2SC5200-O(Q) Encyclopedia Entry
Product Overview
Category
The 2SC5200-O(Q) belongs to the category of high-power NPN transistors.
Use
It is commonly used in audio amplification applications, power supply circuits, and industrial equipment.
Characteristics
- High voltage capability
- High current capability
- Low saturation voltage
- Fast switching speed
Package
The 2SC5200-O(Q) is typically available in a TO-3P package.
Essence
This transistor is essential for amplifying and controlling high-power signals in various electronic circuits.
Packaging/Quantity
It is usually packaged in tubes or trays, with quantities varying based on supplier specifications.
Specifications
- Maximum Collector-Base Voltage (Vcbo): 230V
- Maximum Collector-Emitter Voltage (Vceo): 230V
- Maximum Emitter-Base Voltage (Vebo): 5V
- Maximum Collector Current (Ic): 15A
- Power Dissipation (Pd): 150W
- Transition Frequency (ft): 30MHz
- Operating Temperature Range: -55°C to 150°C
Detailed Pin Configuration
The 2SC5200-O(Q) transistor typically has the following pin configuration: 1. Base (B) 2. Collector (C) 3. Emitter (E)
Functional Features
- High power amplification
- Reliable switching performance
- Low distortion in audio applications
- Suitable for high-frequency operation
Advantages and Disadvantages
Advantages
- High power handling capability
- Low saturation voltage
- Wide operating temperature range
Disadvantages
- Relatively large package size
- Higher cost compared to lower power transistors
Working Principles
The 2SC5200-O(Q) operates based on the principles of bipolar junction transistors, utilizing the control of current flow between its collector and emitter terminals through the manipulation of the base current.
Detailed Application Field Plans
Audio Amplification
The transistor can be used in high-power audio amplifiers, providing clean and powerful sound output for professional audio systems and musical instruments.
Power Supply Circuits
In power supply applications, the 2SC5200-O(Q) can efficiently regulate and control high currents and voltages, making it suitable for demanding power supply designs.
Industrial Equipment
Its high-power capabilities make it ideal for use in industrial equipment such as motor drives, inverters, and welding machines.
Detailed and Complete Alternative Models
Some alternative models to the 2SC5200-O(Q) include the MJL4281A, MJL4302A, and MJE15032G, which offer similar high-power NPN transistor functionality.
This comprehensive entry provides an in-depth understanding of the 2SC5200-O(Q) transistor, covering its product details, specifications, functional features, applications, and alternatives.
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What is the maximum collector current of 2SC5200-O(Q)?
- The maximum collector current of 2SC5200-O(Q) is 15A.
What is the maximum collector-emitter voltage of 2SC5200-O(Q)?
- The maximum collector-emitter voltage of 2SC5200-O(Q) is 230V.
What are the typical applications of 2SC5200-O(Q)?
- 2SC5200-O(Q) is commonly used in audio amplifiers, power supplies, and industrial applications.
What is the power dissipation of 2SC5200-O(Q)?
- The power dissipation of 2SC5200-O(Q) is 150W.
What is the gain (hfe) of 2SC5200-O(Q)?
- The gain (hfe) of 2SC5200-O(Q) typically ranges from 55 to 160.
Is 2SC5200-O(Q) suitable for high-power audio amplifiers?
- Yes, 2SC5200-O(Q) is well-suited for high-power audio amplifier applications.
What are the recommended operating conditions for 2SC5200-O(Q)?
- The recommended operating conditions include a collector current of 8A, a collector-emitter voltage of 230V, and a power dissipation of 150W.
Can 2SC5200-O(Q) be used in parallel for higher power applications?
- Yes, 2SC5200-O(Q) can be used in parallel to increase the overall current-handling capability for higher power applications.
What are the thermal characteristics of 2SC5200-O(Q)?
- The thermal resistance junction to case (RthJC) is 1.25°C/W, and the thermal resistance junction to ambient (RthJA) is 62.5°C/W.
Are there any common failure modes or considerations when using 2SC5200-O(Q)?
- Common failure modes include overcurrent, overvoltage, and excessive heat buildup. It's important to ensure proper heatsinking and operating within specified limits to avoid these issues.