SCADA system use smart power factor saver three phase power factor capacitor bank

The power factor capacitor bank is based on low-voltage pure dry-type capacitors. It adopts the latest achievements in microcontroller technology, micro-sensors, micro-network technology and electrical appliance manufacturing technology. It integrates zero-point switching, protection, measurement, and online functions in one. It is a major breakthrough in the existing low-voltage reactive power compensation filtering technology. It is mainly used in reactive power compensation in very severe harmonics to ensure reliable operation and absorb and eliminate harmonics to a certain extent.

 

Control principle

CPH adopts a 32-bit digital signal processor (MCU) as the core. Collecting voltage and current signals of the power distribution network, monitoring reactive power real-time changes, combined with capacitor state, used as compensation module switching operations judgment basis. The information transmission between the compensation modules through the RS485 communication interface in order to complete the collaborative work.

 

Features

Sync switch

No harmonics are generated during the work process, and its zero-point switching eliminates the inrush current and over-voltage generated at the moment of switching. More than 1 million times of trouble-free switching, strong withstand voltage, current shock and anti-harmonic ability.

Real-time flexible monitoring

Standard RS485 communication interface, used for information exchange between equipment and monitoring system, to achieve integrated power distribution management

Perfect protection function

With current quick-break, overload, phase loss, three-phase unbalance protection, and over-voltage, under-voltage, loss of voltage, over-temperature, harmonic overrun and other protection types

Online function

Max 32 units online connection, covering the reactive power compensation capacity of the low-voltage side of all distribution transformers

Flexible compensation method

Centralized control and decentralized control can be selected, combined with the principle of cyclic switching and appropriate compensation, to optimize the working method and extend the service life of the capacitor

Fault self-diagnosis

Fault self-diagnosis and segment code LCD display are convenient for field operation status and accident cause investigation and analysis. Once the slave self-diagnoses the fault, it will automatically exit immediately without affecting the normal operation of the system; if the master fails to exit, the slave will rebuild the online network.

 

 

Technical parameters

Electrical performance	Working voltage	AC 400V (±10%)
	Working type	3p3w, 3p4w
	Rated frequency	50Hz (±3)
	Reactance ratio	7%, 14%
	Switching response time	≤200ms
	Time interval	≥2s (configurable)
	Reactive power compensation capability	≤40kvar (three-phase common compensation) ≤20kvar (single-phase split compensation)
	Connection units	≥32pcs
	Heat consumption	<3W(rated capacity)
Reliability parameter	Control accuracy	100%
	Allowed switching times	≥1 million times
	Capacitor capacity running time decay rate	<0.5% /year
	Capacitor capacity switching attenuation rate	≤0.1% /million times
	Annual failure rate	≤0.1%
Control feature	communication method	Modbus-RTU protocol, RS485 communication interface
	Connection method	Network cables and electrical connections
	Operating mode	Manual / Auto
	Inrush	≤2.5 times the rated current
	Cooling method	Forced air cooling
Structure feature	Installation method	Indoor, physical installation
	Grounding method	Reliable connection via ground bolt
	Dimensions	192x440x360 (mm) reactance rate is 7%
		200x480x430 (mm) reactance is 14%
Environmental conditions	Ambient temperature	-25 °C- + 55 °C
	Relative humidity	40 °C, 20-90%
	Altitude	≤2000m
Implementation standards	In accordance with GB / T15576-2008

 

Model selection

Model and size

Model	Specification	Outshape size(mm)
		W	H	D	A	B
CPH-10/280/P7	CPH series 10kvar, 280V, 7%	192	440	360	180	250
CPH-15/280/P7	CPH series 15kvar, 280V, 7%	192	440	360	180	250
CPH-20/280/P7	CPH series 20kvar, 280V, 7%	192	440	360	180	250
CPH-10/300/P14	CPH series 10kvar, 300V, 14%	200	480	430	180	250
CPH-15/300/P14	CPH series 15kvar, 300V, 14%	200	480	430	180	250
CPH-20/300/P14	CPH series 20kvar, 300V, 14%	200	480	430	180	250
CPH-20/480/P7	CPH series 20kvar, 480V, 7%	192	440	360	180	250
CPH-30/480/P7	CPH series 30kvar, 480V, 7%	192	440	360	180	250
CPH-40/480/P7	CPH series 40kvar, 480V, 7%	200	480	430	180	250
CPH-20/525/P14	CPH series 20kvar, 525V, 14%	200	480	430	180	250
CPH-30/525/P14	CPH series 30kvar, 525V, 14%	200	480	430	180	250
CPH-40/525/P14	CPH series 40kvar, 525V, 14%	200	480	430	180	250