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IRLR3717TRRPBF
Product Category:
The IRLR3717TRRPBF belongs to the category of power MOSFETs.
Basic Information Overview: - Category: Power MOSFET - Use: The IRLR3717TRRPBF is used as a switching device in various power applications such as voltage regulators, motor control, and power management. - Characteristics: It is characterized by its low on-state resistance, high current capability, and fast switching speed. - Package: The IRLR3717TRRPBF is available in a DPAK (TO-252) package. - Essence: This MOSFET is essential for efficient power management and control in electronic circuits. - Packaging/Quantity: It is typically packaged in reels with quantities varying based on manufacturer specifications.
Specifications: The IRLR3717TRRPBF has the following key specifications: - Drain-Source Voltage (VDS): 20V - Continuous Drain Current (ID): 42A - RDS(ON) (Max) @ VGS = 4.5V: 6.5mΩ - RDS(ON) (Max) @ VGS = 2.5V: 9.0mΩ - Total Gate Charge (Qg): 15nC
Detailed Pin Configuration: The pin configuration of the IRLR3717TRRPBF is as follows: - Pin 1: Gate - Pin 2: Drain - Pin 3: Source
Functional Features: The key functional features of the IRLR3717TRRPBF include: - Low on-state resistance for minimal power dissipation - High current handling capability - Fast switching speed for efficient power control
Advantages and Disadvantages: Advantages: - Low on-state resistance leads to reduced power loss - High current capability allows for versatile application in power circuits - Fast switching speed enables efficient power management
Disadvantages: - Sensitivity to static electricity and voltage spikes - Heat dissipation may require additional thermal management in high-power applications
Working Principles: The IRLR3717TRRPBF operates based on the principles of field-effect transistors, utilizing the control of voltage at the gate terminal to modulate the flow of current between the drain and source terminals.
Detailed Application Field Plans: The IRLR3717TRRPBF finds extensive use in various applications including: - Switching regulators - Motor control circuits - Power management modules - Battery protection circuits
Detailed and Complete Alternative Models: Alternative models to the IRLR3717TRRPBF include: - IRF3717PBF - IRLR3717ZPBF - IRLR3717LPBF
This comprehensive range of alternative models provides flexibility in selecting the most suitable MOSFET for specific application requirements.
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What is IRLR3717TRRPBF?
- IRLR3717TRRPBF is a power MOSFET transistor designed for use in various technical solutions, such as power management and motor control applications.
What is the maximum voltage and current rating of IRLR3717TRRPBF?
- The maximum voltage rating is typically 30V, and the maximum continuous drain current is around 42A.
What are the typical applications of IRLR3717TRRPBF?
- Common applications include battery protection circuits, DC-DC converters, motor drives, and power management in portable devices.
What is the on-resistance of IRLR3717TRRPBF?
- The typical on-resistance at Vgs=10V is around 8.5mΩ.
Is IRLR3717TRRPBF suitable for high-frequency switching applications?
- Yes, it is designed to be suitable for high-frequency switching due to its low on-resistance and fast switching characteristics.
Does IRLR3717TRRPBF require a heat sink for thermal management?
- It depends on the specific application and the power dissipation requirements. In some cases, a heat sink may be necessary for optimal thermal management.
What is the operating temperature range of IRLR3717TRRPBF?
- The typical operating temperature range is -55°C to 175°C, making it suitable for a wide range of environments.
Can IRLR3717TRRPBF be used in automotive applications?
- Yes, it is often used in automotive systems for functions like motor control and power distribution.
What are the key advantages of using IRLR3717TRRPBF in technical solutions?
- Some advantages include low on-resistance, high current capability, and suitability for high-frequency switching applications.
Are there any important considerations when designing with IRLR3717TRRPBF?
- Designers should consider factors such as gate drive voltage, thermal management, and protection circuitry to ensure optimal performance and reliability.