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    DSP16000 FEATURES Search Results

    DSP16000 FEATURES Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    R5F51103ADFL#30 Renesas Electronics Corporation 32-bit Microcontrollers Featuring Ultra-low Power Consumption Visit Renesas Electronics Corporation
    R5F51101AGFK#30 Renesas Electronics Corporation 32-bit Microcontrollers Featuring Ultra-low Power Consumption Visit Renesas Electronics Corporation
    R5F51104ADFL#30 Renesas Electronics Corporation 32-bit Microcontrollers Featuring Ultra-low Power Consumption Visit Renesas Electronics Corporation
    R5F5110JAGFK#30 Renesas Electronics Corporation 32-bit Microcontrollers Featuring Ultra-low Power Consumption Visit Renesas Electronics Corporation
    R5F51104ADNE#U0 Renesas Electronics Corporation 32-bit Microcontrollers Featuring Ultra-low Power Consumption Visit Renesas Electronics Corporation

    DSP16000 FEATURES Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    322k

    Abstract: DSP16210 DSP16000
    Text: Advisory April 2002 DSP16000 Core In the DSP16000 core, the contents of the internal do loop cache are also accessible as memory at location 0x1ffc0 in most DSP16000 devices in order to facilitate saving and restoring of the cache contents on a subroutine call or context switch.


    Original     		PDF DSP16000 DSP16410B DSP16410CG DSP16411 322k DSP16210

    g 999 sab

    Abstract: a7v dual zener diode AGERE DSP DSP16000 DSP16210 ed28 zener transistor a7g n17 u1
    Text: Advisory April 2002 DSP16000 Core In the DSP16000 core, the contents of the internal do loop cache are also accessible as memory at location 0x1ffc0 in most DSP16000 devices in order to facilitate saving and restoring of the cache contents on a subroutine call or context switch.


    Original     		PDF DSP16000 g 999 sab a7v dual zener diode AGERE DSP DSP16210 ed28 zener transistor a7g n17 u1

    diode ED24

    Abstract: Diodes ed26 ED26 diode ED31 diode ed28 diode DA02-001WINF ED21 DIODE ED29 diode ed28 zener DS01-070WTEC
    Text: Advisory April 2002 DSP16000 Core In the DSP16000 core, the contents of the internal do loop cache are also accessible as memory at location 0x1ffc0 in most DSP16000 devices in order to facilitate saving and restoring of the cache contents on a subroutine call or context switch.


    Original     		PDF DSP16000 DA01-003WINF DA00-015WTEC DS01-070WTEC) diode ED24 Diodes ed26 ED26 diode ED31 diode ed28 diode DA02-001WINF ED21 DIODE ED29 diode ed28 zener DS01-070WTEC

    DSP16000

    Abstract: DSP16210 DSP16410 DSP16410B DSP16410C DSP-16000 asm 1441
    Text: Application Note September 2000 Determining the Processor ID of the DSP16210 and the DSP16410 with C Code Introduction The DSP16000 C compiler generates object files and executables to support all DSP16000 core-based devices. It does not generate files that are specific to


    Original     		PDF DSP16210 DSP16410 DSP16000 AP00-065WTEC DSP16410B DSP16410C DSP-16000 asm 1441

    ADEE 715

    Abstract: DSP16xxx DSP16000 architecture DSP16K DSP16000 IPL15 AN4025 YL162 ADE 352 R2A3
    Text: Information Manual June 2002 DSP16000 Digital Signal Processor Core DRAFT COPY Foreword This manual contains detailed information on the design and application of the DSP16000 Digital Signal Processor core. The core is a building block for Agere Systems DSP devices.


    Original     		PDF DSP16000 DSP16000 MN02-027WINF) MN02-026WINF ADEE 715 DSP16xxx DSP16000 architecture DSP16K IPL15 AN4025 YL162 ADE 352 R2A3

    SAB 3210

    Abstract: DSP16410 DSP16000 DSP16411 DSP16210 DSP16411 architecture
    Text: Product Brief February 2004 DSP16410 Digital Signal Processor Features • ■ ■ ■ Two DSP16000 dual-MAC multiply and accumulate cores for high throughput with high code density: — 780 MMACs (million multiply and accumulates) per second at 195 MHz.


    Original     		PDF DSP16410 DSP16000 16-bit PB04-050WINF PN99-052WDSP) SAB 3210 DSP16411 DSP16210 DSP16411 architecture

    16411A1

    Abstract: MARKING CODE ADEE ED9 marking diode Marking a4v DSP16000 marking code A6V DSP16410 DSP16411 TDO01 DSP16K
    Text: Advisory December 2002 DSP16411 SEMI Design Exception Overview Agere Systems’ DSP16411 is the next-generation digital signal processor based on the DSP16000 core architecture offering increased speed and on-chip memory. The system and external memory interface


    Original     		PDF DSP16411 DSP16000 DSP16410B DSP16410CG DSP16411 16411A1 MARKING CODE ADEE ED9 marking diode Marking a4v marking code A6V DSP16410 TDO01 DSP16K

    Untitled

    Abstract: No abstract text available
    Text: Product Note March 1999 DSP16410 Digital Signal Processor Features • Twin DSP16000 dual-MAC multiply and accumulate cores for high throughput: — 800 MMACs (million multiply and accumulates) per second — 200 MHz — Processes 29 GSM EFR vocoder channels


    Original     		PDF DSP16410 DSP16000 16-bit 32-bit 16TRONICS PN99-075WDSP PN99-052WDSP)

    STR 6750

    Abstract: block diagram of 8*8 array multiplier CASE DIODE A5L 7809 pi 7809 voltage regulator datasheet ed28 zener DSP16000 DSP16410C DSP16410CG gsm model
    Text: Data Sheet May 2003 DSP16410CG Digital Signal Processor 1 Features ! Twin DSP16000 dual-MAC cores perform up to 780 million MACs per second at 195 MHz ! Low power: — 1.575 V internal supply for power efficiency — 3.3 V I/O pin supply for compatibility


    Original     		PDF DSP16410CG DSP16000 16-bit DS02-272WINF DA02-001WINF) STR 6750 block diagram of 8*8 array multiplier CASE DIODE A5L 7809 pi 7809 voltage regulator datasheet ed28 zener DSP16410C gsm model

    motorola g18 gsm

    Abstract: Y6 ZENER DIODE 7809 TO-220 ST ed28 zener motorola g18 gsm datasheet DSP16000 DSP1620 DSP16410B DA0001 motorola g18 gsm 900/1800/1900 data module
    Text: Data Sheet June 2001 DSP16410B Digital Signal Processor 1 Features „ „ Twin DSP16000 dual-MAC cores for high throughput: — Up to 740 million MACs per second at 185 MHz — Supports 16+ channels of speech coding or modem processing Low power: — 1.8 V internal supply for power efficiency


    Original     		PDF DSP16410B DSP16000 16-bit 32-bit 32-biote motorola g18 gsm Y6 ZENER DIODE 7809 TO-220 ST ed28 zener motorola g18 gsm datasheet DSP1620 DA0001 motorola g18 gsm 900/1800/1900 data module

    SRUN10

    Abstract: No abstract text available
    Text: Data Sheet March 2003 DSP16411 Digital Signal Processor 1 Features ! Twin DSP16000 dual-MAC cores perform up to 1140 million MACs per second at 285 MHz ! Low power: — 1.2 V internal supply for power efficiency — 3.3 V I/O pin supply for compatibility !


    Original     		PDF DSP16411 208-ball DSP16000 SRUN10

    ADEE 275

    Abstract: T75 TYPE 2000 pna60
    Text: Advance Data Sheet April 2002 DSP16411 Digital Signal Processor 1 Features „ Two IEEE 1149.1 test ports JTAG boundary scan „ Twin DSP16000 dual-MAC cores perform up to 960 million MACs per second at 240 MHz „ Low power: — 1.0 V internal supply for power efficiency


    Original     		PDF DSP16411 DSP16000 DSP16410B DSP16410CG ADEE 275 T75 TYPE 2000 pna60

    DSP16000

    Abstract: OT97-347WDSP DSP16210 DSP1620 LUCENT DSP
    Text: DSP16210 Digital Signal Processor The DSP16210 is the first DSP device based on the DSP16000 digital signal processing core. It is manufactured in a 0.35 µm CMOS technology and offers a 10 ns instruction cycle time at 3 V operation. Designed specifically


    Original     		PDF DSP16210 DSP16000 OT97-347WDSP OT97-347WDSP DSP1620 LUCENT DSP

    DSP16411

    Abstract: DSP16000 322k DSP16210 DSP16410 DSP16410C
    Text: Product Brief DSP16411 Digital Signal Processor Mixed-Format Codecs for Non-Linear Editing, Video Server, and VTR Applications F e at u r e s Please refer to Figure 1. n Twin DSP16000 dual-MAC multiply and accumulate cores for high throughput: n — 1140 MMACs (million multiply


    Original     		PDF DSP16411 DSP16000 16-bit 32-bit PB03-049WINF PB03-039WINF) 322k DSP16210 DSP16410 DSP16410C

    DSP16000

    Abstract: DSP16000 FEATURES DSP16210 DSP16410 DSP16411 DSP16000 architecture DSP16000 instruction set
    Text: Product Brief DSP16410 Digital Signal Processor F e at u r e s n n n n Two DSP16000 dual-MAC multiply and accumulate cores for high throughput with high code density: — 780 MMACs (million multiply and accumulates) per second at 195 MHz. — 560 MMACs (million multiply and accumulates)


    Original     		PDF DSP16410 DSP16000 16-bit PB06-003CMPR-2 PB06-003CMPR-1) DSP16000 FEATURES DSP16210 DSP16410 DSP16411 DSP16000 architecture DSP16000 instruction set

    3029 ifc arm

    Abstract: Trident frc iso7816 sim AGERE DSP 0xE0000034 20-pin JTAG interface connector motorola isri wic 2T mc4053 Trident II
    Text: Advance Data Sheet January 14, 2002 Trident Production Devices Trident 0.25 µm /Trident II (0.20 µm) 1 Features • Package options: — Trident (0.25 µm): 196-pin FSBGA. 12 mm x 12 mm. 0.8 mm ball pitch. — Trident II (0.20 µm): Package A: 196-pin FSBGA.


    Original     		PDF DSP16000 DS02-020WMA DS01-275WMA) 3029 ifc arm Trident frc iso7816 sim AGERE DSP 0xE0000034 20-pin JTAG interface connector motorola isri wic 2T mc4053 Trident II

    simcard

    Abstract: ARM Advanced RISC Machine DSP16000
    Text: Product Brief February 2001 Trident III Features • ■ ■ ■ Memory complement: — DSP: 16K x 16 RAM, 96K x 16 maskprogrammable ROM. — ARM *: 4K x 32 mask-programmable ROM, 2K x 32 RAM byte writable . — Processor interface memory: 512 x 16 shared


    Original     		PDF PB01-066WMA simcard ARM Advanced RISC Machine DSP16000

    simcard

    Abstract: trident micro 555 timer ARM processor data sheet DSP16000 processor arm 9 block diagram of ppi ARM250
    Text: Product Brief February 2001 Trident II Features • ■ ■ ■ Memory complement: — DSP: 20K x 16 RAM, 144K x 16 maskprogrammable ROM. — ARM *: 4K x 32 mask-programmable ROM, 2K x 32 RAM byte writable . — Processor interface memory: 512 x 16 shared


    Original     		PDF PB01-065WMA simcard trident micro 555 timer ARM processor data sheet DSP16000 processor arm 9 block diagram of ppi ARM250

    Untitled

    Abstract: No abstract text available
    Text: Product Brief February 2003 DSP16411 Digital Signal Processor Enhancements • Enhancements from the DSP16410C to the DSP16411: — Maximum processor speed has increased from 195 MHz to 285 MHz — Memory has increased from 96K x 16 per core to 160K x 16 per core


    Original     		PDF DSP16411 DSP164XX 208-ball DSP16210 DSP16410 DSP16410C DSP16411: PB03-049WINF PB03-039WINF)

    simcard

    Abstract: trident block diagram of ppi ssi converter to serial DSP16000 sim 900 RTC ARM250 trident micro "DSP GROUP" wireless
    Text: Product Brief February 2001 Trident Features • ■ ■ ■ Memory complement: — DSP: 16K x 16 RAM, 96K x 16 maskprogrammable ROM. — ARM *: 4K x 32 mask-programmable ROM, 2K x 32 RAM byte writable . — Processor interface memory: 512 x 16 shared RAM.


    Original     		PDF PB01-044WTEC simcard trident block diagram of ppi ssi converter to serial DSP16000 sim 900 RTC ARM250 trident micro "DSP GROUP" wireless

    BUTTERFLY DSP

    Abstract: Architecture of TMS320C4X FLOATING POINT PROCESSOR arm piccolo BDSP9124 DSP16xx 32 bit barrel shifter vhdl space-vector PWM by using VHDL TMS32C50 vhdl code for Circular convolution verilog code for 2D linear convolution
    Text: coverstory By Markus Levy, Technical Editor Photo courtesy Philips Semiconductors 1999 DSP-architecture directory 66 edn | April 15, 1999 www.ednmag.com THE EXPLOSIVE GROWTH OF DSP-BASED APPLICATIONS CONTINUES TO FUEL AN UNPRECEDENTED DEMAND FOR NEW DSP TECHNOLOGY. FOLLOWING THE TRADITION OF MANY YEARS PAST,


    Original     		PDF TMS320C4x; 64-bit-wide 64-bit 64-bit BUTTERFLY DSP Architecture of TMS320C4X FLOATING POINT PROCESSOR arm piccolo BDSP9124 DSP16xx 32 bit barrel shifter vhdl space-vector PWM by using VHDL TMS32C50 vhdl code for Circular convolution verilog code for 2D linear convolution

    Wifi amplifier extends complete diagram

    Abstract: wireless mobile charger block diagram voip CIRCUIT DIAGRAM VOICE RECORDER ARM wifi amplifier circuit diagram wifi card circuit board diagram serial to wifi circuit voip configuration ARM interface with gprs module VOICE RECORDER circuits
    Text: Product Brief October 2004 WV8307 Wireless VoIP Phone Platform Application • 802.11 based wireless IP phone. Features ■ Extended battery life: — Based on low power consumption IC technology, which allows for extended talk and standby time. — Four hours talk time 800 mA battery .


    Original     		PDF WV8307 T8307 946E-S, T8307. CSP8307 th800-372-2447, PB05-001IPT PB04-105IPT) Wifi amplifier extends complete diagram wireless mobile charger block diagram voip CIRCUIT DIAGRAM VOICE RECORDER ARM wifi amplifier circuit diagram wifi card circuit board diagram serial to wifi circuit voip configuration ARM interface with gprs module VOICE RECORDER circuits

    XMM 2050

    Abstract: smartphone architecture symbian USIM ARM926EJ-STM 25fps imei ARM926EJ-S DSP16000 DSP16K
    Text: Product Brief XMM TM 2050 EDGE Multimedia Solution Bringing XMM TM Dual-Core Performance to Lower Tier Handsets X M M T M 2 0 5 0 formerly X115 brings a highly competitive full set of features to the market for a low tier BOM. With the XMMTMDual-Core technology, high end


    Original     		PDF XMMTM2050 B153-H9153-X-X-7600 XMM 2050 smartphone architecture symbian USIM ARM926EJ-STM 25fps imei ARM926EJ-S DSP16000 DSP16K

    T178 S 1100 EDB

    Abstract: lucent LXE 4017 be edi pb10 intel 4007 DSP16000 architecture 4017 motorola DSP16210 intel 4040 signal during time slot logical channel enabling
    Text: Data Sheet July 2000 DSP16210 Digital Signal Processor Features • ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ Description Optimized for applications requiring large internal memory, flexible I/O, and high cycle efficiency speech coding, speech compression, and channel coding


    Original     		PDF DSP16210 40-bit 16-bit DSP16000 T178 S 1100 EDB lucent LXE 4017 be edi pb10 intel 4007 DSP16000 architecture 4017 motorola intel 4040 signal during time slot logical channel enabling