DMP3010LPS-13 Equivalent & Substitute Parts

Part Overview

The DMP3010LPS-13 is a P-Channel MOSFET manufactured by Diodes Incorporated, rated for 30V drain-to-source voltage with 14.5A continuous drain current at 25°C. The device is housed in an 8-PowerTDFN surface mount package and is designed for power switching applications requiring compact form factors and efficient thermal management. The part maintains Active product status and is RoHS3 compliant with unlimited moisture sensitivity level (MSL 1).

Substitute parts are identified when equivalent electrical performance can be achieved within the specified parameter ranges while maintaining the same package type, voltage rating, and compliance certifications. Substitution becomes necessary when the primary part experiences supply constraints, extended lead times, or when design requirements permit operation within the electrical characteristics of alternative qualified devices.

Substiute Parts

DMP3010LPS-13

Diodes IncorporatedIn Stock: 15422DMP3010LPS-13 Datasheet

Current PartRFQ

DMP3007SPS-13

Diodes IncorporatedIn Stock: 2268DMP3007SPS-13 Datasheet

DirectRFQ

Key Parameters

Substitute Part Grouping Explanation

Substitution of the DMP3010LPS-13 is determined by strict equivalence across the following critical parameters:

Mandatory Equivalence Criteria:

• FET Type: P-Channel topology
• Drain to Source Voltage (Vdss): 30V rating
• Package / Case: 8-PowerTDFN form factor
• Mounting Type: Surface Mount
• RoHS Status: ROHS3 Compliant
• MSL: 1 (Unlimited)
• Operating Temperature Range: -55°C to 150°C (TJ)

Functional Compatibility Parameters:

• Continuous Drain Current (Id): Must support minimum 14.5A at 25°C
• Rds On (Max): Must not exceed specified on-resistance at rated conditions
• Gate Charge (Qg): Lower values indicate faster switching characteristics
• Input Capacitance (Ciss): Lower values reduce gate drive requirements
• Vgs(th): Threshold voltage must remain within acceptable gate drive voltage windows
• Power Dissipation: Must accommodate thermal requirements of the application

The DMP3007SPS-13 qualifies as a direct substitute based on identical voltage rating, package type, compliance certifications, and operating temperature range. The substitute device exhibits enhanced current handling capability (90A vs. 14.5A) and improved on-resistance characteristics, making it suitable for applications where the primary part is unavailable while maintaining full electrical compatibility within the specified parameter envelope.

Parameter Comparison

Engineering Selection Recommendations

Primary Part: DMP3010LPS-13

The DMP3010LPS-13 is the specified component for applications requiring 14.5A continuous drain current at 30V with the 8-PowerTDFN package. This device is Active in product status with full RoHS3 compliance and unlimited moisture sensitivity level, making it suitable for production deployment without supply-chain risk mitigation.

Substitute Part: DMP3007SPS-13

The DMP3007SPS-13 is qualified as a direct substitute when the primary part is unavailable. This device maintains identical voltage rating (30V Vdss), package type (8-PowerTDFN), operating temperature range (-55°C to 150°C TJ), and compliance certifications (RoHS3, MSL 1). The substitute part exhibits superior electrical characteristics including higher continuous drain current (90A), lower on-resistance (7mOhm @ 15A, 10V), reduced gate charge (64.2nC), and lower input capacitance (2826pF). These characteristics ensure the substitute device operates within or exceeds the performance envelope of the primary part.

Both devices are manufactured by Diodes Incorporated and are Active in product status. Selection between these parts is determined by availability and application current requirements. The DMP3007SPS-13 is suitable for applications where the primary part experiences supply constraints, provided the circuit design accommodates the enhanced performance characteristics.

Frequently Asked Questions (FAQ)

Q: Can the DMP3007SPS-13 be used as a direct replacement for the DMP3010LPS-13?

A: Yes. The DMP3007SPS-13 qualifies as a direct substitute. Both devices share identical drain-to-source voltage (30V), package type (8-PowerTDFN), operating temperature range (-55°C to 150°C), and compliance certifications (RoHS3, MSL 1). The substitute part supports higher continuous drain current (90A vs. 14.5A) and exhibits improved on-resistance characteristics, making it electrically compatible for applications designed around the primary part specifications.

Q: What are the key differences between these two P-Channel MOSFETs?

A: The primary differences are continuous drain current rating and associated parasitic characteristics. The DMP3007SPS-13 provides 90A continuous drain current compared to 14.5A for the DMP3010LPS-13. The substitute part exhibits lower on-resistance (7mOhm @ 15A, 10V vs. 7.5mOhm @ 10A, 10V), reduced gate charge (64.2nC vs. 126.2nC), and lower input capacitance (2826pF vs. 6234pF). These characteristics result in faster switching performance and reduced gate drive power requirements.

Q: Are there any package or mounting differences between these parts?

A: No. Both the DMP3010LPS-13 and DMP3007SPS-13 use the 8-PowerTDFN surface mount package. PCB layout, footprint, and reflow soldering parameters remain identical between the two devices. No circuit board modifications are required for substitution.

Q: Do both parts meet the same compliance and environmental standards?

A: Yes. Both devices are RoHS3 compliant, REACH unaffected, and carry MSL 1 (unlimited moisture sensitivity level). Both operate across the identical temperature range of -55°C to 150°C (TJ). Compliance certifications and environmental ratings are equivalent between the primary and substitute parts.

Q: What is the gate charge difference and how does it affect circuit design?

A: The DMP3007SPS-13 exhibits lower gate charge (64.2nC @ 10V) compared to the DMP3010LPS-13 (126.2nC @ 10V). Lower gate charge reduces the energy required to switch the device and decreases switching time. This characteristic benefits high-frequency switching applications and reduces gate driver power dissipation. Existing gate driver circuits designed for the primary part will operate with improved performance margins when driving the substitute device.

Q: Can the substitute part handle the same power dissipation as the primary part?

A: The DMP3007SPS-13 is rated for 2.7W maximum power dissipation compared to 2.18W for the DMP3010LPS-13. The substitute part accommodates higher power dissipation, providing additional thermal margin. Applications designed within the 2.18W thermal budget of the primary part will operate safely with the substitute device.

Q: Are there any gate voltage (Vgs) considerations when substituting these parts?

A: The DMP3007SPS-13 supports a maximum gate voltage of ±25V compared to ±20V for the DMP3010LPS-13. The substitute part provides expanded gate voltage operating range. The threshold voltage (Vgs(th)) differs slightly: 3V @ 250µA for the substitute versus 2.1V @ 250µA for the primary part. Both values remain within standard gate driver voltage windows and do not present compatibility issues for typical switching applications.