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ROHM RBR10NS40AFHTL
Discrete Semiconductor Products

RBR40NS60AFHTL

Active
Rohm Semiconductor

LOW VF, 60V, 40A, TO-263S (D2PAK), SCHOTTKY BARRIER DIODE FOR AUTOMOTIVE

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Search across all available documentation for this part.

DocumentsTechnical Data Sheet ENHow to Use LTspice® Models: Tips for Improving Convergence+38
ROHM RBR10NS40AFHTL
Discrete Semiconductor Products

RBR40NS60AFHTL

Active
Rohm Semiconductor

LOW VF, 60V, 40A, TO-263S (D2PAK), SCHOTTKY BARRIER DIODE FOR AUTOMOTIVE

Deep-Dive with AI

DocumentsTechnical Data Sheet ENHow to Use LTspice® Models: Tips for Improving Convergence+38

Technical Specifications

Parameters and characteristics for this part

SpecificationRBR40NS60AFHTL
Current - Average Rectified (Io) (per Diode)40 A
Current - Reverse Leakage @ Vr800 µA
Diode Configuration1 Pair Common Cathode
GradeAutomotive
Mounting TypeSurface Mount
Operating Temperature - Junction [Max]150 °C
Package / CaseD2PAK (2 Leads + Tab), TO-263-3, TO-263AB
QualificationAEC-Q101
Speed500 ns, 200 mA
Supplier Device PackageLPDS
TechnologySchottky
Voltage - DC Reverse (Vr) (Max) [Max]60 V
Voltage - Forward (Vf) (Max) @ If600 mV

Pricing

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

DistributorPackageQuantity$
DigikeyN/A 3437$ 2.20
NewarkEach (Supplied on Cut Tape) 1$ 2.09
10$ 1.63
25$ 1.49
50$ 1.35
100$ 1.21
250$ 1.09
500$ 0.97
1000$ 0.90

Description

General part information

RBR40NS60AFH Series

RBR40NS60AFH is the high reliability Automotive Schottky Barrier Diode, suitable for general rectification.

Documents

Technical documentation and resources

Technical Data Sheet EN

Datasheet

How to Use LTspice® Models: Tips for Improving Convergence

Schematic Design & Verification

Importance of Probe Calibration When Measuring Power: Deskew

Schematic Design & Verification

Power Loss and Thermal Design of Diodes

Thermal Design

How to Select Rectifier Diodes

Technical Article

What Is Thermal Design

Thermal Design

Inner Structure

Package Information

Precautions When Measuring the Rear of the Package with a Thermocouple

Thermal Design

Part Explanation

Application Note

Constitution Materials List

Environmental Data

ESD Data

Characteristics Data

Diode Types and Applications

Technical Article

Measurement Method and Usage of Thermal Resistance RthJC

Thermal Design

Two-Resistor Model for Thermal Simulation

Thermal Design

PCB Layout Thermal Design Guide

Thermal Design

Judgment Criteria of Thermal Evaluation

Thermal Design

Absolute Maximum Rating and Electrical Characteristics of Diodes

Technical Article

How to Use LTspice® Models

Schematic Design & Verification

What is a Thermal Model? (Diode)

Thermal Design

List of Diode Package Thermal Resistance

Thermal Design

How to Select Reverse Current Protection Diodes for LDO Regulators

Schematic Design & Verification

Notes for Temperature Measurement Using Thermocouples

Thermal Design

ROHM's SBD Lineup Contributes to Greater Miniaturization and Lower Loss in Automotive, Industrial, and Consumer Equipment

White Paper

Report of SVHC under REACH Regulation

Environmental Data

Anti-Whisker formation - Diodes

Package Information

Diode Selection Method for Asynchronous Converter

Schematic Design & Verification

Compliance of the RoHS directive

Environmental Data

θ<sub>JC</sub> and Ψ<sub>JT</sub>

Thermal Design

Notes for Calculating Power Consumption:Static Operation

Thermal Design

About Export Regulations

Export Information

Reliability Test Result

Manufacturing Data

Impedance Characteristics of Bypass Capacitor

Schematic Design & Verification

How to Create Symbols for PSpice Models

Models

How to Use the Thermal Resistance and Thermal Characteristics Parameters

Thermal Design

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

Technical Article

Notes for Temperature Measurement Using Forward Voltage of PN Junction

Thermal Design

Method for Monitoring Switching Waveform

Schematic Design & Verification

Basics of Thermal Resistance and Heat Dissipation

Thermal Design

θ<sub>JA</sub> and Ψ<sub>JT</sub>

Thermal Design

Method for Calculating Junction Temperature from Transient Thermal Resistance Data

Thermal Design