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External CT detects the load current, DSP as CPU has advanced logic control arithmetic, could quickly track the instruction current, divides the load current into active power and reactive power by using the intelligent FFT, and calculates the harmonic content rapidly and accurately. Then it sends PWM signal to internal IGBT's driver board to control IGBT on and off at 20KHZ frequency. Finally generates opposite phase compensation current on inverter induction, at the same time CT also detects the output current and negative feedback goes to DSP. Then DSP proceeds the next logical control to achieve more accurate and stable system.
Active harmonic filters are deployed across a diverse array of industries where power quality is paramount. Here are some prevalent applications:
1. Industrial Settings: Manufacturing facilities, particularly those housing variable speed drives and nonlinear loads, derive substantial benefits from active harmonic filters. These filters ensure machinery reliability, curtail maintenance expenses, and enhance overall system efficiency.
2. Data Centers: Data centers rely heavily on uninterrupted power supply. Active harmonic filters are integral to preserving power quality, mitigating the risk of data loss, and sustaining the longevity of IT equipment.
3. Commercial Establishments: Whether in office complexes, retail spaces, or hospitals, active harmonic filters contribute to maintaining a stable power supply. This ensures the smooth operation of HVAC systems, elevators, and sensitive medical equipment.
4. Renewable Energy Installations: Wind and solar farms, owing to the variability of their power output, can generate harmonics. Active harmonic filters are instrumental in facilitating the clean injection of power into the grid, averting disturbances, and ensuring grid stability.
5. Wastewater Treatment Facilities: Pumps, blowers, and various process equipment in these facilities introduce harmonics. Active harmonic filters aid in sustaining efficient operation and reducing energy consumption.
TYPE | Series 220V | Series 400V | Series 500V | Series 690V |
Max neutral wire current | 23A | 15A 、25A 、50A、 75A 、100A 、150A | 100A | 100A |
Nominal voltage | AC220V(-20%~+20%) | AC380V(-20%~+20%) | AC500V(-20%~+20%) | AC690V(-20%~+20%) |
Rated frequency | 50Hz±5% | |||
Network | Single phase | Three-phase three-wire/three-phase four-wire | ||
Response time | <40ms | |||
Harmonics filtering | 2th to 50th Harmonics,The number of compensation can be selected, and the range of single compensation can be adjusted | |||
Harmonic compensation rate | >92% | |||
Neutral line filtering capability | / | The filtering capacity of three-phase four-wire neutral line is 3 times of that of phase filtering | ||
machine efficiency | >97% | |||
Switching frequency | 32kHz | 16kHz | 12.8kHz | 12 .8kHz |
Feature selection | Deal with harmonics/Deal with harmonics and reactive power | Deal with harmonics/Deal with harmonics and reactive power/ Deal with harmonics and three-phase unbalance /Three options | ||
Numbers in parallel | No limitation. A single centralized monitoring module can be equipped with up to 8 power modules | |||
Communication methods | Two-channel RS485 communication interface (support GPRS/WIFI wireless communication) | |||
Altitude without derating | <2000m | |||
Temperature | -20~+50°C | |||
Humidity | <90% RH,The average monthly minimum temperature is 25℃ without condensation on the surface | |||
Pollution level | Below level Ⅲ | |||
Protection function | Overload protection, hardware over-current protection, over-voltage protection, power failure | |||
Noise | <50dB | <60dB | <65dB | |
Installation | Rack/wall hanging | Rack | ||
Into the way of line | Back entry (rack type), top entry (wall-mounted) | Top entry | ||
Protection grade | IP20 |