Transistors - IGBTs

Transistors - IGBTs - Single

Part Number	Description / PDF	Quantity
GT30J121(Q) Toshiba Electronic Devices and Storage Corporation	IGBT 600V 30A 170W TO3PN	0
IXYX100N120C3 Wickmann / Littelfuse	IGBT 1200V 188A 1150W PLUS247	0
FMG1G300US60H	IGBT, 300A, 600V, N-CHANNEL	15
APT35GN120SG Roving Networks / Microchip Technology	IGBT FIELDSTOP SINGLE 1200V 35A	108
IRG4PC40WPBF IR (Infineon Technologies)	IGBT 600V 40A 160W TO247AC	0
IXGH2N250 Wickmann / Littelfuse	IGBT 2500V 5.5A 32W TO247	51200
RGT40TS65DGC11 ROHM Semiconductor	IGBT 650V 40A 144W TO-247N	146
STGB14NC60KDT4 STMicroelectronics	IGBT 600V 25A 80W D2PAK	434
APT15GP90BDQ1G Roving Networks / Microchip Technology	IGBT 900V 43A 250W TO247	0
FGB3040CS	INSULATED GATE BIPOLAR TRANSISTO	66974
APT50GN120L2DQ2G Roving Networks / Microchip Technology	IGBT 1200V 134A 543W TO264	341
STGP20V60F STMicroelectronics	IGBT 600V 40A 167W TO220AB	799
STGW60H65FB STMicroelectronics	IGBT 650V 80A 375W TO247	597
IKA08N65ET6XKSA1 IR (Infineon Technologies)	HOME APPLIANCES 14	658
NGD18N40ACLBT4G Wickmann / Littelfuse	IGBT 430V 15A 115W DPAK-3	0
STGW25H120F2 STMicroelectronics	IGBT H-SERIES 1200V 25A TO-247	601
IXGX75N250 Wickmann / Littelfuse	IGBT 2500V 170A 780W PLUS247	0
STGW50HF60S STMicroelectronics	IGBT 600V 110A 284W TO247	0
IXGX120N120A3 Wickmann / Littelfuse	IGBT 1200V 240A 830W PLUS247	20780
IXBF50N360 Wickmann / Littelfuse	IGBT 3600V 70A 290W I4-PAK	0

Transistors - IGBTs - Single

1. Overview

Insulated Gate Bipolar Transistors (IGBTs) are three-terminal power semiconductor devices that combine the high-input impedance of a MOSFET with the low conduction loss of a bipolar transistor. They are critical components in modern power electronics systems, enabling efficient switching and amplification in high-voltage (600V 6500V) and high-current applications. IGBTs are widely used in electric vehicles, industrial motor drives, renewable energy systems, and consumer electronics.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
Non-Punch-Through (NPT)	High short-circuit withstand capability, temperature-stable performance	Industrial motor drives, welding equipment
Punch-Through (PT)	Lower conduction losses, optimized for 600V 1700V ranges	Solar inverters, uninterruptible power supplies (UPS)
Field-Stop (FS)	Reduced tail current, improved switching performance	Electric vehicle chargers, rail traction systems

3. Structure and Composition

A single IGBT typically consists of a four-layer semiconductor structure (P-N-P-N) with three electrodes: collector, gate, and emitter. The gate is isolated by a thin oxide layer, enabling voltage-controlled operation. Key components include:

Silicon die with doped regions forming the bipolar transistor structure
Polysilicon gate electrode with insulation layer
Metal layers for source/drain contacts
Thermal interface materials (e.g., solder die attach)

Common package types: TO-247, D2PAK, SOT-227, and direct copper bonding (DCB) modules.

4. Key Technical Specifications

Parameter	Typical Range	Test Conditions	Importance
Collector Current (IC)	10A 300A	T_C=25 C	Determines power handling capability
Collector-Emitter Voltage (V_CE)	600V 1700V	I_C=rated current	Defines voltage class
Forward Voltage Drop (V_{CE_sat})	1.5V 3.5V	I_C=rated, T_J=125 C	Impacts conduction losses
Switching Losses (E_on/E_off)	1mJ 100mJ	Resistive load, 150 C	Limits maximum operating frequency
Short-Circuit Withstand Time	1 s 10 s	V_CE=rated, I_C=2 rated	System reliability indicator

5. Application Areas

Power Electronics: Variable-frequency drives, uninterruptible power supplies (UPS)
Renewable Energy: Solar inverters, wind turbine converters
Automotive: Onboard chargers, battery management systems
Consumer Electronics: Induction cookers, plasma TVs
Rail Transport: Traction inverters, regenerative braking systems

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Features
Infineon Technologies	IGW40N120H3	1200V, 40A, FS technology
Mitsubishi Electric	CM200DY-12H	1200V, 200A, industrial grade
ON Semiconductor	FGA30N120ANTD	1200V, 30A, soft recovery diode integrated
STMicroelectronics	STGF100N650DT	650V, 100A, automotive qualified
Toshiba Electronic Devices	GT20NC140SRA	1400V, 20A, high short-circuit robustness

7. Selection Recommendations

Key factors to consider:

Voltage/Current Ratings: Select V_CE 1.2 system max voltage
Switching Frequency: High-frequency applications require low E_on/E_off
Thermal Management: Check R_th junction-to-case compatibility
Short-Circuit Requirements: Critical for motor drives and traction systems
Package Type: Through-hole vs. surface-mount based on assembly process

Example: For a 1500V PV inverter, select a PT-type IGBT with V_CE 1700V and E_off < 5mJ.

8. Industry Trends

Future developments include:

Adoption of wide-bandgap materials (SiC/IGBT hybrid devices)
Advanced packaging (double-sided cooling, silver sintering)
Integration with gate drivers (smart power modules)
Increased operating temperature capability (up to 175 C)
AI-driven reliability prediction models for lifetime optimization