TSM60NB380CP ROG N-Channel 600V 9.5A MOSFET Equivalent & Substitute Parts

Part Overview

The TSM60NB380CP ROG is an N-Channel MOSFET rated for 600V drain-to-source voltage with 9.5A continuous drain current in a Surface Mount TO-252 (DPAK) package. This component is classified as Obsolete, necessitating identification of equivalent and substitute parts for ongoing design requirements and production continuity. Equivalent parts maintain identical electrical and mechanical specifications, while substitute parts provide functional alternatives within acceptable parameter tolerances for the same application category.

Key Parameters

Parameter	Value	Unit
FET Type	N-Channel	—
Drain to Source Voltage (Vdss)	600	V
Continuous Drain Current (Id) @ 25°C	9.5	A
Rds On (Max) @ Id, Vgs	380 mOhm @ 2.85A, 10V	—
Gate Threshold Voltage (Vgs(th)) @ Id	4	V @ 250µA
Power Dissipation (Max)	83	W
Operating Temperature Range	-55 to 150	°C
Package Type	TO-252 (DPAK)	—
Mounting Type	Surface Mount	—
RoHS Status	ROHS3 Compliant	—

Substitute Part Grouping Explanation

Substitution of the TSM60NB380CP ROG is determined by the following critical parameters:

Voltage Rating (Vdss): The drain-to-source voltage must equal or exceed 600V. Parts rated below this threshold cannot be substituted.

Continuous Drain Current (Id): The substitute part must support a minimum of 9.5A continuous drain current at 25°C. Higher current ratings are acceptable.

On-State Resistance (Rds On): The maximum on-state resistance at specified gate and drain conditions must not exceed 380 mOhm to maintain equivalent switching performance and thermal characteristics.

Gate Threshold Voltage (Vgs(th)): Must be compatible with 4V @ 250µA specification to ensure proper gate drive compatibility.

Package and Mounting: All substitutes must use TO-252 (DPAK) Surface Mount package to maintain PCB layout compatibility.

Operating Temperature Range: Must support -55°C to 150°C junction temperature range.

Compliance: RoHS3 compliance is required for regulatory alignment.

Substitute parts are grouped into two categories: Parametric Equivalents (identical specifications, different product status or packaging format) and Similar Manufacturers (functionally compatible alternatives with minor parameter variations within acceptable application tolerances).

Parameter Comparison

Part Number	Manufacturer	Vdss (V)	Id @ 25°C (A)	Rds On (mOhm)	Vgs(th) (V)	Power Dissipation (W)	Package	Status
TSM60NB380CP ROG	Taiwan Semiconductor	600	9.5	380 @ 2.85A, 10V	4 @ 250µA	83	TO-252 (DPAK)	Obsolete
TSM60NB380CP	Taiwan Semiconductor	600	9.5	380 @ 2.85A, 10V	4 @ 250µA	83	TO-252 (DPAK)	Active
STD15N60M2-EP	STMicroelectronics	600	11	378 @ 5.5A, 10V	4 @ 250µA	110	TO-252 (DPAK)	Active
STD13N60DM2	STMicroelectronics	600	11	365 @ 5.5A, 10V	5 @ 250µA	110	TO-252 (DPAK)	Active
STD12N60M2	STMicroelectronics	600	9	450 @ 4.5A, 10V	4 @ 250µA	85	TO-252 (DPAK)	Active
SIHD14N60E-GE3	Vishay Siliconix	600	13	309 @ 7A, 10V	4 @ 250µA	147	TO-252 (DPAK)	Active
IPD50R380CEAUMA1	Infineon Technologies	500	14.1	380 @ 3.2A, 13V	3.5 @ 260µA	98	TO-252 (DPAK)	Active

Engineering Selection Recommendations

Parametric Equivalent (Recommended Primary Choice):

TSM60NB380CP (Tape & Reel packaging) is the direct parametric equivalent to TSM60NB380CP ROG. This part maintains identical electrical specifications and TO-252 (DPAK) package configuration. The primary distinction is product status (Active vs. Obsolete) and packaging format (Tape & Reel vs. Cut Tape & Digi-Reel). This part is suitable for direct substitution without circuit redesign.

Active Substitute Parts (600V Rating):

STD15N60M2-EP, STD13N60DM2, and STD12N60M2 (all STMicroelectronics MDmesh series) are Active products with 600V Vdss rating and TO-252 (DPAK) package compatibility. These parts exceed the minimum 9.5A continuous drain current requirement and maintain on-state resistance within acceptable parameters. STD15N60M2-EP and STD13N60DM2 provide higher current ratings (11A) with comparable or superior on-state resistance characteristics. STD12N60M2 provides 9A current rating with slightly higher on-state resistance (450 mOhm).

SIHD14N60E-GE3 (Vishay Siliconix) offers 600V Vdss with 13A continuous drain current and superior on-state resistance (309 mOhm @ 7A, 10V). This part is packaged in Tube format rather than Tape & Reel, requiring verification of procurement and assembly compatibility.

Voltage-Reduced Substitute (Limited Application):

IPD50R380CEAUMA1 (Infineon CoolMOS CE series) operates at 500V Vdss, which is below the original 600V specification. This part is suitable only for applications where the actual operating voltage does not exceed 500V. The part provides higher continuous drain current (14.1A) and maintains identical on-state resistance (380 mOhm) at different measurement conditions. Gate drive voltage requirement is 13V versus 10V for the original part.

Compliance Verification:

All recommended substitute parts maintain RoHS3 compliance and REACH Unaffected status, consistent with the original TSM60NB380CP ROG specifications.

Frequently Asked Questions (FAQ)

Q: Can TSM60NB380CP (Tape & Reel) be used as a direct replacement for TSM60NB380CP ROG (Cut Tape & Digi-Reel)?

A: Yes. These parts are parametric equivalents with identical electrical specifications. The difference is packaging format and product status. TSM60NB380CP is Active status. Verify that your procurement and assembly processes accommodate Tape & Reel packaging.

Q: What is the primary difference between the STMicroelectronics MDmesh M2 and MDmesh DM2 series substitutes?

A: STD15N60M2-EP (MDmesh M2-EP) and STD13N60DM2 (MDmesh DM2) both provide 600V, 11A ratings with comparable on-state resistance. The M2-EP variant includes enhanced performance features and maintains lower gate charge (17 nC vs. 19 nC). Both are suitable substitutes; selection depends on availability and procurement lead times.

Q: Why is IPD50R380CEAUMA1 listed as a substitute if it has only 500V rating?

A: IPD50R380CEAUMA1 is included as a substitute for applications where the actual circuit operating voltage does not exceed 500V. The 100V margin reduction may be acceptable in certain designs. This part must not be used in circuits requiring the full 600V rating. Verify circuit maximum voltage before selection.

Q: Are there packaging differences between substitute parts that affect PCB assembly?

A: Yes. Most substitutes use TO-252 (DPAK) package in Tape & Reel format. SIHD14N60E-GE3 is supplied in Tube packaging, which requires different handling and assembly procedures. Verify your assembly equipment and processes support the selected packaging format.

Q: What is the significance of on-state resistance (Rds On) variation among substitutes?

A: On-state resistance directly affects power dissipation and thermal performance. Lower Rds On values (such as SIHD14N60E-GE3 at 309 mOhm) reduce heat generation. Higher values (such as STD12N60M2 at 450 mOhm) increase thermal load. Select based on your thermal design requirements and available heatsinking.

Q: Can I use STD12N60M2 if my circuit requires 9.5A continuous current?

A: STD12N60M2 is rated for 9A continuous drain current, which is below the 9.5A requirement. This part is not suitable for applications requiring the full 9.5A specification. Use STD15N60M2-EP, STD13N60DM2, or SIHD14N60E-GE3 instead.

Q: What compliance certifications should I verify before final part selection?

A: All recommended substitutes maintain RoHS3 compliance and REACH Unaffected status. Verify these certifications match your regulatory requirements. Confirm Moisture Sensitivity Level (MSL) compatibility with your storage and assembly processes.

Q: Is gate drive voltage compatibility a concern when substituting parts?

A: The original TSM60NB380CP ROG requires 10V gate drive voltage. Most substitutes (STMicroelectronics and Vishay parts) also use 10V. IPD50R380CEAUMA1 requires 13V gate drive. Verify your gate driver circuit can supply the required voltage for your selected substitute.

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