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    MICRON RESISTOR TCR Search Results

    MICRON RESISTOR TCR Result Highlights (5)

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    MICRON RESISTOR TCR Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    CMOS Process Family

    Abstract: 0.6 um cmos process
    Text: 4 Micron CMOS Process Family  February 1996 Features • • • • • • Process Parameters Double Poly / Double Metal 8 µm Poly and Metal Pitch 10 Volts Maximum Operating Voltage 15 Volts High Voltage Option Isolated Vertical PNP Bipolar Module Low TCR Resistor Module


    Original     		PDF -10mA CMOS Process Family 0.6 um cmos process

    micron resistor TCR

    Abstract: CMOS Process Family micron resistor 1.2 Micron CMOS Process Family
    Text: 5 Micron CMOS Process Family  June 1995 Process Parameters Features • Double Poly / Double Metal • 10 µm Poly and Metal Pitch • Low TCR Resistor Module Description The Mitel 5µm process is a double poly/double metal CMOS process with an operating voltage range from


    Original     		PDF 50x50 micron resistor TCR CMOS Process Family micron resistor 1.2 Micron CMOS Process Family

    P-MOSFET

    Abstract: mosfet 4800 micron resistor 0.6 um cmos process 3-Micron-CMOS-Process 4800 mosfet MOSFET dynamic parameters 1.2 Micron CMOS Process Family
    Text: 3 Micron CMOS Process Family  June 1995 Process Parameters Features • Double Poly / Double Metal • 6 µm Poly Pitch; 7 µm Metal Pitch • 7 Volts Maximum Operating Voltage • 2.7~3.6 Volts Low Voltage Option • 10 Volts High Voltage Option • Low TCR Resistor Module


    Original     		PDF

    Untitled

    Abstract: No abstract text available
    Text: AP5025 8 Watt Current Sense Chip Resistors A very high power current sense chip resistor capable of dissipating 8 watts with recommended thermal management architecture on the PCB. • Power Dissipation 8 watts with 700 micron PCB thermal Pad • Low resistance values


    Original     		PDF AP5025

    RESISTOR 5025 1W

    Abstract: R002F RESISTOR 5025 R005-F R003F r005f micron marking code information r001 175C R001F
    Text: 8W CURRENT DETECT CHIP RESISTORS Features…………………………………………………………. ƒ ƒ ƒ ƒ Non inductive design. Low TCR, typically less than 30ppm/°C. Low profile surface mount package. Excellent pulse/surge performance. 8W power rating.


    Original     		PDF 30ppm/ RESISTOR 5025 1W R002F RESISTOR 5025 R005-F R003F r005f micron marking code information r001 175C R001F

    R005F

    Abstract: R002F r001f R003F RESISTOR 5025 1W RESISTOR 5025 R004F R005-F RESISTOR 5025 8W r001
    Text: 8W CURRENT DETECT CHIP RESISTORS Features…………………………………………………………. ƒ ƒ ƒ ƒ Non inductive design. Low TCR, typically less than 30ppm/°C. Low profile surface mount package. Excellent pulse/surge performance. 8W power rating.


    Original     		PDF 30ppm/ R005F R002F r001f R003F RESISTOR 5025 1W RESISTOR 5025 R004F R005-F RESISTOR 5025 8W r001

    equivalent of 662K

    Abstract: MICRON POWER RESISTOR MLS micron fuse resistors mps 0851 MICRON POWER RESISTOR 24W 662k MPR 55 F resistor ceramic MDS-1212 ML10L meg05n
    Text: Micron Power Resistors Part Numbering System M N S Type MP - Pin terminal MH - Lug terminal MN - Vertical lead terminal MNS 0 5 Rated power 02 - 2W 10 - 10W 15 - 15W Element G-wire -wound type ceramic core S-Wire -wound type. (glass fiber core) R-Metal Oxide Film


    Original     		PDF

    0.6 um cmos process

    Abstract: CMOS Process Family micron resistor TCR 1.2 Micron CMOS Process Family
    Text: 3 Micron CMOS Process Family  February 1996 Features • • • • • • Process Parameters LOVMOS Process 2.7~3.6 Volts Low Voltage Option Double Poly / Double Metal 6 µm Poly Pitch; 7 µm Metal Pitch 7 Volts Maximum Operating Voltage 10 Volts High Voltage Option


    Original     		PDF fam10-04 0.6 um cmos process CMOS Process Family micron resistor TCR 1.2 Micron CMOS Process Family

    CMOS Process Family

    Abstract: 1.5um cmos process family
    Text: 1.5 Micron CMOS Process Family  February 1996 Features Technology Outline • • • • • • • • LOVMOS Processes 2.7~3.6 Volts Low Voltage Option 1.2 Volts Very Low Voltage Option 5.5 Volts Maximum Operating Voltage Double Poly / Double Metal


    Original     		PDF

    r001f

    Abstract: No abstract text available
    Text: 8W Current Sense Chip Resistors BCS 8 Series • Non inductive design. · Low TCR, typically less than 100ppm/°C. · Low profile surface mount package. · Excellent pulse/surge performance. · 8W power rating. Applications · Current sense applications · Over current protection in Battery chargers.


    Original     		PDF 100ppm/ R001F r001f

    Untitled

    Abstract: No abstract text available
    Text: 8W Current Sense Chip Resistors BCS 8 Series • · · · · Non inductive design. Low TCR, typically less than 100ppm/°C. Low profile surface mount package. Excellent pulse/surge performance. 8W power rating. Applications Current sense applications Over current protection in Battery chargers.


    Original     		PDF 100ppm/Â R001ance

    CMOS Process Family

    Abstract: P-MOSFET transistor P-MOSFET process of mosfet micron resistor
    Text: 2 Micron CMOS Process Family  June 1995 Process Parameters Features • Double Poly / Double Metal • 4 µm Poly and Metal I Pitch • 320 ps Delay per stage Ring Osc. • 5.5 Volts Maximum Operating Voltage • 2.7~3.6 Volts Low Voltage Option • Shrinkable to Mitel 1.5µm Process


    Original     		PDF

    p-mosfet

    Abstract: Bipolar Junction Transistor MOSFET 1000 VOLTS p7094 0.7 um CMOS process parameters
    Text: 4 Micron CMOS Process Family  June 1995 Process Parameters Features 4µm 4µm • Double Poly / Double Metal • 8 µm Poly and Metal Pitch • 10 Volts Maximum Operating Voltage Metal I pitch width/space 4/4 4 /4 µm • 15 Volts High Voltage Option


    Original     		PDF -10mA p-mosfet Bipolar Junction Transistor MOSFET 1000 VOLTS p7094 0.7 um CMOS process parameters

    micron resistor

    Abstract: CMOS Process Family
    Text: 2 Micron CMOS Process Family  February 1996 Features • • • • • • • • • Process Parameters Double Poly / Double Metal 4 µm Poly and Metal I Pitch 320 ps Delay per stage Ring Osc. 5.5 Volts Maximum Operating Voltage 2.7~3.6 Volts Low Voltage Option


    Original     		PDF

    1.2 Micron CMOS Process Family

    Abstract: CMOS Process Family 5-Micron-CMOS-Process 1.5um cmos process family 0.6 um cmos process
    Text: 1.5 Micron CMOS Process Family  June 1995 Features Process Parameters • Double Poly / Double Metal • 3 µm Poly and Metal I Pitch • 5.5 Volts Maximum Operating Voltage • 2.7~3.6 Volts Low Voltage Option • 1.5µm Process Parameters 5volts & 3volts


    Original     		PDF

    Untitled

    Abstract: No abstract text available
    Text: ALA400/401 LINEAR ARRAY Description The ALA400/401 Linear Array Family is fabricated using the complementary bipolar integrated circuit CBIC process that offers the advantages of vertical NPN and vertical PNP transistors. CBIC technology offers the advantage of


    OCR Scan     		PDF ALA400/401 ALA400/401

    Untitled

    Abstract: No abstract text available
    Text: ALA300/301 9Q-V0LT LINEAR ARRAYS Description The ALA300/301 Linear Arrays provide design engineers the means to obtain 90 V semi-custom integrated circuits. The single-module array ALA300 consists of 13 vertical NPN and 15 vertical PNP transistors, three 6 pF capacitors, and 1k


    OCR Scan     		PDF ALA300/301 ALA300/301 ALA300) ALA301) 90-VQLT 90-VOLT

    Untitled

    Abstract: No abstract text available
    Text: * AT&T Preliminary Data Sheet ALA400/401 Linear Array Family Description The ALA400/401 Linear Array Family is fabricated using the complementary bipolar integrated circuit CBIC process that offers the advantages of vertical NPN and vertical PNP transistors. CBIC technology


    OCR Scan     		PDF ALA400/401 51AL230240 D-8000 DS87-61LBC

    pnp 8 transistor array

    Abstract: ALA400 transistor BIPOLAR npn 8 transistor array 1000 volt pnp transistor JFET 401 ARRAY resistor DS87-61LBC kss 216 complementary JFET
    Text: AT&T Preliminary Data Sheet ALA400/401 Linear Array Fam ily Description The ALA400/401 Linear Array Family is fabricated using the complementary bipolar integrated circuit CBIC process that offers the advantages of vertical NPN and vertical PNP transistors. CBIC technology


    OCR Scan     		PDF ALA400/401 51AL230240 D-8000 DS87-61LBC pnp 8 transistor array ALA400 transistor BIPOLAR npn 8 transistor array 1000 volt pnp transistor JFET 401 ARRAY resistor DS87-61LBC kss 216 complementary JFET

    Untitled

    Abstract: No abstract text available
    Text: lAiur Data Sheet Linear Array 005152 Benefits • High-frequency performance, typical fî of 350 MHz for NPN and 300 MHz for PNP transistors ■ 30 volt capability ■ Low development costs ■ Quick design turnaround, typically six to eight weeks from design


    OCR Scan     		PDF LA400 50AL203140 DS86-352LBC

    BD 104 NPN

    Abstract: pnp 8 transistor array LA400 npn 8 transistor array BD+104+NPN
    Text: AT&T Data Sheet oo5i 52 ^ ss Benefits • High-frequency performance, typical fr of 350 MHz for NPN and 300 MHz for PNP transistors ■ 30 volt capability ■ Low development costs ■ Quick design turnaround, typically six to eight weeks from design approval


    OCR Scan     		PDF LA400 50AL203140 DS86-352LBC BD 104 NPN pnp 8 transistor array npn 8 transistor array BD+104+NPN

    pnp 8 transistor array

    Abstract: ALA401 Boron 220 resistor array ALA402 RESISTORS transistor array pnp npn 8 transistor array GL RESISTOR ARRAY
    Text: A T & T MELEC I C 2SE D • G0 5 G 0 2 b 000^54 1 Preliminary Data Sheet ALA401/402 Semicustom Linear Arrays Description The ALA401/402 Semicustom Linear Arrays are fabricated using a complementary bipolar integrated cir­ cuit (CBIC) process that offers the advantages of vertical NPN and PNP transistors. CBIC technology


    OCR Scan     		PDF 005005b 0002T54 ALA401/402 ALA401 ALA402 5002b 100x10-3 pnp 8 transistor array Boron 220 resistor array RESISTORS transistor array pnp npn 8 transistor array GL RESISTOR ARRAY

    pnp 8 transistor array

    Abstract: BD 104 NPN LA400 ARRAY resistor npn 8 transistor array transistor array pnp bD 106 transistor
    Text: AT&T Data Sheet ^ ss oo5i 52 Benefits • High-frequency performance, typical fr of 350 MHz for NPN and 300 MHz for PNP transistors ■ 30 volt capability ■ Low development costs ■ Quick design turnaround, typically six to eight weeks from design approval


    OCR Scan     		PDF LA400 rev400 50AL203140 DS86-352LBC pnp 8 transistor array BD 104 NPN ARRAY resistor npn 8 transistor array transistor array pnp bD 106 transistor

    K1HC

    Abstract: No abstract text available
    Text: b l 1 1 5 Ml Q Q 1 Q D 3 S fiflfl • URN ADVANCE MT9LD T 272 C 2 MEG X 72 DRAM MODULE MICRON M SEMICONDUCTOR INC. DRAM MODULE 2 MEG X 72 DRAM ECC, 3.3V FAST PAGE MODE FEATURES PIN ASSIGNMENT (Top View) • Industry-standard ECC pinout in a 168-pin, dual read­


    OCR Scan     		PDF 168-pin, 800mW 048-cycle 84-Position 168-Pin K1HC