ACTEL FPGA 54SX32 Search Results

ACTEL FPGA 54SX32 Result Highlights (5)

Part	ECAD Model	Manufacturer	Description	Download	Buy
TPS65086470RSKT		Texas Instruments	Configurable Multi-Rail PMIC for Xilinx MPSoCs and FPGAs 64-VQFN -40 to 85
DS32EL0421SQ/NOPB		Texas Instruments	125 MHz - 312.5 MHz FPGA-Link Serializer with DDR LVDS Parallel Interface 48-WQFN -40 to 85
TPS6508640RSKR		Texas Instruments	Configurable Multi-Rail PMIC for Xilinx MPSoCs and FPGAs 64-VQFN -40 to 85
TPS6508640RSKT		Texas Instruments	Configurable Multi-Rail PMIC for Xilinx MPSoCs and FPGAs 64-VQFN -40 to 85
TPS6521904RHBR		Texas Instruments	Integrated power management (PMIC) for Arm® Cortex®- A53 processors and FPGAs 32-VQFN -40 to 105

ACTEL FPGA 54SX32 Datasheets Context Search

Catalog Datasheet	Type	Document Tags	PDF
actel fpga 54sx32 Abstract: 54SX32 54SX16 54SX08 066V 54SX RT54SX Text: Application Note Power-Up and Power-Down Behavior of 54SX and RT54SX Devices I n tro du ct i on One of the key benefits of Actel’s nonvolatile antifuse FPGA technology is the ability of the devices to be live at power-up. Since no configuration PROMs are required to	Original	RT54SX actel fpga 54sx32 54SX32 54SX16 54SX08 066V 54SX	PDF
actel fpga 54sx32 Abstract: 54SX32 54SX RT54SX antifuse fpga Text: Application Note AC145 Power-Up and Power-Down Behavior of 54SX and RT54SX Devices I n tro du ct i on One of the key benefits of Actel’s nonvolatile antifuse FPGA technology is the ability of the devices to be live at power-up. Since no configuration PROMs are required to	Original	AC145 RT54SX actel fpga 54sx32 54SX32 54SX antifuse fpga	PDF
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	AC150 BC652-3 54SX32A 54SX32 A54SX72A-PQ208 A54SX08A A54SX72A AC150 EP20K400 EPF10K200E PQ208	PDF
54SX32A Abstract: 54SX72A ACTEL burn-in RT54SX72SCQ208 54SX32 AX54SX72A 54sx72a burn-in AC172 RT54SX32S-CQ208 A54SX72* radiation Text: Application Note AC172 Post-Programming Burn-In PPBI for Actel RT54SX-S and SX-A FPGAs A b s t r a ct A rc h i te c t ur e Burn-in (BI) for programmed Field Programmable Gate Arrays (FPGAs) is a growing concern in the space community. This application note addresses these concerns	Original	AC172 RT54SX-S 54SX32A 54SX72A ACTEL burn-in RT54SX72SCQ208 54SX32 AX54SX72A 54sx72a burn-in AC172 RT54SX32S-CQ208 A54SX72* radiation	PDF
TTL to LVTTL level shifter Abstract: 54SX32 54SX16 54SX16P 54SX08 3.3v to 5v logic level shifter actel fpga 54sx32 Text: Appl i cat i o n Br i ef Two-Way Mixed-Voltage Interfacing of Actel’s SX FPGAs Introduction In the past, bipolar circuits with a 5.0V standard power supply voltage dominated digital system designs. CMOS IC manufacturers adopted this power supply voltage, and most	Original		PDF
actel fpga 54sx32 Abstract: 24v to 5v level shifter TTL to LVTTL level shifter 54SX16P Text: Application Note Two-Way Mixed-Voltage Interfacing of Actel’s SX FPGAs I n tro du ct i on In the past, bipolar circuits with a 5V standard power supply voltage dominated digital system designs. CMOS IC manufacturers adopted this power supply voltage, and most	Original		PDF
54SX32 Abstract: AC146 actel fpga 54sx32 SX FPGAs TTL to LVTTL level shifter RT54SX 54SX16 54sx08 Text: Application Note AC146 Two-Way Mixed-Voltage Interfacing of Actel’s SX FPGAs I n tro du ct i on In the past, bipolar circuits with a 5V standard power supply voltage dominated digital system designs. CMOS IC manufacturers adopted this power supply voltage, and most	Original	AC146 54SX32 AC146 actel fpga 54sx32 SX FPGAs TTL to LVTTL level shifter RT54SX 54SX16 54sx08	PDF
54SX16A Abstract: 54sx32 54SX0 54SX08A Signal Path Designer 54SX32A Text: Designer Series Development System R1-2000 Release Notes This document describes the new features and enhancements of the Designer Series Development System R1-2000 release. It also contains information about discontinued features and known limitations. Supported Platforms	Original	R1-2000 CQ208 CQ256 54SX16A 54sx32 54SX0 54SX08A Signal Path Designer 54SX32A	PDF
54SX32 Abstract: 54SX32A SX FPGAs A54SX32 A54SX32A A54SX72A PAR64 REQ64 Text: Preliminary v1.0 HiRel SX-A Family FPGAs Le a di n g E d ge P er f o r m a n ce • QML Certified Devices • 215 MHz System Performance Military Temperature • 100% Military Temperature Tested (–55°C and +125°C) • 5.3ns Clock-to-Out (Pin-to-Pin) (Military Temperature)	Original		PDF
54SX32 Abstract: A54SX32 A54SX32A A54SX72A PAR64 REQ64 54SX32A il 074 Text: Preliminary v1.0 HiRel SX-A Family FPGAs Le a di n g E d ge P er f o r m a n ce • QML Certified Devices • 215 MHz System Performance Military Temperature • 100% Military Temperature Tested (–55°C and +125°C) • 5.3ns Clock-to-Out (Pin-to-Pin) (Military Temperature)	Original		PDF
THERMAL Fuse m20 tf 115 c Abstract: 54SX16A actel fpga 54sx32 54SX32 Text: ^ c te l v 2 .0 54SX Family FPGAs L ea d in g Edge Pe rform an ce • 100% Resource Utilization with 100%Pin Locking • 320 MHz Internal Performance • 3.3V Operation with 5.0V Input Tolerance • 3.7 ns Clock-to-Out Pm-to-Pin • Very Low Power Consumption	OCR Scan	AS4SX32 THERMAL Fuse m20 tf 115 c 54SX16A actel fpga 54sx32 54SX32	PDF