DSP1600 LUCENT Search Results

Contextual Info: m icroelectronics Preliminary Data Sheet February 1997 group Lucent Technologies Bell Labs Innovations DSP1620 Digital Signal Processor 1 Features 2 Description • The DSP1620 is a DSP1600 core-based fixed-point digital signal processor with a large amount of on-chip RAM and a

TMS 3529

Abstract: DSP-1600 lucent jcs 63 df 7a 3d 1e 8f
Contextual Info: Advance Data Sheet December 2000 T8301 Internet Protocol Telephone Phone-On-A-Chip IP Solution DSP 1 Introduction Lucent Technologies’ Phone-On-A-Chip IP Solution is a highly integrated set of IC chips that form the basic building blocks for an internet protocol telephone IPT , residing on a local area network (LAN).

44-PIN

Abstract: 68HC11 DSP1609 HC11 T5490 IM91 XWXX
Contextual Info: Preliminary Data Sheet July 1999 DSP1609 Digital Signal Processor 1 Features • ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ For 5 V operation: — 10.0 ns instruction cycle time 100 MIPS (See Table 92 on page 73.)

44-PIN

Abstract: 68HC11 DSP1609 DSP1609F HC11 DSP1600 lucent 451
Contextual Info: Preliminary Data Sheet July 1999 FlashDSP 1609F Digital Signal Processor 1 Features • ■ 12.5 ns instruction cycle time 80 MIPS at 3.3 V operation Power-saving features: — Low-power 0.35 µm CMOS technology; fully static design — Active power: 6.5 mW/MIPS at 3.3 V

Contextual Info: Preliminary Data Sheet January 1998 m i c r o e l e c t r o n i c s group Lucent Technologies Bell Labs Innovations FlashDSP 1650 Digital Signal Processor 1 Features For 5 V operation: — 25 ns instruction cycle time 40 MIPS For 3.3 V operation: — 30 ns instruction cycle time (33 MIPS)

Contextual Info: Preliminary Data Sheet February 1997 m icroelectronics group Lucent Technologies Bell Labs Innovations DSP1628 Digital Signal Processor 1 Features 2 Description • Optimized for digital cellular applications with a bit manipulation unit for higher coding efficiency and

CSP1009

Abstract: 1600-HDS 310F4
Contextual Info: Advance Data Sheet July 1999 B900 Baseband Signal Processor 1 Features 2 Description • For 5 V operation: — 12.5 ns instruction cycle time 80 MIPS (See Table 89 on page 71.) ■ For 3.3 V operation: — 16.7 ns instruction cycle time (60 MIPS) (See Table 89 on page 71.)

1741 OPamp

Abstract: DSP1608 1608T db15 keyboard pinout
Contextual Info: Preliminary Data Sheet September 1998 DSP1608 Digital Signal Processor 1 Features • ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ 5 V operation: — 25 ns instruction cycle time 40 MIPS Power-saving features: — Low-power 0.55 µm CMOS technology; fully

Contextual Info: Preliminary Data Sheet February 1997 microelectronics group Lucent Technologies Bell Labs Innovations DSP1629 Digital Signal Processor 1 Features 2 Description • Optimized for digital cellular applications with a bit manipulation unit for higher coding efficiency.

DSP1618

Abstract: DSP1627 DSP1628 1734 DUALPORT
Contextual Info: Microelectronics Product Note March 1996 DSP1628 Digital Signal Processor Features • Optimized for digital cellular applications such as half-rate and enhanced full-rate GSM, with a bit manipulation unit and an error correction coprocessor for higher signal coding efficiency

1741 OPamp

Abstract: t152 act dsp1653 mip 0244 lucent 451
Contextual Info: Preliminary Data Sheet January 1998 FlashDSP 1650 Digital Signal Processor 1 Features • For 5 V operation: — 25 ns instruction cycle time 40 MIPS ■ For 3.3 V operation: — 30 ns instruction cycle time (33 MIPS) ■ Power-saving features: — Low-power 0.6 µm CMOS technology; fully

T54P

Contextual Info: Data Sheet June 1998 microelectronics group Lucent Technologies Bell Labs Innovations DSP1620 Digital Signal Processor 1 Features • Supported by D S P 1 6 2 0 software and hardware developm ent tools ■ Optim ized for digital cellular infrastructure applications—

DSP1620

Contextual Info: Product Note April 1997 DSP1620 Digital Signal Processor Features • ■ ■ Optimized for digital cellular infrastructure applications—equalization, channel coding, speech coding — Large, on-chip RAM 32 Kwords that eliminates need for fast external SRAM

AT139

Contextual Info: Preliminary Data Sheet February 1997 m i c r o e l e c t r o n i c s group Lucent Technologies Bell Labs Innovations DSP1627 Digital Signal Processor 1 Features 2 Description • The DSP1627 is Lucent Technologies Microelec­ tronics Group’s first digital signal processor offering

echo cancellation schematic diagram

Abstract: DSP-1600 lucent lcd 5421 voip CIRCUIT DIAGRAM pin diagram of ic 7495 A ARM5 Internal diagram of ic 7495 T8302 VOIP phone schematic echo audio schematic
Contextual Info: Product Brief April 2000 T8301/T8302 Phone-On-A-Chip IP Solution TM Application • ■ Voice over Internet Protocol VoIP telephone Features ■ ■ ■ ■ Lucent Technologies Microelectronics Group has introduced a highly integrated VoIP telephone solution

DSP1620

Abstract: NE as7 1412D DSP1627 DSP1628 DSP1629 DS97-321WDSP T84V
Contextual Info: Advisory May 1999 Clarification to the Serial I/O Control Register Description for the DSP1620/27/28/29 Devices Active Clock Frequency The purpose of this advisory is to clarify the function of the serial I/O control registers in the DSP1620/27/28/29 devices. Specifically, it clarifies the function of the control register field that specifies the active clock frequency.

dsp1600 modem

Abstract: CSP1034C CSP1035A 1034C lucent 1648c csp1035 100-PIN 48-PIN CSP1027 CSP1034
Contextual Info: Product Brief September 2001 Agere Systems DSP1648C Host-Based Controller V.92 Modem Chip Set Features • Two chip 3.3 V PCI modem solution with 5 V tolerant buffers ■ Data mode capabilities: — ITU-T V.92*: 56000 bits/s—28000 bits/s — ITU-T V.90*: 56000 bits/s—28000 bits/s

ab244

Abstract: DPRAM DB10 DSP1618 DSP1627 DSP1628 54218 36k DSP1600 lucent
Contextual Info: Advance Information January 1997 DSP1628x16 Digital Signal Processor DSP1628x08 Digital Signal Processor Features • Optimized for digital cellular applications with a bit manipulation unit and an error correction coprocessor ECCP for higher signal coding efficiency

8051 timing diagram

Abstract: 0x8000h-0xFFFFh how to program for 8051 external memory st jtag sequence c program 8051 interfacing with eeprom memory and I/O map in 8051 8051 port timing diagram lucent dsp1620 8051 reset circuit calculation free embedded projects on 8051
Contextual Info: AN1430 APPLICATION NOTE Interfacing the PSD813F4 with the Lucent DSP1620 DSP CONTENTS • Purpose ■ PSD813F1 Architecture ■ Development Systems ■ Programming the PSD813F In-Circuit using the JTAG Interface ■ Interfacing the PSD813F4 with the DSP1620

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
Contextual Info: 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,

verilog code for 32 BIT ALU implementation

Abstract: vhdl code 16 bit processor verilog code 16 bit processor verilog code for barrel shifter vhdl code for 8 bit barrel shifter 16 bit multiplier VERILOG Architecture of TMS320C4X FLOATING POINT PROCESSOR instruction set of TMS320C5x dsp processor Architecture of TMS320C54X addressing modes in adsp-21xx
Contextual Info: EDN 2000 EDN’S ANNUAL DSP DIRECTORY HIGHLIGHTS THE ARCHITECTURES AVAILABLE FOR YOUR HOTTEST DESIGNS. HERE’S HELP IN SORTING THROUGH THE MYRIAD DSP DEVICES. YOU CAN ALSO ACCESS OUR FREQUENTLY UPDATED, FEATURE-TUNED DATABASE USING OUR SEARCH ENGINE TO FIND THE RIGHT DEVICE FOR YOUR DESIGN NEEDS.