What Is Static Voltage Stabilizers can help you maintain a steady and consistent electrical power supply. With accuracy and dependability, these electrical devices regulate the output voltage.
Stabilizers are used in a variety of fields, such as telecommunications, computers, and medical equipment. These devices have a number of benefits, including Static voltage stabilizers keeping an output voltage that is constant by continuously monitoring and adjusting. Performance that is dependable and effective: Static voltage stabilizers are dependable and effective thanks to their solid-state construction. Low maintenance: Static voltage stabilizers require less maintenance, saving you time and money.
| Features | Description |
|---|---|
| Operation | Uses solid-state electronics components to regulate voltage Insulated-Gate Bipolar Transistor (IGBT) technology |
| Voltage regulation | Hight Precise as compared to servo stabilizer |
| Input voltage range | The wide range of input voltage handling |
| Response time | Fast response time in regulating voltage fluctuations |
| Efficiency | High efficiency compared to servo stabilizer |
| Cost | Lower cost compared to servo stabilizer |
| Applications | Recommended for devices that require a stable voltage supply and need very precise voltage regulation, such as food processing machines, printing machines, and textile machines What Is Static Voltage Stabilizers |
What Is Static Voltage Stabilizers also known as Electronic Voltage Stabilizer, uses solid-state electronics components to regulate the voltage. It employs a system of relays and electronic switches to connect or disconnect the electrical supply, depending on the voltage level. It operates very quickly and can regulate the voltage within microseconds. Static Voltage Stabilizer is suitable for devices that require a stable voltage supply and need very precise voltage regulation. It can handle a wide input voltage range, making it ideal for areas with a high degree of voltage fluctuation.
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| Description | Static Stabilizer | Servo Stabilizer |
|---|---|---|
| Input Voltage | Customized as per requirement | Customized as per requirement |
| Output Voltage | Air Cooled | Cooling |
| Rate of Correction | 4,000 v/sec. | 70 v/sec. |
| Response Time | 50 micro sec. | 10 mili sec. |
| Max Efficiency | >98% | 90-95% |
| Standard specification | Standard specification- customization is expensive | Standard specification-customization is expensive |
| Cooling Type | Air cooled | Oil cooled/air coole |
| Short Time Overload | 400% for 500 msec. | 200% for 2 sec. |
| Effect of Spikes & Surges | Spikes/surges are likely to be generated or transmitted to output. | No spikes/surges are either generated or transmitted to output. |
| Effect of fluctuation | No voltage fluctuations are transmitted to output as response time is fast & no mechanical switching. | Fluctuations may be transmitted to O/P due to mechanical switching. |
| Maintenance | No moving part and hence no maintenance. | Considerable maintenance of servo motor & other moving parts required. |
| Insulation | Class-H insulation (works upto 175 deg.) | Insulation with lower class – cannot handle high inner temperature inside cabinet. |
| Control Circuit | High Frequency PWM controlled IGBT. | Low frequency operation – Solid State sensing & feedback through control circuit to operate electromagnetic relays for operating motors. |
| Size per watt | Small foot print & very compact. | Large Size. |
| Protections | Over load, over voltage, under voltage, single phase out, phase reversal, phase unbalance, thermal protection etc. | Technology constraints – some of the protections are not possible. |
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