Premium Common Emitter Transistor Amplifier designed for precise signal amplification in labs. High-grade components ensure reliable performance for critical experiments.
Original price was: ₹2,500.00.₹1,750.00Current price is: ₹1,750.00.
Product Material – Silicon
Grade – Electronic Grade
Application – Signal Amplification, Circuit Design
The Common Emitter Transistor Amplifier is a fundamental electronic component engineered for high-fidelity signal amplification in laboratory and research environments. Built with high-grade silicon material, this amplifier ensures minimal noise interference and superior gain stability, making it ideal for precise experimental setups. The electronic-grade design guarantees consistent performance across varying input frequencies, catering to both low and high-frequency applications. Its robust construction allows for seamless integration into existing circuit designs, providing researchers and students with a reliable tool for signal processing. The amplifier’s efficient heat dissipation properties prevent thermal degradation, ensuring long-term durability even under continuous operation. Whether used in educational labs or advanced research projects, this transistor amplifier delivers exceptional linearity and low distortion, making it a versatile choice for a wide range of electronic applications. The compact form factor further enhances its usability in space-constrained setups without compromising on functionality.
It amplifies input signals with high gain and low distortion, making it suitable for audio, RF, and general-purpose amplification.
Yes, it is designed for easy integration with most breadboard setups for prototyping and testing.
For low-power needs, consider operational amplifiers (op-amps) or FET-based amplifiers, depending on the circuit requirements.
Store in a dry, anti-static environment away from direct sunlight and moisture to prevent component degradation.
Yes, its design supports high-frequency applications, though performance may vary based on the specific transistor characteristics.
This premium AC/DC Power Supply offers stable, variable voltage essential for precise experimentation. A reliable benchtop unit designed for diverse laboratory applications. Ideal for students and educators.
A powerful laboratory battery charger, featuring 2-12 VDC output and 5 Amp current. Perfect for demanding applications, ensuring robust and consistent power for all your lab needs.
Our friction boards are designed for physics laboratories to demonstrate the laws of static and kinetic friction on an inclined plane.
Our Maxwell needle apparatus is designed for physics laboratories to perform the Maxwell needle experiment, helping students and researchers determine the modulus of rigidity of materials.
Our stainless steel sieves are designed for accurate particle size separation and filtration in laboratories, industries, and kitchens. Crafted from food-grade stainless steel, they are resistant to corrosion, easy to clean, and available in multiple mesh sizes for different applications.
Original price was: ₹2,500.00.₹1,750.00Current price is: ₹1,750.00.
Premium Common Emitter Transistor Amplifier designed for precise signal amplification in labs. High-grade components ensure reliable performance for critical experiments.
Product Material – Silicon
Grade – Electronic Grade
Application – Signal Amplification, Circuit Design
The Common Emitter Transistor Amplifier is a fundamental electronic component engineered for high-fidelity signal amplification in laboratory and research environments. Built with high-grade silicon material, this amplifier ensures minimal noise interference and superior gain stability, making it ideal for precise experimental setups. The electronic-grade design guarantees consistent performance across varying input frequencies, catering to both low and high-frequency applications. Its robust construction allows for seamless integration into existing circuit designs, providing researchers and students with a reliable tool for signal processing. The amplifier’s efficient heat dissipation properties prevent thermal degradation, ensuring long-term durability even under continuous operation. Whether used in educational labs or advanced research projects, this transistor amplifier delivers exceptional linearity and low distortion, making it a versatile choice for a wide range of electronic applications. The compact form factor further enhances its usability in space-constrained setups without compromising on functionality.
It amplifies input signals with high gain and low distortion, making it suitable for audio, RF, and general-purpose amplification.
Yes, it is designed for easy integration with most breadboard setups for prototyping and testing.
For low-power needs, consider operational amplifiers (op-amps) or FET-based amplifiers, depending on the circuit requirements.
Store in a dry, anti-static environment away from direct sunlight and moisture to prevent component degradation.
Yes, its design supports high-frequency applications, though performance may vary based on the specific transistor characteristics.
This premium AC/DC Power Supply offers stable, variable voltage essential for precise experimentation. A reliable benchtop unit designed for diverse laboratory applications. Ideal for students and educators.
Our rheostats are designed for precise control of current in electrical circuits, making them ideal for physics experiments, electrical training, and industrial testing.
Our laboratory-grade filter papers ensure consistent particle retention and fast flow rates, making them a trusted choice for educational, research, and industrial applications.
Our retort stands and rotor stands provide firm support for clamps, apparatus, and instruments in chemistry, physics, and engineering labs.
Our stainless steel sieves are designed for accurate particle size separation and filtration in laboratories, industries, and kitchens. Crafted from food-grade stainless steel, they are resistant to corrosion, easy to clean, and available in multiple mesh sizes for different applications.
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