Part Number
    Please enter a valid full or partial manufacturer part number with a minimum of 3 letters or numbers

    TRANSISTOR ARRAY K1 MARKING Search Results

    TRANSISTOR ARRAY K1 MARKING Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    5962-8672601EA
    		Rochester Electronics LLC Parity Generator/Checker, S Series, 12-Bit, Inverted Output, TTL - Dual marked (93S48/BEA) PDF Buy
    54F151/BEA
    		Rochester Electronics LLC 54F151 - Multiplexer, 1-Func, 8 Line Input, TTL, CDIP16 - Dual marked (M38510/33901BEA) PDF Buy
    54F151/B2A
    		Rochester Electronics LLC 54F151 - Multiplexer, 1-Func, 8 Line Input, TTL, CQCC20 - Dual marked (M38510/33901B2A) PDF Buy
    5962-8672601FA
    		Rochester Electronics LLC Parity Generator/Checker, S Series, 12-Bit, Inverted Output, TTL - Dual marked (93S48/BFA) PDF Buy
    ICL7667MJA/883B
    		Rochester Electronics LLC ICL7667 - Buffer/Inverter Based MOSFET Driver, CMOS, CDIP8 - Dual marked (5962-8766001PA) PDF Buy

    TRANSISTOR ARRAY K1 MARKING Datasheets Context Search

    Catalog Datasheet Type Document Tags PDF

    D2625

    Abstract: DN2625K4-G DN2625K6-G MD2130 125OC DN2625 DN2625DK6-G "thermal via" PCB D-PAK K1 transistor array
    Contextual Info: DN2625 N-Channel Depletion-Mode Vertical DMOS FET in Single and Dual Options Features General Description ► ► ► ► ► ► The Supertex DN2625 is a low threshold depletion-mode normally-on transistor utilizing an advanced vertical DMOS structure and Supertex’s well-proven silicon-gate manufacturing


    Original     		DN2625 DN2625 DSFP-DN2625 A092409 D2625 DN2625K4-G DN2625K6-G MD2130 125OC DN2625DK6-G "thermal via" PCB D-PAK K1 transistor array PDF

    E112

    Abstract: E212 MC100E212 MC100E212FN MC100E212FNR2 MC10E212 MC10E212FN MC10E212FNR2
    Contextual Info: MC10E212, MC100E212 5V ECL 3-Bit Scannable Registered Address Driver The MC10E/100E212 is a scannable registered ECL driver typically used as a fan-out memory address driver for ECL cache driving. In a VLSI array based CPU design, use of the E212 allows the user to


    Original     		MC10E212, MC100E212 MC10E/100E212 MC10E212FN MC10E212/D E112 E212 MC100E212 MC100E212FN MC100E212FNR2 MC10E212 MC10E212FN MC10E212FNR2 PDF

    MARKING CODE p109

    Abstract: 416L DD 127 D TRANSISTOR diode mark P019 IDS200 marking p020 p014 marking datasheet p022 P108 P183 kw
    Contextual Info: IQX Family Data Sheet FEATURES DESCRIPTION • SRAM-based, in-system programmable • Switch Matrix — Non-Blocking — Identical and predictable delays — One-to-one, one-to-many and many-to-one connections • RapidConfigure parallel interface for fast, incremental


    Original     		PDF

    AB P89 zener

    Abstract: Zener diode MARKING P035 252 B34 ZENER DIODE Zener diode MARKING P044 ZENER diode p317 Zener Diode p047 p014 DD 127 D TRANSISTOR zener AF4 on semiconductor marking code P008
    Contextual Info: IQX Family Data Sheet FEATURES DESCRIPTION • SRAM-based, in-system programmable • Switch Matrix — Non-Blocking — Identical and predictable delays — One-to-one, one-to-many and many-to-one connections • RapidConfigure parallel interface for fast, incremental


    Original     		PDF

    Contextual Info: B048F480T30 V•I BCMTM Bus Converter Module • 48 V to 48 V V•I ChipTM Converter • Typical efficiency 96% • 300 Watt 450 Watt for 1 ms • 125°C operation • High density – 1036 /in3 • <1 µs transient response • Small footprint – 260 /in2


    Original     		B048F480T30 PDF

    Contextual Info: PRELIMINARY V•I B048F015T14 BCMTM Bus Converter Module • 48 V to 1.5 V V•I ChipTM Converter • Typical efficiency 91% • 135 Watt 203 Watt for 1 ms • 125°C operation • High density – 311 A/in3 • <1 µs transient response • Small footprint – 80


    Original     		B048F015T14 PDF

    Contextual Info: B048F080T24 V•I BCMTM Bus Converter • 48 V to 8 V V•I ChipTM Converter • Typical efficiency 96% • 240 Watt 360 Watt for 1 ms • 125°C operation • High density – 829 W/in3 • <1 µs transient response • Small footprint – 210 W/in2 • Low weight – 0.5 oz (14 g)


    Original     		B048F080T24 PDF

    Contextual Info: B048F320T30 V•I BCMTM Bus Converter • 48 V to 32 V V•I ChipTM Converter • Typical efficiency 96% • 300 Watt 450 Watt for 1 ms • 125°C operation • High density – 1036 W/in3 • <1 µs transient response • Small footprint – 260 W/in2 • Low weight – 0.5 oz (14 g)


    Original     		B048F320T30 PDF

    Contextual Info: B048F040T20 V•I BCMTM Bus Converter Module • 48 V to 4 V V•I ChipTM Converter • Typical efficiency 94% • 200 Watt 300 Watt for 1 ms • 125°C operation • High density – 173 A/in3 • <1 µs transient response • Small footprint – 40 A/in2


    Original     		B048F040T20 PDF

    Contextual Info: B048F120T30 V•I BCMTM Bus Converter Module • 48 V to 12 V V•I ChipTM Converter • Typical efficiency 95% • 300 Watt 450 Watt for 1 ms • 125°C operation • High density – 1036 W/in3 • <1 µs transient response • Small footprint – 260


    Original     		B048F120T30 PDF

    Contextual Info: B048F120T30 V•I BCMTM Bus Converter Module • 48 V to 12 V V•I ChipTM Converter • Typical efficiency 95% • 300 Watt 450 Watt for 1 ms • 125°C operation • High density – 1036 W/in3 • <1 µs transient response • Small footprint – 260


    Original     		B048F120T30 PDF

    Contextual Info: B352F110T30 BCMTM Bus Converter • 352 V to 11 V V•I ChipTM Converter • Typical efficiency 95% • 300 Watt 450 Watt for 1 ms • 125°C operation • High density – up to 1036 W/in3 • <1 µs transient response • Small footprint – 260 W/in2


    Original     		B352F110T30 PDF

    Contextual Info: B048F060T24 V•I BCMTM Bus Converter Module • 48 V to 6 V V•I ChipTM Converter • Typical efficiency 95% • 240 Watt 360 Watt for 1 ms • 125°C operation • High density – 829 W/in3 • <1 µs transient response • Small footprint – 210 W/in2


    Original     		B048F060T24 PDF

    Contextual Info: B048F030T21 B048F030M21 BCMTM Bus Converter • 48 V to 3 V V•I ChipTM Converter • Typical efficiency 95% • 210 Watt 315 Watt for 1 ms • 125°C operation (TJ) • High density – 237 A/in3 • <1 µs transient response • Small footprint – 60


    Original     		B048F030T21 B048F030M21 PDF

    Contextual Info: B048F060T24 V•I BCMTM Bus Converter Module • 48 V to 6 V V•I ChipTM Converter • Typical efficiency 95% • 240 Watt 360 Watt for 1 ms • 125°C operation • High density – 829 W/in3 • <1 µs transient response • Small footprint – 210 W/in2


    Original     		B048F060T24 PDF

    Contextual Info: PRELIMINARY B384F120T30 BCMTM Bus Converter Module • 384 V to 12 V V•I ChipTM Converter • Typical efficiency 95% • 300 Watt 450 Watt for 1 ms • 125°C operation • High density – up to 1036 W/in3 • <1 µs transient response • Small footprint – 260


    Original     		B384F120T30 PDF

    Contextual Info: B048F096T24 V•I BCMTM Bus Converter • 48 V to 9.6 V V•I ChipTM Converter • Typical efficiency 96% • 240 Watt 360 Watt for 1 ms • 125°C operation • High density – 829 W/in3 • <1 µs transient response • Small footprint – 210 W/in2 • Low weight – 0.5 oz (14 g)


    Original     		B048F096T24 PDF

    Contextual Info: B352F110T24 BCMTM Bus Converter Module • 352 V to 11.0 V V•I ChipTM Converter • Typical efficiency 95% • 240 Watt 360 Watt for 1 ms • 125°C operation • High density – up to 876 W/in3 • <1 µs transient response • Small footprint – 210 W/in2


    Original     		B352F110T24 PDF

    Contextual Info: B048F080T24 B048F080M24 V•I BCMTM Bus Converter • 48 V to 8 V V•I ChipTM Converter • Typical efficiency 96% • 240 Watt 360 Watt for 1 ms • 125°C operation (TJ) • High density – 813 W/in3 • <1 µs transient response • Small footprint – 210


    Original     		B048F080T24 B048F080M24 PDF

    Contextual Info: B048F060T24 B048F060M24 V•I BCMTM Bus Converter • 48 V to 6 V V•I ChipTM Converter • Typical efficiency 95% • 240 Watt 360 Watt for 1 ms • 125°C operation (TJ) • High density – 813 W/in3 • <1 µs transient response • Small footprint – 210


    Original     		B048F060T24 B048F060M24 PDF

    Contextual Info: B048F030T21 V•I BCMTM Bus Converter Module • 48 V to 3 V V•I ChipTM Converter • Typical efficiency 95% • 210 Watt 315 Watt for 1 ms • 125°C operation • High density – 242 A/in3 • <1 µs transient response • Small footprint – 60 A/in2


    Original     		B048F030T21 PDF

    Contextual Info: B352F110T30 BCMTM Bus Converter Module • 352 V to 11 V V•I ChipTM Converter • Typical efficiency 95% • 300 Watt 450 Watt for 1 ms • 125°C operation • High density – up to 1036 W/in3 • <1 µs transient response • Small footprint – 260 W/in2


    Original     		B352F110T30 PDF

    Contextual Info: B048F096T24 V•I BCMTM Bus Converter Module • 48 V to 9.6 V V•I ChipTM Converter • Typical efficiency 96% • 240 Watt 360 Watt for 1 ms • 125°C operation • High density – 829 W/in3 • <1 µs transient response • Small footprint – 210


    Original     		B048F096T24 PDF

    Contextual Info: B352F110T24 BCMTM Bus Converter • 352 V to 11.0 V V•I ChipTM Converter • Typical efficiency 95% • 240 Watt 360 Watt for 1 ms • 125°C operation • High density – up to 876 W/in3 • <1 µs transient response • Small footprint – 210 W/in2


    Original     		B352F110T24 PDF