Description
Specifications Table
Product Name – Stabilized Power Supply (Variable) without Meter
Quantity/Pack Size – 0-5V / 1Amp
Form – Electronic Instrument
Grade – Laboratory Grade
Application – Power regulation, testing, circuit experiments
product overview
The Stabilized Power Supply (Variable) without Meter is designed for reliable and precise voltage control in laboratory and electronic testing environments. Offering an adjustable DC output range of 0–5V with a current capacity of 1Amp, it ensures a steady and noise-free power source for sensitive experiments and circuit development tasks. Built with high-quality electronic components, it maintains stable performance even under fluctuating loads, minimizing voltage ripple and enhancing reliability. The compact and durable design allows for easy bench integration, while the variable control ensures precise voltage adjustment as per experiment requirements. Ideal for powering test circuits, amplifiers, sensors, and other electronic devices, this stabilized power unit supports accurate voltage delivery essential for dependable results. The absence of an inbuilt meter allows for external measurement, offering flexibility to connect digital or analog voltmeters based on preference. Each unit is thoroughly tested to ensure consistent voltage regulation, thermal protection, and long operational life. Sourced and quality-checked by eqipped, this stabilized variable power supply represents a dependable solution for laboratories, research facilities, and educational institutions looking for efficient and precise DC power management tools. Its smooth voltage control and stable operation make it a valuable addition to any electronics lab bench.
FAQs
1. What is the voltage range of this Stabilized Power Supply?
It offers an adjustable DC output range from 0 to 5 volts with a maximum current of 1 ampere.
2. Can this unit be connected to an external voltmeter?
Yes, the model is designed without an inbuilt meter, allowing users to connect an external voltmeter or ammeter for precise monitoring.
3. How does this power supply maintain output stability?
It uses regulated circuitry with low ripple and thermal protection to ensure consistent voltage output under varying load conditions.
4. What type of experiments can it be used for?
It is suitable for electronic testing, circuit assembly, sensor trials, and voltage-dependent experiments requiring reliable DC power.
5. What is the ideal storage condition for this equipment?
Store it in a dry, dust-free environment at room temperature to ensure component longevity and stable performance during future use.
