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STMicroelectronics-VND5T035AKTR-E Current Limit Switches Current Limit SW 2-IN 2-OUT to 55A 24-Pin PowerSSO EP T/R Automotive AEC-Q100
Integrated Circuits (ICs)

VNI4140K-32

Active
STMicroelectronics

CURRENT LIMIT SW 4-IN 4-OUT TO 41V 1A 24-PIN POWERSSO EP TUBE

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DocumentsDatasheet+1
STMicroelectronics-VND5T035AKTR-E Current Limit Switches Current Limit SW 2-IN 2-OUT to 55A 24-Pin PowerSSO EP T/R Automotive AEC-Q100
Integrated Circuits (ICs)

VNI4140K-32

Active
STMicroelectronics

CURRENT LIMIT SW 4-IN 4-OUT TO 41V 1A 24-PIN POWERSSO EP TUBE

Deep-Dive with AI

DocumentsDatasheet+1

Technical Specifications

Parameters and characteristics for this part

SpecificationVNI4140K-32
Current - Output (Max) [Max]1 A
Fault ProtectionCurrent Limiting (Fixed), Over Temperature
FeaturesStatus Flag
Input TypeNon-Inverting
InterfaceOn/Off
Mounting TypeSurface Mount
Number of Outputs4
Operating Temperature [Max]125 °C
Operating Temperature [Min]-40 C
Output ConfigurationHigh Side
Output TypeN-Channel
Package / Case24-PowerBSOP
Package / Case [y]0.295 in
Package / Case [y]7.5 mm
Ratio - Input:Output1:1
Rds On (Typ)80 mOhm
Supplier Device PackagePowerSSO-24
Switch TypeGeneral Purpose
Voltage - Load [Max]36 V
Voltage - Load [Min]10.5 V
Voltage - Supply (Vcc/Vdd)Not Required

Pricing

Prices provided here are for design reference only. For realtime values and availability, please visit the distributors directly

DistributorPackageQuantity$
ArrowN/A 1225$ 2.29
DigikeyN/A 744$ 5.35

Description

General part information

VNI4140K-32 Series

The VNI414K (for loads up to 0.6 A) and VNI4140K-32 (for loads up to 1.0 A) are monolithic 4-channel drivers featuring very low RDS(on) and per-channel diagnostic. The ICs, realized in STMicroelectronics™ VIPower™ technology, are intended to drive any kind of load with one side connected to ground.

Active channel current limitation combined with thermal shutdown, independent for each channel, and automatic restart, protect the device against overload.

A channel in an overload condition overheats and turns OFF and back ON automatically in order to maintain its junction temperature between TTSD and TR. If this condition makes case temperature reach TCSD, the overloaded channel is turned OFF and restarts only when case temperature has decreased down to TCR. In case of more than one channel in overload, restart of the overloaded channels is not simultaneous, in order to avoid high peak current from the supply. Non-overloaded (non-overheated) channels continue operating normally.