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LM431ACZ/LFT4 Texas Instruments Adjustable Precision Zener Shunt Regulator 3-TO-92 visit Texas Instruments
LM431ACZ/LFT3 Texas Instruments Adjustable Precision Zener Shunt Regulator 3-TO-92 visit Texas Instruments
LM431AIZ/LFT1 Texas Instruments Adjustable Precision Zener Shunt Regulator 3-TO-92 visit Texas Instruments
LM431CIZ/LFT1 Texas Instruments Adjustable Precision Zener Shunt Regulator 3-TO-92 visit Texas Instruments
ISL99135BDRZ-T Intersil Corporation 35A DrMOS Module with Diode Emulation and PS4; QFN24; Temp Range: 0° to 70° visit Intersil
ISL99125BDRZ-T Intersil Corporation 25A DrMOS Module with Diode Emulation and PS4; QFN24; Temp Range: 0° to 70° visit Intersil

zener diode c5

Catalog Datasheet MFG & Type PDF Document Tags

diode UF 2010

Abstract: =5.6V Zener Diode C5=1 µF C4=100pF L1=33 nH R1=2.4 kâ"¦ C1=68 pF RF IN C2=68 pF RF OUT , D1=5.6V Zener Diode C5=1 µF C4=100pF L1=33 nH R1=2.4 kâ"¦ C1=68 pF RF IN C2=68 pF , (FR4, 40x40 mm2, 0.8T) Schematic Vcc=3.3 V D1=5.6V Zener Diode C5=1 µF C4=100pF L1=22 nH , ) Schematic Vcc=3.3 V D1=5.6V Zener Diode C5=1 µF C4=100pF L1=27 nH R1=2.4 kâ"¦ C1=52 pF RF IN , (FR4, 40x40 mm2, 0.8T) Schematic Vcc=3.3 V D1=5.6V Zener Diode C5=1 µF C4=100pF L1=33 nH
Advanced Semiconductor Business
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Abstract: in OIP3 and P1dB. D1=5.6V Zener Diode C5=10 nF C4=100 pF L1=82 nH C1=100 pF L2=8.2 nH , P1dB. D1=5.6V Zener Diode C5=10 nF C4=100 pF L1=39 nH C1=100 pF L2=6.8 nH RF IN C3 , =5.6V Zener Diode C5=10 nF C4=100 pF L1=39 nH C1=100 pF L2=6.8 nH RF IN C3=100 pF RF OUT , different RB values with minimized loss only in OIP3 and P1dB. D1=5.6V Zener Diode C5=10 nF C4 , loss only in OIP3 and P1dB. D1=5.6V Zener Diode C5=10 nF C4=100 pF L1=39 nH C1=100 pF 4.5 mm Advanced Semiconductor Business
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Abstract: , 0.8T) Schematic Vcc=5 V R1=3  D1=5.6V Zener Diode C6=1 F C5=100pF L1=82 nH C1=100 pF , mm2, 0.8T) Schematic Vcc=5 V R1=3  D1=5.6V Zener Diode C5=1 F C4=100pF L1=39 nH C1 , mm2, 0.8T) Schematic Vcc=5 V R1=3  D1=5.6V Zener Diode C5=1 F C4=100pF L1=39 nH C1 , (FR4, 40x40 mm2, 0.8T) Schematic Vcc=5 V R1=3  D1=5.6V Zener Diode C5=1 F C4=100pF L1 , . Board Layout (FR4, 40x40 mm2, 0.8T) Schematic Vcc=5 V R1=3  D1=5.6V Zener Diode C5=1 F C4 Advanced Semiconductor Business
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Zener C218

Abstract: ) Schematic Vcc=5 V R1=1.5  D1=5.6V Zener Diode C5=1 F C4=100pF L1=390 nH RF IN C3=1000 pF , 1 MHz. Board Layout (FR4, 40x40 mm2, 0.8T) Schematic Vcc=5 V R1=1.5  D1=5.6V Zener Diode C5=1 F C4=100pF L1=390 nH RF IN C3=1000 pF C1=27 pF RF OUT ASW350 L2=27 nH
Advanced Semiconductor Business
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Zener C218

Zener C212

Abstract: diode zener c71 =5.6V Zener Diode C5=1 F *C3 shall be placed as close as possible to the pin. C7=1 F C4 , separated by 1 MHz. Board Layout (FR4, 40x40 mm2, 0.8T) Schematic Vcc=5 V D1=5.6V Zener Diode C5 , . Board Layout (FR4, 40x40 mm2, 0.8T) Schematic Vs=5 V D1=5.6V Zener Diode C6=1 F C8=1 F C5 , =5.6V Zener Diode C7=1 F C9=1 F C6=100pF C8=100pF C5=4.7 pF C4=8 pF RF OUT 2.5 mm ASX621 , =5.6V Zener Diode C7=1 F *C4 shall be placed as close as possible to the pin. C9=1 F C6
Advanced Semiconductor Business
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Zener C212 diode zener c71
Abstract: (FR4, 40x40 mm2, 0.8T) Schematic Vcc=5 V D1=5.6V Zener Diode C6=1 F C5=100pF L1=86 nH , mm2, 0.8T) Schematic Vcc=5 V D1=5.6V Zener Diode C6=1 F C5=100pF L1=100 nH (Coil , Board Layout (FR4, 40x40 mm2, 0.8T) Schematic Vcc=5 V D1=5.6V Zener Diode C6=1 F C5 , D1=5.6V Zener Diode C6=1 F C5=100pF L1=100 nH (Coil Inductor) C1=100 pF RF IN L2 , (FR4, 40x40 mm2, 0.8T) Schematic Vcc=5 V D1=5.6V Zener Diode C6=1 F C5=100pF L1=39 nH Advanced Semiconductor Business
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ASX501 XC0900A-03S
Abstract: by 1 MHz. Board Layout (FR4, 40x40 mm2, 0.8T) Schematic Vcc=5 V D1=5.6V Zener Diode C5 , Layout (FR4, 40x40 mm2, 0.8T) Schematic Vcc=5 V D1=5.6V Zener Diode C4=1 F C3=100 pF L1 , separated by 1 MHz. Board Layout (FR4, 40x40 mm2, 0.8T) Schematic Vcc=5 V D1=5.6V Zener Diode C4 , by 1 MHz. Board Layout (FR4, 40x40 mm2, 0.8T) Schematic Vcc=5 V D1=5.6V Zener Diode C4 , =5 V Note: The transformers are used M/A COMâ'™s MABA-007159 1:1 transformer. C6=1 uF C5 Advanced Semiconductor Business
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ASW311 MABA007159
Abstract: Layout (FR4, 40x40 mm2, 0.8T) Schematic Vs=5 V D1=5.6V Zener Diode C5=1 F C4=100pF L1=82 nH , . Board Layout (FR4, 40x40 mm2, 0.8T) Schematic Vcc=5 V D1=5.6V Zener Diode C6=1 F C5 , Layout (FR4, 40x40 mm2, 0.8T) Schematic Vcc=5 V D1=5.6V Zener Diode C6=1 F C5=100pF L1 , Vcc D1=5.6V Zener Diode C6=1 F C5=100pF L1=18 nH C1=68 pF RF IN C2=68 pF RF OUT , Layout (FR4, 40x40 mm2, 0.8T) Schematic Vcc D1=5.6V Zener Diode C6=1 F C5=100pF L1=15 nH Advanced Semiconductor Business
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ASX415

zener diode c5

Abstract: RPE131R constructed from the basic ST200 circuit by adding a capacitor and Zener diode (C5 and D5), changing D3 to a , Reference C l* C2 C3 C4 C5* Dl D2 D3 D4 D5* Rl Ul LI Tl Value 10 nF, 400 V 47 pF. 10 V 330 |jF, 25 V 150 (iF, 25 V 100 nF, 50 V 120 V Zener, T V S , 1.5 W Rectifier, 1 A, 6 , (ST200-1) is less efficient than the standard circuit due to the loading effect of the D5 Zener diode and
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OCR Scan
zener diode c5 RPE131R DN-8 top200 TOPSWITCH DN-8 triple insulated wire design note dn-8
Abstract: mm2, 0.8T) Schematic Vs=5 V D1=5.6V Zener Diode C5=1 µF C4=100 pF L1=6.8 nH RF IN C2 , D1=5.6V Zener Diode C4=1 µF C3=100 pF L1=33 nH C1=82 pF RF IN C2=82 pF RF OUT , (FR4, 40x40 mm2, 0.8T) Schematic Vcc=5 V D1=5.6V Zener Diode C4=1 µF C3=100 pF L1=1 µΗ , (FR4, 40x40 mm2, 0.8T) Schematic Vcc=+5 V C4=1 µF C5=100 pF L1=1 µH RF OUT RF IN ASW205 Advanced Semiconductor Business
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Abstract: separated by 1MHz. Board Layout (FR4, 40x40 mm2, 0.8T) Schematic Vs=5 V D1=5.6V Zener Diode C5 Advanced Semiconductor Business
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ASW208

zener diode c5

Abstract: Zener C422 =5.6V Zener Diode C6=1 F C5=100pF RF IN L1=82 nH (Coil Inductor) C2=1 nF L4=22 nH C1=1 nF , =5 V D1=5.6V Zener Diode C6=1 F C5=100pF RF IN L3=15 nH L2=68 nH C1=12 pF L1 , mm2, 0.8T) Schematic Vcc=5 V D1=5.6V Zener Diode C6=1 F C5=100pF L1=82 nH (Coil , (FR4, 40x40 mm2, 0.8T) Schematic Vcc=5 V D1=5.6V Zener Diode C6=1 F C5=100pF L1=68 nH , , 0.8T) Schematic Vcc=5 V D1=5.6V Zener Diode C6=1 F C5=100pF C1=100 pF RF IN L1
Advanced Semiconductor Business
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Zener C422 zener diode c6 5-6V Zener Diode C2 6 zener diode ASX401 RCP2150A03

NCP105x

Abstract: zener diode c5 series are used for Z1. Zener diode Z1 is used in the original NCP1052 board to clamp the voltage down , C4 C5 L1 1 2 1 1 2 1 1 1 1 1 1 1 1 Switching Regulator Ultrafast Diode Switching Diode General Diode Zener Diode Chip Resistor Axial Resistor Ceramic Capacitor Tantalum , Worksheet by simply changing the inductor value. The NCP1055 136 kHz version is used in this design. Zener , of the diode is calculated using the equation below: VZ 1 = Vout - 5V This equation comes from
ON Semiconductor
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NCP1055ST136G MURS160T3 MMSD914T1 MMSZ5260BT1G CRCW12062K00JNEA 595D106X9025B2T NCP105x 595D106X9025B2 DN06028 DN06028/D AND8098/D NCP105X NCP105

NEC2501 Optocoupler

Abstract: NEC2501 Optocoupler free latch · Replace output rectifier, clamp Zener, or clamp diode Power supply does not start · , · Use Zener diode/blocking diode clamp circuit across transformer primary (Section 3) · Make sure , circuit blocking diode is too slow or has low breakdown voltage rating · Increase clamp Zener voltage , Zener diode voltage rating · Increase clamp Zener voltage rating to 1.5 times reflected output voltage V OR Poor heat transfer · Reduce Zener diode lead length · Increase PC trace width Drain
Power Integrations
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NEC2501 Optocoupler NEC2501 Optocoupler free TOP204Yai equivalent AN-16 topswitch PWR-TOP200YAI TOPSWITCH DN-14 AN-14 AN-16 AN-15

MSS7341-103NL

Abstract: Zener Diode 5V SOD323 VBOOST derived from Series Zener Diode from VIN = 15V, VOUT = 1.5V Bill of Materials X-Version (1.6MHz , -1837 30061431 VBOOST derived from Series Zener Diode from VOUT = 9V, VIN = 15V Bill of Materials X-Version , -layer printed circuit board. The circuit is configured with the boost diode connected to VOUT, and according , , Input Cap 10µF, 25V, X7R TDK C3216X5R1E106 1206 C2, C5, Output Cap 22µF, 10V, X5R , , Boost Diode 1VF @ 100mA Diode Diodes, Inc. BAT54WS-TP SOD-323 R2, R3 10k, 1% Vishay
National Semiconductor
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LM2738 AN-1837 MSS7341-103NL Zener Diode 5V SOD323 10uF 25V X7R CRCW12060R00F Zener Diode SOD-323 semiconductor C3216X5R1A2 LM2738X LM2738Y

220vac to 110vac voltage converter schematic

Abstract: schematic diagram converter input 220v to 24v is sourced into an output zener diode. On the demoboard, a 22V zener diode is used at D2 to regulate , appropriate 2W zener diode in parallel to D2 in the space provided on the demoboard (D3). Specifications , dissipation in the zener diode, which causes the zener voltage to drift. This drift will eventually settle down once the temperature of the zener diode stabilizes. This drift is not destructive and the output , the HV9922DB2 for a zener diode (D3) in parallel with the existing 22V zener diode. By soldering in
Supertex
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220vac to 110vac voltage converter schematic schematic diagram converter input 220v to 24v Circuit diagram of 1W LED drive input 220vac 220v DC to 110v DC using resistor circuit diagram 220v AC to 110v AC using resistor circuit diagram 220vac to 220vac voltage converter schematic

R22A

Abstract: transistor MTBF Diode, Schottky 6.1 Diode, Schottky 6.1 Diode, Fast 6.1 Diode, Zener 6.1 Voltage Regulator 6.4 , Diode, Schottky 6.1 Diode, Fast 6.1 Diode, Zener 6.1 Voltage Regulator 6.4 Transistor NPN 6.4 , Diode, Fast 6.1 Diode, Zener 6.1 Voltage Regulator 6.4 Transistor NPN 6.4 Transistor MOSFET 6.11 , ,General 6.1 Diode, Schottky 6.1 Diode, Schottky 6.1 Diode, Fast 6.1 Diode, Zener 6.1 Voltage , Diode, Schottky 6.1 Diode, Fast 6.1 Diode, Zener 6.1 Voltage Regulator 6.4 Transistor NPN 6.4
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R22A transistor MTBF OPTOCUPLER HAND BOOK TRANSISTOR mosfet transistor R1d optocupler 110VAC ZPS60-3 MTBF-ZPS60

C2 6 zener diode

Abstract: Transistor AND DIODE Equivalent list , Panasonic MA3068CT, or other 6.8V SOT-23 zener diode (On this evaluation board this is composed of a 6.2V diode in series with a silicon diode to make a 6.8V zener. It is shown a single 6.8V zener on the schematic) Zetex BZX84C24, Panasonic MA3240CT, or other 24V SOT-23 zener diode Zetex BZX84C43 or other 43V SOT-23 zener diode 1% generic surface mount resistors 0.082 current sense resistor IRC, Dale or , 9 8 VCC CS+ 10 1 C5 0.22 4 R1 18k Q1 6 1 R3 0.082 Q2 U1
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Transistor AND DIODE Equivalent list diode ZENER C2 zener diode c12 zener 18v sot23 Zener Diode C3 4 Zener Diode C3 5 MAX668 ECA-2CHG010 MBR0540L CMPB4448
Abstract: mm2, 0.8T) Schematic Vcc=5 V D1=5.6V Zener Diode C6=1 F C5=100pF L1=82 nH (Coil , (FR4, 40x40 mm2, 0.8T) Schematic Vcc=5 V D1=5.6V Zener Diode C6=1 F C5=100pF L1=82 nH , . Board Layout (FR4, 40x40 mm2, 0.8T) Schematic Vcc=5 V D1=5.6V Zener Diode C6=1 F C5=100pF L1 , D1=5.6V Zener Diode C6=1 F C5=100pF L1=100 nH (Coil Inductor) C2=100 pF C1=100 pF RF , ) Schematic Vcc=5 V D1=5.6V Zener Diode C6=1 F C5=100pF L1=39 nH (Coil Inductor) C1=56 pF RF IN Advanced Semiconductor Business
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ASX601

TRANSISTOR 2N2222

Abstract: 2200uf capacitor being generated by a resistor and a 12V zener diode controlling the base of a pass transistor. The , such, the BATT-ON pin is tied HIGH in this application. This circuit also contains a 6.2V zener diode , resistor wattage can be reduced using derating curves, based on the precharge duration. A zener diode , 6.2V D2 Zener Diode Fairchild: BZX84C6V2 MBRM5100 D3 Schottky Diode Diodes: MBRM5100 12V D4 Zener Diode Fairchild: BZX84C12 12V D5 Zener Diode Fairchild
Intersil
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AN180 IRFS23N15D TRANSISTOR 2N2222 2200uf capacitor NPN transistor 2n2222 2200uf 35v SM series Pin layout for a 2N2222 transistor IPMI X80070 ADUM1401 ISO9000
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