.L1 Connect a signal to the unit as specified in the "electrical connections" section. Confirm with the F button. The display shows CAL.0.

CAL.0 Apply a 0V signal to the terminals. Confirm with the F button. The display shows CAL.50.

CAL.50 Apply a 50 mV, 60 mV or 100 mV signal to the terminals. Confirm with the F button. The display shows _CAL.

_CAL displayed alternately with a 0 if the calibration has been performed successfully. Press the F button to close the Calibration menu. An Er.CAL message indicates a failed calibration.

CAL.L2 Calibration of the 0..1 V input

_CAL With _CAL shown on the display, use the Up and Down buttons to enter a 2, and confirm with the F button. The display shows CAL.L2.

CAL.L2 Connect a signal to the unit as specified in the "electrical connections" section. Confirm with the F button. The display shows CAL.0.

CAL.0 Apply a 0V signal to the terminals. Confirm with the F button. The display shows CAL.1.

CAL.1 Apply a 1 V signal to the terminals. Confirm with the F button. The display shows _CAL.

_CAL displayed alternately with a 0 if the calibration has been performed successfully. Press the F button to close the Calibration menu. An Er.CAL message indicates a failed calibration.

CAL.L3 Calibration of the 0..10 V DC input

_CAL With _CAL shown on the display, use the Up and Down buttons to enter a 3, and confirm with the F button. The display shows CAL.L3.

CAL.L3 Connect a signal to the unit as specified in the "electrical connections" section. Confirm with the F button. The display shows CAL.0.

CAL.0 Apply a 0 V signal to the terminals. Confirm with the F button. The display shows CAL.10.

CAL.10 Apply a 10 V signal to the terminals. Confirm with the F button. The display shows _CAL.

_CAL displayed alternately with a 0 if the calibration has been performed successfully. Press the F button to close the Calibration menu. An Er.CAL message indicates a failed calibration.

CAL.L4 Calibration of the 0..20 mA or 4..20 mA input

_CAL With _CAL shown on the display, use the Up and Down buttons to enter a 4, and confirm with the F button. The display shows CAL.L4.

CAL.L4 Connect a signal to the unit as specified in the "electrical connections" section. Confirm with the F button. The display shows CAL.0.

CAL.0 Apply a 0/4 mA signal to the terminals. Confirm with the F button. The display shows CAL.20.

CAL.20 Apply 20 mA to the terminals. Confirm with the F button. The display shows _CAL.

_CAL displayed alternately with a 0 if the calibration has been performed successfully. Press the F button to close the Calibration menu. An Er.CAL message indicates a failed calibration.

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CAL.SG Manual calibration of the strain-gage input

_CAL With _CAL shown on the display, use the “Up” and “Down” buttons to enter a 5. Confirm with the F button. The display shows CAL.SG.

CAL.SG

Connect a signal to the unit as specified in the "electrical connections" section. Use the Up and Down buttons to enter the selected scale value. When using a strain-gage simulator, enter the calculated scale value (see “calibration example” below). Confirm with the F button. The display shows PrS.1.

PrS.1 Apply a 0 electrical signal to the terminals. If a strain-gage sensor is used, it must be under zero load. Set 0 mV/V if using a strain-gage simulator. Confirm with the F button. The display shows PrS.2. You have now assigned the minimum display value entered under CFG.3-Lo.Lin.

PrS.2 Apply an electrical signal, calculated as shown in the calibration example, to the terminals. If a strain-gage sensor is used, apply a suitable load to the sensor. If using a strain-gage simulator, set the selected simulated characteristic value. Confirm with the F button. The display shows _CAL

_CAL displayed alternately with a 0 if the calibration has been performed successfully. Press the F button to close the Calibration menu. An Er.CAL message indicates a failed calibration.

CAL.Au Automatic calibration of the strain-gage input. ONLY for sensors fitted with a shunt resistor. (Calibration offset)

_CAL With _CAL shown on the display, use the Up and Down buttons to enter a 6. Confirm with the F button. The display shows CAL.Au.

CAL.AU Connect a signal to the unit as specified in the "electrical connections" section. Use the Up and Down buttons to enter the calculated scale value for the calibration offset (see “calibration example” below). Confirm with the F button. The display shows PrS.1.

PrS.1 Unit calculates the 0 signal automatically. Sensor must not be under load. Transition to next step is made automatically, with the display changing to PrS.2

PrS.2 Unit automatically sets up bridge unbalance. Calibration menu is closed automatically. The display shows _CAL.

_CAL displayed alternately with a 0 if the calibration has been performed successfully. Press the F button to close the Calibration menu. An Er.CAL message indicates a failed calibration.

CAL.80 Automatic calibration of the strain-gage input with automatic 80% unbalance. Type 8221 SENSORS ONLY

_CAL With _CAL shown on the display, use the Up and Down buttons to enter a 7, and confirm with the F button. The display shows CAL.80.

CAL.80 Connect a signal to the unit as specified in the "electrical connections" section. Use the Up and Down buttons to enter the upper limit of scale for the sensor used. Confirm with the F button. The display shows PrS.1.

PrS.1 Unit calculates the 0 signal automatically. Sensor must not be under load. Transition to next step is made automatically, with the display changing to PrS.2

PrS.2 Unit automatically sets up bridge unbalance. Calibration menu is closed automatically. The display shows _CAL.

_CAL displayed alternately with a 0 if the calibration has been performed successfully. Press the F button to close the Calibration menu. An Er.CAL message indicates a failed calibration.

Calibration example The calibration described here using the actual physical process variable can also be performed using calibrators of course. The electrical signal corresponding to the upper limit of the measuring range is found from the data sheet (characteristic value) and simulated using a simulator (e.g. burster strain-gage simulator type 9405). When the voltage is generated using a simple voltage generator, the supply voltage must always be measured across connector pin no. 3 and pin no. 20 and taken into account when calculating the generator voltage that needs to be applied. Example: sensor with 100 N measuring range = 100.0 N scale value Known : strain-gage sensor with 2 mV/V, measured supply voltage is 4.982 V Required: generator voltage to be applied = 4.982 V x 2 mV/V = 9.964 mV In order to simulate a measurement signal corresponding to a display of 100.0 N, 9.964 mV must be applied to the signal inputs. Example: burster strain-gage simulator type 9405 (calibration offset) Known : Sensor 100 N, characteristic value = 2.16 mV/V , Simulator = 2.0 mV/V (1.852 mV/V) Required: Scale value = 2 mV/V / 2.16 mV/V x 100.0 = 92.6 N In order to simulate a scale value corresponding to a display of 100.0 N,

92.6 N must be entered for CAL.SG or CAL.Au.

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CAL.Po Calibration of the potentiometer input

_CAL With _CAL shown on the display, use the Up and Down buttons to enter a 8, and confirm with the F button. The display shows CAL.Po.

CAL.Po Connect a signal to the unit as specified in the "electrical connections" section. Confirm with the F button. The display shows Lo.Pot

Lo.Pot Adjust potentiometer to the zero setting (minimum). Confirm with the F button. The display shows Hi.Pot.

Hi.Pot Adjust potentiometer to the maximum setting. Confirm with the F button. The display shows _CAL.

_CAL displayed alternately with a 0 if the calibration has been performed successfully. Press the F button to close the Calibration menu. An Er.CAL message indicates a failed calibration.

AL.S1 Calibration of external limit assignment 1

_CAL With _CAL shown on the display, use the Up and Down buttons to enter a 9, and confirm with the F button. The display shows CAL.S1.

CAL.S1 Connect a signal to the unit as specified in the "electrical connections" section. Confirm with the F button. The display shows Lo_Sr.1.

Lo_Sr.1 Apply the minimum signal to the terminals; when using a potentiometer adjust it to the minimum setting. Confirm with the F button. The display shows Hi_Sr.1.

Hi_Sr.1 Apply the maximum signal to the terminals; when using a potentiometer adjust it to the maximum setting. Confirm with the F button. The display shows _CAL.

_CAL displayed alternately with a 0 if the calibration has been performed successfully. Press the F button to close the Calibration menu. An Er.CAL message indicates a failed calibration.

CAL.S2 Calibration of external limit assignment 2

_CAL With _CAL shown on the display, use the Up and Down buttons to enter a 10, and confirm with the F button. The display shows CAL.S2.

CAL.S2 Connect a signal to the unit as specified in the "electrical connections" section. Confirm with the F button. The display shows Lo_Sr.2.

Lo_Sr.2 Apply the minimum signal to the terminals; when using a potentiometer adjust it to the minimum setting. Confirm with the F button. The display shows Hi_Sr.2.

Hi_Sr.2 Apply the maximum signal to the terminals; when using a potentiometer adjust it to the maximum setting. Confirm with the F button. The display shows _CAL.

_CAL displayed alternately with a 0 if the calibration has been performed successfully. Press the F button to close the Calibration menu. An Er.CAL message indicates a failed calibration.

CAL.rt Calibration of the analog output

_CAL With _CAL shown on the display, use the Up and Down buttons to enter a 11, and confirm with the F button. The display shows CAL.rt.

CAL.rt Connect a signal to the unit as specified in the "electrical connections" section. Confirm with the F button. The display shows Lo.out

Lo.out Use the Up and Down buttons to set the output to the required minimum value. The value can be set in the range -300 to 1999. Confirm with the F button. The display shows Hi.out.

Hi.out Use the Up and Down buttons to set the output to the required maximum value. The value can be set in the range 1999 to 300. Confirm with the F button. The display shows _CAL.

_CAL displayed alternately with a 0 if the calibration has been performed successfully. Press the F button to close the Calibration menu. An Er.CAL message indicates a failed calibration.

8 • ORDER CODES

Analog output None 0 Voltage output 0 – 10 V DC 1 Current output 0 – 20 mA DC 2 Current output 4 – 20 mA DC 3 Voltage output ±10 V DC (±5 V DC) 4

9162-V

Version + power supply Panel-mount process display Auxiliary supply 100..240 V AC/DC 48..62 Hz ±10 %

0

Panel-mount process display Auxiliary supply 11..27 V AC/DC 48..62 Hz ±10 %

1

Table-top process display Auxiliary supply 100..240 V AC/DC 48..62 Hz ±10 %

2

Outputs 3 relay outputs 0 3 logic outputs, TTL +24 V DC 1 3 PLC - logic outputs, p- switching 2

Analog input, serial interface - output External limits 0-10 V DC or 4-20 mA DC 0 RS232-V24 3

X X X X

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9 • ALARM FUNCTIONS Absolute limit

Absolute limits The limit is entered as an absolute value referred to zero, e.g. OUT 1 = 450, OUT 2 = 350, OUT 3 = 500, OUT 4= 600 etc. The input range is the same as the selected scale.

lower limit upper limit Relative limit Relative limits

The trigger point is defined as a difference from the absolute limit. e.g. OUT1 is defined as absolute value 400, the other limits as relative limits: Examples: OUT 1 = 400 OUT 2 = 50 (triggered at limit 450) OUT 3 = 80 (triggered at limit 480) OUT 4 = - 100 (triggered at limit 300) Example no. 2: OUT 1 and OUT 3 are absolute limits, the others are relative: OUT 1 = 400 OUT 2 = 50 (triggered at limit 450) OUT 3 = 300 OUT 4 = - 100 (triggered at limit 200) The input range is -1999 to -9999. The input value is added algebraically to the value of the previous absolute limit. The trigger point can lie outside the scale range.

Symmetrical relative limit

Symmetrical relative limit (“window alarm”) The input value is both added to and subtracted from the value of the previous absolute limit. Thus a symmetrical alarm window at limit 2 or 3 is created about limit 1. This is defined as an upper symmetrical relative limit when the relay trips for a measured value outside the window, and as a lower symmetrical relative limit when the relay trips for a measured value inside the window.

Upper limit The measured value lies above the limit entered; the relay trips. This applies to both absolute and relative limits.

Lower limit The measured value lies below the limit entered; the relay trips. This applies to both absolute and relative limits.

Lower limit Upper limit

Lower limit Upper limit

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10 • CHECKING THE CALIBRATION The calibration can be checked using the CAL/RST button (if programmed for this function). It is also possible to launch the function via the digital input. Caution: the sensor must not be under load. The following actions are stepped through when the calibration check is activated: 1. Limit functions and analog output are frozen. 2. Bridge unbalance performed automatically by the integral switching contact; calibration check signaled by CAL LED. 3. Selected scales displayed (must tally with the measuring range specified on the sensor) 4. The message Er.Cal on the display indicates a calibration error. If there are no errors the procedure closes without displaying a message.

11 • HOLD FUNCTION Changes to the measured value and the limits are blocked while the digital input is closed. Both the input and outputs are isolated when the digital input is disabled.

12 • FLASH FUNCTION The limits remain unchanged when the digital input is open. If the digital input is closed, changes to the measured value are blocked and the limit status updated to the last value detected.

13 • QUICK CALIBRATION A quick calibration can be performed if a strain-gage sensor with integral calibration resistor is connected. The unit should be left running for at least 10 minutes prior to the calibration, however, with pressure sensor connected. The pressure sensor should be at its later operating temperature following warm-up if possible. Press and hold the “F” and “Up” buttons simultaneously for about 4 seconds. If the unit has not been calibrated yet, “CAL.80” is displayed alternately with the factory setting 100.0. At this point, use the Up and Down buttons to enter the measuring range of the sensor used. Confirm the change with the F button. The rest of the calibration sequence is performed automatically. The message “Er.Cal” on the display indicates a calibration error.

14 • SERIAL INTERFACE The 9162-Vxx0x can optionally be fitted with a serial interface. Certain special conditions need to be observed. 1. serial interface as CL (current loop): up to 10 units with CL can be connected to one bus segment. The bus length must not exceed 500 m. The baud rate can be set between 2400 and

4800. For distances greater than 50 m, the end-of-line unit must be terminated with a 10 kΩ resistor inserted between solder points ZY and XY, see diagram below. 2. serial interface as RS422/485: up to 32 units can be connected to one bus segment. The bus length must not exceed 500 m. The baud rate can be set between 2400 and 9600. For

distances greater than 50 m, the end-of-line unit must be terminated with a 10 kΩ resistor inserted between solder points ZY and XY, see diagram below. 3. serial interface as RS232C: Only one unit can be connected to one bus segment. The cable length must not exceed 2 m. The baud rate can be set between 2400 and 9600. There are two protocol versions available: CENTAL and MODBUS RTU. The protocol specifications and addressing are described in the document "serial connection of instruments", part 1 (CENTAL) and part 2 (MODBUS RTU).

15 • LOGIC OUTPUT For option VXXX1 only For option VXXX2 only

Out1 14Out 2 15Out 3 18

Com +24Vdc16 oder 19

Burster 9162 SPS

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16 • LOGIC INPUT For option VXXX0 and VXXX1 only For option VXXX2 only

7 IN2

6 IN1

4 GND

9162

9162 SPS Ausgang

7 IN2

6 IN1

4 GND

17 • Technical appendix, table-top units 9162-V2xxxx

Pin assignment of sensor-in connector (12-pin circular female connector)

Function Signal PIN - Sensor supply -EXC A+B + Sensor supply +EXC C+D

- Measurement signal -IN F + Measurement signal +IN G Input - shunt calibration CAL H Input - shunt calibration CAL K

Shield - ground - J

View: connector from solder side

Pin assignment of Analog-Out / Digital-In/Out, 11-pin screw terminal

Function Signal PIN Analog output for option 9162-V21xx,V22xx, V23xx and V24xx OUT+ 1 Reference ground, analog output OUT- 2 Reference ground for IN1 and IN2 (for option Vx4xx = do not use*) IN- 3 Digital input 1 IN1 4 Digital input 2 (for option Vx4xx = reference ground for IN1 *) IN2 * 5 (NC) relay output 1 (V2xx0) or collector 1 (V2xx1) or PLC output 1 (V2xx2) OUT1- 6 (NC) relay output 2 (V2xx0) or collector 2 (V2xx1) or PLC output 2 (V2xx2) OUT2- 7 (C) relay output1+2 (V2xx0) or +24 V (V2xx1) OUT 1,OUT2 8 (NC) relay output 3 (V2xx0) or external GND, PLC output 1- 3 (V2xx2) OUT3 9 (C) relay output 3 (V2xx0) or collector 3 (V2xx1) or PLC output 3 (V2xx2) OUT3- 10 (NO) relay output 3 (V2xx0) or +24 V (V2xx1) or +24 V external (V2xx2) OUT3+ 11

Key: NC = Normally Closed relay contact, NO = Normally Open relay contact, C = Common relay contact

View: screw terminal connector from rear

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Pin assignment RS232 / 485 - IN / External limits (9-pin mini Sub-D female connector)

Function Signal PIN Receiver + for option Vxx2x or external limit 2 + for option Vxx0x +RxD or SET2 3 Receiver – for option Vxx2x or external limit 2 – for option Vxx0x -RxD or REM2 5 Transmitter + for option Vxx2x or external limit 1 + for option Vxx0x +TxD or SET1 2 Transmitter – for option Vxx2x or external limit 1 – for option Vxx0x -TxD or REM2 5

View: Mini Sub-D connector from the wiring pin side

18 • OPERATIONAL SAFETY INSTRUCTIONS • Always follow the instructions in the manual carefully when connecting the unit. • Always use cables with the correct voltage and current rating for the connections. • The unit DOES NOT HAVE an ON/OFF switch and so is powered up as soon as it is connected to the operating supply. • If the unit is connected to apparatus that is not electrically insulated (e.g. thermocouples), the ground connection must be provided by a

suitably designed equalizing conductor to prevent ground loops being created via the sensor. • If there is a risk of personal injury or damage to machinery or property when using the unit in certain applications, then it is

recommended that the unit is only used in conjunction with additional alarm equipment. It is advisable to monitor the alarm states continuously during the whole period of operation.

• The owner of the unit must ensure that the parameters entered in the unit are correct prior to putting the unit into service, in order to avoid personal injury or property damage.

• The unit MUST NOT be operated in a hazardous atmosphere (risk of fire or explosion). If the unit is connected to elements operating in hazardous atmospheres, the connection must be made via suitable interfaces in compliance with local safety regulations.

• The unit contains components sensitive to electrostatic discharge, so the electronic circuit boards in the unit must be handled with suitable care to avoid permanent damage to vulnerable components. NEW ! For the table-top version, protective caps have been fitted to the interface / external limits connector and the sensor input connector to protect against electrostatic discharges. The protective caps must be fitted when these connectors are not in use and for transport of the table-top unit. These caps also protect the electrical contacts from soiling.

Installation instructions • The supply voltage must comply with the voltage specified on the rating plate. • Signal lines should not be laid alongside mains cables wherever possible. If it is not possible to separate the cables physically, the signal lines must be shielded. • The unit should not be installed near power switches or relays if possible. If installation near such equipment is unavoidable, ensure that suitable interference suppression measures have

been taken for the power switches / relays. • Thyristor controllers, in particular those using phase control, and motors and power transformers should be physically separated if possible. A metal plate lying dead at ground potential

and acting as a shield also counts as an efficient means of physical separation. • The operating temperature range should not lie outside the range specified in the operating manual. • The power supply for the instruments should be taken as close as possible after the circuit breaker. If there is a choice of phase from a 3-phase supply, connect the unit to the phase with

the smallest inductive or capacitive load. • If the supply voltage contains interference from thyristor controllers or electric motors, it may be useful to employ an isolating transformer for the power supply to the units; the transformer

shield must be connected to ground in this case. A good grounding system for the unit is important, with a potential difference of < 1 V between equipment grounding conductor and neutral conductor, and a resistance of < 6 Ohm with respect to ground. Should the mains voltage be subject to large fluctuations, we recommend the use of a voltage stabilizer; this is also advisable when considering the withstand voltage and efficiency of the connected heating elements. We recommend using a mains filter to smooth the supply voltage if operated near high-frequency generators or arc-welding machines.

• For the analog input lines (thermocouple, resistance thermometer) we advise laying the leads separately from the power supply lead, and from cables carrying an output voltage or mains voltage. If this is not possible, we recommend using twisted shielded cables. The shield should only be connected to ground at one end. For output lines that are switched under load (circuit breakers, solenoid valves, motors, fans etc.), an RC-element (resistor and capacitor in series) must be connected in parallel with the load to suppress any interference emissions (note: all capacitors must be of VDE standard class (class x) and capable of withstanding a voltage of at least 230VAC. The maximum power dissipation capacity of the resistor must equal at least 2W).

The burster company does not accept liability under any circumstances for personal injury or property damage resulting from unauthorized access, or improper or inappropriate operation or use, given the technical properties of the unit.

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19 • Examples for programming the RS232 interface

Initialize unit: (only needed when establishing communication for the first time)

Command (Hex code) Terminal hotkeys Unit response (ASCII)

Unit response (Hex code) Parity Comments

55 Alt + 85 none none even initialization AA Alt +170 odd identification AA Alt +170 U + U 55 + 55 odd identification

Read measured value: (read command)

Command (Hex code) Terminal hotkeys Unit response (ASCII)

Unit response (Hex code) Parity Comments

00 Alt +0 255 (Dec) FF odd Read from the memory (read command) 00 Alt +0 NUL 00 odd Number of bytes to be read (high byte) 02 Alt +2 STX 02 odd Number of bytes to be read (low byte) 00 Alt +0 NUL 00 odd Memory address: 0009 Hex => measured value (high byte) 09 Alt +9 TAB 09 odd Memory address: 0009 Hex => measured value (low byte)

e.g. ENQ + 5 05 + 35 odd Values are transferred => e.g. measured value: 1333

Read measured value: (quick command)

Command (Hex code) Terminal hotkeys Unit response (ASCII)

Unit response (Hex code) Parity Comments

01 Alt +1 FE + 05 + 35 odd Read out measured value using the quick-read command (e.g. 1333)

Read decimal point: (read command)

Command (Hex code) Terminal hotkeys Unit response (ASCII)

Unit response (Hex code) Parity Comments

00 Alt +0 255 (Dec) FF odd Read from the memory (read command) 00 Alt +0 NUL 00 odd Number of bytes to be read (high byte) 01 Alt +1 SOH 01 odd Number of bytes to be read (low byte) 00 Alt +0 NUL 00 odd Memory address: 00C0 Hex => dec. point (high byte) C0 Alt +192 192 (Dec) C0 odd Memory address: 00C0 Hex => dec. point (low byte)

SOH 01 odd Value is transferred => e.g. dec. point: 1

Change decimal point: (write command)

Command (Hex code) Terminal hotkeys Unit response (ASCII)

Unit response (Hex code) Parity Comments

02 Alt +2 253 (Dec) FD odd Write to the memory (write command) 00 Alt +0 NUL 00 odd Number of bytes to be written (high byte) 01 Alt +1 SOH 01 odd Number of bytes to be written (low byte) 0 Alt +0 NUL 00 odd Memory address: 00C0 Hex => decimal point (high byte)

C0 Alt +192 192 (Dec) C0 odd Memory address: 00C0 Hex => decimal point (low byte) 03 Alt +3 ETX 03 odd Transfer new value to be set => decimal point: 3

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20 • Memory addresses

Software version V7.0

Addr. hex

No. of bytes

Menu name

Description R/W Min Max Dp Factory setting

Units

0005 2 Displayed actual value R LoLin HiLin dEC.P - scale points 0009 2 P.V. Actual value R LoLin HiLin dEC.P - scale points 000F 2 External setpoint 1 R LOSP HISP dEC.P - scale points 0011 2 External setpoint 2 R LOSP HISP dEC.P - scale points 0013 2 External setpoint 1 + internal setpoint R LOSP HISP dEC.P - scale points 0015 2 External setpoint 2 + internal setpoint R LOSP HISP dEC.P - scale points 001D 2 Max. peak value R LoLin HiLin dEC.P - scale points 001F 2 Min. peak value R LoLin HiLin dEC.P - scale points 0021 2 Min. peak value – Max. peak value R -9999 9999 dEC.P - scale points 006F 1 Relay output status: 3-10

bit 0 = output 3, ..., bit 7 = output 10

R 0 255 0 - -

0070 1 Relay output status: 1-3 bit 0 = output 1, bit 1 = output 2, bit 2 = output 3

R 0 7 0 - -

0084 2 Alarm limit 1 R/W dEC.P 1.0 scale points 0086 2 Alarm limit 2 R/W dEC.P 2.0 scale points 0088 2 Alarm limit 3 R/W dEC.P 3.0 scale points 0098 2 _CodE Instrument code for serial communication R/W 0 9999 0 1 - 009A 2 HYSt.1 Hysteresis alarm limit 1 R/W -999 999 dEC.P -1 scale points 009C 2 HYSt.2 Hysteresis alarm limit 2 R/W -999 999 dEC.P -1 scale points 009E 2 HYSt.3 Hysteresis alarm limit 3 R/W -999 999 dEC.P -1 scale points 00AE 1 _Prot Software unit lock R/W 0 60 0 1 - 01C3 _Ser.P Software protocol R/W 0 1 0 00AF 1 _bAud Baud rate R/W 0 4 0 3 - 01C2 _PAr_ Parity R/W 0 2 0 00B0 1 Butt.1 PEAK button function R/W 0 3 0 1 - 00B1 1 Butt.2 CAL/RST button function R/W 0 13 0 2 - 00B2 1 Butt.3 “*” button function R/W 0 14 0 4 - 00B3 1 _d.i.F.1 Function assignment for Digital input 1 R/W 0 15 0 7 - 00B4 1 _d.i.F.2 Function assignment for Digital input 2 R/W 0 15 0 11 - 00B5 1 out_1 Alarm characteristic, output 1 R/W 0 255 0 0 - 00B6 1 _rEL._ Alarm states in the event of a fault R/W 0 7 0 0 - 00B7 1 out_2 Alarm characteristic, output 2 R/W 0 255 0 0 - 00B8 1 In.tYP Definition of the main input R/W 0 255 0 1 - 00B9 1 out_3 Alarm characteristic, output 3 R/W 0 255 0 0 - 00BA 1 In.Cod Sensitivity of the input signal R/W 0 17 0 1 - 00BC 1 _FiLt. Input filter R/W 0.00 2.00 2 0.01 sec. 00BE 1 _FiLd Display filter ( Display Refresh cycle) R/W 0.0 9.9 1 0.5 sec. 00C0 1 dEc.P. Number of decimal places R/W 0 7 0 1 - 00C2 1 tYP.r1 Definition of external limit 1 R/W 0 7 0 0 - 00C4 1 tYP.r2 Definition of external limit 2 R/W 0 7 0 0 - 00C6 1 out.tr. Definition of the analog output R/W 0 67 0 0 - 00C8 2 oFSEt. Offset, main input R/W -999 999 dEC.P 0.0 scale points 00CA 2 Lo.Lin. Lower limit of scale R/W -9999 9999 dEC.P 0.0 scale points 00CC 2 Hi.Lin. Upper limit of scale R/W -9999 9999 dEC.P 110.0 scale points 00CE 2 _Lo.SP Lower limit of scale, external limit assignment R/W -9999 9999 dEC.P 0.0 scale points 00D0 2 _Hi.SP Upper limit of scale, external limit assignment R/W -9999 9999 dEC.P 100.0 scale points Addr. hex

No. of bytes

Menu name Description R/W Min Max Dp Factory setting

Units

00D2 2 _Lo.tr. Lower limit of scale, analog output R/W -9999 9999 dEC.P 0.0 00D4 2 _Hi.tr. Upper limit of scale, analog output R/W -9999 9999 dEC.P 100.0 scale points 00D6 2 StP._0 Point 0 of the linearization R/W -9999 9999 dEC.P 0.0 scale points 00D8 2 StP..1 Point 1 of the linearization R/W -9999 9999 dEC.P 3.1 scale points 00DA 2 StP:_2 Point 2 of the linearization R/W -9999 9999 dEC.P 6.2 scale points 00DC 2 StP._3 Point 3 of the linearization R/W -9999 9999 dEC.P 9.4 scale points 00DE 2 StP._4 Point 4 of the linearization R/W -9999 9999 dEC.P 12.5 scale points 00E0 2 StP._5 Point 5 of the linearization R/W -9999 9999 dEC.P 15.6 scale points 00E2 2 StP._6 Point 6 of the linearization R/W -9999 9999 dEC.P 18.7 scale points 00E4 2 StP._7 Point 7 of the linearization R/W -9999 9999 dEC.P 21.9 scale points 00E6 2 StP._8 Point 8 of the linearization R/W -9999 9999 dEC.P 25.0 scale points 00E8 2 StP._9 Point 9 of the linearization R/W -9999 9999 dEC.P 28.1 scale points 00EA 2 StP.10 Point 10 of the linearization R/W -9999 9999 dEC.P 31.2 scale points 00EC 2 StP.11 Point 11 of the linearization R/W -9999 9999 dEC.P 34.4 scale points 00EE 2 StP.12 Point 12 of the linearization R/W -9999 9999 dEC.P 37.5 scale points 00F0 2 StP.13 Point 13 of the linearization R/W -9999 9999 dEC.P 40.6 scale points 00F2 2 StP.14 Point 14 of the linearization R/W -9999 9999 dEC.P 43.7 scale points

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00F4 2 StP.15 Point 15 of the linearization R/W -9999 9999 dEC.P 46.9 scale points 00F6 2 StP.16 Point 16 of the linearization R/W -9999 9999 dEC.P 50.0 scale points 00F8 2 StP.17 Point 17 of the linearization R/W -9999 9999 dEC.P 53.1 scale points 00FA 2 StP.18 Point 18 of the linearization R/W -9999 9999 dEC.P 56.2 scale points 00FC 2 StP.19 Point 19 of the linearization R/W -9999 9999 dEC.P 59.4 scale points 00FE 2 StP.20 Point 20 of the linearization R/W -9999 9999 dEC.P 62.5 scale points 0100 2 StP.21 Point 21 of the linearization R/W -9999 9999 dEC.P 65.6 scale points 0102 2 StP.22 Point 22 of the linearization R/W -9999 9999 dEC.P 68.7 scale points 0104 2 StP_23 Point 23 of the linearization R/W -9999 9999 dEC.P 71.9 scale points 0106 2 StP.24 Point 24 of the linearization R/W -9999 9999 dEC.P 75.0 scale points 0108 2 StP_25 Point 25 of the linearization R/W -9999 9999 dEC.P 78.1 scale points 010A 2 StP.26 Point 26 of the linearization R/W -9999 9999 dEC.P 81.2 scale points 010C 2 StP.27 Point 27 of the linearization R/W -9999 9999 dEC.P 84.4 scale points 010E 2 StP.28 Point 28 of the linearization R/W -9999 9999 dEC.P 87.5 scale points 0110 2 StP.29 Point 29 of the linearization R/W -9999 9999 dEC.P 90.6 scale points 0112 2 StP.30 Point 30 of the linearization R/W -9999 9999 dEC.P 93.7 scale points 0114 2 StP.31 Point 31 of the linearization R/W -9999 9999 dEC.P 96.9 scale points 0116 2 StP.32 Point 32 of the linearization R/W -9999 9999 dEC.P 100.0 scale points 0118 2 Calibration value for sensor (pressure sensor) R/W -9999 9999 dEC.P 100.0 scale points 011A 2 Offset, calibration R/W -9999 9999 0 LoLin/

HiLin scale points

0120 2 _Lo.AL Lower limit of scale for limit assignment R/W -9999 9999 dEC.P scale points 0122 2 _Hi.AL Upper limit of scale for limit assignment R/W -9999 9999 dEC.P scale points 0194 2 Value for analog output from serial interface R/W -9999 9999 scale points 0198 2 Actual value, main input R -9999 9999 scale points

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21 • Connection to the PC

Connection to a panel-mount unit 9162-V0x3x or 9162-V1x3x to the PC

9162 tab connector PIN Function PC Sub-D socket 8 + TxD 2 10 + RxD 3 9 – TxD 5 11 – RxD 5

See also page 4 (pin assignments for all connectors)

View: Mini Sub-D connector on the PC

Connection to a table-top unit 9162-V2x3x to the PC

9162 socket, 9-pin / PIN Function PC Sub-D socket 2 + TxD 2 3 + RxD 3 5 – TxD 5 5 – RxD 5

View: Mini Sub-D connector on the PC

22 • Using the “burster 9162-P001” terminal simulation software

• Read the contents of the “README” file before installing the software on the PC. • This tells you what applications the program can be used for. • It explains how to install the software correctly. • In addition, it provides important information on configuring the process display unit and how to configure the

interface correctly. • It also provides details of the system requirements. • Run the program as soon as it has finished installing. • Open the Help menu and find out about the software. • You can print out Help information for your documentation.

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Reading the settings from a type 9162 Process Display Initial steps: Hold down the F button until CFG flashes. Enter 2 using the arrow button. Press the F button several times until Prot is displayed alternately with a numerical value. Note down the number, then enter 0 using the Down arrow button; press F. Reading out the settings in the CFG levels: Hold down the F button until CFG flashes. Use the arrow buttons to enter 1 and then confirm by pressing the F button twice briefly. Code is displayed alternately with a numerical value. Enter the numerical value in the configuration table. Press the F button briefly to access the next value (Hy1) When you have run through all the parameters, CFG is displayed again alternately with 1. Increment this value by 1, and then read off and note down again all the parameters as described above. When you have noted down all the parameters from CFG levels 1 to 3, return to the CFG 2 level. Re-enter under Prot the first value that you noted down. Now press and hold the F button until the display appears.

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Example calibration of the type 9162 Process Display for a strain-gage force sensor e.g. type 8435

with strain-gage-simulator model 9405 Initial steps: • Jumper J3 is closed (page 10 of operating manual). • Sensor - Excitation 10Vdc (p.10) • Press the F button until CFG flashes. • Enter 2 using the arrow button. • Press the F button several times until Prot is displayed, then enter 0 using the Down arrow

button; press F. Calibration using strain-gage simulator: • Connect the simulator to the Process Display unit in the same way as a strain-gage sensor. • Hold down the F button until CFG flashes. • Use the arrow button to scroll to 3 and confirm with the F button. • Now select parameters as shown in the table on p. 15. • Example: Force sensor type 8435-6001-V010 (1.000 N) • Nominal characteristic value from test report: 1.0017 mV/V • In.tYP: set 1 (p.15) • In.Cod: set 5 (p.15) • Set the next menu options in CFG3 as prompted: • Lo.Lin:0 • Hi.Lin: set nominal characteristic value of sensor using arrow buttons, in example 1.100 (full

scale + 10 %). • Now hold down the F button until CAL flashes. Now use the Up arrow button to set 5 - then

press F - now CAL_SG flashes. • Now use the arrow buttons to set the value available for the nominal upper range value. • This is calculated from: sensor upper range value (1.000 N) / Sensor characteristic value

(1.0017 mV/V) * Simulator value (1.00 mV/V) = 0.998 • Press the F button; PrS. 1 is displayed. • Press the F button again to accept the value previously applied for the zero point (simulator at

0 mV/V); PrS.2 is now displayed. • Now you must apply the characteristic value (1.000 mV/V) and press the F button again. The

unit is now calibrated. • Now press and hold the F button until the measured value appears on the display. Please note the following points: • Note down all the settings on the enclosed sheet "9162 confiruation" • Scroll through all the menu points and check that the settings are correct according to the

operating manual.

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26 • 9162 – configuration data

Menü Submenü alt neu Standard data: limit value 1 1.0 device model: limit value 2 2.0 device number: limit value 3 3.0 CFG 1 Code 1 Hy 1 0.1 sensor model: Hy 2 0.1 Sensor number: Hy 3 0.1 CFG 2 Prot 1 hardware configuration: bAud 3 levels accessible butt 1 1 jumper J3 = ON butt 2 2 configuration CFG2-4 butt 3 4 jumper J3 = OFF blocked dif. 1 7 dif. 2 11 supply voltage: _______ VDC out 1 0 ON OFF out 2 0 J5 out 3 0 J10 rel 0 J15 CFG 3 In.typ 1 J24 In.Cod 1 Filt 0.01 Fild 0.5 deC.P 1 ofset 0.0 Lo.Lin 0.0 Hi.Lin 110.0 typr 1 0 typr 2 0 Lo.Sp 0.0 Hi.Sp 100.0 out.tr 0 Lo.tr 0.0 Hi.tr 100.0 Lo.Al 0.0 Hi.Al 100.0 remark:

inspector: _____________ data: _______________