Скачать с ютуб PFI Controller Setting Part-2 | C/K Value Calculation | Mikro PFI Controller Parameter Setting в хорошем качестве

PFI Controller Setting Part-2 | C/K Value Calculation | Mikro PFI Controller Parameter Setting

Hello, friends I’m Zahid Rahman it’s an EEE campus presentation. Today I’m discuses about PFI Controller Setting. The power factor regulator combines comprehensive operation with user-friendly control setting. It uses numerical techniques in computing the phase difference between the fundamentals of current and voltage, thus precise power factor measurement is achieved even in presence of harmonics. The power factor regulator is designed to optimize the control of reactive power compensation. Reactive power compensation is achieved by measuring continuously the reactive power of the system and then compensated by the switching of capacitor banks. The sensitivity setting optimizes the switching speed. With the built in intelligent automatic switching program, the power factor regulator further improves the switching efficiency by reducing the number of switching operations required to achieve the desired power factor. Usage of the capacitor bank is evenly distributed by the intelligent switching algorithm. This ensures uniform ageing of the capacitors and the contactors used. The four-quadrant operation feature allows the power factor regulator to operate correctly in the case of active power feed back to the mains where regenerative power sources are used. Harmonic current in the system can be harmful to the capacitor bank. This power factor regulator is capable of measuring the total harmonic distortion (THD) in the system and produce an alarm if the THD level is higher than the pre-set value. Other alarms include under/over compensate alarm, under/over current alarm and under/over voltage alarm. Current transformer (CT) polarity is important in determining the correct phase angle different between the current and voltage hence the power factor. This power factor regulator will automatically correct the CT polarity internally in the event that the polarity is reversed. RATINGS AUXILIARY POWER SUPPLY Current Supply voltage: 220~240 V AC/380~415 V AC Operating Limits: -15% + 10% Consumption: 10 VA max Rated frequency: 50 Hz or 60 Hz OUTPUT CONTACTS Numbers of outputs: 6 / 8 / 12 / 14 (PFR60/PFR80/PFR120/PFR140) Rated voltage: 250 V AC Contact rating: 5 A Expected electrical life: 100,000 operations at rated current Expected mechanical life: 5 x 106 operations Max current for the common terminals: 12 A continuous CURRENT INPUT Rated current (In): 5 A Operating Limits: 0.05 A to 6.5 A Rated Frequency: 50 Hz or 60 Hz CONTROL RANGE Power factor setting: 0.8 Ind - 0.8 Cap C/K setting: 0.03 - 1.20 / Automatic Switching sensitivity: 5 - 600 s/step Reconnection time for same step: 5 - 240 s THD threshold: 0.20 - 3.00 (20% -300%) / OFF Switching Program: Automatic/Automatic Rotate/4-quadrant /Manual Rated step coefficient: 0 / 1 / 2 / 3 / 4 / 5 / 6 / 8 / 12 / 16 (Automatic if C/K set to Auto) ENVIRONMENTAL CONDITIONS Temperature: -10°C to 55°C Humidity: 5% to 95%, non-condensing MECHANICAL Mounting: Panel mounting Dimension (mm): 144(w) x 144(h) x 90(d) Enclosure protection: IP54 at the panel Approximate weight: 1.2 kg FEATURS • Microprocessor based intelligent auto switching control • Automatic C/K and rated step adjustment • Automatic CT polarity correction • Display of power factor, current & total harmonic distortion of current • Programmable sensitivity • Last step can be used as alarm/fan output • Under/over voltage alarm, under/over compensate alarm & high harmonic distortion alarm. • User-friendly setting • Complies with IEC 61000-6-2 standard #EEE_Campus #pfi #powerfactor #powerfactorcorrection #powerfactorexplained #powerfactorimprovement #mikropficontrollersettings #howtogiveCKratiosettings Thanking you. Zahid Rahman