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2SK4150TZ-E

2SK4150TZ-E

Product Overview

Category

The 2SK4150TZ-E belongs to the category of power MOSFETs.

Use

It is commonly used in electronic circuits for switching and amplification applications.

Characteristics

  • High voltage capability
  • Low on-resistance
  • Fast switching speed
  • Low gate drive requirement

Package

The 2SK4150TZ-E is typically available in a TO-220 package.

Essence

This MOSFET is essential for controlling high-power loads in various electronic devices and systems.

Packaging/Quantity

It is usually packaged in reels or tubes, with quantities varying based on manufacturer specifications.

Specifications

  • Drain-Source Voltage (VDS): 600V
  • Continuous Drain Current (ID): 5A
  • On-Resistance (RDS(on)): 1.8Ω
  • Power Dissipation (PD): 30W
  • Gate-Source Voltage (VGS): ±20V
  • Operating Temperature Range: -55°C to 150°C

Detailed Pin Configuration

The 2SK4150TZ-E features a standard three-pin configuration: 1. Gate (G) 2. Drain (D) 3. Source (S)

Functional Features

  • High voltage tolerance
  • Low conduction losses
  • Fast switching characteristics
  • Compatibility with low-voltage control signals

Advantages

  • Suitable for high-power applications
  • Efficient power management
  • Reliable performance in demanding environments

Disadvantages

  • Higher cost compared to lower-rated MOSFETs
  • Requires careful handling due to its high voltage capabilities

Working Principles

The 2SK4150TZ-E operates based on the principles of field-effect transistors, utilizing the control of electric fields to modulate the flow of current between the drain and source terminals.

Detailed Application Field Plans

This MOSFET is widely used in: - Switching power supplies - Motor control circuits - Audio amplifiers - LED lighting systems - Industrial automation equipment

Detailed and Complete Alternative Models

  • IRF540N
  • FQP30N06L
  • STP55NF06L
  • IRL540N
  • NDP6020P

In conclusion, the 2SK4150TZ-E power MOSFET offers high voltage capability, fast switching speed, and low on-resistance, making it suitable for a wide range of applications in power electronics and control systems.

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Listen Sie 10 häufige Fragen und Antworten im Zusammenhang mit der Anwendung von 2SK4150TZ-E in technischen Lösungen auf

  1. What is the maximum voltage rating for 2SK4150TZ-E?

    • The maximum voltage rating for 2SK4150TZ-E is typically around 600V.
  2. What is the maximum current rating for 2SK4150TZ-E?

    • The maximum current rating for 2SK4150TZ-E is usually in the range of 10-15A.
  3. What are the typical applications for 2SK4150TZ-E?

    • 2SK4150TZ-E is commonly used in power supply circuits, motor control, and general switching applications.
  4. What is the on-resistance (RDS(on)) of 2SK4150TZ-E?

    • The on-resistance of 2SK4150TZ-E is typically around a few ohms, depending on the specific operating conditions.
  5. Is 2SK4150TZ-E suitable for high-frequency applications?

    • While 2SK4150TZ-E can be used in some high-frequency applications, it is more commonly employed in low to moderate frequency designs.
  6. Does 2SK4150TZ-E require a heat sink for thermal management?

    • Depending on the application and power dissipation, a heat sink may be necessary to ensure proper thermal management for 2SK4150TZ-E.
  7. What are the recommended operating temperature ranges for 2SK4150TZ-E?

    • The recommended operating temperature range for 2SK4150TZ-E is typically between -55°C to 150°C.
  8. Can 2SK4150TZ-E be used in automotive applications?

    • Yes, 2SK4150TZ-E is suitable for certain automotive applications, but it's important to verify its compatibility with specific automotive standards and requirements.
  9. What are the key parameters to consider when designing with 2SK4150TZ-E?

    • Key parameters to consider include voltage and current ratings, on-resistance, thermal characteristics, and package type.
  10. Are there any common failure modes associated with 2SK4150TZ-E?

    • Common failure modes for 2SK4150TZ-E may include overcurrent stress, overvoltage stress, and excessive temperature leading to thermal breakdown. Proper design and protection measures should be implemented to mitigate these risks.