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FDPF33N25TRDTU
Product Overview
Category
The FDPF33N25TRDTU belongs to the category of power MOSFETs.
Use
It is commonly used in power supply applications, motor control, and other high-power switching circuits.
Characteristics
- High voltage capability
- Low on-resistance
- Fast switching speed
- Low gate charge
Package
The FDPF33N25TRDTU is typically available in a TO-220 package.
Essence
This MOSFET is essential for efficient power management and control 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): 250V
- Continuous Drain Current (ID): 33A
- RDS(ON) (Max) @ VGS = 10V: 0.09Ω
- Gate-Source Voltage (VGS) (Max): ±20V
- Total Gate Charge (Qg): 60nC
Detailed Pin Configuration
The FDPF33N25TRDTU follows the standard pin configuration for a TO-220 package: 1. Gate (G) 2. Drain (D) 3. Source (S)
Functional Features
- High voltage capability allows for use in various power applications.
- Low on-resistance minimizes power loss and heat generation.
- Fast switching speed enables efficient control in motor drive and power supply circuits.
Advantages and Disadvantages
Advantages
- High voltage capability
- Low on-resistance
- Fast switching speed
Disadvantages
- Higher gate charge compared to some alternative models
- May require additional heat dissipation in high-power applications
Working Principles
The FDPF33N25TRDTU operates based on the principles of field-effect transistors, utilizing its gate-source voltage to control the flow of current between the drain and source terminals.
Detailed Application Field Plans
Power Supply Applications
The MOSFET can be used in various power supply designs, including switch-mode power supplies and DC-DC converters.
Motor Control
Its fast switching speed and low on-resistance make it suitable for motor drive and control circuits in industrial and automotive applications.
High-Power Switching Circuits
In high-power applications such as inverters and power amplifiers, the FDPF33N25TRDTU can efficiently handle large currents and voltages.
Detailed and Complete Alternative Models
- IRF840
- STP55NF06L
- FQP30N06L
- IRL540
These alternative models offer similar characteristics and are compatible with many of the same applications as the FDPF33N25TRDTU.
In conclusion, the FDPF33N25TRDTU is a versatile power MOSFET with high voltage capability, low on-resistance, and fast switching speed, making it suitable for a wide range of power management and control applications.
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Seznam 10 běžných otázek a odpovědí souvisejících s aplikací FDPF33N25TRDTU v technických řešeních
What is the maximum drain-source voltage rating of FDPF33N25TRDTU?
- The maximum drain-source voltage rating of FDPF33N25TRDTU is 250V.
What is the continuous drain current rating of FDPF33N25TRDTU?
- The continuous drain current rating of FDPF33N25TRDTU is 33A.
What is the on-resistance of FDPF33N25TRDTU?
- The on-resistance of FDPF33N25TRDTU is typically 0.08 ohms.
What is the gate threshold voltage of FDPF33N25TRDTU?
- The gate threshold voltage of FDPF33N25TRDTU typically ranges from 2V to 4V.
What are the typical applications for FDPF33N25TRDTU?
- FDPF33N25TRDTU is commonly used in power management, motor control, and other high-current switching applications.
What is the operating temperature range of FDPF33N25TRDTU?
- The operating temperature range of FDPF33N25TRDTU is typically -55°C to 150°C.
Does FDPF33N25TRDTU require a heat sink for high-power applications?
- Yes, for high-power applications, it is recommended to use a heat sink to ensure proper thermal management.
Is FDPF33N25TRDTU suitable for automotive applications?
- Yes, FDPF33N25TRDTU is suitable for automotive applications due to its high current handling capability and rugged construction.
What is the input capacitance of FDPF33N25TRDTU?
- The input capacitance of FDPF33N25TRDTU is typically around 2100pF.
Can FDPF33N25TRDTU be used in parallel to increase current handling capacity?
- Yes, FDPF33N25TRDTU can be used in parallel to increase the overall current handling capacity in a circuit. However, proper attention should be given to balancing the current sharing between the devices.