DSP96002ADM User's Manual
Contents
1. JILIL SNIMVHG 861492 LI VIN lt 2 gt 4 lt 91 gt lt 91 gt 14422174 ven 5 103135 M9018 AYOWAW 518 1 5 GL VIN vL VINQ lt E YNA lt gt VINQ lt 01 gt lt 6 gt VING 8 VINq een 514 5 st O COLO sF COQN lt gt Vg Sy Vg I Vg lt 21 gt lt 01 gt 4 lt 6 gt 4 lt gt lt 9 gt vAq lt G gt VING e VINa Wad 0294 103135 40018 AYOWAW 5 bredvl sF COLO st MOTOROLA DSP96002ADMUM AD INVHS Saveedsa lt gt 04 lt 06 gt 04 lt 62 gt lt 8 gt lt 91 gt lt gt 09 lt el gt dq lt ol gt dq 8cc9NOW 6L 8 ZL 91 48229001 Zn HMINVHSQa lt 9 gt lt 4 gt lt gt lt 6 gt cL VIN LIP VING 0L VIN 8g VINd 9 G2 V Nd lt gt vAq VING 0 6e VINd lt z gt qq 6 lt 92 gt 04 81 lt sz gt qq 21 lt 2 gt 04 912. 2 13 2 4 6 Transfer Acknowledge TA Pullup Pulldown Option 2 13 2 4 7 Bus Grant BG Pullup Pulldown Option 2 13 2 5 DSP96002 ADM CONNECTOR DESCRIPTIONS 2 14 APPENDIX A DSP96002ADM SCHEMATICS A 1 APPENDIX B DSP96002ADM BILL OF MATERIALS B 1 B 1 DSP96002ADM ELECTRICAL PARTS LIST REV 1 8 10 20 939 eR wa eee eles B 3 B 2 DSP96002ADM HARDWARE PARTS LIST REV 020 a aa Raa NINE CLE B 4 MOTOROLA DSP96002ADMUM AD Preliminary iii Figure 1 1 Figure 1 2 Figure 2 1 Figure 2 2 LIST OF FIGURES DSP96002ADM Key Component 1 6 Application 1 8 DSP96002ADM Functional Block Diagram 2 4 DSP96002ADM Key Component 2 6 DSP96002ADMUWM AD Preliminary MOTOROLA LIST OF TABLES Table 1 1 DSP96002ADM Default Jumper Options Table 2 1 DSP96002ADM Jumper 5 Table 2 2 Operating Mode Table 2 3 External IRQA IRQB IRQC Input Path Table 2 4 A B User EPROM Decoder Table 2 5 Port A B User EPROM 5 Table 2 6 Port A B User SRAM Table 2 7
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7. 318 0808 3109 lege 814 1608 158 68 1 158 ose ose es _ 888 019 888 8 4 19 2 80 518 Hv 518 SO 2 save 21 IVe wom He OOOOOOOO OOOOOOOO OOOOOO 2000 00 0 8555 000000 00000000 99000 9 coocooccoo 6 4 ol Ke 995 2 cc E 00000000 4 A WH COOND TARWM COOD 40901 000 0 vp d TIT TETT HIE 555 SCH 45554855 5265535 SISESE S EES VE m OOOCOCOOOOC OOOCOOOCOCO 040604 00000000 00000000 00000000 06600006 AAAAAAAA AAAAAAAA AAAAAAA A Ox gt 55 WWNNNYNNN NNNMN H 2 332222200 QI Oq 0 O ORON OVV V VV VV V V V eo VVVVVVVV VVVVVV 6224 1 294 lt 0 gt vq lt 61 gt V9 lt 81 gt 4 294 lt 9 gt 4 lt gt v lt 21 gt G lt g gt vq lt gt ug D
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11. CD ROM drive and a mouse Hewlett Packard HP7xx Workstation running HPUX Version 9 x Version 10 x is not supported one open EISA expansion slot CD ROM drive and a mouse 1 3 INSTALLATION PROCEDURE Installation requires the following steps 1 Using information provided in the Motorola Application Development System User s Manual install the Motorola Application Development System in the host computer 2 Prepare the DSP96002ADM board 3 Connect the board to the external Command Converter card 1 4 DSP96002ADMUM AD Preliminary MOTOROLA 1 3 1 Quick Start Guide Installation Procedure Preparing the DSP96002ADM CAUTION Because all electronic components are sensitive to the effects of electrostatic discharge ESD damage correct procedures should be used when handling all components in this kit and inside the supporting personal computer Use the following procedures to minimize the likelihood of damage due to ESD Always handle all static sensitive components only in a protected area preferably a lab with conductive anti static flooring and bench surfaces Always use grounded wrist straps when handling sensitive components Never remove components from anti static packaging until required for installation Always transport sensitive components in anti static packaging Locate the twenty seven jumper blocks JG1 JG27 on the DSP96002ADM board as shown in Figure 1 1 on page 1 6 Table 1 1 describ
12. 5 5 9 LI VINE lt 4 gt lt gt lt 6 gt eI VINE lt gt VINE 0LT VINE 8 9 lt g gt ywe lt p gt vie 0 VINE we gi vre lt LYNE lt E gt WAWXe WAWd DSP96002ADMUM AD S WOtd3 Lege lt oe gt de lt gz gt qe lt gz gt qe yc ge gi ge LI qe 6248 8248 ddA 30 50 viv LIV 017 8v IN 9v ddA 3O_ 50 SLY HK ely ZLY LLY 6v LV 9v SV V CN IV 0v 21925 OLN 2661 60 82 21 INF NUL C3ISIGOW 1577 1859 52 5 5 27959 48 EIN lt ZL gt VINE 5 11345448 lt gt lt gt lt gt 9 lt gt lt gt lt gt lt o gt vwe 35 07859 48 5 e1asdie cL VINE 5 138448 lt gt HME lt 9 gt VINe lt gt
13. 6 pin RN2 RN5 RN6 Bourne 4606 101 472 2 10 kQ 8 pins Bourne 4610X 101 103 Transistors 1 2N3904 Ql Motorola Capacitors 1 47 uf C32 AVX SA305E474ZAA 1 220 uf el Sprague 501D227M016MM 58 11 C2 C20 C22 C31 AVX SA105E104ZAA 33 61 1 21 AVX SA405E105ZAA MOTOROLA DSP96002ADMUM AD Preliminary B 3 DSP96002ADM Bill of Materials 2 DSP96002ADM HARDWARE PARTS LIST REV 1 8 10 20 93 Oty Description Ref Designator Vendor Part Jumpers 4 2 row x 12 Bergstiks JG15 JG17 JG25 R N NSH 12DB S2 TG30 1 2 row 2 Bergstiks JG20 NSH 04DB S2 TG30 2 18 1 row x Bergstiks JG1 JG14 JG21 JG22 R N NSH 36SB S2 TG30 JG26 JG27 4 2 row X 3 Bergstiks JG18 JG19 JG23 JG24 R N NSH 06DB S2 TG30 2 row X 5 Bergstiks 12 NSH 10DB S2 TG30 6 1 row x 32 Bergstiks J3 J4 R N NSH 32SB S2 TG30 Sockets 1 18 18 PGA socket U35 R N PGA 244AH3 S TG 4 20 pin 300 mil sockets U30 U31 U39 U40 ICT 203 S TG 16 28 pin 300 mil sockets U12 U19 U22 U29 R N ICE 283 S TG 8 28 pin 600 mil sockets 01 04 08 011 R N ICT 286 S TG 14 pin 300 mil socket U21 RN ICA 143 SCO TG30 Connectors 2 96 pos connector P1 P2 R N DIN96CPCSR1TR 1 2 pos power terminal JA Augat MC6 P102 02 block Switches 1 SPST momentary S1 C amp K 8125 S D9 R2 BE switch 1 SPST power switch C amp K 7101 S D
14. 7 9 13 15 0 1 1 32 K 64 K 32 K 1 3 7 9 15 17 1 3 7 9 13 15 1 1 0 32 K 32K 64K 1 3 7 9 14 16 1 3 7 9 13 15 1 0 1 64K 64K 1 3 7 9 13 15 1 3 7 9 13 15 0 1 0 1 64K 64K 1 3 7 9 13 15 1 3 7 9 13 15 0 1 0 1 128 1 3 7 9 13 15 1 3 7 9 13 15 0 1 0 1 The SRAMs Jumper Groups factory configured for 64 words of Program memory 32 K words of X data memory and 32 K words of Y data memory The PSR is not preset the user must write the correct values to PSR to enable this memory configuration DSP96002ADMUWM AD Preliminary MOTOROLA DSP96002ADM Technical Summary Configuring the DSP96002ADM 2 4 5 Clock Input Selection Using jumper JG20 the user can select either the ADM U21 clock output or an external clock input via P1 connector P1 C30 pin as the DSP96002 clock source The ADM clock is buffered via U6 3 74AS08 AND Gate which provides a current source of 2 mA and a current sink of 20 mA Table 2 8 shows the clock input output option selection Table 2 8 Clock Input Selection CLOCK SOURCE JG20 COMMENT ADM 06 3 default 1 2 Local ADM clock to DSP96002 only External on P1 C30 3 4 External clock into DSP96002 ADM U6 3 1 2 3 4 Local ADM clock to DSP96002 and connector Note The ADM is factory equipped with a 40 0 MHz local clock oscillator 2 4 6 Transfer Acknowledge TA Pullup Pulldown Option The transfer acknowledge signal on ports A and B must be asserted true low
15. A B User SRAM Table 2 8 Clock Input Selection Table 2 9 DSP96002 ADM P1 J3 Port A Table 2 10 DSP96002 ADM P2 J4 Port B Connector MOTOROLA DSP96002ADMUM AD Preliminary DSP96002ADMUM AD Preliminary MOTOROLA MOTOROLA SECTION 1 QUICK START GUIDE DSP96002ADMUWM AD Preliminary Quick Start Guide ak ok 1 2 2 1 3 1 1 3 2 1 4 1 2 OVERVIEW atta ame ie EQUIPMENT let et What You Get with the DSP96002ADM What You Need to INSTALLATION PROCEDURE Preparing the DSP96002ADM Connecting the DSP96002ADM to the PC and Power USING THE 05 96002 DSP96002ADMUWM AD Preliminary MOTOROLA Quick Start Guide Overview 11 OVERVIEW The Motorola Application Development System is tool used to design and test complex software applications and hardware products using a specific Motorola DSP chip The related Application Development Modules ADMs contain the DSP chip and related hardware used for bench development and test Detailed information about the content and use of the Application Development System is provided in the Application Development System User s Manual order DSPADSUM AD This manual provides specific information about the DSP96002 Application Develop
16. AD MOTOROLA 2130 9I 31111 eoepelu 30 0 18584 ISOPMOSQG osa 05 50 6661 19 62 01 Int 14 04141 1577 ou 249 E r MOTOROLA DSP96002ADMUM AD A 14 DSP96002ADM BILL OF MATERIALS MOTOROLA DSP96002ADMUM AD Preliminary B 1 DSP96002ADM Bill of Materials B 2 DSP96002ADMUM AD Preliminary MOTOROLA DSP96002ADM Bill of Materials B 1 DSP96002ADM ELECTRICAL PARTS LIST REV 1 8 10 20 93 Qty Description Ref Designators Vendor Part Integrated Circuits 1 DSP96002 U35 Motorola 4 WS57C191B35D U1 U4 U8 U11 WaferScale Integration 1 MC1455P1 U20 Motorola 3 74FACTOO U5 U6 U7 Motorola 2 74F138 U42 U43 Motorola 2 74F32 U41 U44 Motorola 3 PAL16L8 7 U30 U31 U39 U40 AMD 6 74F244 032 034 036 038 Motorola 16 6209 15 012 019 022 029 Motorola 1 40 MHz osc 021 NDK TD1100C 40 Resistors 1 1 MQ R11 9 47 R6 R7 R8 R10 R12 R14 R18 R20 8 4 7 R1 R3 R9 R15 R17 R19 1 2 7 R4 1 1 R5 Resistor Networks 4 4 7 kQ
17. Po N T Hong Kong 3 14 2 Tatsumi Koto Ku 1 800 441 2447 852 26629298 Tokyo 135 Japan 81 3 3521 8315 Mfax Technical Resource Center RMFAX0 email sps mot com 1 800 521 6274 TOUCHTONE 602 244 6609 Internet DSP Helpline http www motorola dsp com dsphelp dsp sps mot com TABLE OF CONTENTS SECTION 1 QUICK START 1 1 1 1 OVERVIEW 1 3 1 2 EQUIPMENT meme Seinen a a a E L a 1 3 1 2 1 What You Get with the DSP96002ADM 1 3 1 2 2 What You Need to 1 4 1 3 INSTALLATION PROCEDURE 1 4 1 3 1 Preparing the 5 96002 1 5 1 3 2 Connecting the DSP96002ADM to the and Power 1 8 1 4 USING THE DSP96002ADM 1 8 SECTION 2 DSP96002ADM TECHNICAL SUMMARY 2 1 2 1 DSP96002ADM DESCRIPTION AND FEATURES 2 3 2 2 DSP96002 DESCRIPTION 2 5 2 3 EXTERNAL INTERNAL RESET 2 5 2 4 CONFIGURING THE 5 96002 2 5 2 4 1 Operating Mode 2 8 2 4 2 External IRQA IRQB IRQC Input 2 9 2 4 3 DSP96002 Port A B User EPROM Decoders 2 10 2 4 4 DSP96002 Port A B User SRAM Decoder Partitions 2 11 2 4 5 Clock Input 5
18. a 20000000 address space There are a variety of jumper options for partitioning the memory so it appears in all three DSP memory maps Sockets for SRAMs are available for increasing the memory size to a maximum of 256 K words on each port EPROM sockets are also available for stand alone operation The EPROM is only accessible in Program memory space The OnCE port interface connects through a 14 pin ribbon cable to the ADS Command Converter The command converter controls the DSP96002 in a target system This interface uses a standard pinout that should be used when designing the target application hardware It allows the user to evaluate the hardware and software of the application without a special emulator An overview description of the DSP96002ADM is also provided in the DSP96002ADM Product Information document order number DSP96002ADMP D included with this kit The main features of the DSP96002ADM include the following DSP96002 32 bit Digital Signal Processor Full speed operation at 40 MHz 128 K words of configurable static RAM expandable to 512 K words 2KWords of EPROM with sockets expandable to 64 words Stand alone operation of ADM after initial development Full support of multiple data memory maps Two sets of 96 pin connectors provide access to all DSP96002 pins OnCE port connector that permits easy hookup to the Command Converter Note Call your local Motorola sales office or distributor fo
19. whenever an external access is made on that port If no external circuits are provided to assert the transfer acknowledge signal the DSP96002 bus will remain pending until the transfer acknowledge signal occurs Jumper groups JG21 and JG22 provide an option to always assert the TA signal so that the DSP96002 does not hang up When a jumper is placed across pins 2 3 on JG21 and JG22 the TA input is always pulled down asserted through a resistor If a jumper is placed on pins 1 2 of JG21 and JG22 the TA signal is pulled up deasserted JG21 controls the Port B side and JG22 controls the Port A side Note ADM is factory configured for the TA signal to be pulled down 2 4 7 Bus Grant BG Pullup Pulldown Option The Bus Grant signal BG on ports A and B must be asserted pulled low whenever an external access is made on that port If no external circuits are provided to assert the bus grant signal the DSP96002 bus will remain pending until BG is asserted Jumper groups JG26 and JG27 provide an option to keep the BG signal asserted so that the DSP96002 will not hang up When pins 2 3 of JG26 and JG27 are jumpered the BG input is always pulled down through a resistor If pins 1 2 of JG26 and JG27 are jumpered the BG signal is pulled up JG26 controls the Port A side and JG27 controls the Port B side Note The ADM is factory configured for the BG signal to be pulled down MOTOROLA DSP96002ADMUM AD Preliminary 2 13 DSP96002ADM Te
20. 000 5FFFFFFF 4 5 6 80000000 9FFFFFFF 5 1 2 3 4 A0000000 BFFFFFFF 6 default No jumpers FF000000 FFFFFFFF Note The ADM is factory configured to use 2 K words of EPROM at the top of the address map 2 10 DSP96002ADMUM AD Preliminary MOTOROLA DSP96002ADM Technical Summary Configuring the DSP96002ADM Table 2 5 Port A B User EPROM Selection EPROM TYPE JG7 10 JG11 14 JG15 JG16 2Kx8 1 2 11 12 17 18 19 20 4 8 1 2 11 12 15 16 19 20 8Kx8 1 2 9 10 13 14 21 22 16K x8 2 3 9 10 13 14 21 22 32K x8 2 3 9 10 13 14 21 22 64Kx8 2 3 9 10 13 14 21 22 2 4 4 DSP96002 Port User SRAM 5 The DSP96001ADM includes sixteen 64 K x 4 bit high speed CMOS Static RAMs MCM6209 that provide a working area for user programs and data with zero wait state access Note The SRAM sockets will also accept sixteen 256 x 4 bit SRAM MCM6228 which can be used to replace the 64 K x 4 bit SRAM chips if more memory is required Port A and Port B both have 64 K x 32 words of SRAM for user program development The SRAMs may be moved to various blocks of memory and may be partitioned so that P X and or Y memory spaces have external memory Since only the upper 8 bits of the address bus are input into the PAL either the 64 K x 4 or 256 K x 4 device will work with the DSP96002ADM The SRAM decoder does not have bus arbitration signals as qualifiers therefore any pr
21. 002ADMUM AD Preliminary 2 9 DSP96002ADM Technical Summary Configuring the DSP96002ADM 2 4 3 DSP96002 Port A B User EPROM Decoders Port A and B both contain sockets that accommodate EPROMs of various densities Six types of EPROMs ranging from 2 K x 8 to 64 K x 8 may be installed in the sockets The lower density EPROMs come in 24 pin packages while the higher density EPROMs are available in 28 pin packages CAUTION Improper installation of EPROM chips may result in chip damage when power is applied When using 24 pin chips make sure that the chips are inserted into the center of the EPROM sockets leaving positions 1 2 27 and 28 empty Sockets must be configured to accommodate the specific package type and memory size The four jumpers JG11 JG14 on Port A and the four jumpers JG7 JG10 on Port connect Vcc to the appropriate power input pin for the package type The EPROM PAL maps the EPROM to program memory space only and jumpers JG19 and JG24 select the memory block to which each group of EPROMs is mapped Jumpers JG15 and JG16 connect the appropriate address pins to the address pins for the installed EPROM device Table 2 4 and Table 2 5 on page 2 11 show how the different device types may be configured Table 2 4 Port A B User EPROM Decoder OPTION JG19 24 1 1 2 3 4 5 6 00000000 1FFFFFFF 2 3 4 5 6 20000000 3FFFFFFF 3 1 2 5 6 40000
22. 2 2 illustrates the physical locations of jumpers JG1 to JG27 Table 2 1 on page 2 7 defines the different Jumper Group functions Gt 2 G5 S1 UG3 2815 OOOO 9016 G 6 quy Se E det O OO gt 3 73 gt 72 1617 1 4625 618 ai 4023 N N DSP96002 G19 9 SP3609 JG24 P2 JG26 1 JG27 Figure 2 2 DSP96002ADM Key Component Layout 2 6 DSP96002ADMUM AD Preliminary MOTOROLA DSP96002ADM Technical Summary Configuring the DSP96002ADM Table 2 1 DSP96002ADM Jumper Functions Jumper Block Function JG2 JG3 Selects operating mode out of reset JG4 JG5 JG6 JG7 JG8 JG9 JG10 1 12 JG13 JG14 JG15 JG16 IRQ configuration EPROM size configuration SRAM partition configuration with JG25 JG18 JG19 SRAM address space decoding configuration with JG23 EPROM memory location configuration with JG24 JG20 Clock selection JG21 1622 signal configuration JG23 SRAM address space decoding configuration with JG18 24 1 25 EPROM memory location configuration with JG19 SRAM partition configuration with JG17 JG26 1227 BG signal cofiguration Note D
23. 2ADM Technical Summary Configuring the DSP96002ADM 2 4 2 External IRQA IRQB IRQC Input Path The paths for the external input signals MODA IRQA MODB IRQB and MODC IRQC are selected by JG4 JG5 and JG6 respectively These jumpers allow the designer to use the multiplexed function of these inputs or to select only the interrupt function of these external signals If JG4 JG6 have a jumper connecting pins 1 2 the external signals are ignored during reset In this case the DSP96002 uses the jumpers JG1 JG3 to determine the startup mode after reset Once the mode is set the external signals are enabled and interrupts received on these lines are accepted and processed This has the advantage of assuring that the chip uses the appropriate startup mode by eliminating spurious interrupts and noise from these lines If JG4 _JG6 have a jumper connecting pins 2 3 the external signals are connected directly to the MOD IRO pins on the DSP96002 and the multiplexed MOD IRQ function is used and the setting of JG1 JG3 are ignored during reset Table 2 3 gives the jumper options for the input paths Table 2 3 External IROA Input Path IROx INPUT PATH 4 5 JG6 IROC Reset Logic 1 2 1 2 1 2 Directly to pin 2 3 2 3 2 3 Note The ADM is factory configured for external IROA and IRQC inputs to be gated by the reset logic MOTOROLA DSP96
24. 9 A2 BE Miscellaneous 4 Rubber Feet Amatom 5186 Ferrite Bead Miller FB73 226 DSP96002ADMUWM AD Preliminary MOTOROLA
25. DSP96002ADM User s Manual Motorola Incorporated Semiconductor Products Sector Wireless Division 6501 William Cannon Drive West Austin TX 78735 8598 Order this document by DSP96002ADMUM AD Introduction This document supports the DSP96002 Application Development Module DSP96002ADM including a description of its basic structure and operation the equipment required to use it the specifications of the key components schematic diagrams and a parts list Section 1 is a Quick Start Guide Section 2 provides detailed information about key components in the evaluation module Appendix A has detailed schematics Appendix B lists the Bill Of Materials BOM for the board Detailed information is provided in the additional documents supplied with this kit OnCE and Mfax are trademarks of Motorola Inc gsm Motorola reserves the right to make changes without further notice to any products herein Motorola makes no warranty representation or guarantee regarding the suitability of its products for any particular purpose nor does Motorola assume any liability arising out of the application or use of any product or circuit and specifically disclaims any and all liability including without limitation consequential or incidental damages typical parameters which may be provided in Motorola data sheets and or specifications can and do vary in different applications and actual performance may vary over time All operating parameters inc
26. FFFFF JG20 1 2 Local ADM clock drives DSP JG21 2 3 signal always asserted JG22 2 3 JG23 1 2 3 4 5 6 SRAM decoded to appear in 0 1FFFFFFF address space JG24 None EPROM located from FF000000 FFFFFFFF JG25 1 3 7 9 13 15 Partition SRAM for 64K Program 32 K X Data 32 K Y Data JG26 2 3 BG signal always asserted JG27 2 3 Note Due to mechanical constraints some jumper options may require wirewrapping MOTOROLA DSP96002ADMUWM AD Preliminary 1 7 Quick Start Guide Using the DSP96002ADM 1 3 2 Connecting the DSP96002ADM to the PC and Power Figure 1 2 shows the interconnection diagram for connecting the PC and the external power supply to the DSP96002ADM board Using the instructions in the Application Development System User s Manual connect the Command Converter to the ADM board Power for the ADM is supplied from the Command Converter module User Application 37 pin 14 pin Apr Interface Ribbon Circuits Cable Cable Host Computer 1 L Motorola DSP d Host Bus Interface Application Development Module ADM Figure 1 2 Application Development 1 4 USING THE DSP96002ADM Once the ADM is installed it becomes a part of the Application Development System Use information in the Application Development System User s Manual to develop your application design
27. SP96002ADMUM AD MOTOROLA dO 3oyg 8661 21 27 91 L Inr 141 04144 1577 20 104148 19 138 5 9645 ALY oe 9Oul 2QOlN of L SIS Zn NI vOul goul dadON DIS 90 9 Zn ALY 5 vOul VdON oe IO sid L SIS 2 YHL INO 110 212 q wee L 155 an 19599 8 020 6 LLY Zn 5 19534 a 19 X19 ZHN0F E z 550 1 ang oso eX 10995 eoJnos 10010 00129481 D Fel 9n MOTOROLA DSP96002ADMUM AD XO SSSOSSS Ak aEPROM_DECODE Vi z LAST_MODIFIED aSRAM_DECODE MOTOROLA DSP96002ADMUM AD A 5 INVHS V1HOd 5 HMINVHSE 9 lt gt VINE lt 4 gt lt gt lt gt cV VINE lt l gt V Ne lt gt VINE gg ME y VIN eg VIN L2 VINE 0 VIN 6 2661 91 99 91 INF
28. VING lt Z gt VNq lt 0 gt VING lt 6 gt YNq lt 61 gt 9 6 lt 81 gt 81 L lt 91 gt 91 vin 959 HMINVHSq 9 lt L YNA lt 4 gt lt p gt vrq lt 6 gt LIP VING OL VING 8 Yq lt L gt VING lt 9 gt VING lt 0 gt VING lt 6 gt VING 2 6 8L AL 0804 9 4 d8ec9NOW 959 HMIAVHSQ lt 9 gt lt 4 gt yi Vra lt eL gt vrq cL VIN lt 0 gt lt gt lt L gt VING 9 lt gt lt gt vAq L2 VING 0 VING 6 VINd QuiNVHSQa HMINVHSQ 9i Vrq LI VING 9 lt gt cV VINQ lt gt lt 0 YNA MI lt 9 gt VING lt g gt VING lt 2 gt VING 0 VIAG lt 6 gt VING uonneg 5 9 054 L 0229 lt 91 gt VING lt gt VIAG I VIA IN3INXa DSP96002ADMUM AD MOTOROLA 2661 10 12 60 Inf u4 Q3ldIGOW 1SV1
29. a td 88 G82 Vle HUE VHE gig4d UNE PV CV lt eve ad speve 8 1d lt gt 34 2 lt 9 gt Waid serve lt 6 gt 2 lt OPVe wd 99 LI ve lt 2 gt gi ve lt gt lt gt lt 9 gt lt gi ve ei ve lt 02 gt lt 2 gt lt gt lt 92 gt lt 2 gt 8 6c ve 0e ve ve Lege oe ge 82 08 9 lt 6 gt 820 lt gt 9204 lt 6 gt 0 vy lt gt lt lt gt G G G G G o 11 A DSP96002ADMUM AD MOTOROLA S dO OL 35Vd SYOLOANNOO 401 8 V LHOd YOLOANNOO SOVAYSLNI 81408 7 4 ZED Zd gt LED Zd 7 4 gt 0g gt vq 069 Zd gt 820 Zd lt Lerv4 920 Zd lt 6 gt gt T Zd lt 22 gt 6 020 Zd 6I Vg I N
30. bA04 6 bD05 DR bA05 7 bD06 051 050 bA06 8 bD07 DSCK OS1 bA07 9 bD08 DSO bA08 10 bD09 bHR bA09 11 bD10 bBG bA10 12 bD11 GND 11 13 bD12 5 V bA12 14 bD13 bBA bA13 15 bD14 bBB bA14 16 bD15 bBR bA15 17 bD16 bBS bA16 18 bD17 bR W bA17 19 bD18 bTS bA18 20 bD19 bBL bA19 21 bD20 bS0 bA20 22 bD21 GND bA21 23 bD22 bS1 bA22 24 bD23 bAE bA23 25 bD24 bIT bA24 26 bD25 bTA bA25 27 bD26 bA26 28 bD27 MODB IRQB bA27 MOTOROLA DSP96002ADMUMW AD Preliminary DSP96002ADM Technical Summary DSP96002 ADM Connector Descriptions Table 2 10 DSP96002 ADM P2 J4 Port B Connector Continued PIN ROW A ROW B ROW C 29 bD28 MODC IRQC bA28 30 bD29 RESET bA29 31 bD30 GND bA30 32 bD31 45V bA31 Note means that the pin is not connected Both P2 and J4 are plugs 2 16 DSP96002ADMUM AD Preliminary MOTOROLA APPENDIX DSP96002ADM SCHEMATICS MOTOROLA DSP96002ADMUM AD A 1 DSP96002ADM Schematics A 2 DSP96002ADMUM AD MOTOROLA 9 eL dO L d9Vd 00096ANGdV 2661 98 22 01 INF NYUL G3ISIGOW 1577 ONIMVEG anne 2 gees ACES gt gt gt gt AAAAAAAA AAAA ODDI 65555 AANA m MOOD ROO O Q O NOROIO IO
31. chnical Summary DSP96002 ADM Connector Descriptions 2 5 DSP96002 ADM CONNECTOR DESCRIPTIONS Table 2 9 DSP96002 ADM P1 3 Port A Connector PIN ROW A ROW B ROW 1 aD00 aD25 aA10 2 aD01 aD26 09 3 aD02 aD27 08 4 28 07 5 aD04 aD29 06 6 5 aD30 aA05 7 aD06 aD31 04 8 aD07 aA31 aA03 9 GND aA30 GND 10 aD08 aA29 aA02 11 GND aA28 aA01 12 aD09 aA27 aA00 13 aD10 aA26 aHA 14 aD11 aA25 aHR 15 GND aA24 5 16 12 23 17 GND aA22 aBB 18 13 21 19 GND aA20 aBR 20 14 GND aBA 21 aD15 19 aBL 22 aD16 18 23 aD17 GND aR W 24 aD18 17 51 25 19 16 50 26 aD20 15 5 27 aD21 aA14 aTS 28 aD22 aA13 aAE 29 aD23 aA12 aDE 30 aD24 aA11 CLK I O 31 n c n c n c 2 14 DSP96002ADMUM AD Preliminary MOTOROLA DSP96002ADM Technical Summary DSP96002 ADM Connector Descriptions Table 2 9 DSP96002 ADM P1 3 Port A Connector Continued PIN ROW ROW B ROW C 32 5 5 5 Note means that the pin is not connected Both P1 J3 are plugs Table 2 10 DSP96002 ADM P2 J4 Port B Connector PIN ROW ROW B ROW 1 bD00 5 V 2 bD01 GND bA01 3 bD02 bDE bA02 4 bD03 bHS bA03 5 bD04
32. debug it and test it sm 1 8 DSP96002ADMUM AD Preliminary MOTOROLA 2 DSP96002ADM TECHNICAL SUMMARY MOTOROLA DSP96002ADMUM AD Preliminary 2 1 DSP96002ADM Technical Summary 2 1 2 2 2 3 2 4 2 4 1 2 4 2 2 4 3 2 4 4 2 4 5 2 4 6 2 4 7 2 5 2 2 DSP96002ADM DESCRIPTION AND FEATURES 2 3 DSP96002 DESCRIPTION 2 5 EXTERNAL INTERNAL RESET INPUT 2 5 CONFIGURING THE DSP96002ADM 2 6 Operating Mode 2 8 External IRQA IRQB IRQC Input Path 2 9 DSP96002 Port A B User EPROM Decoders 2 10 DSP96002 Port A B User SRAM Decoder Partitions 2 11 Clock Input Selection 2 13 Transfer Acknowledge Pullup Pulldown Option 2 13 Bus Grant BG Pullup Pulldown Option 2 13 DSP96002 ADM CONNECTOR DESCRIPTIONS 2 14 DSP96002ADMUM AD Preliminary MOTOROLA DSP96002ADM Technical Summary DSP96002ADM Description and Features 2 1 DSP96002ADM DESCRIPTION AND FEATURES The DSP96002ADM has various options to facilitate evaluation of the different features of the chip These options are outlined in this chapter Figure 2 1 on page 2 4 shows a block diagram of the DSP96002ADM architecture To achieve zero wait accesses memory decoding is minimal therefore memory may overlap into other address blocks within
33. es the default jumper and switch settings when shipped from the factory Read the technical summary in Section 2 of this manual for additional information about the DSP96002ADM board and its components MOTOROLA DSP96002ADMUM AD Preliminary 1 5 Quick Start Guide Installation Procedure G1 2 G5 51 UG3 066 sais E OOOO JG16 0 t NS 2795 207 0 0 JG17 1 O JG25 1618 ai JG23 N DSP96002 1619 79850 yeu g P2 4826 P1 JG27 Figure 1 1 DSP96002ADM Key Component Layout 1 6 DSP96002ADMUWM AD Preliminary MOTOROLA Quick Start Guide Installation Procedure Table 1 1 DSP96002ADM Default Jumper Options Biene 1 2 JG2 1 2 Exit reset in Mode 0 JG3 1 2 JG4 1 2 IRQA pass through reset logic JG5 1 2 IRQB pass through reset logic JG6 1 2 IRQC pass through reset logic JG7 1 2 JG8 1 2 JG9 1 2 JG10 1 2 JG11 1 2 2K words of EPROM JG12 1 2 JG13 1 2 JG14 1 2 JG15 11 12 17 18 19 20 JG16 11 12 17 18 19 20 JG17 1 3 7 9 15 17 Partition SRAM for 64K Program 32 K X Data 32 K Y Data JG18 1 2 3 4 5 6 SRAM decoded to appear in 0 1FFFFFFF address space JG19 None EPROM located from FF000000 FFF
34. luding Typicals must be validated for each customer application by customer s technical experts Motorola does not convey any license under its patent rights nor the rights of others Motorola products are not designed intended or authorized for use as components in systems intended for surgical implant into the body or other applications intended to support life or for any other application in which the failure of the Motorola product could create a situation where personal injury or death may occur Should Buyer purchase or use Motorola products for any such unintended or unauthorized application Buyer shall indemnify and hold Motorola and its officers employees subsidiaries affiliates and distributors harmless against all claims costs damages and expenses and reasonable attorney fees arising out of directly or indirectly any claim of personal injury or death associated with such unintended or unauthorized use even if such claim alleges that Motorola was negligent regarding the design or manufacture of the part Motorola and are registered trademarks of Motorola Inc Motorola Inc is an Equal Opportunity Affirmative Action Employer How to reach us USA Europe Locations Not Listed Asia Pacific Japan Motorola Literature Distribution Motorola Semiconductors Ltd Nippon Motorola Ltd P O Box 5405 8B Tai Ping Industrial Park Tatsumi SPD JLDC Denver Colorado 80217 51 Ting Kok Road 6F Seibu Butsuryu Center 303 675 2140 Tai
35. ment Module DSP96002ADM This section provides a summary description of the DSP96002ADM additional requirements and quick installation information Detailed information about the DSP96002ADM design and operation is provided in the remaining sections of this manual 12 EQUIPMENT The following section gives a brief summary of the equipment required to use the DSP96002 Application Development Module DSP96002ADM some of which will be supplied with the module and some of which must be supplied by the user 1 2 1 What You Get with the DSP96002ADM The following materials are provided with the DSP96002ADM e DSP96002 Application Development Module board DSP96002ADM Product Information DSP96002ADM User s Manual this document Motorola Digital Signal Processor Registration Form MOTOROLA DSP96002ADMUM AD Preliminary 1 3 Quick Start Guide Installation Procedure 1 2 2 What You Need to Supply Motorola Application Development System with appropriate host interface card Host Computer system PC compatible computer 386 class or higher running PC DOS or MS DOS version 5 0 or later with 8 Mbytes RAM one open 16 bit ISA expansion slot free I O addresses 9100 9102 5200 202 5300 9303 CD ROM drive hard drive with 4 Mbyte of free disk space and a mouse Sun Microsystems Sun 4 Workstation running Sun Operating System Release 4 1 1 or later or Solaris Release 2 5 or later one open SBus expansion slot
36. nur 41800 1577 5 5 9 lt 4 gt lt gt lt 6 gt eL VINE lt gt VINE lt Ol gt VWe 8 9 lt gt 0 6 VIN HMINVHSE lt 9 gt lt 4 gt lt gt lt gt eI VINE LET VINE lt Ol gt VWe 829 we lt gt we 9 we lt gt we lt gt we we lt Z gt y Ne lt gt VINE 029 we 6298 5 HMINVHSE lt 9 gt yfre lt gt Cla lt gt lt gt lt gt VINE 0L2 VINE 8 lt gt 9 9 lt gt lt e gt vie L VINE 0 VINE 6 VIN NOILI LHVd INVHS seor lt gpyre c c L 029 Ze MOTOROLA lt ez gt ae ei lt 22 gt 08 81 iae L o 08808 9i oi 92808 8 sae L OF 91 6L Z at on 9 lt oe gt qe 84806 lt 61 gt 6l Oll 8L 9 oT 1 81 9 41 21 lt shewre T o 6G lt 91 gt 91 97 GL VINE g qe lt p gt e lt g
37. ocessor that becomes the bus master may directly access the SRAMSs This is useful in shared memory configurations The SRAM address lines are buffered to decrease the DSP96002 address bus loading There are two jumpers JG17 JG18 for Port A and two jumpers JG23 JG25 for Port B Jumpers JG17 Port A and JG25 Port B are for memory block selection while jumpers JG18 Port A and JG23 Port B are for memory map partitioning of the SRAM for the three DSP96002 memory spaces The following tables show the jumper options that will provide one of five address block selections and a few of the different memory map partitions possible for the SRAM There are a variety of memory map partitions due to the minimal address decoding done in the PAL and the number of combinations achievable by programming the DSP96002 Port Select Register PSR MOTOROLA DSP96002ADMUM AD Preliminary 2 11 DSP96002ADM Technical Summary Configuring the DSP96002ADM Table 2 6 Port A B User SRAM Decoder OPTION JG18 JG23 SRAM MEMORY BLOCK 1 1 2 3 4 5 6 00000000 1FFFFFFF 2 3 4 5 6 20000000 3FFFFFFF 3 1 2 5 6 40000000 5FFFFFFF 4 5 6 80000000 9FFFFFFF 5 No jumpers E0000000 FFFFFFFF Table 2 7 Port User SRAM Selection Program X Data Y Data Jumpers for 64 x 4 SRAMs PSR Memory Memory JG17 JG25 Bit 0 Bits Bit 16 64K 32K 32K 1 3 7 9 15 17 1 3
38. ons including signal descriptions DC power requirements AC timing requirements and available packaging DSP96002 User s Manual Provides a detailed description of the core processor including internal status and control registers and a detailed description of the family instruction set and detailed information about the on chip components including the memory and I O maps peripheral functionality and control and status register descriptions for each subsystem Refer to these documents for detailed information about chip functionality and operation 2 3 EXTERNAL INTERNAL RESET INPUT The DSP96002 may be reset using one of the following Using the ADM reset circuit Invoking an external reset input signal using the open collector circuit tied to P2 connector P2 B30 pin or the J2 connector J2 9 Executing a R command from the ADS96002 user interface program to generate a reset pulse on the J2 connector via the command convertor or When operating in the stand alone mode without a command convertor generating a start pulse via 51 on the ADM board When 51 is toggled a start pulse is generated on U20 monostable multivibrator and operating mode selection is synchronized to the deassertion of the U20 output MOTOROLA DSP96002ADMUM AD Preliminary 2 5 DSP96002ADM Technical Summary Configuring the DSP96002ADM 2 4 CONFIGURING THE DSP96002ADM There are twenty seven jumper options on the DSP96002ADM Figure
39. r additional information about the Motorola Application Development System ADS kit The ADS kit includes two additional boards a host interface card and an external universal command converter The host interface card plugs in the host bus on a PC compatible or SUN system inside the computer chassis The external universal command converter card connects to the host card via a ribbon cable The command converter card connects to the connector on the DSP96002ADM via another short ribbon cable The ADS is only compatible with Motorola software tools MOTOROLA DSP96002ADMUM AD Preliminary 2 3 DSP96002ADM Technical Summary DSP96002ADM Description and Features Reset Clock Logic DSP96002 Connector Port A Ctrl Port B Ctrl Memory Memory Decoder Decoder Program Program X data X data Y data Y data SRAM SRAM Program Program EPROM 96 96 Pin Port Connector Port A Data Port B Data Port A Address Port B Address Figure 2 1 DSP96002ADM Functional Block Diagram 2 4 DSP96002ADMUM AD Preliminary MOTOROLA DSP96002ADM Technical Summary DSP96002 Description 22 DSP96002 DESCRIPTION A full description of the DSP96002 including functionality and user information is provided in the following documents included as a part of this kit either as printed copies or on the documentation CD ROM DSP96002 Technical Data Provides features list and specificati
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41. ue to mechanical constraints some jumper options may require wirewrapping MOTOROLA DSP96002ADMUWM AD Preliminary DSP96002ADM Technical Summary Configuring the DSP96002ADM 2 4 1 Operating Mode Selection Jumpers 1 to are used to select one of eight operating modes in which the DSP96002 exits reset The ADM is factory configured for MODE 0 In MODE 0 the internal program memory occupies the lower portion of the program memory space Addresses higher than the highest internal program memory location are directed to external program memory The address of the hardware reset vector is FFFFFFFE located in the Port A external program memory space Refer to the DSP96002 User s Manual for a complete description of the chip operating modes The Table 2 2 lists the jumper settings required to select each of the eight operating modes Table 2 2 Operating Mode Selection Mode rec uu unu Comment 0 default 1 2 1 2 1 2 PRAM reset FFFFFFFE Port 1 2 3 1 2 1 2 PRAM on reset 6FFFFFFFE Port B 2 1 2 2 3 1 2 PRAM off reset 600000000 Port A 3 2 3 2 3 1 2 PRAM off reset 600000000 Port 4 1 2 1 2 2 3 Bootstrap byte wide Port A 5 2 3 1 2 2 3 Bootstrap byte wide Port 6 1 2 2 3 2 3 Bootstrap Port A host interface 2 3 2 3 2 3 Bootstrap Port B host interface Note The ADM is factory configured to exit reset in Mode 0 DSP96002ADMUM AD Preliminary MOTOROLA DSP9600
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