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    ACTEL 1240 Search Results

    ACTEL 1240 Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    54ACT11240JT/B Rochester Electronics LLC 54ACT11240 - Octal Buffers/Drivers Visit Rochester Electronics LLC Buy
    FCT1-240D3SLD Coilcraft Inc SMPS Transformer, 30W, ROHS COMPLIANT Visit Coilcraft Inc
    MLC1240-901MLB Coilcraft Inc General Purpose Inductor, 0.9uH, 20%, 1 Element, Iron-Core, SMD, 4441, CHIP, 4441, ROHS COMPLIANT Visit Coilcraft Inc
    FCT1-240D3SLB Coilcraft Inc SMPS Transformer, 30W, ROHS COMPLIANT Visit Coilcraft Inc
    LPD4012-401 Coilcraft Inc Power inductor, 20/30% tol, dual-wound SMT, RoHS Visit Coilcraft Inc

    ACTEL 1240 Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    ACT1020

    Abstract: JH05 MARKING CODE N-CHANNEL MOS FIELD EFFECT TRANSISTOR 44 pin actel 1020b JEDEC-A113 ACTEL 1020B ACP55 smd U1p Jl03 JL-03
    Text: Quality & Reliability Guide February 2001 2001 Actel Corporation All Rights Reserved. Actel and the Actel logo are trademarks of Actel Corporation. All other brand or product names are the property of their respective owners. Contents 1. Overview of Actel’s Quality and Reliability Guide . . . . . . . . . . . . . . . . . . . .1


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    A1280XL-CQ172C

    Abstract: A1280XLCQ172 RH1020CQ84V rh1280 trim socket FPQ-256 0B11000000 FPQ Package PC MOTHERBOARD repair MANUAL aic6260 ACTEL 1020B
    Text: RadHard/RadTolerant Programming Guide Windows and UNIX® Environments RadHard/RadTolerant Programming Guide Windows and UNIX Environments Actel Corporation, Sunnyvale, CA 94086 1997 Actel Corporation. All rights reserved. Printed in the United States of America


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    binary multiplier Vhdl code

    Abstract: vhdl code for 4 bit ripple carry adder booth multiplier code in vhdl vhdl complex multiplier 5 bit binary multiplier using adders sequential multiplier Vhdl booth multiplier vhdl code complex multiplier vhdl code for Booth multiplier AC108
    Text: Application Note AC108 Implementing Multipliers with Actel FPGAs Introduction Hardware multiplication is a function often required for system applications such as graphics, DSP, and process control. The Actel architecture, which is multiplexer based, allows efficient implementation of multipliers with high


    Original     		PDF AC108 1200XL 1225XL-1 1280XL-1 LDMULT16 PRMULT16 binary multiplier Vhdl code vhdl code for 4 bit ripple carry adder booth multiplier code in vhdl vhdl complex multiplier 5 bit binary multiplier using adders sequential multiplier Vhdl booth multiplier vhdl code complex multiplier vhdl code for Booth multiplier AC108

    ACTEL 1020B

    Abstract: 222F A1010 A1020 A1280 F012 ACTIVATOR 2s activator1 APS-259
    Text: APS Programming System User’s Guide Windows & UNIX® Environments Actel Corporation, Sunnyvale, CA 94086 1996 Actel Corporation. All rights reserved. Part Number: 5029032-0 June 1996 No part of this document may be copied or reproduced in any form or by any


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    actel 1240a

    Abstract: TI1139 UI02 1280xl actel 1240xl 132 pga UJ-01 U1H-18 110E06 SI 1020A Actel A1225
    Text: Actel Device Reliability Report Actel’s field programmable gate arrays FPGAs are currently available in five product families—ACT 1, ACT 2, 1200XL, 3200DX, and ACT 3. The ACT 1 family consists of the A1010 and A1020, which are 1200- and 2000-gate FPGAs,


    Original     		PDF 1200XL, 3200DX, A1010 A1020, 2000-gate A1225, A1240, A1280 1200XL A1225XL, actel 1240a TI1139 UI02 1280xl actel 1240xl 132 pga UJ-01 U1H-18 110E06 SI 1020A Actel A1225

    sequential multiplier Vhdl

    Abstract: two 4 bit binary multiplier Vhdl code 4 bit binary multiplier Vhdl code vhdl code for multiplexer 16 to 1 using 4 to 1 in vhdl code for multiplexer 16 to 1 using 4 to 1 binary multiplier Vhdl code 5 bit binary multiplier using adders VHDL code for 16 bit ripple carry adder VHDL code for 8 bit ripple carry adder vhdl code of pipelined adder
    Text: Appl i cat i on N ot e Implementing Multipliers with Actel FPGAs Introduction Hardware multiplication is a function often required for system applications such as graphics, DSP, and process control. The Actel architecture, which is multiplexer based, allows efficient implementation of multipliers with high


    Original     		PDF 1200XL 1225XL-1 PMULT16 LDMULT16 PRMULT16 RBMULT16 sequential multiplier Vhdl two 4 bit binary multiplier Vhdl code 4 bit binary multiplier Vhdl code vhdl code for multiplexer 16 to 1 using 4 to 1 in vhdl code for multiplexer 16 to 1 using 4 to 1 binary multiplier Vhdl code 5 bit binary multiplier using adders VHDL code for 16 bit ripple carry adder VHDL code for 8 bit ripple carry adder vhdl code of pipelined adder

    binary multiplier Vhdl code

    Abstract: sequential multiplier Vhdl vhdl code complex multiplier vhdl code for 4 bit ripple carry adder 5 bit binary multiplier using adders vhdl complex multiplier vhdl code for multiplexer 16 to 1 using 4 to 1 mu comb generator 8 bit multiplier using vhdl code VHDL code for 16 bit ripple carry adder
    Text: Appl i cat i o n N ot e Implementing Multipliers with Actel FPGAs Introduction Hardware multiplication is a function often required for system applications such as graphics, DSP, and process control. The Actel architecture, which is multiplexer based, allows efficient implementation of multipliers with high


    Original     		PDF 1200XL 1225XL-1 1280XL-1 PMULT16 LDMULT16 PRMULT16 binary multiplier Vhdl code sequential multiplier Vhdl vhdl code complex multiplier vhdl code for 4 bit ripple carry adder 5 bit binary multiplier using adders vhdl complex multiplier vhdl code for multiplexer 16 to 1 using 4 to 1 mu comb generator 8 bit multiplier using vhdl code VHDL code for 16 bit ripple carry adder

    ACTEL A1010

    Abstract: A1460 A1020 transistor AC109 A1010 A1415 A1425 A1440 actel a1240
    Text: Application Note AC109 Predicting the Power Dissipation of Actel FPGAs Introduction Calculating the power dissipation of field programmable gate arrays FPGAs is similar to using the calculations for other CMOS ASIC devices, such as gate arrays and standard cells.


    Original     		PDF AC109 A1280/1280XL A1240/1240XL A1225/1225XL 1200XL ACTEL A1010 A1460 A1020 transistor AC109 A1010 A1415 A1425 A1440 actel a1240

    13001 s

    Abstract: 13001 datasheet 13001 JL-01 ACTEL 1020B RTSX32 B 13001 RTSX16 42MX09 1280A
    Text: Actel 4th Quarter 2000 Reliability Report 1 Table of Contents Page Reliability Test Matrix • Test Methods and Conditions Failure Rates • Failure Rates FITs Based For Current Process Data • Mean Time Between Failure (MTBF) For Current Process Data 2


    Original     		PDF 1225XL, 1240XL, 1280XL, A1415, A1425, 14100BP, 32140DX, 32200DX 13001 s 13001 datasheet 13001 JL-01 ACTEL 1020B RTSX32 B 13001 RTSX16 42MX09 1280A

    transistor A1010

    Abstract: 1280xl 16-BIT SYNCHRONOUS COUNTER actel a1240
    Text: Appl i cat i on N ot e Predicting the Power Dissipation of Actel FPGAs Introduction Calculating the power dissipation of field programmable gate arrays FPGAs is similar to using the calculations for other CMOS ASIC devices, such as gate arrays and standard cells.


    Original     		PDF frequencie373 1200XL transistor A1010 1280xl 16-BIT SYNCHRONOUS COUNTER actel a1240

    transistor A1010

    Abstract: A1415 A1460 A1010 A1425 A1440 transistor a1020 actel a1240 LINEAR/525/OS/LM01A/ics 0623
    Text: Appl i cat i o n N ot e Predicting the Power Dissipation of Actel FPGAs Introduction Calculating the power dissipation of field programmable gate arrays FPGAs is similar to using the calculations for other CMOS ASIC devices, such as gate arrays and standard cells.


    Original     		PDF A1280/1280XL A1240/1240XL A1225/1225XL 1200XL transistor A1010 A1415 A1460 A1010 A1425 A1440 transistor a1020 actel a1240 LINEAR/525/OS/LM01A/ics 0623

    RTSX32

    Abstract: RT54SX72S AC308 A42MX16 A54SX32A A54SX72A MX16 RTSX72-S Signal Path Designer
    Text: Application Note AC308 Metastability Characterization Report for Actel Antifuse FPGAs Introduction Whenever asynchronous data is registered by a clocked flip-flop, there is a probability of setup or hold time violation on that flip-flop. In applications such as synchronization or data recovery, due to the


    Original     		PDF AC308 RTSX32 RT54SX72S AC308 A42MX16 A54SX32A A54SX72A MX16 RTSX72-S Signal Path Designer

    1240XL

    Abstract: ACTEL
    Text: Errata Metastability Characterization Report Errata In Figure 2 on page 3 the X-axis and Y-axis are missing their designated names. Here is how the figure should appear. 30 25 ln MTBF (S 20 SX (0.35µm) RTSX32 (0.6µm) ACT3 (0.8µm) MX16 (0.45µm) 15 1240XL (0.6µm)


    Original     		PDF RTSX32 1240XL 5192670E-0/9 1240XL ACTEL

    Actel

    Abstract: Actel a1225xl ACTEL A1240xl A1280RH 1280xl 1240XL actel 1240xl 32200DX
    Text: High-Level Design Benchmark Report Engineers are faced with FPGA designs that continue to get larger and more complex while design cycles get shorter. To manage complex designs quickly, many engineers use HighLevel design languages VHDL or Verilog HDL to describe


    Original     		PDF A1280XL A1240XL Actel Actel a1225xl ACTEL A1240xl A1280RH 1280xl 1240XL actel 1240xl 32200DX

    RTSX32

    Abstract: oscilloscope MTBF
    Text: Application Note Metastability Characterization Report I n tro du ct i on The setup and hold times of a register may deviate from ideal register behavior in actual applications as a result of finite circuit delays. A synchronization failure may occur if the data and clock do not satisfy the setup- and hold-time


    Original     		PDF RTSX32 1240XL RTSX32 oscilloscope MTBF

    ACT1020

    Abstract: ACT1010 PA7024 PLCC28 PLCC84 actel 1020 Actel 1240
    Text: Cust omer - Au t hor ed Appl i cat i on N ot e A 256 Channel Control System Using FPGAs and a PLD Dave DeLauter, Consultant DeltaT This paper describes the development process and the latest design iteration of a simple Pulse Width Modulation PWM Digital to Analog Converter (DAC) system. From an original


    Original     		PDF PA7024 PLCC28 ACT1020 ACT1010 PA7024 PLCC28 PLCC84 actel 1020 Actel 1240

    ACT1020

    Abstract: ACT1010 actel 1020
    Text: Cust omer - Aut hor ed Appl i cat i o n N ot e A 256 Channel Control System Using FPGAs and a PLD Dave DeLauter, Consultant DeltaT This paper describes the development process and the latest design iteration of a simple Pulse Width Modulation PWM Digital to Analog Converter (DAC) system. From an original


    Original     		PDF PA7024 PLCC28 ACT1020 ACT1010 actel 1020

    verilog code for 128 bit AES encryption

    Abstract: 4 bit bistable latch vhdl code zoom 505 schematic 0.13-um CMOS standard cell library inverter
    Text: Automotive ProASIC 3 Handbook Automotive ProASIC3 Handbook Table of Contents Low-Power Flash Device Handbooks Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . i Section I – Automotive ProASIC3 Datasheet Automotive ProASIC3 Flash Family FPGAs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1


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    Untitled

    Abstract: No abstract text available
    Text: Actel Mask Programmed Gate Arrays F e a tu re s D e s c rip tio n Mask Programmed versions of Actel Field Programmable Gate Arrays FPGAs Significant cost reduction for medium- to high-volume applications Pin-for-pin compatible with Actel FPGAs PCI Local Bus Revision 2 Compliant


    OCR Scan     		PDF M1440 176-Pin 011241b

    TA138

    Abstract: TA280 3SB24 TA1225A 176-CPGA dece2x4
    Text: ACTEL CORP Æ Ic M b?E » I • 01^24^ DDDGÔ33 TS1 ■ ACT ACT 2 Field Programmable Gate Arrays Features Description • The ACT™ 2 family represents Actel’s second generation of field programmable gate arrays FPGAs . The ACT 2 family presents a two-module architecture, consisting of C-modules and S-modules.


    OCR Scan     		PDF and73 TA138 TA280 3SB24 TA1225A 176-CPGA dece2x4

    TTL Logic Family list

    Abstract: PQFP 176
    Text: Actel Mask Programmed Gate Arrays F e a tu re s • Available in comm ercial or industrial tem perature ranges • • PLCC, PQFP, VQFP, and TQFP packages available • • Significant cost reduction for medium- to high-volume applications Meets all internal worst-case FPGA perform ance


    OCR Scan     		PDF 1200X15 TTL Logic Family list PQFP 176

    Untitled

    Abstract: No abstract text available
    Text: MAY 1 g «93 Æ lc lm ll ACT 2 Field Programmable Gate Arrays Features Description • H ie ACT™ 2 family represents Actel’s second generation of field programmable gate arrays FPGAs . The ACT 2 family presents a two-module architecture, consisting of C-modules and S-modules.


    OCR Scan     		PDF meta72 IC51-1004-814-2 -1014-KS10418 IC51-1604-845-1 P89-12110-G4-BF101 NEP5-132-RS1311 NP89-22508-G4-BF177 IC51-0844-401-1

    1225XL

    Abstract: A1240XL LM 7447
    Text: Prelim inary 1200X L Field Program m able G ate Arrays Features Description • The 1200XL family, Actel’s fourth family of field programmable gate arrays FPGAs , is targeted as a V A L U E family, offering very low costs and mid-to-high range performance. The 1200XL family


    OCR Scan     		PDF 1200X 20-Pin 16-Bit 1200XL field505 1225XL A1240XL LM 7447

    ALY SMD

    Abstract: 5962-9096501MUC actel a1240 176-CPGA actel 1240a 1240A ST
    Text: ACTEL CORP b7E D • 0 1 = 1 2 4 ^ □ □ □ □ eì3cì 3SD ■ ACT ACT 1 and ACT 2 Military Field Programmable Gate Arrays ACT 1 Features • U p to 2000 G ate A rray G ates 6000 P L D e q u iv alen t g ates • R eplaces up to 53 T T L P ackages


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