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Equivalent & Substitute Parts for Microchip Technology APT6010B2LLG MOSFET
Part Overview
Microchip Technology’s APT6010B2LLG is an N-Channel power MOSFET categorized under Transistors, FETs, MOSFETs. Key details include a 600 V drain-source voltage, 54A continuous drain current (Tc), and a TO-247-3 variant through-hole package. The product is currently active, with RoHS3 and REACH compliance. Applications requiring its electrical characteristics, mechanical features, or product status may necessitate identifying alternative MOSFET models for second-sourcing, design flexibility, or inventory constraints. Substitutes must match key parameters to ensure proper functionality and compliance.
Substiute Parts
Key Parameters
| Parameter | Specification |
|---|---|
| Category | Transistors, FETs, MOSFETs |
| FET Type | N-Channel |
| Technology | MOSFET (Metal Oxide) |
| Drain-Source Voltage (Vdss) | 600 V |
| Continuous Drain Current (Id) @ 25°C | 54A (Tc) |
| Rds On (Max) @ Id, Vgs | 100mOhm @ 27A, 10V |
| Vgs(th) (Max) @ Id | 5V @ 2.5mA |
| Gate Charge (Qg) (Max) @ Vgs | 150 nC @ 10 V |
| Vgs (Max) | ±30V |
| Input Capacitance (Ciss) (Max) @ Vds | 6710 pF @ 25 V |
| Power Dissipation (Max) | 690W (Tc) |
| Operating Temperature | -55°C ~ 150°C (TJ) |
| Mounting Type | Through Hole |
| Package / Case | TO-247-3 Variant |
| RoHS Status | ROHS3 Compliant |
| REACH Status | REACH Unaffected |
Substitute Part Grouping Explanation
Substitute MOSFETs are grouped strictly by matching the following key parameters: category (Transistors, FETs, MOSFETs), FET type (N-Channel), technology (MOSFET), drain-source voltage (Vdss), Rds On (max), continuous drain current (Id), gate charge (Qg), Vgs(th) (max), Vgs (max), input capacitance (Ciss), power dissipation, operating temperature range, mounting type (Through Hole), and package/case (TO-247-3 or variants). Compliance details (RoHS and REACH) and product status are also considered.
Parameter Comparison
| Manufacturer Part Number | Vdss | Id @ 25°C | Rds On (Max) @ Id, Vgs | Vgs(th) (Max) @ Id | Qg (Max) @ Vgs | Vgs (Max) | Ciss (Max), Vds | Power Dissipation (Max) | Operating Temp | Mounting Type | Package / Case | RoHS | REACH | Status |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| APT6010B2LLG | 600 V | 54A (Tc) | 100mOhm @ 27A, 10V | 5V @ 2.5mA | 150 nC @ 10 V | ±30V | 6710 pF @ 25 V | 690W (Tc) | -55°C ~ 150°C (TJ) | Through Hole | TO-247-3 Variant | ROHS3 | Unaffected | Active |
| FCH104N60 | 600 V | 37A (Tc) | 104mOhm @ 18.5A, 10V | 3.5V @ 250µA | 82 nC @ 10 V | ±20V | 4165 pF @ 380 V | 357W (Tc) | -55°C ~ 150°C (TJ) | Through Hole | TO-247-3 | ROHS3 | Unaffected | Obsolete |
| FCH104N60F-F085 | 600 V | 37A (Tc) | 104mOhm @ 18.5A, 10V | 5V @ 250µA | 139 nC @ 10 V | ±20V | 4302 pF @ 100 V | 357W (Tc) | -55°C ~ 150°C (TJ) | Through Hole | TO-247-3 | ROHS3 | Unaffected | Not For New Designs |
| IPW60R075CPFKSA1 | 650 V | 39A (Tc) | 75mOhm @ 26A, 10V | 3.5V @ 1.7mA | 116 nC @ 10 V | ±20V | 4000 pF @ 100 V | 313W (Tc) | -55°C ~ 150°C (TJ) | Through Hole | TO-247-3 | ROHS3 | Unaffected | Not For New Designs |
| IPW60R099C6FKSA1 | 600 V | 37.9A (Tc) | 99mOhm @ 18.1A, 10V | 3.5V @ 1.21mA | 119 nC @ 10 V | ±20V | 2660 pF @ 100 V | 278W (Tc) | -55°C ~ 150°C (TJ) | Through Hole | TO-247-3 | ROHS3 | Unaffected | Not For New Designs |
| IPW60R099CPFKSA1 | 650 V | 31A (Tc) | 99mOhm @ 18A, 10V | 3.5V @ 1.2mA | 80 nC @ 10 V | ±20V | 2800 pF @ 100 V | 255W (Tc) | -55°C ~ 150°C (TJ) | Through Hole | TO-247-3 | ROHS3 | Unaffected | Not For New Designs |
| IPW60R125C6FKSA1 | 600 V | 30A (Tc) | 125mOhm @ 14.5A, 10V | 3.5V @ 960µA | 96 nC @ 10 V | ±20V | 2127 pF @ 100 V | 219W (Tc) | -55°C ~ 150°C (TJ) | Through Hole | TO-247-3 | ROHS3 | Unaffected | Not For New Designs |
| IXFR64N60Q3 | 600 V | 42A (Tc) | 104mOhm @ 32A, 10V | 6.5V @ 4mA | 190 nC @ 10 V | ±30V | 9930 pF @ 25 V | 568W (Tc) | -55°C ~ 150°C (TJ) | Through Hole | TO-247-3 | ROHS3 | Unaffected | Active |
| R6046FNZ1C9 | 600 V | 46A (Tc) | 98mOhm @ 23A, 10V | 5V @ 1mA | 150 nC @ 10 V | ±30V | 6230 pF @ 25 V | 120W (Tc) | 150°C (TJ) | Through Hole | TO-247-3 | ROHS3 | Unaffected | Obsolete |
| SPW32N50C3FKSA1 | 560 V | 32A (Tc) | 110mOhm @ 20A, 10V | 3.9V @ 1.8mA | 170 nC @ 10 V | ±20V | 4200 pF @ 25 V | 284W (Tc) | -55°C ~ 150°C (TJ) | Through Hole | TO-247-3 | ROHS3 | Unaffected | Active |
| SPW35N60CFDFKSA1 | 600 V | 34.1A (Tc) | 118mOhm @ 21.6A, 10V | 5V @ 1.9mA | 212 nC @ 10 V | ±20V | 5060 pF @ 25 V | 313W (Tc) | -55°C ~ 150°C (TJ) | Through Hole | TO-247-3 | ROHS3 | Unaffected | Not For New Designs |
| STW34NM60N | 600 V | 29A (Tc) | 105mOhm @ 14.5A, 10V | 4V @ 250µA | 80 nC @ 10 V | ±25V | 2722 pF @ 100 V | 250W (Tc) | 150°C (TJ) | Through Hole | TO-247-3 | ROHS3 | Unaffected | Active |
Engineering Selection Recommendations
Selection should be based on product status (Active or Obsolete), RoHS3 compliance, and REACH status. All listed substitute parts are specified as ROHS3 Compliant and REACH Unaffected. The mounting type and package (Through Hole, TO-247-3 or variant) match the main part. Substitute parts with "Active" product status are suitable for ongoing designs, while those with "Obsolete" or "Not For New Designs" status should be used in accordance with lifecycle and availability requirements.
Frequently Asked Questions (FAQ)
Q: What are the primary substitution criteria for MOSFETs in this category?
A: Substitution is determined by matching FET type (N-Channel), technology, voltage and current ratings, Rds On, gate and input capacitance, mounting type, package/case, operating temperature, RoHS compliance, and REACH status.
Q: Is it necessary for substitute parts to have identical electrical and mechanical parameters?
A: Substitute MOSFETs must match key electrical and mechanical parameters within the provided specifications to ensure compatibility. Only parameters explicitly listed in the input are considered for equivalence.
Q: Can a substitute with a different package variant be considered equivalent?
A: Only substitute parts with the same through-hole mounting type and a TO-247-3 or equivalent package are included, according to the supplied data.
Q: How does product status impact substitute part selection?
A: Substitutes with "Active" status are preferred for new designs. Parts with "Obsolete" or "Not For New Designs" status should only be used where appropriate, based on lifecycle and availability.
Q: Are environmental compliance and certifications considered in selection?
A: RoHS3 and REACH status are included in substitution criteria. Only substitutes matching or exceeding these certifications are listed. No recommendation is offered beyond input data.
Q: Why is Vgs(th) and gate charge (Qg) considered in the equivalence table?
A: Vgs(th) and Qg affect compatibility in gate drive design and switching performance. Only values as provided are considered in equivalence.
Q: How is compatibility with the original mounting and assembly ensured?
A: All listed substitute parts have a through-hole mounting type and TO-247-3 or equivalent mechanical outline, consistent with the main part's specifications.
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