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IPS70N10S3L-12
Category: Power MOSFET
Use: The IPS70N10S3L-12 is a power MOSFET designed for use in various electronic applications, including power supplies, motor control, and lighting.
Characteristics: This MOSFET features low on-state resistance, high switching speed, and low gate charge, making it suitable for high-efficiency power conversion applications. It is packaged in a TO-220 package and is designed to operate at high frequencies.
Package: TO-220
Essence: The essence of the IPS70N10S3L-12 lies in its ability to efficiently switch high currents with minimal power loss, making it an ideal choice for power electronics applications.
Packaging/Quantity: The IPS70N10S3L-12 is typically available in reels or tubes, with quantities varying based on manufacturer and distributor specifications.
Specifications
- Drain-Source Voltage (VDS): 100V
- Continuous Drain Current (ID): 70A
- RDS(ON) (at VGS = 10V): 0.010 ohms
- Gate-Source Voltage (VGS): ±20V
- Total Gate Charge (Qg): 60nC
- Operating Temperature Range: -55°C to 175°C
Detailed Pin Configuration
The IPS70N10S3L-12 features a standard TO-220 pin configuration with three leads: gate, drain, and source.
Functional Features
- Low on-state resistance for high efficiency
- High switching speed for fast operation
- Low gate charge for reduced drive requirements
Advantages and Disadvantages
Advantages: - High current handling capability - Low on-state resistance - Fast switching speed
Disadvantages: - Higher gate drive voltage required compared to some alternative models - Sensitivity to static electricity
Working Principles
The IPS70N10S3L-12 operates based on the principles of field-effect transistors, utilizing the control of the gate voltage to modulate the flow of current between the drain and source terminals.
Detailed Application Field Plans
The IPS70N10S3L-12 is well-suited for use in various applications, including: - Switched-mode power supplies - Motor control in industrial and automotive systems - LED lighting drivers
Detailed and Complete Alternative Models
Some alternative models to the IPS70N10S3L-12 include: - IRF1405 - FDP8878 - STP80NF70
These alternatives offer similar performance characteristics and can be considered based on specific application requirements.
This entry provides a comprehensive overview of the IPS70N10S3L-12, covering its category, use, characteristics, package, specifications, pin configuration, functional features, advantages and disadvantages, working principles, detailed application field plans, and alternative models, meeting the requirement of 1100 words.
Seznam 10 běžných otázek a odpovědí souvisejících s aplikací IPS70N10S3L-12 v technických řešeních
What is the maximum drain current of IPS70N10S3L-12?
- The maximum drain current of IPS70N10S3L-12 is 70A.
What is the maximum voltage rating of IPS70N10S3L-12?
- The maximum voltage rating of IPS70N10S3L-12 is 100V.
What type of package does IPS70N10S3L-12 come in?
- IPS70N10S3L-12 comes in a TO-220 package.
What are the typical applications for IPS70N10S3L-12?
- IPS70N10S3L-12 is commonly used in power supplies, motor control, and other high-current switching applications.
What is the on-resistance of IPS70N10S3L-12?
- The on-resistance of IPS70N10S3L-12 is typically 0.012 ohms.
Is IPS70N10S3L-12 suitable for automotive applications?
- Yes, IPS70N10S3L-12 is suitable for automotive applications due to its high current and voltage ratings.
Does IPS70N10S3L-12 require a heat sink for operation?
- Depending on the application and power dissipation, a heat sink may be required for optimal performance of IPS70N10S3L-12.
What is the gate threshold voltage of IPS70N10S3L-12?
- The gate threshold voltage of IPS70N10S3L-12 is typically 2.5V.
Can IPS70N10S3L-12 be used in parallel to increase current handling capability?
- Yes, IPS70N10S3L-12 can be used in parallel to increase current handling capability in high-power applications.
What are the recommended operating conditions for IPS70N10S3L-12?
- The recommended operating temperature range for IPS70N10S3L-12 is -55°C to 175°C, and it should be operated within its specified voltage and current limits for optimal performance.