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TRANSISITOR SHUNT VOLTAGE REGULATOR

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MOQ : 1 Piece

TRANSISITOR SHUNT VOLTAGE REGULATOR Specification

Power Source
External DC Power Supply

Power Supply
DC Power

Operating Temperature
0C to 50C

IP Rating
IP20

Components
PCB, Transistor, Diodes, Resistors, Capacitors

Usage
ENGINEERING ELECTRONICS INSTRUMENTS

Thermal Conductivity
Standard for PCB

Input
12V DC

Interface
Screw Terminals

Response Time
Instant (<1ms)

Output
Regulated DC Voltage

Features
Stabilized output, Overvoltage protection, Easy mounting

Product Type
TRANSISITOR SHUNT VOLTAGE REGULATOR

Application
ENGINEERING ELECTRONICS INSTRUMENTS

Rated Voltage
12V DC

Supply Voltage
12V DC

Size
Compact

Dimension (L*W*H)
110mm x 70mm x 28mm

Function
Voltage regulation using shunt transistor circuit

Color
Black

Weight
Approx. 120 grams

Capacity
0.5A max output current

Thickness
5 mm (PCB)

Current Rating
0.5A (max)

Frequency
DC Only

TRANSISITOR SHUNT VOLTAGE REGULATOR Trade Information

Minimum Order Quantity
1 Piece

Payment Terms
Cash on Delivery (COD), Cash Advance (CA), Cheque, Telegraphic Transfer (T/T), Letter of Credit (L/C)

Packaging Details
Carton Box, Export Quality also Available

Main Export Market(s)
Asia, Middle East, Africa

Main Domestic Market
All India

Certifications
ISO 9001, 14001, CE

About TRANSISITOR SHUNT VOLTAGE REGULATOR

Specification:

TRANSISITOR SHUNT VOLTAGE REGULATOR

Features:

To demonstrate the operation of shunt type DC voltage regulation.

To study how the Zener diode (which acts as bias reference for the regulator).

To demonstrate that in spite of load variation (provided) the voltage remains constant

Precise Voltage Regulation for Lab Applications

Achieve highly stable and accurate voltage control with the Transistor Shunt Voltage Regulator. Designed for engineering electronics instruments and test benches, it ensures your experiments are powered with a consistent 12V DC supply. The 3% accuracy meets demanding laboratory standards, while overvoltage protection safeguards sensitive equipment during operation.

Robust Design and Easy Installation

Featuring a compact form factor and durable FR4 PCB, installation is straightforward, thanks to its panel mount configuration and screw terminals. Soldered leads ensure secure connections, and the IP20 housing protects the underlying electronics from accidental contact, making it safe for professional use in controlled environments.

FAQs of TRANSISITOR SHUNT VOLTAGE REGULATOR:

Q: How is the Transistor Shunt Voltage Regulator installed in electronic test benches?

A: The regulator is designed for panel mounting using screw terminals, allowing secure and straightforward installation on test bench panels or lab apparatus. Its compact dimensions facilitate integration, and soldered leads ensure firm electrical connections.

Q: What is the benefit of using FR4 PCB material in this voltage regulator?

A: material delivers robust mechanical strength, consistent thermal conductivity, and superior electrical insulation for reliable, long-term performance, especially in lab and engineering environments.

Q: When should overvoltage protection be considered critical in lab experiments?

A: Overvoltage protection becomes crucial when sensitive electronic equipment is at risk. This regulator features built-in protection to prevent damage from voltage spikes, ensuring the safety of precision instrumentation during experiments.

Q: Where can this voltage regulator be applied most effectively?

A: It is most effective in laboratory experiments, electronics test benches, and engineering instrumentation, where precise voltage control and stable DC supply are essential for accurate measurement and testing.

Q: What is the process of voltage regulation in this product?

A: The product employs a shunt transistor circuit that actively regulates the output voltage. When input fluctuations occur, the transistor adjusts current flow, maintaining output within a 3% accuracy range.

Q: How does instant response time enhance the usage of this regulator?

A: With a response time of less than 1ms, the regulator quickly reacts to voltage changes, minimizing delays and ensuring stable output, which is critical for real-time testing scenarios in laboratories.

Q: What are the main features that contribute to its effective usage in engineering electronics?

A: The regulator offers stabilized DC output, compact design, overvoltage protection, easy mounting, and RoHS compliance, making it an optimal choice for professional use in engineering electronics instruments and test setups.

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