VIPOWER M05 Search Results

Contextual Info: L99PD08 SPI control diagnosis interface device for VIPower M0-5 and M0-5E high side drivers Target specification Features • 8 channel VIPower driver and diagnostics device ■ Supports analog and digital VIPower status readback ■ 8 independent PWM channels

Contextual Info: L99PD08 SPI control diagnosis interface device for VIPower M0-5 and M0-5E high side drivers Features • 8 channel VIPower driver and diagnostics device ■ Supports analog and digital VIPower status readback ■ 8 independent PWM channels ■ Selectable PWM base clock 2 external, one

K110 B3

Abstract: L99PD08 stk 490 110 stk 490 310 hex15 cfl circuit diagram hsd 210 cfl circuit diagram of 12 volts LQFP32 LQFP-32
Contextual Info: L99PD08 SPI control diagnosis interface device for VIPower M0-5 and M0-5E high side drivers Features • 8 channel VIPower driver and diagnostics device ■ Supports analog and digital VIPower status readback ■ 8 independent PWM channels ■ Selectable PWM base clock 2 external, one

Contextual Info: L99PD08 SPI control diagnosis interface device for VIPower M0-5 and M0-5E high side drivers Features • 8 channel VIPower driver and diagnostics device ■ Supports analog and digital VIPower status readback ■ 8 independent PWM channels ■ Selectable PWM base clock 2 external, one

Contextual Info: AN4210 Application note PowerSSO-12 devices evaluation board Introduction The EV board concept is intended to provide customers with an easy way to connect ST's surface mounted VIPower drivers into their existing prototype circuitry. The EV boards come pre-assembled with one of ST's VIPower high-side drivers.

Powersso-12

Abstract: PowerSSO-24 VNQ5E250AJ VND5E050AK VND5E006A PowerSSO24 VND5E025AK VND5E006 VND5E008ay VN5E010AH
Contextual Info: VIPower M0-5Enhanced family Automotive dedicated smart power switches VIPower™ M0-5Enhanced semiconductors complement the M0-5 product portfolio. They offer the same features and protection strategy, but with an enriched diagnostic, ensuring a wider load compatibility obtained by an increase in the

Powersso-12

Abstract: PowerSSO-24 VND5E008ay VN5E010AH VND5E160AJ VND5E025AK vnd5e160j powersso36 powerSSO-36 VN5E025AJ
Contextual Info: VIPower M0-5Enhanced family Automotive dedicated smart power switches VIPower™ M0-5Enhanced semiconductors complement the M0-5 product portfolio. They offer the same features and protection strategy, but with an enriched diagnostic, ensuring a wider load compatibility obtained by an increase in the

Contextual Info: AN4212 Application note PowerSSO-24 devices evaluation board Introduction The EV board concept is intended to provide customers with an easy way to connect ST's surface mounted VIPower drivers into their existing prototype circuitry. The EV boards come pre-assembled with one of ST's VIPower high-side drivers.

M05 SMD

Abstract: PowerSSO-24 SMD M05 Powersso-12 car glow plug VND5160 VNQ5027AK-E VND5160J-E VND5160AJ-E VN5016AJ-E
Contextual Info: VIPower M0-5 family Automotive dedicated smart power switches January 2008 www.st.com High side switches in M0-5 A wide family of innovative high side, smart power switches for the automotive market, is designed by STMicroelectronics using VIPower™ M0-5 technology. In order to meet the car body market growing request,

Contextual Info: EV-VNH5180A VNH5180A evaluation board Data brief Description EV-VNH5180A provides you an easy way to connect ST’s surface mounted VIPower H-Bridge drivers into your existing prototype circuitry. This evaluation board comes preassembled with VNH5180A-E H-Bridge.

Contextual Info: EV-VNH5050A VNH5050A evaluation board Data brief Description EV-VNH5050A provides you an easy way to connect ST’s surface mounted VIPower HBridge drivers into your existing prototype circuitry. This evaluation board comes preassembled with VNH5050A-E H-Bridge.

VNL5160

Abstract: vn5e006 VND5E006A VN5E016MH vn5e010 SMD M05 sot Powersso-12 VN5E006ASP VN5E025MJ PowerSSO-24
Contextual Info: VIPowerTM M0-5: the smart power device Dedicated product portfolio for car lighting applications January 2010 www.st.com/automotive Automotive smart power switches for lighting STMicroelectronics offers a wide family of innovative smart power switches, designed in VIPower M0-5 technology,

SMD transistor M05

Abstract: SMD transistor M05 driver schematic diagram car alternator built in voltage M05 driver transistor smd TRANSISTOR m05 smd n CHANNEL DEPLETION ENHANCEMENT MOSFET vn750 pwm VIPower M05 CAR ALTERNATOR data sheet pd VN920
Contextual Info: AN1596 - APPLICATION NOTE VIPower: HIGH SIDE DRIVERS FOR AUTOMOTIVE V. Graziano - L. Guarrasi - A. Pavlin INTRODUCTION Today’s automotive market requires a continuous increasing of complexity and reliability in the electronic systems. To achieve this, the concept of the automotive systems is more and more based on micro

VND5004

Abstract: MultiPowerSO-30 multipower "battery protection" VND5004B VND5004B-E VND5004BSP30-E VND5004BSP30TR-E VND5004BTR-E
Contextual Info: VND5004B: dual 4 mΩ smart high side switch VIPowerTM M0-5 solution for power management in automotive applications The VND5004B from STMicroelectronics is a dual-channel low RDS ON device (4 mΩ per channel) in VIPower M0-5 technology. Part of the intelligent power switch family, this device is

VN5E050AJ-E

Abstract: VN5E050AJ
Contextual Info: EV-VN5E050AJ VN5E050AJ evaluation board Data brief − production data Features Parameter Symbol Value Unit Max supply voltage VCC 41 V Operating voltage range VCC 4.5 to 28 V Max On-State resistance RON 50 mΩ Current limitation typ ILIMH 27 A Off state supply current

Contextual Info: EV-VN5E050J VN5E050J evaluation board Data brief − production data Features Parameter Symbol Value Unit Max supply voltage VCC 41 V Operating voltage range VCC 4.5 to 28 V Max On-State resistance RON 50 mΩ Current limitation typ ILIMH 27 A Off state supply current

vnd5e160j

Contextual Info: EV-VND5E160J VND5E160J evaluation board Data brief − production data Features Parameter Symbol Value Unit Max supply voltage VCC 41 V Operating voltage range VCC 4.5 to 28 V Max On-State resistance RON 50 mΩ Current limitation typ ILIMH 27 A Off state supply current

VND5E160AJ-E

Contextual Info: EV-VND5E160AJ VND5E160AJ evaluation board Data brief − production data Features Parameter Symbol Value Unit Max supply voltage VCC 41 V Operating voltage range VCC 4.5 to 28 V Max On-State resistance RON 160 mΩ Current limitation typ ILIMH 10 A Off state supply current

VN5016AJ-E

Abstract: VIPower M05 UM1556 VN5016A VIPower an4210
Contextual Info: EV-VN5016AJ VN5016AJ evaluation board Data brief − production data Features Parameter Symbol Value Unit Max supply voltage VCC 41 V Operating voltage range VCC 4.5 to 36 V Max On-State resistance RON 16 mΩ Current limitation typ ILIMH 65 A Off state supply current

Contextual Info: EV-VND5E050AJ VND5E050AJ evaluation board Data brief − production data Features Parameter Symbol Value Unit Max supply voltage VCC 41 V Operating voltage range VCC 4.5 to 28 V Max On-State resistance RON 50 mΩ Current limitation typ ILIMH 27 A Off state supply current

Contextual Info: EV-VNQ5E160AK VNQ5E160AK evaluation board Data brief − production data Features Parameter Symbol Value Unit Max supply voltage VCC 41 V Operating voltage range VCC 4.5 to 28 V Max On-State resistance RON 160 mΩ Current limitation typ ILIMH 10 A Off-state supply current

Contextual Info: EV-VNQ5E160K VNQ5E160K evaluation board Data brief − production data Features Parameter Symbol Value Unit Max transient supply voltage VCC 41 V Operating voltage range VCC 4.5 to 28 V Max On-State resistance RON 160 mΩ Current limitation typ ILIMH 10

VNQ5E050K-E

Contextual Info: EV-VNQ5E050K VNQ5E050K evaluation board Data brief − production data Features Parameter Symbol Value Unit Max supply voltage VCC 41 V Operating voltage range VCC 4.5 to 28 V Max On-State resistance RON 50 mΩ Current limitation typ ILIMH 27 A Off-state supply current

VIPower M05

Contextual Info: EV-VN5E025AJ VN5E025AJ evaluation board Data brief − production data Features Parameter Symbol Value Unit Max supply voltage VCC 41 V Operating voltage range VCC 4.5 to 28 V Max On-State resistance RON 25 mΩ Current limitation typ ILIMH 60 A Off state supply current