STF13N95K3

Introduction

The STF13N95K3 is a power MOSFET belonging to the category of semiconductor devices. It is commonly used in electronic circuits for its high power handling capabilities and efficient switching characteristics. This entry provides an overview of the STF13N95K3, including its basic information, specifications, pin configuration, functional features, advantages and disadvantages, working principles, application field plans, and alternative models.

Basic Information Overview

Category: Semiconductor Device
Use: Power MOSFET for electronic circuits
Characteristics: High power handling, efficient switching
Package: TO-220
Essence: Power management
Packaging/Quantity: Typically available in reels or tubes containing multiple units

Specifications

Voltage Rating: 950V
Current Rating: 11A
RDS(ON): 0.45Ω
Gate Charge (Qg): 30nC
Operating Temperature Range: -55°C to 150°C

Detailed Pin Configuration

The STF13N95K3 typically has three pins: 1. Gate (G): Input terminal for controlling the switching operation. 2. Drain (D): Output terminal connected to the load. 3. Source (S): Common terminal and reference point for the input and output.

Functional Features

High voltage capability
Low input capacitance
Fast switching speed
Low on-state resistance

Advantages and Disadvantages

Advantages

Efficient power management
Suitable for high voltage applications
Fast switching speed reduces power loss

Disadvantages

Higher cost compared to lower voltage MOSFETs
Requires careful handling due to high voltage rating

Working Principles

The STF13N95K3 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 voltage, the MOSFET can efficiently switch high power loads in electronic circuits.

Detailed Application Field Plans

The STF13N95K3 finds extensive use in various applications, including: - Switching power supplies - Motor control - Inverters - Electronic ballasts - LED lighting systems

Detailed and Complete Alternative Models

Some alternative models to the STF13N95K3 include: - IRF840: Similar voltage and current ratings - FQP27P06: Complementary P-channel MOSFET for specific applications - STP16NF06: Lower voltage rating with similar characteristics

In conclusion, the STF13N95K3 is a high-voltage power MOSFET with efficient switching characteristics, making it suitable for diverse electronic applications requiring power management and control.

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What is the maximum drain-source voltage rating of STF13N95K3?
- The maximum drain-source voltage rating of STF13N95K3 is 950V.
What is the typical on-state resistance of STF13N95K3?
- The typical on-state resistance of STF13N95K3 is 0.13 ohms.
What is the maximum continuous drain current of STF13N95K3?
- The maximum continuous drain current of STF13N95K3 is 13A.
Can STF13N95K3 be used in high-power applications?
- Yes, STF13N95K3 is suitable for high-power applications due to its high voltage and current ratings.
Does STF13N95K3 require a heat sink for proper operation?
- It is recommended to use a heat sink with STF13N95K3 to ensure optimal thermal performance, especially in high-power applications.
What are the typical applications of STF13N95K3?
- STF13N95K3 is commonly used in power supplies, motor control, and industrial applications requiring high voltage and current handling capabilities.
Is STF13N95K3 suitable for switching applications?
- Yes, STF13N95K3 is designed for efficient switching applications due to its low on-state resistance and high voltage rating.
What is the gate threshold voltage of STF13N95K3?
- The gate threshold voltage of STF13N95K3 typically ranges from 2V to 4V.
Does STF13N95K3 have built-in protection features?
- STF13N95K3 may have built-in protection features such as overcurrent and overtemperature protection, but it's important to refer to the datasheet for specific details.
Can STF13N95K3 be used in automotive applications?
- Yes, STF13N95K3 is suitable for automotive applications where high voltage and current capabilities are required, but it's essential to ensure compliance with automotive standards and requirements.