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  • DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin
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1 of 44 REV: 110106 GENERAL DESCRIPTION The DS33Z41 design kit is an easy-to-use evaluation board for the DS33Z41 Ethernet transport-over-serial link device. The DS33Z41DK is intended to be used with a resource card for the serial link. The serial link resource cards are complete with transceivers, transformers, and network connections. Dallas’ ChipView software is provided with the design kit, giving point-and-click access to configuration and status registers from a Windows®-based PC. On-board LEDs indicate receive loss-of-signal, queue overflow, Ethernet link, Tx/Rx, and interrupt status. Windows is a registered trademark of Microsoft Corp. ORDERING INFORMATION PART DESCRIPTION DS33Z41DK DS33Z41 demo card, T1/E1 transceiver resource card included FEATURES Demonstrates Key Functions of DS33Z41 Ethernet Transport Chipset Includes Resource Card for DS21458 T1/E1 quad Transceiver with Transformers, RJ48 Network Connectors, and Termination Provides Support for Hardware and Software Modes On-Board MMC2107 Processor and ChipView Software Provide Point-and-Click Access to the DS33Z41 Register Set All DS33Z41 Interface Pins are Easily Accessible for External Data Source/Sink LEDs for Loss-of-Signal, Queue Overflow, Ethernet Link, Tx/Rx, and Interrupt Status Easy-to-Read Silkscreen Labels Identify the Signals Associated with All Connectors, Jumpers, and LEDs DESIGN KIT CONTENTS DS33Z41DK Main Board Quad-Port Serial Card with DS21458 T1/E1 CD_ROM o ChipView Software and Manual o DS33Z41DK Data Sheet o Configuration Files www.maxim-ic.com DS33Z41DK Ethernet Transport Design Kit

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Page 1: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

1 of 44 REV: 110106

GENERAL DESCRIPTION The DS33Z41 design kit is an easy-to-use evaluation board for the DS33Z41 Ethernet transport-over-serial link device. The DS33Z41DK is intended to be used with a resource card for the serial link. The serial link resource cards are complete with transceivers, transformers, and network connections. Dallas’ ChipView software is provided with the design kit, giving point-and-click access to configuration and status registers from a Windows®-based PC. On-board LEDs indicate receive loss-of-signal, queue overflow, Ethernet link, Tx/Rx, and interrupt status. Windows is a registered trademark of Microsoft Corp. ORDERING INFORMATION

PART DESCRIPTION

DS33Z41DK DS33Z41 demo card, T1/E1 transceiver resource card included

FEATURES Demonstrates Key Functions of DS33Z41

Ethernet Transport Chipset Includes Resource Card for DS21458 T1/E1

quad Transceiver with Transformers, RJ48 Network Connectors, and Termination

Provides Support for Hardware and Software Modes

On-Board MMC2107 Processor and ChipView Software Provide Point-and-Click Access to the DS33Z41 Register Set

All DS33Z41 Interface Pins are Easily Accessible for External Data Source/Sink

LEDs for Loss-of-Signal, Queue Overflow, Ethernet Link, Tx/Rx, and Interrupt Status

Easy-to-Read Silkscreen Labels Identify the Signals Associated with All Connectors, Jumpers, and LEDs

DESIGN KIT CONTENTS • DS33Z41DK Main Board • Quad-Port Serial Card with DS21458 T1/E1 • CD_ROM

o ChipView Software and Manual o DS33Z41DK Data Sheet o Configuration Files

www.maxim-ic.com

DS33Z41DKEthernet Transport Design Kit

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TABLE OF CONTENTS GENERAL DESCRIPTION..........................................................................................................1

ORDERING INFORMATION .......................................................................................................1

DESIGN KIT CONTENTS............................................................................................................1

COMPONENT LIST.....................................................................................................................3

PC BOARD ERRATA..................................................................................................................9

FILE LOCATIONS .......................................................................................................................9

BASIC OPERATION..................................................................................................................10 POWERING UP THE DESIGN KIT ...............................................................................................................10

General ............................................................................................................................................................... 10 BASIC DS33Z41 INITIALIZATION (USED FOR ALL QUICK SETUPS) .............................................................10

Quick Setup #1 (Device Driver + DS21458 T1/E1) ............................................................................................ 11 Quick Setup #2 (DS21458 T1/E1, Register Based) ........................................................................................... 11 Configuration Note: Using a Single System ....................................................................................................... 11 Configuration Note: A Mixing Device Driver and Register-Based Modes .......................................................... 11

CONFIGURATION SWITCHES AND JUMPERS......................................................................12

ADDRESS MAP (ALL CARDS) ................................................................................................14 QUAD T1/E1 RESOURCE CARD FPGA REGISTER MAP ............................................................................14

ID REGISTERS..........................................................................................................................14 CONTROL REGISTERS.......................................................................................................................15

DS33Z41 INFORMATION..........................................................................................................16

DS33Z41DK INFORMATION ....................................................................................................16

TECHNICAL SUPPORT............................................................................................................16

DOCUMENT REVISION HISTORY ...........................................................................................16

SCHEMATICS ...........................................................................................................................17

LIST OF FIGURES Figure 1. System Floorplan.......................................................................................................................................... 8 Figure 2. DS21458 Resource Card Floorplan ............................................................................................................. 8 Figure 3. Schematic Hierarchy and Floorplan ........................................................................................................... 17

LIST OF TABLES Table 1. Component List (Decoupling Caps Not Shown)............................................................................................ 3 Table 2. Main Board PC Board Configuration ........................................................................................................... 12 Table 3. Overview of Daughter Card Address Map................................................................................................... 14 Table 4. Quad T1/E1 Processor Card FPGA Register Map...................................................................................... 14

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COMPONENT LIST Table 1 shows the component list for the DS33Z44 and DS33Z11/DS33Z41 design kits and resource cards. This BOM contains the part listing for five boards. These boards are the DS33Z41DK, DS33Z44DK, DS21458RC, DS3174RC, and DS2155-DS21348-DS3170RC. Each reference designator is only used once. For example, U18 only appears on the DS33Z41DK and is not used on any of the other boards. See Table 2. Table 1. Component List (Decoupling Caps Not Shown)

DESIGNATION QTY DESCRIPTION SUPPLIER PART

U18 1 ELITE 10/100 ETHERNET TRANSPORT OVER SERIAL LINK 14X14 CSBGA 169 PIN Dallas Semiconductor DS33Z41

U20 1 3.3V T1.E1.J1 QUAD TRANSCEIVER 0-70C 256P BGA Dallas Semiconductor DS21458

U22 1 QUAD 10/100 ETHERNET EXTENSION TO WAN 17X17 PBGA 256 PIN Dallas Semiconductor DS33Z44

U23 1 DS3/E3 SCT, 11X11 CSBGA, 100 PIN Dallas Semiconductor DS3170 U24 1 T1/E1/J1 XCVR 100P QFP 0-70C Dallas Semiconductor DS2156L U25 1 3.3V LIU Dallas Semiconductor DS21348

UB08 1 QUAD TRIPLE DUAL SINGLE ATM PACKET PHYS FOR DS3 E3 STS1 0-70C 400P BGA Dallas Semiconductor DS3184

U01, U09 2 SOIC 8PIN STEP-UP DC-DC CONVERTER 0.5A LIMIT Maxim MAX1675EUA

U07, U11 2 8-Pin μMAX/SOIC 1.8V or Adj Maxim MAX1792EUA18

U13, UB01 2 MICROPROCESSOR VOLTAGE MONITOR, 2.93V RESET, 4PIN SOT143 Maxim MAX811SEUS-T

U21, UB07 2 Dual RS-232 transceivers with 3.3V/5V internal capacitors MAXIM NA

U31, UB06, UB11 3 8-Pin μMAX/SOIC 2.5V or Adj Maxim MAX1792EUA25 C11, C13, C16, C25, C27, C31–C35, C37, C41, C47, CB10, CB63, CB114, CB128, CB164, CB496

19 1206 CERAM 10uF 10V 20% Panasonic ECJ-3YB1A106M

CB390, CB391, CB395, CB396 4 1206 CERAM 0.1uF 25V 10% Panasonic ECJ-3VB1E104K D01–D03, D05, DB03–DB05 7 SCHOTTKY DIODE, 1 AMP 40 VOLT International Rectifier 10BQ040 DS01, DS07, DS10–DS12, DS17, DS20 7 LED, AMBER, SMD Panasonic LN1451C

DS02, DS03, DS09, DS14, DS15 5 L_LED, GREEN, SMD Panasonic LN1351C

DS04–DS06, DS08, DS13, DS16, DS18, DS27, DS28, DS35, DS37, DS38, DS40

13 LED, RED, SMD Panasonic LN1251C

DS19, DS43 2 LED, GREEN, SMD Panasonic LN1351C DS21–DS26, DS30, DS32–DS34, DS36, DS39, DS41, DS42, DS44–DS48

19 L_LED, RED, SMD Panasonic LN1251C

GND_TP01–GND_TP07, GND_TP09-–GND_TP44, GND_TP46–GND_TP68, GND_TPB01–GND_TPB10

76 STANDARD GROUND CLIP KEYSTONE 4954

H1–H8, H17–H19 8 KIT, 4-40 HARDWARE, .50 NYLON STANDOFF AND NYLON HEX-NUT NA Lab Stock

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DESIGNATION QTY DESCRIPTION SUPPLIER PART

H9–H16 16 KIT, 4-40 HARDWARE, 1.12 NYLON STANDOFF AND NYLON HEX-NUT (1.12 STANDOFF PN = 4807K-ND)

NA Lab Stock

J01–J05 5 CONNECTOR, FASTJACK SINGLE, 8 PIN Halo Electronics HFJ11-2450E

J06, J41 2 100 MIL 2*7 POS JUMPER NA Lab Stock

J07–J12 6 RECEPTACLE, SMD, 140 PIN, .8MM, 2 ROW VERTICAL AMP 5-179010-6

J13–J22 10 L_TERMINAL STRIP, 10 PIN, DUAL ROW, VERT DO NOT POPLUATE NA Lab Stock

J23, J29, J32, J38, J39, J43, J44, J47, JB07 9 L_TERMINAL STRIP, SHROUDED, 10 PIN, DUAL

ROW, VERT 3M Electronics 2510-6002UB

J24, J30, J31, J33 4 100 MIL 2 POS JUMPER NA Lab Stock

J25, J26, J45, J46 4 TERMINAL STRIP, 10 PIN, DUAL ROW, VERT NA Lab Stock

J27, J42 2 CONN 50 PIN, 2 ROW, POSTS VERT, MOTHERBOARD FOOTPRINT SAMTEC TSW-125-07-T-D

J28, J36 2 L_CONN, DB9 RA, LONG CASE AMP 747459-1

J48, J54, JB01 3 SOCKET, BANANA PLUG, HORIZONTAL, BLACK Mouser Electronics 164-6218

J49–J52 4 CONNECTOR BNC 75 OHM VERTICAL 5PIN Cambridge CP-BNCPC-004

J53, JB02, JB08 3 SOCKET, BANANA PLUG, HORIZONTAL, RED Mouser Electronics 164-6219

J55, JB11 2 L_RJ48 8 PIN SINGLE PORT CONNECTOR MOLEX 15-43-8588

J56–J59, J61, J63 6 CONNECTOR BNC 75 OHM RA 5PIN Trompetor UCBJR220 J60, J62, J64, J65 4 CONNECTOR BNC RA 5PIN Trompetor UCBJR220

JB05, JB06, JB09, JB10, JB13, JB14 6 PLUG, SMD, 140 PIN, .8MM, 2 ROW VERTICAL AMP 179031-6

JB12 1 RA RJ45 8PIN 4PORT JACK MOL 43223-8140 JP01–JP19 19 100 MIL 3 POS JUMPER NA NA

L01, L03–L08, LB01, LB02 9 FERRITE 3A 100 OHM AT 100 MHZ 1206 SMD Steward HI1206N101R-00

L02, L09 2 INDUCTOR 22.0uH 2PIN SMT 20% Coiltronics UP1B-220

L10 1 XFMR 1-2CT XMIT, 1-1CT RCV, 40P WIDE SOIC Pulse T1068

R01, R02, RB10, RB11, RB18, RB19, RB22, RB23, RB26, RB27

10 RES 0603 54.9 Ohm 1/16W 1% Panasonic ERJ-3EKF54R9V

R03, R04, RB12, RB13, RB20, RB21, RB24, RB25, RB28, RB29

10 RES 0603 49.9 Ohm 1/16W 1% Panasonic ERJ-3EKF49R9V

R05, R06, R08, R09, R11 5 RES 0603 10.0K Ohm 1/16W 1% - Must be 1% tolerance Panasonic ERJ-3EKF1002V

R07, R12, R16, R79, R160, R244, R248, R250, R251, R254, R255, RB126, RB143, RB147, RB150, RB157

16 RES 0603 1.0K Ohm 1/16W 5% Panasonic ERJ-3GEYJ102V

R10, R107 2 RES 1206 5.6 Ohm 1/8W 5% Panasonic ERJ-8GEYJ5R6V

R132, R137, R142, R144, R156, RB194, RB208, RB227 8 L_RES 0603 0 Ohm 1/16W 1% AVX CJ10-000F

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DESIGNATION QTY DESCRIPTION SUPPLIER PART

R13–R15, R18–R20, R22, R23, R29, R30, RB01, RB03, RB07, RB09, RB15–RB17, RB30–RB32, RB34–RB38, RB41, RB44, RB47, RB48, RB50–RB52, B55, RB60, RB62, RB72, RB73, RB75, RB80, RB82

40 RES 0603 5.1K Ohm 1/16W 5% Panasonic ERJ-3GEYJ512V

R17, R21, R25–R28, R31, R55, R57–R59, R71, R74–R76, R83, R96–R102, R105, R106, R109, R111, R112, R115–R117, R120, R122–R126, R128, R133, R134, R140, R141, RB61, RB96, RB97, RB99, RB100, RB102–RB110, RB112, RB114–RB119, RB121, RB123–RB125, RB127, RB128, RB130, RB131, RB133, RB135–RB138, RB145, RB148, RB149, RB160, RB161, RB164, RB165, RB167–RB171, RB173–RB181, RB184, RB187, RB311, RB320, RB335, RB339, RB359

104 RES 0603 30 Ohm 1/16W Panasonic ERJ-3GEYJ300V

R171, R172, R174, R175, R190, R191, R240, R241 8 L_RES 0805 0.0 Ohm 1/10W 5% Panasonic ERJ-

6GEY0R00V R198–R200, R210–R213, RB306, RB325, RB326 10 RES 0603 332 Ohm 1/16W 1% Panasonic ERJ-3EKF3320V

R201–R208, RB321–RB324, RB327–RB330 16 RES 1206 0 Ohm 1/8W 5% Panasonic ERJ-

8GEYJ0R00V R239, RB349 2 RES 0805 51.1 Ohm 1/10W 1% Panasonic ERJ-6ENF51R1V R24, R114, R197, RB14, RB33, RB40, RB42, RB43, RB49, RB53, RB54, RB57–RB59, RB71, RB77, RB78, RB152–RB156, RB221, RB234, RB251, RB284, RB304, RB331, RB332, RB342, RB344, RB350, RB354, RB360

34 L_RES 0603 330 Ohm 1/16W 5% Panasonic ERJ-3GEYJ331V

R242, R243, RB144, RB166, RB355–RB358, RB368–RB371 12 RES 0603 51 Ohm 1/16W 5% Panasonic ERJ-3GEYJ510V

R32, R70, R78, R161, R176, R194, R195, R237, R238, RB129, RB134, RB146, RB193

13 RES 0603 330 Ohm 1/16W 5% Panasonic ERJ-3GEYJ331V

R33–R54, R60–R69, R72, R73, R131, R136, R143, R147, R150, R154, R158, R163, R166, R169, R173, R178–R189, R215–R228, RB89–RB95, RB101, RB188–RB191, RB196–RB199, RB202–RB205, RB210–RB213, RB216–RB219, RB223–RB226, RB230–RB233, RB239–RB242, RB244–RB249, RB252–RB260, RB265–RB268, RB270-RB282, RB289–RB297

152 RES 0402 30 Ohm 1/16W 5% Panasonic ERJ-2GEJ300X

R56, R90 2 RES 0603 1.0M Ohm 1/16W 5% Panasonic ERJ-3GEYJ105V

R77, RB159 2 L_RES 1206 0 Ohm 1/8W 5% Panasonic ERJ-8GEYJ0R00V

R80, R81, R84, R87, R89, R91–R93, R95, R108, R110, R118, R127, R152, R153, R196, R209, R214, R229–R236, RB200, RB237, RB238, RB263, RB264, RB286, RB287, RB300, RB301, RB333, RB364

37 RES 0603 10K Ohm 1/16W 5% Panasonic ERJ-3GEYJ103V

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DESIGNATION QTY DESCRIPTION SUPPLIER PART R85, R88, R94, R104, R113, RB02, RB04–RB06, RB08, RB39, RB45, RB46, RB56, RB63–RB70, RB76, RB83, RB98, RB183, RB185, RB192, RB209, RB228, RB302, RB303, RB305, RB338, RB340, RB341, RB346–RB348, RB351–RB353, RB361–RB363, RB365–RB367

48 RES 0603 2.0K Ohm 1/16W 5% Panasonic ERJ-3GEYJ202V

R86, R103, R119, R121, R129, R130, R135, R138, R139, R145, R146, R149, R151, R157, R162, R164, R167, R168, R170, R177, R192, R193, R245-R247, R249, R252, R253, R256, R257, RB74, RB79, RB132, RB139-RB141, RB151, RB162, RB163, RB172, RB182, RB186, RB206, RB207, RB214, RB215, RB220, RB222, RB229, RB235, RB236, RB243, RB250, RB261, RB262, RB269, RB308–RB310, RB343, RB345

61 L_RES 0603 10K Ohm 1/16W 5% Panasonic ERJ-3GEYJ103V

RB201, RB285 2 RES 0805 330 Ohm 1/10W 5% Panasonic ERJ-6GEYJ331V

RB283 1 RES 0603 10K Ohm 1/10W 5% - SEE SPECIAL INSTRUCTIONS Panasonic 603_ERJ-

3GEYJ103V

RB298, RB299, RB312–RB319, RB336, RB337 12 RES 0805 61.9 Ohm 1/10W 1% Panasonic ERJ-6ENF61R9V

RB81, RB84–RB88, RB111, RB113, RB120, RB122 10 RES 0603 DO NOT POPULATE NA NA

SW01–SW05, SW08–SW21, SW24–SW26, SW29–SW31, SW33–SW44

37 L_SWITCH, SP3T SLIDE, 4PIN TH Tyco 3-1437575-3

SW06, SW22 2 L_SWITH 8POS 16PIN DIP LOW PROFILE AMP 435668-7

SW07, SW23 2 SWITCH MOM 4PIN SINGLE POLE Panasonic EVQPAE04M SW27, SW28, SW32 3 L_DIPSWITCH, 10 POS AMP 435668-9 T01, T03 2 XFMR 16P SMT Pulse TX1099

T02, TB01 2 XFMR, OCTAL T3/E3, 1 TO 2, SMT 32 PIN Pulse T3049

TP01–TP78, TPB01, TPB02 80 TESTPOINT, 1 PLATED HOLE, DO NOT STUFF NA NA

U02–U06 5 IC, DsPHYTER11-SINGLE 10/100 ETHERNET TRANSCEIVER, 65 PIN LLP

National Semiconductor

DP83847ALQA56A

U08, U12, U29 3 1MBit Flash based config mem Avnet XCF01SV020C

U10 1 XILINX SPARTAN xc200 2.5V FPGA,256 PIN BGA Xilinx XC2S200-5FG256C

U14, U26, U30, UB05 4 CYPRESS SRAM, LAB STOCK NA NA U15, U19 2 mmc2107 processor Motorola MMC2107

U16, U27 2 XILINX SPARTAN 2.5V FPGA,256 PIN BGA Xilinx XC2S50-5FG256C

U17, U28, U32 3 10 pin res pack, 10K ohm NA NA

UB02, UB03, UB04 3 100 PIN CPLD XILINX XC95144XL-10TQ100C

UB09, UB10 2 SYNCHRONOUS DRAM, 1MEGX32X4 BANKS, TSOP 86 PIN Micron MT48LC4M32B2

TG-7

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DESIGNATION QTY DESCRIPTION SUPPLIER PART UX01–UX12, UXB02–UXB04,

UXB06–UXB08 18 HIGH SPEED BUFFER Fairchild NC7SZ86

UXB01, UXB05 2 HIGH SPEED INVERTER Fairchild NC7SZ86 X01, X02 2 XTAL LOW PROFILE 8.0MHZ ECL EC1-8.000M

Y01, Y09 2 OSCILLATOR, CRYSTAL CLOCK, 3.3V - 25.000 MHZ, Low Jitter required for PHY SaRonix NTH089AA3-

25.000

Y02, Y13 2 SPI SERIAL EEPROM 16K 8 PIN DIP 2.7V NEEDS SOCKET Atmel AT25160A-10PI-

2.7

Y03 1 OSCILLATOR, CRYSTAL CLOCK, 3.3V - 2.048 MHZ SaRonix NTH039A3-2.0480

Y05, Y06 2 OSCILLATOR, CRYSTAL CLOCK, 3.3V - 100.000 MHZ SaRonix NTH089A3-

100.0000

Y07 1 OSCILLATOR, CRYSTAL CLOCK, 3.3V - 44.736 MHZ SaRonix NTH089AA3-44.736

Y08 1 OSCILLATOR, CRYSTAL CLOCK, 5.0V - 44.736 MHZ SaRonix NTH089AA-44.736

YB02 1 L_OSCILLATOR, CRYSTAL CLOCK, 3.3V - 2.048 MHZ SaRonix NTH039A3-

2.0480

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Figure 1. System Floorplan Figure 2 shows the DS21458 quad T1/E1 PC board floorplan. The current configuration is to populate oscillators for MCLK1 with a 8.192MHz oscillator. Testpoints for port 3 and port 4 are provided on the WAN card, and testpoints for ports 1 and 2 are provided on the motherboard.

Figure 2. DS21458 Resource Card Floorplan

DS33Z41 MAINBOARD

DS33Z41

SDRAM ETHERNET PHY,

MAGNETIC, LEDS, AND JUMPERS

MICROPROCESSOR AND SERIAL PORT

(57600-8-N-1)

HARDWARE

MODE SWITCHES FOR DS33Z41

SERI

AL IN

TERF

ACE

2 X

140 P

IN C

ONNE

CTOR

S

LEDS AND TESTPOINTS DS21458 RESOURCE CARD (DETAIL PROVIDED BELOW)

PORT 2

PORT 4

PORT 1

PORT 3

DS21458

QUAD-PORT T1/E1

TRANSCEIVER

140 P

IN C

ONNE

CTOR

S

TEST

POI

NTS

FPGA

OSC MCLK1, 2

JTAG

QUAD

-POR

T RJ

45

QUAD

TR

ANSF

ORME

R

RLOS LEDS INT LED

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PC BOARD ERRATA • Silkscreen for JTAG connector signal descriptions is incorrect on the quad T1/E1 card. This should be

corrected with an adhesive label.

FILE LOCATIONS This design kit relies upon several supporting files, which are provided on the CD and are available as a zip file from the Maxim website at www.maxim-ic.com/DS33Z41DK. All locations are given relative to the top directory of the CD/zip file.

• DS33Z41 register definition files and configuration files: o .\cfg_demo_gui\DS33Z41_cfg_demo_gui\DS33Z41.def o .\DS33Z41_cfg_demo_gui\SU_LI_PORT1.def o .\DS33Z41_cfg_demo_gui\z41_basic.mfg

• DS21458 register definition files and configuration files: o .\DS33Z41_cfg_demo_gui\Qt1e1_DS21458\DS21458RC_FPGA.def o .\DS33Z41_cfg_demo_gui\Qt1e1_DS21458\DS21458RC.def o .\DS33Z41_cfg_demo_gui\Qt1e1_DS21458\T1_IBO_ LoopTime.ini o .\DS33Z41_cfg_demo_gui\Qt1e1_DS21458\T1_IBO_ SourceTime.ini o .\DS33Z41_cfg_demo_gui\Qt1e1_DS21458\E1_CRC_HDB3_IBO_ SourceTime.ini o .\DS33Z41_cfg_demo_gui\Qt1e1_DS21458\E1_CRC_HDB3_IBO_ LoopTime.ini

http://www.maxim-ic.com/DS33Z44DK
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BASIC OPERATION Powering Up the Design Kit • Attach DS21458 resource card to main board. • Connect PCB 3.3V and GND banana plugs to power supply. At power-up the system should draw

approximately 1A. • Set switches for software mode as described in Table 2 (short description follows).

• Top left bank: All low, except for MODEC0, which is high. • Top right bank: A2, A1, A0 in mid position, SCANTRI low • Bottom Bank: All high (AFCS, FULLDS, H1OS)

General • Upon power-up, the processor FPGA Status LEDs (DS43 green) will be lit. Interrupt LEDs (DS44 red) will not

be lit. DS33Z11 Queue overflow LEDs (DS39 red) will not be lit. PHY LINK LED (DS06 green) should be lit if the Ethernet is connected.

Following are several basic system initializations. These initializations assume that there are two boards present (DS33Z41 and / or DS33R41). A note is provided below to assist with using a system that only contains one board.

Basic DS33Z41 Initialization (Used for All Quick Setups) This section covers four basic methods for configuring the DS33Z41. Any one of these initializations can be used with the following Quick Setup examples:

1. Upon power-up, the on-board device driver provides a basic configuration for the DS33Z41 and attached serial cards. This enables traffic to pass from the Ethernet port to the serial port. Consult the device driver documentation for further details. Device driver behavior is dependant upon jumper settings, which are detailed in Table 2.

2. Launch ChipView.exe and select Register View. When prompted for a definition file, pick the file named DS33Z41.def. Following this load the definition file named DS21458RC_FPGA.def

3. Hardware Mode is not available with this DK 4. EEPROM mode is not available with this DK. 5. Ethernet Traffic generation and analysis:

a. Using a patch cable, connect the Ethernet connector to an ordinary PC, or network test equipment. This should cause the link LED to turn on.

b. Although ping is mentioned it is *not* recommended. The ping command goes through the computers TCPIP stack, and will sometimes will not be sent out the PCs network connector (i.e. if the PCs ARP cache is out of date). Additionally ping requires two PCs, as a PC can not ping itself (a local ping gets sent to ‘localhost’ instead of out the connector). With that said – ping is still a valuable test once the prototyping stage is complete.

c. Generation and capture of arbitrary (raw) packets can be accomplished using CommView. A time-limited demo is available at the website www.tamos.com/products/commview.

d. Ethereal is an excellent (and free) packet capture utility. Download is available at www.ethereal.com.

e. Adding additional Ethernet ports to a PC is rather simple when a USB-to-Ethernet adapter is used. This allows for end-to-end testing using a single PC. When using two adapters the PC will have a different IP address for each adapter. Test equipment will allow selection of either adapter. Operating system based network traffic will be sent out the default adapter, usually this is the adapter that has recently had connection to a real network.

http://www.tamos.com/products/commview/
http://www.ethereal.com/
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Quick Setup #1 (Device Driver + DS21458 T1/E1) • Select TCLK source for the DS21458 resource card. If this is the only DS33Z41 in the system (i.e. used in

loopback) then select TCLK=MCLK. From Table 2, this requires that the J45.3+J45.4 jumper is not installed. If this is the second DS33Z41 in the system select TCLK=RCLK, which requires that J45.3+J45.4 jumper is installed. Note: The TCLK source settings can be changed using the driver interface, which is described below.

• Complete the hardware configuration and one of the basic DS33Z41 configurations as described in the previous section.

• At this point any packets sent to the DS33Z41 are sent out the T1/E1 ports. Incoming Ethernet packets should cause the RX LED to blink, transmitted packets cause the TX LED should also blink.

• Launch ChipView.exe, select Register View • To interact with the device driver go to ChipView and select from the drop down menu:

• Tools→Plugins→Load Plugins. When asked if DLLs have already registered select yes • Select Tools→Plugins→DS33Z41/11/41 Device Driver Demo • A new form called ‘Zchip Configuration’ appears • Preload basic configuration for the GUI by selecting File→Load Settings (in the ‘Zchip Configuration’ form).

Select the file named ‘basic_Config.eset’ Quick Setup #2 (DS21458 T1/E1, Register Based) 1. Disable device drivers and callbacks – remove all jumpers from J45 header. Press the reset button, or cycle

power on the board to restore the system to its power-on state. 2. Configure the DS33Z41. After the definition files load, go to the File menu and select File→Memory Config

File→Load .MFG file. When prompted, select the file named z41_basic.mfg. 3. Set the DS2148 serial card for IBO mode. Using the menu marked ‘Def File Selection’ switch to the

DS21458RC_FPGA def file. Set the register MO+CLK to 0x47. 4. Configure the DS21458. Go to the File menu and select File→Register INI File→Load .INI file. When

prompted, select either the file named T1_IBO_ SourceTime.ini (TCLK=MCLK) or T1_IBO_ LoopTime.ini (TCLK=RCLK). Set one board to be the source of network timing (TCLK=MCLK), and one board to follow the timing source (TCLK=RCLK). The RLOS LEDs should go out when this step is complete for both boards.

5. Additional setup (for both boards): • Switch to the DS33Z41 def file and set the following:

• Set the GL.IMUXCN register to 0x0F (both systems) • Set GL.IMUXC register to 0x00 then to 0x82 (both systems) • Check GL.IMUXSS register. They should be 0xFF on both systems • Return to GL.IMUXCN and set the bits RXE and SENDE • The system should now be configured to pass Ethernet traffic into one system and out of the other.

Configuration Note: Using a Single System The DS33Z41 is intended for use in a system with a DS33Z41 at each end. However, the system may be tested with only a single DS33Z41 system. This configuration requires that the DS21458 serial link is in loopback, either internal loopback or hardware loopback may be used. In this configuration any packets sent to the Ethernet side will be echoed back. In this configuration the setting for DS21458 TCLK=MCLK should be used (see Table 2) and steps intended for the “second” system may be ignored. Configuration Note: A Mixing Device Driver and Register-Based Modes Quick setup #1 discuses device driver based operation. Quick setup #2 discusses register based operation. To some extent both modes may be used simultaneously to gain insight to device configuration. For example:

• In register view click “Read All” this causes all registers to be read, changed registers turn green. • Switch to the device driver GUI, select one of the forms, make changes, and click “send configuration” • Switch back to register view and click “Read All”. Newly changed registers will turn green, showing which

registers changed as a result of settings selected in the device driver GUI

A second type of device driver/register-based configuration is to power the board with the device drivers enabled, and then remove the jumpers that enable the device drivers. This allows for a fast initial configuration.

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CONFIGURATION SWITCHES AND JUMPERS The DS33Z41DK has several configuration switches, banana plugs, oscillators, and jumpers. Table 2 provides a description of these signals, given in order of appearance on the PC board (going from left to right, top to bottom).

Table 2. Main Board PC Board Configuration

BASIC SETTING SILKSCREEN REFERENCE FUNCTION

SW MODE HW MODE DESCRIPTION

J45.9 + J45.10 Reserved Not installed —

This jumper is not for use with the DS33Z41 design kit. Pin J25.10 has been removed to prevent accidental installation

J45.7 + J45.8 Enable device driver User decision — When installed the device driver will configure the DS33Z41 and the Transceiver during power-up.

J45.5 + J45.6 Enable callbacks User decision — When installed the driver will respond to interrupts

J45.3 + J45.4 Select TCLK source User decision —

When installed the driver will configure DS21458 TCLK to be sourced from DS21458 RCLK. When not installed DS21458 scaled MCLK is used. This setting is only applied at reset. If only one board is used select TCLK = MCLK.

GROUND (banana plug) Power supply ground — — System Ground. Always

connected to power supply. VDD 3.3V

(banana plug) Power supply VDD — — System VDD. Always connected to power supply.

OnCe BDM — — Debug connector for processor DCEDTES

(3pos switch) DS33Z41 mode pin; DTE/DCE selection LOW LOW Low for DTE

RMIIMII (3pos switch) DS33Z41 mode pin LOW LOW High for RMII, low for MII

CKPHA (3pos switch) DS33Z41 mode pin LOW LOW SPI EEPROM hardware mode

configuration switch MODEC0

(3pos switch) DS33Z41 mode pin HIGH LOW Software mode selected

MODEC1 (3pos switch) DS33Z41 mode pin LOW LOW Software mode selected

HWMODE (3pos switch) DS33Z41 mode pin LOW LOW Hardware/software mode

(software mode selected) SCANMO

(3pos switch) DS33Z41 mode pin LOW LOW Set low for normal operation

SCANTRI (3pos switch) DS33Z41 mode pin LOW LOW Set low for normal operation

….testpoints…. DS33Z41 testpoints — — Processor bus, JTAG and LAN side testpoints for Zchip

Z-RESET (button) DS33Z41 reset — — System reset

A2, A1, A0 (3pos switches) DS33Z41/SPI pins Mid position Mid position

Address pin/EEPROM config switch. Set to mid position to allow connection to processor.

SDRAM CLOCK DS33Z41 SDRAM clock Installed Installed 100MHz oscillator to drive

SDRAM clock

MII CLOCK PHY MII clock Installed Installed 25MHz oscillator to drive SDRAM clock

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BASIC SETTING SILKSCREEN REFERENCE FUNCTION

SW MODE HW MODE DESCRIPTION

spi_cs, spi_ck, spi_miso, spi_mosi

— — — SPI signals (for EEPROM memory)

….testpoints….. DS33Z41 testpoints — — DS33Z41 serial port testpoints AFCS

(1 per port) DS33Z41 mode pin HW mode only HIGH Set high to enable auto flow control.

FULLDS (1 per port) DS33Z41 mode pin HW mode only HIGH Set high to enable full duplex.

H10S (1 per port) DS33Z41 mode pin HW mode only HIGH Set high to confg for 100Mb.

GROUND/VDD (banana plug)

Power supply ground/3.3V — —

Redundant connection to system power. Use plugs at either top or bottom of board.

VDD 3.3V (banana plug) Power supply VDD — —

Redundant connection to system power. Use plugs at either top or bottom of board.

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ADDRESS MAP (ALL CARDS) Motorola resource card address space begins at 0x81000000. All offsets given below are relative to the beginning of the daughter card address space (shown previously). Table 3. Overview of Daughter Card Address Map

OFFSET DEVICE DESCRIPTION

0X0000 to 0X0087 FPGA Processor board identification

0X1000 to 0X1FFF DS33Z41 DS33Z41. Uses CS_X1.

0X2000 to 0X2FFF DS21458 T1/E1 DS21458 resource card. Uses CS_X2.

0X4000 to 0X4010 FPGA

FPGA on DS21458 resource card. Used to facilitate IBO mode. Default configuration of FPGA is compatible with non-IBO mode functionality. The FPGA settings will require modification for use with the DS33Z41 when device drivers are disabled.

Registers in the DS33Z41 and DS21458 can be easily modified using the ChipView host-based user-interface software with the definition files previously mentioned. Quad T1/E1 Resource Card FPGA Register Map

Table 4. Quad T1/E1 Processor Card FPGA Register Map

OFFSET REGISTER NAME TYPE DESCRIPTION

0X4000 Rev Read only FPGA Rev 0X4001 delay_line1 Control Line 1 number of frame delay 0X4002 delay_line2 Control Line 2 number of frame delay 0X4003 delay_line3 Control Line 3 number of frame delay 0X4004 delay_line4 Control Line 4 number of frame delay 0X4005 MO+CLK Control Mode and clock ctrl 0X4006 UNUSED Control Unused / test 0X4007 UNUSED Control Unused / test

ID REGISTERS REV: FPGA REV (Offset=0X4000)

FPGA Rev is read only, showing the current FPGA revision

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CONTROL REGISTERS Register Name: delay_line1, delay_line2, delay_line3, delay_line4 Register Description: DS33Z41 frame delay Register Offset: 0X4001, 0X4002, 0X4003, 0X4004 Bit # 7 6 5 4 3 2 1 0 Name — — B5 B4 B3 B2 B1 B0 Default — — — — 0 0 0 0 Bits 5 to 0: B5 to B0. Number of frame delay for a given line. Register Name: MO+CLK Register Description: DS33ZXY Mode and Clock Settings Register Offset: 0X4005 Bit # 7 6 5 4 3 2 1 0 Name LB MC IR tgapclk rgapclk comm_tclk common_rclk z41_mode Default 0 — — 1 1 0 0 0 Bit 7: LB 0 = Normal operation, traffic goes from the Z chip through the FPGA and to the DS21458. 1 = Loopback, Z chip rser is driven by Z chip tser. Clocks, and frame sync for Z41, are still driven by DS21458. Bit 6: INVERT_RCLKh 0 = Do not invert RCLK. 1 = Invert RCLK. Bit 5: MclkHiBpclkLow 0 = Use BPCLK for clock signals below. 1 = Use MCLK for clock signals below. This signal drives the following clocks: TCLK (when bit for common_tclk is set); RCLK (when bit for common_rclk is set); TSYSCLK and RSYSCLK (when bit for Z41_mode is set). Bit 4: TGAPCLK 0 = Drive internal TGAPCLKx signal with TCLKx. 1 = Drive internal TGAPCLKx signal with TGAPCLK pin. Bit 3: RGAPCLK 0 = Drive internal RGAPCLKx signal with RCLKx. 1 = Drive internal RGAPCLKx signal with RGAPCLK pin. Bit 2: Common TCLK 0 = Drive TCLKx with internal TGAPCLKx signal (see bit 4) 1 = Drive Z chip TCLKx with BPCLK Bit 1: Common RCLK 0 = Drive RCLKx with internal RGAPCLKx signal (see bit 3). 1 = Drive Z chip RCLKx with BPCLK. Bit 0: Z41 Mode 0 = Not in Z41 mode. 1 = In Z41 mode.

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DS33Z41 INFORMATION For more information about the DS33Z41, consult the DS33Z41 data sheet available on our website at www.maxim-ic.com/DS33Z41.

DS33Z41DK INFORMATION For more information about the DS33Z41DK, including software downloads, consult the DS33Z41DK data sheet available on the our website at www.maxim-ic.com/DS33Z41DK.

TECHNICAL SUPPORT For additional technical support, go to www.maxim-ic.com/support.

DOCUMENT REVISION HISTORY REVISION

DATE DESCRIPTION

051505 Initial DS33Z41DK data sheet release. 080706 Updated Table 2. 110106 Updated schematics.

http://www.maxim-ic.com/DS33Z44
http://www.maxim-ic.com/DS33Z44DK
http://www.maxim-ic.com/support
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Maxim/Dallas Semiconductor cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim/Dallas Semiconductor product. No circuit patent licenses are implied. Maxim/Dallas Semiconductor reserves the right to change the circuitry and specifications without notice at any time. Maxim Integrated Products , 120 San Gabrie l Dr ive , Sunnyvale , CA 94086 408-737-7600

© 2006 Maxim Integrated Products The Maxim logo is a registered trademark of Maxim Integrated Products, Inc. The Dallas logo is a registered trademark of Dallas Semiconductor Corporation.

SCHEMATICS The DS33Z41DK schematics are featured in the following pages. As this is a hierarchal schematic some explanation is in order. The main board is composed of six hierarchal blocks: the processor block, the DS33Z41 block, and four Ethernet blocks inside the DS33Z41 block, which is a nested hierarchy block. The DS21458 consists of a single hierarchy block, which connects to a 140-pin AV bus that snaps into the mainboard. All signals inside a hierarchy block are local, with exception for VCC and ground. In-port and out-port connectors are used to allow signals inside a hierarchy block to become accessible as pins on the hierarchy blocks symbol. From here, blocks are wired together as if they were ordinary components. The system diagram is shown again below, with schematic page numbers given for each functional block. This system contained other hierarchy blocks that are not shown (primarily a single-port serial card, T3E3 serial card and the DS33Z44 mainboard). Due to this, page numbers will not be continuous and some gaps in numbering will be seen when referring to the total page count. However, page numbers inside any given hierarchy block will be continuous.

Figure 3. Schematic Hierarchy and Floorplan

DS33Z11 BLOCK PAGE 3. SYMBOL

SCHEMATIC PAGES 5-10

µP BLOCK

PAGE 4 SYMBOL

SCHEMATIC PAGES 13-19

DS33Z11 MAINBOARD TOP LEVEL SCHEMATIC

ETHERNET PHY PAGE 8 SYMBOL

SCHEMATIC PAGES 11-12

SERI

AL IN

TERF

ACE

2 X

140 P

IN C

ONNE

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S

DS21458 RESOURCE CARD

SCHEMATIC PAGES 46-55

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PAGES

5-10

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3/71(TOTAL)

BLOCKNAME:_z11top_dn.

PARENTBLOCK:\_ztopdn_\

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09/16/2004

DS33Z11/41/44DK01A0

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PRINTED

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45

110

104

98

87

73

71

980

13

1110

15

90

16

68

67

134

132

131

130

129

128

127

126

125

124

72

5

82

18

201274

107

108

112

113

44

43321

_z11andlan_dn HWMODE

DAT<7..0>

RESET_B

TDENRDEN

RD

INT

TSER

TCLKI

RCLKI

ADDR<9..0> RSER

CS

WR

MODEC1

MODEC0

Z41TSYNC

Z41RSYNC

Page 19: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

PAGES

13-19

GND

V3_3

I47

A_DUT<11..0>

D_DUT<7..0>

CS_X1

BTS_DUT

BIS1_DUT

BIS0_DUT

WR_DUT

RD_DUT

INT5

INT4

INT3

INT2

TMS_NU

TDI_NU

TDO_NU

TCK_NU

XD<7..0>

XA<15..0>

CS_X5

RESET_B

RW_X

CS_X4

CS_X3

CS_X2

WR_X

DS33Z11/41/44DK01A0

09/16/2004

4/71(TOTAL)

STEVE

SCULLY

BLOCKNAME:_z11top_dn.

PARENTBLOCK:\_ztopdn_\

2/2(BLOCK)

CR-4:

@\_ZTOP_LIB\.\_ZTOPDN_\(SCH_1):PAGE1_I5@\_ZTOP_LIB\.\_Z11TOP_DN\(SCH_1):PAGE2

4D8

3D8

3D8>

3C8<>

3C5<>

3B8<>

3B5<>

3A8<>

3A5<>

17A6v

17A5v

3D3<

17D5v

3D3<

17B3v

3D3<

17C3v

3D1>

17C3v

3C1>

17C3v

3C1>

17C3v

3D3<

17C3v

3D3<

14D4v

3C8<>

13B7v

3C7<>

13B7v

3C7<>

13B7v

3D1>

3C8<>

3C7<>

19A7v

3A8<>

19A7v

3A8<>

19A7v

3A7<>

17B3v

3A6

3A4

17C7v

3A8

3A7

17A4v

3C5<>

13A5v

3D3<

3C7<>

17B3v

3A4<>

17A4v

3C4<>

17A4v

3A5<>

17B3v

3A5<> 17B3v

3A5<>

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

_motprocrescard_dn

CS_X1

CS_X2

CS_X3

RESET_B

CS_X5

CS_X4

TDO_NU

TCK_NU

TDI_NU

TMS_NU

INT2

INT3

INT4

INT5

RD_DUT

WR_DUT

D_DUT<7..0>

A_DUT<11..0>

BIS0_DUT

BIS1_DUT

BTS_DUT

XD<7..0>

XA<15..0>WR

RW_X

V3_3

Page 20: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

(INPUT)

PROC(FPGA)AUTOMATICALYIMPLEMENTSBUSMODE

HW

MODEPINSAREOUTPUTSFROMZ

MODULETO

PROC

LED+TP

(OUTPUT)

DS33Z11/Z41

3C2^

3D2^

5B1<

3C2^

3D2^5B2<

3C2^

3C2^

3C2^

3C2^

3D2^

3C1^ 9D4<

3C1^ 9D2<

3D1^ 9D4<

3D2^

3D2^

3D2^

5A6<> 3D1^

TP35

U18

RB174

J29

TP72

TP71

TP78

TP74

TP75

TP77

UXB06

RB359

RB342

DS44

UXB08

TP53

DS39

R197

TP36

SW26

SW25

SW24

R74

RB173

RB176

RB175

R55

RB178

RB177

Y13

RB345

RB343

RED

330

ZADDR0

JTDI

JTDO

RCLKI

ZMOSI

ZADDR1

ZADDR0

ADDR<9..0>

75

TDEN

INT

30

94 63 6 0 1

RED

330

5

10K

0 110K 2

30

2 3 4 7

ZADDR2

JTCLK

JTMS

JTDO

ADDR<9..0>

JTDI

TCK_NU

TXD2<1>

TXD3<1>

MDC

MDIO

30

30

TX_EN<1>

RDEN

TSERRSER

TCLKI

30

30

TXD1<1>

TXD0<1>

JMP_3

JTRST

TDO_NU

8

ZSPICS

ZSPISCK

ZMISO

2.7V

TDI_NU

TMS_NU

DAT<7..0>

VALUE=30

VALUE=30

JTMS

JTRST

JTCLK

ZADDR2

ZMISO

ZSPISCK

ZADDR1

ZMOSI

COL_DET<1>

RXD1<1>

RXD3<1>

RXDV<1>

CKPHA

SCANMOD

SCANEN

AFCS

H10S

FULLDS

RMIIMIIS

DCEDTES

MODEC1

MODEC0

HWMODE

RESET_B

WR

ZSPICS

CS

RD

INT

RXD2<1>

TX_CLK<1>

RXD0<1>

RX_CLK<1>

RX_CRS<1>

RX_ERR<1>

REF_CLKO

30

BUFFER

BUFFER

REF_CLK

09/16/2004

1/6(BLOCK)

5/71(TOTAL)

STEVE

SCULLY

DS33Z11/41/44DK01A0

BLOCKNAME:_z11andlan_dn.

PARENTBLOCK:\_z11top_dn\

CR-5:

@\_ZTOP_LIB\.\_ZTOPDN_\(SCH_1):PAGE1_I5@\_ZTOP_LIB\.\_Z11TOP_DN\(SCH_1):PAGE1_I1@\_ZTOP_LIB\.\_Z11ANDLAN_DN\(SCH_1):PAGE1

12

41

12

41

11

11

11

65

4

973

10

8

12

B11

E10

E9

A10

B12

C8

E13

C7

F7

E6

D4

A2

A3

B3

A4

C3

B4

A6

A7

B6

F1

C2

B7

B1

A1

B2

C12

C5

C6

A5

B5

F5

H2

E4

D9

C9

B13

C11

A11

D10

G2

F6

E8

E7

C10

B10

A9

C4

A13

D7

D6

D5

D8

E2

B8

C1

E5

C13

E1

F3

D11

F2

D13

A8

B9

H1

162

8 73 4

5

4 4 4

5B2<>

5A3<>

5A3<>

5B4<>

5C3<

5C3<

5A6>

3D1^

5C3<

5D5<

5D5<

5D5<>

5D5<

8C5<

8C5<

8B4>

8B4>

8C5<

8C5<

8D5<

5D5<

5A5>

5B4<>

5B4<>

5A3<>

5A3<>

5A3<>

5A2<>

5C2>

5C2<

5B2<>

5C2<

8C3>

8C3>

8C3>

8C3>

9B4<

9B2<

9B4<

9C2<

9C4<

9C2<

9C4<

9D2<

3D2^ 8B4<

5C2<

8C3>

8C5<

8D3>

8C3>

8C3>

8C3>8A1<

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

IN

V3_3

SP3T

SP3T

SP3T

AT25160A_U

SI

GND

WP*

HOLD*

VCC

SO

SCK

CS*

OUT

IO

IN

IN

IN

OUT

IN

IN

IN

IN

IO

V3_3

JTAG

LINE

IO

MICROPORT/SPIMASTERPORT

MII/RMIIPORTS

DS33Z11_U3

RSER

TXD<0>

TX_CLK

REF_CLK

TSER

RXD<2>

INT*

RD*/DS*

MDIO

JTDO

CS*

SPI_CS*

WR*/RW*

RST*

HWMODE

MODEC<0>

MODEC<1>

DCEDTES

RMIIMIIS

FULLDS

H10S

AFCS

SCAN/EN

SCAN/MODE

CKPHA

RCLKI

RXDV

RXD<3>

RXD<1>

COL_DET

TXD<1>

TXD<2>

JTDI

RDEN/RBSYNC

TDEN/TBSYNC

D<3>

D<0>/MOSI

D<7>

D<6>

MDC

A<3>

A<0>

A<1>

D<5>

A<4>

TCLKI

D<4>

D<2>/SPICK

D<1>/MISO

A<9>

A<7>

A<8>

A<6>

A<5>

A<2>

JTCLK

JTRST

JTMS

QOVF

REF_CLKO

RX_CRS/CRS_DV

RX_ERR

RX_CLK

TXD<3>

TX_EN

RXD<0>

OUT

OUT

OUT

V3_3

6

1084

12

3 5 7 9

CONN_10P

NC7SZ86_U

V3_3

NC7SZ86_U

IN

Page 21: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

SD_CLKOMAY

BE

DELAYED

AND

CONNECTING

BY

REMOVING0

OHM

RESISTOR

JUMPERSWITH

75

OHM

COAX

UNMARKEDRESISTORSARE30

OHMS

30

SD_CLKI

I228

NADS33Z11

10UF

V1_8ZCHIP

V1_8ZCHIP

10UF

10UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

10UF

10UF

10UF

10UF

10UF

0.1UF

10UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

470UF

470UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

10UF

10UF

10UF

Z41TSYNC

SD_RAS

SD_A<11..0>

SD_BA0

SD_BA1

SD_DQM2

SD_DQM1

SD_DQM0

SD_CAS

10

11

9876543210

26

25

23

22

2118

17

16

15

14

13

12

11

10987543210

31

29

28

27

19

206

SD_CS

SD_DQM3

24

SD_DQ<31..0>

Z41RSYNC

0.1UF

0.1UF

NC_PINF9

SD_WE

R187

RB252

RB270

RB272

RB294

RB276

RB275

R220

R221

R222

R188

RB253

R185

RB259

R184

R183

RB258

RB257

RB245

R182

R223

R224

R225

R226

RB297

R227

RB260

R228

R181

R186

RB273

R180

R179

RB271

RB244

R178

R215

R216

R217

RB290

RB289

RB291

RB292

R218

RB256

RB255

RB296

RB274

R219

R189

RB293

RB295

RB278

RB277

RB254

TP46

TP70

TP69

CB428

CB351

CB170

CB136

CB430

CB153

CB129

CB159

CB173

CB249

CB235

CB303

CB226

CB214

CB434

CB213

CB437

CB281

CB244

CB451

CB141

CB186

CB425

CB452

CB413

CB382

CB419

CB418

CB224

CB354

CB175

CB433

CB432

CB183

CB426

CB182

CB252

U18

SD_CLKO 3D2^

3D2^

6/71(TOTAL)

09/16/2004

2/6(BLOCK)

STEVE

SCULLY

DS33Z11/41/44DK01A0

BLOCKNAME:_z11andlan_dn.

PARENTBLOCK:\_z11top_dn\

CR-6:

@\_ZTOP_LIB\.\_ZTOPDN_\(SCH_1):PAGE1_I5@\_ZTOP_LIB\.\_Z11TOP_DN\(SCH_1):PAGE1_I1@\_ZTOP_LIB\.\_Z11ANDLAN_DN\(SCH_1):PAGE2

1 1 1

21

21

21

21

21

21

21

21

21

21

21

21

21

21

21

21

21

21

21

21

21

21

21

21

21

F4

G6

H6

F10

L3

E11

E12

D12

M13

N2

M2

L2

N1

M1

K1

J1

J2

H3

M3

J3

L4

N4

N3

L1

K2

J12

M5

M7

M8

N8

G4

M10

M9

G13

K6

N5

L6

E3

D2

M12

H11

M11

N13

N11

L13

N12

K13

J13

M4

H4

M6

N7

L12

L5

L7

L8

L9

N9

G5

D3

H5

H10

K12

F12

F13

J10

J8

J9

K8

K7

J11

J6

F8

H7

J7

H13

H12

G12

F11

G11

L10

A12

K9

H9

K5

J5

K10

K3

F9

G1

G3

D1

H8

K11

L11

N10

G8

G7

G9

G10

N6

K4

J4

9D5<

10A4<

6B5<

10B4<>

10A4<

6D4<

10B4<>

7C4<

7A3>

7B4<

7B4<

7C4<

7C4<

7C4<

7C4<

7C4<

7C4<

7D7

7C4<

7C3<

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

PWR/GND

SDRAMCONTROLLERSYSTEM

DS33Z11_U3

4VDD1.8

5VDD1.8

SDMASK<0>

5VDD3.3

4VDD3.3

2VDD3.3

3VDD3.3

SDA<1>

SDA<2>

SDA<3>

9VDD3.3

VSS0

NC3

NC2

NC1

VSS1

VSS2

VSS4

VSS5

10VDD3.3

VSS13

VSS18

SDATA<31>

SDATA<30>

SDATA<29>

SDATA<28>

SDATA<27>

SDATA<26>

VSS8

8VDD3.3

VSS3

VSS6

VSS7

VSS9

VSS11

VSS12

VSS10

VSS14

VSS17

VSS16

VSS15

11VDD3.3

6VDD3.3

0VDD1.8

0VDD3.3

SDA<0>

SDA<6>

SDA<5>

SDA<4>

SDA<7>

12VDD1.8

SBA<1>

SBA<0>

SCAS*

SWE*

SDATA<24>

SDATA<23>

SDATA<22>

SDATA<21>

SDATA<20>

SDATA<19>

SDATA<18>

SDATA<17>

SDATA<16>

1VDD1.8

2VDD1.8

SDCS*

SDCLKO

SRAS*

SYSCLKI

SDMASK<3>

SDMASK<2>

SDMASK<1>

SDA<11>

SDA<10>

SDA<9>

SDA<8>

SDATA<25>

SDATA<14>

SDATA<15>

SDATA<6>

SDATA<5>

SDATA<7>

SDATA<8>

SDATA<9>

SDATA<10>

SDATA<12>

SDATA<11>

SDATA<13>

SDATA<0>

SDATA<2>

SDATA<1>

SDATA<3>

SDATA<4>

11VDD1.8

10VDD1.8

9VDD1.8

8VDD1.8

6VDD1.8

7VDD1.8

7VDD3.3

1VDD3.3

3VDD1.8

V3_3

V3_3

IN

IN

Page 22: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

MT48LC4M32B2-

1MEGX

32

X4

BANKS

SYNCHRONOUSDRAM

FROM

Z11

SYSCLKO

0 9

10

11

0

1

31

30

2

1

3 4 5 76 8 9 10

11

12

2

13

14

15

16

17

18

19

20

21

3

22

23

24

25

26

27

28

29

4 5 6 7 8

SD_DQ<31..0>

SD_BA1

SD_BA0

SD_DQM3

SD_CLKO

SD_DQM1

SD_DQM0

SD_RAS

SD_CAS

SD_WE

SD_CS SD_A<11..0>

SD_DQM2

UB10

7/71(TOTAL)

09/16/2004

3/6(BLOCK)

STEVE

SCULLY

DS33Z11/41/44DK01A0

BLOCKNAME:_z11andlan_dn.

PARENTBLOCK:\_z11top_dn\

CR-7:

@\_ZTOP_LIB\.\_ZTOPDN_\(SCH_1):PAGE1_I5@\_ZTOP_LIB\.\_Z11TOP_DN\(SCH_1):PAGE1_I1@\_ZTOP_LIB\.\_Z11ANDLAN_DN\(SCH_1):PAGE3

43

29

55

3

68

20

67

18

17

16

19

71

28

59

22

23

25

26

60

27

61

63

62

65

64

66

24

21

10

11

13

74

76

77

79

80

83

82

85

31

33

34

37

36

39

42

40

47

45

48

50

51

53

49

41

8

15

1

5 7

4

2

54

56

84

52

78

46

32

38

6

12

72

86

44

58

75

81

35

9

6A2

6C7<

6D7<

6B8<

6B8<

6B8<

6B8<

6B8<

6B8<

6A8<

6B8<

6C8

6B8<

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

V3_3

MT48LC4M32B2_TSOP_U

VDDQ2

VDDQ3

VDDQ8

VDDQ7

VSS2

VSS1

VSS4

VSS3

VSSQ2

VSSQ1

VSSQ4

VSSQ3

VSSQ5

VSSQ7

VSSQ6

VSSQ8

DQ<31>

DQ<30>

DQ<0>

DQ<1>

DQ<3>

DQ<2>

VDD1

VDD2

DQ<4>

VDDQ4

VDDQ5

DQ<29>

DQ<28>

DQ<27>

DQ<26>

DQ<24>

DQ<25>

DQ<22>

DQ<23>

DQ<21>

DQ<19>

DQ<20>

DQ<18>

DQ<17>

DQ<16>

DQ<15>

DQ<13>

DQ<14>

DQ<12>

DQ<11>

DQ<10>

DQ<9>

DQ<8>

DQ<7>

DQ<6>

DQ<5>

A<11>

A<10>

A<9>

A<7>

A<8>

A<5>

A<6>

A<4>

A<2>

A<3>

A<1>

A<0>

BA<1>

BA<0>

DQM<3>

DQM<2>

DQM<1>

RAS*

DQM<0>

WE*

CAS*

CKE

CS*

CLK

VDDQ1

VDDQ6

VDD3

VDD4

V3_3

Page 23: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

CHASSISGND

FOR

PHY

HIERARCHICALBLOCK

PAGES11-12

I70

I69

100O100MZH

100O100MZH

10UF

10UF

0.1UF

TX_CLK<1>

TX_EN<1>

LED_DPLX_A0<1>

RXD2<1>

RXD1<1>

30

REF_CLK

MII_CLK

30

REDAMBER

GREEN

LED_COL_A1<1>

LED_GDLINK_A2<1>

LED_RX_A4<1>

5.1K

RXDV<1>

MII_CLK

MDC

MDIO

LED_TX_A3<1>

TXD2<1>

RX_CLK<1>

RX_ERR<1>

RX_CRS<1>

RXD3<1>

RXD0<1>

25.000MHZ_3.3V

330

5.1K

330

5.1K

5.1K

LED_RX_A4<1>

LED_GDLINK_A2<1>

LED_COL_A1<1>

LED_TX_A3<1>

330

COL_DET<1>

5.1K

LED_DPLX_A0<1>

RESET_B

Y09

R140

RB44

RB48

RB72

RB60

RB47

DS15

DS11

DS06

RB78

RB54

RB57

R133

C10

CB04

CB05

L04

LB01

11C7v5A5<3D2^

TXD0<1>

TXD1<1>

TXD3<1>

BLOCKNAME:_z11andlan_dn.

PARENTBLOCK:\_z11top_dn\

8/71(TOTAL)

DS33Z11/41/44DK01A0

09/16/2004

4/6(BLOCK)

STEVE

SCULLY

CR-8:

@\_ZTOP_LIB\.\_ZTOPDN_\(SCH_1):PAGE1_I5@\_ZTOP_LIB\.\_Z11TOP_DN\(SCH_1):PAGE1_I1@\_ZTOP_LIB\.\_Z11ANDLAN_DN\(SCH_1):PAGE4

18

45

12

12

12

21

12

12

11A5v

5B7<>

11A5v

5B8<

11C5v

8B8<

11A7v

5B7<

11A7v

5C7<

5C7<>

11C7v

8B3>

11C5v

8C6<

11C5v

8C6<

11C5v

8B6<

11A7v

5B7<

11C7v

8A1<

11C5v

5B7<11C5v

5B7<

11C5v

8A8<>

11A5v

5B7<

11A5v

5B7<

11A5v

5B7<

11A5v

5B7<

11A7v

5C7<>

11A7v

5C7<

11A7v

5C7<11A7v

5B7<

11A7v

5C7<

11C5v

8A8<>

11C5v

8A8<>

11C5v

8B8<

11C5v

8B6<

11A7v

5B7<

11C5v

8C6<

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

V3_3

CHASSIS

V3_3

V3_3

VCC

1

OSC

GND

OUT

IN

_mii_wan_dn

TXD0

TXD1

RX_CLK

RX_ERR

RX_CRS

RXD3

RXD2

RXD1

RXD0

RXDV

MII_CLK

MDC

MDIO

RESET_B

TX_EN

TX_CLK

LED_GDLINK_ADD2

LED_DPLX_ADD0

LED_COL_ADD1

TXD3

TXD2

COL_DET

LED_RX_ADD4

LED_TX_ADD3

Page 24: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

CONNECT

ANYWHERE

SIGNAME_TRIDOESNOT

MOTOROLANON-MUX,MII,FULLDUPLEX,100MBIT,AUTO-FLOWCONTROL

MODE

(SHOWNBELOW

SIGNAL)RESULTSIN:

LOW LOW

HIGH

HIGH

HIGH

LOW LOW

LOW

LOW

LOWLOW

(HELPS

PCB

NETLIST)

CONFIG

SWITCHES

FOR

Z11

CKPHA

SCANEN

RMIIMIISTRI

H10STRI

2.0K

SCANMOD

SD_CLKI

RMIIMIIS

2.0K

MODEC0

DCEDTES

2.0K

2.0K

SCANMODTRI

OSC100MHZ

2.0K

2.0K

2.0K

AFCSTRI

SCANENTRI

FULLDSTRI

MODEC0TRI

DCEDTESTRI

2.0K

HWMODETRI

CKPHATRI

2.0K

2.0K

MODEC1TRI

30

100.000MHZ_3.3V

30

2.0K

HWMODE

MODEC1

H10S

AFCS

FULLDS

R120

UXB04

Y06

RB67

SW14

SW17

RB70

RB366

SW43

SW44

RB367

RB64

SW11

RB65

SW12

SW13

RB66

RB69

SW16

SW42

RB365

RB63

SW10

SW15

RB68

R128

DS33Z11/41/44DK01A0

BLOCKNAME:_z11andlan_dn.

PARENTBLOCK:\_z11top_dn\

STEVE

SCULLY

5/6(BLOCK)

09/16/2004

9/71(TOTAL)

CR-9:

@\_ZTOP_LIB\.\_ZTOPDN_\(SCH_1):PAGE1_I5@\_ZTOP_LIB\.\_Z11TOP_DN\(SCH_1):PAGE1_I1@\_ZTOP_LIB\.\_Z11ANDLAN_DN\(SCH_1):PAGE5

21

41

2

41 3

2

41 32

1

21

2

41 3

2

41 32

1

21

2

41 3

21

2

41 3

2

41 32

1

21

2

41 3

2

41 32

1

21

2

41 3

2

41 32

1

18

45

5A4<

5A4<

5A4<

6B8<

5A5<

3C1^

5A5>

5A5<

3D1^

5A5>

3C1^

5A5>

5A4<

5A4<

5A5<

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

VCC

1

OSC

GND

OUT

SP3T

SP3T

SP3T

SP3T

SP3T

SP3T

V3_3

V3_3

SP3T

SP3T

SP3T

SP3T

SP3T

NC7SZ86_U

V3_3

Page 25: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

I39

1UF

1UF

1UF

1UF

10UF

1UF

1UF

BLACK

BLACK

I38

RED

0.1UF

0.1UF

0.1UF

0.1UF

RED

V1_8ZCHIP

1UF

V1_8ZCHIP

CB1312 1

CB1392 1

C462 1

CB1102 1

U07

CB102

C38

C451 2

C702 1

JB01

JB02

J54

JB08

CB253

CB234

CB456

CB217

CB192

CB345

CB225

CB344

CB355

CB181

CB436

CB454

CB453

CB304

CB280

CB435

CB455

CB450

BLOCKNAME:_z11andlan_dn.

PARENTBLOCK:\_z11top_dn\

6/6(BLOCK)

10/71(TOTAL)

DS33Z11/41/44DK01A0

STEVE

SCULLY

09/16/2004

CR-10:

@\_ZTOP_LIB\.\_ZTOPDN_\(SCH_1):PAGE1_I5@\_ZTOP_LIB\.\_Z11TOP_DN\(SCH_1):PAGE1_I1@\_ZTOP_LIB\.\_Z11ANDLAN_DN\(SCH_1):PAGE6

3 42

8 567

1

1 2

1 2

1 2 1 2

1 2 1 2

21

21

21

21

21

21

21

21

21

21

21

21

21

21

21

21

21

21

10A4<

6D4<

6B5<

6D4<

6B5<

10B4<>

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

V3_3

CONN_BANANA_2P

BA

CONN_BANANA_2P

BA

CONN_BANANA_2P

BA

CONN_BANANA_2P

BA

V3_3V3_3

MAX1792

IN

OUT

SET

GND

OUT

IN

SHDN

RST

Page 26: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

0.2

BETWEEN

CONNECTORS.

ALLOWUSEOFA

DIFFERENTPHYCARDIFDESIRED.

PLACEMENTSHOULDALLOW

ONZ44CARDALL4

PORTSMUSTBEPLACEDWITHEQUALSPACINGANDA

COMMONCENTERLINE

TESTPOINTS(SHOWNABOVE)MUSTBEPLACEDTHESAMEFOREACHPORTTO

PLACEMENT

NOTE:

LEDS

NEED

TO

BE

ATTACHED

OUTSIDEOF

MODULEDUE

TO

STRAP

ADAPTINGOPTIONOF

DP83847

COMPONETSFOR

C1

AND

RBIAS

MUST

BE

PLACEDCLOSE

TO

PIN

MII_CLK

RESET_B

LED_TX_ADD3

LED_COL_ADD1

LED_DPLX_ADD0

TXD0

TXD2

AN1

TXD1

MDC

10UF

5.1K

TX_CLK

TXD3

TX_EN

RXDV

RXD0

RXD1

RXD2

RXD3

10UF

10UF

10UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

LED_GDLINK_ADD2

30 LED_RX_ADD4

AN_V3_3

AN_V3_3

0.1UF

0.1UF

10UF

100O100MZH

RX_CLK

RX_ERR

COL_DET

RX_CRS

AN_EN

5.1K

AN0

5.1K

MDIO

0.1UF

10.0K

RBIAS

C1PIN

11/71(TOTAL)

BLOCKNAME:_mii_wan_dn.

PARENTBLOCK:\_z11andlan_dn\

PRINTED

FriOct2010:50:422006

1/2(BLOCK)

09/16/2004

STEVE

SCULLY

DS33Z11/41/44DK01A0

CR-11:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page1_i1@\_ztop_lib\.\_z11andlan_dn\(sch_1):page4_i32@\_ztop_lib\.\_mii_wan_dn\(sch_1):Page1

CR-11:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page1_i1@\_ztop_lib\.\_z11andlan_dn\(sch_1):page4_i32@\_ztop_lib\.\_mii_wan_dn\(sch_1):Page1

CR-11:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page1_i1@\_ztop_lib\.\_z11andlan_dn\(sch_1):page4_i32@\_ztop_lib\.\_mii_wan_dn\(sch_1):Page1

CR-11:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page1_i1@\_ztop_lib\.\_z11andlan_dn\(sch_1):page4_i32@\_ztop_lib\.\_mii_wan_dn\(sch_1):Page1

CR-11:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page1_i1@\_ztop_lib\.\_z11andlan_dn\(sch_1):page4_i32@\_ztop_lib\.\_mii_wan_dn\(sch_1):Page1

8B4^

13

2JP14

13

2JP15

13

2JP09

RB07

RB52

RB55

R109 1TP03

50

51

54

55

61

58

60

62

64

65

44

47

5

8

9

12

13

34

28

56

14

57

59

63

2 1 3

46

42

48

49

15

16

17

18

19

22

23

24

25

4

21

20

53

52

U04

R08

8B4^

8B4^

21 C30

21 C32

12C8<

8C5^

12C8<

8C5^

12C8<

8C5^

12C8<

8D5^

12C4<

8C5^

12C8<

8C5^

65

4

973

10

8

12

J13

12C5<

8C3^

12B5<

8C3^

8C3^

12C6<>

12B8<

8D3^

12B8<

8C3^

12B8<

8C3^

12B8<

8C3^

65

4

973

10

8

12

J14

21 CB63

21 CB238

21 C198

21CB39

21 CB41

21C16

12

L03

CB96

CB497

21 CB93

21 CB239

21 C207

21 CB194

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

IO

V3_3

V3_3

6

1084

12

3 5 7 9

CONN_10P

V3_3

OUT

OUT

OUT

OUT

OUT

OUT

OUT

OUT

OUT

6

1084

12

3 5 7 9

CONN_10P

IN

OUT

IN

IN

IN

V3_3

IN

IN

IN

CONTROL

DP83847_U1

RESERVED14

RESERVED15

LED_TX/PHYAD3

LED_GDLNK/PHYAD2

RESERVED3

MDC

MDIO

LED_DPLX/PHYAD0

LED_COL/PHYAD1

LED_RX/PHYAD4

LED_SPEED

AN_EN

AN_1

AN_0

X1

X2

C1

RESET*

RBIAS

RESERVED1

RESERVED2

VDD3

VDD2

VDD1

VDD/ANA_VDD

VDD/IO_VDD2

VDD/IO_VDD1

RESERVED9

RESERVED8

RESERVED7

RESERVED6

RESERVED5

RESERVED4

RESERVED11

RESERVED10

GND5

GND4

GND3

GND2

GND1

RESERVED18

RESERVED17

RESERVED16

RESERVED13

RESERVED12

V3_3

IO

IO

IO

IO

IO

IN

Page 27: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

SHOULDBE

PLACEDCLOSE

TO

PHY

RESISTORSFOR

TD+-/RD+-

SHOULDBEPLACEDCLOSETOXFRM

CAPS

FOR

XFRM

CENTERTAP

DNP

RX_ERR

RD_P

BUFFER

BUFFER

.1UF

30

TD_P

SYM_1

.1UF

54.9

.1UF

54.9

49.9

RD_N

TD_N

10K

30

30

30

30

RXD1

RXD0

RXD2

RXD3

TXD2

RD_P

RD_N

TXD3

TX_EN

TXD0

TXD1

TD_N

TD_P

49.9

30

DNP

30

30

RX_CRS

RX_CLK

TX_CLK

RXDV

COL_DET

12/71(TOTAL)

2/2(BLOCK)

STEVE

SCULLY

DS33Z11/41/44DK01A0

09/16/2004

BLOCKNAME:_mii_wan_dn.

PARENTBLOCK:\_z11andlan_dn\

CR-12:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page1_i1@\_ztop_lib\.\_z11andlan_dn\(sch_1):page4_i32@\_ztop_lib\.\_mii_wan_dn\(sch_1):Page2

CR-12:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page1_i1@\_ztop_lib\.\_z11andlan_dn\(sch_1):page4_i32@\_ztop_lib\.\_mii_wan_dn\(sch_1):Page2

CR-12:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page1_i1@\_ztop_lib\.\_z11andlan_dn\(sch_1):page4_i32@\_ztop_lib\.\_mii_wan_dn\(sch_1):Page2

CR-12:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page1_i1@\_ztop_lib\.\_z11andlan_dn\(sch_1):page4_i32@\_ztop_lib\.\_mii_wan_dn\(sch_1):Page2

CR-12:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page1_i1@\_ztop_lib\.\_z11andlan_dn\(sch_1):page4_i32@\_ztop_lib\.\_mii_wan_dn\(sch_1):Page2

2R129

R141

R75

R134

9

2 8634

10

1 5

J04

C06 C138

R01

C08

R02

R03

R04

41

UX04

RB87

RB109

RB110

41

UX03

RB88

R31

R71

43

40 7 6

26

41

32

29

30

27

11

10

45

36

35

37

38

39

31

33

U04

R76

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

PORT

DP83847_U1

RX_ER/PAUSE_EN*

RX_DV

TXD<1>

TXD<0>

TX_EN

TX_ER

TX_CLK

CRS/LED_CFG*

TD+

TD-

RXD<2>

RXD<0>

RXD<1>

RX_CLK

TXD<3>

RXD<3>

RD-

RD+

TXD<2>

COL

CHASSIS

CHASSIS

CHASSIS

NC7SZ86_U

NC7SZ86_U

V3_3

CONN_HFJ11_2450_U

J1

J2

J3

J6

J4,5

J7,8

P5

P1

SH2

P4

P3

P6

P8

P2

SH1

Page 28: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

PROCESSORRESOURCECARD

MMC2107

I64

1 2

12

14

15

22

1

PD<31..0>

2

PA<22..0>VDDSYN

GND

14

15

16

I68

11

12

13

16

18

17

19

18

20

21

10

17

9

8

7

6

23

24

25

26

28

19

27

29

30

31

5

4

3

2

0

20

0.0

.1UF

014

21 35679 8

10

11

12

13

22

SOT143

2.93V

MAX811SEUS-T

I70

RESET_B

I51

RW

FLASH_VPP

TEA

VRH

OE

RCON

TA

MMC2107

NATQFP

I69

MMC2107

NA

TQFP

INT3

USER_LED2

RUN_KIT_USR

INT4

XTAL

MISOMOSI

YCO

INT2

ONCE_TMSCS0

RESET_B

CPUCLK_OUT

PROC_RESET_OUT

SCK

ONCE_DE_B

CS2

CS1

CSE0

TC2

TIM_16H_8L

CSE1

2107_TDO

ONCE_TDI

TC1

CS3

SS

ONCE_TRST_B

ONCE_TCLK

OSC_MCU

TIM_STATUS

TEST

USER_LED1

SCI1_IN

SCI1_OUT

SCI2_IN

SCI2_OUT

ICOC10

ICOC11

ICOC12

ICOC13

ICOC20

ICOC21

ICOC22

ICOC23

EB3EB2

EB1

EB0

PQB3

PQB2PQB1

PQB0PQA4

PQA3

PQA1

PQA0

DS33Z11/41/44DK01A0

1/7(BLOCK)

09/16/2004

STEVE

SCULLY PRINTED

Fri

Oct

20

10:50:422006

BLOCKNAME:_motprocrescard_dn.

PARENTBLOCK:\_z11top_dn\

13/71(TOTAL)

CR-13:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page2_i47@\_ztop_lib\.\_motprocrescard_dn\(sch_1):Page1

CR-13:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page2_i47@\_ztop_lib\.\_motprocrescard_dn\(sch_1):Page1

C67

R77

45

9

19

17

20

21

22

25

27

30

31

34

35

16

15

12

10754321

36

37

38

39

40

41

42

43

46

48

51

114

73

126

140

127

76

64

44

32

18

8

50

49

47

29

28

26

24

23

13

11

6139

137

136

134

132

131

122

121

119

117

116

144

14

112

59

65

33

123

141

129

77

87

115

74

103

102

92

113

95

97

99

U15

4 3

1 2

SW23

69

68

82

84

75

79

124

91

90

80

71

13886

118

128

120

93

143

83

85

62

67

98

100

101

104

105

106

88

96

60

135

133

78

81

110

111

109

108

107

94

142

130

125

53

52

55

54

58

57

56

72

63

61

66

89

70

U15

3 1

4 2

U13

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

V3_3

MAX811_U

RESET*

VCC

GND

MR*

MMC2107

CONTROL

RXD1

INT7*

TXD2

ICOC10

TEST

INT1*

ICOC13

ICOC12

ICOC11

ICOC21

ICOC20

ICOC23

ICOC22

EXTAL

TCLK

TRST*

SS*

PQB0

PQA4

PQA3

PQA0

PQA1

CS3*

TC1

TDI

TDO

CSE1

EB3*

INT6*

PQB1

PQB2

PQB3

EB0*

EB1*

EB2*

TC2

CSE0

CS1*

CS2*

DE*

SCK

RSTOUT*

CLKOUT

RESET*

CS0*

TMS

INT0*

YC0

MOSI

MISO

XTAL

INT3*

INT2*

INT5*

INT4

RXD2

TXD1

MMC2107

PORT

TA*

SHS*

OE*

VRH

VSTBY

TEA*

VDDH

VDDF

VDDA

VPP

VDD6

VDD7

VDD8

VDDSYN

VDD3

VDD5

RW

VRL

A8

D31

A22

A21

A20

A19

A18

A17

A16

A15

A14

A13

A12

A11

A10

A9

A7

A6

A5

A4

A3

A2

A1

A0

VSS1

VSS2

VSS3

VSS4

VSS5

VSS6

VSS7

VSS8

VSSSYN

VSSF

VSSA

D0

D1

D2

D3

D4

D5

D6

D7

D8

D9

D10

D30

D29

D28

D27

D26

D25

D24

D23

D22

D21

D11

D12

D13

D14

D15

D16

D17

D18

D19

D20

VDD2

VDD1

VDD4

V3_3

Page 29: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

FLASH

ENABLE

INTERNAL

XTAL

W/

PLL

MASTER

MODE

FULL

DRIVE

RESETCONFIGURATION

BOOT

INTERN/EXTERN

BOOT

EXT

BOOT

INTERNAL

WHEN

SET

FOR

D18HASA

10.5KLOADTO

V3V

RESETANDCHIPCONFIGURATION

D18HASA

10KLOADTO

GND

21

21

21

12

12

21

1 2

1 2

12

1 2

1 2

2 1

21

INT5

INT4

INT3

30

PA<17..1>

PA<17..1>

PD<23..16>

PD<31..24>

PD<18>

PD<19>

PD<28>

PD<22>

USERFPGA2

PD<23>

PD<21>

BIS0OBSXI

RCON

BIS1OBSXI

PD<16>

BTS_OBSXI

PD<17>

FLASH_VPP

PD<26>

16

10K

10K

10K

10K

10K

10K

10K

17

10K

1.0K

10K

1.0K

1.0K

1.0K

1.0K

18

I69

ECJ-2VB1C104K

.1UF

0L_SMT0805_10PCT

AMBER

I65

1.0K

1.0K

1.0K

20

910

11

12

8

7

6

5

19

13

14

16

15

17

4

3

2

1

24

21

25

26

27

28

29

30

31

10K

22

910

11

12

13

14

16

17

23

8

7

6

5

4

3

2

1

15

I18

OE

EB1

CS0

NACY62128V

CY62128V

I54

OE

EB0

CS0

NACY62128V

CY62128V

BLOCKNAME:_motprocrescard_dn.

PARENTBLOCK:\_z11top_dn\

14/71(TOTAL)

2/7(BLOCK)

DS33Z11/41/44DK01A0

STEVE

SCULLY

09/16/2004

CR-14:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page2_i47@\_ztop_lib\.\_motprocrescard_dn\(sch_1):Page2

CR-14:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page2_i47@\_ztop_lib\.\_motprocrescard_dn\(sch_1):Page2

19

18

14

21 15

20

17

13

31

27

28

10

26

11

25

129

32

16

24

29

1

23

2

3

4

5

6

7

8

30

22

U26

R229

19

21 18

15

17

14

20

13

28

27

314

263

2525

32

16

24

29

1

23

12

11

10

9

8

7

6

30

22

U30

R79

R07

R248

12

DS20

R83

C12

2 7 8

16

15

12

11

10

9

654314

13

1

SW06

R12

R16

2 1R254

2 1R255

R230

2 1R160

R152

R236

21R235

R233

R232

21R231

R234 2

1R196

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

V3_3

V5_0

SWITCH

8POS

V3_3

V3_3

V3_3

CY62128VCE1*

CE2

A7

A6

A5

A4

A3

A2

A1

A0

N_C

WE*

OE*

GND

VCC

A16

A15

A14

A13

A12

A11

A10

A9

A8

IO0

IO1

IO2

IO3

IO4

IO5

IO6

IO7

V3_3

CY62128VCE1*

CE2

A7

A6

A5

A4

A3

A2

A1

A0

N_C

WE*

OE*

GND

VCC

A16

A15

A14

A13

A12

A11

A10

A9

A8

IO0

IO1

IO2

IO3

IO4

IO5

IO6

IO7

V3_3

Page 30: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

JTAGCONFIGURATION

ALIGN

KEY

PIN

ONCETDIMMC2107

ONCETDO

PIN

TDI...FPGA+FLASH...

BUTDO

NOTPOPULATE

PLACEPADSFORCAP

10UF

5.6

1UF

1UF

1UF

1UF

.1UF

8.0MHZ

I47

1.0M

1UF

10K

10K

I35

10K

10K

10K

1UF

10UF

1UF

10K

1UF

1UF

1UF

I13

I11

XTAL

ONCE_TCLK

VDDSYN

PRT1_OUT

PRT1_IN

68UF

1UF

330

22.0UH

SMT1206_5PCT

ERJ-8GEYJ5R6V

68UF

1

2

2 1

21

21

21

21

OSC_MCU

I1

RESET_B

2107_TDO

ONCE_TDI

ONCE_TMS

ONCE_DE_B

ONCE_TRST_B

NACON14P

CON14P

I31

PRT1_IN

SCI1_OUT

SCI1_IN

PRT1_OUT

NAMAX3233E

MAX3233E

15/71(TOTAL)

BLOCKNAME:_motprocrescard_dn.

PARENTBLOCK:\_z11top_dn\

DS33Z11/41/44DK01A0

STEVE

SCULLY

09/16/2004

3/7(BLOCK)

CR-15:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page2_i47@\_ztop_lib\.\_motprocrescard_dn\(sch_1):Page3

CR-15:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page2_i47@\_ztop_lib\.\_motprocrescard_dn\(sch_1):Page3

13975

1131

10

12

864 14

2

J06

2 1C26

3 4218 567

U01

21 C52

12L02

12CB28

21C40

12C14

21C21

2 1RB134

R209

12CB113

12C07

12C02

C27

1 2C33

12C44

2 1R872

01 84 5 6 7 9

10

11

12

13

14

15

16

17

18

19

32

U21

R95

R110

95421 3

6 7 8

J28

R80

2 1R81

21C56

R56

1 2

X01

R10

1 2C03

12CB488

12CB490

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

V3_3

V3_3

V3_3

CONN_DB9P

HGF

CA B D EJ

V3_3

MAX3233E

INVALID*

T2IN

T2OUT

GND

V-

C2-

C2+

C1-

C1+

V+2

V+1

FORCEOFF*

VCC

T1OUT

R1OUT

FORCEON

T1IN

R1IN

R2OUT

R2IN

V3_3

V5_0

MAX1675

LX

GND

SHDN

OUT

FB

LBI

REF

LBO*

CON14P

Page 31: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

RED

RED

RED

1 2

12

12

8 7 6

31

30

29

28

27

26

25

16

24

23

22

21

20

5

4

3

2

1

15

0

16

17

18

19

RED

14

RED

RED

330

330

330

330

GREEN

5

13

4 3 2 1

5 4 3 2 1

12

11

10 9

OE

RW

TA

CS1CS2

EB0

EB1

CS0

TEA

SCI2_IN

SCI2_OUT

SPARE_B<5..0>

USER_LED1

TIM_INTERUPT

PROC_RESET_OUT

CFG_DIN

PA<16..0>

X_INIT

PD<31..16>

USER_LED2

TIM_INTERUPT_IND

BLOCKNAME:_motprocrescard_dn.

PARENTBLOCK:\_z11top_dn\

16/71(TOTAL)

09/16/2004

4/7(BLOCK)

STEVE

SCULLY

DS33Z11/41/44DK01A0

CR-16:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page2_i47@\_ztop_lib\.\_motprocrescard_dn\(sch_1):Page4

CR-16:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page2_i47@\_ztop_lib\.\_motprocrescard_dn\(sch_1):Page4

L12

M13

B6

B4

G13

E14

A9

D12

B10

E13

A3

G15

B11

A5

A4

A6

B3

C9

F14

A7

B5

A8

E7

H14

J13

E6

F12

E10

D5

L16

C5

K13

L15

H16

H15

G16

H13

R16

F15

E16

P16

L13

F13

D7

D14

C15

A10

A11

C12

F16

E15

A13

C16

D16

B12

C8

D9

N15

N14

C6

L14

C7

C10

N16

M16

K14

K16

J16

K15

J15

M14

M15

E11

A12

B16

D11

G14

D10

T15

G12

B8

B7

K12

J14

A14

C11

D6

C13

B13

B9

D8 U27

12

DS38

12

DS16 1

2

DS18

R176

21R32

R70

R237

12

DS43

65

4

973

10

8

12

J45

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

6

1084

12

3 5 7 9

CONN_10P

V3_3

XC2S50_BGA

BANK2

BANK 0

BANK

3

BANK

1

IO10_1

IO9_1\VREF

IO1_1\CS*

IO2_1\WRITE*

IO3_1

IO4_1\VREF

IO5_1IO4_0

IO3_0

IO2_0\VREF

GCK3

IO15_3

IO14_3

IO23_3

IO22_3

IO21_3

IO20_3

IO19_3

IO18_3

IO17_3

IO16_3

IO13_3\TRDY

IO12_3

IO11_3\D4

IO10_3\VREF

IO9_3

IO8_3\D5

IO7_3\D6

IO6_3

IO5_3

IO4_3\VREF

IO3_3

IO2_3\D7

IO1_3\INIT*

IO24_2

IO23_2

IO22_2

IO21_2

IO20_2

IO19_2

IO18_2

IO17_2

IO16_2

IO15_2

IO14_2

IO13_2\(DOUT,BUSY)

IO12_2\(DIN,D0)

IO11_2

IO10_2\VREF

IO9_2

IO8_2

IO7_2\D1

IO6_2\D2

IO5_2

IO4_2

IO3_2\D3

IO2_2\VREF

IO2_1\IRDY

IO22_1

IO21_1

IO20_1

IO19_1

IO18_1

IO17_1

IO16_1

IO15_1

IO14_1

IO13_1

IO12_1

IO11_1

IO8_1

IO7_1

IO6_1

GCK2

IO20_0

IO19_0

IO18_0

IO17_0

IO16_0

IO15_0

IO14_0

IO13_0

IO12_0

IO11_0

IO10_0

IO9_0

IO8_0

IO7_0\VREF

IO6_0

IO5_0

IO1_0

Page 32: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

RWALSOFUNCTIONSASALT_RD_DS

WEALSOFUNCTIONSASALT_WR_RW

BUS

MODE

DETECTION

(DUT

AT

CS_X2)

D_DUT<7..0>

A_DUT<11..0>

5

0

CS_X2

BTS_DUT

WR_DUT

ALE_DUT

RD_DUT

CS_X3

CS_X4

CS_X5

CS_X6

ALE

CPUCLK_OUT

I46

7

6

5

4

3

2

1

0

7

6

5

4

3

2

1

SPARE_A<10..1>

6

8

9

5 4

7

3 2 1

10

10

5

9 8 7 6

I34

CONN_THRU-HOLE

NA

NA

4 3 2 1

XD<7..0>

XD<7..0>

01

2

3

4

6

7

8

9

10

XA<11..0>

012345678910

11

11

USERFPGA2

INT5

CS_X1

RW_X

WR

BIS0_DUT

BIS1_DUT

DS33Z11/41/44DK01A0

STEVE

SCULLY

09/16/2004

5/7(BLOCK)

BLOCKNAME:_motprocrescard_dn.

PARENTBLOCK:\_z11top_dn\

17/71(TOTAL)

CR-17:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page2_i47@\_ztop_lib\.\_motprocrescard_dn\(sch_1):Page5

CR-17:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page2_i47@\_ztop_lib\.\_motprocrescard_dn\(sch_1):Page5

65

4

973

10

8

12

J46

N8

T10

R6

T7

R5

M2

T12

T6

M1

T5

N2

P1

T3

T2

R10

T13

N12

B1

N10

L2

T4

T11

P12

F2

P13

P8

N11

R13

N5

M6

P11

F1

N9

C2

L3

R7

G5

G4

H2

K3

P7

T8

T9

P10

C1

R11

D1

E1

K4

G3

H3

M10

G1

A2

E3

D2

F3

E2

J4

R12

K5

L5

M7

N7

R8

E4

H4

P9

F5

F4

G2

L4

N6

L1

R1

N1

P5

M3

K1

M11

P6

J1

H1

J2

T14

R9

J3

M4

K2U27

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

BANK

5

BANK

7

XC2S50_BGA

BANK6

BANK 4

IO11_7

IO19_5

IO4_6\VREF

IO2_4

IO5_5

IO1_6\TRDY

IO2_6

IO3_6

IO5_6

IO6_6

IO7_6

IO8_6

IO9_6

IO10_6\VREF

IO11_6

IO12_6

IO13_6

IO14_6

IO15_6

IO16_6

IO17_6

IO3_4\VREF

IO1_4

IO1_5

GCK1

IO23_7

IO22_7

IO21_7

IO20_7

IO19_7

IO18_7

IO17_7

IO16_7

IO15_7

IO14_7

IO13_7

IO12_7\IRDY

IO10_7

IO9_7\VREF

IO8_7

IO7_7

IO6_7

IO5_7

IO4_7

IO3_7\VREF

IO2_7

IO1_7

IO23_6

IO22_6

IO21_6

IO20_6

IO19_6

IO18_6

IO18_5

IO17_5

IO16_5

IO15_5

IO14_5

IO13_5

IO12_5

IO11_5

IO10_5

IO9_5

IO8_5\VREF

IO7_5

IO6_5

IO4_5

IO3_5

IO2_5\VREF

IO22_4

IO21_4

IO20_4

IO19_4

IO18_4

IO17_4

IO16_4

IO15_4

IO14_4

IO13_4

IO12_4

IO11_4

IO10_4

IO9_4\VREF

IO8_4

IO7_4

IO6_4

IO5_4

IO4_4

GCK0

6

1084

12

3 5 7 9

CONN_10P

Page 33: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

MBVER

CS_X1

CS_X6

RD_DUT

WR_DUT

CS_X2

CS_X3

ALE_DUT

CS_X5

CS_X4

SS SCK

MISO

MOSI

RESET_B

D_DUT<7..0>

0123

7654210

10K

10K

10K

10K

7 6 5 4

A_DUT<11..0>

11

10 9 8

A_DUT<11..0>

INT4

INT2

INT3

INT5

INT4

INT5

INT3

INT2

TDO_NU

RESET_B

BIS0_DUT

BTS_DUT

BIS1_DUT

TCK_NU

TMS_NU

TDI_NU

RW_X

WR_DUT

RD_DUT

XA<15..0>

A_DUT<11..0>

D_DUT<7..0>

XD<7..0>CS_X3

CS_X2

CS_X1

CS_X5

CS_X4

WR

3

6/7(BLOCK)

DS33Z11/41/44DK01A0

STEVE

SCULLY

09/16/2004

BLOCKNAME:_motprocrescard_dn.

PARENTBLOCK:\_z11top_dn\

18/71(TOTAL)

CR-18:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page2_i47@\_ztop_lib\.\_motprocrescard_dn\(sch_1):Page6

CR-18:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page2_i47@\_ztop_lib\.\_motprocrescard_dn\(sch_1):Page6

4B5^

17C3<>

4B4^

19A6<>

4B4^

19A6<>

4B4^

19A6<>

4C3^

17B3<>

4C3^

18A6<>

17C3<>

4C5^

18A6<>

17C3<>

17B7

4B3^

18C6

18B7

17A6

4C5^

45

39

41

43

471 3 5

23

2117

1197

27

25

29

37

35

33

31

15

13

24

22

50

12

14

26

28

30

32

40

46

48

42

34

64 10

82 36

38

49

44

20

18

16

19

J42

2 1R257

2 1R256

2 1R253

2 1R252

4C5^

18C6<>

14C3<>

13A7<>

4C5^

18C6<>

17A6<>

14C3<>

4D5^

18C6<>

14D3<>

13A7<>

4D5^

18C6<>

13A7<>

4B4^

19A6<>

19B1<

18A7<

4C3^

15C3<>

13B5<>

13A4>

4C3^

18B6<>

17A4<>

4D3^

18B6<>

17B3<>

4D3^

18B6<>

17B3<>

4C3^

18B6<>

17A4<>

4C3^

17B3<>

4C3^

18B6<>

17A4<>

4C5^

17C3<>

4B5^

17C3<>

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

IN

IN

OUT

OUT

OUT

OUT

OUT

OUTOUT

OUT

IN

IN

IN

IN

V3_3

V3_3

CONN_50P_T1E1

USER6

INT2

CS1

CS6

AD0

5V2

AD3

AD4

A11 A8

INT5

A10

A9

AD5

AD1 RD

WR

AD2

AD6

AD7

CS2

CS3

INT3

INT4

ALE

CS5

CS4

USER3

USER4

USER12

USER13

USER14

USER15

USER11

USER9

USER10

GND4

USER1

USER2

USER5

USER7

USER8

GND3

GND2

GND1

5V1

3.3V2

3.3V1

USER16

USER17

IO

IO

OUT

OUT

OUT

OUT

OUT

IN

IN

IN

IN

Page 34: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

DONE

CCLK

XRST

JTD_SPART2FLASH

XI_TMS

V2_5XI

10UF

330

1UF

1UF

1UF

.1UF

.1UF

.1UF

1UF

.1UF

.1UF

.1UF

.1UF

1UF

1UF

1UF

1UF

1UF

TMS_NU

TDO_NU

TDI_NU

10K

JTD_FLASH_TDO

X_INIT

CFG_DIN

CCLK

JTD_SPART2FLASH

XI_TMS

ONCE_TCLK

DONE

XRST

V2_5XI

XI_TMS

JTD_FLASH_TDO

TCK_NU

10K

ONCE_TCLK

RESET_B

ONCE_TCLK

.1UF

JTD_SPART_TDI

JTD_SPART_TDI

1 2

1 2

1 2

12

1 2

2 1

2 1

2 1

1 2

2 1

2 1

1 2

2 1

2 1

1 2

2 1

2 1

21

7/7(BLOCK)

09/16/2004

STEVE

SCULLY

DS33Z11/41/44DK01A0

19/71(TOTAL)

BLOCKNAME:_motprocrescard_dn.

PARENTBLOCK:\_z11top_dn\

CR-19:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page2_i47@\_ztop_lib\.\_motprocrescard_dn\(sch_1):Page7

CR-19:

@\_ztop_lib\.\_ztopdn_\(sch_1):page1_i5@\_ztop_lib\.\_z11top_dn\(sch_1):page2_i47@\_ztop_lib\.\_motprocrescard_dn\(sch_1):Page7

CB383

1 2CB412

1 2CB485

CB69

CB49

C210

C211

CB265

C212

C143

CB121

CB320

CB80

CB122

CB467

CB271

C181

1 2R214

7 92

10654

20

18

16

15

14

13

12

11

3 8

19

17

1

U29

RB333

E8

F9

H11

H12

J11

L9

M9

L8

M8

J5

J6

H5

H6

C14

D4

D13

E12

M5

M12

N13

P3

P14

D3

A15

C4

B14

D15

R14

N3

P2

R3

R4

P4

L6

J10

H9

G11

F7

F6

B15

B2

A16

A1

F8

E9

F10

F11

G6

G7

G8

G9

G10

H7

H8

H10

J7

J8

J9

K6

K7

K8

K9

K10

K11

L7

L10

L11

R2

R15

T1

T16

P15

N4

C3

E5

J12

U27

65

4

973

10

8

12

J44

R161

C153

3 42

8 567

1

U31

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

V3_3

MAX1792

IN

OUT

SET

GND

OUT

IN

SHDN

RST

V3_3

V3_3

6

1084

12

3 5 7 9

CONN_10P

XC2S50_BGA

CONTROL

VCCO8

VCCINT5

VCCINT1

VCCINT9

PROGRAM*

GND36

GND35

GND34

GND33

GND32

GND31

GND30

GND28

GND27

GND26

GND25

GND24

GND23

GND21

GND20

GND19

GND18

GND16

GND15

GND13

GND12

GND11

GND10

GND9

GND8

GND7

VCCO3

VCCO2

GND1

GND2

GND3

GND4

GND5

GND6

GND14

GND17

GND22

GND29

NC1

NC2

M2

M1

M0

DONE

CCLK

TDO

TCK

TDI

TMS

VCCINT12

VCCINT11

VCCINT10

VCCINT8

VCCINT7

VCCINT6

VCCINT4

VCCINT3

VCCINT2

VCCO16

VCCO15

VCCO14

VCCO13

VCCO12

VCCO11

VCCO10

VCCO9

VCCO7

VCCO6

VCCO5

VCCO4

VCCO1

CE*

TCK

TMS

CLK

D0

DNC1

OE/RST*

DNC2

TDI

CF*

XILINX_XCF01S

VCCJ

VCCO

VCCINT

TDO

DNC3

GND

DNC6

CEO*

DNC5

DNC4

V3_3

V3_3

V3_3

V3_3

Page 35: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

DS21458WAN

INTERFACEBLOCK

2.048MHZ_3.3V

RB160

RB184

LIUC

MCLK

MCLK

30

30

ONCE_TCLK

I73

RESET_AH

10UF

10UF

0.1UF

0.1UF

0.1UF

WR

CS

0.1UF

0.1UF

RESET_B

0.1UF

0.1UF

ESIBR0

ESIBRD

0.1UF

RD

MUX

BTS

10UF

654321 70 654321087 9

NA

BUFFER

RED

330

I37

I38

NC7SZ86

NA

INVERTER

I41

ADDR<9..0>

DAT<7..0>

RESET_AH

10UF

10UF

10UF

10UF

10UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

10UF

ESIBR1

WAN_INT

XI_TMS

NC7SZ86

WAN_INT

U20

UX11

DS25

R114

12

UXB05

CB112

CB340

CB151

C103

CB154

CB126

CB236

C48

C42

CB2052 1

CB138

CB204

CB1202 1

CB156

CB160

CB161

CB144

CB179

CB220

CB200

CB1272 1

CB1552 1

YB02

JTDO458

JTD_FLASH_TDO

MCLK2FPGA

46A1<>

55A3<>

54C7<>

55A4<

55A2<>

54C7<>

55A7

55A5

54C7

55A4

55A2

54C3

55D5>

46A4<>

PRINTED

FriOct20

10:50:442006

46/71(TOTAL)

09/16/2004

1/10(BLOCK)

STEVE

SCULLY

DS33Z11/41/44DK01A0

BLOCKNAME:_quadte1wan_dn.

PARENTBLOCK:\_wan4z44_dn\

CR-46:

@\_ZTOP_LIB\.\_ZTOPDN_\(SCH_1):PAGE1_I11@\_ZTOP_LIB\.\_WAN4Z44_DN\(SCH_1):PAGE1_I1@\_ZTOP_LIB\.\_QUADTE1WAN_DN\(SCH_1):PAGE1

P4

P5

P6

R6

N13

H10

J12

C12

C11

E4

D4

F4

L13

M13

F3

H1

J16

A9

T8

A11

T6

B11

F1

F2

L16

L15

H9

H4

D9

H5

E10

H3

H2

K14

J15

G4

N7

B9

T7

G2

H6

J11

P8

D10

N8

P7

M7

R7

G1

G3

B10

R8

H8

J8

J9

D13

D12

D11

N6

N5

N4

C9

A10

M8

K15

J13

J14

G8

K13

C10

K16

L14

M16

E2

M15

E1

B12

A12

T5

R5

T13

T9

A4

T12

D16

A8

A5

H16

E16

M1

J1

N1

E9

P3

K9

C13

D3

E3

N14

M14

41

12

41

21

21

21

21

21

21

21

21

21

18

45

51D7<

46D7<

46C7<

52C1<

52C8<>

52A7<>

52B1<

55D6<>

51C7<

51C7<

51B7<

51C7<

46B7<

51C7<

52C1<

52C8<>

52A7<>

55D5>

46C7>

52A7<>

52C6<>

53B6<>

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

VCC

1

OSC

GND

OUT

V3_3

V3_3

V3_3

IO

V3_3

NC7SZ86_U

V3_3

NC7SZ86_U

CONTROL

DS21458_U

DVDD42

DVDD43

DVDD32

DVDD31

DVDD23

NC1

NC2

NC3

RVSS11

RVSS12

RVSS13

RVSS21

RVSS22

RVSS31

RVSS32

RVSS23

RVSS41

RVSS33

RVSS43

RVSS42

TVSS11

TVSS12

TVSS21

TVSS22

TVSS31

TVSS41

TVSS32

TVSS42

DVDD41

JTCLK

JTDI

JTDO

RPOSI

TEST1

TEST2

TSTRST

CS*

RD*

WR*

DVSS11

DVSS12

DVSS13

DVSS21

DVSS22

DVSS23

ESIBS<1>

ESIBS<0>

ESIBRD

MUX

BTS

AD<7>

AD<6>

AD<5>

AD<4>

AD<3>

AD<2>

AD<1>

AD<0>

A<9>

A<8>

A<7>/ALE_AS

A<6>

A<5>

A<4>

A<3>

JTMS

JTRST

A<0>

A<2>

A<1>

INT*

LIUC

MCLK1

RCLKI

TVDD41

TVDD42

TVDD32

TVDD31

TVDD22

TVDD12

TVDD21

RVDD4

RVDD3

RVDD2

RVDD1

DVDD33

DVSS42

DVSS41

DVSS33

DVSS31

DVSS32

DVDD21

DVDD22

MCLK2

RNEGI

DVSS43

TVDD11

DVDD13

DVDD12

DVDD11

IN

IN

IN

IN

OUT

V3_3

IN

Page 36: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

PORT1_RRING=

PIN

L1

PORT2_RRING=

PIN

F16

RLOS1

TRING2

TTIP2

TRING1

TTIP1

RRING1

TCLK1

RTIP1

TSER1

RCLK1

RSER1

RRING2

RSER2

RLOS2

RSYNC2

TCLK2

RTIP2

TSER2

TSYSCLK2

RSYSCLK1

BPCLK1

TSYSCLK1

RSYNC1

TSSYNC1

RCLK2

TSYNC1

TSSYNC2

TSYNC2

RSYSCLK2

RGAPCLK2

TGAPCLK2

RGAPCLK1

TGAPCLK1

U20

U20

53B2<>

53B2<>

53B7<>

53C2<

53A7<>

53C2<

53A7<>

53A2<>

53B2<>

53B7<>

53B7<>

53A2<>

53B7<>

53A2<>

BLOCKNAME:_quadte1wan_dn.

PARENTBLOCK:\_wan4z44_dn\

47/71(TOTAL)

2/10(BLOCK)

09/16/2004

STEVE

SCULLY

DS33Z11/41/44DK01A0

CR-47:

@\_ZTOP_LIB\.\_ZTOPDN_\(SCH_1):PAGE1_I11@\_ZTOP_LIB\.\_WAN4Z44_DN\(SCH_1):PAGE1_I1@\_ZTOP_LIB\.\_QUADTE1WAN_DN\(SCH_1):PAGE2

F16

H14

G15

G10

G11

F15

B14

D14

J10

E15

F14

H15

E14

A14

A13

E13

H12

C16

B16

H13

B13

E11

D15

G14

G13

A15

G12

H11

F10

G16

C15

C14

G9

F13

A16

E12

B15

F11

F12

L1

J4

K2

K3

L2

M2

T3

M4

H7

K5

L3

J3

K6

R3

R4

N2

J6

P1

N3

J5

T4

L7

J7

K4

M3

T2

L5

J2

K8

K1

P2

R1

M6

L4

R2

M5

T1

K7

L6

51A6<>

49B5<

49C5<

49D8<

49D8<

49C8<

49C8<

49A5<

51A6<>

53D5<>

49A5<

53D7<

53D7<

53C6<>

53D7<

53D5<>

53D5<>

53D4<>

53D4<>

53D4<>

53D7<

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

IN

IN

OUT

OUT

IN

IN

IO

IN

IO

OUT

OUT

PORT

DS21458_U

TCLKI

TLINK

TNEGO

TNEGI

TPOSO

TPOSI

TSER

RCLKO

RLINK

RTIP

RCLK

RNEGO

TCLK

TCLKO

RMSYNC

RFSYNC

TCHCLK

TSIG

TRINGB

BPCLK

TSYNC

TLCLK

RPOSO

TCHBLK

TRINGA

TTIPA

RSYNC

RSYSCLK

RSIGF

RLOS/LOTC

TSYSCLK

TSSYNC

TTIPB

RLCLK

RCHCLK

RCHBLK

RSIG

RSER

RRING

PORT

DS21458_U

TCLKI

TLINK

TNEGO

TNEGI

TPOSO

TPOSI

TSER

RCLKO

RLINK

RTIP

RCLK

RNEGO

TCLK

TCLKO

RMSYNC

RFSYNC

TCHCLK

TSIG

TRINGB

BPCLK

TSYNC

TLCLK

RPOSO

TCHBLK

TRINGA

TTIPA

RSYNC

RSYSCLK

RSIGF

RLOS/LOTC

TSYSCLK

TSSYNC

TTIPB

RLCLK

RCHCLK

RCHBLK

RSIG

RSER

RRING

IN

Page 37: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

PORT4_RRING=

PIN

T11

PORT3_RRING=

PIN

A6

TSYSCLK3

TSYSCLK4

TSSYNC4

RSYSCLK4

TTIP3

RCLK4

TRING4

TTIP4

TRING3

RRING4

RSER4

RLOS4

RSYNC4

TCLK4

RTIP4

TSER4

RRING3

RLOS3

RSYSCLK3

TCLK3

RCLK3

RTIP3

TSER3

RSER3

RSYNC3

TSSYNC3

TSYNC4

TSYNC3

RGAPCLK3

TGAPCLK3

RGAPCLK4

TGAPCLK4

U20

U20

53B7<>

53C2<

53A7<>

53A2<>

53B2<>

53A2<>

53B7<>

53B2<>

53C2<

53A7<>

53B7<>

53A2<>

53B7<>

53A2<>

BLOCKNAME:_quadte1wan_dn.

PARENTBLOCK:\_wan4z44_dn\

09/16/2004

STEVE

SCULLY

DS33Z11/41/44DK01A0

48/71(TOTAL)

3/10(BLOCK)

CR-48:

@\_ZTOP_LIB\.\_ZTOPDN_\(SCH_1):PAGE1_I11@\_ZTOP_LIB\.\_WAN4Z44_DN\(SCH_1):PAGE1_I1@\_ZTOP_LIB\.\_QUADTE1WAN_DN\(SCH_1):PAGE3

T11

P9

R10

R11

M9

R12

P16

M11

L8

P12

N11

R9

N12

P15

N15

R13

N10

T14

R14

N9

N16

K11

P13

P11

M10

R16

L9

P10

K12

T10

T15

P14

K10

L10

R15

M12

T16

L12

L11

A6

C8

B7

C7

D7

B6

C2

A3

D8

D6

E7

B8

B5

C1

D1

C5

F9

C4

B3

E8

D2

F5

B4

C6

E6

B2

F6

F8

G5

A7

C3

A2

G6

D5

B1

E5

A1

G7

F7

53C7<

53C7<

53D4<>

53D7<

50D8<

50B5<

50C5<

50D8<

50A5<

51A6<>

53D4<>

50A5<

50C8<

51A6<>

53D7<

50C8<

53D4<>

53D4<>

53D4<>

53D4<>

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

IN

IN

OUT

OUT

IN

IN

IO

IO

IN

OUT

OUT

PORT

DS21458_U

TCLKI

TLINK

TNEGO

TNEGI

TPOSO

TPOSI

TSER

RCLKO

RLINK

RTIP

RCLK

RNEGO

TCLK

TCLKO

RMSYNC

RFSYNC

TCHCLK

TSIG

TRINGB

BPCLK

TSYNC

TLCLK

RPOSO

TCHBLK

TRINGA

TTIPA

RSYNC

RSYSCLK

RSIGF

RLOS/LOTC

TSYSCLK

TSSYNC

TTIPB

RLCLK

RCHCLK

RCHBLK

RSIG

RSER

RRING

PORT

DS21458_U

TCLKI

TLINK

TNEGO

TNEGI

TPOSO

TPOSI

TSER

RCLKO

RLINK

RTIP

RCLK

RNEGO

TCLK

TCLKO

RMSYNC

RFSYNC

TCHCLK

TSIG

TRINGB

BPCLK

TSYNC

TLCLK

RPOSO

TCHBLK

TRINGA

TTIPA

RSYNC

RSYSCLK

RSIGF

RLOS/LOTC

TSYSCLK

TSSYNC

TTIPB

RLCLK

RCHCLK

RCHBLK

RSIG

RSER

RRING

IN

Page 38: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

THEPCBLAYOUTINCORRECTLYUSESPINS38-40,33-35,28-30AND23-25

AS

THE

TX

PRIMARY.

THIS

HAS

BEEN

CORRECTEDIN

THE

SCHEMATIC,

THE

PCB

/ASSEMBLYHAS

BEEN

MODIFIEDTO

ACCOMMODATETHIS.

RJ45_4PORT

I13

R207

R208

CB390

RB313

RB312

RB321

RB322

L10

JB12

CB395

RB317

RB316

RB327

RB328

L10

R203

R204

C173

1UF

I14

0 0

61.9

61.9

0.1UF

I25

RJ45_4PORT

I26

0 0

61.9

61.9

0.1UF

0

0

0 0TRING2

TTIP2

RRING1

RTIP1

RRING2

RTIP2

TTIP1

TRING1

JB12

1UF

C176

I11L10

I2L10

CR-49:

@\_ZTOP_LIB\.\_ZTOPDN_\(SCH_1):PAGE1_I11@\_ZTOP_LIB\.\_WAN4Z44_DN\(SCH_1):PAGE1_I1@\_ZTOP_LIB\.\_QUADTE1WAN_DN\(SCH_1):PAGE4

4/10(BLOCK)

49/71(TOTAL)

BLOCKNAME:_quadte1wan_dn.

PARENTBLOCK:\_wan4z44_dn\

09/16/2004

STEVE

SCULLY

DS33Z11/41/44DK01A0

76

33

34

35

21

C6

C4

C3

C5

C2

C1

C7

C8

8

31

10

32

9

21

21

21

21

17

16

23

24

25

1

2

A6

A4

A3

A5

A2

A1

A7

A8

18

21

20

22

19

21

21

2121

21 1

2

21

21

21

21

47C2>

47C2>

47C4<

47C4<

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

RCV

6

5

RJ457

4

3

2

1

8

XMIT

RCV

6

5

RJ457

4

3

2

1

8

XMIT

Page 39: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

THEPCBLAYOUTINCORRECTLYUSESPINS38-40,33-35,28-30AND23-25

THE

PCB

/ASSEMBLYHAS

BEEN

MODIFIEDTO

ACCOMMODATETHIS.

AS

THE

TX

PRIMARY.

THIS

HAS

BEEN

CORRECTEDIN

THE

SCHEMATIC,

CB396

RB319

RB318

R201

R202

RB329

L10

CB391

RB315

RB314

RB323

RB324

R206

R205

C174

L10

JB12

TRING3

TTIP3

TTIP4

TRING4

RTIP3

RRING3

RRING4

RTIP4

I9

I8RJ45_4PORT

0.1UF

61.9

61.9

0

0

I25

0.1UF

61.9

61.9

RJ45_4PORT

I19

00

0 0

1UF

00RB330

1UF

C175

JB12

I24L10

I7L10

5/10(BLOCK)

50/71(TOTAL)

DS33Z11/41/44DK01A0

09/16/2004

STEVE

SCULLY

BLOCKNAME:_quadte1wan_dn.

PARENTBLOCK:\_wan4z44_dn\

CR-50:

@\_ZTOP_LIB\.\_ZTOPDN_\(SCH_1):PAGE1_I11@\_ZTOP_LIB\.\_WAN4Z44_DN\(SCH_1):PAGE1_I1@\_ZTOP_LIB\.\_QUADTE1WAN_DN\(SCH_1):PAGE5

21

21

21

21

21

D6

D4

D3

D5

D2

D1

D7

D8

21

21 1

2

21

38

39

40

3

36

5

37

4

21

21

21

21

21

21

21 1

2

12

11

28

29

30

B6

B4

B3

B5

B2

B1

B7

B8

13

26

15

27

14

48C1>

48C1>

48C4<

48C4<

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

RCV

6

5

RJ457

4

3

2

1

8

XMIT

RCV

XMIT

6

5

RJ457

4

3

2

1

8

Page 40: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

ALLUNMARKEDBIASRESISTORSARE10K

MOT

NOTMUX

RLOS1

RLOS2

RLOS3

RLOS4

LIUC

ESIBRD

ESIBR0

ESIBR1

MUX

BTS

2.0K

2.0K

2.0K

330

2.0K

330

330

330

2.0K

2.0K

RB185

RB209

RB192

RB228

DS30

RB221

DS32

DS33

DS34

RB234

RB251

RB284

RB183

RB303

BLOCKNAME:_quadte1wan_dn.

PARENTBLOCK:\_wan4z44_dn\

51/71(TOTAL)

DS33Z11/41/44DK01A0

STEVE

SCULLY

09/16/2004

6/10(BLOCK)

CR-51:

@\_ZTOP_LIB\.\_ZTOPDN_\(SCH_1):PAGE1_I11@\_ZTOP_LIB\.\_WAN4Z44_DN\(SCH_1):PAGE1_I1@\_ZTOP_LIB\.\_QUADTE1WAN_DN\(SCH_1):PAGE6

12

21

12

12

12

21

21

21

21

21

21

21

21

21

47A8>

47A4>

48A8>

48A4>

46C7<

46A2<>

46A2<>

46A2<>

46A2<

46A2<

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

V3_3

Page 41: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

XRST

DONE

CCLK

JTD_SPART2FLASH

ONCE_TCLK

JTD_SPART_TDI

XI_TMS

0.1UF

0.1UF

0.1UF

0.1UF

.1UF

.1UF

0.1UF

0.1UF

JTDO458

JTD_SPART_TDI

ONCE_TCLK

XI_TMS

TDI_NU

X_INIT

CFG_DIN

.1UF

330

1UF

.1UF

.1UF

.1UF

.1UF1UF

1UF

1UF

.1UF

1UF

10K

V2_5XI

XRST

DONE

JTD_SPART2FLASH

CCLK

V2_5XI

XI_TMS

ONCE_TCLK

JTD_FLASH_TDO

TMS_NU

TCK_NU

TDO_NU

1UF

1UF

10UF

1UF

RESET_B

1UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

0.1UF

RB129

12

CB2741 2

CB2301 2

C861 2

C1141 2

UB06

CB662 1

CB652 1

C1922 1

CB2691 2

CB3382 1

CB2782 1

CB3371 2

CB2162 1

CB1352 1

C232 1

C222 1

C1882 1

CB2751 2

C772 1

U10

R84

12

U08

JB07

C108

CB134

CB168

CB150

CB190

CB257

C125

C142

C123

CB62

C135

C851 2

CB245

09/16/2004

STEVE

SCULLY

DS33Z11/41/44DK01A0

7/10(BLOCK)

52/71(TOTAL)

BLOCKNAME:_quadte1wan_dn.

PARENTBLOCK:\_wan4z44_dn\

CR-52:

@\_ZTOP_LIB\.\_ZTOPDN_\(SCH_1):PAGE1_I11@\_ZTOP_LIB\.\_WAN4Z44_DN\(SCH_1):PAGE1_I1@\_ZTOP_LIB\.\_QUADTE1WAN_DN\(SCH_1):PAGE7

E8

F9

H11

H12

J11

L9

M9

L8

M8

J5

J6

H5

H6

C14

D4

D13

E12

M5

M12

N13

P3

P14

D3

A15

C4

B14

D15

R14

N3

P2

R3

R4

P4

L6

J10

H9

G11

F7

F6

B15

B2

A16

A1

F8

E9

F10

F11

G6

G7

G8

G9

G10

H7

H8

H10

J7

J8

J9

K6

K7

K8

K9

K10

K11

L7

L10

L11

R2

R15

T1

T16

P15

N4

C3

E5

J12

7 92

10654

20

18

16

15

14

13

12

11

3 8

19

17

1 65

4

973

10

8

12

21

21

21

21

21

21

21

21

21

21

21

21

3 42

8 567

1

52B8<>

52B8<>

52C8<>

46C7>

52C1<

52C1<

46C7<

52C8<>

52C1<

46C7<

52C8<>

53B2<>

52B8<

52B1<

52B1<>

52B1<>

52C1<

46C7<

52A7<>

52C1<

46C7<

52A7<>

46C7<

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

V3_3

MAX1792

IN

OUT

SET

GND

OUT

IN

SHDN

RST

V3_3

V3_3

V3_3

6

1084

12

3 5 7 9

CONN_10P

CE*

TCK

TMS

CLK

D0

DNC1

OE/RST*

DNC2

TDI

CF*

XILINX_XCF01S

VCCJ

VCCO

VCCINT

TDO

DNC3

GND

DNC6

CEO*

DNC5

DNC4

XC2S50_BGA

CONTROL

VCCO8

VCCINT5

VCCINT1

VCCINT9

PROGRAM*

GND36

GND35

GND34

GND33

GND32

GND31

GND30

GND28

GND27

GND26

GND25

GND24

GND23

GND21

GND20

GND19

GND18

GND16

GND15

GND13

GND12

GND11

GND10

GND9

GND8

GND7

VCCO3

VCCO2

GND1

GND2

GND3

GND4

GND5

GND6

GND14

GND17

GND22

GND29

NC1

NC2

M2

M1

M0

DONE

CCLK

TDO

TCK

TDI

TMS

VCCINT12

VCCINT11

VCCINT10

VCCINT8

VCCINT7

VCCINT6

VCCINT4

VCCINT3

VCCINT2

VCCO16

VCCO15

VCCO14

VCCO13

VCCO12

VCCO11

VCCO10

VCCO9

VCCO7

VCCO6

VCCO5

VCCO4

VCCO1

V3_3

V3_3

V3_3

Page 42: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

TSER

PULLDNSUSED

IN

IBO

MODE

(IMPLEMENTS

IMUX)

TSER1

CFG_DIN

RGAPCLK4

RGAPCLK3

RGAPCLK2

RGAPCLK1

TSSYNC4

TSSYNC1

BPCLK1

RSYSCLK1

RSYSCLK2

TSYSCLK3

RSYSCLK3

RSYSCLK

2.0K

2.0K

2.0K

RSER4

RSYNC1

TSER2

TSER3

TSER4

TCLK1

TCLK2

TCLK3

TCLK4

X_INIT

RSER3

RSER2

RSER1

RCLK4

RCLK3

RCLK2

RCLK1

TSYNC4

RSYNC4

TSSYNC3

RSYNC3

RSYNC2

TSSYNC2

TSYNC1

TSYNC2

TSYNC3

TSYSCLK4

TSYSCLK2

TSYSCLK1

RSYSCLK4

2.0K

RSER1

RSER2

RSER3

RSER4

SPARE_TP1

SPARE_TP2

U10

R88

R113

R104

R94

TGAPCLK4

TGAPCLK3

TGAPCLK2

TGAPCLK1

TP30

TP32

TSYSCLK

MCLK2FPGA

STEVE

SCULLY

8/10(BLOCK)

BLOCKNAME:_quadte1wan_dn.

PARENTBLOCK:\_wan4z44_dn\

53/71(TOTAL)

09/16/2004

DS33Z11/41/44DK01A0

CR-53:

@\_ZTOP_LIB\.\_ZTOPDN_\(SCH_1):PAGE1_I11@\_ZTOP_LIB\.\_WAN4Z44_DN\(SCH_1):PAGE1_I1@\_ZTOP_LIB\.\_QUADTE1WAN_DN\(SCH_1):PAGE8

A7

A5

C6

B4

A3

B3

D8

A6

C8

D7

E7

B5

D6

A4

E6

D5

C5

C9

B11

A11

C10

A8

C12

D12

B12

A13

D11

A12

B10

D10

A10

E10

A9

H16

H15

G16

H13

G13

F15

E16

F14

D16

F13

E13

D14

C15

H14

J13

G14

G15

G12

F16

F12

E15

E14

C16

B16

N15

N14

M13

L14

P16

L13

N16

M16

K14

K16

J16

K15

J15

M14

M15

L12

L16

K13

L15

K12

J14

T15

R16

B8

B7

C7

B6

E11

C11

A14

C13

B13

B9

D9

11

47B5<

52C8<>

48B4<

48B8<

47B4<

47B8<

48B1<

47B6<

47B6>

47B8<

47B4<

48B5<

48B8< 53C2<

48B4>

47B8<>

47B1<

48B5<

48B1<

47C5<

47C1<

48C5<

48C1<

52B8<>

53C2<

48B8>

53C2<

47B4>

53C2<

47B8>

48C4>

48C8>

47C4>

47C8>

48B1<>

48B4<>

48B5<

48B8<>

47B4<>

47B2<

47B6<>

47B2<>

48B5<>

48B1<

47B2<

47B6<

48B4<

53A7<>

47B8>

53A7<>

47B4>

53A7<>

48B8>

53A7<>

48B4>

48B1<>

48B5<>

47B1<>

47B5<>

46D7<

PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

XC2S50_BGA

BANK2BANK 0

BANK

3

BANK

1

IO10_1

IO9_1\VREF

IO1_1\CS*

IO2_1\WRITE*

IO3_1

IO4_1\VREF

IO5_1

IO4_0

IO3_0

IO2_0\VREF

GCK3

IO15_3

IO14_3

IO23_3

IO22_3

IO21_3

IO20_3

IO19_3

IO18_3

IO17_3

IO16_3

IO13_3\TRDY

IO12_3

IO11_3\D4

IO10_3\VREF

IO9_3

IO8_3\D5

IO7_3\D6

IO6_3

IO5_3

IO4_3\VREF

IO3_3

IO2_3\D7

IO1_3\INIT*

IO24_2

IO23_2

IO22_2

IO21_2

IO20_2

IO19_2

IO18_2

IO17_2

IO16_2

IO15_2

IO14_2

IO13_2\(DOUT,BUSY)

IO12_2\(DIN,D0)

IO11_2

IO10_2\VREF

IO9_2

IO8_2

IO7_2\D1

IO6_2\D2

IO5_2

IO4_2

IO3_2\D3

IO2_2\VREF

IO2_1\IRDY

IO22_1

IO21_1

IO20_1

IO19_1

IO18_1

IO17_1

IO16_1

IO15_1

IO14_1

IO13_1

IO12_1

IO11_1

IO8_1

IO7_1

IO6_1

GCK2

IO20_0

IO19_0

IO18_0

IO17_0

IO16_0

IO15_0

IO14_0

IO13_0

IO12_0

IO11_0

IO10_0

IO9_0

IO8_0

IO7_0\VREF

IO6_0

IO5_0

IO1_0

Page 43: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

PORTSAREENABLEDBYDEFAULTONT1BRD,ANDAREDISABLEDUSINGJUMPERSONT3BRD

WR

Z41TSYNC

5

30

OBS_TCLK<3>

OBS_RSER<3>

OBS_RDEN<4>

30

Z44_TCLK<4>

30

OBS_TCLK<4>

T3ENH_T1ENLPRT1

T3ENH_T1ENLPRT2

T3ENH_T1ENLPRT3

T3ENH_T1ENLPRT4

2.0K

2.0K

2.0K

2.0K1

30

OBS_RDEN<3>30

Z44_TDEN<4>

OBS_TDEN<4>

OBS_TDEN<3>30

Z44_TDEN<3>

Z44_RDEN<3>

Z44_TCLK<3>

Z44_RCLK<3>

Z44_RSER<3>

30

30

Z44_RSER<2>

Z44_TCLK<2>

Z44_RCLK<2>

Z44_RDEN<2>

Z44_TDEN<2>

Z44_RSER<1>

Z44_RCLK<1>

Z44_RDEN<1>

Z44_TCLK<1>

Z44_TDEN<1>

3030 303030303030

0

02346

2

DAT<7..0>

7 1

Z44_RDEN<4>

30

Z44_RCLK<4>

30

RD

Z44_TSER<1>

Z44_TSER<2>

T3ENH_T1ENLPRT1

T3ENH_T1ENLPRT2

T3ENH_T1ENLPRT3

T3ENH_T1ENLPRT4

ADDR<9..0>

30

Z41RSYNC

3030

CS_X4

Z44_TSER<3>

OBS_RCLK<3>

OBS_RSER<4>

OBS_RCLK<4>

Z44_RSER<4>

30

Z44_TSER<4>

U10

M3

T11

T9

J4

T7

K2

T5

T10

T8

P5

K3

L5

P1

M1

T14

T3

T2

K5

N2

L3

M4

R50

R51

R49

R53

R54

R45

R72

R52

R46

R73

R43

R42

RB94

RB101

R44

R41

R39

RB93

RB92

R40

TP29

TP27

TP15

TP16

TP28

TP26

TP24

TP12

TP25

TP13

TP14

TP17

RB04

RB05

RB45

RB46

R48

R47

09/16/2004

STEVE

SCULLY

DS33Z11/41/44DK01A0

54/71(TOTAL)

BLOCKNAME:_quadte1wan_dn.

PARENTBLOCK:\_wan4z44_dn\

9/10(BLOCK)

CR-54:

@\_ZTOP_LIB\.\_ZTOPDN_\(SCH_1):PAGE1_I11@\_ZTOP_LIB\.\_WAN4Z44_DN\(SCH_1):PAGE1_I1@\_ZTOP_LIB\.\_QUADTE1WAN_DN\(SCH_1):PAGE9

N8

R11

M11

N11

T12

R13

P13

M10

R10

P10

R12

P11

T13

N12

P12

N10

T4

N6

R5

R6

M7

P8

N5

M6

N7

T6

P7

R7

M2

C2

B1

C1

E4

D1

E1

F2

G3

H3

G4

G1

A2

E3

D2

F3

E2

F1

F4

F5

G2

H2

H4

R8

N9

P9

K1

R1

N1

L4

K4

L2

L1

J1

H1

J2

P6

R9

J3

G5

1 1 1 1 1 1 1 1 1 111

46B7<

55A3<>

55C6<>

55B1<>

55D6<>

54A6<>

55C6<>

54A5<>

55C2<>

54A5<>

55B2<>

54A5<>

55B1<>

55C1<>

55C4<>

55B1<>

55B4<>

55C4<>

55C8<>

55C6<>

55C8<>

55C8<>

55C6<>

55D8<>

55C8<>

55C8<>

55C6<>

55C6<>

55A4

55A2

46B1<>

55B4<>

55B4<>

46B7<

55A2<>

55D6<>

55C6<>

54A8<55D6<>

54A8<55C6<>

54A8<55C2<>

54A8<55B2<>

55A7

55A5

46C2<

55C6<>

55D2<>

55C1<>

55B4<> 55B1<> PAGE:

DATE:

TITLE:

ENGINEER:

AA

BB

CC

DD

112 2

334 4

556 6

778 8

BANK

5

BANK

7

XC2S50_BGA

BANK6

BANK 4

IO11_7

IO19_5

IO4_6\VREF

IO2_4

IO5_5

IO1_6\TRDY

IO2_6

IO3_6

IO5_6

IO6_6

IO7_6

IO8_6

IO9_6

IO10_6\VREF

IO11_6

IO12_6

IO13_6

IO14_6

IO15_6

IO16_6

IO17_6

IO3_4\VREF

IO1_4

IO1_5

GCK1

IO23_7

IO22_7

IO21_7

IO20_7

IO19_7

IO18_7

IO17_7

IO16_7

IO15_7

IO14_7

IO13_7

IO12_7\IRDY

IO10_7

IO9_7\VREF

IO8_7

IO7_7

IO6_7

IO5_7

IO4_7

IO3_7\VREF

IO2_7

IO1_7

IO23_6

IO22_6

IO21_6

IO20_6

IO19_6

IO18_6

IO18_5

IO17_5

IO16_5

IO15_5

IO14_5

IO13_5

IO12_5

IO11_5

IO10_5

IO9_5

IO8_5\VREF

IO7_5

IO6_5

IO4_5

IO3_5

IO2_5\VREF

IO22_4

IO21_4

IO20_4

IO19_4

IO18_4

IO17_4

IO16_4

IO15_4

IO14_4

IO13_4

IO12_4

IO11_4

IO10_4

IO9_4\VREF

IO8_4

IO7_4

IO6_4

IO5_4

IO4_4

GCK0

Page 44: DS33Z41DK Ethernet Transport Design Kitsw01–sw05, sw08–sw21, sw24–sw26, sw29–sw31, sw33–sw44 37 l_switch, sp3t slide, 4pin th tyco 3-1437575-3 sw06, sw22 2 l_swith 8pos 16pin

P1

CONNECTOR(RECEPTICAL)

P2

CONNECTOR(RECEPTICAL)

WANR.C.CONNECTORTO

MOTHERBOARD

NOTE3184ISONCS3WHILE21455ISONCS2/CS4

RECEPTACLE

GND

INT2

RESET_B

T3ENH_T1ENLPRT1

Z44_TSER<1>

Z44_TDEN<1>

Z44_TCLK<1>

Z44_TCLK<2>

TMS_NU

TDI_NU

8

Z44_RSER<1>

GND

GND

Z41RSYNC

Z41TSYNC

RECEPTACLE

INT5

Z44_RDEN<1>

I28

GND

RD

GND

GND

GND

Z44_RSER<2>

GND

Z44_RDEN<3>

TCK_NU

TDO_NU

GND

OSC4_NU

OSC2_NU

V3_3

Z44_RCLK<2>

Z44_RDEN<2>

GND

GND

GND

GND

V3_3

GND

GND

V3_3

GND

GND

GND

GND

GND

OSC3_NU

GND

GND

GND

V3_3

GND

GND

GND

V3_3

GND

Z44_TDEN<2>

V3_3

7420

653

GND

9

1

GND

ADDR<9..0>

ADDR<9..0>

GND

0 3 5 7

2 4

DAT<7..0>

GND

V3_3

GND

ALE

CS_X4

GND

GND GND

GND

GND

Z44_TDEN<3>

GND

Z44_TCLK<3>

GND

GND

GND

GND

GND

V3_3

GND

GND

GND

GND

GND

GND

GND

V3_3

GND

GND

GND

V3_3

GND

CS_X5

GND

GND

GND

GND

I27

Z44_TCLK<4>

SIG_RETURN

GND

GND

Z44_RCLK<1>

GND

V3_3

INT2

SIG_RETURN

Z44_TDEN<4>

INT3

WAN_INT

GND

GND

OSC1_NU

GND

GND

V3_3

CS_X3

6

DAT<7..0>

I29CS_X2

CS

GND

Z44_RCLK<4>

GND

Z44_RSER<4>

Z44_RDEN<4>

Z44_RSER<3>

V3_3

Z44_RCLK<3>

GND

GND

Z44_TSER<4>

Z44_TSER<3>

T3ENH_T1ENLPRT3

T3ENH_T1ENLPRT4

WR

GND

GND

SIG_RETURN

Z44_TSER<2>

T3ENH_T1ENLPRT2

GND

SIG_RETURN

1

J12

J09

09/16/2004

55/71(TOTAL)

10/10(BLOCK)

STEVE

SCULLY

DS33Z11/41/44DK01A0

BLOCKNAME:_quadte1wan_dn.

PARENTBLOCK:\_wan4z44_dn\

CR-55:

@\_ZTOP_LIB\.\_ZTOPDN_\(SCH_1):PAGE1_I11@\_ZTOP_LIB\.\_WAN4Z44_DN\(SCH_1):PAGE1_I1@\_ZTOP_LIB\.\_QUADTE1WAN_DN\(SCH_1):PAGE10

55D7<>

52B1<

46A2<>

54A8<

54A6<>

54B8<>

54B8<

54B8<

54B8<

52A8<>

52A8<>

54B8<

54C7<

54C7<

54B8<

46B7<

54C7<>

54A8<

54B1<

52A8<>

52A8<>

54B8<

54B8<

54B8<

55A7

54C7

46C2<

55A5

54C7

46C2<

55A4

54C3

46B1<>

54C7<>

54B1<

54B1<

54B1<

54B8<

55D6<>

55C6<>

55A1>

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Research Journal of Environmental Scien cesdocsdrive.com/pdfs/academicjournals/rjes/2014/178-192.pdfSw8 Sw1 Sw2 Sw3 Gombak (1) Sw6 Sw4 Klang Sw16 Sw15 Sw14 Sw17 Sw18 Sw25 Sw24 Sw31

INDU TRIAL WEIGHINGS YSTEMS ODECA s.r.l. · 2018. 11. 30. · ODECA s.r.l. INDU TRIAL WEIGHINGS YSTEM S SW21-X2 / SW22-X2 : Weight indicator for hazardous area ATEX 2,22 Digital weight

Final EUSIF Heart of the SW31!05!14

Just Add Weights: Markov Logic for the Semantic Webskok/papers/sw08.pdf · variable xmight range over people (e.g., Anna, Bob, etc.), and the constant C might represent a city (e.g,

arXiv:1705.02000v2 [math.AG] 4 Jul 2017see [Che04, Wei04, Wei06, SW08, FLSW14]. From the point of view of PDE and geometric analysis, a necessary and sufficient condition for their

Dual System Encryption · SW08 revocation ID c, t c ID K, t K. Problem: Simulator can test keys! Simulator Sim. Picks A, B 2Zp: F(ID) = A ¢ID + B Challenge CT and unknown key tags

Clarifications to Monitoring Efforts...Apr 19, 2018  · SW07 SW08 SW09 SW10 SW11 SW12 SW13 SW14 SW15 SW16 SW17 SW18 SW19 SW20 SW21 SW22 SW23 SW24 SW25 SW26 SW27 SW28 SW29 SW30 SW31

S3: the Small Scheme Stack A Scheme TCP/IP Stack ...stamourv/slides/s3-sw08.pdfS3: the Small Scheme Stack A Scheme TCP/IP Stack Targeting Small Embedded Applications Vincent St-Amour

Awakening the Web’s Sleeper Agents: Misusing Service ...skarami/files/sw21/preprint-sw...times, our techniques can detect the presence of a SW in the user’s browser, indicating

Authorization to Construct (ATC) SW08- Landfill Phased ... · 12/22/2017  · Authorization to Construct (ATC) SW08-Landfill Phased Construction MassDEP, Bureau of Air & Waste 1

WAMBO COAL PTY LIMITED...SW08 - Stony Creek Dry WATERFALL CREEK SW39 - Waterfall Creek Midstream Dry MINE WATER DAMS SW12 - West Cut Dam 9.10 6530.00 26.80 SW14 - Box Cut Dam (Admin)

CELEBRATE - Jim Coleman, Ltd. - Home pageArrives in a 1-piece gift box. 1-24 $8.99, 25-49 $8.49, 50-99 $7.99, 100-149 $7.49, 150+ $6.99 (SW21) Top Seller! Infuser Jogger Bottle This

NV-Series PT, simple operation handbookproducts.omron.us/Asset/NV_handbook_manual_en_200910.pdf · Prepare one by referring to the Manual. -RS-232C type (24 VDC) - NV3Q-MR21 NV3Q-SW21

P94-6023, Schematic - 379 Model Family Electricalsupermiller.com/pdf/P94-6023.pdf · P51-1 1 T10 1 50 AMP S111-1 J50-3 21 S101 50 AMP SW21 SW20 IC1 J4-1 A B C P2 5 6 1 4 2 3 BATTERIES

The Institutional Organization of the Market Economy Dani Rodrik SW31/PED-233/Law School 2390 Spring 2013

KIOSK - SENOR TECH 21.pdf · KIOSK SW21 / SD21 / SS21 Retail service kiosk Food ordering and payment kiosk Ticket selling service kiosk Applications 21.5” True-Flat PCAP Touch Intel