Infineon IPP Type N-Channel MOSFET, 13 A, 600 V, 3-Pin TO-220 IPP60R040S7XKSA1

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Verpakkingsopties
RS-stocknr.:
260-1216
Fabrikantnummer:
IPP60R040S7XKSA1
Fabrikant:
Infineon
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Merk

Infineon

Channel Type

Type N

Product Type

MOSFET

Maximum Continuous Drain Current Id

13A

Maximum Drain Source Voltage Vds

600V

Series

IPP

Package Type

TO-220

Mount Type

Through Hole

Pin Count

3

Maximum Drain Source Resistance Rds

40mΩ

Forward Voltage Vf

0.82V

Minimum Operating Temperature

-55°C

Maximum Gate Source Voltage Vgs

30 V

Maximum Power Dissipation Pd

245W

Typical Gate Charge Qg @ Vgs

83nC

Maximum Operating Temperature

150°C

Standards/Approvals

RoHS

Length

10.36mm

Width

15.95 mm

Height

4.57mm

Automotive Standard

No

Infineon Series IPP MOSFET Transistor, 600V Maximum Drain Source Voltage, 13A Maximum Continuous Drain Current - IPP60R040S7XKSA1


This MOSFET transistor is a cutting-edge high-voltage semiconductor component designed for efficient power switching. With robust specifications including a continuous drain current of 13A and a maximum drain-source voltage of 600V, it is encapsulated in a TO-220 package, making it suitable for a variety of applications. Ensuring reliable performance in demanding environments, it operates within a wide temperature range from -55°C to +150°C.

Features & Benefits


• Designed with CoolMOS™ S7 technology to minimise conduction losses

• Offers a low on-state resistance of 40mΩ for enhanced efficiency

• Capable of handling high pulse currents for demanding requirements

• Optimised for low-frequency switching applications, improving system performance

• Built-in features ensure high reliability in static switching scenarios

Applications


• Utilised for solid-state relays and innovative circuit breaker designs

• Ideal for line rectification within high-power performances such as computing and telecommunications

• Applicable in renewable energy solutions, particularly solar inverters

What are the critical features impacting thermal performance?


The device boasts a maximum power dissipation of 245W and a thermal resistance from junction to ambient of 62°C/W, facilitating effective heat management. This ensures longevity and reliability in demanding operational conditions.

How does this component enhance system efficiency for low-frequency applications?


With its low on-state resistance and CoolMOS™ technology, energy losses during operation are significantly reduced, enabling improved overall efficiency and minimising heat generation in low-frequency environments.

What are the recommended practices for using this in high-voltage applications?


It is advisable to evaluate the impact of cosmic radiation during the design phase and consider appropriate design practices, such as using ferrite beads on the gate for parallel applications, to mitigate any potential issues.

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