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    SM208CQSX-ACTEL

    Abstract: RTSX32SU Silicon Sculptor II AC255 RTSX-SU SM208CQSX RTSX32 AFM n silicon sculptor V4491
    Text: Application Note AC255 Recommendations for Programming Actel RTSX-S, RTSX-SU, and SX-A Introduction This technical brief provides programming information and answers common questions regarding the programming of Actel RTSX-S MEC fabricated, now discontinued , RTSX-SU (UMC fabricated), and SX-A


    Original     		AC255 RT54SX32S RTSX32SU SM208CQSX-ACTEL Silicon Sculptor II AC255 RTSX-SU SM208CQSX RTSX32 AFM n silicon sculptor V4491 PDF

    RTSX72

    Abstract: No abstract text available
    Text: v2.2 RTSX-SU RadTolerant FPGAs UMC u e Designed for Space • • • • • SEU-Hardened Registers Eliminate the Need to Implement Triple-Module Redundancy (TMR) – Immune to Single-Event Upsets (SEU) to LETth > 40 MeV-cm2/mg, – SEU Rate < 10–10 Upset/Bit-Day in Worst-Case


    Original     		TM1019 RTSX72 PDF

    RTSX32su

    Abstract: RTSX32SU CQ84 RTSX72SU
    Text: v2.0 RTSX-SU RadTolerant FPGAs UMC u e Designed for Space • • • • • SEU-Hardened Registers Eliminate the Need to Implement Triple-Module Redundancy (TMR) – Immune to Single-Event Upsets (SEU) to LETth > 40 MeV-cm2/mg, – SEU Rate < 10–10 Upset/Bit-Day in Worst-Case


    Original     		TM1019 RTSX32su RTSX32SU CQ84 RTSX72SU PDF

    rt54sx32su

    Abstract: RTSX72 RTSX32SU RTSX72-S
    Text: Advanced v0.1 RTSX-SU RadTolerant FPGAs UMC u e Designed for Space • • • • • SEU-Hardened Registers Eliminate the Need to Implement Triple-Module Redundancy (TMR) – Immune to Single-Event Upsets (SEU) to LETth > 40 MeV-cm2/mg, – SEU Rate < 10–10 Upset/Bit-Day in Worst-Case


    Original     		TM1019 rt54sx32su RTSX72 RTSX32SU RTSX72-S PDF

    RTSX32su

    Abstract: Actel a54sx72a tid Silicon Sculptor II
    Text: v2.2 RTSX-SU RadTolerant FPGAs UMC u e Designed for Space • • • • • SEU-Hardened Registers Eliminate the Need to Implement Triple-Module Redundancy (TMR) – Immune to Single-Event Upsets (SEU) to LETth > 40 MeV-cm2/mg, – SEU Rate < 10–10 Upset/Bit-Day in Worst-Case


    Original     		TM1019 RTSX32su Actel a54sx72a tid Silicon Sculptor II PDF

    RTSX32SU CQ84

    Abstract: RT3PE3000L CQ256 CQFP 256 PIN actel A54SX32A SEU RT3PE600L Cqfp256 RTAX2000 ACTEL CCGA 624 mechanical rtax2000sl aircraft logic gates
    Text: System-Critical FPGAs Product Catalog November 2009 Taking Designs from Earth to Outer Space Whether you’re designing for sea-level or 2,000,000 miles into space, Actel’s high-reliability, low-power FPGAs are your best choice. With a history of providing the most reliable, robust, low-power flash and antifuse-based FPGAs in


    Original     		PDF

    RTSX32SU

    Abstract: RTSX32 PQFP die size C5249 bst r16 166 P790 actel 1020 datasheet A54SX72A CC256 CQ208
    Text: Advanced v0.3 RTSX-SU RadTolerant FPGAs UMC u e Designed for Space • • • • • SEU-Hardened Registers Eliminate the Need to Implement Triple-Module Redundancy (TMR) – Immune to Single-Event Upsets (SEU) to LETth > 40 MeV-cm2/mg, – SEU Rate < 10–10 Upset/Bit-Day in Worst-Case


    Original     		TM1019 RTSX32SU RTSX32 PQFP die size C5249 bst r16 166 P790 actel 1020 datasheet A54SX72A CC256 CQ208 PDF

    RTSX72

    Abstract: RTSX72SU A54SX72A TID "tristate buffer" A54SX32S-PQ208 RT54SXproto
    Text: Advanced v0.2 RTSX-SU RadTolerant FPGAs UMC u e Designed for Space • • • • • SEU-Hardened Registers Eliminate the Need to Implement Triple-Module Redundancy (TMR) – Immune to Single-Event Upsets (SEU) to LETth > 40 MeV-cm2/mg, – SEU Rate < 10–10 Upset/Bit-Day in Worst-Case


    Original     		TM1019 RTSX72 RTSX72SU A54SX72A TID "tristate buffer" A54SX32S-PQ208 RT54SXproto PDF

    RTSX32SU

    Abstract: RTSX32SU CQ84 rtsx72su RTSX32 RTSX-SU 1/RTSX32su CC256 PRB-1 actel 1020 datasheet CG624
    Text: Revision 7 RTSX-SU RadTolerant FPGAs UMC FuseLock Designed for Space • • • • • SEU-Hardened Registers Eliminate the Need to Implement Triple-Module Redundancy (TMR) – Immune to Single-Event Upsets (SEU) to LETth > 40 MeV-cm2/mg, – SEU Rate < 10–10 Upset/Bit-Day in Worst-Case


    Original     		TM1019 MIL-ST00 RTSX32SU RTSX32SU CQ84 rtsx72su RTSX32 RTSX-SU 1/RTSX32su CC256 PRB-1 actel 1020 datasheet CG624 PDF

    RTSX32SU CQ84

    Abstract: Silicon Sculptor II RTSX32SU actel 1020
    Text: v2.1 RTSX-SU RadTolerant FPGAs UMC u e Designed for Space • • • • • SEU-Hardened Registers Eliminate the Need to Implement Triple-Module Redundancy (TMR) – Immune to Single-Event Upsets (SEU) to LETth > 40 MeV-cm2/mg, – SEU Rate < 10–10 Upset/Bit-Day in Worst-Case


    Original     		TM1019 RTSX32SU CQ84 Silicon Sculptor II RTSX32SU actel 1020 PDF

    RTSX32SU

    Abstract: RTSX32SU CQ84 Actel a54sx72a tid RTSX72SU RTSX-SU actel 1020 Silicon Sculptor II actel 1020 datasheet RT54SX E11213
    Text: v2.2 RTSX-SU RadTolerant FPGAs UMC u e Designed for Space • • • • • SEU-Hardened Registers Eliminate the Need to Implement Triple-Module Redundancy (TMR) – Immune to Single-Event Upsets (SEU) to LETth > 40 MeV-cm2/mg, – SEU Rate < 10–10 Upset/Bit-Day in Worst-Case


    Original     		TM1019 RTSX32SU RTSX32SU CQ84 Actel a54sx72a tid RTSX72SU RTSX-SU actel 1020 Silicon Sculptor II actel 1020 datasheet RT54SX E11213 PDF

    RTSX32SU CQ84 PROTO

    Abstract: CQ84 SOC 8A fuse smd RTSX32SU CQ84 rtsx72su RTSX32SU CG624 thermal expansion
    Text: Revision 8 RTSX-SU Radiation-Tolerant FPGAs UMC Designed for Space • SEU-Hardened Registers Eliminate the Need to Implement Triple-Module Redundancy (TMR) – Immune to Single Event Upsets (SEU) to LETth > 40 MeVcm2/mg, – SEU Rate < 10–10 Upset/Bit-Day in Worst-Case


    Original     		TM1019 RTSX32SU CQ84 PROTO CQ84 SOC 8A fuse smd RTSX32SU CQ84 rtsx72su RTSX32SU CG624 thermal expansion PDF

    SU 177

    Abstract: RTSX32SU A54SX72* radiation Actel a54sx72a tid antifuse A54SX72A CC256 CG624 CQ208 CQ256
    Text: Advanced v0.3 RTSX-SU RadTolerant FPGAs UMC u e Designed for Space • • • • • SEU-Hardened Registers Eliminate the Need to Implement Triple-Module Redundancy (TMR) – Immune to Single-Event Upsets (SEU) to LETth > 40 MeV-cm2/mg, – SEU Rate < 10–10 Upset/Bit-Day in Worst-Case


    Original     		TM1019 SU 177 RTSX32SU A54SX72* radiation Actel a54sx72a tid antifuse A54SX72A CC256 CG624 CQ208 CQ256 PDF

    RTSX32SU CQ84 PROTO

    Abstract: RTSX32SU CQ84 RTSX72SU1 SOC 8A fuse smd RTSX32su CG624 thermal expansion
    Text: Revision 9 RTSX-SU Radiation-Tolerant FPGAs UMC Designed for Space • SEU-Hardened Registers Eliminate the Need to Implement Triple-Module Redundancy (TMR) – Immune to Single Event Upsets (SEU) to LETth > 40 MeVcm2/mg, – SEU Rate < 10–10 Upset/Bit-Day in Worst-Case


    Original     		TM1019 RTSX32SU CQ84 PROTO RTSX32SU CQ84 RTSX72SU1 SOC 8A fuse smd RTSX32su CG624 thermal expansion PDF

    sequential timer application

    Abstract: No abstract text available
    Text: Application Note AC226 Designer Migration from Timer to SmartTime Introduction Actel has introduced the SmartTime static timing analysis tool with the release of the Libero Integrated Design Environment IDE and Designer v6.2 software tools. SmartTime enables you to run static timing


    Original     		AC226 sequential timer application PDF

    RTSX32SU

    Abstract: RTSX72SU AC251 RT54SX72S RT54SX-S in-rush RTSXSU ACTEL
    Text: Application Note AC251 Power Cycling of RTSX-S Devices Introduction Power cycling may be defined in various terms, based on different applications. In this application note, power cycling refers to consecutive power-up/down sequences of array and I/O voltage supplies of RTSX-S


    Original     		AC251 RTSX32SU RTSX72SU AC251 RT54SX72S RT54SX-S in-rush RTSXSU ACTEL PDF

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

    A1020A

    Abstract: ACTEL A1010A Actel A1225 Actel a1280 RTAX-S A1280XL-PG176 Actel A1240 84 pga 06M7374 A1225XL
    Text: Application Note AC263 Simultaneous Switching Noise and Signal Integrity Introduction Ground bounce and VCC bounce have always been present in digital circuits. However, in the past they were not always noticeable because of slow edge rates and low pin count. Any designer working with


    Original     		AC263 A1020A ACTEL A1010A Actel A1225 Actel a1280 RTAX-S A1280XL-PG176 Actel A1240 84 pga 06M7374 A1225XL PDF

    A54SX72A

    Abstract: Actel A40MX04 A42MX09 actel a40mx02 A40MX04 signal path designer
    Text: Application Note AC276 Board-Level Considerations Introduction Simulating and debugging individual components is the first step in verifying a board design. Despite all the best design efforts to produce a working design, in some cases, the devices do not operate as


    Original     		AC276 A54SX72A Actel A40MX04 A42MX09 actel a40mx02 A40MX04 signal path designer 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     		AC225 RT54SX72SU rt54sx32su silicon sculptor 3 54SX16A BP-1710 rt1280 Actel a1280 ACT2 A1280 AC225 A32140DX PQ208 PDF

    15v 5a dc boost

    Abstract: LTC3418 LTspice LT3080 LTC3549 buck 10a dc dc sepic 24V converter 2A 12v Low Dropout Regulator 10A Adjustable High Efficiency Step-Down Switching Regulator 24v to 5v 1A switching regulator
    Text: Power Management Solutions for Actel’s FPGAs IGLOO Core Voltage: 1.2V b200mA b500mA b1A – 1.5A b2A – 5A 5A – 10A Up to 25A 1.8V LT1761 Linear LTC3035 Linear LTC3549 Buck LT1965 Linear LT3080 Linear LT1763 Linear LTC3409 Buck LT1965 Linear LT3080 Linear


    Original     		200mA 500mA LT1761 LTC3035 LTC3549 LT1965 LT3080 LT1763 LTC3409 LT3020 15v 5a dc boost LTC3418 LTspice buck 10a dc dc sepic 24V converter 2A 12v Low Dropout Regulator 10A Adjustable High Efficiency Step-Down Switching Regulator 24v to 5v 1A switching regulator PDF

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

    CG624

    Abstract: SK-AX1-AX2-KITTOP AX1000-CG624 RTAX2000 RTAX1000SL-CG624 CCGA AX2000-CG624 FG484 SK-AX2-CG624-KITBTM RTAX2000S
    Text: Application Note AC275 CCGA to FBGA Adapter Sockets Introduction Actel recently introduced RTAX-S/L, the next generation designed-for-space antifuse Field Programmable Gate Arrays FPGAs . RTAX-S/L, with up to four million system gates, is Actel's highest density family,


    Original     		AC275 CG624 SK-AX1-AX2-KITTOP AX1000-CG624 RTAX2000 RTAX1000SL-CG624 CCGA AX2000-CG624 FG484 SK-AX2-CG624-KITBTM RTAX2000S PDF

    RTAX250S

    Abstract: RTAX2000S RTAX1000S LG1152 CG1272 RTAX4000S RTAX1000S-SL RTAX2000 CQ208 RTAX-S lvds
    Text: P ro du c t Br ie f RTAX-S/SL RadTolerant FPGAs u e Radiation Performance Leading-Edge Performance • • • • • • • • • • SEU-Hardened Registers Eliminate the Need for TripleModule Redundancy TMR – Immune to Single-Event Upsets (SEU) to LETTH > 37


    Original     		TM1019 5172169PB-11/5 RTAX250S RTAX2000S RTAX1000S LG1152 CG1272 RTAX4000S RTAX1000S-SL RTAX2000 CQ208 RTAX-S lvds PDF