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SPP08N80C3XK - Product Overview and Specifications
Introduction
The SPP08N80C3XK is a power MOSFET belonging to the category of semiconductor devices. This device is widely used in various electronic applications due to its unique characteristics and performance capabilities.
Basic Information Overview
- Category: Power MOSFET
- Use: Switching and amplification in electronic circuits
- Characteristics: High voltage capability, low on-resistance, fast switching speed
- Package: TO-220
- Essence: Efficient power management
- Packaging/Quantity: Typically packaged in reels or tubes containing multiple units
Specifications
- Voltage Rating: 800V
- Current Rating: 8A
- On-Resistance: 0.8Ω
- Gate Charge: 20nC
- Operating Temperature: -55°C to 150°C
- Mounting Type: Through Hole
Detailed Pin Configuration
The SPP08N80C3XK features a standard TO-220 pin configuration with three pins: 1. Gate (G): Input for controlling the switching operation 2. Drain (D): Output terminal connected to the load 3. Source (S): Ground reference for the MOSFET
Functional Features
- High Voltage Capability: Allows operation in high voltage circuits
- Low On-Resistance: Minimizes power loss and heat generation
- Fast Switching Speed: Enables rapid switching transitions for efficient operation
Advantages and Disadvantages
Advantages
- Efficient power management
- Suitable for high voltage applications
- Low power dissipation
Disadvantages
- Sensitivity to static electricity
- Requires careful handling during assembly
Working Principles
The SPP08N80C3XK operates based on the principle of field-effect transistors, where the gate voltage controls the flow of current between the drain and source terminals. By modulating the gate voltage, the MOSFET can effectively switch and amplify signals in electronic circuits.
Detailed Application Field Plans
The SPP08N80C3XK finds extensive use in various applications, including: - Switched-mode power supplies - Motor control systems - Electronic ballasts - Audio amplifiers
Detailed and Complete Alternative Models
For applications requiring similar specifications and performance, alternative models to consider include: - IRFP460: Similar voltage and current ratings - FDPF18N50: Comparable on-resistance and gate charge - STP16NF06: Alternative with lower on-resistance and gate charge
In conclusion, the SPP08N80C3XK power MOSFET offers high voltage capability, low on-resistance, and fast switching speed, making it suitable for diverse electronic applications.
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What is the maximum drain-source voltage of SPP08N80C3XK?
- The maximum drain-source voltage of SPP08N80C3XK is 800V.
What is the continuous drain current rating of SPP08N80C3XK?
- The continuous drain current rating of SPP08N80C3XK is 8A.
Can SPP08N80C3XK be used in high-power applications?
- Yes, SPP08N80C3XK is suitable for high-power applications due to its high voltage and current ratings.
What is the typical on-resistance of SPP08N80C3XK?
- The typical on-resistance of SPP08N80C3XK is 0.65 ohms.
Is SPP08N80C3XK suitable for use in switching power supplies?
- Yes, SPP08N80C3XK is commonly used in switching power supply applications due to its high voltage and current handling capabilities.
Does SPP08N80C3XK require a heat sink for thermal management?
- Depending on the application and power dissipation, a heat sink may be required for optimal thermal management of SPP08N80C3XK.
What are the typical gate charge characteristics of SPP08N80C3XK?
- The typical gate charge characteristics of SPP08N80C3XK make it suitable for fast switching applications.
Can SPP08N80C3XK be used in motor control applications?
- Yes, SPP08N80C3XK can be used in motor control applications where high voltage and current handling are required.
What are the recommended operating temperature ranges for SPP08N80C3XK?
- The recommended operating temperature range for SPP08N80C3XK is typically -55°C to 150°C.
Are there any specific layout considerations when using SPP08N80C3XK in a circuit?
- Proper PCB layout and thermal management are important considerations when using SPP08N80C3XK to ensure optimal performance and reliability.