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    Vishay Siliconix SI6801DQ-T1

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    Bristol Electronics SI6801DQ-T1 4,145
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    Quest Components SI6801DQ-T1 3,316
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    SI6801DQ-T1 4
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    SI6801DQ Datasheets (6)

    Part ECAD Model Manufacturer Description Curated Datasheet Type PDF
    Si6801DQ Unknown Metal oxide N/P-channel field effect transistor enh. Original PDF
    Si6801DQ Toshiba Power MOSFETs Cross Reference Guide Original PDF
    Si6801DQ Vishay Intertechnology N- and P-Channel, Reduced Qg , Fast Switching MOSFET Original PDF
    SI6801DQ-DS Vishay Telefunken DS-Spice Model for Si6801DQ Original PDF
    Si6801DQ SPICE Device Model Vishay N- and P-Channel Dual Enhancement-Mode MOSFET Original PDF
    SI6801DQ-T1 Vishay Intertechnology N- and P-Channel, Reduced Qg , Fast Switching MOSFET Original PDF

    SI6801DQ Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    Si6801DQ

    Abstract: No abstract text available
    Text: Si6801DQ Dual Enhancement-Mode MOSFET N- and P-Channel Product Summary VDS (V) N-Channel 20 P-Channel –20 rDS(on) (W) ID (A) 0.160 @ VGS = 4.5 V "1.9 0.260 @ VGS = 3.0 V "1.5 0.190 @ VGS = –4.5 V "1.7 0.280 @ VGS = –3.0 V "1.3 D1 S2 TSSOP-8 D1 S1 S1


    Original     		PDF Si6801DQ S-47967--Rev. 22-Jul-96

    Si6801DQ

    Abstract: No abstract text available
    Text: Si6801DQ Dual Enhancement-Mode MOSFET N- and P-Channel Product Summary VDS (V) N-Channel 20 P-Channel –20 rDS(on) (W) ID (A) 0.160 @ VGS = 4.5 V "1.9 0.260 @ VGS = 3.0 V "1.5 0.190 @ VGS = –4.5 V "1.7 0.280 @ VGS = –3.0 V "1.3 D1 S2 TSSOP-8 D1 S1 S1


    Original     		PDF Si6801DQ S-47967--Rev. 22-Jul-96

    Si6801DQ

    Abstract: No abstract text available
    Text: Si6801DQ Dual N- and P-Channel, Reduced Qg, Fast Switching MOSFET Product Summary VDS V N-Channel 20 P-Channel –20 rDS(on) (W) ID (A) 0.160 @ VGS = 4.5 V "1.9 0.260 @ VGS = 3.0 V "1.5 0.190 @ VGS = –4.5 V "1.7 0.280 @ VGS = –3.0 V "1.3 D1 S2 TSSOP-8


    Original     		PDF Si6801DQ S-49520--Rev. 18-Dec-96

    Untitled

    Abstract: No abstract text available
    Text: Si6801DQ Vishay Siliconix N- and P-Channel, Reduced Qg, Fast Switching MOSFET PRODUCT SUMMARY VDS V N-Channel 20 P-Channel –20 rDS(on) (W) ID (A) 0.160 @ VGS = 4.5 V "1.9 0.260 @ VGS = 3.0 V "1.5 0.190 @ VGS = –4.5 V "1.7 0.280 @ VGS = –3.0 V "1.3


    Original     		PDF Si6801DQ 08-Apr-05

    Si6801DQ

    Abstract: No abstract text available
    Text: Si6801DQ Vishay Siliconix N- and P-Channel, Reduced Qg, Fast Switching MOSFET PRODUCT SUMMARY VDS V N-Channel 20 P-Channel –20 rDS(on) (W) ID (A) 0.160 @ VGS = 4.5 V "1.9 0.260 @ VGS = 3.0 V "1.5 0.190 @ VGS = –4.5 V "1.7 0.280 @ VGS = –3.0 V "1.3


    Original     		PDF Si6801DQ S-56944--Rev. 23-Nov-98

    Si6801DQ

    Abstract: No abstract text available
    Text: Click Here & Upgrade PDF Complete Expanded Features Unlimited Pages Documents SPICE Device Model Si6801DQ Vishay Siliconix N- and P-Channel Dual Enhancement-Mode MOSFET CHARACTERISTICS • N- and P-Channel Vertical DMOS • Macro Model Subcircuit Model • Level 3 MOS


    Original     		PDF Si6801DQ 22-May-04

    Si6801DQ

    Abstract: No abstract text available
    Text: SPICE Device Model Si6801DQ Vishay Siliconix N- and P-Channel Dual Enhancement-Mode MOSFET CHARACTERISTICS • N- and P-Channel Vertical DMOS • Macro Model Subcircuit Model • Level 3 MOS • Apply for both Linear and Switching Application • Accurate over the −55 to 125°C Temperature Range


    Original     		PDF Si6801DQ 25-Feb-99

    Si6801DQ

    Abstract: 70187
    Text: Si6801DQ Vishay Siliconix N- and P-Channel, Reduced Qg, Fast Switching MOSFET PRODUCT SUMMARY VDS V N-Channel 20 P-Channel –20 rDS(on) (W) ID (A) 0.160 @ VGS = 4.5 V "1.9 0.260 @ VGS = 3.0 V "1.5 0.190 @ VGS = –4.5 V "1.7 0.280 @ VGS = –3.0 V "1.3


    Original     		PDF Si6801DQ 18-Jul-08 70187

    LTDB msop

    Abstract: LTC1622 1N4818 d03316-472 ltdb MBRS120LT3 IR10BQ015 LTC1622CMS8 LTC1622CS8 LTC1622IS8
    Text: LTC1622 Low Input Voltage Current Mode Step-Down DC/DC Controller U FEATURES • ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ DESCRIPTIO High Efficiency Constant Frequency 550kHz Operation VIN Range: 2V to 10V Multiampere Output Currents OPTI-LOOPTM Compensation Minimizes COUT


    Original     		PDF LTC1622 550kHz 750kHz LTC1627/LTC1707 LTC1628 LTC1772 OT-23 OT-23, 550kHz LTC1735 LTDB msop LTC1622 1N4818 d03316-472 ltdb MBRS120LT3 IR10BQ015 LTC1622CMS8 LTC1622CS8 LTC1622IS8

    ltdb

    Abstract: No abstract text available
    Text: LTC1622 Low Input Voltage Current Mode Step-Down DC/DC Controller FEATURES • ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ U ■ DESCRIPTIO High Efficiency Constant Frequency 550kHz Operation VIN Range: 2V to 10V Multiampere Output Currents OPTI-LOOPTM Compensation Minimizes COUT


    Original     		PDF LTC1622 550kHz 750kHz LTC1627/LTC1707 LTC1628 LTC1772 OT-23 OT-23, 550kHz LTC1735 ltdb

    6542

    Abstract: AN805 LS4148 Si6542DQ Si6552DQ Si6801DQ Si9160 si9145 siliconix an805
    Text: AN805 PWM Optimized Power MOSFETs for Low-Voltage DC/DC Conversion Andrew Cowell Designers of low-voltage dc-to-dc converters have two main concerns: reducing size and reducing losses. As a way of reducing size, designers are increasing switching frequencies. But the result has been reduced converter


    Original     		PDF AN805 6542 AN805 LS4148 Si6542DQ Si6552DQ Si6801DQ Si9160 si9145 siliconix an805

    mosfet cross reference

    Abstract: SMP40N06 SMP75N06-08 SI9952DY SMP60N03-10L IRFZ44 TO-263 Si9948DY irf1010e equivalent IRLL014N NDT3055L
    Text: Discrete POWER & Signal Technologies MOSFET Cross Reference Guide Industry Recommended Part Number Fairchild Device Package Industry Recommended Part Number Fairchild Device 2N7000 2N7000 TO-92, N IRF7203 FDS9435A 2N7002 2N7002 SOT-23, N IRF7204 NDS8434A SO-8, P


    Original     		PDF 2N7000 IRF7203 FDS9435A 2N7002 OT-23, IRF7204 NDS8434A BS170 mosfet cross reference SMP40N06 SMP75N06-08 SI9952DY SMP60N03-10L IRFZ44 TO-263 Si9948DY irf1010e equivalent IRLL014N NDT3055L

    IR10BQ015

    Abstract: LTC1622 LTC1622CMS8 LTC1622CS8 LTC1622IS8 Si3443DV 6TPA47M LTDB msop MBR320T3 SANYO SS 1001
    Text: LTC1622 Low Input Voltage Current Mode Step-Down DC/DC Controller U FEATURES • ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ DESCRIPTIO High Efficiency Constant Frequency 550kHz Operation VIN Range: 2V to 10V Multiampere Output Currents OPTI-LOOPTM Compensation Minimizes COUT


    Original     		PDF LTC1622 550kHz 750kHz LTC1627/LTC1707 LTC1628 LTC1772 OT-23 OT-23, 550kHz LTC1735 IR10BQ015 LTC1622 LTC1622CMS8 LTC1622CS8 LTC1622IS8 Si3443DV 6TPA47M LTDB msop MBR320T3 SANYO SS 1001

    Loop Compensation Voltage-Mode Buck Converters ma

    Abstract: AN726 small, high-boost converters AN710 AN715 Si6801DQ Si6803DQ Si9165 Si9166 charge balance converter
    Text: AN726 Vishay Siliconix AN726 Design High Frequency, Higher Power Converters With Si9166 by Kin Shum INTRODUCTION The Si9166 is a controller IC designed for dc-to-dc conversion applications with 2.7-V to 6-V input voltage. Like its sister device, the Si9165, the Si9166 provides operation with high


    Original     		PDF AN726 Si9166 Si9166 Si9165, Si9165 Loop Compensation Voltage-Mode Buck Converters ma AN726 small, high-boost converters AN710 AN715 Si6801DQ Si6803DQ charge balance converter

    Siliconix

    Abstract: Siliconix mosfet guide siliconix VN10KM Power MOSFET Cross Reference Guide FDC6323L fdn5618p 2n7002 siliconix BS170 equivalent of BS170 VN10KM equivalent
    Text: Analog Discrete Interface & Logic Optoelectronics MOSFET Small Package Cross Reference 2003 Across the board. Around the world. MOSFET Small Package Cross Reference Guide Competitor Part Number 2N7000 2N7002 2N7002E 2N7002K 2SJ574 2SK3240 BS170 BSH108 BSS123


    Original     		PDF 2N7000 2N7002 2N7002E 2N7002K 2SJ574 2SK3240 BS170 BSH108 BSS123 BSS138 Siliconix Siliconix mosfet guide siliconix VN10KM Power MOSFET Cross Reference Guide FDC6323L fdn5618p 2n7002 siliconix BS170 equivalent of BS170 VN10KM equivalent

    YTA630

    Abstract: MTW14P20 BSS125 MTAJ30N06HD 2SK2837 equivalent SMU10P05 SMP60N06 replacement STE180N10 RFH75N05E IRFD620
    Text: Power MOSFETs Cross Reference Alphanumerically Part Number VDSS V RDS(ON) (ohm) ID (A) PD (W) Package 2N7000 2N7002 2SJ377 2SJ378 2SJ380 2SJ401 2SJ402 2SJ407 2SJ412 2SJ419 2SJ420 2SJ421 2SJ438 2SJ439 2SJ464 2SJ465 2SJ468 2SJ469 2SJ482 2SJ507 2SJ508 2SJ509


    Original     		PDF 2N7000 2N7002 2SJ377 2SJ378 2SJ380 2SJ401 2SJ402 2SJ407 2SJ412 2SJ419 YTA630 MTW14P20 BSS125 MTAJ30N06HD 2SK2837 equivalent SMU10P05 SMP60N06 replacement STE180N10 RFH75N05E IRFD620

    op-amp- 356

    Abstract: AN731 IHLP2525 LM358 LM358D MBR0520T1 Si6801DQ Si9165 Si9166 Si9169
    Text: AN731 Vishay Siliconix Simple Solution for Dynamically Programming the Output Voltage of DC-DC Converters INTRODUCTION Figure 1 shows a typical dc-to-dc converter configuration. As in many PWM controllers, the non-inverting input of the voltage feedback error amplifier is internally connected to the


    Original     		PDF AN731 Si9166 28-Jan-00 op-amp- 356 AN731 IHLP2525 LM358 LM358D MBR0520T1 Si6801DQ Si9165 Si9169

    MF CAPACITOR

    Abstract: MBR0520T1 10 mf capacitor IHLP2525 36 MF CAPACITOR MOSFET 1 KW VJ0805105KXXAT SIP 9 JP1 CRCW08051000FRT1 mf mosfet
    Text: Si9166DB Vishay Siliconix Si9166 Demonstration Board FEATURES D Voltage Mode Control D 2.7- to 6-V Input Voltage Rang for VDD and VS D Programmable PWM/PSM Control D Up to 2-MHz Switching Frequency in PWM D D D D D Synchronous Rectification in PWM D Less Than 200-mA IDD in PSM


    Original     		PDF Si9166DB Si9166 200-mA Si9165 VJ0805470KXXAT MBR0520T1 OD-123 IHLP2525 MF CAPACITOR MBR0520T1 10 mf capacitor IHLP2525 36 MF CAPACITOR MOSFET 1 KW VJ0805105KXXAT SIP 9 JP1 CRCW08051000FRT1 mf mosfet

    70649

    Abstract: analysis of PWM converters using model of PWM switch AN805 LS4148 Si6542DQ Si6552DQ Si6801DQ Si9160
    Text: AN805 Vishay Siliconix PWM Optimized Power MOSFETs for Low-Voltage DC/DC Conversion Designers of low-voltage dc-to-dc converters have two main concerns: reducing size and reducing losses. As a way of reducing size, designers are increasing switching frequencies. But the result


    Original     		PDF AN805 70649 analysis of PWM converters using model of PWM switch AN805 LS4148 Si6542DQ Si6552DQ Si6801DQ Si9160

    TEMIC K153P

    Abstract: TSHF5471 tfmw5380 dn1328 tdsr5156 dn904 TDSR5153 HS0038 IR sensor TLVD4900 TCDF1910
    Text: Quality and Reliability Report 1997 TEMIC Semiconductors 07.97 Table of Contents TEMIC Quality Policy .1 Quality System .2


    Original     		PDF WN1053 WN1087-18R WN1087-TR1 WN1090 WN1125 WN1142 WN1158-TA WN1165-TR1 WN1170 WN934 TEMIC K153P TSHF5471 tfmw5380 dn1328 tdsr5156 dn904 TDSR5153 HS0038 IR sensor TLVD4900 TCDF1910

    Si9169

    Abstract: AN731 IHLP2525 LM358 LM358D MBR0520T1 Si6801DQ Si9165 Si9166 AN73-1
    Text: AN731 Vishay Siliconix Simple Solution for Dynamically Programming the Output Voltage of DC-DC Converters INTRODUCTION Figure 1 shows a typical dc-to-dc converter configuration. As in many PWM controllers, the non-inverting input of the voltage feedback error amplifier is internally connected to the


    Original     		PDF AN731 18-Jul-08 Si9169 AN731 IHLP2525 LM358 LM358D MBR0520T1 Si6801DQ Si9165 Si9166 AN73-1

    MBR0520T1

    Abstract: IHLP2525 Si9165 Si9166 Si9166DB Si9166DB-K Si9166DB-S TSSOP-16 Dual N P-Channel
    Text: Si9166DB Vishay Siliconix Si9166DB Si9166 Demonstration Board FEATURES • Voltage Mode Control • 2.7- to 6-V Input Voltage Rang for VDD and VS • Programmable PWM/PSM Control • Up to 2-MHz Switching Frequency in PWM • • • • Synchronous Rectification in PWM


    Original     		PDF Si9166DB Si9166 Si9165 MBR0520T1 OD-123 IHLP2525 Si9166 TSSOP-16 MBR0520T1 IHLP2525 Si9166DB-K Si9166DB-S TSSOP-16 Dual N P-Channel

    80 Hz crossover

    Abstract: parallel mosfet N-channel Power MOSFET MOSFET SWITCHING FREQUENCY single HIGH SPEED POWER MOSFET 1000 watt buck converter scheme 6542 analysis of PWM converters using model of PWM switch Cross Reference power MOSFET MOSFET NOTEBOOK
    Text: AN805 PWM Optimized Power MOSFETs for Low-Voltage DC/DC Conversion Andrew Cowell Designers of low-voltage dc-to-dc converters have two main concerns: reducing size and reducing losses. As a way of reducing size, designers are increasing switching frequencies. But the result has been reduced converter


    Original     		PDF AN805 80 Hz crossover parallel mosfet N-channel Power MOSFET MOSFET SWITCHING FREQUENCY single HIGH SPEED POWER MOSFET 1000 watt buck converter scheme 6542 analysis of PWM converters using model of PWM switch Cross Reference power MOSFET MOSFET NOTEBOOK

    LM358

    Abstract: op-amp- 356 MBR0520T1 AN731 IHLP2525 LM358D Si6801DQ Si9165 Si9166 Si9169
    Text: AN731 Vishay Siliconix Simple Solution for Dynamically Programming the Output Voltage of DC-DC Converters INTRODUCTION Figure 1 shows a typical dc-to-dc converter configuration. As in many PWM controllers, the non-inverting input of the voltage feedback error amplifier is internally connected to the


    Original     		PDF AN731 08-Apr-05 LM358 op-amp- 356 MBR0520T1 AN731 IHLP2525 LM358D Si6801DQ Si9165 Si9166 Si9169