TIP32C PNP Transistor 100V 3A 40W

Product Overview

The TIP32C PNP Transistor is a high-power semiconductor device designed for robust amplification and switching applications. With a maximum collector-emitter voltage of 100V, a collector current rating of 3A, and a power dissipation capability of 40W, the TIP32C is well-suited for high-demand circuits such as audio amplifiers, power supplies, and motor drivers. Its PNP configuration allows for effective signal inversion and load control, while its rugged design ensures reliable performance even under thermal stress.

Key Features:

• High Voltage Capability: Supports up to 100V across the collector-emitter junction.
• Robust Current Handling: Provides a maximum collector current of 3A, ideal for moderate to high-power applications.
• High Power Dissipation: Capable of dissipating up to 40W, making it suitable for demanding circuit conditions.
• PNP Configuration: Facilitates efficient load switching and signal inversion in various circuit designs.
• Thermal Stability: Designed to operate reliably under high temperature and stress conditions.

Technical Specifications:

• Type: TIP32C PNP Transistor
• Collector-Emitter Voltage (V_CE): 100V maximum
• Collector Current (I_C): 3A maximum
• Power Dissipation: 40W maximum
• Package: Typically TO-220 (common for power transistors)
• DC Current Gain (h_FE): Varies (refer to datasheet for specific values)
• Operating Temperature Range: Typically –55°C to +150°C (check datasheet for details)

Applications:

• Audio Amplifiers: Enhances performance in high-fidelity audio power stages.
• Switching Circuits: Ideal for use in power supplies, linear regulators, and other switching applications.
• Motor Control: Drives motors and other inductive loads in industrial and consumer electronics.
• General-Purpose Amplification: Suitable for various signal amplification and processing circuits.

Why Choose the TIP32C PNP Transistor?

The TIP32C delivers reliable high-power performance with its 100V voltage rating, 3A current handling, and 40W power dissipation. Its robust PNP design and thermal stability make it a trusted choice for engineers and designers working on demanding electronic applications.