Capacitor systems for automatic power factor correction capacitor are design to automatically switch capacitors inside and outside the three-phase electrical system to maintain a predetermine power factor.
OF THE PAIR
Capacitor systems for automatic power factor correction are design to automatically switch capacitors inside and outside the three-phase electrical system to maintain a predetermine power factor. Heavy-duty business and industrial customers can maintain the desired power factor set by the services and reduce system losses. The advantages of using an automatic capacitor bank allow for fewer installations. Than using smaller capacitor banks. And the use of automate systems can significantly reduce installation costs. Automatic Power Factor Correction Capacitors chairs require virtually no maintenance after installation. The bank’s fully automatic power factor controller allows real-time monitoring of power and energy usage. Capturing hundreds of parameters. That are store, store and available and / or sent to other systems locally and / or remotely.
All standard components, including three-phase capacitor cells, controller, circuit breakers, fuses and fuses, ventilation system, on / off indicators and knobs, are housed in a NEMA 1 12 caliber backlit ANSI # 70 steel enclosure. Gray. The shaded panel is fully equipped with removable glass and a door lock. All items ƒ ?? they have a bifurcated current transformer that can be used with the controller. TODAY ‘S OVERVIEW SUMMARY OF LARGE TRANSFORMERS WITH PREVIOUS BRANCHES.
Capacitor element design
The high-quality three-phase elements used in the construction of the power factor batteries are metallized polypropylene vacuum permeable, filled with dielectric fluid and hermetically sealed in a steel housing, which provides additional insulation, excellent protection against the crown and barrier. .
The dielectric fluid used in capacitor cells is a Class III green liquid, non-PCB, non-toxic, biodegradable and flammable.
In the event of overloading the self-healing technology, the self-healing properties of the metallized polypropylene prevent the continuous degradation of the low-loss dielectric.
An internal pressure-sensitive switch that closes the condenser firmly at the end of its service life or in the event of a major failure. While maintaining the integrity of the steel housing.
The internal resistor discharge voltage is less than 50 volts in less than 1 minute. After electrical removal from the cell circuit.
standard ?? UL810, C22.2 Land Register entry no. 190 Canadian standards, ANSI / IEEE 18, IEC 831, NEMA CP-1, approved by UL CYTW2 and recognized by CUL CYTW8
Capacitor design loss is less than 0.5 watts per quartz at 60 Hz and 25 degrees.
240 V AC, 480 V AC, 600 V AC 60 Hz
50 ?? Available in the amount of 1000 KVAR ??
Capacity + or ƒ ?? % 15.
The DC tolerance is 135% of the rated current.
The overvoltage tolerance is 110% of the rated voltage
Standard operating temperatures are -40 F and +115 F.
All internal wires are 90 ºC insulated copper wire.
Fuses and indicators
The internal fuses are delayed and have a voltage of 600 V AC, which is based on the current kVAR size according to the requirements of the national electrical code.
Reactor filter setting
NEMA 3R outer casing
Internally mounted box switch with external drive
Head protection in smaller blocks ƒ ?? PLANT CONSULTATION
UL listed services item
Controller panel view
Ethernet connection for remote data access
Panel save closed (default to the right of closing)
Secure door lock (only required if the door entrance is on the left side of the lock panel).