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STMICROELECTRONICS VND5E160MJTR-E
Integrated Circuits (ICs)

IPS160H

Active
STMicroelectronics

CURRENT LIMIT SW 1-IN 1-OUT 6.9V TO 60V 4.2A 12-PIN POWERSSO EP TUBE

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Search across all available documentation for this part.

DocumentsTechnical Data Sheet ENProduct Change Notice EN+6
STMICROELECTRONICS VND5E160MJTR-E
Integrated Circuits (ICs)

IPS160H

Active
STMicroelectronics

CURRENT LIMIT SW 1-IN 1-OUT 6.9V TO 60V 4.2A 12-PIN POWERSSO EP TUBE

Deep-Dive with AI

DocumentsTechnical Data Sheet ENProduct Change Notice EN+6

Technical Specifications

Parameters and characteristics for this part

SpecificationIPS160H
Current - Output (Max) [Max]2.5 A
Fault ProtectionOver Temperature, UVLO
Input TypeNon-Inverting
InterfaceOn/Off
Mounting TypeSurface Mount
Number of Outputs1
Operating Temperature [Max]125 °C
Operating Temperature [Min]-40 C
Output ConfigurationHigh Side
Output TypeP-Channel
Package / Case12-PowerLSOP (0.154", 3.90mm Width)
Ratio - Input:Output1:1
Rds On (Typ)60 mOhm
Supplier Device PackagePowerSSO-12
Switch TypeGeneral Purpose
Voltage - Load [Max]60 V
Voltage - Load [Min]8 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 1$ 2.35
10$ 1.93
25$ 1.89
100$ 1.75
300$ 1.71
500$ 1.67
1000$ 1.63
2500$ 1.60
DigikeyN/A 2357$ 3.42
NewarkEach 1$ 3.42
10$ 2.36
25$ 2.28
50$ 2.21
100$ 2.13
250$ 2.00
500$ 1.95

Description

General part information

IPS160H Series

The IPS160H (IOUT< 2.5 A) and IPS161H (IOUT< 0.7 A) are monolithic devices which can drive capacitive, resistive or inductive loads with one side connected to ground.

The 60 V operating range and Ron = 60 mΩ, combined with the extended diagnostic (Open Load, Over Load, Overtemperature) make the IC suitable for applications implementing the proper architectures to address higher SIL levels. The built-in overload and thermal shutdown protections guarantee the ICs, the application and the load against electrical and thermal overstress. Furthermore, in order to minimize the power dissipation when the output is shorted, a low-dissipative short-circuit protection (cut-off) is implemented to limit the output average current value and consequent device overheating.Cut-off delay time can be set by soldering an external capacitor or disabled by a resistor on pin 4 (CoD).

The DIAG common diagnostic open drain pin reports the open load in off-state, cutoff (overload) and thermal shutdown.