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DC1319B-A Linear Technology BOARD EVAL LED DRIVER LT3756 visit Linear Technology - Now Part of Analog Devices
DC1205A Linear Technology BOARD EVAL LED DRIVER LT3592 visit Linear Technology - Now Part of Analog Devices
DC1160A Linear Technology BOARD EVAL LED DRIVER LT3518 visit Linear Technology - Now Part of Analog Devices
LTC2450CDC#TRPBF Linear Technology LTC2450 - Easy-to-Use, Ultra-Tiny 16-Bit Delta Sigma ADC; Package: DFN; Pins: 6; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
LTC2450CDC-1#PBF Linear Technology LTC2450-1 - Easy-to-Use, Ultra-Tiny 16-Bit Delta Sigma ADC; Package: DFN; Pins: 6; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
LTC2450IDC#TRMPBF Linear Technology LTC2450 - Easy-to-Use, Ultra-Tiny 16-Bit Delta Sigma ADC; Package: DFN; Pins: 6; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy

use of zener diode

Catalog Datasheet MFG & Type PDF Document Tags

4422 mosfet

Abstract: MOSFET 4420 fits all applications. AN30-2 V­ Figure 3. Use of Zener Diode to Clamp Voltage on Long Output , or current rating of the device. V Figure 2. Use of a Resistor to Limit Peak Current DRIVER , (which will take care of the largest number of applications), or use the simple formula: rise time (dt , AN-30 INTRODUCTION V TelCom offers many sizes of MOSFET drivers. This allows the designer to best match the switching performance of the driver/MOSFET to the application. + TC4424 MOSFET
TelCom Semiconductor
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4422 mosfet MOSFET 4420 Matching MOSFET Drivers to MOSFETs parallel mosfet 4469 mosfet use of zener diode TC1426/4426 TC4467/4468/4469 TC4423/4424/4425 TC4420/4429 TC4421/4422 TC426

Implementing Inter-Module Communications in EV Battery Systems

Abstract: locale. Additionally, Intersil strongly recommends the use of Zener diode protection devices , powertrain applications. It is suitable for use where the highest levels of communications integrity , serve to reduce their possible effects. Intersil recommends the use of high quality multilayer PCBs , comprise a number of discrete cells, which are configured or â'stackedâ' into blocks of cells to form , achieve the required terminal voltage and energy rating. Each individual block of cells in the stack is
Intersil
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Implementing Inter-Module Communications in EV Battery Systems ISL78600

H78MC

Abstract: use of zener diode of zener diode co i to cs TA7 8MXXP II CJ I TTT rtr -o voax vOUT(IC ) Hi V0UT=V0UT(XC)+Vz (b) Voltage boost by use of resistor vIN o- TA7 8MXXP IB 1 4- F â'¢-» t I < T , circuit. In these cases, take such steps as a zener diode and a general silicon diode are connected to , , usually use the value at time of "no mica". , REGULATORS 5V, 9V, 12V, 15V, The TA78MOO series of fixed-voltage monolithic integrated circuit voltage
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TA78M05P TA78M09P TA78M12P TA78M15P TA78M00P H78MC AC75 S125 T0-220AB

TRANSISTOR S28

Abstract: ) VOLTAGE BOOST REGULATOR Voltage boost by use of zener diode -o V oljT TA7 8MXXP Ã . eo i , cause the destruction of circuit. In these cases, take such steps as a zener diode and a general , ) Voltage boost by use of resistor V0UT=v0UT(IC) (1 + fj-) + R2-IB (c) Adjustable output regulator , regulator IC serves as GND, therefore, usually use the value at time of "no mica". (b) Silicon grease , viewpoint of the circuit design, it is recommended that the following methods be adopted. A: Use
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TRANSISTOR S28 UG6260

TA78015AP

Abstract: CIRCUITS (1) VOLTAGE BOOST REGULATOR (a) Voltage boost by use of zener diode (b) Voltage boost by use of resistor (c) Adjustable output regulator 293 TA78005AP (2) TA78015AP , cause the destruction of circuit. In these cases, take such steps as a zener diode and a general , , usually use the value at time of "no mica." (b) Silicon grease When a circuit not exceeding maximum , Thermal Overload Protection Internal Short Circuit Current Limiting Output Current in excess of 1A
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TA780Q5AP TA780 SC101 G-640

78005ap

Abstract: ic 78005ap TA78005AP ~ TA78015AP APPLICATION CIRCUITS (1) VOLTAGE BOOST REGULATOR (a) Voltage boost by use of zener diode vI8o- S J. « T" TA78 0 00 AP BKl! i'v z m VoUT=vOOT( IC) + VZ (b) Voltage boost by use of , steps as a zener diode and a general silicon diode are connected to the circuit, as shown in the , values at time ot no grease. The package of regulator IC serves as GND, therefore, usually use the value , Overload Protection Internal Short Circuit Current Limiting Output Current in excess of 1A Unit in mm
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78005ap ic 78005ap 78005a TA78000AP TA78005 TA78015 TA78Q05AP

ta7812s

Abstract: TA7805S APPLICATION CIRCUITS (1) VOLTAGE BOOST REGULATOR (a) Voltage boost by use of zener diode V|N O TA78XXS M> UT vz vOUT = vOUT(IC) + VZ (b) Voltage boost by use of resistor VinO- R2 , as a zener diode and a general silicon diode are connected to the circuit, as shown in the following , time of no grease. The package of regulator IC serves as GND, therefore, usually use the value at time , excess of 1 A â'¢ Metal Fin (Tab) is fully covered with Mold Resin. (T0-220 NIS package) EQUIVALENT
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TA7805 TA7805S TA78057S TA7806S TA7807S TA7808S ta7812s

AN799 Matching MOSFET Drivers to MOSFETs

Abstract: an799 . 1µF 50V TC4426 Input V­ FIGURE 3: Use of zener diode to clamp voltage on long output lines , . Parallel-MOSFET modules can be even larger. Input 1µF 50V V­ FIGURE 2: Use of a resistor to limit peak , MOSFET to its proper driver, use the chart above (which will take care of the largest number of , Microchip Technology Incorporated with respect to the accuracy or use of such information, or infringement of patents or other intellectual property rights arising from such use or otherwise. Use of
Microchip Technology
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AN799 Matching MOSFET Drivers to MOSFETs an799 an799 microchip IRF450A TC4424 motor driver TC4431 application AN799 TC426-29 TC1410-13 TC1426-28 TC4403-05 TC4420-29

IRF450 application

Abstract: Matching MOSFET Drivers to MOSFETs . 1µF 50V TC4426 Input V­ FIGURE 3: Use of zener diode to clamp voltage on long output lines , large as Hex 9. Parallel-MOSFET modules can be even larger. FIGURE 2: Use of a resistor to limit , MOSFET to its proper driver, use the chart above (which will take care of the largest number of , no liability is assumed by Microchip Technology Incorporated with respect to the accuracy or use of , use or otherwise. Use of Microchip's products as critical components in life support systems is not
Microchip Technology
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IRF450 application mosfet IRF450 TC4420 die matching mosfet TC170 MOSFET TEST SIMPLE Procedures TC4431/32 TC446 DS00799A

KIA78*p

Abstract: KIA7812 by use of zener diode vINo V7 *I1 77777 77777 VouT= V0UT(IC) + VZ fa - 0 77777 + fa Tim g 77771 -OVQUT *I1 > vOUT (IC) R1 *I1 > 5mA (b) Voltage boost by use of resistor Vin° fa - 2 . , these cases, take such steps as a zener diode and a general silicon diode are connected to the circuit , of no grease. The package of regulator IC serves as GND, therefore, usually use the value at time , view-point of the circuit design, It is recommended that the following methods be adopted. A: Use Thereon
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KIA7824API KIA7805API KIA78*p KIA7812 7818a 7812a 7809A KIA7805AP/API-KI A7824AP/API IEC-65 KIA7805AP/API-KIA7815AP/API KIA7818AP/API-KI KIA7805API-

l24SB

Abstract: ta7555 REGULATOR (a) Voltage boost by use of zener diode V|N O , cause the destruction of circuit. In these cases, take such steps as a zener diode and a general , property or other rights of the third parties which may result from its use. No license is granted by , TA78M x xSB series of fixed-voltage monolithic integrated circuit voltage regulators is designed for a
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TA78M05 TA78M05SB TA78M06SB TA78M08SB TA78M09SB TA78M10SB l24SB ta7555 TA78f

KIA4558P

Abstract: KIA7805AF ) Voltage boost by use of zener diode VIN VOUT 10µF 0.1µF R1 0.33µF KIA78xxAF *I1 > = VOUT (IC) *I1 VZ R1 *I1 > 5mA = VOUT = VOUT (IC) + V Z (b) Voltage boost by use of , steps as a zener diode and a general silicon diode are connected to the circuit, as shown in the , Thermal Overload Protection. B Internal Short Circuit Current Limiting. Output Current in Excess of , Coefficient of Output Voltage 2002. 9. 24 Revision No : 2 5.0mA IOUT 1.0A, Po VIN 15W 25V
KEC
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KIA7805AF KIA7824AF KIA7815AF KIA7818AF 805AF KIA4558P KIA7812A KIA7805 KIA7812AF Q11-1

HSOP3-P-2.30A

Abstract: TA78M05 Regulator (a) Voltage boost by use of zener diode (b) Voltage boost by use of resistor (c , zener diode and a general silicon diode are connected to the circuit, as shown in the following figure , PRODUCT USE 000707EBA · TOSHIBA is continually working to improve the quality and reliability of its , property or other rights of the third parties which may result from its use. No license is granted by , of 0.5 A, Three-Terminal Positive Voltage Regulators 5 V, 6 V, 8 V, 9 V, 10 V, 12 V, 15 V, 18 V, 20
Toshiba
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TA78M05F TA78M06F TA78M08F TA78M09F TA78M10F TA78M12F HSOP3-P-2.30A

TA7805

Abstract: TA78057SB ) Voltage boost regulator (a) (b) Voltage boost by use of resistor (c) (2) Voltage boost by use of zener diode Adjustable output regulator Current boost regulator 14 2001-08-08 , steps as a zener diode and a general silicon diode are connected to the circuit, as shown in the , intellectual property or other rights of the third parties which may result from its use. No license is , . Internal thermal overload protection. Internal short circuit current limiting. Maximum output current of
Toshiba
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TA7805SB TA78057SB TA7806SB TA7807SB TA7808SB TA7809SB

kia7805 p 12

Abstract: KIA7809AF boost by use of zener diode VIN VOUT KIA78xx 0.33µF 0.1µF 10µF R1 *I1 > = VZ *I1 VOUT (IC) R1 *I1 > = 5mA VOUT = VOUT(IC) + VZ (b) Voltage boost by use of resistor VIN VOUT , circuit. In these cases, take such steps as a zener diode and a general silicon diode are connected to the , serves as GND, therefore, usually use the value at time of "no mica" (b) Silicon grease When a circuit , . Internal Short Circuit Current Limiting. Output Current in Excess of 1A. Satisfies IEC-65 Specification
KEC
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KIA7824AF/API kia7805 p 12 KIA7809AF kia7818 kia7805a kia7815 KIA7806A KIA7805AF/API KIA7806AF/API KIA7807AF/API KIA7808AF/API KIA7809AF/API
Abstract: ,18,20,24SB Application Circuits (1) Voltage Boost Regulator (a) Voltage boost by use of zener diode (b) Voltage boost by use of resistor (c) Adjustable output regulator (2) Current , use. No license is granted by implication or otherwise under any patent or patent rights of TOSHIBA or , Output Current of 0.5 A, Three-Terminal Positive Voltage Regulators 5 V, 6 V, 8 V, 9 V, 10 V, 12 V, 15 V, 18 V, 20 V, 24 V The TA78M××SB series of fixed-voltage monolithic integrated circuit voltage Toshiba
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TA78M12SB TA78M15SB TA78M18SB TA78M20SB TA78M24SB

TA78M05

Abstract: TA78M05SB ,18,20,24SB Application Circuits (1) Voltage Boost Regulator (a) Voltage boost by use of zener diode (b) Voltage boost by use of resistor (c) Adjustable output regulator (2) Current , from its use. No license is granted by implication or otherwise under any patent or patent rights of , , TA78M24SB Output Current of 0.5 A, Three-Terminal Positive Voltage Regulators 5 V, 6 V, 8 V, 9 V, 10 V, 12 V, 15 V, 18 V, 20 V, 24 V The TA78M××SB series of fixed-voltage monolithic integrated circuit
Toshiba
Original

KIA7815API

Abstract: KIA7812API ) VOLTAGE BOOST REGULATOR (a) Voltage boost by use of zener diode VOUT 10µF 0.1µF KIA78xxAPI , cause the destruction of circuit. In these cases, take such steps as a zener diode and a general silicon , V Z (b) Voltage boost by use of resistor VIN VOUT 10µF 0.1µF R1 0.33µF , regulator IC serves as GND, therefore, usually use the value at time of "no mica" 1999. 4. 21 Revision , Output Current in Excess of 1A. J M D D N N T O T MAXIMUM RATINGS (Ta
KEC
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KIA7815API KIA7812API KIA7810API kia7809api KIA7820API KIA7824API/P KIA7818API 805AP 10API 24API KIA7800API

TA78M05

Abstract: TA78M08F Regulator (a) Voltage boost by use of zener diode (b) Voltage boost by use of resistor (c , products of which manufacture, use and/or sale are prohibited under any applicable laws and regulations , inclusion or use of controlled substances. Toshiba assumes no liability for damage or losses occurring as a , , TA78M24F Output Current of 0.5 A, Three-Terminal Positive Voltage Regulators 5 V, 6 V, 8 V, 9 V, 10 V, 12 V, 15 V, 18 V, 20 V, 24 V The TA78M××F series of fixed-voltage monolithic integrated circuit
Toshiba
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TA78M15F TA78M18F TA78M20F
Abstract: ) Voltage boost by use of zener diode (b) Voltage boost by use of resistor (c) Adjustable output , rights of the third parties which may result from its use. No license is granted by implication or , Current of 0.5 A, Three-Terminal Positive Voltage Regulators 5 V, 6 V, 8 V, 9 V, 10 V, 12 V, 15 V, 18 V, 20 V, 24 V The TA78M××S series of fixed-voltage monolithic integrated circuit voltage regulators is designed for a wide range of applications. These regulators employ internal current-limiting Toshiba
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TA78M05S TA78M06S TA78M08S TA78M09S TA78M10S TA78M12S
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