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DS33Z11DK Ethernet Transport Design Kit
www.maxim-ic.com
GENERAL DESCRIPTION
The DS33Z11 design kit is an easy-to-use evaluation board for the DS33Z11 Ethernet transport-over-serial link device. The DS33Z11DK is intended to be used with a resource card for the serial link. The serial link resource cards are complete with transceiver, 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 Windowsa-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.
FEATURES

Demonstrates Key Functions of DS33Z11 Ethernet Transport Chipset Includes Resource Card with DS21348 LIU, DS2155 T1E1 SCT, and DS3170 T3E3 SCT, Transformers, BNC and 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 DS33Z11, DS2155, and DS3170 Register Sets All DS33Z11 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 Silk Screen Labels Identify the Signals Associated with All Connectors, Jumpers, and LEDs

ORDERING INFORMATION
PART DS33Z11DK DESCRIPTION DS33Z11 demo card, T3/E3, T1/E1 (SCT/LIU) resource card included
DESIGN KIT CONTENTS
* * * DS33Z11DK Main Board Single-Port Serial Card with DS2155 T1/E1 SCT, DS21348 T1/E1 LIU, and DS3170 T3/E3 SCT CD_ROM o ChipView Software and Manual o DS33Z11DK Data Sheet o Configuration Files
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TABLE OF CONTENTS
GENERAL DESCRIPTION ..........................................................................................................1 ORDERING INFORMATION .......................................................................................................1 DESIGN KIT CONTENTS............................................................................................................1 COMPONENT LIST.....................................................................................................................3 SYSTEM FLOORPLAN ...............................................................................................................8 PC BOARD ERRATA ..................................................................................................................8 FILE LOCATIONS .......................................................................................................................8 BASIC OPERATION....................................................................................................................9
POWERING UP THE DESIGN KIT .............................................................................................................. 9
General ..................................................................................................................................................................9
BASIC DS33Z11 INITALIZATION (USED FOR ALL QUICK SETUPS) .............................................................. 9
Quick Setup #1 (Device Driver + CPLD Loopback) ..............................................................................................9 Quick Setup #2 (DS21348 T1E1) ........................................................................................................................10 Quick Setup #3 (DS2155 T1E1) ..........................................................................................................................10 Quick Setup #4 (DS3170 T3E3) ..........................................................................................................................10
CONFIGURATION SWITCHES AND JUMPERS......................................................................11 ADDRESS MAP (ALL CARDS) ................................................................................................13 DS33Z11 INFORMATION..........................................................................................................13 DS33Z11DK INFORMATION ....................................................................................................13 TECHNICAL SUPPORT ............................................................................................................13 SCHEMATICS ...........................................................................................................................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 DS33Z11DK, DS33Z44DK, DS21458RC, DS3174RC, and DS2155-DS21348-DS3170RC. Each reference designator is only used once. For example, U18 only appears on the DS33Z11DK and is not used on any of the other boards. See Table 2.
Table 1. Component List (Decoupling Caps Not Shown)
DESIGNATION
U18
QTY
1
DESCRIPTION
ELITE 10/100 ETHERNET TRANSPORT OVER SERIAL LINK 14X14 CSBGA 169 PIN 3.3V T1.E1.J1 QUAD TRANSCEIVER 0-70C 256P BGA QUAD 10/100 ETHERNET EXTENSION TO WAN 17X17 PBGA 256 PIN DS3/E3 SCT, 11X11 CSBGA, 100 PIN T1/E1/J1 XCVR 100P QFP 0-70C 3.3V LIU QUAD TRIPLE DUAL SINGLE ATM PACKET PHYS FOR DS3 E3 STS1 0-70C 400P BGA SOIC 8PIN STEP-UP DC-DC CONVERTER 0.5A LIMIT 8-Pin uMax SOIC 1.8V or Adj MICROPROCESSOR VOLTAGE MONITOR, 2.93V RESET, 4PIN SOT143 Dual RS-232 transceivers with 3.3V/5V internal capacitors 8-Pin uMax SOIC 2.5V or Adj 1206 CERAM 10uF 10V 20% 1206 CERAM 0.1uF 25V 10% SCHOTTKY DIODE, 1 AMP 40 VOLT LED, AMBER, SMD L_LED, GREEN, SMD LED, RED, SMD LED, GREEN, SMD L_LED, RED, SMD
SUPPLIER
Dallas Semiconductor
PART
DS33Z11
U20
1
Dallas Semiconductor
DS21458
U22 U23 U24 U25 UB08
1 1 1 1 1
Dallas Semiconductor Dallas Semiconductor Dallas Semiconductor Dallas Semiconductor Dallas Semiconductor
DS33Z44 DS3170 DS2156L DS21348 DS3184
U01, U09 U07, U11 U13, UB01
2 2 2
Maxim Maxim Maxim
MAX1675EUA MAX1792EUA 18 MAX811SEU S-T NA MAX1792EUA 25 ECJ3YB1A106M ECJ3VB1E104K 10BQ040 LN1451C LN1351C LN1251C LN1351C LN1251C
U21, UB07 U31, UB06, UB11 C11, C13, C16, C25, C27, C31-C35, C37, C41, C47, CB10, CB63, CB114, CB128, CB164, CB496 CB390, CB391, CB395, CB396 D01-D03, D05, DB03-DB05 DS01, DS07, DS10-DS12, DS17, DS20 DS02, DS03, DS09, DS14, DS15 DS04-DS06, DS08, DS13, DS16, DS18, DS27, DS28, DS35, DS37, DS38, DS40 DS19, DS43 DS21-DS26, DS30, DS32- DS34, DS36, DS39, DS41, DS42, DS44-DS48 GND_TP01-GND_TP07, GND_TP09--GND_TP44, GND_TP46-GND_TP68, GND_TPB01-GND_TPB10
2 3 19 4 7 7 5 13 2 19
MAXIM Maxim Panasonic Panasonic International Rectifier Panasonic Panasonic Panasonic Panasonic Panasonic
76
STANDARD GROUND CLIP
KEYSTONE
4954
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DS33Z11DK
DESIGNATION
H1-H8, H17-H19
QTY
8
DESCRIPTION
KIT, 4-40 HARDWARE, .50 NYLON STANDOFF AND NYLON HEX-NUT KIT, 4-40 HARDWARE, 1.12 NYLON STANDOFF AND NYLON HEX-NUT (1.12 STANDOFF PN = 4807K-ND) CONNECTOR, FASTJACK SINGLE, 8 PIN 100 MIL 2*7 POS JUMPER RECEPTACLE, SMD, 140 PIN, .8MM, 2 ROW VERTICAL L_TERMINAL STRIP, 10 PIN, DUAL ROW, VERT DO NOT POPLUATE L_TERMINAL STRIP, SHROUDED, 10 PIN, DUAL ROW, VERT 100 MIL 2 POS JUMPER TERMINAL STRIP, 10 PIN, DUAL ROW, VERT CONN 50 PIN, 2 ROW, POSTS VERT, MOTHERBOARD FOOTPRINT L_CONN, DB9 RA, LONG CASE SOCKET, BANANA PLUG, HORIZONTAL, BLACK CONNECTOR BNC 75 OHM VERTICAL 5PIN SOCKET, BANANA PLUG, HORIZONTAL, RED L_RJ48 8 PIN SINGLE PORT CONNECTOR CONNECTOR BNC 75 OHM RA 5PIN CONNECTOR BNC RA 5PIN PLUG, SMD, 140 PIN, .8MM, 2 ROW VERTICAL RA RJ45 8PIN 4PORT JACK 100 MIL 3 POS JUMPER FERRITE 3A 100 OHM AT 100 MHZ 1206 SMD INDUCTOR 22.0uH 2PIN SMT 20% XFMR 1-2CT XMIT, 1-1CT RCV, 40P WIDE SOIC RES 0603 54.9 Ohm 1/16W 1% RES 0603 49.9 Ohm 1/16W 1% RES 0603 10.0K Ohm 1/16W 1% - Must be 1% tolerance RES 0603 1.0K Ohm 1/16W 5% RES 1206 5.6 Ohm 1/8W 5% NA
SUPPLIER
PART
Lab Stock
H9-H16
16
NA
Lab Stock
J01-J05 J06, J41 J07-J12 J13-J22 J23, J29, J32, J38, J39, J43, J44, J47, JB07 J24, J30, J31, J33 J25, J26, J45, J46 J27, J42 J28, J36 J48, J54, JB01 J49-J52 J53, JB02, JB08 J55, JB11 J56-J59, J61, J63 J60, J62, J64, J65 JB05, JB06, JB09, JB10, JB13, JB14 JB12 JP01-JP19 L01, L03-L08, LB01, LB02 L02, L09 L10 R01, R02, RB10, RB11, RB18, RB19, RB22, RB23, RB26, RB27 R03, R04, RB12, RB13, RB20, RB21, RB24, RB25, RB28, RB29 R05, R06, R08, R09, R11 R07, R12, R16, R79, R160, R244, R248, R250, R251, R254, R255, RB126, RB143, RB147, RB150, RB157 R10, R107
5 2 6 10 9 4 4 2 2 3 4 3 2 6 4 6 1 19 9 2 1 10 10 5
Halo Electronics NA AMP NA 3M Electronics NA NA SAMTEC AMP Mouser Electronics Cambridge Mouser Electronics MOLEX Trompetor Trompetor AMP MOL NA Steward Coiltronics Pulse Panasonic Panasonic Panasonic
HFJ11-2450E Lab Stock 5-179010-6 Lab Stock 2510-6002UB Lab Stock Lab Stock TSW-125-07T-D 747459-1 164-6218 CP-BNCPC004 164-6219 15-43-8588 UCBJR220 UCBJR220 179031-6 43223-8140 NA HI1206N101R -00 UP1B-220 T1068 ERJ3EKF54R9V ERJ3EKF49R9V ERJ3EKF1002V ERJ3GEYJ102V ERJ-
16 2
Panasonic Panasonic
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DESIGNATION QTY DESCRIPTION SUPPLIER PART
8GEYJ5R6V R132, R137, R142, R144, R156, RB194, RB208, RB227 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 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 R171, R172, R174, R175, R190, R191, R240, R241 R198-R200, R210-R213, RB306, RB325, RB326 R201-R208, RB321-RB324, RB327-RB330 R239, RB349 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 R242, R243, RB144, RB166, RB355-RB358, RB368- RB371 R32, R70, R78, R161, R176, R194, R195, R237, R238, RB129, RB134, RB146, RB193 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- 8 L_RES 0603 0 Ohm 1/16W 1% AVX CJ10-000F
40
RES 0603 5.1K Ohm 1/16W 5%
Panasonic
ERJ3GEYJ512V
104
RES 0603 30 Ohm 1/16W
Panasonic
ERJ3GEYJ300V
8 10 16 2
L_RES 0805 0.0 Ohm 1/10W 5% RES 0603 332 Ohm 1/16W 1% RES 1206 0 Ohm 1/8W 5% RES 0805 51.1 Ohm 1/10W 1%
Panasonic Panasonic Panasonic Panasonic
ERJ6GEY0R00V ERJ3EKF3320V ERJ8GEYJ0R00V ERJ6ENF51R1V
34
L_RES 0603 330 Ohm 1/16W 5%
Panasonic
ERJ3GEYJ331V
12
RES 0603 51 Ohm 1/16W 5%
Panasonic
ERJ3GEYJ510V ERJ3GEYJ331V
13
RES 0603 330 Ohm 1/16W 5%
Panasonic
152
RES 0402 30 Ohm 1/16W 5%
Panasonic
ERJ2GEJ300X
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DESIGNATION
RB297
QTY
DESCRIPTION
SUPPLIER
PART
R56, R90 R77, RB159 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 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 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 RB201, RB285 RB283 RB298, RB299, RB312- RB319, RB336, RB337 RB81, RB84-RB88, RB111, RB113, RB120, RB122 SW01-SW05, SW08-SW21, SW24-SW26, SW29-SW31, SW33-SW44 SW06, SW22 SW07, SW23 SW27, SW28, SW32
2 2
RES 0603 1.0M Ohm 1/16W 5% L_RES 1206 0 Ohm 1/8W 5%
Panasonic Panasonic
ERJ3GEYJ105V ERJ8GEYJ0R00V
37
RES 0603 10K Ohm 1/16W 5%
Panasonic
ERJ3GEYJ103V
48
RES 0603 2.0K Ohm 1/16W 5%
Panasonic
ERJ3GEYJ202V
61
L_RES 0603 10K Ohm 1/16W 5%
Panasonic
ERJ3GEYJ103V
2 1 12 10 37 2 2 3
RES 0805 330 Ohm 1/10W 5% RES 0603 10K Ohm 1/10W 5% - SEE SPECIAL INSTRUCTIONS RES 0805 61.9 Ohm 1/10W 1% RES 0603 DO NOT POPULATE L_SWITCH, SP3T SLIDE, 4PIN TH L_SWITH 8POS 16PIN DIP LOW PROFILE SWITCH MOM 4PIN SINGLE POLE L_DIPSWITCH, 10 POS
Panasonic Panasonic Panasonic NA Tyco AMP Panasonic AMP
ERJ6GEYJ331V 603_ERJ3GEYJ103V ERJ6ENF61R9V NA 3-1437575-3 435668-7 EVQPAE04M 435668-9
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DESIGNATION
T01, T03 T02, TB01 TP01-TP78, TPB01, TPB02
QTY
2 2 80 XFMR 16P SMT
DESCRIPTION
SUPPLIER
Pulse Pulse NA National Semiconductor Avnet Xilinx NA Motorola Xilinx NA XILINX Micron Fairchild Fairchild ECL SaRonix Atmel SaRonix SaRonix SaRonix SaRonix SaRonix
PART
TX1099 T3049 NA DP83847ALQ A56A XCF01SV020 C XC2S2005FG256C NA MMC2107 XC2S505FG256C NA XC95144XL10TQ100C MT48LC4M32 B2TG-7 NC7SZ86 NC7SZ86 EC1-8.000M NTH089AA325.000 AT25160A10PI-2.7 NTH039A32.0480 NTH089A3100.0000 NTH089AA344.736 NTH089AA44.736 NTH039A32.0480
XFMR, OCTAL T3/E3, 1 TO 2, SMT 32 PIN TESTPOINT, 1 PLATED HOLE, DO NOT STUFF IC, DsPHYTER11-SINGLE 10/100 ETHERNET TRANSCEIVER, 65 PIN LLP 1MBit Flash based config mem XILINX SPARTAN xc200 2.5V FPGA,256 PIN BGA CYPRESS SRAM, LAB STOCK mmc2107 processor XILINX SPARTAN 2.5V FPGA,256 PIN BGA 10 pin res pack, 10K ohm 100 PIN CPLD SYNCHRONOUS DRAM, 1MEGX32X4 BANKS, TSOP 86 PIN HIGH SPEED BUFFER HIGH SPEED INVERTER XTAL LOW PROFILE 8.0MHZ OSCILLATOR, CRYSTAL CLOCK, 3.3V - 25.000 MHZ, Low Jitter required for PHY SPI SERIAL EEPROM 16K 8 PIN DIP 2.7V NEEDS SOCKET OSCILLATOR, CRYSTAL CLOCK, 3.3V - 2.048 MHZ OSCILLATOR, CRYSTAL CLOCK, 3.3V - 100.000 MHZ OSCILLATOR, CRYSTAL CLOCK, 3.3V - 44.736 MHZ OSCILLATOR, CRYSTAL CLOCK, 5.0V - 44.736 MHZ L_OSCILLATOR, CRYSTAL CLOCK, 3.3V - 2.048 MHZ
U02-U06 U08, U12, U29 U10 U14, U26, U30, UB05 U15, U19 U16, U27 U17, U28, U32 UB02, UB03, UB04 UB09, UB10 UX01-UX12, UXB02-UXB04, UXB06-UXB08 UXB01, UXB05 X01, X02 Y01, Y09 Y02, Y13 Y03 Y05, Y06 Y07 Y08 YB02
5 3 1 4 2 2 3 3 2 18 2 2 2 2 1 2 1 1 1
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SYSTEM FLOORPLAN
DS33Z11 MAINBOARD
LEDS AND TESTPOINTS
DS21348, DS2155, DS3170 RESOURCE CARD
SDRAM
SERIAL INTERFACE 2 X 140 PIN CONNECTORS ETHERNET PHY MAGNETIC LEDS AND JUMPERS SERIAL INTERFACE 2 x 140 PIN CONNECTORS CPLD MUX AND SELECTION JUMPERS
TRANSFORMER AND NETWORK CONNECTIONS (DS2155)
DS33Z11
TRANSFORMER AND NETWORK CONNECTIONS (DS3170)
HARDWARE MODE SWITCHES FOR DS33Z11
TRANSFORMER NETWORK CONNECTIONS AND CONFIGURATION SWITCHES (DS21348)
MICROPROCESSOR AND SERIAL PORT (57600-8-N-1)
PC BOARD ERRATA
* * Silk screen for the serial resource card has VCC and ground indicators pointing the wrong direction for configuration switches SW27, SW28, and SW32. This should be corrected with an adhesive label. Signal descriptions for JTAG connector are incorrect on the quad T1E1 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/DS33Z11DK. All locations are given relative to the top directory of the CD/zip file. * DS33Z11 register definition files and configuration files: o .\cfg_demo_gui\DS33Z11_cfg_demo_gui\DS33Z11.def o .\DS33Z11_cfg_demo_gui\SU_LI_PORT1.def o .\DS33Z11_cfg_demo_gui\basic_config.mfg DS2155 register definition files and configuration files: o .\DS33Z11_cfg_demo_gui\te1_ds2155\DS2155.def o .\DS33Z11_cfg_demo_gui\te1_ds2155\e1_gapclk_crc4_hdb3_nocas.ini DS3170 register definition files and configuration files: o .\DS33Z11_cfg_demo_gui\te3_ds3170\ds3170_evbrd.def o .\DS33Z11_cfg_demo_gui\te3_ds3170\ds3_p1.def o ..... 6 other low level def files .... o .\DS33Z11_cfg_demo_gui\te3_ds3170\70_t3_sct_needscoaxlb.mfg
*
*
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BASIC OPERATION
Powering Up the Design Kit
* * * Attach resource card to main board. Connect PCB 3.3V and GND banana plugs to power supply. At power-up the system should draw less than 1A. Set switches for software mode as described in Table 2 (short description follows). * Top bank all low (DCEDTE ..... SCANEN) * A2, A1, A0 in mid position, ScanTri low (right-hand side) * 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.
Basic DS33Z11 Initialization (Used for All Quick Setups)
This section covers four basic methods for configuring the Z11. 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 DS33Z11. 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. Register-Based Configuration. Launch ChipView.exe and select Register View. When prompted for a definition file, pick the file named DS33Z11.def. After the definition file loads, go to the File menu and select FileMemory Config FileLoad .MFG file. When prompted, select the file named basic_config.mfg. 3. Hardware Mode. Set switches as described in the section for powering up the design kit, then change the following: HWMODE3.3V, A03.3VV, A13.3V, A20V. This sets the part for LSB first, scrambling off, HDLC encapsulated. At this point traffic will pass from the Ethernet port to the serial port. In this mode broadcast frames are not passed (i.e., ping). 4. EEPROM mode is available with the DK, but is beyond the scope of this manual.
Quick Setup #1 (Device Driver + CPLD Loopback)
* * * * * * On the serial resource card install jumpers J30, J31, J33. This places the card in CPLD loopback as described in Table 3. Complete the hardware configuration and one of the basic DS33Z11 configurations as described in the previous section. 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. At this point any packets sent to the DS33Z11 are echoed back. Incoming packets (i.e., ping) should cause the RX LED to blink, after which the TX LED should also blink. To interact with the device driver select from the drop down menu: * ToolsPluginsLoad Plugins. When asked if DLLs have already registered select yes * Select ToolsPluginsDS33Z44/11/41 Device Driver Demo * A new form called `Zchip Configuration' pops up. * Preload basic configuration for the GUI by selecting FileLoad Settings (in the `Zchip Configuration' form). Select the file named `basic_Config.eset'
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Quick Setup #2 (DS21348 T1E1)
* * * * * On the serial resource card install jumper J30 (do not install J31 and J33). This places the card in DS21348 mode, with TCLK Osc Y03 as described in Table 3. Complete the hardware configuration and one of the basic DS33Z11 configurations as previously described. 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. Set DS21348 configuration switches SW27, SW28, and SW32 in the ON position, and make the following changes: * Switch SW32: RT1, L2 and L1 OFF. * Switch SW28: PBTS OFF. * Switch SW27: WR_NRZ, HBE and L0 OFF. Place a loopback connector at the DS21348 network side; RLOS LED DS28 should go out. At this point any packets sent to the DS33Z11 are echoed back. Incoming packets (i.e., ping) should cause the RX LED to blink, after which the TX LED should also blink.
* *
Quick Setup #3 (DS2155 T1E1)
* * * * * * On the aerial resource card install jumper J31 (do not install J30 and J33). This places the serial card in DS2155 mode. Complete the hardware configuration and one of the basic DS33Z11 configurations as previously described. 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. Launch ChipView.exe (or use existing session if its already open) and select Register View. When prompted for a definition file pick the file named DS2155.def. After the definition file loads, go to the File menu and select File(R)Reg Ini File(R)Load Ini File. When prompted, pick the file named e1_gapclk_crc4_hdb3_nocas.ini. Place a loopback connector at the DS2155 network side; RLOS LED DS35 should go out. At this point any packets sent to the DS33Z11 are echoed back. Incoming packets (i.e. ping) should cause the RX LED to blink, after which the TX LED should also blink.
Quick Setup #4 (DS3170 T3E3)
* * * * On the serial resource card install jumper J33 (do not install J30 and J31). This places the card in DS3170 mode. Complete the hardware configuration and one of the basic DS33Z11 configurations as previously described. 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. Launch ChipView.exe (or use existing session if its already open) and select Register View. When prompted for a definition file pick the file named ds3170_evbrd.def. After the definition file loads, go to the File menu and select FileMemory Config FileLoad .MFG file. When prompted, select the file named 70_t3_sct_needscoaxlb.mfg. Place a loopback connector at the DS3170 network side. At this point any packets sent to the DS33Z11 are echoed back. Incoming packets (i.e., ping) should cause the RX LED to blink, after which the TX LED should also blink.
* *
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CONFIGURATION SWITCHES AND JUMPERS
The DS33Z11DK 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
SILK SCREEN REFERENCE J45.9 + J45.10 J45.7 + J45.8 J45.5 + J45.6 GROUND (banana plug) VDD 3.3V (banana plug) OnCe DCEDTES (3pos switch) RMIIMII (3pos switch) CKPHA (3pos switch) MODEC0 (3pos switch) MODEC1 (3pos switch) HWMODE (3pos switch) SCANMO (3pos switch) SCANEN (3pos switch) ....testpoints.... Z-RESET (button) A2, A1, A0 (3 pos switches) SDRAM CLOCK MII CLOCK spi_cs, spi_ck, spi_miso, spi_mosi ....testpoints..... AFCS FULLDS FUNCTION Reserved Enable device driver Enable callbacks Power supply ground Power supply VDD BDM DS33Z11 mode pin; DTE/DCE selection DS33Z11 mode pin DS33Z11 mode pin DS33Z11 mode pin DS33Z11 mode pin DS33Z11 mode pin DS33Z11 mode pin DS33Z11 mode pin DS33Z11 testpoints DS33Z11 reset DS33Z11/SPI pins DS33Z11 SDRAM clock PHY MII clock -- DS33Z11 testpoints DS33Z11 mode pin DS33Z11 mode pin BASIC SETTING SW MODE HW MODE Not installed User decision User decision -- -- -- Low Low Low High Low Low Low Low -- -- Mid position Installed Installed -- -- HW mode only HW mode only -- -- -- -- -- -- Low Low Low Low Low Low Low Low -- -- Mid position installed installed -- -- High High DESCRIPTION This jumper is not for use with the DS33Z11 design kit. Pin J45.10 has been removed to prevent accidental installation. When installed the device driver will configure the DS33Z11 and the transceiver during power-up. When installed the driver will respond to interrupts. System Ground. Always connected to power supply. System VDD. Always connected to power supply. Debug connector for processor Low for DTE High for RMII, low for MII SPI EEPROM hardware mode configuration switch Software mode selected Software mode selected Hardware/software mode (software mode selected) Set low for normal operation Set low for normal operation Processor bus, JTAG and LAN side testpoints for Zchip System reset Address pin/EEPROM config switch. Set to mid position to allow connection to processor. 100MHz oscillator to drive SDRAM clock 25MHz oscillator to drive SDRAM clock SPI signals (for EEPROM memory) DS33Z11 serial port testpoints Set high to enable auto flow control. Set high to enable full duplex.
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DS33Z11DK SILK SCREEN REFERENCE H10S GROUND/VDD (banana plug) VDD 3.3V (banana plug) FUNCTION DS33Z11 mode pin Power supply ground/3.3V Power supply VDD BASIC SETTING SW MODE HW MODE HW mode High only -- -- -- -- DESCRIPTION Set high to confg for 100Mb Redundant connection to system power. Use plugs at either top or bottom of board. Redundant connection to system power. Use plugs at either top or bottom of board.
Table 3. Serial Reference Card Jumper Settings
JUMPER SETTINGS J30 Off, J31 Off, J33 Off J30 Installed, J31 Off, J33 Off J30 Off, J31 Installed, J33 Off J30 Off, J31 Off, J33 Installed J30 Installed, J31 Installed, J33 Installed MODE DS21348 Loop Timing DS21348 Source Timing DS2155 T1E1 DS3170 T3E3 COMMENT DS21348 TCLK is driven by DS21348 RCLK. This requires that the T1E1 device on the far end has its TCLK set to its local oscillator. DS21348 TCLK is driven by Oscillator Y03. This requires that the T1E1 device on the far end has its TCLK set to its RCLK. TCLK source is determined by a register setting in the DS2155. TCLK source is determined by a register setting in the DS3170. CPLD loopback makes the following connections: Zrser Ztser, Ztden 3.3V, Zrden 3.3V, Ztclki OscY03, Zrclki OscY03
CPLD loopback
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DS33Z11DK
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 4. Overview of Daughter Card Address Map
OFFSET 0X0000 to 0X0087 0X1000 to 0X1FFF 0X2000 to 0X2FFF 0X3000 to 0X3FFF DEVICE FPGA DS33Z11 DS2155 DS3170 DESCRIPTION Processor board identification DS33Z11. Uses CS_X1. T1E1 portion of single T1E1-T3E3 WAN card. Uses CS_X2. T3E3 portion of single T1E1-T3E3 WAN card. Uses CS_X3.
Registers in the DS33Z11, DS2155, and DS3170 can be easily modified using the ChipView host-based userinterface software with the definition files previously mentioned.
DS33Z11 INFORMATION
For more information about the DS33Z11, consult the DS33Z11 data sheet available on our website at www.maxim-ic.com/DS33Z11.
DS33Z11DK INFORMATION
For more information about the DS33Z11DK, including software downloads, consult the DS33Z11DK data sheet available on the our website at www.maxim-ic.com/DS33Z11DK.
TECHNICAL SUPPORT
For additional technical support, please e-mail your questions to telecom.support@dalsemi.com.
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DS33Z11DK
SCHEMATICS
The DS33Z11DK schematics are featured in the following pages. As this is a hierarchal schematic some explanation is in order. The main board is composed of three hierarchal blocks: the processor block, the DS33Z11 block, and an Ethernet block inside the DS33Z11 block, which is a nested hierarchy block. The serial card consists of three hierarchy blocks, one for each of the DS21348, DS2155, and DS3170. These blocks are connected by the CPLD, which connects to the 140-pin AV bus, which snaps into the main board. 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 quad-port serial cards 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.
DS33Z11 MAINBOARD TOP LEVEL SCHEMATIC
DS21348, DS2155, DS3170 RESOURCE CARD
SERIAL INTERFACE 2 X 140 PIN CONNECTORS
ETHERNET PHY PAGE 8 SYMBOL SCHEMATIC PAGES 11-12
DS33Z11 BLOCK PAGE 3. SYMBOL SCHEMATIC PAGES 5-10
SERIAL INTERFACE 2 X 140 PIN CONNECTORS
DS2155 BLOCK PAGE 64 SYMBOL SCHEMATIC PAGES 68-69 CPLD MUX AND SELECTION JUMPERS
DS3170 BLOCK PAGE 64 SYMBOL SCHEMATIC PAGES 70-71
DS21348 BLOCK PAGE 64 SYMBOL SCHEMATIC PAGES 67-67
P BLOCK PAGE 4 SYMBOL SCHEMATIC PAGES 13-19
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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 Gabriel Drive, Sunnyvale, CA 94086 408-737-7600
(c) 2005 Maxim Integrated Products * Printed USA
The Maxim logo is a registered trademark of Maxim Integrated Products, Inc. The Dallas logo is a registered trademark of Dallas Semiconductor Corporation.

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