Infineon HEXFET N-Channel MOSFET, 23 A, 150 V, 3-Pin TO-220AB IRF3315PBF

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RS Stock No.:
178-1454
Mfr. Part No.:
IRF3315PBF
Brand:
Infineon
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Brand

Infineon

Channel Type

N

Maximum Continuous Drain Current

23 A

Maximum Drain Source Voltage

150 V

Series

HEXFET

Package Type

TO-220AB

Mounting Type

Through Hole

Pin Count

3

Maximum Drain Source Resistance

70 mΩ

Channel Mode

Enhancement

Maximum Gate Threshold Voltage

4V

Minimum Gate Threshold Voltage

2V

Maximum Power Dissipation

94 W

Transistor Configuration

Single

Maximum Gate Source Voltage

-20 V, +20 V

Number of Elements per Chip

1

Transistor Material

Si

Maximum Operating Temperature

+175 °C

Typical Gate Charge @ Vgs

95 nC @ 10 V

Length

10.54mm

Width

4.69mm

Height

8.77mm

Minimum Operating Temperature

-55 °C

Infineon HEXFET Series MOSFET, 23A Maximum Continuous Drain Current, 94W Maximum Power Dissipation - IRF3315PBF


This high-performance MOSFET is designed for a variety of electronic applications. With an N-channel configuration, it plays a vital role in power management solutions, enabling efficient switching in circuits that handle high current and voltage levels. Its robust features meet the requirements of automation, electronics, and mechanical applications.

Features & Benefits


• Continuous drain current rating supports demanding applications

• Maximum drain-source voltage of 150V ensures dependable performance

• Low Rds(on) value reduces power loss in high-frequency applications

• Operable at temperatures up to +175°C for enhanced durability

• Dual gate threshold voltage range ensures compatibility with various circuits

• Suitable for enhancement mode operation for increased performance flexibility

Applications


• Utilised in power supply circuits for effective voltage regulation

• Integrated into motor control solutions for optimal output management

• Used in automotive that require dependability

• Applicable in industrial automation systems that demand precision

• Employed in renewable energy systems to improve power management

How can I determine the suitability for my application?


Evaluating specifications such as maximum current and voltage ratings will help ascertain compatibility with your application’s requirements.

What installation considerations should I be aware of?


Proper heatsinking and thermal management should be ensured, given the potential for high power dissipation and maximum operating temperatures.

How does the gate threshold voltage affect functionality?


The threshold voltage impacts the device’s switching characteristics and must align with the driving signal levels in your circuit for optimal performance.

Can it handle high-frequency switching applications?


Yes, its low Rds(on) and fast switching characteristics make it suitable for high-frequency operations without excessive heat generation.

What is the expected lifespan of the component under continuous use?


Lifespan varies based on operating conditions, but keeping temperatures below maximum ratings can significantly enhance longevity and reliability.