Description
Specifications Table
Product Material – High-quality ABS plastic and metal components
Grade – Educational/Lab Grade
Application – Study of transistor amplifier circuits in Common Emitter (CE), Common Base (CB), and Common Collector (CC) modes
Product Overview
This combined transistor amplifier model is meticulously designed to demonstrate the three fundamental transistor configurations—Common Emitter (CE), Common Base (CB), and Common Collector (CC)—in a single, user-friendly setup. Built with durable ABS plastic and precision metal components, the model ensures long-lasting performance in educational and lab environments. The clear circuit layout allows for easy identification of components, making it ideal for practical learning without compromising on accuracy. Each configuration is distinctly marked, enabling seamless switching between CE, CB, and CC modes for comparative analysis. The model is engineered to provide stable signal amplification, ensuring reliable results during experiments. Whether used for basic electronics training or advanced circuit studies, this combined amplifier model simplifies complex concepts while maintaining professional-grade functionality. The compact yet robust design makes it a versatile addition to any lab setup, offering both clarity and precision for effective learning.
FAQs
1. What components are included in this transistor amplifier model?
The model includes a pre-assembled circuit board with transistors, resistors, capacitors, and labeled terminals for CE, CB, and CC configurations.
2. Can this model be used for both AC and DC signal amplification?
Yes, the combined model supports both AC and DC signal amplification across all three transistor configurations.
3. Is external power required for operation?
A stable DC power supply (typically 5V–12V) is required, which is not included with the model.
4. How do I switch between CE, CB, and CC modes?
The model features clearly marked jumpers or switches to toggle between configurations without rewiring.
5. What safety precautions should be followed while using this model?
Ensure proper grounding, avoid short circuits, and use the recommended voltage to prevent component damage.
