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    DSP56000 Search Results

    DSP56000 Datasheets (30)

    Part ECAD Model Manufacturer Description Curated Datasheet Type PDF
    DSP56000 Freescale Semiconductor Implementing IIR/FIR Filters with Motorolas DSP56000/DSP6001 Original PDF
    DSP56000 Freescale Semiconductor Implementation of Adaptive Controllers on the Motorola DSP56000/DSP56001 Original PDF
    DSP56000 Freescale Semiconductor Twin Codec Expansion Board for the DSP56000 Application Development System Original PDF
    DSP56000 Freescale Semiconductor Implementation of PID Controllers on the Motorola DSP5600/DSP56001 Original PDF
    DSP56000 Family Freescale Semiconductor DSP56000 Fractional and Integer Arithmetic using the DSP56000 Family of General-Purpose Digital Signal Processors Original PDF
    DSP56000FM02 Motorola DSP56000 Section 2: DSP56K Central Architecture Overview Original PDF
    DSP56000FM03 Motorola DSP56000 Section 3: Data Arithmetic Logic Unit Original PDF
    DSP56000FM04 Motorola DSP56000 Section 4: Address Generation Unit Original PDF
    DSP56000FM05 Motorola DSP56000 Section 5: Program Control Unit Original PDF
    DSP56000FM06 Motorola DSP56000 Section 6: Instruction Set Introduction Original PDF
    DSP56000FM07 Motorola DSP56000 Section 7: Processing States Original PDF
    DSP56000FM08 Motorola DSP56000 Section 8: Port A Original PDF
    DSP56000FM09 Motorola DSP56000 Section 9: PLL Clock Oscillator Original PDF
    DSP56000FM10 Motorola DSP56000 Section 10: On-Chip Emulation (OnCE) Original PDF
    DSP56000FM11 Motorola DSP56000 Section 11: Additional Support Original PDF
    DSP56000FM12 Motorola DSP56000 Section 12: Additional Support Original PDF
    DSP56000FMA1 Motorola DSP56000 Appendix A: Instruction Set Details Original PDF
    DSP56000FMA2 Motorola DSP56000 Appendix A (cont): Instruction Descriptions (DIV-JScc) Original PDF
    DSP56000FMA3 Motorola DSP56000 Appendix A (cont): Instruction Descriptions (JSCLR-R) Original PDF
    DSP56000FMA4 Motorola DSP56000 Appendix A (cont): Instruction Descriptions (U-MPY) Original PDF

    DSP56000 Datasheets Context Search

    Catalog Datasheet MFG & Type Document Tags PDF

    DSP56002

    Abstract: DSP56000 DSP56001 MCM6206D DSP56000UM
    Text: APR16/D Calculating Time Requirements of External SRAM for the 24-bit DSP56000 Family Digital Signal Processors M o t o r o l a ’ s H i g h - P e r f o r m a n c e D S P T e c h n o l o g y Table of Contents SECTION 1 Introduction SECTION 2 SRAM Interface


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    APR16/D 24-bit DSP56000 DSP56000/D) DSP56001 DSP56001/D) DSP56002 DSP56002/D) MCM6206D DSP56000UM PDF

    lambda signal processor

    Abstract: electronique ESP car stability APR15 DSP56000 DSP56001 DSP5600
    Text: Motorola Digital Signal Processors Implementation of Adaptive Controllers on the Motorola DSP56000/ DSP56001 by Pascal Renard, Ph.D. Strategic Marketing – Geneva, Switzerland MOTOROLA APR15 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


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    DSP56000/ DSP56001 APR15 LJU-83] BOD-87] LIM-89] AST-84] FOU-86] lambda signal processor electronique ESP car stability APR15 DSP56000 DSP56001 DSP5600 PDF

    MT8920

    Abstract: DSP56000 DSP56001
    Text: SECTION 1 Introduction “To illustrate the performance available from this software, a 20-MHz DSP56000/ DSP56001 is capable of implementing 10 six-way conference bridges, a single 71-way bridge, or even 17 threeway bridges.” T his application note describes one possible implementation of a conference bridge for a modern digital


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    20-MHz DSP56000/ DSP56001 71-way MT8920 DSP56000 PDF

    DSP56000

    Abstract: DSP56001 substitution manual accumulator
    Text: Appendix B DSP56000/DSP56001 Instruction Set and Assembler Directive Summary B.1 Overview This appendix is intended to assist the C programmer in understanding the C compiler’s output. For a more in-depth discussion of assembler and assembly language issues, see


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    DSP56000/DSP56001 DSP56000/ DSP56001 DSP56KCC DSP56000 substitution manual accumulator PDF

    DSP56000

    Abstract: DSP56000 motorola
    Text: Appendix D GNU Debugger GDB Introduction Appendix E contains the GNU Debugger Manual. This preface to the GDB manual describes the differences between the standard gdb source level debugger and the gdb56 debugger that uses the Motorola DSP56000 family simulator.


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    gdb56 DSP56000 gdb56 DSP56000, DSP56KCC DSP56000 motorola PDF

    XC56156FE60

    Abstract: XC56004FJ50 XC56001AFC27 XC96002RC40 XC56004 XC96002RC33 xc56001 FIR CODE FOR 8051 IN ASSEMBLY LANGUAGE XC56L811BU40 xc56156
    Text: Digital Signal Processors In Brief . . . Page DSP5610016-Bit Digital Signal Processors . . . . 2.1–2 DSP5680016-Bit Digital Signal Processors . . . . 2.1–3 DSP5600024-Bit Digital Signal Processors . . . . 2.1–3 DSP5630024-Bit Digital Signal Processors . . . . 2.1–5


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    DSP56100--16-Bit DSP56800--16-Bit DSP56000--24-Bit DSP56300--24-Bit DSP56600--16-Bit DSP96002--32-Bit DSP56ADC16--The DSP96000 DSP56000 DSP56KCCAJ XC56156FE60 XC56004FJ50 XC56001AFC27 XC96002RC40 XC56004 XC96002RC33 xc56001 FIR CODE FOR 8051 IN ASSEMBLY LANGUAGE XC56L811BU40 xc56156 PDF

    DSP56000

    Abstract: No abstract text available
    Text: Motorola Digital Signal Processors Calculating Timing Requirements of External SRAM for the 24-Bit DSP56000 Family by Larry Donahue Applications Digital Signal Processing Division MOTOROLA APR16/D Motorola reserves the right to make changes without further notice to any products herein. Motorola


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    24-Bit DSP56000 APR16/D PDF

    DSP56000

    Abstract: DSP56002 Motorola 56002 dsp56002 boot
    Text: APR11Section4 Page 1 Monday, April 8, 1996 11:10 AM SECTION 4 Communicate with the DSP56000 Host Interface Using C Language “The C language source code and the source for the PLD used in the hardware interface are both available on Motorola’s Dr. BuB BBS.”


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    APR11Section4 DSP56000 DSP56000/1/2 DSP5600T DSP56002 Motorola 56002 dsp56002 boot PDF

    DSP56000 motorola

    Abstract: DSP56000UM DSP56000 DSP56001
    Text: Freescale Semiconductor, Inc. APR3/D Rev. 1 Freescale Semiconductor, Inc. Fractional and Integer Arithmetic using the DSP56000 Family of General-Purpose Digital Signal Processors M o t o r o l a ’ s H i g h - P e r f o r m a n c e D S P T e c h n o l o g y


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    DSP56000 DSP56000 motorola DSP56000UM DSP56001 PDF

    Untitled

    Abstract: No abstract text available
    Text: Part No. 97-56001 - QFP to PGA Adapter for Motorola DSP56000/001 FEATURES: • Convert surface mount QFP packages to a 13 x 13 PGA footprint. • Reduce costs by using less expensive QFP packages to replace PGA footprints in existing designs. • Pins are mechanically fastened and soldered to board


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    DSP56000/001 -or97-56001-P 100-PGM13069-30 PDF

    Untitled

    Abstract: No abstract text available
    Text: Part No. 97-56001 - QFP to PGA Adapter for Motorola DSP56000/001 FEATURES: • Convert surface mount QFP packages to a 13 x 13 PGA footprint. •Reduce costs by using less expensive QFP packages to replace PGA footprints in existing designs. •Pins are mechanically fastened and soldered to board


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    DSP56000/001 QQ-B-626. -or97-56001-P PDF

    DSP56001 users manual

    Abstract: DSP56000 DSP56001 bus ssl
    Text: Freescale Semiconductor, Inc. A.7 INSTRUCTION TIMING Freescale Semiconductor, Inc. This section describes how one can calculate DSP56000/DSP56001 instruction timing manually using the tables provided in this section. Three complete examples are presented to


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    DSP56000/DSP56001 DSP56001 users manual DSP56000 DSP56001 bus ssl PDF

    Untitled

    Abstract: No abstract text available
    Text: Part No. 97-56001 - QFP to PGA Adapter for Motorola DSP56000/001 FEATURES: • Convert surface mount QFP packages to a 13 x 13 PGA footprint. • Reduce costs by using less expensive QFP packages to replace PGA footprints in existing designs. • Pins are mechanically fastened and soldered to board


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    DSP56000/001 C36000 ASTM-B16-00. -or97-56001-P 100-PGM13069-30 PDF

    18021

    Abstract: No abstract text available
    Text: P/N 97-56001 Motorola DSP56000/001 QFP-to-PGA Adapter FEATURES • Convert surface-mount QFP packages to a 13x13 PGA footprint. • Reduce costs by using less-expensive QFP packages to replace PGA footprints in existing designs. • Pins are mechanically fastened and soldered to board using Aries’ patented process,


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    DSP56000/001 13x13 C36000, B16/B16M 97-56001-P 13x13 100-PGM13069-30 18021 PDF

    DSP56001 users manual

    Abstract: DSP56001 OMR 00FF DSP56000 DSP56001
    Text: Freescale Semiconductor, Inc. SECTION 3 MEMORY SPACES Freescale Semiconductor, Inc. This section is divided into two major subsections, the DSP56000 and DSP56001. Each subsection describes the memory spaces available and the operating modes that redefine


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    DSP56000 DSP56001. DSP56000/DSP56001 DSP56001 DSP56001 users manual DSP56001 OMR 00FF PDF

    DSP56000

    Abstract: DSP56K "saturation arithmetic"
    Text: Chapter 4 About g56k 4.1 Introduction The DSP56000 digital signal processors are designed to execute DSP oriented calculations as fast as possible. As a by-product, they have an architecture that is somewhat unconventional for C programming. Because of this architecture, there are


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    DSP56000 DSP56KCC alo56) DSP56KCC DSP56K "saturation arithmetic" PDF

    DSP56000

    Abstract: DSP56001
    Text: APPENDIX A INSTRUCTION SET DETAILS This appendix contains detailed information about each instruction in the DSP56000/ DSP56001 instruction set. An instruction guide is presented first to help understand the individual instruction descriptions. This guide is followed by sections on notation and


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    DSP56000/ DSP56001 DSP56000/DSP56001 DSP56000 PDF

    DSP56001

    Abstract: APR15 DSP56000
    Text: Motorola Digital Signal Processors Implementation of Adaptive Controllers on the Motorola DSP56000/ DSP56001 by Pascal Renard, Ph.D. Strategic Marketing – Geneva, Switzerland MOTOROLA APR15 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


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    DSP56000/ DSP56001 APR15 DSP56001 APR15 DSP56000 PDF

    ADI1290

    Abstract: DSP56000 DSP56001 PB10 PB12 DSP56001 host port
    Text: SECTION 2 ARCHITECTURAL OVERVIEW AND BUS STRUCTURE The DSP56000/DSP56001 architecture has been designed to maximize throughput in data-intensive digital signal processor DSP applications. This objective has resulted in a dual-natured, expandable architecture with sophisticated on-chip peripherals and general purpose I/O. The architecture is dual natured in that there are two independent,


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    DSP56000/DSP56001 ADI1290 DSP56000 DSP56001 PB10 PB12 DSP56001 host port PDF

    DSP56000

    Abstract: DSP56001
    Text: SECTION 1 Introduction “An adaptive control system measures a certain performance rating of the system or plant to be controlled.” This section shows how Motorola DSP56000/ DSP56001 digital signal processors can be used to solve real-time digital control problems. After reviewing the relevant basic theory of adaptive control, we


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    DSP56000/ DSP56001 tDSP56000/DSP56001 DSP56000/DSP56001 DSP56000 PDF

    A-225

    Abstract: DSP56000 DSP56K Motorola DSP56200 rf and servo controlled vehicle BA 5991 dsp56002 boot phillips Semiconductor Reference and Application Handbook 1978 "saturation arithmetic"
    Text: DSP56000 24-BIT DIGITAL SIGNAL PROCESSOR FAMILY MANUAL Motorola, Inc. Semiconductor Products Sector DSP Division 6501 William Cannon Drive, West Austin, Texas 78735-8598 Order this document by DSP56KFAMUM/AD MOTOROLA SEMICONDUCTOR TECHNICAL DATA DSP56K Family


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    DSP56000 24-BIT DSP56KFAMUM/AD DSP56K 24-bit A-225 DSP56000 Motorola DSP56200 rf and servo controlled vehicle BA 5991 dsp56002 boot phillips Semiconductor Reference and Application Handbook 1978 "saturation arithmetic" PDF

    DSP56000

    Abstract: DSP56001 DSP56000 motorola
    Text: SECTION 5 Conclusion "The unique architecture of Motorola DSP56000/ DSP56001 devices enables them to function as both powerful microcontrollers and as fast digital signal processors." 5.1 Advantages of Adaptive Control Adaptive control using parallel-serial reference models is an effective method of regulation for industrial


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    DSP56000/ DSP56001 DSP56000/DSP56001 DSP56000 DSP56001 DSP56000 motorola PDF

    A81DC

    Abstract: a21dc a51dc SG 2368 FE8800 ED8000 E78000 FA6400 0110FFFF e7040
    Text: MOTOROLA Order at ANE408/0 SEMICONDUCTOR APPLICATION NOTE ANE408 Previously ANE008 Logarithmic/Linear Conversion Routines for DSP56000/1 Prepared by: Eric Cheval Motorola G eneva, Switzerland I. INTRODUCTION DSP chips are often connected to mono-circuits (cofidecs) in telecommunication applications. When programmed *Cs multichannel DTMF


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    ANE408/D DSP56000/1 ANE408 ANE008) DSP56000/1 300-3400hz A81DC a21dc a51dc SG 2368 FE8800 ED8000 E78000 FA6400 0110FFFF e7040 PDF

    MC68HC99

    Abstract: active noise cancellation DSP56000 PID scr fs04 DSP56001 motorola hc8 DSP56000 MC68000 MC68HC11 deadbeat control
    Text: APR5/D Rev. 1 Implementation of PID # Controllers on the Motorola DSP56000/DSP56001 # Motorola Digital Signal Processors Implementation of PID Controllers on the Motorola DSP56000/DSP56001 by Jay Stokes and Guy R. L. Sohie Digital Signal Processor Operation


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    DSP56000/DSP56001 1ATX25217-4 MC68HC99 active noise cancellation DSP56000 PID scr fs04 DSP56001 motorola hc8 DSP56000 MC68000 MC68HC11 deadbeat control PDF