Infineon HEXFET Type N-Channel MOSFET, 2.6 A, 150 V Enhancement, 4-Pin SOT-223 IRFL4315TRPBF

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Kr.56 70 

(exc. VAT)

Kr.70 90 

(inc. VAT)

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Packaging Options:
RS Stock No.:
865-5822
Mfr. Part No.:
IRFL4315TRPBF
Brand:
Infineon
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Brand

Infineon

Product Type

MOSFET

Channel Type

Type N

Maximum Continuous Drain Current Id

2.6A

Maximum Drain Source Voltage Vds

150V

Package Type

SOT-223

Series

HEXFET

Mount Type

Surface

Pin Count

4

Maximum Drain Source Resistance Rds

185mΩ

Channel Mode

Enhancement

Maximum Power Dissipation Pd

2.8W

Maximum Gate Source Voltage Vgs

30 V

Minimum Operating Temperature

-55°C

Forward Voltage Vf

1.5V

Typical Gate Charge Qg @ Vgs

12nC

Maximum Operating Temperature

150°C

Length

6.7mm

Standards/Approvals

No

Height

1.8mm

Width

3.7 mm

Automotive Standard

No

Distrelec Product Id

304-44-459

Infineon HEXFET Series MOSFET, 2.6A Maximum Continuous Drain Current, 2.8W Maximum Power Dissipation - IRFL4315TRPBF


This MOSFET is suitable for power applications, delivering solid performance and enhanced reliability in various environments. As a key component in switching applications, it enables efficient control of power delivery. Its surface mount design makes it a good fit for high-performance circuits that require low gate-to-drain charge, minimising switching losses, which is beneficial for users in the automation and electronics industries.

Features & Benefits


• Continuous drain current rating of 2.6A accommodates a range of applications

• Maximum drain-source voltage of 150V facilitates high-power operations

• Low Rds(on) of 185mΩ improves energy efficiency

• Operating temperature range from -55°C to +150°C supports dependable performance

• Gate threshold voltage is optimised for easier circuit design

• Fully characterised avalanche characteristics provide additional protection

Applications


• High-frequency DC-DC converters

• Power management systems for improved efficiency

• Switching power supplies for enhanced performance

What is the significance of the low Rds(on) value?


A low Rds(on) reduces power losses during operation, improving overall efficiency across multiple applications.

How does the wide temperature range affect usage?


The wide operating temperature range ensures reliable performance in extreme conditions, making it suitable for diverse environments.

Can it be used in both high and low-frequency applications?


Yes, it accommodates both high-frequency DC-DC converters and applications requiring low-frequency switching.

What should be considered for installation?


Proper circuit layout and thermal management should be taken into account to optimise performance during installation.

How does the gate threshold voltage impact circuit design?


The gate threshold voltage allows for better control over switching behaviour, facilitating easier design of the driving circuit.

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