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IRGI4062DPBF IGBT 600V 22A Equivalent & Substitute Parts
Part Overview
The IRGI4062DPBF is an Infineon Technologies IGBT (Insulated Gate Bipolar Transistor) rated for 600V collector-emitter breakdown voltage with 22A maximum collector current and 48W power dissipation. This component features a Trench architecture in a Through Hole TO-220AB Full-Pak package configuration. The part is classified as Obsolete, necessitating identification of functionally equivalent alternatives for ongoing design support and procurement continuity.
Substiute Parts
Key Parameters
| Parameter | Value | Unit |
|---|---|---|
| Voltage - Collector Emitter Breakdown (Max) | 600 | V |
| Current - Collector (Ic) (Max) | 22 | A |
| Current - Collector Pulsed (Icm) | 44 | A |
| Power - Max | 48 | W |
| Vce(on) (Max) @ Vge, Ic | 1.58V @ 15V, 12A | V |
| Gate Charge | 48 | nC |
| Switching Energy (on/off) | 31µJ / 183µJ | µJ |
| Td (on/off) @ 25°C | 41ns / 100ns | ns |
| Reverse Recovery Time (trr) | 56 | ns |
| Operating Temperature Range | -55 to 150 | °C (TJ) |
| Mounting Type | Through Hole | - |
| Package / Case | TO-220-3 Full Pack | - |
| IGBT Type | Trench | - |
| Input Type | Standard | - |
| Moisture Sensitivity Level (MSL) | 1 (Unlimited) | - |
Substitute Part Grouping Explanation
Substitution eligibility for the IRGI4062DPBF is determined by the following critical parameters:
Voltage Rating: The substitute part must maintain the 600V collector-emitter breakdown voltage specification to ensure safe operation within the same circuit topology.
Current Rating: The substitute part current rating must equal or exceed the 22A maximum collector current requirement. The STGF10H60DF provides 20A maximum collector current, which represents a 9% reduction from the original specification.
Power Dissipation: The substitute part power rating must support the thermal requirements of the application. The STGF10H60DF is rated for 30W maximum power, compared to 48W for the original part.
Package Configuration: Both parts utilize Through Hole mounting in TO-220-3 Full Pack configurations, ensuring mechanical and thermal interface compatibility.
IGBT Architecture: The substitute employs Trench Field Stop technology, an advancement over the original Trench design, providing improved switching characteristics.
Operating Temperature Range: The substitute part extends the upper temperature limit to 175°C (TJ) compared to 150°C (TJ) for the original part.
Parameter Comparison
| Parameter | IRGI4062DPBF (Original) | STGF10H60DF (Substitute) | Compatibility Notes |
|---|---|---|---|
| Manufacturer | Infineon Technologies | STMicroelectronics | Different manufacturer |
| Voltage - Collector Emitter Breakdown (Max) | 600 V | 600 V | Matched |
| Current - Collector (Ic) (Max) | 22 A | 20 A | Substitute rated 9% lower |
| Current - Collector Pulsed (Icm) | 44 A | 40 A | Substitute rated 9% lower |
| Power - Max | 48 W | 30 W | Substitute rated 37.5% lower |
| Vce(on) (Max) @ Vge, Ic | 1.58V @ 15V, 12A | 1.95V @ 15V, 10A | Substitute exhibits higher on-state voltage |
| Gate Charge | 48 nC | 57 nC | Substitute requires 18.75% higher gate charge |
| Switching Energy (on) | 31 µJ | 83 µJ | Substitute exhibits 168% higher turn-on energy |
| Switching Energy (off) | 183 µJ | 140 µJ | Substitute exhibits 23.5% lower turn-off energy |
| Td (on/off) @ 25°C | 41ns / 100ns | 19.5ns / 103ns | Substitute exhibits faster turn-on, similar turn-off |
| Reverse Recovery Time (trr) | 56 ns | 107 ns | Substitute exhibits 91% longer recovery time |
| Operating Temperature Range | -55 to 150 °C (TJ) | -55 to 175 °C (TJ) | Substitute supports 25°C higher maximum junction temperature |
| Mounting Type | Through Hole | Through Hole | Matched |
| Package / Case | TO-220-3 Full Pack | TO-220-3 Full Pack | Matched |
| IGBT Type | Trench | Trench Field Stop | Substitute uses advanced architecture |
| Product Status | Obsolete | Active | Substitute is in active production |
| RoHS Status | Not specified | ROHS3 Compliant | Substitute meets RoHS3 requirements |
Engineering Selection Recommendations
Product Status Consideration: The IRGI4062DPBF is classified as Obsolete, while the STGF10H60DF is Active. This status difference indicates that the substitute part is currently manufactured and supported by STMicroelectronics, providing long-term availability and supply chain stability.
Compliance and Certifications: The STGF10H60DF carries ROHS3 Compliant certification, whereas the original part does not specify RoHS compliance status. Both parts are REACH Unaffected and classified under ECCN EAR99. The substitute part's explicit RoHS3 compliance may be advantageous for applications subject to environmental regulations.
Thermal Performance: The STGF10H60DF supports an extended operating temperature range to 175°C (TJ) compared to 150°C (TJ) for the original part, providing additional thermal margin in high-temperature applications.
Current and Power Ratings: The substitute part is rated for 20A maximum collector current and 30W power dissipation, both lower than the original 22A and 48W specifications. Applications operating at or near the original part's maximum ratings may require thermal or current derating analysis when transitioning to the substitute.
Switching Characteristics: The STGF10H60DF exhibits faster turn-on delay (19.5ns versus 41ns) but longer reverse recovery time (107ns versus 56ns). These differences may affect switching losses and electromagnetic interference characteristics in the application circuit.
On-State Voltage: The substitute part exhibits higher on-state voltage (1.95V @ 15V, 10A versus 1.58V @ 15V, 12A), resulting in increased conduction losses. This parameter difference must be evaluated against the specific application's duty cycle and thermal budget.
Frequently Asked Questions (FAQ)
Q: Can the STGF10H60DF directly replace the IRGI4062DPBF in all applications?
A: Direct replacement is possible from a mechanical and electrical interface perspective, as both parts share identical 600V voltage ratings, Through Hole mounting, and TO-220-3 Full Pack packaging. However, the substitute part's lower current rating (20A versus 22A), reduced power dissipation capability (30W versus 48W), and different switching characteristics require application-specific evaluation. Applications operating near the original part's maximum ratings must be reassessed.
Q: What are the key differences in switching performance between these parts?
A: The STGF10H60DF exhibits significantly faster turn-on delay (19.5ns versus 41ns), resulting in lower turn-on switching energy (83µJ versus 31µJ). However, the substitute part demonstrates longer reverse recovery time (107ns versus 56ns) and higher turn-off switching energy (140µJ versus 183µJ). These differences affect overall switching losses and must be evaluated within the specific application's switching frequency and circuit topology.
Q: How does the on-state voltage difference impact application performance?
A: The STGF10H60DF exhibits higher on-state voltage (1.95V @ 15V, 10A) compared to the IRGI4062DPBF (1.58V @ 15V, 12A). This 0.37V difference increases conduction losses proportionally to the collector current and duty cycle. Applications with high average current or continuous operation will experience increased heat dissipation in the substitute part. Thermal analysis is required to ensure adequate heat sinking capacity.
Q: Are there packaging or pinout differences between these parts?
A: Both parts utilize identical TO-220-3 Full Pack configurations with Through Hole mounting. Pinout and mechanical dimensions are compatible, allowing direct socket substitution without PCB modifications. The supplier device packages differ (TO-220AB Full-Pak versus TO-220FP), but both conform to standard TO-220-3 specifications.
Q: What is the significance of the Trench Field Stop architecture in the substitute part?
A: The STGF10H60DF employs Trench Field Stop technology, an advancement over the original Trench design. This architecture typically provides improved switching speed and reduced switching losses compared to conventional Trench IGBTs. The faster turn-on delay observed in the substitute part reflects this technological advancement.
Q: How does the extended temperature range of the substitute part affect application design?
A: The STGF10H60DF supports operation to 175°C (TJ) compared to 150°C (TJ) for the original part. This 25°C extension provides additional thermal margin in high-temperature environments. Applications designed for the original part's 150°C maximum may benefit from the substitute's higher temperature capability, particularly in automotive or industrial applications with elevated ambient temperatures.
Q: What inventory and supply considerations apply to these parts?
A: The IRGI4062DPBF is classified as Obsolete with 1056 pieces reported in stock. The STGF10H60DF is Active with 1250 pieces in stock. Long-term procurement strategy should favor the Active substitute part to ensure continued availability and avoid future obsolescence-related supply disruptions.
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