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    CG624 THERMAL EXPANSION Search Results

    CG624 THERMAL EXPANSION Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TCTH011AE Toshiba Electronic Devices & Storage Corporation Over Temperature Detection IC / VDD=1.7~5.5V / IPTCO=1μA / IDD=1.8μA / Push-pull type Visit Toshiba Electronic Devices & Storage Corporation
    TCTH022AE Toshiba Electronic Devices & Storage Corporation Over Temperature Detection IC / VDD=1.7~5.5V / IPTCO=10μA / IDD=11.3μA / Push-pull type / FLAG signal latch function Visit Toshiba Electronic Devices & Storage Corporation
    TCTH021AE Toshiba Electronic Devices & Storage Corporation Over Temperature Detection IC / VDD=1.7~5.5V / IPTCO=10μA / IDD=11.3μA / Push-pull type Visit Toshiba Electronic Devices & Storage Corporation
    TCTH012BE Toshiba Electronic Devices & Storage Corporation Over Temperature Detection IC / VDD=1.7~5.5V / IPTCO=1μA / IDD=1.8μA / Open-drain type / FLAG signal latch function Visit Toshiba Electronic Devices & Storage Corporation
    TCTH012AE Toshiba Electronic Devices & Storage Corporation Over Temperature Detection IC / VDD=1.7~5.5V / IPTCO=1μA / IDD=1.8μA / Push-pull type / FLAG signal latch function Visit Toshiba Electronic Devices & Storage Corporation

    CG624 THERMAL EXPANSION Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    ACTEL CCGA 624 mechanical

    Abstract: CCGA ACTEL CCGA 1152 mechanical CG1152 pogo pin cleaning CGS624 a440 ceramic actel package mechanical drawing RTAX2000 90Pb 10Sn solder paste
    Text: Application Note AC190 Ceramic Column Grid Array Introduction Ceramic Column Grid Array CCGA packages are becoming increasingly popular as an alternative to Ceramic Ball Grid Array (CBGA) packages for applications requiring very high-density interconnections


    Original     		PDF AC190 624-pin CG624) CG1152) 1272-pin ACTEL CCGA 624 mechanical CCGA ACTEL CCGA 1152 mechanical CG1152 pogo pin cleaning CGS624 a440 ceramic actel package mechanical drawing RTAX2000 90Pb 10Sn solder paste

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

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

    ACTEL CCGA 624 mechanical

    Abstract: 208-Pin CQFP Actel a54sx72a tid CCGA -CG 472
    Text: v2 . 2 RTSX-S RadTolerant FPGAs 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     		PDF TM1019 ACTEL CCGA 624 mechanical 208-Pin CQFP Actel a54sx72a tid CCGA -CG 472

    Untitled

    Abstract: No abstract text available
    Text: v2 . 1 RTSX-S RadTolerant FPGAs 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     		PDF TM1019

    RT54SX72SCQ208

    Abstract: Actel a54sx72a tid RT54SX72S matsua fuse resistor PQFP die size actel 1020 datasheet ACTEL CCGA 624 mechanical antifuse A54SX72A CC256
    Text: v2 . 2 RTSX-S RadTolerant FPGAs 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     		PDF TM1019 RT54SX72SCQ208 Actel a54sx72a tid RT54SX72S matsua fuse resistor PQFP die size actel 1020 datasheet ACTEL CCGA 624 mechanical antifuse A54SX72A CC256

    ACTEL CCGA 624 mechanical

    Abstract: No abstract text available
    Text: v2 . 0 RTSX-S RadTolerant FPGAs 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     		PDF TM1019 ACTEL CCGA 624 mechanical

    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     		PDF TM1019 rt54sx32su RTSX72 RTSX32SU RTSX72-S

    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     		PDF TM1019 RTSX32su RTSX32SU CQ84 RTSX72SU

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

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

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

    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     		PDF TM1019 RTSX32SU CQ84 Silicon Sculptor II RTSX32SU actel 1020

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

    A54SX72* radiation

    Abstract: cg624 A54SX72A actel 1020 datasheet RT54SX72S RT54SX-S TM1019 HiRel a54sx72a unused
    Text: Advanced v1.4 RT54SX-S RadTolerant FPGAs for Space Applications S p ec i a l F e a tu r es fo r S p ac e • First Actel FPGA Designed Specifically for Space Applications • Up to 2,012 SEU Hardened Flip-Flops Eliminate Software TMR Necessity LET th > 40, GEO SEU Rate < 10–10


    Original     		PDF RT54SX-S TM1019 A54SX72* radiation cg624 A54SX72A actel 1020 datasheet RT54SX72S RT54SX-S HiRel a54sx72a unused

    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     		PDF TM1019 RTSX32su Actel a54sx72a tid Silicon Sculptor II

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

    SMD ARAY

    Abstract: No abstract text available
    Text: Revision 6 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     		PDF TM1019 MIL-STD-883B SMD ARAY

    HiRel a54sx72a unused

    Abstract: No abstract text available
    Text: Advanced v1.3 RT54SX-S RadTolerant FPGAs for Space Applications Sp e ci a l F ea t ur es f o r Sp a ce • First Actel FPGA Designed Specifically for Space Applications • Up to 2,012 SEU Hardened Flip-Flops Eliminate Software TMR Necessity LET th > 40, GEO SEU Rate < 10–10


    Original     		PDF RT54SX-S RT54SX-S TM1019 HiRel a54sx72a unused

    HiRel a54sx72a unused

    Abstract: No abstract text available
    Text: Advanced v1.5 RTSX-S RadTolerant FPGAs for Space Applications Sp e ci a l F ea t ur es f o r Sp a ce • First Actel FPGA Designed Specifically for Space Applications • Up to 2,012 SEU Hardened Flip-Flops Eliminate Software TMR Necessity LET th > 40, GEO SEU Rate < 10–10


    Original     		PDF TM1019 HiRel a54sx72a unused

    HiRel a54sx72a unused

    Abstract: No abstract text available
    Text: Advanced v1.6 RTSX-S RadTolerant FPGAs for Space Application S p ec i a l F e a tu r es fo r S p ac e • First Actel FPGA Designed Specifically for Space Applications • Up to 2,012 SEU Hardened Flip-Flops Eliminate Software TMR Necessity LET th > 40, GEO SEU Rate < 10–10


    Original     		PDF TM1019 HiRel a54sx72a unused