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    EIA-364-32D

    Abstract: EIA-364-09C EIA-364-13C EIA-364-23C EIA-364-28E EIA-364-20C EIA-364-70A JESD22-B102D "HDMI connector" EIA-364-17B
    Text: Product Specification 108-57510 05OCT07 Rev B HDMI Connector 1. SCOPE 1.1. Contents This specification covers the performance, tests and quality requirements for the Tyco Electronics HDMI connector. 1.2. Qualification When tests are performed on the subject product line, procedures specified in Figure 1 shall be used. All


    Original     		PDF 05OCT07 EIA-364-32D EIA-364-09C EIA-364-13C EIA-364-23C EIA-364-28E EIA-364-20C EIA-364-70A JESD22-B102D "HDMI connector" EIA-364-17B

    Untitled

    Abstract: No abstract text available
    Text: 1 2 3 4 5 TECHNICAL CHARACTERISTICS A MATERIAL INSULATOR: LCP COLOR: BLACK SHIELDING: BRASS TIN PLATED CONTACT: PHOSPHOR BRONZE CONTACT TYPE: STAMPED LEVEL: 3 AS PER CECC 75 301-802 ENVIRONNEMENTAL OPERATING TEMPERATURE: -25 TO 85°C FLAMABILITY RAING: UL94-V0


    Original     		PDF UL94-V0 500VAC, 300VAC 05-OCT-07 11-OCT-06

    XD 105 94V-0

    Abstract: BFM 41A Zener diode smd marking code 39c transistor 1BW GENERAL SEMICONDUCTOR TVS CJ 53B 30 097 transistor 110 3CG
    Text: VISHAY INTERTECHNOLOGY , INC . INTERACTIVE data book transient voltage suppressors vishay general semiconductor vse-db0002-1102 Notes: 1. To navigate: a Click on the Vishay logo on any datasheet to go to the Contents page for that section. Click on the Vishay logo on any Contents


    Original     		PDF vse-db0002-1102 XD 105 94V-0 BFM 41A Zener diode smd marking code 39c transistor 1BW GENERAL SEMICONDUCTOR TVS CJ 53B 30 097 transistor 110 3CG

    N 4216

    Abstract: AN609
    Text: SUD50P04-34_RC Vishay Siliconix R-C Thermal Model Parameters DESCRIPTION The parametric values in the R-C thermal model have been derived using curve-fitting techniques. These techniques are described in "A Simple Method of Generating Thermal Models for a Power MOSFET"[1].


    Original     		PDF SUD50P04-34 AN609 05-Oct-07 N 4216

    TRANSISTOR SMD MARKING CODE 1BW

    Abstract: SmD TRANSISTOR 1bw transistor SMD 5BW TRANSISTOR SMD MARKING CODE 1AM 5bw smd smd code marking 5bw KL SN 102 94v-0 smd transistor marking 3bw smd transistor 1AM yx 801
    Text: VISHAY INTERTECHNOLOGY , INC . INTERACTIVE data book transient voltage suppressors vishay general semiconductor vse-db0002-0710 Notes: 1. To navigate: a Click on the Vishay logo on any datasheet to go to the Contents page for that section. Click on the Vishay logo on any Contents


    Original     		PDF vse-db0002-0710 TRANSISTOR SMD MARKING CODE 1BW SmD TRANSISTOR 1bw transistor SMD 5BW TRANSISTOR SMD MARKING CODE 1AM 5bw smd smd code marking 5bw KL SN 102 94v-0 smd transistor marking 3bw smd transistor 1AM yx 801

    .110 faston tab

    Abstract: 62514-1 POKE CTL1039-121 CTL1039-301-001
    Text: 501-30 Qualification Test Report 20Oct08 Rev D MAG-MATE* Standard Terminals 1. INTRODUCTION 1.1. Purpose Testing was perform ed on MAG-MATE* standard term inals to determ ine their conform ance to the requirem ents of Product Specification 108-2012 Revision D.


    Original     		PDF 20Oct08 12Dec83 14Aug85. CTL1039-301-001. 20Jun07 05Oct07. CTL1039-121. 125/C. 118/C .110 faston tab 62514-1 POKE CTL1039-121 CTL1039-301-001

    MD-1111

    Abstract: No abstract text available
    Text: CAT25320 32-Kb SPI Serial CMOS EEPROM FEATURES DESCRIPTION „ 10 MHz SPI compatible The CAT25320 is a 32-Kb Serial CMOS EEPROM device internally organized as 4096x8 bits. This features a 32-byte page write buffer and supports the Serial Peripheral Interface SPI protocol. The device


    Original     		PDF CAT25320 32-Kb 32-byte CAT25320 4096x8 MD-1111

    AN609

    Abstract: No abstract text available
    Text: SQ7415EN_RC Vishay Siliconix R-C Thermal Model Parameters DESCRIPTION The parametric values in the R-C thermal model have been derived using curve-fitting techniques. These techniques are described in "A Simple Method of Generating Thermal Models for a Power MOSFET"[1].


    Original     		PDF SQ7415EN AN609 05-Oct-07

    AN609

    Abstract: SiB911DK
    Text: SiB911DK_RC Vishay Siliconix R-C Thermal Model Parameters DESCRIPTION The parametric values in the R-C thermal model have been derived using curve-fitting techniques. These techniques are described in "A Simple Method of Generating Thermal Models for a Power MOSFET"[1].


    Original     		PDF SiB911DK AN609 05-Oct-07

    1710-M

    Abstract: AN609 SUM60N04-12LT
    Text: SUM60N04-12LT_RC Vishay Siliconix R-C Thermal Model Parameters DESCRIPTION The parametric values in the R-C thermal model have been derived using curve-fitting techniques. These techniques are described in "A Simple Method of Generating Thermal Models for a Power MOSFET"[1].


    Original     		PDF SUM60N04-12LT AN609 05-Oct-07 1710-M

    SUM60N04-05LT

    Abstract: AN609
    Text: SUM60N04-05LT_RC Vishay Siliconix R-C Thermal Model Parameters DESCRIPTION The parametric values in the R-C thermal model have been derived using curve-fitting techniques. These techniques are described in "A Simple Method of Generating Thermal Models for a Power MOSFET"[1].


    Original     		PDF SUM60N04-05LT AN609 05-Oct-07

    M38D29GFHP

    Abstract: No abstract text available
    Text: M38D2 05-Oct-07 Evaluation of Subsystem Clock Oscillation Circuit [M38D29GFHP-64P] LQFP 10x10 0.5mm pitch Measurement conditions :3.3V,5.0V Model Vcc=1.8V to 5.5V :SP-T2A Frequency :Fo=32.768kHz Frequency tolerance :dF/Fo= +/-20x10-6 Load capacitance :CL=12.5pF


    Original     		PDF M38D2 05-Oct-07 M38D29GFHP-64P] 10x10) 768kHz /-20x10-6 1x10-6W M38D29GFHP

    AN609

    Abstract: SUM55P06-19L
    Text: SUM55P06-19L_RC Vishay Siliconix R-C Thermal Model Parameters DESCRIPTION The parametric values in the R-C thermal model have been derived using curve-fitting techniques. These techniques are described in "A Simple Method of Generating Thermal Models for a Power MOSFET"[1].


    Original     		PDF SUM55P06-19L AN609 05-Oct-07

    8821

    Abstract: AN609 Si8429DB
    Text: Si8429DB_RC Vishay Siliconix R-C Thermal Model Parameters DESCRIPTION The parametric values in the R-C thermal model have been derived using curve-fitting techniques. These techniques are described in "A Simple Method of Generating Thermal Models for a Power MOSFET"[1].


    Original     		PDF Si8429DB AN609 05-Oct-07 8821

    M38D29GFHP

    Abstract: d6326
    Text: M38D2 05-Oct-07 Evaluation of Subsystem Clock Oscillation Circuit [M38D29GFHP-64P] LQFP 10x10 0.5mm pitch Measurement conditions :3.3V,5.0V Model Vcc=1.8V to 5.5V :SP-T2A Frequency :Fo=32.768kHz Frequency tolerance :dF/Fo= +/-20x10-6 Load capacitance :CL=6.0pF


    Original     		PDF M38D2 05-Oct-07 M38D29GFHP-64P] 10x10) 768kHz /-20x10-6 1x10-6W M38D29GFHP d6326

    AN609

    Abstract: No abstract text available
    Text: Si7409ADN_RC Vishay Siliconix R-C Thermal Model Parameters DESCRIPTION The parametric values in the R-C thermal model have been derived using curve-fitting techniques. These techniques are described in "A Simple Method of Generating Thermal Models for a Power MOSFET"[1].


    Original     		PDF Si7409ADN AN609 05-Oct-07

    4490 mosfet

    Abstract: AN609 SiA443DJ
    Text: SiA443DJ_RC Vishay Siliconix R-C Thermal Model Parameters DESCRIPTION The parametric values in the R-C thermal model have been derived using curve-fitting techniques. These techniques are described in "A Simple Method of Generating Thermal Models for a Power MOSFET"[1].


    Original     		PDF SiA443DJ AN609 05-Oct-07 4490 mosfet

    309398

    Abstract: transistor c 6073 AN609 SiA411DJ
    Text: SiA411DJ_RC Vishay Siliconix R-C Thermal Model Parameters DESCRIPTION The parametric values in the R-C thermal model have been derived using curve-fitting techniques. These techniques are described in "A Simple Method of Generating Thermal Models for a Power MOSFET"[1].


    Original     		PDF SiA411DJ AN609 05-Oct-07 309398 transistor c 6073

    3942

    Abstract: AN609 Si7431DP
    Text: Si7431DP_RC Vishay Siliconix R-C Thermal Model Parameters DESCRIPTION The parametric values in the R-C thermal model have been derived using curve-fitting techniques. These techniques are described in "A Simple Method of Generating Thermal Models for a Power MOSFET"[1].


    Original     		PDF Si7431DP AN609 05-Oct-07 3942

    48360

    Abstract: 8935 AN609
    Text: Si7652DP_RC Vishay Siliconix R-C Thermal Model Parameters DESCRIPTION The parametric values in the R-C thermal model have been derived using curve-fitting techniques. These techniques are described in "A Simple Method of Generating Thermal Models for a Power MOSFET"[1].


    Original     		PDF Si7652DP AN609 05-Oct-07 48360 8935

    8205 A mosfet

    Abstract: 8205 mosfet 8205 8205 A 8205 datasheet AN609
    Text: Si7382DP_RC Vishay Siliconix R-C Thermal Model Parameters DESCRIPTION The parametric values in the R-C thermal model have been derived using curve-fitting techniques. These techniques are described in "A Simple Method of Generating Thermal Models for a Power MOSFET"[1].


    Original     		PDF Si7382DP AN609 05-Oct-07 8205 A mosfet 8205 mosfet 8205 8205 A 8205 datasheet

    9303

    Abstract: AN609 SUD40N02-08 132-337
    Text: SUD40N02-08_RC Vishay Siliconix R-C Thermal Model Parameters DESCRIPTION The parametric values in the R-C thermal model have been derived using curve-fitting techniques. These techniques are described in "A Simple Method of Generating Thermal Models for a Power MOSFET"[1].


    Original     		PDF SUD40N02-08 AN609 05-Oct-07 9303 132-337

    AN609

    Abstract: SQ7414EN
    Text: SQ7414EN_RC Vishay Siliconix R-C Thermal Model Parameters DESCRIPTION The parametric values in the R-C thermal model have been derived using curve-fitting techniques. These techniques are described in "A Simple Method of Generating Thermal Models for a Power MOSFET"[1].


    Original     		PDF SQ7414EN AN609 05-Oct-07

    Untitled

    Abstract: No abstract text available
    Text: 1 2 3 4 5 TECHNICAL CHARACTERISTICS A MATERIAL INSULATOR: LCP COLOR: BLACK SHIELDING: BRASS NI PLATED CONTACT: COPPER ALLOY CONTACT TYPE: STAMPED LEVEL: 3 AS PER CECC 75 301-802 ENVIRONNEMENTAL OPERATING TEMPERATURE: -25 TO 85°C FLAMABILITY RAING: UL94-V0


    Original     		PDF UL94-V0 500VAC, 300VAC 07-MAY-17 05-OCT-07 11-OCT-06