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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
LM431CIZ/LFT1 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
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

how to work 16v zener diode

Catalog Datasheet MFG & Type PDF Document Tags

P-MOSFET

Abstract: Logic Level p-Channel Power MOSFET solution we recommend is a Zener Diode type supply. The HIP1020 is specified to operate with 12V ±10% , 0V to 16V allowing the simultaneous control of 3.3V and/or 5V MOSFETs. Here lies the problem, how , 12V ZENER 0.1µF You can find additional tutorials on the web to better understand Zener diode , based on a typical 1/4 watt Zener diode. (Zener wattage would be (12V x 2mA) = 24mW, well within the , 12V/4.3mA = 2.79k To keep the cost down, we used a low cost 2.7k resistor, as the Zener bias
Intersil
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AN1263 P-MOSFET Logic Level p-Channel Power MOSFET n mosfet low vgs 4 Watt Zener Diode mosfet vgs 5v nmosfet 24VDC

NTC 1K

Abstract: emi calculation excel sheet Application note MLX10803 High voltage solutions. 1 Scope The following document describes how to create high voltage circuit designs, using the MLX10803. The target is domestic and industrial , and components are available at Melexis. Please contact our closest sales office or representative to learn more 2 General It is not a trivial task to design for high voltage, great care must to be taken in respect for the high voltages involved. The examples given in this document have to be
Melexis
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1N4148 SPN04N60S5 NTC 1K emi calculation excel sheet zener-12V 1n4148 zener 4W205 MLX10803A TN05- 4W474

24v 2a zener diode

Abstract: HIP1090 threshold may be increased by using a zener diode from the VCON terminal to the collector terminal of the transistor switch. The preferred method is to use a zener diode for a fixed level shift. While a resistor in place of the zener diode having the same voltage drop will work well, the parametric variation of the , · · · · · · · Description ±90V Transient Suppression 4V to 16V Operating Voltage 1A , circuits with voltages ranging from 4V to 16V, effectively blocking higher peak voltages. Electronic
Intersil
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HIP1090 HIP1090AS 24v 2a zener diode 2n5320 transistor 2N5320 CA3273 ISO9000

how to work 16v zener diode

Abstract: 2N5320 threshold may be increased by using a zener diode from the VCON terminal to the collector terminal of the transistor switch. The preferred method is to use a zener diode for a fixed level shift. While a resistor in place of the zener diode having the same voltage drop will work well, the parametric variation of the , · · · · · · · Description ±90V Transient Suppression 4V to 16V Operating Voltage 1A , circuits with voltages ranging from 4V to 16V, effectively blocking higher peak voltages. Electronic
Intersil
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how to work 16v zener diode
Abstract: increased by using a zener diode from the V CO n terminal to the collec tor terminal of the transistor switch. The preferred method is to use a zener diode for a fixed level shift. W hile a resistor in place of the zener diode having the sam e voltage drop will work well, the parametric variation of the Icon , & A p ril 1994 Features · ±90V Transient Suppression · 4V to 16V Operating Voltage · 1A Current , Overvoltage Shut down range of 16V to 19V. Shutdown also occurs when V|N is less than the forward turn-on -
OCR Scan

2N5320

Abstract: CA3273 threshold may be increased by using a zener diode from the VCON terminal to the collector terminal of the transistor switch. The preferred method is to use a zener diode for a fixed level shift. While a resistor in place of the zener diode having the same voltage drop will work well, the parametric variation of the , 4V to 16V Operating Voltage 1A Current Load Capability Low Input-Output Voltage Drop With , small signal or logic circuits with voltages ranging from 4V to 16V, effectively blocking higher peak
Harris Semiconductor
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Abstract: a zener diode from the Vcon terminal to the collec­ tor terminal of the transistor switch. The preferred method is to use a zener diode for a fixed level shift. While a resistor in place of the zener , '¢ 4V to 16V Operating Voltage â'¢ 1A Current Load Capability â'¢ Low Input-Output Voltage Drop With , the Overvoltage Shut­ down range of 16V to 19V. Shutdown also occurs when V in is less than the , logic circuits with voltages ranging from 4V to 16V, effectively blocking higher peak voltages -
OCR Scan
1-800-4-HARRIS
Abstract: supply. The power supply is protected by a Zener diode with a nominal voltage of 16V and bypassed by a 1 , circuit diagram for the power supply (C2 = 1 µF). DP1 is a Zener diode with a nominal voltage of 16V , . â'¢ Microchip is willing to work with the customer who is concerned about the integrity of their , access to your software or other copyrighted work, you may have a right to sue for relief under that Act , Revision History DOCUMENT LAYOUT This document describes how to use the MCP6H04 Evaluation Board. The Microchip Technology
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DS52005A DS52005A-
Abstract: isolated LED driver evaluation board designed to work on 110V AC line voltage. It provides four constant , 100kHz using resistor R2. Please refer to the product datasheet for more details on how to configure the , the AL9910A from the transformer auxillary winding. Zener diode Z4 and resistor R13 provides , switching diode 400V 2A ultrafast recovery diode 1A, 600V bridge rectifier 100V 1W Zener 9.1V 50mW Zener 16V 500mW Zener 56V 500mW Zener 10R 3W resistor, +/-50ppm/C, +/-1% generic 226K 0.125W +/-1% Diodes
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AL9910EV6 110VAC D-81541 A1103-04

SHBB

Abstract: CAPACITOR TANTALUM 10uf 16v VISHAY MAKE place the zener diode D3 in a shunt configuration as shown in Figure 5. A small 350mW to 500mW 5.1V , chosen to provide enough RMS current to the zener diode (D3) and to the BOOST pin. A recommended choice , 20124249 FIGURE 9. LM2736X (1.6MHz) VBOOST Derived from Series Zener Diode (VIN) 15V to 1.5V/750mA , 20124250 FIGURE 10. LM2736X (1.6MHz) VBOOST Derived from Series Zener Diode (VOUT) 15V to 9V/750mA , D2, Boost Diode D3, Zener Diode L1 R1 R2 R3 Part Value 750mA Buck Regulator 10µF, 25V, X7R 22µF, 16V
National Semiconductor
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SHBB CAPACITOR TANTALUM 10uf 16v VISHAY MAKE SHAB MARKING national semi books Cornell Dubilier Electronics, Inc. - Complete Capacitor Cross Reference SCHOTTKY DIODES CROSS REFERENCE LM2736 SNVS316E LM2736Y

sfeb ic regulator

Abstract: marking sfdb the zener diode D3 in a shunt configuration as shown in Figure 5. A small 350mW to 500mW 5.1V zener in , chosen to provide enough RMS current to the zener diode (D3) and to the BOOST pin. A recommended choice , . LM2734X (1.6MHz) VBOOST Derived from Series Zener Diode (VIN) 15V to 1.5V/1A Bill of Materials for , . LM2734X (1.6MHz) VBOOST Derived from Series Zener Diode (VOUT) 15V to 9V/1A Bill of Materials for , 20102349 FIGURE 14. LM2734Y (550kHz) VBOOST Derived from Series Zener Diode (VIN) 15V to 1.5V/1A Bill
National Semiconductor
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sfeb ic regulator marking sfdb LM2734Y EVAL sfeb LM2734X EVAL zener diode in mil grade LM2734 SNVS288H

TPS2412

Abstract: schematic set top box can be achieved by diode OR-ing two Power Supply Units (PSU) to the system as shown in Figure 1-1 , of the TPS2412, the diode D2 is used to prevent the full supply input voltage from being applied from Pin C to Pin A in the event of an input power supply short. R2 is used to limit diode forward , schematic Figure 1-4 throughout the design example section 1.3.3 Regulator D1, the zener diode, is selected at 12 V to operate the TPS2412/13. R9, providing the bias for the zener. Set the current to the
Texas Instruments
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TPS2413 schematic set top box SCHEMATIC POWER AUDIO MOSFET IRF530NS TPS241X SLUA486

Zener Diode 3v 400mW

Abstract: reverse phase dimmer generated above the zener diode threshold. For proper circuit operation, it is recommended to design for 4V overdrive in order to adequately bias the transistor. Therefore the zener diode should be selected based , LED lamp (where the LED load is permanently connected to the driver output) a simple zener diode or , Board Schematic The following section explains how to design an isolated flyback converter using the , the line frequency fL is assumed to be perfectly sinusoidal and the diode bridge ideal. This yields
Texas Instruments
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Zener Diode 3v 400mW reverse phase dimmer dimmer CIRCUITS FET Triac based Lamp Dimmer power control triac dimmer LED triac inductor noise suppression LM3448 AN-2090

Si4850

Abstract: Osram lamp driver schematic required to work from a nominal 12 volt DC supply which can have a significant output voltage variation , Key Points Specifications VIN: 12V nominal; 10V to 16V overall. VOUT:17V to 30V Nominal IOUT: up to , zener diode Z1. In event of an open circuit, the LED current feedback signal will be lost and the , 700mA to 1A. The traces are for VIN = 10V t (left) and VIN = 16V (right). These waveforms illustrate the driver's ability to work at 1A OSTAR® current. In addition it can be seen that PWM-ing of the
Micrel Semiconductor
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Si4850 Osram lamp driver schematic MacAdam 1A smd opto SO8 power supply driver led 30w schematic diode 1210 led rgb MIC2196 M9999-110106-A

LXHL-PW09

Abstract: panasonic diode An alternate method is to place the zener diode D3 in a shunt configuration as shown in Figure 5. A , . Resistor R2 should be chosen to provide enough RMS current to the zener diode and to the BOOST pin. A , Diode D2, Boost Diode D3, Zener Diode L1 R1 LED1 LED2 Part Value 1A LED Driver 10µF, 25V, X5R 1µF, 16V , . Switch pin. Connect this pin to the inductor, catch diode, and bootstrap capacitor. www.national.com , the SW pin to swing below ground by the forward voltage (VD1) of the catch diode. The regulator loop
National Semiconductor
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LXHL-PW09 panasonic diode IC spnb LM3405 SNVS429A

230V ac to 9V dc converter circuit

Abstract: 230V AC to 9v DC Converter without using transformer Non-Inverting Input: Connect to diode bridge return and resistor to GND to sense input current for dynamic hold. Connect a 0.1µF capacitor and Schottky diode to GND, and a 0.22µF capacitor to HOLD. 10 GND , Voltage DAP DAP Thermal PAD on bottom of IC www.national.com Apply a voltage >1.6V to , explains how to design using the LM3450A power factor controller and phase dimming decoder. Refer to AN , dissipate the maximum power: The output voltage reflected to the primary is defined: Switching Diode
National Semiconductor
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230V ac to 9V dc converter circuit 230V AC to 9v DC Converter without using transformer d20 diode dimmer 10 amp 220v transformer from 230V AC to 9V ac 500ma 105k 400V capacitor 120VAC 230VAC LM3409HV 90VAC 135VAC AN-2150
Abstract: VIN An alternative method is to place the zener diode D3 in a shunt configuration as shown in Figure , time. Resistor R3 should be chosen to provide enough RMS current to the zener diode (D3) and to the , from Series Zener Diode (VIN) 15V to 1.5V/750mA Table 4. Bill of Materials for Figure 27 Part ID , Series Zener Diode (VOUT) 15V to 9V/750mA Table 5. Bill of Materials for Figure 28 Part ID Part , Figure 32. LM2736Y (550kHz) VBOOST Derived from Series Zener Diode (VIN) 15V to 1.5V/750mA Table 9 Texas Instruments
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SNVS316F ISO/TS16949
Abstract: An alternative method is to place the zener diode D3 in a shunt configuration as shown in Figure 23 , time. Resistor R3 should be chosen to provide enough RMS current to the zener diode (D3) and to the , Figure 27. LMR12007X (1.6MHz) VBOOST Derived from Series Zener Diode (VIN) 15V to 1.5V/750mA Table 4 , Figure 28. LMR12007X (1.6MHz) VBOOST Derived from Series Zener Diode (VOUT) 15V to 9V/750mA Table 5. Bill , , Boost Diode D3, Zener Diode L1 R1 R2 R3 Part Value 750mA Buck Regulator 10µF, 25V, X7R 22µF, 16V, X5R Texas Instruments
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LMR12007 SNVS982 LMR12007Y
Abstract: VIN An alternative method is to place the zener diode D3 in a shunt configuration as shown in Figure , time. Resistor R3 should be chosen to provide enough RMS current to the zener diode (D3) and to the , from Series Zener Diode (VIN) 15V to 1.5V/750mA Table 4. Bill of Materials for Figure 27 Part ID , Series Zener Diode (VOUT) 15V to 9V/750mA Table 5. Bill of Materials for Figure 28 Part ID Part , Figure 32. LM2736Y (550kHz) VBOOST Derived from Series Zener Diode (VIN) 15V to 1.5V/750mA Table 9 Texas Instruments
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SHBB

Abstract: Reduces Boost Voltage from VIN An alternative method is to place the zener diode D3 in a shunt , parallel with the zener diode. When the internal NMOS switch turns on, a pulse of current is drawn to , zener diode (D3) and to the BOOST pin. A recommended choice for the zener current (IZENER) is 1 mA. The , ) VBOOST Derived from Series Zener Diode (VIN) 15V to 1.5V/750mA Table 9. Bill of Materials for Figure 32 , (550kHz) VBOOST Derived from Series Zener Diode (VOUT) 15V to 9V/750mA Table 10. Bill of Materials for
Texas Instruments
Original
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