33KV ON-LOAD TAP CHANGER (OLTC)
Category High Voltage
- Using the latest technology, the product can adjust the voltage of the electric current at a fast speed, which can greatly reduce the amount of energy consumption.
- The voltage regulation is automatic and stable, there will be no abnormal voltage fluctuations caused by the breakdown of MOSFET in the OLTC tap changer.
- It can be used for DC power supply with different voltages such as 12V/24V/36V etc., which can adjust the voltage according to your needs without affecting other components in your system such as electronic equipment or electrical devices etc. so that you can get maximum performance from your equipment without any failure.
33KV ON-LOAD TAP CHANGER (OLTC)
- Using the latest technology, the product can adjust the voltage of the electric current at a fast speed, which can greatly reduce the amount of energy consumption.
- The voltage regulation is automatic and stable, there will be no abnormal voltage fluctuations caused by the breakdown of MOSFET in the OLTC tap changer.
- It can be used for DC power supply with different voltages such as 12V/24V/36V etc., which can adjust the voltage according to your needs without affecting other components in your system such as electronic equipment or electrical devices etc. so that you can get maximum performance from your equipment without any failure.
Category: High Voltage
Description
The 33KV On-load tap changer (OLTC) is a device that allows for on-load tapping of a 33KV three-phase electrical feeder. It is used in the service and distribution industry to protect the equipment and components connected to the line. It has three separate taps, one for each phase of voltage.It can be used as an active tap changer or as a passive tap changer. In the active mode, it uses capacitors and resistors to provide voltage isolation between phases, which can be adjusted depending on the application. In the passive mode, no internal capacitors are used, so this device provides only isolation between phases without any control over the current flow through them.