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RGS50TSX2DHRC11

Discrete Semiconductor Products

RGS50TSX2DHRC11

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Rohm Semiconductor

IGBTS 1200V 25A FIELD STOP TRENCH IGBT. RGS50TSX2DHR IS A HIGHLY RELIABLE IGBT FOR THE GENERAL INVERTER FOR AUTOMOTIVE AND INDUSTRIAL.

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Search across all available documentation for this part.

DocumentsRGS50TSX2DHRC11 Datasheet (PDF)PCB Layout Thermal Design Guide +39

RGS50TSX2DHRC11

Discrete Semiconductor Products

RGS50TSX2DHRC11

Active

Rohm Semiconductor

IGBTS 1200V 25A FIELD STOP TRENCH IGBT. RGS50TSX2DHR IS A HIGHLY RELIABLE IGBT FOR THE GENERAL INVERTER FOR AUTOMOTIVE AND INDUSTRIAL.

Deep-Dive with AI

DocumentsRGS50TSX2DHRC11 Datasheet (PDF)PCB Layout Thermal Design Guide +39

Specifications Series Pricing Description Documents

Technical Specifications

Parameters and characteristics for this part

Specification	RGS50TSX2DHRC11

Current - Collector (Ic) (Max) [Max]	50 A
Current - Collector Pulsed (Icm)	75 A
Gate Charge	67 nC
IGBT Type	Trench Field Stop
Mounting Type	Through Hole
Operating Temperature [Max]	175 °C
Operating Temperature [Min]	-40 °C
Package / Case	TO-247-3
Power - Max [Max]	395 W
Reverse Recovery Time (trr)	182 ns
Supplier Device Package	TO-247N
Switching Energy	1.65 mJ, 1.4 mJ
Td (on/off) @ 25°C [custom]	140 ns
Td (on/off) @ 25°C [custom]	37 ns
Test Condition	25 A, 600 V, 10 Ohm, 15 V
Vce(on) (Max) @ Vge, Ic	2.1 V
Voltage - Collector Emitter Breakdown (Max) [Max]	1200 V

Pricing

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

Distributor	Package	Quantity	$

Digikey	N/A	335	$ 9.29
Mouser	N/A	1	$ 10.82
		10	$ 9.99
		25	$ 6.77
		100	$ 5.77
		450	$ 5.41
Newark	Each	1	$ 11.25
		10	$ 10.39
		25	$ 7.04
		50	$ 6.52
		100	$ 6.00
		250	$ 5.81
		900	$ 5.63

Description

General part information

RGS50TSX2DHR Series

RGS50TSX2DHR is a highly reliable IGBT for the general inverter for automotive and industrial.

Documents

Technical documentation and resources

RGS50TSX2DHRC11 Datasheet (PDF)

PCB Layout Thermal Design Guide

How to Use the Thermal Resistance and Thermal Characteristics Parameters

How to Create Symbols for PSpice Models

About Export Administration Regulations (EAR)

Export Information

Notes for Temperature Measurement Using Thermocouples

How to Use LTspice® Models

Schematic Design & Verification

Semikron Danfoss: Partnering for the Safe Supply of Industrial Power Modules

Measurement Method and Usage of Thermal Resistance RthJC

Basics of Thermal Resistance and Heat Dissipation

Package Dimensions

Package Information

Notes for Calculating Power Consumption:Static Operation

Simulation Guide for PTC Heater Thermal Simulation (ROHM Solution Simulator)

Two-Resistor Model for Thermal Simulation

How to Use LTspice® Models: Tips for Improving Convergence

Schematic Design & Verification

Precautions for Thermal Resistance of Insulation Sheet

Anti-Whisker formation

Package Information

Types and Features of Transistors

Application Note

Power Eco Family: Overview of ROHM's Power Semiconductor Lineup

θ<sub>JC</sub> and Ψ<sub>JT</sub>

Compliance of the ELV directive

Environmental Data

θ<sub>JA</sub> and Ψ<sub>JT</sub>

Judgment Criteria of Thermal Evaluation

Method for Monitoring Switching Waveform

Schematic Design & Verification

Importance of Probe Calibration When Measuring Power: Deskew

Schematic Design & Verification

The Problem with Traditional Vaccine Storage Freezers and How ROHM Cutting-edge Power Solutions Can Take them to the Next Level

Notes for Temperature Measurement Using Forward Voltage of PN Junction

What Is Thermal Design

Calculation of Power Dissipation in Switching Circuit

Schematic Design & Verification

What is a Thermal Model? (IGBT)

Moisture Sensitivity Level

Package Information

About Flammability of Materials

Environmental Data

Generation Mechanism of Voltage Surge on Commutation Side (Basic)

Technical Article

Precautions When Measuring the Rear of the Package with a Thermocouple

Overview of ROHM's Simulation Models(for ICs and Discrete Semiconductors)

Technical Article

4 Steps for Successful Thermal Designing of Power Devices

Part Explanation

Application Note

Example of Heat Dissipation Design for TO Packages: Effect of Heat Dissipation Materials

Impedance Characteristics of Bypass Capacitor

Schematic Design & Verification

Estimation of switching losses in IGBTs operating with resistive load

Schematic Design & Verification

Method for Calculating Junction Temperature from Transient Thermal Resistance Data

RGS50TSX2DHR Series

10µs Short-Circuit Tolerance, 1200V 25A, FRD Built-in, TO-247N, Field Stop Trench IGBT for Automotive

Part	Voltage - Collector Emitter Breakdown (Max) [Max]	Test Condition	Package / Case	IGBT Type	Vce(on) (Max) @ Vge, Ic	Td (on/off) @ 25°C [custom]	Td (on/off) @ 25°C [custom]	Switching Energy	Gate Charge	Power - Max [Max]	Reverse Recovery Time (trr)	Current - Collector Pulsed (Icm)	Mounting Type	Current - Collector (Ic) (Max) [Max]	Supplier Device Package	Operating Temperature [Max]	Operating Temperature [Min]
Rohm Semiconductor RGS50TSX2DHRC11	1200 V	10 Ohm 15 V 25 A 600 V	TO-247-3	Trench Field Stop	2.1 V	140 ns	37 ns	1.4 mJ 1.65 mJ	67 nC	395 W	182 ns	75 A	Through Hole	50 A	TO-247N	175 °C	-40 °C