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    TRANSISTOR R5 3PIN Search Results

    TRANSISTOR R5 3PIN Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    2SC6026MFV Toshiba Electronic Devices & Storage Corporation NPN Bipolar Transistor / VCEO=50 V / IC=0.15 A / hFE=120~400 / VCE(sat)=0.25 V / SOT-723 Visit Toshiba Electronic Devices & Storage Corporation
    TTC5886A Toshiba Electronic Devices & Storage Corporation NPN Bipolar Transistor / VCEO=50 V / IC=5 A / hFE=400~1000 / VCE(sat)=0.22 V / tf=120 ns / New PW-Mold Visit Toshiba Electronic Devices & Storage Corporation
    TTA2097 Toshiba Electronic Devices & Storage Corporation PNP Bipolar Transistor / VCEO=-50 V / IC=-5 A / hFE=200~500 / VCE(sat)=-0.27 V / tf=60 ns / New PW-Mold Visit Toshiba Electronic Devices & Storage Corporation
    TTC022 Toshiba Electronic Devices & Storage Corporation NPN Bipolar Transistor / VCEO=12 V / IC=5 A / hFE=250~500 / VCE(sat)=0.14 V / tf=50 ns / PW-Mini Visit Toshiba Electronic Devices & Storage Corporation
    TTC020 Toshiba Electronic Devices & Storage Corporation NPN Bipolar Transistor / VCEO=80 V / IC=4 A / hFE=100~200 / VCE(sat)=0.17 V / tf=70 ns / PW-Mini Visit Toshiba Electronic Devices & Storage Corporation

    TRANSISTOR R5 3PIN Datasheets Context Search

    Catalog Datasheet Type Document Tags PDF

    T1 BC558

    Abstract: max8091 t1,t2 BC548 2N3904 AT90S1200 AT90S4414 AT90S8515 BC548 BC558 BC848
    Text: AVR180: External Brown-Out Protection Features Theory of Operation • Low-Voltage Detector • Prevent Register and EEPROM For the CPU to successfully decode and execute instructions, the supplied voltage must always stay above the minimum voltage level set by the chosen


    Original     		AVR180: 10/98/xM T1 BC558 max8091 t1,t2 BC548 2N3904 AT90S1200 AT90S4414 AT90S8515 BC548 BC558 BC848 PDF

    AVR180: External Brown-Out Protection

    Abstract: T1 BC558 t1,t2 BC548 AVR180 AT90S1200 AT90S4414 AT90S8515 MAX809 MAX811 BC558 transistor
    Text: AVR180: External Brown-out Protection Features • • • • • • • • Low-voltage Detector Prevent Register and EEPROM Corruption Two Discrete Solutions Integrated IC Solution Extreme Low-cost Solution Extreme Low-power Solution Formulas for Component Value Calculations


    Original     		AVR180: 1051B AVR180: External Brown-Out Protection T1 BC558 t1,t2 BC548 AVR180 AT90S1200 AT90S4414 AT90S8515 MAX809 MAX811 BC558 transistor PDF

    t1,t2 BC548

    Abstract: tBC558 AT90S1200 AT90S4414 AT90S8515 MAX809 MAX811 transistor bc548 bp T1 BC558 T1 BC558 TRANSISTOR
    Text: AVR180: External Brown-out Protection Features • • • • • • • • Low-voltage Detector Prevent Register and EEPROM Corruption Two Discrete Solutions Integrated IC Solution Extreme Low-cost Solution Extreme Low-power Solution Formulas for Component Value Calculations


    Original     		AVR180: 1051B t1,t2 BC548 tBC558 AT90S1200 AT90S4414 AT90S8515 MAX809 MAX811 transistor bc548 bp T1 BC558 T1 BC558 TRANSISTOR PDF

    External Brown-out Protection for C51 Microcontrollers with Active High Reset Input

    Abstract: t1,t2 BC548 BC548 Texas Instruments MC7805 applications Texas instruments BC558 bc888 80C51 MANUAL 80C51 MCUs LM1086-3.3 T1 BC548
    Text: External Brown-out Protection for C51 Microcontrollers with Active High Reset Input Features • • • • • • • Low-voltage Detector Prevents Register and EEPROM/Flash Corruption One Discrete Solution Integrated IC Solution Low-power/Low-cost Solution


    Original     		80C51 External Brown-out Protection for C51 Microcontrollers with Active High Reset Input t1,t2 BC548 BC548 Texas Instruments MC7805 applications Texas instruments BC558 bc888 80C51 MANUAL 80C51 MCUs LM1086-3.3 T1 BC548 PDF

    SONY APS 252 power supply

    Abstract: 8 pin ic 9435A SONY APS 283 SONY APS 252 IRF 9460 SONY APS 254 SONY APS 283 power supply transformer 18-0-18 step down transformer 12-0-12 MPSA06 fairchild transistor
    Text: Power−Supply Cookbook Maxim Power Supply Cookbook Compiled: November 2010 Available at: http://www.maxim−ic.com/cookbook/ Maxim has developed power supplies for a wide range of applications. Choose the specifications that most closely meet your needs. Then view a circuit design, complete with schematic diagram and


    Original     		CDRH6D28-100 MAX1701 100uF 100pF 560pF NDC632P QS03L 220uF SONY APS 252 power supply 8 pin ic 9435A SONY APS 283 SONY APS 252 IRF 9460 SONY APS 254 SONY APS 283 power supply transformer 18-0-18 step down transformer 12-0-12 MPSA06 fairchild transistor PDF

    1206LF

    Abstract: GRM188R71H104K MAX16823 MJD31CTF
    Text: 19-0772; Rev 0; 3/07 MAX16823 Evaluation Kit The MAX16823 evaluation kit EV kit circuit demonstrates a current-controlled LED driver that uses the MAX16823 current regulator. The EV kit is configured to supply 50mA to each of the three output channels and


    Original     		MAX16823 550mA MAX16823 1206LF GRM188R71H104K MJD31CTF PDF

    RMC 2 pin jumpers

    Abstract: shunt R010 C1608X7R1H472KT C1608C0G1H470JT 1206-01 C2012X5R1A225K C3216X7R1E105K GMK325F106ZH JMK316BJ106ML JMK325BJ476MM
    Text: 19-3253; Rev 0; 4/04 MAX8513 Evaluation Kit Features ♦ Input Voltages 9V to 16V ♦ Output Voltages 3.3V Output at 2A Step-Down DC-DC Converter 2.5V Output at 1.5A (First LDO Regulator) 12V Output at 0.100A (Second LDO Regulator) ♦ Adjustable Outputs


    Original     		MAX8513 MAX8513EVKIT MAX8513 RMC 2 pin jumpers shunt R010 C1608X7R1H472KT C1608C0G1H470JT 1206-01 C2012X5R1A225K C3216X7R1E105K GMK325F106ZH JMK316BJ106ML JMK325BJ476MM PDF

    TMP37GT9Z

    Abstract: Tmp36
    Text: Low Voltage Temperature Sensors TMP35/TMP36/TMP37 Environmental control systems Thermal protection Industrial process control Fire alarms Power system monitors CPU thermal management GENERAL DESCRIPTION The TMP35/TMP36/TMP37 are low voltage, precision centigrade temperature sensors. They provide a voltage output that


    Original     		TMP35/TMP36/TMP37 TMP35/TMP36/TMP37 TMP35/ TMP36/TMP37 D00337-0-11/10 TMP37GT9Z Tmp36 PDF

    ADW75001Z-0REEL7

    Abstract: 3-pin IR sensor proximity TMP35GRTZ-REEL7 TMP37FT9Z LM50 TMP35 TMP36 TMP37 T6G SOT23-5 General Electric scr SOT-23
    Text: Low Voltage Temperature Sensors TMP35/TMP36/TMP37 Environmental control systems Thermal protection Industrial process control Fire alarms Power system monitors CPU thermal management GENERAL DESCRIPTION The TMP35/TMP36/TMP37 are low voltage, precision centigrade temperature sensors. They provide a voltage output that


    Original     		TMP35/TMP36/TMP37 TMP35/TMP36/TMP37 TMP35/ TMP36/TMP37 D00337-0-11/10 ADW75001Z-0REEL7 3-pin IR sensor proximity TMP35GRTZ-REEL7 TMP37FT9Z LM50 TMP35 TMP36 TMP37 T6G SOT23-5 General Electric scr SOT-23 PDF

    3-pin IR sensor proximity

    Abstract: LM35 cold junction circuits with 3pin ae sensor PIN CONFIGURATION AD654 so lm35 alumel fire sensor LM35 TMP36GRTZ T7G SOT23-5 TMP36GRTZ-REEL7 LM50
    Text: Low Voltage Temperature Sensors TMP35/TMP36/TMP37 Environmental control systems Thermal protection Industrial process control Fire alarms Power system monitors CPU thermal management GENERAL DESCRIPTION The TMP35/TMP36/TMP37 are low voltage, precision centigrade temperature sensors. They provide a voltage output that


    Original     		TMP35/TMP36/TMP37 TMP35/TMP36/TMP37 TMP35/ TMP36/TMP37 D00337-0-8/08 3-pin IR sensor proximity LM35 cold junction circuits with 3pin ae sensor PIN CONFIGURATION AD654 so lm35 alumel fire sensor LM35 TMP36GRTZ T7G SOT23-5 TMP36GRTZ-REEL7 LM50 PDF

    3-pin IR sensor proximity

    Abstract: LM50 TMP35 TMP36 TMP37 fire sensor LM35 2n2907 SOT23 TMP35 Cold-Junction Compensation MO-178
    Text: Low Voltage Temperature Sensors TMP35/TMP36/TMP37 Environmental control systems Thermal protection Industrial process control Fire alarms Power system monitors CPU thermal management GENERAL DESCRIPTION The TMP35/TMP36/TMP37 are low voltage, precision centigrade temperature sensors. They provide a voltage output that


    Original     		TMP35/TMP36/TMP37 TMP35/TMP36/TMP37 TMP35/ TMP36/TMP37 D00337-0-8/08 3-pin IR sensor proximity LM50 TMP35 TMP36 TMP37 fire sensor LM35 2n2907 SOT23 TMP35 Cold-Junction Compensation MO-178 PDF

    BFR93A E

    Abstract: BFR93AR-T3 R5 SOT transistor BFR93A transistor npn Epitaxial Silicon zs 35 300MHZ 800MHZ BFR93A BFR93AR BFR93AR-T1
    Text: PLANETA BFR93A/BFR93AR The RF Line NPN Silicon High-Frequency Transistor 1 3 DESCRIPTION The BFR93A/BFR93AR is an NPN silicon epitaxial transistor designed for low noise amplifier at VHF, UHF and CATV band. It has dynamic range and good current characteristic.


    Original     		BFR93A/BFR93AR BFR93A/BFR93AR BFR93A BFR93AR O-236 SC-59 BFR93A 15max 46max BFR93A E BFR93AR-T3 R5 SOT transistor BFR93A transistor npn Epitaxial Silicon zs 35 300MHZ 800MHZ BFR93AR BFR93AR-T1 PDF

    2N2222A TO-92

    Abstract: RL201054 12V FAN CONTROL BY USING THERMISTOR 2n2222a to 92 MIC502 TP4A 2N2222A TO-92 npn 5V FAN CONTROL BY USING THERMISTOR 1K-138-D1 2N2222
    Text: MIC502 Evaluation Board Micrel MIC502 Evaluation Board Fan Management IC The evaluation/demonstration board schematic is shown in Figure 3. The demonstration portion of this board consists of header J2 and those components to its right. The board is designed so it can be cut in two immediately to the left of this


    Original     		MIC502 preferreIC502 2N2222A TO-92 RL201054 12V FAN CONTROL BY USING THERMISTOR 2n2222a to 92 TP4A 2N2222A TO-92 npn 5V FAN CONTROL BY USING THERMISTOR 1K-138-D1 2N2222 PDF

    MMBT4148

    Abstract: SANYO 16AQU10M MMBT4148SE step-up switching 3A 16AQU10M MAX1513 MAX1513EVKIT MAX1514 MAX1514ETP JMK212BJ106MG
    Text: 19-3525; Rev 0; 11/04 MAX1513 Evaluation Kit The MAX1513 evaluation kit EV kit is a fully assembled and tested surface-mount circuit board that provides voltages and features required for active-matrix, thinfilm transistor (TFT), liquid-crystal displays. The EV kit


    Original     		MAX1513 500mA MAX1513/MAX1514 MMBT4148 SANYO 16AQU10M MMBT4148SE step-up switching 3A 16AQU10M MAX1513EVKIT MAX1514 MAX1514ETP JMK212BJ106MG PDF

    scr pulse battery charger schematic

    Abstract: trickle battery charger circuit using scr SCR trickle charger circuit 232264063103 motorola 3507 transistor P8008 scr phase control battery charger Keystone RL0703-5744-103-S1 keystone carbon thermistor scr 917-7
    Text: U-507 Using the bq2005 to Control Fast Charge To help ensure safety for the battery and system, fast charging may also be terminated at a high-temperature cutoff threshold TCO , a safety time period, or a maximum cell voltage threshold (MCV). To avoid possible


    Original     		U-507 bq2005 bq2005 scr pulse battery charger schematic trickle battery charger circuit using scr SCR trickle charger circuit 232264063103 motorola 3507 transistor P8008 scr phase control battery charger Keystone RL0703-5744-103-S1 keystone carbon thermistor scr 917-7 PDF

    LTC4060

    Abstract: 0805-NS E1-E13 LC1451C LED-LN1351C CR05-1R0JM 2501 4pin vishay 10w resistor LTC4060EFE MBRM120LT3
    Text: QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 783 NIMH/NICD CHARGER LTC4060 DESCRIPTION Demonstration circuit 783 is a complete Fast Battery Charger capable of charging 1, 2, 3 or 4 series connected NiMH or NiCd cells. Charge termination includes - V, peak voltage and a safety timer. Included


    Original     		LTC4060 transisto25C151KAT1A 04025C471KAT1A 04025C122KAT1A 04025C272KAT1A 04025C221KAT1A B220A MBRM120LT3 2802S-03-G1 2802S-04-G1 LTC4060 0805-NS E1-E13 LC1451C LED-LN1351C CR05-1R0JM 2501 4pin vishay 10w resistor LTC4060EFE MBRM120LT3 PDF

    scr pulse battery charger schematic

    Abstract: trickle battery charger circuit using scr P8008 BD-146 SCR trickle charger circuit CH 4656 Battery Charger 9618 motorola BD146 T106A1 FG-46
    Text: Using the bq2005 to Control Fast Charge To help ensure safety for the battery and system, fast charging may also be terminated at a high-temperature cutoff threshold TCO , a safety time period, or a maximum cell voltage threshold (MCV). To avoid possible premature fast-charge termination when


    Original     		bq2005 bq2005 scr pulse battery charger schematic trickle battery charger circuit using scr P8008 BD-146 SCR trickle charger circuit CH 4656 Battery Charger 9618 motorola BD146 T106A1 FG-46 PDF

    liteon transformer

    Abstract: liteon transformer 130 slb2045 2N4403 NPN Transistor liteon, transformer Capacitor 24 0.25 uF vishay CRCW0805000JRT1 liteon transformer tb-130 resistor cross reference vishay 15 amp schottky diode cross reference
    Text: Si9118/9119DB Vishay Siliconix Si9118/9119DB Si9118/9119 Demonstration Board FEATURES • • • • • • • • Fixed Telecom Input Voltage Range: 36 V to 72 V 5-V Output Voltage, 5-A Max. Total 25-W Continuous Power High Efficiency 500-kHz Switching Frequency


    Original     		Si9118/9119DB Si9118/9119 500-kHz Si9422DY EEU-EB2C101S 6SA150M SLB2045PT O-220AB WSR2-R150F liteon transformer liteon transformer 130 slb2045 2N4403 NPN Transistor liteon, transformer Capacitor 24 0.25 uF vishay CRCW0805000JRT1 liteon transformer tb-130 resistor cross reference vishay 15 amp schottky diode cross reference PDF

    TRANSISTOR TIP42

    Abstract: CAPACITOR TANTALUM 4.7UF 35V 47uf, 35v electrolytic capacitor EC10DS10 35CV4.7GX 35CV22GX EC10DS1 li-ion MAX846A MAX846AEEE
    Text: 19-1154; Rev 0; 10/96 MAX846A Evaluation Kit The MAX846A evaluation kit EV kit is a stand-alone charger for lithium-ion (Li-Ion) batteries. The charging regulator consists of voltage and current loops driving an external, low-cost, PNP pass transistor. In voltageregulation mode, a current-to-voltage converter supplies


    Original     		MAX846A 800mA MAX846A TRANSISTOR TIP42 CAPACITOR TANTALUM 4.7UF 35V 47uf, 35v electrolytic capacitor EC10DS10 35CV4.7GX 35CV22GX EC10DS1 li-ion MAX846AEEE PDF

    2N3904 smd

    Abstract: MARKING SMD transistor R11 transistor smd marking code c3 2N3904 TRANSISTOR SMD TRANSISTOR SMD MARKING CODE R8 TRANSISTOR SMD MARKING CODE 1K SMD MARKING CODE TRANSISTOR R5
    Text: DAEV6240.004 23 March, 2012 MAS6240 EVALUATION BOARD INTRODUCTION The MAS6240 piezo driver IC evaluation board supports the MAS6240C2 piezo driver IC in the QFN package. This device version has the input current limitation disabled. The MAS6240C1 version, having


    Original     		DAEV6240 MAS6240 MAS6240C2 MAS6240C1 2N3904 smd MARKING SMD transistor R11 transistor smd marking code c3 2N3904 TRANSISTOR SMD TRANSISTOR SMD MARKING CODE R8 TRANSISTOR SMD MARKING CODE 1K SMD MARKING CODE TRANSISTOR R5 PDF

    npn power transistor 100v list

    Abstract: 1N4148 SOT-23 DV3917 SOT23 N FET 100V 5.6V DIODE ZENER 1N Samsung s5 schematic zener 6v, 1w 1n4148 sot C2N SOT-23 1N4148
    Text: DN-110 Design Note DV3917 Positive Floating HSPM By Ed Jung Introduction Connectors The DV3917 evaluation board allows the designer to evaluate the performance of the UCC3917 Hot Swap Power Manager HSPM in a typical application setting. Component selection for the DV3917 is


    Original     		DN-110 DV3917 UCC3917 ECJ2YB1C224K 219-4MST 1101M2S3AQE2 npn power transistor 100v list 1N4148 SOT-23 SOT23 N FET 100V 5.6V DIODE ZENER 1N Samsung s5 schematic zener 6v, 1w 1n4148 sot C2N SOT-23 1N4148 PDF

    980kHz

    Abstract: BAT54S EMK107BJ104KA MAX1747 MAX1747EUP MAX1747EVKIT UMK107BJ152KZ Step-up 12V to 36V UMK107bj
    Text: 19-1871; Rev 0; 12/00 MAX1747 Evaluation Kit Features ♦ Low-Profile Solution, 1.1mm max Height The low-current negative charge-pump circuit is configured for a -7V output; the low-current positive chargepump circuit is configured for a +12V output. Both circuits provide up to 20mA of current. The high-current


    Original     		MAX1747 23MHz 200mA MAX1747 980kHz BAT54S EMK107BJ104KA MAX1747EUP MAX1747EVKIT UMK107BJ152KZ Step-up 12V to 36V UMK107bj PDF

    MAX1889

    Abstract: C1608X7R1H103K JMK212BJ335MG MAX1889EVKIT UMK212BJ104KG
    Text: 19-2518; Rev 2; 9/02 MAX1889 Evaluation Kit The positive charge-pump and linear regulator are configured for a 20V output using two charge-pump stages providing up to 10mA. The negative charge pump and linear regulator are configured for a -7V output using a single


    Original     		MAX1889 C1608X7R1H103K JMK212BJ335MG MAX1889EVKIT UMK212BJ104KG PDF

    ps2 power supply

    Abstract: 47k preset variable resistor TDS3014 GRM1885C1H222K GRM188R71C104K MAX6643 MAX6643LBBAEE MAX6643LBEVKIT MAX6644 NDS351AN
    Text: 19-3642; Rev 0; 04/05 MAX6643LB Evaluation Kit The MAX6643LB evaluation kit EV kit is a fully assembled and tested surface-mount circuit board that demonstrates the operation of the MAX6643LB fan controller. The MAX6643LB monitors its internal temperature and


    Original     		MAX6643LB MAX6643/MAX6644 ps2 power supply 47k preset variable resistor TDS3014 GRM1885C1H222K GRM188R71C104K MAX6643 MAX6643LBBAEE MAX6643LBEVKIT MAX6644 NDS351AN PDF