STD35NF06LT4 STMicroelectronics N-Channel MOSFET 35A 60V TO-220F Package

  • This MOSFET efficiently switches electrical loads, improving circuit performance and energy management.
  • Its low on-resistance reduces power loss, enhancing overall system efficiency during operation.
  • The compact package supports board-space savings, facilitating integration into dense electronic designs.
  • Ideal for power supply circuits, it enables reliable control of voltage and current in various devices.
  • Manufactured to meet quality standards, it ensures consistent operation under typical electrical stresses.
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STD35NF06LT4 Overview

The STD35NF06LT4 is a high-performance N-channel MOSFET designed for efficient power switching in industrial and automotive applications. It features low on-resistance and fast switching capabilities, enabling reduced power loss and improved thermal management. This device supports a maximum drain-source voltage of 60V and a continuous drain current of 35A, making it suitable for medium to high power circuits. The STD35NF06LT4??s compact package and robust electrical characteristics provide engineers with a reliable solution for power management challenges. For detailed technical data, visit IC Manufacturer.

STD35NF06LT4 Technical Specifications

ParameterValueUnit
Drain-Source Voltage (VDS)60V
Continuous Drain Current (ID)35A
Gate Threshold Voltage (VGS(th))1.0 ?C 2.5V
On-Resistance (RDS(on))?? 0.035??
Maximum Gate-Source Voltage (VGS)??20V
Total Gate Charge (Qg)27nC
Power Dissipation (PD)80W
Operating Temperature Range-55 to 150??C
Package TypeTO-220-3L

STD35NF06LT4 Key Features

  • Low On-Resistance: Minimizes conduction losses, enhancing efficiency in power conversion and reducing heat generation.
  • High Continuous Drain Current: Supports up to 35A, allowing robust handling of medium power loads without performance degradation.
  • Fast Switching Speed: Enables rapid transition times to improve switching efficiency and reduce electromagnetic interference (EMI) in high-frequency circuits.
  • Wide Operating Temperature Range: Reliable operation from -55??C to 150??C ensures durability in harsh industrial and automotive environments.

Typical Applications

  • Power Management in DC-DC Converters: Ideal for efficient voltage regulation in industrial and automotive power supplies requiring high current and low losses.
  • Motor Control Circuits: Suitable for driving brushless DC motors or other motor types with fast switching and high current capability.
  • Load Switching: Used to control high current loads such as solenoids, lamps, or heating elements in automated systems.
  • Battery Protection and Management Systems: Provides reliable switching and protection functions in battery-powered industrial equipment.

STD35NF06LT4 Advantages vs Typical Alternatives

This MOSFET stands out due to its low on-resistance and high current handling, delivering superior efficiency and thermal performance compared to common alternatives. Its fast switching characteristics reduce switching losses and EMI, making it well-suited for high-frequency applications. The wide operating temperature range ensures reliability in demanding industrial and automotive environments, offering engineers a robust and cost-effective solution for power switching needs.

STD35NF06LT4 Brand Info

The STD35NF06LT4 is manufactured by STMicroelectronics, a global leader in semiconductor solutions. STMicroelectronics specializes in power MOSFETs designed for industrial, automotive, and consumer electronics markets. This device is part of their standard MOSFET portfolio, known for quality, reliability, and consistent performance. ST??s manufacturing processes and quality control ensure the MOSFET meets stringent automotive and industrial requirements, making it a trusted choice for engineers worldwide.

FAQ

What is the maximum voltage rating of this MOSFET?

The device supports a maximum drain-source voltage of 60V, making it suitable for medium-voltage power switching applications commonly found in automotive and industrial environments.

How does the low on-resistance benefit my design?

Low on-resistance reduces conduction losses during operation, which improves overall efficiency and minimizes heat generation. This helps in

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