Power Factor Controllers
It is designed to reduce reactive (inductive and capacitive) power that comes from network and loads do not use. If the inductive reactive power is attracted from the network, it interferes by attracting capcitor at the appropriate step. If capacitive reactive power is attracted from the network, interferes by attracting shunt reactor at the appropriate step. Thus, it endevors to reduce the inductive/ active and capacitive/active rates of the system. It is designed to make more sensible compensation at the unbalanced inductive and capacitive systems with PFC-XXSVC TCR(SVC) step. The SVC feature is available in models with SVC code.
Description
- 2.9″ (128×64) Easy to install and use with graphic LCD.
- TCR (SVC) Connectable (only in models with SVC).
- Generator Input and Generator Compensation.
- Remote Communication with RS485 (Modbus RTU) (Only in models with communication).
- Compensation for Inductive and Capacitive Systems.
- Manual Step Value Enterable.
- Single, Two, and Three Phase capacitor and Shunt Reactor can be connected.
- Turkish and English Language option.
- Step Drive, Step Release, Discharge, and Settlement Times are Adjustable.
- Voltage, harmonic current/voltage, inductive and capacitive alarm output.
- Current harmonics can be observed up to 31st harmonics.
- Voltage harmonics can be observed up to 31st harmonics.
- Cosine values of each phase can be observed.
- Power factor values of each phase can be observed.
- Capacitive/active and inductive/active ratio can be observed.
- Total active and reactive energies (import/Export/Inductive/Capacitive) can be observed.
- THD-V and THD-I values of each phase can be observed.
- Creating power analysis (20 samples 9999 min.).
- It shows the total number of uses of the steps.
- Encrypted protection.
- Same aging in steps.