Infineon IPP Silicon P-Channel MOSFET, 120 A, 40 V, 3-Pin TO-220 IPP120P04P4L03AKSA2

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Subtotal (1 tube of 50 units)*

£122.55

(exc. VAT)

£147.05

(inc. VAT)

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Per Tube*
50 - 50£2.451£122.55
100 - 200£2.206£110.30
250 +£2.083£104.15

*price indicative

RS Stock No.:
229-1846
Mfr. Part No.:
IPP120P04P4L03AKSA2
Brand:
Infineon
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Brand

Infineon

Channel Type

P

Maximum Continuous Drain Current

120 A

Maximum Drain Source Voltage

40 V

Series

IPP

Package Type

TO-220

Mounting Type

Through Hole

Pin Count

3

Maximum Drain Source Resistance

0.0034 Ω

Channel Mode

Enhancement

Maximum Gate Threshold Voltage

2.2V

Number of Elements per Chip

1

Transistor Material

Silicon

Infineon Series IPP MOSFET, 120A Maximum Continuous Drain Current, 40V Maximum Drain Source Voltage - IPP120P04P4L03AKSA2


This silicon MOSFET is designed for high performance within various applications. The component features a TO-220 package that enhances its capability for effective thermal dissipation. With a maximum continuous drain current of 120A and a drain-source voltage of 40V, it offers excellent operational flexibility in demanding environments. The MOSFET operates efficiently across a wide temperature range, making it suitable for automotive and industrial applications.

Features & Benefits


• P-channel enhancement mode ensures efficient switching performance
• AEC qualified, meeting rigorous automotive standards
• Maximum operating temperature of +175°C allows for demanding requirement
• MSL1 rating supports high-temperature reflow processes

Applications


• Used in automotive control systems for efficient power management
• Effective for electric motor drive in robotics
• Incorporated into power supply circuits in industrial machinery
• Suitable for consumer electronics where compact size is essential

What is the significance of the maximum continuous drain current rating?


The maximum continuous drain current rating indicates the highest amount of current the device can handle under normal operating conditions, which is essential for ensuring reliability in applications demanding high current capacity.

How does the low Rds(on) contribute to power efficiency?


A low Rds(on) reduces power losses during operation, allowing devices to run cooler and enhancing overall system energy efficiency, which is particularly beneficial in battery-operated designs.

What safety features does this component offer for harsh environments?


This device is 100% avalanche tested, ensuring it can withstand transient conditions without failure, which is crucial for protecting circuits in unpredictable environments such as automotive and industrial applications.

What performance characteristics should one consider when integrating this component into existing systems?


Key characteristics like gate threshold voltage, maximum gate-source voltage, and thermal resistance should be evaluated to ensure compatibility with existing circuit designs and to optimise performance.

How does the operating temperature range enhance its usability in different applications?


With an operating temperature range from -55°C to +175°C, this MOSFET is versatile enough for use across a broad spectrum of applications, from extreme cold environments to high-temperature operational settings.

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