Obsolete R6076MNZ1
Nch 600V 76A Power MOSFET

Production has already been terminated. Not available for sales.

Product Detail

 

Replacement Product For R6076MNZ1

Part Number
R6076MNZ1
R6076MNZ1
R6070JNZ4
R6070JNZ4
Ordering Part Number R6076MNZ1C9 R6070JNZ4C13
Similar Level - Same Pinout, Package
Data Sheet    
Supply Status Obsolete Recommended
Package TO-247 TO-247
Unit Quantity 450 600
Minimum Packing Quantity 30 30
Packing Type Tube Tube
RoHS Yes Yes
Package Code TO-247AD TO-247AD
Package Size [mm] 15.94x21.07 (t=5.21) 15.94x20.95 (t=5.22)
Grade Standard Standard
Number of terminal 3 3
Polarity Nch Nch
Drain-Source Voltage VDSS [V] 600 600
Drain Current ID [A] 76.0 70.0
RDS(on)[O] VGS=10V (Typ.) 0.04 -
RDS(on)[O] VGS=15V (Typ.) - 0.045
RDS(on)[O] VGS=Drive (Typ.) 0.04 0.045
Drive Voltage [V] 10.0 15.0
Power Dissipation (PD) [W] 740.0 770.0
Total gate charge Qg [nC] 115.0 165.0
Trr (Typ.)[ns] - 135
Mounting Style Leaded type Leaded type
Applications Motor, Inverter Motor, Inverter
Bare Die P/N - Available: K7804
Storage Temperature (Min.)[°C] -55 -55
Storage Temperature (Min.)[°C] 150 150

Design Resources

 

Documents

Application Note

  • Double-pulse test substantiated advantages of PrestoMOS™

Technical Articles

Schematic Design & Verification

  • Temperature derating method for Safe Operating Area (SOA)
  • Calculation of Power Dissipation in Switching Circuit
  • Method for Monitoring Switching Waveform
  • Importance of Probe Calibration When Measuring Power: Deskew
  • Impedance Characteristics of Bypass Capacitor

Thermal Design

  • What Is Thermal Design
  • Basics of Thermal Resistance and Heat Dissipation
  • Method for Calculating Junction Temperature from Transient Thermal Resistance Data
  • Two-Resistor Model for Thermal Simulation
  • Notes for Temperature Measurement Using Thermocouples
  • What is a Thermal Model? (Transistor)
  • Notes for Temperature Measurement Using Forward Voltage of PN Junction
  • Measurement Method and Usage of Thermal Resistance RthJC
  • Precautions When Measuring the Rear of the Package with a Thermocouple

Tools

Simulations (Login Required)

ROHM Solution Simulator is a new web-based electronic circuit simulation tool that can carry out a variety of simulations, from initial development that involves component selection and individual device verification to the system-level verification stage. This makes it possible to quickly and easily implement complete circuit verification of ROHM power devices and ICs, in simulation circuits under close to actual conditions, significantly reducing application development efforts.
  • AC-DC PFC A009: CCM Diode-Bridge-Less Full-Bridge VIN=200V IIN=20A
  • AC-DC PFC A018: PFC 3-Phase 3-Wire VIN=200V Pin=25kW
  • AC-DC PFC A019: PFC 3-Phase 4-Wire VIN=115/200V Pin=25kW
  • DC-AC Inverter B006: 3-Phase 3-Wire Inverter Vo=200V Po=5kW
  • DC-AC Inverter B007: 3-Phase 4-Wire Inverter Vo=115/200V Po=10kW
  • DC-AC Inverter B008: Motor Drive 2-Phase-Modulation Po=10kW
  • DC-AC Inverter B009: Motor Drive 3-Phase-Modulation Po=10kW
  • DC-AC Inverter B010: Motor Drive Step-Modulation Po=5kW
  • ROHM Solution Simulator Power Device Use's Guide for PFC Circuits

Characteristics Data

  • ESD Data

Packaging & Quality

Package Information

  • Package Dimensions
  • Explanation for Marking
  • Moisture Sensitivity Level
  • Anti-Whisker formation

Environmental Data

  • About Flammability of Materials
  • About Non-use SVHC under Reach Regulation : Please contact us by filling in the form.
  • Compliance of the RoHS / ELV directive

Export Information

  • About Export Regulations