Rapidus Power Factor Controller

Rapidus Power Factor Controller

Moduler design No connector cables No fixing screws State of the art technology Easy mounting on panels connection to system

Dynamic Capacitor Monitoring DCM is a supreme function in Rapidus which enables the user to make proactive maintenance for compensation cabinets. DCM tracks the real time KVAR values of each capacitor and uses the measured KVAR value in compensation calculations. If a contactor is broken or a capacitor is out of order, DCM will detect it within or days and activate the alarm for user. DCM has 3,4% accuracy. This information is valid for 3 shift operating facilities. Initial Values Alarm Level Setup Contactors C C C3 C4 Alarm Level %0 5 kvar 0 kvar 0 kvar 0 kvar After a certain time Alarm screen indicates the status of 3rd and 4rd steps MOBDUS RS 485 Remotely monitor actual kvar values of each step in addition to DCM alarms Pro active maintenance Highly sensitive compensation due to realtime kvar measurements of the steps Contactors C C C3 C4 Alarm Level %0 3 kvar 3 kvar kvar 0 kvar Means capacitor should be changed Means capacitor is out of order or contactor is out of order or cable connection problem or fuse blown

Capacitor/ReactorP/3P Rapidus can be connected to either single or three phase capacitors or reactors. Rapidus can be used in Data Centers or Mining Areas where the load is frequently capacitive. Rapidus can be used with a selection of capacitors and reactors in single or three phase connections. Mono Phase 3 Phase Reactor Phase Reactor 3 Phase Capacitor Capacitor 3 Phase Capacitor Fig. A Fig. B V V V3 N V V V3 N Advanced Learning Function L3 K3 L K L K V V V3 N K3 L3 L K K L V V3 V N Rapidus can learn the connections and capacitor or reactor values. If there is a fault in the CT or VT connections, Rapidus detects the fault and corrects it. It shows the fault on the screen. Correct connection Wrong connection Advanced Learning Function Rapidus detects the wrong connections after learning mode is activated. Connections are displayed on the screen. Rapidus don't take misconnections into consideration and operates as if all connections are properly made as shown in Fig A. Rapidus learns all step values regardless they are capacitor or reactor.

Rapidus = PFC + Energy Analyzer In standart compensation cabinets, there are always a multimeter or analyzer to be associated with a power factor controller. Rapidus, as a twoinone device meets both requirements of the industry. User can reduce the cost of analyzer, wiring and labor by choosing Rapidus. Saving On Extra multimeter / analyzer cost Wiring cost Labor cost Rapidus as an Energy Analyzer Rapidus can measure and monitor the following parameters : All electrical parameters Min, Max and Average Values for Hour, Day and Month Harmonics upto 5 st Demand Phasor Diagram Data Logging Rapidus measures Rapidus logs Rapidus logs Rapidus logs MB Memory 68 different energy parameters. 80 days hourly 40 days daily 36 months monthly real time measurements of 68 parameters. demand values for P. Q, S, I 50 recent alarms with time stamp.

Surge Withstand 00 A/ sec Rapidus current inputs can withstand surges upto 00 A for second. In case of a current rise in the secondary winding of the current transformer, current inputs of the PFC should withstand to these peak values. If not, current transformer may explode due to open circuit in the secondary winding. This may result with shutdown of the compensation system and compensation penalty for the enduser. 5 A 00 A sec. Accuracy Class (0,s) Function Symbol Function Function Performance Class According to IEC 6557 Measuring Range Other Complementary Characteristics P Total active power 0, 0 % I b 0,5 Ind to 0,8 Cap Q V Total reactive power 5 % I b 0,5 Ind to 0,5 Cap S A Total apparent power 0, 0 % I b 0,5 Ind to 0,8 Cap E A Total active energy 0, 0 to 49999999999 IEC 6053 Class S E RV Total reactive energy 0 to 49999999999 IEC 60533 Class f Frequency 0,05 45 65 Hz I Phase current 0, 0 % I b I Nc Neutral current 0,5 0 % I b U Voltage 0, U min U U max P FA Power factor 0,5 0,5 Ind to 0,8 Cap THDV Total harmonic distortion voltage 0 % to 0 % THDI Total harmonic distortion current 0 % to 00 % Other Features Graphical LCD Language Support Harmonics Measurement upto 5 Advanced Alarm Settings Real Time Clock

Rapidus Product Selection Chart General Graphical LCD 6 buttons Password Protection Measurement Type Supply Voltage AC Supply Voltage DC Day/Night Input Number of Steps Current Transformer Ratio Voltage Transformer Ratio Connection Type Type of Switching Target cosq Accuracy Class Voltage Accuracy Class Current Accuracy Class Active Energy Number of Measurement in a period Power Consumption Power Quality Measurements Harmonics / current and voltage THDVoltage in % THDCurrent in % Phasor Diagram Data Logging Average, Minimum, Maximum Values Alarms Time Stamp Voltage Measurement Input (Supply and Measurement Inputs are the same node) Overvoltage Category Measured Range LN Measured Range LL Measured Frequency Range Power Consumption Sampling Freq.between 4565 Hz Current Measurement Input Rated Current Measurement Range Overvoltage Category Measurement Surge Voltage Power Consumption Peak current for sec Sampling Freq.between 4565 Hz Input Outputs Outputs Max. Switching Current Max. Switching Voltage Max. Switching Power for a Single Alarm Outputs Max. Switching Current Max. Switching Voltage Max. Switching Power GEN Input Input range Mechanical Properties Weight Protection Class Assembly Type Dimensions Cable Cross Sections Voltage, Current, All Outputs, Gen Input Stranded: Solid: 606006 RAPIDUS 3RE 3 Phase 8565 V AC Selectable 0,80,00 Inductive or Capacitive 5 < 0VA Upto 5st I 957 Vrms 65470 Vrms 4565 Hz <0. VA 0.0 kv < VA 00 A A 50 VA 000 VA 85 65 VAC 0,670 kg IP 40 front, IP 0 rear W44xH44xD78,5 mm 4AWG 4mm AWG x.5 mm x6 AWG 606007 RAPIDUS 3RE 3 Phase 8565 V AC 4 Selectable 0,80,00 Inductive or Capacitive 5 < 0VA Upto 5st I 957 Vrms 65470 Vrms 4565 Hz <0. VA 0.0 kv < VA 00 A 4 A 50 VA 000 VA 85 65 VAC 0,765 kg IP 40 front, IP 0 rear W44xH44xD78,5 mm 4AWG 4mm AWG x.5 mm x6 AWG 6060 RAPIDUS R Phase 8565 V AC Selectable 0,80,00 Inductive or Capacitive 5 < 0VA Upto 5st I 957 Vrms 65470 Vrms 4565 Hz <0. VA 0.0 kv < VA 00 A A 50 VA 000 VA 85 65 VAC 0,653 kg IP 40 front, IP 0 rear W44xH44xD78,5 mm 4AWG 4mm AWG x.5 mm x6 AWG 60604 RAPIDUS R Phase 8565 V AC 4 Selectable 0,80,00 Inductive or Capacitive 5 < 0VA Upto 5st I 957 Vrms 65470 Vrms 4565 Hz <0. VA 0.0 kv < VA 00 A 4 A 50 VA 000 VA 85 65 VAC 0,750 kg IP 40 front, IP 0 rear W44xH44xD78,5 mm 4AWG 4mm AWG x.5 mm x6 AWG 60600 RAPIDUS 8R Phase 8565 V AC 8 Selectable 0,80,00 Inductive or Capacitive 5 < 0VA Upto 5st I 957 Vrms 65470 Vrms 4565 Hz <0. VA 0.0 kv < VA 00 A 8 A 50 VA 000 VA 85 65 VAC 0,45 kg IP 40 front, IP 0 rear W96xH96xD7,5 mm 4AWG 4mm AWG x.5 mm x6 AWG RS 485 Stranded: Solid: Ambient Conditions Operating Temperature Storage Temperature Relative Humidity (no condensation) Communication and Others Modbus RTU Battery Real Time Clock Standarts in Compliance Safety requirements for electrical equipment for measurement, control, and laboratory use,5 mm WG.5 mm 6 AWG x0.75 mm x8 AWG 0 C. +60 C.. 30 C. +80 C.. 300 VAC CAT III acc. to IEC 600,5 mm WG.5 mm 6 AWG x0.75 mm x8 AWG 0 C. +60 C.. 30 C. +80 C.. 300 VAC CAT III acc. to IEC 600,5 mm WG.5 mm 6 AWG x0.75 mm x8 AWG 0 C. +60 C.. 30 C. +80 C.. 300 VAC CAT III acc. to IEC 600,5 mm WG.5 mm 6 AWG x0.75 mm x8 AWG 0 C. +60 C.. 30 C. +80 C.. 300 VAC CAT III acc. to IEC 600,5 mm WG.5 mm 6 AWG x0.75 mm x8 AWG 0 C. +60 C.. 30 C. +80 C.. 300 VAC CAT III acc. to IEC 600

Dimensions (mm) 44 7.0 58.0 44 37 Wiring Diagrams Gen Input Gen Input Rapidus s (606 0)