ON Semiconductor
Obrázek může být reprezentace.
Viz Specifikace pro podrobnosti o produktu.
FGH75T65SQDNL4

FGH75T65SQDNL4 Product Encyclopedia Entry

Introduction

The FGH75T65SQDNL4 is a semiconductor device belonging to the category of power MOSFETs. This entry provides an overview of its basic information, specifications, detailed pin configuration, functional features, advantages and disadvantages, working principles, application field plans, and alternative models.

Basic Information Overview

  • Category: Power MOSFET
  • Use: The FGH75T65SQDNL4 is designed for high-power applications in various electronic circuits and systems.
  • Characteristics: It exhibits low on-state resistance, high switching speed, and excellent thermal performance.
  • Package: The FGH75T65SQDNL4 is typically available in a TO-247 package.
  • Essence: Its essence lies in providing efficient power management and control in electronic devices.
  • Packaging/Quantity: It is commonly packaged individually and sold as single units.

Specifications

  • Voltage Rating: 650V
  • Current Rating: 75A
  • On-State Resistance: 0.065Ω
  • Gate-Source Voltage (Max): ±20V
  • Operating Temperature Range: -55°C to 150°C
  • Package Type: TO-247

Detailed Pin Configuration

The FGH75T65SQDNL4 typically features three pins: 1. Gate (G): Input pin for controlling the switching behavior of the MOSFET. 2. Drain (D): Output pin connected to the load or circuitry. 3. Source (S): Common pin serving as the reference point for the MOSFET.

Functional Features

  • High current-carrying capability
  • Low on-state resistance for reduced power dissipation
  • Fast switching speed for improved efficiency
  • Excellent thermal performance for reliable operation in high-power applications

Advantages and Disadvantages

Advantages

  • Efficient power management
  • High reliability and robustness
  • Suitable for high-power applications

Disadvantages

  • Higher cost compared to lower-rated MOSFETs
  • May require additional heat sinking in certain applications

Working Principles

The FGH75T65SQDNL4 operates based on the principle of field-effect transistors, where the voltage applied to the gate terminal controls the flow of current between the drain and source terminals. By modulating the gate-source voltage, the MOSFET can effectively switch high currents with minimal power loss.

Detailed Application Field Plans

The FGH75T65SQDNL4 finds extensive use in various applications, including: - Switch-mode power supplies - Motor control systems - Inverters and converters - Industrial automation equipment - Renewable energy systems

Detailed and Complete Alternative Models

Some alternative models to the FGH75T65SQDNL4 include: - IRFP4568PBF - STW75N65M5 - IXFN75N120

In conclusion, the FGH75T65SQDNL4 power MOSFET offers high-performance characteristics suitable for demanding power management applications across diverse industries.

Word Count: 410

Seznam 10 běžných otázek a odpovědí souvisejících s aplikací FGH75T65SQDNL4 v technických řešeních

  1. What is FGH75T65SQDNL4?

    • FGH75T65SQDNL4 is a high-performance semiconductor component designed for use in technical solutions requiring efficient power management and control.

  2. What are the key features of FGH75T65SQDNL4?

    • FGH75T65SQDNL4 features include high voltage capability, low on-state voltage drop, fast switching speed, and ruggedness for reliable operation in demanding applications.

  3. In what technical solutions can FGH75T65SQDNL4 be used?

    • FGH75T65SQDNL4 is commonly used in applications such as motor drives, power supplies, renewable energy systems, and industrial automation where efficient power control is essential.

  4. What are the benefits of using FGH75T65SQDNL4 in technical solutions?

    • The benefits of using FGH75T65SQDNL4 include improved energy efficiency, reduced heat dissipation, compact design, and enhanced system reliability.

  5. What are the typical operating conditions for FGH75T65SQDNL4?

    • FGH75T65SQDNL4 operates under typical conditions of a specified voltage range, current rating, temperature limits, and switching frequency to ensure optimal performance.

  6. How does FGH75T65SQDNL4 compare to other similar components in the market?

    • FGH75T65SQDNL4 offers superior performance in terms of efficiency, thermal management, and reliability compared to many other similar components available in the market.

  7. Are there any application notes or reference designs available for integrating FGH75T65SQDNL4 into technical solutions?

    • Yes, there are application notes and reference designs provided by the manufacturer to assist engineers in effectively integrating FGH75T65SQDNL4 into their technical solutions.

  8. What are the recommended thermal management techniques for FGH75T65SQDNL4?

    • Proper heat sinking, thermal interface materials, and adequate airflow are recommended for effective thermal management when using FGH75T65SQDNL4 in technical solutions.

  9. Can FGH75T65SQDNL4 be used in parallel configurations for higher power applications?

    • Yes, FGH75T65SQDNL4 can be used in parallel configurations to achieve higher power handling capabilities while maintaining system reliability.

  10. Where can I find detailed specifications and datasheets for FGH75T65SQDNL4?

    • Detailed specifications and datasheets for FGH75T65SQDNL4 can be obtained from the manufacturer's website or authorized distributors for comprehensive technical information.