IXGH60N60C3 IXYS, IXGH60N60C3 Datasheet - Page 4

IXGH60N60C3

Manufacturer Part Number

IXGH60N60C3

Description

IGBT 75A 600V TO-247AD

Manufacturer

IXYS

Series

GenX3™r

Datasheets

1.IXGH60N60C3.pdf (6 pages)

2.IXGH60N60C3.pdf (4 pages)

3.IXGH60N60C3.pdf (6 pages)

Specifications of IXGH60N60C3

Igbt Type

Voltage - Collector Emitter Breakdown (max)

600V

Vce(on) (max) @ Vge, Ic

2.5V @ 15V, 40A

Current - Collector (ic) (max)

75A

Power - Max

380W

Input Type

Standard

Mounting Type

Through Hole

Package / Case

TO-247AD

Channel Type

Configuration

Single

Collector-emitter Voltage

600V

Collector Current (dc) (max)

75A

Gate To Emitter Voltage (max)

±20V

Package Type

TO-247AD

Pin Count

3 +Tab

Mounting

Through Hole

Operating Temperature (min)

-55C

Operating Temperature (max)

150C

Operating Temperature Classification

Military

Vces, (v)

600

Ic25, Tc=25°c, Igbt, (a)

Ic90, Tc=90°c, Igbt, (a)

Ic110, Tc=110°c, Igbt, (a)

Vce(sat), Max, Tj=25°c, Igbt, (v)

2.5

Tfi, Typ, Tj=25°c, Igbt, (ns)

Eoff, Typ, Tj=125°c, Igbt, (mj)

0.8

Rthjc, Max, Igbt, (°c/w)

0.33

If, Tj=110°c, Diode, (a)

Rthjc, Max, Diode, (ºc/w)

Package Style

TO-247

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

IXGH60N60C3D

Manufacturer:

SYNERGY

Quantity:

5 000

Company:

H&T Electronics

Part Number:

IXGH60N60C3D1

Quantity:

2 400

Current page: 4 of 4
Download datasheet (840Kb)

Multi-Process High Frequency Inverter Welder

AC Motor Drive (Resonant DC Link Inverter)

January 2009

230VAC

Work Clamp

The figure on the right illustrates an AC motor

drive that utilizes a resonant DC link inverter. A

resonant link (L1, C2) is affixed to the DC bus line

of a pulse width modulation inverter. The resonant

link is then ‘excited’ and maintains resonance

through the control of the IGBTs in a way that

the resonating dc voltage bus frequently reaches

zero volts. The IGBTs are turned on and off at

zero voltage and are synchronized to match the

zero voltage crossings to achieve the desired low

switching loss. An active clamp circuit (Q7, C1) is

added to clamp down unwanted overshoot when

the DC inverter current decreases abruptly caused

by the switching behavior of the IGBTs.

Vout+

Rectifier

applIcaTIons

Power inverters

Uninterruptible power supplies

Motor drives

Switch mode power supplies

Power factor correction circuits

Welding machines

Lamp ballasts

Controller

PFC

Output Stage

Correction

Converter

Power

Factor

Boost

Gate Drive

Controller

feaTures

3-Phase AC

Full Bridge Inverter

Optimized for low switching &

conduction losses

Square RBSOA

High current handling capability

International standard packages

Power Stage

www.ixys.com

Transformer

Step Down

Gate Drive Controller

The figure on the left illustrates a general circuit

topology of an inverter welding power source. This

circuit topology is composed of four stages: A) Rectifier

stage, B) PFC & Boost stage, C) Power stage, and D)

Output stage. Input power from a power grid enters

the rectification stage to be rectified to a DC value

and is processed via a power factor correction boost

converter. From there it enters the power stage which

employs a full bridge inverter to convert the voltage

back to AC at high frequencies typically from 50Khz

to 100Khz. The AC signal is then stepped down via T1

transformer which then gets rectified and smoothed

out at the output stage.

BenefITs

High power density

Low gate drive requirement

PB60IGBTA3B3C3 1.4

Motor

IXGH60N60C3 IXYS, IXGH60N60C3 Datasheet - Page 4

IXGH60N60C3

Specifications of IXGH60N60C3

Available stocks

Related parts for IXGH60N60C3