User's Manual Motorola, Incorporated Semiconductor Products Secto

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DSP56002ADM
User's Manual
Motorola, Incorporated Semiconductor Products Sector 6501 William Cannon Drive West Austin, 78735-8598
Introduction
This document supports DSP56002 Application Development Module (DSP56002ADM), including description basic structure operation, equipment required specifications components, schematic diagrams, parts list. Section Quick Start Guide. Section provides detailed information about components evaluation module. Appendix detailed schematics. Appendix lists Bill Materials (BOM) board. Detailed information provided additional documents supplied with this kit.
OnCE Mfax trademarks Motorola, Inc.
MOTOROLA INC., 1997
Order this document DSP56002ADMUM/AD
Motorola reserves right make changes without further notice products herein improve reliability, function, design. Motorola does assume liability arising application product circuit described herein; neither does convey license under patent rights rights others. Motorola products designed, intended, authorized components systems intended surgical implant into body, other application which failure Motorola product could create situation where personal injury death occur. Should Buyer purchase Motorola products such unintended unauthorized application, Buyer shall indemnify hold Motorola officers, employees, subsidiaries, affiliates, distributors harmless against claims, costs, damages, expenses, reasonable attorney fees arising directly indirectly, claim personal injury death associated with such unintended unauthorized use, even such claim alleges that Motorola negligent regarding design manufacture part. Motorola registered trademarks Motorola, Inc. Motorola, Inc. Equal Opportunity/Affirmative Action Employer.
TABLE CONTENTS
SECTION QUICK START GUIDE. OVERVIEW EQUIPMENT 1.2.1 What with DSP56002ADM 1.2.2 What Need Supply INSTALLATION PROCEDURE 1.3.1 Preparing DSP56002ADM. 1.3.2 Connecting DSP56002ADM Power USING DSP56002ADM
SECTION DSP56002ADM TECHNICAL SUMMARY. DSP56002ADM DESCRIPTION FEATURES DSP56002 DESCRIPTION 2.2.1 DSP56002 USER EPROM DECODERS. 2.2.2 DSP56002 User SRAM Decoder/Partitions. 2.2.3 DSP56002 Operating Mode Selection. 2-10 2.2.4 Clock Input Selection 2-11 2.2.5 External/Internal Reset Input 2-12 2.2.6 External IRQA/B/C Input Path 2-12 DSP56002 CONNECTOR DESCRIPTION 2-13 APPENDIX DSP56002ADM SCHEMATICS ADM56002 DSP56002RC/CLOCK CIRCUIT ADM56002 RESET/CLK/MODE_SELECT. ADM56002 EPROM/MEMORY DECODERS. ADM56002 K/64 SRAM ADM56002 MEMORY SRAM ADM56002 CONNECTOR/DECOUPLING ADM56002 CONNECTOR/DECOUPLING ADM56002 PULLUP/PULLDOWN SIGNALS A-10
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APPENDIX DSP56002ADM BILL MATERIALS DSP56002ADM BILL MATERIAL B.1.1 DSP56002 ADM-Electrical Parts List B.1.2 DSP56002 ADM-Hardware Parts List.
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LIST TABLES
Table Table Table Table Table Table Table Table Table Table Table 2-10 Table 2-11 Table 2-12 Table Table DSP56002 Default Jumper Options EPROM Density Jumper Selection EPROM Memory Space Selection User SRAM with EPROM Upper Address User SRAM with EPROM Selected with PORT User SRAM with EPROM 2-10 Operating Mode Selection 2-11 Clock Source Selection 2-12 External Input Path. 2-13 DSP56002 J2/J3 Connector 2-14 DSP56002 Host Port Connector 2-15 DSP56002 PORT Connector 2-16 DSP56002 OnCE Connector 2-16 DSP56002 ADM-Electrical Parts List DSP56002 ADM-Hardware Parts List
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SECTION QUICK START GUIDE
Quick Start Guide
1.2.1 1.2.2 1.3.1 1.3.2
OVERVIEW .1-3 EQUIPMENT .1-3 What with DSP56002ADM .1-3 What Need Supply. .1-4 INSTALLATION PROCEDURE .1-4 Preparing DSP56002ADM .1-5 Connecting DSP56002ADM Power .1-8 USING DSP56002ADM. .1-8
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Quick Start Guide Overview
OVERVIEW
Motorola Application Development System (ADS) tool used design test complex software applications hardware products using specific Motorola Digital Signal Processor (DSP) chip. related Application Development Modules (ADMs) contain chip related hardware used bench development testing. Detailed information about content provided User's Manual (order number DSPADSUM/AD). This manual provides specific information about DSP56002 Application Development Module (DSP56002ADM). This section provides summary description DSP56002ADM, additional requirements, quick installation information. Detailed information about DSP56002ADM design operation provided remaining sections this manual.
EQUIPMENT
following section gives brief summary equipment required DSP56002ADM, some which will supplied with module some which must supplied user.
1.2.1
What with DSP56002ADM
following materials provided with DSP56002ADM: DSP56002ADM Board DSP56002ADM Product Information DSP56002ADM User's Manual (this document) Motorola Registration Form
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Quick Start Guide Installation Procedure
1.2.2
What Need Supply
DSP56002ADM requires following supplemental components operation: Motorola with appropriate host interface card Host Computer system: PC-compatible computer (486 class higher) with: MS-DOS version later, Windows later, Windows Megabytes open 16-bit expansion slot free addresses ($100-$102, $200-$202, $300-$303) CD-ROM drive hard drive with Megabytes free disk space mouse Microsystems Workstation running Operating System Release 4.1.1 later Solaris Release later), open SBus expansion slot, CD-ROM drive, mouse, Hewlett Packard HP7xx Workstation running HPUX Version (Version 10.x supported), open EISA expansion slot, CD-ROM drive, mouse
INSTALLATION PROCEDURE
Installation requires following steps: Using information provided Motorola User's Manual, install Motorola host computer. Prepare DSP56002ADM board. Connect board external Command Converter card.
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Quick Start Guide Installation Procedure
1.3.1
Preparing DSP56002ADM
CAUTION
Because electronic components sensitive effects electrostatic discharge (ESD) damage, correct procedures should used when handling components this inside supporting personal computer. following procedures minimize likelihood damage ESD: Always handle static-sensitive components protected area, preferably with conductive (antistatic) flooring bench surfaces. Always grounded wrist straps when handling sensitive components. Never remove components from antistatic packaging until required installation. Always transport sensitive components antistatic packaging.
Locate twenty-two jumper blocks JP1-JP22 DSP56002ADM board, shown Figure 1-1. Table page describes default jumper switch settings when shipped from factory. Read Section this manual, DSP56002ADM Technical Summary, additional information about DSP56002ADM board components.
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Quick Start Guide Installation Procedure
JG13 JG14 JG11 JG10 JG12
JG21
bnc1 CLKIO
JG15
JG20
JG19
JG18
DSP56002
JG17
JG16
JG22
Figure Connector Jumper Group Locations
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Quick Start Guide Installation Procedure
Table DSP56002 Default Jumper Options Jumper Group JG3,JG4,JG5 JG6,JG7,JG8 JG9,JG10,JG11 JG12 JG13 JG14 JG15 JG16-JG21 JG22 Note: Jumpers 1-2, 2-3, 1-2,1-2,1-2 1-2,1-2,1-2 1-2, 8-10, 12-14,16-18 1-3, 3-4, 9-10 1-2, 1-2, 1-2, 1-2, 1-2, 11-2 Comment buffered clock reset circuit Mode reset External input path 24-pin EPROM device words EPROM (WS57C291B) EPROM Upper Memory Partition SRAM Lower Memory 24-pin SRAM devices (MCM6290) DSP56002 disabled reset
Some jumper options require being wirewrapped mechanical constraints.
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Quick Start Guide Using DSP56002ADM
1.3.2
Connecting DSP56002ADM Power
Figure shows interconnection diagram connecting external power supply DSP56002ADM board. Using instructions User's Manual, connect Command Converter board. Power supplied from Command Converter module.
User Application Circuits
37-pin Interface Cable Host Computer
14-pin Ribbon Cable
Motorola Host-Bus Interface Card Command Converter Application Development Module (ADM)
Figure Application Development
USING DSP56002ADM
Once installed, becomes part ADS. information User's Manual develop your application design, debug test
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SECTION DSP56002ADM TECHNICAL SUMMARY
DSP56002ADM Technical Summary
2.2.1 2.2.2 2.2.3 2.2.4 2.2.5 2.2.6
DSP56002ADM DESCRIPTION FEATURES .2-3 DSP56002 DESCRIPTION .2-6 DSP56002 USER EPROM DECODERS .2-6 DSP56002 User SRAM Decoder/Partitions .2-8 DSP56002 Operating Mode Selection .2-11 Clock Input Selection .2-12 EXTERNAL/INTERNAL RESET INPUT .2-12 EXTERNAL IRQA/B/C INPUT PATH .2-13 DSP56002 CONNECTOR DESCRIPTION. .2-14
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DSP56002ADM Technical Summary DSP56002ADM Description Features
DSP56002ADM DESCRIPTION FEATURES
DSP56002ADM various options facilitate evaluation different features chip. These options outlined this chapter with statement default factory jumpers with which Application Developement Module (ADM) will shipped. Figure page illustrates architecture. Memory decoding minimal achieve zero wait accesses. Therefore, memory overlap into other address blocks within address space. There variety jumper options partitioning memory make appear three Digital Signal Processor (DSP) memory maps. Sockets Static Random Access Memories (SRAMs) available increasing memory size maximum words each three external memory spaces. Electronically Programmable Read Only Memory (EPROM) sockets also available stand alone operation. EPROM only accessable program memory space. Connectors exist each on-chip peripheral port well access points hook boards and/or logic analyzers. Audio Engineering Society/European Broadcasters Union (AES/EBU) connector also provided that user hook DSP56401 AES/EBU evaluation board developing digital stereo application software. OnCEport interface connector normally hooks Command Converter, providing user controlling DSP56002 target system. This connector standard pinout that should used design target application hardware. will allow user evaluate hardware software application without using special emulator. overview description DSP56002ADM also provided DSP56002ADM Product Information document (order number DSP56002ADMP/D) included with this kit. main features DSP56002ADM include following: Full speed operation 40-66 words configurable SRAM expandable words Additional sockets words Fast SRAM words EPROM with sockets expandable words Stand-alone operation after initial development Full support multiple data memory maps 96-Pin connector which provides access DSP56002 pins
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DSP56002ADM Technical Summary DSP56002ADM Description Features
RS232 voltage converter Asynchronous Serial Interface OnCE port Connector easy hookup DSP56002 Command Converter Separate connectors easy access on-chip peripherals AES/EBU connector interface DSP56401 Call your local Motorola sales office distributor additional information about Motorola Application Development System (ADS) kit. includes additional boards: host interface card external universal Command Converter. host interface card plugs host IBM-compatible HP7xx workstation, Sun/Sun-compatible system) inside computer chassis. external universal Command Converter card connects host card 37-pin ribbon cable. Command Converter card connects JTAG connector DSP56002ADM another short 14-pin ribbon cable. only compatible with Motorola software tools.
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DSP56002ADM Technical Summary DSP56002ADM Description Features
40-66 CLOCK AES/EBU
RESET/MODE CONTROL
DSP56002
OnCE
PORT PORT PORT B,C,OnCE
PORT
PMEM XMEM YMEM SRAM 16/64k
PMEM XMEM YMEM SRAM 256k EPROM 2k-32k PMEM
Figure DSP56002ADM Block Diagram
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96-PIN CONNECTOR
DSP56002ADM Technical Summary DSP56002 Description
DSP56002 DESCRIPTION
full description DSP56002, including functionality user information, provided following documents included part this (either printed copies documentation CD-ROM): DSP56002 Technical Data-Provides features list specifications including signal descriptions, power requirements, timing requirements, available packaging DSP56002 User's Manual-Provides overview description detailed information about on-chip components including memory maps, peripheral functionality, control status register descriptions each subsystem DSP56000 Family Manual-Provides detailed description core processor including internal status control registers detailed description family instruction Refer these documents detailed information about chip functionality operation.
2.2.1
DSP56002 USER EPROM DECODERS
contains sockets which will accommodate EPROMs. EPROM sockets pinout dimensions Waferscale Integration Inc. devices. EPROMS come 24-pin package EPROMs come 28-pin package. devices must inserted lower twenty-four pins 28-pin sockets leaving pins socket blank. When using 24-pin devices JG9, JG10, JG11 must configured bring supply EPROMS. proper address signals arrive particular EPROM density chosen, JG12 JG13 must configured correctly. JG12 provides options EPROM density while JG13 provides options mapping EPROM upper program memory program memory Port equal logic These mapping options useful when inserting SRAMs into 256k sockets provide EPROM SRAM program memory without causing conflict. following tables illustrate configure sockets correctly five different EPROM densities.
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DSP56002ADM Technical Summary DSP56002 Description
Table EPROM Density Jumper Selection EPROM Type 8(WS57C291B) 8(WS57C43B) 8(WS57C49B) 8(WS57C51B) 8(WS57C71C) JG9-JG11 JG12 1-2, 8-10, 12-14, 16-18 1-2, 5-6, 8-10, 12-14, 16-18 1-4, 5-6, 8-10, 12-14, 16-18 1-3, 11-13, 15-17 1-3, 7-9, 11-13, 15-17
Table EPROM Memory Space Selection Memory Pmem ($8000-$FFFF) Pmem Port Note: JG13 1-3, 2-4,
factory configured EPROMS upper address program memory space (JG9-JG11 1-2, JG13 2-4).
2.2.2
DSP56002 User SRAM Decoder/Partitions
There high speed Complementary Metal Oxide Semiconductor (CMOS) SRAMs (MCM6290) which provide working area user programs data. Provision been made accomodate devices (MCM6209) into same sockets. Also available sockets which will accommodate 256k SRAMS (MCM6229A) gathering large data samples. SRAMs moved lower upper memory partitioned that program data memory spaces have external memory. upper address memory space used, there wait state penalty inversion address line.
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DSP56002ADM Technical Summary DSP56002 Description
devices must inserted lower pins 28-pin dual-in-line sockets leaving pins socket blank clear. provide power devices JG16-JG21 configured that pins common. devices used, then SRAM becomes address input. JG16-JG21 pins must common. SRAM decoding does have arbitration signals qualifiers. processor which becomes master from 96-pin expansion connector therefore directly access SRAMs. This useful shared memory configurations. Jumper group JG14 memory block selection well SRAM program memory data memory partitioning. There variety possible options SRAM partitioning memory address start. should noted that SRAM decoder minimal decoder order achieve maximum performance. Jumper group JG15 used select memory enable signals K/64 SRAMs SRAMs. This jumper group provides options enabling both banks SRAMs they will conflict with each other. Using both banks SRAMs will provide user with maximum words program memory words data memory. This very useful gathering large samples data. EPROMs also used with program memory when using Port (PC2) disable line EPROMs enable both banks SRAMs. logic line will select EPROM; logic will select SRAM. Note that because line pullup resistor, default value reset will logic Port (PC3) used select between data memory banks, allowing total data memory. following tables show jumper options that will provide memory partitions with different memory types densities. Table User SRAM with EPROM inUpper Address Memory Partition (MCM6290) (MCM6290) (MCM6290) JG13 1-3, 1-3, 1-3, JG14 3-4, 9-10 1-2, 1-2, JG15 JG16-21
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DSP56002ADM Technical Summary DSP56002 Description
Table User SRAM with EPROM inUpper Address Memory Partition (MCM6290) (MCM6209) (MCM6209) (MCM6209) (MCM6209) P,32K Note: JG13 1-3, 1-3, 1-3, 1-3, 1-3, JG14 1-2, 9-10 1-2, 5-6, 11-12, 17-18 1-2, 5-6, 11-12, 19-20 1-2, 5-6, 13-14, 15-16 1-2, 5-6, 13-14, 17-18 JG15 JG16-21
SRAMs will reside lower address space. Table User SRAM with EPROM Selected with PORT Memory Partition (MCM6209) JG13 2-4, 2-4, JG14 1-2, 5-6, 13-14, 15-16 21-22, 27-28 JG15 17-18 JG16-21 N.A.
(MCM6229A) RAM, RAM,
Table User SRAM with EPROM Memory Partition (MCM6290) (MCM6229A) Port selects banks (MCM6209) Upper (MCM6209) (MCM6209) JG13 JG14 1-2, 5-6, 23-24, 25-26 1-2, 5-6, 11-12, 17-18 1-2, 5-6, 13-14, 15-16 1-2, 5-6, 13-14,15-16 JG15 5-6, 15-16 9-10 11-12 JG16-21
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DSP56002ADM Technical Summary DSP56002 Description
Table User SRAM with EPROM Memory Partition (MCM6229A) (MCM6209) (MCM6229A) Port selects banks Notes: JG13 JG14 21-22, 27-28 1-2, 5-6, 13-14, 15-16, 23-24, 25-26 JG15 13-14 5-6, 15-16 JG16-21 N.A.
SRAMs factory configured devices, with words program words data memory lower address space (JG14 9-10, JG15-JG21 3-4). Caution should taken when selecting SRAM options that memory mapped external circuits 96-pin expansion connector conflict with SRAM area.
2.2.3
DSP56002 Operating Mode Selection
Jumper groups JG3, JG4, used select eight operating modes which DSP56002 will exit reset. factory configured MODE MODE internal program memory occupies lower portion program memory space. Addresses higher than highest internal program memory location directed external program memory. Refer DSP56002 Technical Summary complete description chip operating modes. following table shows JG3, JG4, selection necessary achieve eight operating modes available DSP56002. Table Operating Mode Selection Mode COMMENT PRAM enabled, reset $0000 Bootstrap from EPROM PRAM enabled, reset $E000 PRAM disabled, reset $0000 Bootstrap from Host port
2-10
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DSP56002ADM Technical Summary DSP56002 Description
Table Operating Mode Selection Mode Note: COMMENT Reserved bootstrap Bootstrap from (external clock) Reserved bootstrap
factory configured exit reset Mode (JG3 1-2, 2-3, 1-2).
2.2.4
Clock Input Selection
There three options clock input selection. DSP56002 clock source either crystal oscillator chip output, external clock input, third fifth overtone oscillator. Jumper provides selection path clock. Table CLOCK SOURCE SELECTION Clock Source Buffered Clock External P1-B5/BNC1 buffered Clock Overtone Oscillator circuit Note: 1-2, 5-6, Comment External clock source Clock source Local clock chip source Local oscillator source
factory configured clock oscillator chip (JG1 3-4).
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DSP56002ADM Technical Summary DSP56002 Description
2.2.5
External/Internal Reset Input
DSP56002 reset using reset circuit from external reset input signal provided connectors. Executing cforce command from ADS56002 user interface program will generate reset pulse connector Command Converter. user also generate reset pulse board when operating stand-alone mode without Command Converter. When toggled reset pulse generated monostable multivibrator operating mode selection will synchronized deassertion output. pins provide external reset input, pins provide reset circuit output connectors. Note: configured reset circuit reset source (JG2 3-4).
2.2.6
External IRQA/B/C Input Path
external input path IRQA, IRQB IRQC directed through reset logic directly into DSP56002 input pins JG6, JG7, JG8. reset logic path insures that appropriate operating mode selected during reset without spurious external interrupts. direct path processor pins allows users design their interrupt circuits. Table External Input Path Comment IRQA,B,C Reset Logic IRQA,B,C Directly Note:
factory configured external IRQA IRQB IRQC inputs pass through reset logic (JG6 1-2, 1-2, 1-2).
2-12
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DSP56002ADM Technical Summary DSP56002 Connector Description
DSP56002 CONNECTOR DESCRIPTION
various connectors which bring signals from easy access user. This section describes these connectors. Table DSP56002 J2/J3 BusConnector RESETIN CLK_IO IRQC_IN IRQB_IN IRQA_IN CKOUT PLOCK PINIT OS1/DSCK OS0/DSI PC8/STD PC7/SRD PC6/SCK PC5/SC2 PC4/SC1
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DSP56002ADM Technical Summary DSP56002 Connector Description
Table DSP56002 J2/J3 BusConnector PB0/H0 PB1/H1 PB3/H3 PB5/H5 PB7/H7 PB9/H9 PB11/H11 PB13/H13 +VCC PC3/SC0 PC2/SCLK PC1/TXD PC0/RXD PB2/H2 PB4/H4 PB6/H6 PB8/H8 PB10/HA0 PB12/HEN PB14/HACK
Table 2-10 DSP56002 Host Port Connector Description PB0/H0 PB2/H2 PB4/H4 PB6/H6 PB8/HA0 PB10/HA2 PB12/HEN PB14/HACK Description PB1/H1 PB3/H3 PB5/H5 PB7/H7 PB9/HA1 PB11/HRW PB13/HREQ
2-14
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DSP56002ADM Technical Summary DSP56002 Connector Description
Table 2-11 DSP56002 PORT Connector Description PC0/RXD PC2/SCLK PC3/SC0 PC5/SC2 PC8/STD Description PC1/TXD PC4/SC1 PC6/SCK PC7/SRD
Table 2-12 DSP56002 OnCE Connector Signal DSI/OS0 DSCK/OS1 Connect RESET Connect Signal Description Debug Serial Input/Output Status Debug Serial Output/Acknowledge Output Debug Serial Clock/Output Status Debug Request Input Used Reset Input Target Supplies OnCE Buffer (HC367)
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DSP56002ADM Technical Summary DSP56002 Connector Description
2-16
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APPENDIX DSP56002ADM SCHEMATICS
DSP56002ADM Schematics
ADM56002 DSP56002RC/CLOCK CIRCUIT ADM56002 RESET/CLK/MODE_SELECT ADM56002 EPROM/MEMORY DECODERS ADM56002 K/64 SRAM. ADM56002 MEMORY SRAM ADM56002 CONNECTOR/DECOUPLING ADM56002 CONNECTOR/DECOUPLING ADM56002 PULLUP/PULLDOWN SIGNALS A-10
DSP56002ADM User's Manual
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DSP56002RC
BNC1
CLK_IO
EXTALIN XTALOUT FACT00 PC0/RXD PC1/TXD PC2/SCLK PC3/SC0 PC4/SC1 PC5/SC2 PC6/SCK PC7/SRD PC8/STD
D<0> D<1> D<2> D<3> D<4> D<5> D<6> D<7> D<8> D<9> D<10> D<11> D<12> D<13> D<14> D<15> D<16> D<17> D<18> D<19> D<20> D<21> D<22> D<23>
CIBOUT
DSP56002ADMUM/AD
4.7uf RESET* EXTAL XTAL MODA/IRQA* MODB/IRQB* MODC/NMI* OS1/DSCK OS0/DSI LAST_MODIFIED=Thu 17:12:21 1992
A<0> A<1> A<2> A<3> A<4> A<5> A<6> A<7> A<8> A<9> A<10> A<11> A<12> A<13> A<14> A<15> PB0/H0 PB1/H1 PB2/H2 PB3/H3 PB4/H4 PB5/H5 PB6/H6 PB7/H7 PB8/HA0 PB9/HA1 PB10/HA2 PB11/HRW PB12/HEN PB13/HREQ PB14/HACK 0.1uf PCAP CKOUT PLOCK PINIT 390pf
40mhz
PB0/H0 PB1/H1 PB2/H2 PB3/H3 PB4/H4 PB5/H5 PB6/H6 PB7/H7 PB8/HA0 PC0/RXD PB9/HA1 PB10/HA2 PC1/TXD PB11/HRW PC2/SCLK PB12/HEN PC3/SC0 PC4/SC1 PB13/HREQ PC5/SC2 PB14/HACK PC6/SCK PVCC PC7/SRD PGND PC8/STD PCAP CKOUT PLOCK RESET* PINIT EXTAL XTAL MODA/IRQA* MODB/IRQB* X/Y* MODC/NMI* OS1/DSCK OS0/DSI CLVCC CLGND X/Y* Note: PCAP capacitor silver mica.
Crystal circuit overtone crystal cut. Capacitors associated with must physcially close possible pins DSP56002.
DATE: TITLE: ADM56002 DSP56002RC/clock circuit PAGE:1 Gonzales ENGINEER:
RSTIN* RESETIN* MC1455 FACT11 RESET*
1meg
FACT00 RESET FACT00
FACT00 FACT00 IRQA_SIG
ORESET* RST555* FACT00
1.0uf .1uf .47uf
MODA/IRQA*
IRQA_IN FACT00 FACT00 FACT00 FACT00 FACT00 FACT00
4.7k
FACT00
FACT00
MODB/IRQB*
DSP56002ADMUM/AD
FACT00 FACT11 LAST_MODIFIED=Thu 18:00:45 1992
IRQB_IN
4.7k
IRQB_SIG
IRQC_IN
4.7k
FACT00 IRQC_SIG
MODC/NMI*
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TITLE: DATE: ADM56002 RESET/CLK/MODE_SELECT ENGINEER: Gonzales PAGE:
A<12>
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JG14 RAMA12 RAMA13 RAMA14 RAMA15 RAMA16 RAMA17 SRAM ADDRESS SELECT A<12> A<11> 4.7k A<10> A<9> A<8> D<16> D<17> D<18> A<13> D<19> D<20> X/Y* D<21> D<22> D<23> A<14> A<15> X/Y* PC3/SC0 D<0> A<0> D<1> A<1> D<2> A<2> D<3> A<3> D<4> A<4> D<5> A<5> D<6> A<6> D<7> A<7> A<8> JG11 A<9> A<10> ROM3PIN26 ROMPIN25 A<11> ROMPIN24 ROMPIN23 ROMPIN20 ROMPIN21 ROMRD* WS57C71C CS1* CS3* WS57C71C CS1* CS3* JG12 ROMPIN20 ROMPIN21 ROMPIN23 A<14> ROMPIN24 A<13> ROMPIN25 A<12> EPROM ADDRESS SELECT A<15> PC2/SCLK A<15> A<15>* FACT00 WS57C71C D<8> D<9> D<10> D<11> D<12> D<13> D<14> D<15> CS1* CS3* JG15 RAM64EN* RAM256E* SRAM ENABLE U14P11NC JG13 EPROM ENABLE A<15> PC2/SCLK FACT00 FACT00 100k ROMRD* LAST_MODIFIED=Fri 14:33:47 1992 TITLE: DATE: ADM56002 EPROM/MEMORY DECODERS ENGINEER: Gonzales PAGE:
A<0> A<1> A<2> A<3> A<4> A<5> A<6> A<7> A<8> A<9> A<10> ROM1PIN26 ROMPIN25 A<11> ROMPIN24 ROMPIN23 ROMPIN20 ROMPIN21 ROMRD*
DSP56002ADMUM/AD
A<0> A<1> A<2> A<3> A<4> A<5> A<6> A<7> A<8> JG10 A<9> ROM2PIN26 A<10> ROMPIN25 A<11> ROMPIN24 ROMPIN23 ROMPIN20 ROMPIN21 ROMRD*
D<8> D<9> D<10> D<11> MCM6209 MCM6209 MCM6209 D<0> D<1> RAM1NC1 NC20 D<2> RAM1NC2 A<9> NC21 D<3> A<9> A<0> A<1> A<2> A<3> A<4> A<5> A<6> A<7> A<8> A<10> A<11> JG17 RAMA12 RAMA13 RAM1A14 RAMA141 RAMA15 RAM64EN* D<4> D<5> RAM2NC1 NC20 D<6> RAM2NC2 A<9> NC21 D<7> A<9> A<0> A<1> A<2> A<3> A<4> A<5> A<6> A<7> A<8> A<10> A<11> RAMA12 JG18 RAMA13 RAM2A14 RAMA141 RAMA15 RAM64EN* NC20 NC21 D<20> D<21> D<22> D<23> MCM6209 MCM6209 MCM6209 D<12> D<13> RAM4NC1 NC20 D<14> RAM4NC2 NC21 D<15> A<9>21 A<9> A<0> A<1> A<2> A<3> A<4> A<5> A<6> A<7>10 A<8>11 A<10>22 A<11>23 RAMA12 JG20 RAMA13 RAM4A14 RAMA14 RAMA15 RAM64EN* NC20 NC21 D<16> RAM5NC1 D<17> D<18> RAM5NC2 A<9> D<19> A<9> A<0> A<1> A<2> A<3> A<4> A<5> A<6> A<7> A<8> A<10> A<11> RAMA12 JG21 RAMA13 RAM5A14 RAMA14 RAMA15 RAM64EN* NC20 NC21 TITLE: DATE: PAGE: ADM56002 16K/64K SRAM LAST_MODIFIED=Mon 14:37:38 1992 ENGINEER: Gonzales
RAM0NC1 RAM0NC2 A<9> A<9> A<0> A<1> A<2> A<3> A<4> A<5> A<6> A<7> A<8> A<10> A<11> RAMA12 JG16 RAMA13 RAM0A14 RAMA14 RAMA15 RAM64EN*12
DSP56002ADMUM/AD
RAM3NC1 RAM3NC2 A<9> A<9> A<0> A<1> A<2> A<3> A<4> A<5> A<6> A<7> A<8> A<10> A<11> RAMA12 JG19 RAMA13 RAM3A14 RAMA14 RAMA15 RAM64EN*
Note: Sockets will accommodate SRAMs.
MOTOROLA
MOTOROLA
D<8> D<9> D<10> D<11> MCM6229A MCM6229A MCM6229A NC20 CE1* D<0> D<1>RAM1NC20 D<2> RAMA17 D<3> RAMA16 A<9> A<0> A<1> A<2> A<3> A<4> A<5> A<6> A<7> A<8> A<10> A<11> A<12> A<13> A<14> A<15> RAM256E* NC20 CE1* D<4> D<5> RAM2NC20 D<6> RAMA17 RAMA16 D<7> A<9> A<0> A<1> A<2> A<3> A<4> A<5> A<6> A<7> A<8> A<10> A<11> A<12> A<13> A<14> A<15> RAM256E* NC20 CE1* D<20> D<21> D<22> D<23> MCM6229A MCM6229A MCM6229A NC20 CE1* NC20 CE1* D<12> D<13> RAM4NC20 D<14> RAMA17 D<15> RAMA16 A<9> A<0> A<1> A<2> A<3> A<4> A<5> A<6> A<7> A<8> A<10> A<11> A<12> A<13> A<14> A<15> RAM256E* D<16>RAM5NC20 D<17> RAMA17 D<18> RAMA16 D<19> A<9> A<0> A<1> A<2> A<3> A<4> A<5> A<6> A<7> A<8> A<10> A<11> A<12> A<13> A<14> A<15> RAM256E* NC20 CE1* TITLE: ADM56002 256K DATA MEMORY SRAM ENGINEER: Gonzales LAST_MODIFIED=Thu 17:11:25 1992 DATE: PAGE:
RAM0NC20 RAMA17 RAMA16 A<9> A<0> A<1> A<2> A<3> A<4> A<5> A<6> A<7> A<8> A<10> A<11> A<12> A<13> A<14> A<15> RAM256E*
DSP56002ADMUM/AD
RAM3NC20 RAMA17 RAMA16 A<9> A<0> A<1> A<2> A<3> A<4> A<5> A<6> A<7> A<8> A<10> A<11> A<12> A<13> A<14> A<15> RAM256E*
220uf 2.5uh 10uf PC0/RXD PC1/TXD MC145407 10uf C1C22 10uf 10uf RS232 Interface RESETIN* CLK_IO IRQC_IN IRQB_IN IRQA_IN CKOUT PLOCK PINIT OS1/DSCK OS0/DSI X/Y* A<15> A<14> A<13> A<12> A<11> A<10> A<9> A<8> A<7> A<6> A<5> A<4> A<3> A<2> A<1> A<0> PC8/STD PC7/SRD PC6/SCK PC5/SC2 PC4/SC1 PC3/SC0 PC2/SCLK PC1/TXD PC0/RXD PB2/H2 PB4/H4 PB6/H6 PB8/HA0 PB10/HA2 PB12/HEN PB14/HACK CONNECTOR KEYO AES/EBU Interface PC8/STD PC7/SRD PC5/SC2 J7P7NC J7P9NC J7P11NC PC4/SC1 PC3/SC0 PB0/H0 PB2/H2 PC6/SCK PB4/H4 PB6/H6 PB8/HA0 PB10/HA2 PB12/HEN PB14/HACK Port Interface PB1/H1 PB3/H3 PC0/RXD PC1/TXD PB5/H5 PC2/SCLK PB7/H7 PC3/SC0 PC4/SC1 PB9/HA1 PC5/SC2 PC6/SCK PB11/HRW PC7/SRD PB13/HREQ PC8/STD Port Interface TITLE: DATE: PAGE: ADM56002 Connector/Decoupling 10:17:16 1993 ENGINEER: David Gonzales
DSP56002ADMUM/AD
D<23> D<22> D<21> D<20> D<19> D<18> D<17> D<16> D<15> D<14> D<13> D<12> D<11> D<10> D<9> D<8> D<7> D<6> D<5> D<4> D<3> D<2> D<1> D<0> PB0/H0 PB1/H1 PB3/H3 PB5/H5 PB7/H7 PB9/HA1 PB11/HRW PB13/HREQ
OS0/DSI OS1/DSCK ORESET*
OnCE Interface
MOTOROLA
MOTOROLA
RESETIN* CLK_IO IRQC_IN IRQB_IN IRQA_IN CKOUT PLOCK PINIT OS1/DSCK OS0/DSI X/Y* A<15> A<14> A<13> A<12> A<11> A<10> A<9> A<8> A<7> A<6> A<5> A<4> A<3> A<2> A<1> A<0> PC8/STD PC7/SRD PC6/SCK PC5/SC2 PC4/SC1 PC3/SC0 PC2/SCLK PC1/TXD PC0/RXD PB2/H2 PB4/H4 PB6/H6 PB8/HA0 PB10/HA2 PB12/HEN PB14/HACK TITLE: ADM56002 Connector/Decoupling David Gonzales 10:17:28 1993 ENGINEER: DATE: PAGE:
DSP56002ADMUM/AD
D<23> D<22> D<21> D<20> D<19> D<18> D<17> D<16> D<15> D<14> D<13> D<12> D<11> D<10> D<9> D<8> D<7> D<6> D<5> D<4> D<3> D<2> D<1> D<0> PB0/H0 PB1/H1 PB3/H3 PB5/H5 PB7/H7 PB9/HA1 PB11/HRW PB13/HREQ
RES10COM
RES10COM
PC3/SC0 PC4/SC1 PC5/SC2 PC6/SCK PC7/SRD PC8/STD ROMPIN21 RN3NC2 RES10COM
A-10
PB0/H0 PB1/H1 PB2/H2 PB3/H3 PB4/H4 PB5/H5 PB6/H6 PB7/H7 PB8/HA0 RAM64EN* RAM256E* X/Y* CKOUT PB9/HA1 PB10/HA2 PB11/HRW PB12/HEN RN2P6NC PB14/HACK PC0/RXD RN2P9NC PC2/SCLK PINIT JG22 RN5NC1 RN5NC2 TITLE: DATE: ADM56002 Pullup/Pulldown signals PAGE: LAST_MODIFIED=Mon 14:38:30 1992 ENGINEER: Gonzales
PB13/HREQ
4.7k
PC1/TXD
4.7k
DSP56002ADMUM/AD
MOTOROLA
RES10COM
RES10COM
PC3/SC0 PC4/SC1 PC5/SC2 PC6/SCK PC7/SRD PC8/STD ROMPIN21 RN3NC2 RES10COM
MOTOROLA
PB0/H0 PB1/H1 PB2/H2 PB3/H3 PB4/H4 PB5/H5 PB6/H6 PB7/H7 PB8/HA0 RAM64EN* RAM256E* X/Y* CKOUT PB9/HA1 PB10/HA2 PB11/HRW PB12/HEN RN2P6NC PB14/HACK PC0/RXD RN2P9NC PC2/SCLK PINIT JG22 RN5NC1 RN5NC2 TITLE: DATE: ADM56002 Pullup/Pulldown signals PAGE: LAST_MODIFIED=Mon 14:38:30 1992 ENGINEER: Gonzales
PB13/HREQ
4.7k
PC1/TXD
4.7k
DSP56002ADMUM/AD
A-11
A-12
DSP56002ADMUM/AD
MOTOROLA
APPENDIX DSP56002ADM BILL MATERIALS
DSP56002ADM Bill Materials
B.1.1 B.1.2
DSP56002ADM BILL MATERIAL DSP56002 ADM-Electrical Parts List DSP56002 ADM-Hardware Parts List.
DSP56002ADM User's Manual
MOTOROLA
DSP56002ADM Bill Materials
DSP56002ADM BILL MATERIAL
B.1.1
DSP56002 ADM-Electrical Parts List
following DSP56002ADM electrical parts list Rev. 1.03 05-27-1992. Table 2-13 DSP56002 ADM-Electrical Parts List Description DSP56002RC MPA53-40mhz 74FACT00 MC1455P1 74FACT11 WS57C291B-45T 74F86 MCM6290P15 MC14507P 100k 2.2uH Ferrite Bead 20pf Ref. Designators U3,6-8,13 U9-11 U14-19 R2,3 R5-7,13,14 R8-10 RN1-3 RN4-5 Motorola Conner Winfield Motorola Motorola Motorola Waferscale Integration Motorola Motorola Motorola
Vendor Part
Bourne 4610X-101-RC Bourne 4608X-101-RC Miller 9230-28 Miller FB73-226, turns 30ga. EC200(JD)03
MOTOROLA
DSP56002ADM User's Manual
DSP56002ADM Bill Materials
Table 2-13 DSP56002 ADM-Electrical Parts List Description 15pf 0.1uf 390pf 4.7pf 1.0uf 0.47uf 10uf 220uf 0.01uf crystal Ref. Designators C3,4,8 C10-13 C15-46 Vendor Part CC150(JD)03 Kemet C322C104M5R5CA CDS-FY391(JGF)03 Mallory VTH4R7M35 Kemet C340C105M5R5CA Kemet C330C474M5R5CA Mallory VTH10M35 Sprague 501D227M016MM Kemet C322C103M5R5CA International Crystal 471163
DSP56002ADM User's Manual
MOTOROLA
DSP56002ADM Bill Materials
B.1.2
DSP56002 ADM-Hardware Parts List
following DSP56002ADM hardware parts list Rev. 1.03 05-27-1992. Table 2-14 DSP56002 ADM-Hardware Parts List Description berg berg berg berg berg berg berg berg terminal pos. (male) berg berg berg berg berg berg vertical conn pin(300mil) pin(300mil) pin(300mil) SPST Moment Switch Ref. Designators JG2,16-21 JG3-11 JG12 JG13 JG14 JG15 JG22 J3A,B,C BNC1 U9-11,14-19 Vendor Part R.N. NSH-08DB-S2-TG30 R.N. NSH-04DB-S2-TG30 R.N. NSH-03SB-S2-TG30 R.N. NSH-09DB-S2-TG30 R.N. NSH-06DB-S2-TG30 R.N. NSH-10SB-S2-TG30 R.N. NSH-12DB-S2-TG30 R.N. NSH-02DB-S2-TG30 Augat/RDI-MC6-P102-02 R.N. DIN96CPCSR1TR R.N. NSH-32SB-S2-TG30 R.N. NSH-18SB-S2-TG30 R.N. NSH-12SB-S2-TG30 R.N. NSH-10DB-S2-TG30 R.N. NSH-08DB-S2-TG30 R.N. NSH-03SB-S2-TG30 227699-3 R.N. PGA-144BH3-S-TG R.N. ICT-143-SCO-TG30 R.N. ICT-283-S-TG R.N. ICT-083-S-TG 8125-S-D9-R2-BE
MOTOROLA
DSP56002ADM User's Manual
DSP56002ADM Bill Materials
Table 2-14 DSP56002 ADM-Hardware Parts List Description SPST Toggle Switch Rubber Feet Ref. Designators Vendor Part 7101-S-D9-A2-BE Amatom #5186
DSP56002ADM User's Manual
MOTOROLA

User's Manual Motorola, Incorporated Semiconductor Products Secto

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