ACTEL ON SRAM Search Results

dk51

Abstract: APA300 APA300-pq208 FLASHPRO LITE CORE8051 APA300 datasheet DK51 transistor vhdl code for 8 bit ram ISA-Actel51 transistor dk51 datasheet
Contextual Info: Application Note AC213 Core8051: Building a Core8051 System on Actel Flash Devices and the APA300 Starter Kit Introduction This application note describes the steps and design issues involved in implementing a Core8051 design on Actel Flash FPGA devices. Specifically, there is a design example that targets the ProASICPLUS

Actel igloo

Abstract: AC293
Contextual Info: Application Note AC293 System Power Optimization Controller Using IGLOO FPGAs Introduction Actel has introduced its new low power IGLOO family, based on the third generation Flash-based ProASIC 3 FPGA architecture. Actel IGLOO low power features and small footprint package address the

AC331

Abstract: FlashPro3 AGL600-256 ulsi stapl
Contextual Info: Application Note AC331 Flash*Freeze Control Using JTAG Introduction The Actel IGLOO and ProASIC®3L families of FPGA devices are based on Actel nonvolatile flash technology and single-chip ProASIC3 FPGA architecture. These devices are part of a 1.2 V to 1.5 V

AC331

Abstract: FlashPro3 AGL600-256
Contextual Info: Application Note AC331 Flash*Freeze Control Using JTAG Introduction The Actel IGLOO and ProASIC®3L families of FPGA devices are based on Actel nonvolatile flash technology and single-chip ProASIC3 FPGA architecture. These devices are part of a 1.2 V to 1.5 V

Actel a1280

Abstract: VKS FPGA CQFP 106 wd5080 74 series family A1280 A32200DX-RQ208 Actel A1225 A1225XL A1240XL A1280XL
Contextual Info: v3.0 Integrator Series FPGAs: 1200XL and 3200DX Families Fe a t ur es G en er al D e sc r i p t i on High C apaci t y Actel’s Integrator Series FPGAs are the first programmable logic devices optimized for high-speed system logic integration. Based on Actel’s proprietary antifuse

ring oscillator

Abstract: acts compile ring oscillator design power inverters free circuit diagram power one inverters block diagram
Contextual Info: Application Note AC332 Flash*Freeze Control Using an Internal Oscillator Introduction The Actel IGLOO and ProASIC®3L families of FPGA devices are based on Actel nonvolatile flash technology and single-chip ProASIC3 FPGA architecture. These devices are part of a 1.2 V to 1.5 V

acts compile

Abstract: ulsi power one inverters block diagram power inverters free circuit diagram Inverters ac332
Contextual Info: Application Note AC332 Flash*Freeze Control Using an Internal Oscillator Introduction The Actel IGLOO and ProASIC®3L families of FPGA devices are based on Actel nonvolatile flash technology and single-chip ProASIC3 FPGA architecture. These devices are part of a 1.2 V to 1.5 V

AC184

Abstract: EDIF
Contextual Info: Application Note AC184 Migrating from Engineering Silicon to Production Devices for the Axcelerator Family I n tro du ct i on The Axcelerator family, one of the most recent antifuse offerings from Actel, combines higher density and performance with features like embedded SRAM and expanded I/O standards. To facilitate early design prototyping, Actel has provided users

pn junction diode

Abstract: p-n junction diode pn junction diode structure
Contextual Info: Application Note Power-Up Behavior of ProASIC 500K Devices I n tro du ct i on Actel’s ProASIC Flash family offers a number of desirable characteristics during power up. ProASIC family devices remain live at power up, and no configuration device is required due to the nonvolatile structure of Actel FPGAs. In

A42MX24

Abstract: AC297 ACTEL PQ160 CQFP 256 PIN actel A1280XL 42MX ACTEL A1240xl A32140DX PQ208 adb 230 CQ256
Contextual Info: Application Note AC297 Migrating from 1200XL and 3200DX to 42MX FPGAs Overview This application note provides the information needed for seamless migration of a design from the 1200XL and 3200DX families to the 42MX family. The Actel 42MX device architecture is based on the Actel 1200XL and 3200DX families; thus, it shares the

Actel A40MX04

Abstract: how to put usb port in dvd player mp3 player circuit diagram PMP300 rio pmp300 NECD78P064GC DVD player circuit diagram -sony sony DVD player circuit diagram sony DVD player with usb port circuit diagram 40MX04
Contextual Info: Application Note MP3 Personal Digital Players Using Actel FPGAs I n tro du ct i on The Moving Pictures Expert Group MPEG was formed in 1988 to settle on a single codec (compression/ decompression) scheme for digital audio. By 1992, the International Standards Organization (ISO) and the

54SX08A

Abstract: 3A03D BC600-3 "network interface cards"
Contextual Info: 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

BC652-3

Abstract: 54SX32A 54SX32 A54SX72A-PQ208 A54SX08A A54SX72A AC150 EP20K400 EPF10K200E PQ208
Contextual Info: 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

sony DVD player with usb port circuit diagram

Abstract: Actel A40MX04 pmp5000 PMP300 ACTEL A42MX09 mp3 player circuit diagram DVD player with usb port circuit diagram portable dvd player block diagram sony DVD player circuit diagram portable dvd player
Contextual Info: Application Note AC141 MP3 Personal Digital Players Using Actel FPGAs I n tro du ct i on The Moving Pictures Expert Group MPEG was formed in 1988 to settle on a single codec (compression/ decompression) scheme for digital audio. By 1992, the International Standards Organization (ISO) and the

Contextual Info: Appl i cat i o n N ot e Memory Page Translation On a Single FPGA Actel’s 3200DX family includes devices that have high-speed dual-port SRAM blocks on-chip. These blocks can be used for a variety of system functions, including FIFO, register files, control store for state machines, and table lookup. Table

ProASIC3

Abstract: RT3PE600L AGL015 A3PE3000L A3P030 RT3PE3000L A3PE600L
Contextual Info: Power-Up/-Down Behavior of Low-Power Flash Devices Introduction Actel’s low-power flash devices are flash-based FPGAs manufactured on a 0.13 µm process node. These devices offer a single-chip, reprogrammable solution and support Level 0 live at power-up

pn junction diode

Abstract: p-n junction diode AC155
Contextual Info: Application Note AC155 Power-Up Behavior of ProASIC 500K Devices I n tro du ct i on Actel’s ProASIC Flash family offers a number of desirable characteristics during power up. ProASIC family devices remain live at power up, and no configuration device is

Applications of "XOR Gate"

Abstract: FPGA based dma controller using vhdl Dual-Port V-RAM signal path designer 8 bit XOR Gates "network interface controller"
Contextual Info: Appl i cat i on N ot e A 155 Mbps ATM Network Interface Controller Using Actel’s New 3200DX FPGAs Given that the asynchronous transmission mode ATM peripheral market is highly competitive and time-to-market is critical, logic designers must meet shrinking design cycles.

AC236

Abstract: stapl AES-128 wireless encrypt
Contextual Info: Application Note AC236 Fusion FlashROM Introduction The Actel Fusion family, based on the highly successful ProASIC3 Flash FPGA architecture, has been designed as a high-performance, programmable, mixed-signal platform. Fusion supports many peripherals, including embedded Flash memory, Analog-to-Digital Converter ADC , high-drive outputs,

Schematic

Abstract: DLP-2232H-SF
Contextual Info: DLP-2232H-SF LEAD FREE USB - MICRONTROLLER - FPGA MODULE FEATURES: • • • • • • • • • • Microsemi/Actel SmartFusion Customizable System-on-Chip cSoC FPGA Internal 100MHz, 32-Bit ARM Cortex™-M3 Microcontroller Subsystem (MSS) Internal 100MHz RC Oscillator-1% Accurate

RTAX1000S

Abstract: RTAX2000S CQFP352 RTAX-S jtag pull-up resistor 10K RTAX2000 RTAX-S library RAM EDAC SEU AC173 ACTEL
Contextual Info: Application Note AC173 Differences Between RTAX-S/SL and Axcelerator Introduction RTAX-S/SL is Actel's latest FPGA family designed for space applications and is a derivative of the Actel Axcelerator FPGA family. The RTAX-S/SL architecture is based on Actel's multi-featured, high-density AX

verilog hdl code for matrix multiplication

Abstract: vhdl code for pipelined matrix multiplication vhdl code hamming verilog code for matrix multiplication vhdl code for matrix multiplication vhdl code hamming edac memory Core from Libero verilog code hamming hamming code FPGA vhdl coding for hamming code
Contextual Info: Application Note AC319 Using EDAC RAM for RadTolerant RTAX-S/SL and Axcelerator FPGAs Applies to EDAC Core from Libero IDE v7.2 and Newer Introduction The newest Actel designed-for-space field programmable gate array FPGA family, RTAX-S/SL, is a highperformance, high-density, antifuse-based FPGA with embedded user static RAM (SRAM). Based on the

ACTEL FUSION AFS1500

Abstract: 50 pin flat ribbon cable DC SERVO MOTOR CONTROL VHDL GF 036 V6 Logic Cross-Reference A54 ZENER AFS600-FG256 AQ3 Series flashpro3 schematic leon3
Contextual Info: Actel Fusion Handbook Low-Power Flash Device Handbooks Introduction Device Handbooks contain all the information available to help designers understand and use Actel's devices. Handbook chapters are grouped into sections on the website to simplify navigation. Each chapter of the handbook can be viewed as an individual PDF file.

AFS600-FG256

Abstract: ACM 944 Alternative" Bipolar Transistor" A44 a51 ZENER DIODE schematic atx 2.03 P4 2n3904 TRANSISTOR REPLACEMENT GUIDE 2V100 ACTEL FUSION AFS1500 fusion m1afs600 as adc using 8051 core 2N3904 K24
Contextual Info: Preliminary v1.7 Actel Fusion Mixed-Signal FPGAs Family with Optional ARM® Support Features and Benefits – Frequency: Input 1.5–350 MHz, Output 0.75–350 MHz Low Power Consumption High-Performance Reprogrammable Flash Technology • • • • • Single 3.3 V Power Supply with On-Chip 1.5 V Regulator