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    TMS320C30 USER GUIDE Search Results

    TMS320C30 USER GUIDE Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    10035667-002LF
    		Amphenol Communications Solutions Board Guiding PDF
    66527-535LF
    		Amphenol Communications Solutions GUIDE PIN CARD CONNECTOR PDF
    66527-555LF
    		Amphenol Communications Solutions GUIDE PIN CARD CONNECTOR PDF
    66527-518LF
    		Amphenol Communications Solutions GUIDE PIN CARD CONNECTOR PDF
    85451-001LF
    		Amphenol Communications Solutions Din Accessory Guide PDF

    TMS320C30 USER GUIDE Datasheets Context Search

    Catalog Datasheet Type Document Tags PDF

    TMS320

    Abstract: TMS320C30 notebook diagram TMS320C3
    Contextual Info: Number 2 TMS320 DSP DESIGNER’S NOTEBOOK Avoiding False Interrupts on the ’C3x Contribued by Randy Preskitt Design Problem TMS320C30 interrupts are internally latched on the falling edge of H1 see pp. 6-20 and 13-38 of the TMS320C3x User’s Guide . If the interrupt is held low for three or


    Original     		TMS320 TMS320C30 TMS320C3x notebook diagram TMS320C3 PDF

    circuit diagram of speech recognition

    Abstract: circuit diagram of voice recognition block diagram of speech recognition TMS32C30 speech data acquisition system k-means TM5320C30 TMS320 TMS320C30 block diagram of speech recognition processor
    Contextual Info: Disclaimer: This document was part of the First European DSP Education and Research Conference. It may have been written by someone whose native language is not English. TI assumes no liability for the quality of writing and/or the accuracy of the information contained herein.


    Original     		TMS320C30 SPRA317 TM5320C30 circuit diagram of speech recognition circuit diagram of voice recognition block diagram of speech recognition TMS32C30 speech data acquisition system k-means TMS320 block diagram of speech recognition processor PDF

    ADSP-21010

    Abstract: TMS320C30 ADSP-21020 AN-235 ADSP-21020 AN235 DSP modulo multiplier AN-235 block diagram of tms320c30
    Contextual Info: ANALOG ► DEVICES AN-235 APPLICATION NOTE ONE TECHNOLOGY W AY • P .O . BOX 9106 • NORWOOD, MASSACHUSETTS 02062-9106 • 617/329-4700 Considerations For Selecting a DSP Processor ADSP-21020/ADSP-21010 vs. TMS320C30 by Dan Ash INTRODUCTION Digital signal processing algorithms consist of multiplications


    OCR Scan     		AN-235 ADSP-21020/ADSP-21010 TMS320C30) throughputADSP-21020 ADSP-21010 ADSP-21020 TMS320 TMS320C30 AN-235 ADSP-21020 AN235 DSP modulo multiplier block diagram of tms320c30 PDF

    c3050t

    Abstract: RD11C
    Contextual Info: TMX320C30, TMS320C30 DIGITAL SIGNAL PROCESSORS S P R S 032-A P R IL 1996 High-Performance Floating-Point Digital Signal Processor DSP - TMX320C30-50 40-ns Instruction Cycle Time 275 MOPS, 50 MFLOPS, 25 MIPS - TMS320C30-40 50-ns Instruction Cycle Time 220 MOPS, 40 MFLOPS, 20 MIPS


    OCR Scan     		TMX320C30, TMS320C30 TMX320C30-50 40-ns TMS320C30-40 50-ns TMS320C30-33 60-ns TMS320C30-27 74-ns c3050t RD11C PDF

    shz a30

    Abstract: XD26 xd1283 C3050 TMS320C30 TMS320C30-40 TMX320C30 XA11 c3033 XA4202
    Contextual Info: TMX320C30, TMS320C30 DIGITAL SIGNAL PROCESSORS SPRS032 – APRIL 1996 • • • • • • • High-Performance Floating-Point Digital Signal Processor DSP – TMX320C30-50 40-ns Instruction Cycle Time 275 MOPS, 50 MFLOPS, 25 MIPS – TMS320C30-40 50-ns Instruction Cycle Time


    Original     		TMX320C30, TMS320C30 SPRS032 TMX320C30-50 40-ns TMS320C30-40 50-ns TMS320C30-33 60-ns TMS320C30-27 shz a30 XD26 xd1283 C3050 TMS320C30 TMS320C30-40 TMX320C30 XA11 c3033 XA4202 PDF

    C3050

    Abstract: C3033 181-Pin TMS320C30 TMS320C30-40 TMS320C30-50 XA11 xd1283 c3040
    Contextual Info: TMS320C30 DIGITAL SIGNAL PROCESSOR SPRS032A – APRIL 1996 – REVISED JUNE 1997 D D D D D D D High-Performance Floating-Point Digital Signal Processor DSP – TMS320C30-50 (5 V) 40-ns Instruction Cycle Time 275 MOPS, 50 MFLOPS, 25 MIPS – TMS320C30-40 (5 V)


    Original     		TMS320C30 SPRS032A TMS320C30-50 40-ns TMS320C30-40 50-ns TMS320C30-33 60-ns TMS320C30-27 74-ns C3050 C3033 181-Pin TMS320C30 TMS320C30-40 TMS320C30-50 XA11 xd1283 c3040 PDF

    DSP TMS320C30 GEL

    Abstract: C3050 TMS320C30 TMS320C30-40 TMS320C30-50 XA11
    Contextual Info: TMS320C30 DIGITAL SIGNAL PROCESSOR SPRS032A – APRIL 1996 – REVISED JUNE 1997 D D D D D D D High-Performance Floating-Point Digital Signal Processor DSP – TMS320C30-50 (5 V) 40-ns Instruction Cycle Time 275 MOPS, 50 MFLOPS, 25 MIPS – TMS320C30-40 (5 V)


    Original     		TMS320C30 SPRS032A TMS320C30-50 40-ns TMS320C30-40 50-ns TMS320C30-33 60-ns TMS320C30-27 74-ns DSP TMS320C30 GEL C3050 TMS320C30 TMS320C30-40 TMS320C30-50 XA11 PDF

    C3050

    Abstract: XD29 GE H11 A10
    Contextual Info: TMS320C30 DIGITAL SIGNAL PROCESSOR SPRS032A – APRIL 1996 – REVISED JUNE 1997 D D D D D D D High-Performance Floating-Point Digital Signal Processor DSP – TMS320C30-50 (5 V) 40-ns Instruction Cycle Time 275 MOPS, 50 MFLOPS, 25 MIPS – TMS320C30-40 (5 V)


    Original     		TMS320C30 SPRS032A TMS320C30-50 40-ns TMS320C30-40 50-ns TMS320C30-33 60-ns TMS320C30-27 74-ns C3050 XD29 GE H11 A10 PDF

    Contextual Info: TMS320C30 DIGITAL SIGNAL PROCESSOR SPRS032A – APRIL 1996 – REVISED JUNE 1997 D D D D D D D High-Performance Floating-Point Digital Signal Processor DSP – TMS320C30-50 (5 V) 40-ns Instruction Cycle Time 275 MOPS, 50 MFLOPS, 25 MIPS – TMS320C30-40 (5 V)


    Original     		TMS320C30 SPRS032A TMS320C30-50 40-ns TMS320C30-40 50-ns TMS320C30-33 60-ns TMS320C30-27 74-ns PDF

    C3050

    Abstract: DSP TMS320C30 GEL shz a30 TMS320C30 TMS320C30-40 TMS320C30-50 XA11
    Contextual Info: TMS320C30 DIGITAL SIGNAL PROCESSOR SPRS032A – APRIL 1996 – REVISED JUNE 1997 D D D D D D D High-Performance Floating-Point Digital Signal Processor DSP – TMS320C30-50 (5 V) 40-ns Instruction Cycle Time 275 MOPS, 50 MFLOPS, 25 MIPS – TMS320C30-40 (5 V)


    Original     		TMS320C30 SPRS032A TMS320C30-50 40-ns TMS320C30-40 50-ns TMS320C30-33 60-ns TMS320C30-27 74-ns C3050 DSP TMS320C30 GEL shz a30 TMS320C30 TMS320C30-40 TMS320C30-50 XA11 PDF

    XD13

    Contextual Info: TMX320C30, TMS320C30 DIGITAL SIGNAL PROCESSORS SPRS032-APRIL 1996 High-Performance Floating-Point Digital Signal Processor DSP - TMX320C30-50 40-ns Instruction Cycle Time 275 MOPS, 50 MFLOPS, 25 MIPS - TMS320C30-40 50-ns Instruction Cycle Time 220 MOPS, 40 MFLOPS, 20 MIPS


    OCR Scan     		TMX320C30, TMS320C30 SPRS032-APRIL TMX320C30-50 40-ns TMS320C30-40 50-ns TMS320C30-33 60-ns TMS320C30-27 XD13 PDF

    320C3

    Contextual Info: TMS320C30 DIGITAL SIGNAL PROCESSOR SPRS032A – APRIL 1996 – REVISED JUNE 1997 D D D D D D D High-Performance Floating-Point Digital Signal Processor DSP – TMS320C30-50 (5 V) 40-ns Instruction Cycle Time 275 MOPS, 50 MFLOPS, 25 MIPS – TMS320C30-40 (5 V)


    Original     		TMS320C30 SPRS032A TMS320C30-50 40-ns TMS320C30-40 50-ns TMS320C30-33 60-ns TMS320C30-27 74-ns 320C3 PDF

    C3050

    Abstract: TMS320C30 TMS320C30-40 TMS320C30-50 XA11 181-Pin
    Contextual Info: TMS320C30 DIGITAL SIGNAL PROCESSOR SPRS032A – APRIL 1996 – REVISED JUNE 1997 D D D D D D D High-Performance Floating-Point Digital Signal Processor DSP – TMS320C30-50 (5 V) 40-ns Instruction Cycle Time 275 MOPS, 50 MFLOPS, 25 MIPS – TMS320C30-40 (5 V)


    Original     		TMS320C30 SPRS032A TMS320C30-50 40-ns TMS320C30-40 50-ns TMS320C30-33 60-ns TMS320C30-27 74-ns C3050 TMS320C30 TMS320C30-40 TMS320C30-50 XA11 181-Pin PDF

    Contextual Info: TMS320C30 DIGITAL SIGNAL PROCESSOR SPRS032A – APRIL 1996 – REVISED JUNE 1997 D D D D D D D High-Performance Floating-Point Digital Signal Processor DSP – TMS320C30-50 (5 V) 40-ns Instruction Cycle Time 275 MOPS, 50 MFLOPS, 25 MIPS – TMS320C30-40 (5 V)


    Original     		TMS320C30 SPRS032A TMS320C30-50 40-ns TMS320C30-40 50-ns TMS320C30-33 60-ns TMS320C30-27 74-ns PDF

    C3050

    Abstract: shz a30
    Contextual Info: TMS320C30 DIGITAL SIGNAL PROCESSOR SPRS032A – APRIL 1996 – REVISED JUNE 1997 D D D D D D D High-Performance Floating-Point Digital Signal Processor DSP – TMS320C30-50 (5 V) 40-ns Instruction Cycle Time 275 MOPS, 50 MFLOPS, 25 MIPS – TMS320C30-40 (5 V)


    Original     		TMS320C30 SPRS032A TMS320C30-50 40-ns TMS320C30-40 50-ns TMS320C30-33 60-ns TMS320C30-27 74-ns C3050 shz a30 PDF

    Contextual Info: TMS320C30 DIGITAL SIGNAL PROCESSOR SPRS032A – APRIL 1996 – REVISED JUNE 1997 D D D D D D D High-Performance Floating-Point Digital Signal Processor DSP – TMS320C30-50 (5 V) 40-ns Instruction Cycle Time 275 MOPS, 50 MFLOPS, 25 MIPS – TMS320C30-40 (5 V)


    Original     		TMS320C30 SPRS032A TMS320C30-50 40-ns TMS320C30-40 50-ns TMS320C30-33 60-ns TMS320C30-27 74-ns PDF

    21JT

    Abstract: c3040
    Contextual Info: TMS320C30 DIGITAL SIGNAL PROCESSOR SPRS032A - APRIL 1996 - REVISED JUNE 1997 High-Performance Floating-Point Digital Signal Processor DSP - TMS320C30-50 (5 V) 40-ns Instruction Cycle Time 275 MOPS, 50 MFLOPS, 25 MIPS - TMS320C30-40 (5 V) 50-ns Instruction Cycle Time


    OCR Scan     		TMS320C30 SPRS032A TMS320C30-50 40-ns TMS320C30-40 50-ns TMS320C30-33 60-ns TMS320C30-27 74-ns 21JT c3040 PDF

    Contextual Info: TMS320C30 DIGITAL SIGNAL PROCESSOR SPRS032A – APRIL 1996 – REVISED JUNE 1997 D D D D D D D High-Performance Floating-Point Digital Signal Processor DSP – TMS320C30-50 (5 V) 40-ns Instruction Cycle Time 275 MOPS, 50 MFLOPS, 25 MIPS – TMS320C30-40 (5 V)


    Original     		TMS320C30 SPRS032A TMS320C30-50 40-ns TMS320C30-40 50-ns TMS320C30-33 60-ns TMS320C30-27 74-ns PDF

    shz a30

    Abstract: xD19 TMS320C30 TMS320C30-40 TMS320C30-50 XA11
    Contextual Info: TMS320C30 DIGITAL SIGNAL PROCESSOR SPRS032A – APRIL 1996 – REVISED JUNE 1997 D D D D D D D High-Performance Floating-Point Digital Signal Processor DSP – TMS320C30-50 (5 V) 40-ns Instruction Cycle Time 275 MOPS, 50 MFLOPS, 25 MIPS – TMS320C30-40 (5 V)


    Original     		TMS320C30 SPRS032A TMS320C30-50 40-ns TMS320C30-40 50-ns TMS320C30-33 60-ns TMS320C30-27 74-ns shz a30 xD19 TMS320C30 TMS320C30-40 TMS320C30-50 XA11 PDF

    TMS320C30

    Abstract: TMS320C30-40 TMS320C30-50 XA11
    Contextual Info: TMS320C30 DIGITAL SIGNAL PROCESSOR SPRS032A – APRIL 1996 – REVISED JUNE 1997 D D D D D D D High-Performance Floating-Point Digital Signal Processor DSP – TMS320C30-50 (5 V) 40-ns Instruction Cycle Time 275 MOPS, 50 MFLOPS, 25 MIPS – TMS320C30-40 (5 V)


    Original     		TMS320C30 SPRS032A TMS320C30-50 40-ns TMS320C30-40 50-ns TMS320C30-33 60-ns TMS320C30-27 74-ns TMS320C30 TMS320C30-40 TMS320C30-50 XA11 PDF

    C3050

    Abstract: C3027
    Contextual Info: TMS320C30 DIGITAL SIGNAL PROCESSOR SPRS032A – APRIL 1996 – REVISED JUNE 1997 D D D D D D D High-Performance Floating-Point Digital Signal Processor DSP – TMS320C30-50 (5 V) 40-ns Instruction Cycle Time 275 MOPS, 50 MFLOPS, 25 MIPS – TMS320C30-40 (5 V)


    Original     		TMS320C30 SPRS032A TMS320C30-50 40-ns TMS320C30-40 50-ns TMS320C30-33 60-ns TMS320C30-27 74-ns C3050 C3027 PDF

    ERICSSON RBS 6000

    Abstract: Ericsson RBS 6102 Ericsson Installation guide for RBS 6000 RBS 2216 ericsson maintenance RBS 2216 ericsson user manual Ericsson RBS 6102 hardware reference manual siemens mid-96 RBS ericsson user manual RBS 6102 Rack rbs ericsson 6102 rbs 6102
    Contextual Info: TMS320 Third-Party Support Reference Guide IMPORTANT NOTICE Description in this publication of a third-party product or service does not constitute an endorsement of it by Texas Instruments. Further, TI does not accept responsibility for any representations


    Original     		TMS320 TMS320 ERICSSON RBS 6000 Ericsson RBS 6102 Ericsson Installation guide for RBS 6000 RBS 2216 ericsson maintenance RBS 2216 ericsson user manual Ericsson RBS 6102 hardware reference manual siemens mid-96 RBS ericsson user manual RBS 6102 Rack rbs ericsson 6102 rbs 6102 PDF

    87XX module

    Abstract: biomedical TMS320C30 Analogic Corporation
    Contextual Info: DBS 8750 High Precision Arbitrary Waveform Synthesizer in a “C” Size VXI Module Introduction The DBS 8750 is a high speed 400 kHz , 16-bit, precision, dual channel Arbitrary Waveform Synthesizer. Fully compatible with VXI specification Rev. 1.3, the DBS 8750 occupies a single “C” size slot in a VXI chassis. Highly accurate standard and arbitrary waveforms are generated for use in a variety of demanding applications such as acoustical signatures, vibration analysis, complex


    Original     		16-bit, 87XX module biomedical TMS320C30 Analogic Corporation PDF

    XDS510USB

    Abstract: XDS510 XDS510 MPSD XDS510lc XDS510PP XDS510USB PLUS JTAG EMULATOR XDS510PP MPSD laptop bios 8 pin XDS510 jtag laptop board repair
    Contextual Info: Spectrum Digital Emulator Selection Guide Copyright 2008 www.spectrumdigital.com 281.494.4500 x-113 1 Selection Flowchart START Industrial Control, Motor Control, High Voltage Production Test Programming ? N Y Use XDS510 USB Galvanic SPI110LV + any other


    Original     		x-113 XDS510 SPI110LV C24xx, C28xx XDS510LC C55xx, ARM7/9/11 XDS510USB XDS510 MPSD XDS510PP XDS510USB PLUS JTAG EMULATOR XDS510PP MPSD laptop bios 8 pin XDS510 jtag laptop board repair PDF