IXGH60N60C2 Introduction
The IXGH60N60C2 is a high-power IGBT used in various industrial applications where efficient power switching is needed. It's designed to handle high voltages and can control large amounts of current, making it ideal for things like motor drives, welding equipment, and power supplies.
This IGBT works by using a gate to control the flow of current between the collector and emitter, allowing precise on-off switching with minimal energy loss.
IXGH60N60C2 Pinout
G (Gate): The control pin used to turn the IGBT on or off by applying a voltage to control the current flow.
C (Collector): The collector pin, which connects to the load circuit, where current flows into the IGBT.
E (Emitter): The emitter pin, where current flows out of the IGBT, typically connected to the power supply or ground.
IXGH60N60C2 Recommended Footprint
IXGH60N60C2 Specification
| Parameter | Value |
| Voltage Rating (Vceo) | 600V |
| Current - Collector (Ic) | 75 A |
| Current - Collector Pulsed | 300 A |
| Vce(on) (Max) @ Vge, Ic | 2.5V @ 15V, 50A |
| Gate Threshold Voltage (Vge(th)) | 3V ~ 6V |
| Total Gate Charge | 146 nC |
| Power | 480 W |
| Switching Energy | 480µJ (off) |
| Test Condition | 400V, 50A, 2Ohm, 15V |
| Td (on/off) @ 25°C | 18ns/95ns |
| Operating Temperature | -55°C ~ 150°C |
| Package Type | TO-247AD |
IXGH60N60C2 Features
Very high frequency IGBT
Square RBSOA
High current handling capability
MOS Gate turn-on - drive simplicity
High power density
Very fast switching speeds for high frequency applications
IXGH60N60C2 Applications
PFC circuits
Uninterruptible power supplies (UPS)
Switched-mode and resonant-mode power supplies
AC motor speed control
DC servo and robot drives
DC choppers
IXGH60N60C2 Package
The TO-247AD package for the IXGH60N60C2 is a widely used. It features a three-pin configuration (collector, emitter, and gate) with a larger, heat-dissipating surface area compared to smaller packages. The package is typically made of a thermally conductive material, ensuring efficient heat transfer during operation.
IXGH60N60C2 Manufacturer
IXYS Corporation, the manufacturer of the IXGH60N60C2, is a globally recognized leader in power semiconductors and integrated circuits. Known for its innovation in high-performance power management solutions, IXYS specializes in products like MOSFETs, IGBTs, and thyristors, widely used in industrial, automotive, and renewable energy applications.
IXGH60N60C2 Alternatives
The IXGH60N60C2 IGBT can be substituted with several similar models that offer comparable voltage ratings and performance for high-power switching applications. Some alternatives include STGW60NF60, FGA60N60SMD, IRG4PC60UD and MG60J1ES1. These alternatives provide similar power handling, efficiency, and switching capabilities.
How to Use IXGH60N60C2?
To use the IXGH60N60C2, first, connect the Gate pin to a control voltage source to switch the IGBT on and off. Apply a positive voltage to turn it on, and pull it to 0V or ground to turn it off. Next, connect the Collector pin to the high-voltage side of your circuit (like the positive rail of your power supply or the load), and the Emitter pin to the ground or negative side of the circuit.
When operating, make sure that the gate is properly driven to avoid unwanted switching. It’s also crucial to manage heat, so use a heatsink if necessary to keep the transistor within safe operating temperatures
FAQs
What type of package is the IXGH60N60C2 available in?
The IXGH60N60C2 comes in a TO-247AD package, which is commonly used for high-power applications due to its robust thermal performance.
Can the IXGH60N60C2 be used for motor control?
Yes, the IXGH60N60C2 is suitable for motor control applications, such as driving electric motors in industrial systems, due to its high current rating and fast switching performance.
How do I handle thermal management with the IXGH60N60C2?
Proper heat sinking and thermal management are critical, as this device can generate significant heat under heavy load conditions. Using a heatsink with good thermal conductivity can help keep the device within safe operating temperatures.
