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    Untitled

    Abstract: No abstract text available
    Text: Application Note Actel SX-A and RT54SX-S Devices in Hot-Swap and Cold-Sparing Applications I n tro du ct i on All of Actel’s FPGAs are nonvolatile, meaning they are live at power up, and do not require a configuration device. This makes Actel’s chips ideal candidates for hot-swap and


    Original     		PDF RT54SX-S

    A54SX08A

    Abstract: A54SX16A A54SX32A A54SX72A RT54SX72S RT54SX-S
    Text: Application Note AC158 Actel SX-A and RT54SX-S Devices in Hot-Swap and Cold-Sparing Applications I n tro du ct i on All of Actel’s FPGAs are nonvolatile, meaning they are live at power up and do not require a configuration device. This makes Actel’s chips ideal candidates for hot-swap and


    Original     		PDF AC158 RT54SX-S A54SX08A A54SX16A A54SX32A A54SX72A RT54SX72S

    vhdl code for motor speed control

    Abstract: ANTIFUSE
    Text: Actel’s Antifuse FPGAs Programmable ASIC Solutions Space Electronics Communications Infrastructure e-Appliances The Antifuse Advantage Actel’s antifuse devices are low-cost, high-performance solutions for today’s logic designer. Ideal for integrating logic typically implemented in multiple CPLDs, PALs,


    Original     		PDF

    10uH inductor CC TECHNOLOGIES

    Abstract: APA150 -TQ1001 datasheet AX2000 ISL6528 HSOP-28 thermal Actel APA075 ax rubycon capacitor 106 35K 7 pin str for 24v 3 amp to 220 package APA600
    Text: HIGH PERFORMANCE ANALOG Power Management Application Guide for Actel FPGAs Using Switchers to Power Actel FPGAs FPGAs continue to grow in density and complexity while at the same time, shrinking device geometries have enabled faster system clocks and required lower core voltages. These trends call for more


    Original     		PDF

    RT54SX72SU

    Abstract: rt54sx32su silicon sculptor 3 54SX16A BP-1710 rt1280 Actel a1280 ACT2 A1280 AC225 A32140DX PQ208
    Text: Application Note AC225 Programming Antifuse Devices Introduction This document provides an overview of the various programming options available for the Actel antifuse families. In addition, it provides helpful information relating to programming failures, including measures


    Original     		PDF AC225 RT54SX72SU rt54sx32su silicon sculptor 3 54SX16A BP-1710 rt1280 Actel a1280 ACT2 A1280 AC225 A32140DX PQ208

    Actel a1280

    Abstract: BP-1710 ACTEL A1010 rt1280 ACTEL A1010A Silicon Sculptor II bp1710 RT54SX72SU Actel A1020 Actel a1225xl
    Text: Application Note AC225 Programming Antifuse Devices Introduction This document provides an overview of the various programming options available for the Actel antifuse families. In addition, it provides helpful information relating to programming failures, including measures


    Original     		PDF AC225 Actel a1280 BP-1710 ACTEL A1010 rt1280 ACTEL A1010A Silicon Sculptor II bp1710 RT54SX72SU Actel A1020 Actel a1225xl

    Actel A54sx08a

    Abstract: A54SX08A
    Text: Application note Using Actel’s A54SX08A FPGA to Interface a PowerQUICC Microprocessor to a MUSIC-IC LANCAM I n tro du ct i on Content Addressable Memory CAM is a special memory designed to accelerate any application that requires extremely fast searches of list-based data such as database


    Original     		PDF A54SX08A MU9C4480A/L MPC855T) Actel A54sx08a

    fpga JTAG Programmer Schematics

    Abstract: No abstract text available
    Text: Actel’s SX-A Family of FPGAs Price/Performance Leader in Programmable L o g i c Logic designers face many problems trying to achieve performance on programmable logic devices available today, resulting in increased total costs for product development. Even


    Original     		PDF SX32A fpga JTAG Programmer Schematics

    A54SX08A

    Abstract: AC148 MPC855T MU9C4480L
    Text: Application Note AC148 Using Actel’s A54SX08A FPGA to Interface a PowerQUICC Microprocessor to a MUSIC-IC LANCAM I n tro du ct i on Content Addressable Memory CAM is a special memory designed to accelerate any application that requires extremely fast searches of list-based data such as database


    Original     		PDF AC148 A54SX08A MU9C4480A/L MPC855T) AC148 MPC855T MU9C4480L

    A40MX04

    Abstract: ACTEL FBGA 144 A42MX09 A42MX24 A42MX16
    Text: Actel FPGA Selector Guide Commercial & Industrial Devices eX SX-A SX MX ProASIC System Typical Gates Gates Logic Dedicated Max Modules Flip-Flops Flip-Flops SRAM Max I/O 2.5V CMOS 3.3V CMOS 5V CMOS 5V Tolerant 3.3V 5V Slew Rate Routed Hardwired Bits Available


    Original     		PDF eX128 eX256 A40MX04 ACTEL FBGA 144 A42MX09 A42MX24 A42MX16

    AF-2-A

    Abstract: A54SX08A A54SX16A A54SX32A A54SX72A AC200 RT54SX72S RT54SX-S hyperlynx
    Text: Application Note AC200 Actel eX, SX-A, and RTSX-S I/Os Introduction The eX, SX-A, and RTSX-S devices have a variety of advanced I/O features, such as PCI compliance, programmable input threshold voltage, configurable output slew rate, and selectable output state during


    Original     		PDF AC200 AF-2-A A54SX08A A54SX16A A54SX32A A54SX72A AC200 RT54SX72S RT54SX-S hyperlynx

    54SX08A

    Abstract: 3A03D BC600-3 "network interface cards"
    Text: Application Note Using External SRAM Memory with Actel SX/SX-A FPGAs I n tro du ct i on Today’s system designs are growing in complexity, requiring larger amounts of memory for high-performance buffers and other local data storage. System designs that require both


    Original     		PDF

    BC652-3

    Abstract: 54SX32A 54SX32 A54SX72A-PQ208 A54SX08A A54SX72A AC150 EP20K400 EPF10K200E PQ208
    Text: Application Note AC150 Using External SRAM Memory with Actel SX/SX-A FPGAs I n tro du ct i on Today’s system designs are growing in complexity, requiring larger amounts of memory for high-performance buffers and other local data storage. System designs that require both


    Original     		PDF AC150 BC652-3 54SX32A 54SX32 A54SX72A-PQ208 A54SX08A A54SX72A AC150 EP20K400 EPF10K200E PQ208

    A500K180

    Abstract: A42MX16 ACTEL FBGA 144 A42MX09
    Text: Actel FPGA Selector Guide Commercial & Industrial Devices SX-A SX MX ProASIC System Typical Gates Gates Logic Dedicated Max SRAM Max I/O 2.5V CMOS 3.3V CMOS 5V CMOS 5V Tolerant 3.3V 5V Slew Rate Routed Hardwired 33 MHz 66 MHz Temp Speed Bits Available drive


    Original     		PDF A54SX08A A54SX16A A54SX32A A54SX72A A500K180 A42MX16 ACTEL FBGA 144 A42MX09

    ACEQ100

    Abstract: actel flashpro3 schematic actel a40mx02 actel EX128 TQ100 Actel A40MX04 FlashPro3 FG144 engine control module arm7 embedded c programming examples FG256
    Text: Automotive Solutions FROM CONCEPT TO PRODUCTION Key Features Actel, the world’s leading supplier of high-reliability FPGAs, now offers the — Nonvolatile, High-Reliability industry’s broadest automotive product portfolio that addresses the unique needs of vehicle designers. FPGAs are being used today in under-the-hood


    Original     		PDF

    FBGA-484

    Abstract: FBGA484 ACTEL FBGA 144
    Text: Actel FPGA Selector Guide Ava i l a b l e Co m m e rc i a l & In d u s t r i a l De v i c e s 54SX-A 54SX 40MX 42MX ProASIC System Typical Gates Gates Logic Max SRAM Max I/O 2.5V CMOS 3.3V CMOS 5V CMOS 5V Tolerant 3.3V 5V Slew Rate Flip Flops Bits Available


    Original     		PDF 33MHz 66MHz 54SX-A SX08A SX16A SX32A SX72A FBGA-484 FBGA484 ACTEL FBGA 144

    actel cqfp 84

    Abstract: A1010B ACTEL FBGA 144
    Text: v3.0 Package Options: User I/Os per Package C om m e r c i a l / I nd us t r i a l D ev i c e s A54SX16 A54SX16P A54SX32 130 175 175 174 81 81 81 A54SX08 A54SX72A SX A54SX32A A54SX16A 44 A54SX08A PLCC SX-A eX256 Pins eX128 Package eX64 eX 68 84 PQFP 69 100


    Original     		PDF A54SX08A A54SX16A A54SX32A A54SX72A A54SX08 A54SX16 A54SX16P A54SX32 eX128 eX256 actel cqfp 84 A1010B ACTEL FBGA 144

    ESD-S3.1

    Abstract: IC SEM 2005 RTSX32SU TM3015 TM3015.7 transistor N3B cmos esd sensitivity ionizer A54SX08A A54SX16A
    Text: Application Note AC233 Electro-Static Discharge Introduction All electronic integrated circuit IC devices are susceptible to damage from static electricity or electrostatic discharge (ESD). While some devices can withstand thousands of volts of ESD before damage, others


    Original     		PDF AC233 ESD-S3.1 IC SEM 2005 RTSX32SU TM3015 TM3015.7 transistor N3B cmos esd sensitivity ionizer A54SX08A A54SX16A

    UART 8251

    Abstract: 8251 uart in vhdl code 8251 uart vhdl 8251 uart verilog code for baud rate generator vhdl code for a 9 bit parity generator verilog code for 8251 vhdl code for uart vhdl ODD parity generator A42MX09
    Text: v5.1 CoreUART P ro d u ct S u m m a r y S y n t h es is a n d S im u la t io n S u p po r t I n t en d ed U se • Synthesis: Exemplar, Synplicity, Design Compiler, FPGA Compiler, FPGA Express • Basic Interface to Industry Standard UART Controllers • Embedded Systems for Sharing Data between Devices


    Original     		PDF 1/16th UART 8251 8251 uart in vhdl code 8251 uart vhdl 8251 uart verilog code for baud rate generator vhdl code for a 9 bit parity generator verilog code for 8251 vhdl code for uart vhdl ODD parity generator A42MX09

    AC201

    Abstract: A54SX72* radiation Synplify tmr fpga radiation A54SX08 A54SX08A A54SX16 A54SX16A A54SX32A AX125
    Text: Application Note AC201 Maximizing Logic Utilization in eX, SX, SX-A, and Axcelerator FPGA Devices Using CC Macros Introduction Typically, designers use logic optimization techniques to minimize logic resources, allowing the design to fit into a specific field-programmable gate array FPGA . This application note introduces an optimization


    Original     		PDF AC201 AC201 A54SX72* radiation Synplify tmr fpga radiation A54SX08 A54SX08A A54SX16 A54SX16A A54SX32A AX125

    a54sx72a

    Abstract: TQFP-176 footprint A54SX16A A54SX32A-
    Text: Application Note SX to SX-A Design Migration I n tro du ct i on • Configurable Output State During Power Up: All outputs can be programmed to either weak resistor pull up or weak resistor pull down for output tristate. SX-A is fabricated using a 0.22/0.25µ CMOS process. These


    Original     		PDF

    A54SX16A

    Abstract: A54SX72A A54SX08A A54SX32 A54SX32A AC157 PQ208 A54SX08 A54SX16 A54SX16P PQFP
    Text: Application Note AC157 SX to SX-A Design Migration I n tro du ct i on • Configurable Output State During Power Up: All outputs can be programmed to either weak resistor pull up or weak resistor pull down for output tristate. SX-A is fabricated using a 0.22/0.25µ CMOS process. These


    Original     		PDF AC157 A54SX16A A54SX72A A54SX08A A54SX32 A54SX32A AC157 PQ208 A54SX08 A54SX16 A54SX16P PQFP

    A54SXA

    Abstract: 3b4b A54SX-A A54SX08A A54SX16A A54SX32A 8B10B MHz sx08a CLK125
    Text: v 2. 0 8b10b Macro P r o d uc t S u m m a r y • Gigabit Ethernet 8b10b Function • 125 MHz Operation • Transmit and Receive Function • Disparity and Illegal Code Error Checking • Connects directly to industry-standard Gigabit Ethernet Transceiver devices.


    Original     		PDF 8b10b 8-b000 A54SXA 3b4b A54SX-A A54SX08A A54SX16A A54SX32A 8B10B MHz sx08a CLK125

    baugh-wooley multiplier verilog

    Abstract: 1BG25 LPQ100 9572xv BC356 LPQ240 block diagram baugh-wooley multiplier 4 BIT ALU design with vhdl code using structural XC3000A actel a1240
    Text: LeonardoSpectrum Synthesis and Technology v1999.1 Copyright Copyright 1991-1999 Exemplar Logic, Inc., A Mentor Graphics Company All Rights Reserved Trademarks Exemplar Logic and its Logo are trademarks of Exemplar Logic, Inc. LeonardoSpectrum™, LeonardoInsight™, FlowTabs™, HdlInventor™, SmartScripts™,


    Original     		PDF v1999 Index-11 Index-12 baugh-wooley multiplier verilog 1BG25 LPQ100 9572xv BC356 LPQ240 block diagram baugh-wooley multiplier 4 BIT ALU design with vhdl code using structural XC3000A actel a1240