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International Rectifier IRG7PH50K10DPBF

Part No.:
IRG7PH50K10DPBF
Manufacturer:
International Rectifier
Category:
Single IGBTs
Package:
TO-247-3
Datasheet:
AetrixIRG7PH50K10DPBF.pdf
Description:
IGBT 1200V 90A TO247AC
Quantity:
Payment:
Payment
Shipping:
Shipping

Inventory:4,819

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Product details

Overview

IRG7PH50K10DPBF from International Rectifier is an IGBT power transistor with co-packaged diode support for inverter, motor-drive, and power-conversion switching supplied in the TO-247-3 package. It is used where a gate-controlled high-voltage power switch is required for inverter bridges, motor-drive stages, braking circuits, or industrial power-conversion hardware.

For engineers reviewing the IRG7PH50K10DPBF datasheet, IRG7PH50K10DPBF pinout, IRG7PH50K10DPBF application, or IRG7PH50K10DPBF equivalent, this device is commonly used in IGBT inverter stages, motor-control output sections, power-conversion repair boards, and legacy International Rectifier designs. Selection should focus on collector-emitter voltage rating, collector current, saturation voltage, switching energy, diode behavior, package thermal path, and gate-drive limits.

Technical Context

In circuit use, IRG7PH50K10DPBF operates as a gate-controlled IGBT power switch. The gate driver must be referenced correctly to the emitter, and the collector current path should be kept short to reduce overshoot during fast switching.

The IGBT voltage class must be matched to the DC-link requirement positioning makes DC-link voltage, switching energy, heatsink temperature, and collector-current waveform important design checks. In motor drives and inverter circuits, conduction loss and turn-off loss should be evaluated under the actual PWM frequency and cooling condition.

The TO-247 package affects how heat leaves the device and how the collector or power tab is connected to the layout. Mechanical mounting, creepage distance, snubber placement, and gate-loop inductance are practical factors in reliable IGBT operation.

Key Specifications

Parameter Value and Actual Design Meaning
Device Type IGBT power transistor with co-packaged diode support for inverter, motor-drive, and power-conversion switching.
Package TO-247-3; TO-247 through-hole power package with large thermal tab for heatsink-mounted high-power switching.
Switching Technology Insulated-gate bipolar transistor structure used for medium- and high-voltage inverter switching.
Voltage Class IGBT voltage class must be matched to the DC-link requirement, used for DC-link and bus-voltage selection.
Current Rating Review Collector current, pulsed current, saturation voltage, and safe-operating-area limits should be checked against heatsink temperature and switching frequency.
Gate Drive Standard IGBT gate-drive design must control VGE, turn-on resistance, turn-off resistance, and negative-bias requirements where applicable.
Thermal Parameters Junction temperature, case temperature, thermal resistance, and mounting method determine usable continuous current in the final equipment.
Switching Loss Review Turn-on energy, turn-off energy, diode recovery behavior, and bus voltage determine inverter efficiency and heatsink sizing.

Pinout & Package

The IRG7PH50K10DPBF pinout should be checked together with the TO-247-3 outline, because terminal arrangement and thermal connection affect layout, replacement approval, and assembly method.

For PCB design, keep the high-current power path short, route the gate or control line away from noisy switching nodes, and size copper or heatsinking for the real load current and duty cycle. TO-247 through-hole power package with large thermal tab for heatsink-mounted high-power switching.

Pin / Function PCB Design and Circuit Role
Gate Receives the isolated or referenced gate-drive signal; gate resistance and drive voltage determine switching speed and EMI behavior.
Collector / Power Tab Connects to the high-voltage switching node or DC-link path; thermal and current layout must follow the package current path.
Emitter Provides the power return and gate-emitter reference; low-inductance routing is important for stable turn-off and short-circuit behavior.
Co-Pack Diode Path Supports freewheeling or reverse-recovery behavior in inverter and inductive-load power stages where the diode is part of the switching loss model.
Package Body TO-247 package: TO-247 through-hole power package with large thermal tab for heatsink-mounted high-power switching.

Key Features

  • IRG7PH50K10DPBF is an IGBT switching device for inverter, motor-drive, and power-conversion stages.
  • TO-247 package supports thermal coupling to PCB copper or heatsink hardware depending on package style.
  • Gate-controlled bipolar conduction supports efficient switching at higher bus voltages than typical low-voltage MOSFET stages.
  • Collector-emitter voltage rating, saturation voltage, and switching energy are the main design parameters for loss calculation.
  • Co-pack diode or diode-related suffix behavior should be evaluated for freewheeling and reverse-recovery loss where applicable.
  • Suitable for designs requiring controlled turn-on, controlled turn-off, short current-loop layout, and thermal-margin verification.

Applications

Motor Drives & Inverters Power Conversion Equipment

Use Scenario: AC motor drives, servo amplifiers, pump drives, fan drives, and compact inverter stages.

Device Role: IRG7PH50K10DPBF acts as a controlled IGBT switching device in the inverter bridge or power switch position.

Use Value: Supports high-voltage switching where collector-emitter rating, switching loss, and thermal design are validated.

Use Scenario: UPS systems, DC-link converters, welding equipment, and industrial power supplies.

Device Role: IRG7PH50K10DPBF handles high-voltage switching in controlled power-conversion sections.

Use Value: Provides an International Rectifier IGBT option for legacy power designs and repair programs.

Inductive Load Switching Industrial Repair & BOM Continuity

Use Scenario: Solenoid, relay, braking, and magnetic-load control circuits requiring controlled high-voltage switching.

Device Role: IRG7PH50K10DPBF switches inductive current with gate-controlled turn-off and package-level thermal dissipation.

Use Value: Allows the designer to evaluate switching energy, diode recovery, and snubber requirements in one power stage.

Use Scenario: Replacement of existing IRG-series devices in installed industrial equipment.

Device Role: IRG7PH50K10DPBF provides an exact orderable reference for checking package, suffix, and electrical compatibility.

Use Value: Reduces redesign risk when the same footprint and rating class are required.

Equivalent & Alternatives

When evaluating IRG7PH50K10DPBF equivalent devices, engineers should compare only specific orderable part numbers and verify package footprint, pinout, voltage rating, current rating, thermal resistance, switching behavior, qualification status, and suffix or packing requirements before substitution.

Alternative Part Technical Difference Application Difference Selection Advice
IRG7PH50K10D-EPBF IRG7PH50K10D-EPBF is a related International Rectifier IGBT orderable device; compare voltage class, collector-current rating, diode suffix, and package. Used in inverter, motor-drive, or industrial power-conversion circuits where the electrical and thermal class matches. Compare IRG7PH50K10D-EPBF against IRG7PH50K10DPBF for VCES, IC, VCE(sat), switching energy, diode behavior, pinout, and package outline.
IRGP4620DPBF IRGP4620DPBF is a related International Rectifier IGBT orderable device; compare voltage class, collector-current rating, diode suffix, and package. Used in inverter, motor-drive, or industrial power-conversion circuits where the electrical and thermal class matches. Compare IRGP4620DPBF against IRG7PH50K10DPBF for VCES, IC, VCE(sat), switching energy, diode behavior, pinout, and package outline.
IRG4PC30FPBF IRG4PC30FPBF is a related International Rectifier IGBT orderable device; compare voltage class, collector-current rating, diode suffix, and package. Used in inverter, motor-drive, or industrial power-conversion circuits where the electrical and thermal class matches. Compare IRG4PC30FPBF against IRG7PH50K10DPBF for VCES, IC, VCE(sat), switching energy, diode behavior, pinout, and package outline.
IRGP4620D-EPBF IRGP4620D-EPBF is a related International Rectifier IGBT orderable device; compare voltage class, collector-current rating, diode suffix, and package. Used in inverter, motor-drive, or industrial power-conversion circuits where the electrical and thermal class matches. Compare IRGP4620D-EPBF against IRG7PH50K10DPBF for VCES, IC, VCE(sat), switching energy, diode behavior, pinout, and package outline.

Compared with related alternatives, IRG7PH50K10DPBF should remain the preferred sourcing reference when the existing BOM, PCB footprint, and qualification documentation require the exact International Rectifier orderable device.

Quality

IRG7PH50K10DPBF should be sourced as original International Rectifier / Infineon inventory through traceable and controlled supply channels. Quality verification may include package inspection, top-mark validation, label and lot review, solderability inspection, moisture-sensitivity handling review, and electrical screening according to the target production requirement.

Because IRG7PH50K10DPBF is used in power switching circuits, final validation should include the actual PCB footprint, thermal path, electrical stress, operating temperature, switching frequency, and fault-condition behavior. Traceable sourcing helps reduce counterfeit risk and supports repeatable performance in production, repair, and maintenance programs.

Availability

IRG7PH50K10DPBF available at Aetrix Electronics and suitable for power switching, power-conversion, motor-control, load-driver, repair, and BOM-continuity applications requiring stable component supply and controlled replacement planning.

Supply support may include scheduled delivery planning, volume procurement support, BOM continuity assistance, traceable sourcing management, and long-term availability support for OEM manufacturers, repair programs, and electronics production teams.

For production or repair deployment, confirming package type, orderable suffix, lifecycle status, environmental requirement, electrical rating, thermal condition, and sourcing continuity helps reduce procurement risk and improve manufacturing stability.

Manufacturer

International Rectifier was a semiconductor manufacturer known for power MOSFETs, IGBTs, gate drivers, power-management ICs, intelligent power switches, photovoltaic relays, and power modules. International Rectifier products became part of Infineon Technologies' power semiconductor portfolio after the acquisition of International Rectifier.

The IRG7PH50K10DPBF ordering line should be reviewed with the relevant International Rectifier legacy product family and current Infineon supply-chain references where available. This is especially important for legacy MOSFETs, IGBT devices, power modules, and automotive AUIR power devices.

FAQ

What is IRG7PH50K10DPBF used for?

IRG7PH50K10DPBF is used in IGBT switching circuits such as inverter stages, motor drives, industrial power-conversion equipment, and legacy power assemblies where its package and rating class match the design.

Where can I find the IRG7PH50K10DPBF datasheet download?

The IRG7PH50K10DPBF datasheet download is typically available from International Rectifier / Infineon documentation sources or authorized distributor documentation libraries. Use it to confirm ratings, package information, pinout, thermal data, and test conditions.

What should be considered in IRG7PH50K10DPBF pinout design?

IRG7PH50K10DPBF pinout design should confirm the package drawing, terminal functions, thermal path, high-current routing, gate or control routing, and whether the orderable suffix changes package or packing details.

Can IRG7PH50K10DPBF be used as a direct replacement?

IRG7PH50K10DPBF can be used as a direct replacement only when the package footprint, pinout, electrical ratings, thermal behavior, and qualification status match the original design.

What are common IRG7PH50K10DPBF equivalent solutions?

Common IRG7PH50K10DPBF equivalent directions include IRG7PH50K10D-EPBF, IRGP4620DPBF, IRG4PC30FPBF, IRGP4620D-EPBF. Final selection must confirm package, footprint, voltage rating, current rating, thermal performance, and switching behavior.

IRG7PH50K10DPBF Specifications

Product attributes
Attribute value
Manufacturer:
International Rectifier
Series:
-
Package/Case:
TO-247-3
Packaging:
Bulk
Product Status:
Active
IGBT Type:
-
Voltage - Collector Emitter Breakdown (Max):
1200 V
Current - Collector (Ic) (Max):
90 A
Current - Collector Pulsed (Icm):
160 A
Vce(on) (Max) @ Vge, Ic:
2.4V @ 15V, 35A
Power - Max:
400 W
Switching Energy:
2.3mJ (on), 1.6mJ (off)
Input Type:
Standard
Gate Charge:
300 nC
Td (on/off) @ 25°C:
90ns/340ns
Test Condition:
600V, 35A, 5Ohm, 15V
Reverse Recovery Time (trr):
130 ns
Operating Temperature:
-40°C ~ 150°C (TJ)
Grade:
-
Qualification:
-
Mounting Type:
Through Hole
Supplier Device Package:
TO-247AC

IRG7PH50K10DPBF FAQ

1.How can I place an order for IRG7PH50K10DPBF through Aetrix?

Please submit a Request for Quotation (RFQ) for IRG7PH50K10DPBF on Aetrix. Our sales agent will provide a competitive quotation and guide you through the order confirmation once you accept the terms.

2.Are the price and stock information for IRG7PH50K10DPBF reliable?

The price and inventory of IRG7PH50K10DPBF are updated periodically and may fluctuate due to market conditions. Stock and pricing data are typically refreshed every 24 hours. Quotation validity for IRG7PH50K10DPBF is usually 5 days.

3.What payment methods are accepted for IRG7PH50K10DPBF?

We accept Wire Transfer, PayPal, Credit Card, Western Union, MoneyGram, and Escrow for IRG7PH50K10DPBF transactions.

Note: Certain payment methods may incur a processing fee.

4.How is shipping managed for IRG7PH50K10DPBF?

IRG7PH50K10DPBF orders can be shipped via leading logistics carriers, including DHL, UPS, FedEx, TNT, or Registered Mail.

Once your IRG7PH50K10DPBF order is processed, you will receive an email with the shipment details and tracking number.

Note: Tracking information may take up to 24 hours to appear. Express delivery typically takes 3–5 business days.

5.How can I obtain technical support or documentation for IRG7PH50K10DPBF?

For technical support, including IRG7PH50K10DPBF datasheets, pinout diagrams, or application guidance, please contact our engineering support team. They can provide detailed documentation and assistance for your IRG7PH50K10DPBF requirements.

6.How does Aetrix verify that IRG7PH50K10DPBF is sourced from the original manufacturer or authorized distributors?

All IRG7PH50K10DPBF products on Aetrix are procured from qualified distributors and authorized channels. Our dedicated quality assurance team conducts strict verification, including traceability checks and, if necessary, third-party testing. This ensures that IRG7PH50K10DPBF meets industry standards.

7.What is the process for return or replacement of IRG7PH50K10DPBF?

All IRG7PH50K10DPBF units undergo pre-shipment inspection (PSI). If there is an issue with IRG7PH50K10DPBF, returns or replacements are accepted under the following conditions:

1.Quantity discrepancies, incorrect items, or visible external defects (such as breakage or corrosion), acknowledged by Aetrix.

2.The issue is reported within 90 days of delivery.

3.The IRG7PH50K10DPBF part is unused and in its original packaging.

Return procedure for IRG7PH50K10DPBF:

1.Submit a request within 90 days.

2.Obtain a Return Material Authorization (RMA) from Aetrix.

IRG7PH50K10DPBF Tags

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