TSM80N950CP ROG Equivalent & Substitute Parts

Part Overview

The TSM80N950CP ROG is an N-Channel MOSFET rated for 800V drain-to-source voltage with 6A continuous drain current in a surface mount TO-252 (DPAK) package. This device is classified as obsolete, making identification of equivalent and substitute parts necessary for ongoing design support and procurement continuity. The part operates across a temperature range of -55°C to 150°C and dissipates up to 110W at the case temperature, suitable for high-voltage switching applications.

Substiute Parts

TSM80N950CP ROG

Taiwan Semiconductor CorporationIn Stock: 1126TSM80N950CP ROG Datasheet

Current PartRFQ

TSM80N950CP

Taiwan Semiconductor CorporationIn Stock: 2489TSM80N950CP Datasheet

Parametric EquivalentRFQ

IPD60R1K0CEAUMA1

Infineon TechnologiesIn Stock: 5464IPD60R1K0CEAUMA1 Datasheet

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IPD80R1K0CEATMA1

Infineon TechnologiesIn Stock: 3202IPD80R1K0CEATMA1 Datasheet

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SPD06N80C3ATMA1

Infineon TechnologiesIn Stock: 1402SPD06N80C3ATMA1 Datasheet

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STD7N65M2

STMicroelectronicsIn Stock: 9587STD7N65M2 Datasheet

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TK5P60W,RVQ

Toshiba Semiconductor and StorageIn Stock: 3172TK5P60W,RVQ Datasheet

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Key Parameters

Substitute Part Grouping Explanation

Substitution of the TSM80N950CP ROG is determined by the following critical parameters:

Voltage Rating: The drain-to-source voltage (Vdss) must be 800V or greater to maintain circuit protection margins in high-voltage applications.

Current Rating: The continuous drain current (Id) must be 6A or greater to support the load requirements without thermal stress.

On-State Resistance: The Rds On value at specified gate and drain conditions determines power dissipation and thermal performance. Values at or below 950mOhm @ 10V gate drive are acceptable.

Package Compatibility: All substitutes must use the TO-252 (DPAK) surface mount package to ensure mechanical and thermal interface compatibility.

Temperature Range: Operating temperature range must span -55°C to 150°C minimum to match the original specification.

Compliance: RoHS3 compliance is required for regulatory alignment.

Substitute parts are grouped into two categories: parametric equivalents (identical electrical specifications) and similar parts (comparable performance within acceptable tolerances).

Parameter Comparison

Engineering Selection Recommendations

Primary Equivalent: The TSM80N950CP (non-ROG variant) from Taiwan Semiconductor Corporation is the direct parametric equivalent. This part maintains identical electrical specifications and is currently in active production status, providing the most straightforward replacement path for the obsolete TSM80N950CP ROG.

Recommended Substitutes for 800V Applications: The SPD06N80C3ATMA1 and IPD80R1K0CEATMA1 are both qualified substitutes for 800V applications. The SPD06N80C3ATMA1 offers improved on-state resistance (900mOhm versus 950mOhm) and is available in higher quantities. The IPD80R1K0CEATMA1 maintains the 950mOhm specification and provides superior moisture sensitivity rating (MSL 1 versus MSL 3).

Lower Voltage Alternatives: The IPD60R1K0CEAUMA1, STD7N65M2, and TK5P60W,RVQ are suitable only for applications where the circuit voltage does not exceed 600V or 650V respectively. These parts are not interchangeable in 800V-rated circuits.

Compliance Verification: All recommended substitutes carry RoHS3 compliance and REACH unaffected status, matching the regulatory requirements of the original part.

Frequently Asked Questions (FAQ)

Q: Can the SPD06N80C3ATMA1 directly replace the TSM80N950CP ROG?

A: Yes. Both parts share identical 800V Vdss rating, 6A continuous drain current, and TO-252 (DPAK) package. The SPD06N80C3ATMA1 features lower on-state resistance (900mOhm versus 950mOhm), resulting in reduced power dissipation. Pin configuration and thermal characteristics are compatible.

Q: What is the difference between the TSM80N950CP ROG and TSM80N950CP?

A: The TSM80N950CP ROG is classified as obsolete, while the TSM80N950CP is in active production. Both parts are electrically and mechanically identical. The TSM80N950CP should be selected for new designs and ongoing procurement.

Q: Can I use the IPD60R1K0CEAUMA1 in place of the TSM80N950CP ROG?

A: No. The IPD60R1K0CEAUMA1 is rated for 600V maximum, which is insufficient for 800V applications. Using this part in an 800V circuit will result in device failure.

Q: What does MSL rating mean, and why does it matter?

A: Moisture Sensitivity Level (MSL) indicates the maximum time a component can be exposed to ambient conditions before soldering. MSL 1 (unlimited) provides greater flexibility in storage and handling compared to MSL 3 (168 hours). The IPD80R1K0CEATMA1 offers MSL 1 for improved supply chain management.

Q: Are all substitute parts available in the same packaging format?

A: Yes. All listed substitutes use the TO-252 (DPAK) surface mount package with identical pin configuration and thermal interface. PCB layout modifications are not required.

Q: How do I determine which substitute is best for my application?

A: Selection depends on your circuit voltage requirement. For 800V circuits, choose between TSM80N950CP, SPD06N80C3ATMA1, or IPD80R1K0CEATMA1. For circuits operating below 650V, lower-voltage alternatives may be considered. Verify on-state resistance and power dissipation specifications against your thermal design requirements.

Q: What is the significance of the Rds On specification?

A: On-state resistance (Rds On) determines the voltage drop across the transistor during conduction and directly affects power dissipation. Lower Rds On values reduce heat generation. The SPD06N80C3ATMA1 (900mOhm) dissipates less power than the original TSM80N950CP ROG (950mOhm) under identical operating conditions.