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PQRM5100 11 Ux Ix xx xx (PS) 

 
 

Single Phase power transmitter 

 
 
 
 
 

Instruction manual 

 

 

Summary of Contents for PQRM5100 11 U I Series

Page 1: ...PQRM5100 11 Ux Ix xx xx PS Single Phase power transmitter Instruction manual...

Page 2: ...and transport 9 4 Mounting 10 4 1 General instructions 10 4 2 Main dimensions of the instrument 10 4 3 Mounting 11 5 Connecting 12 5 1 Preparing the connection 12 5 2 Connecting the measuring inputs...

Page 3: ...ttings 32 6 10 Phase lag of CT settings 33 6 11 Sampling time setting 34 6 12 Measure layout setting 35 6 13 Current threshold setting 37 6 14 Digital output Energy pulse output settings 38 6 15 Digit...

Page 4: ...e contents of this manual should be made available to these personnel and put into practice by them 1 3 Symbolism used Information tip note This symbol indicates helpful additional information Caution...

Page 5: ...hazards or damage to system components through incorrect mounting or adjustment 2 4 General safety instructions The PQRM5100 11 Ux Ix xx xx is a high tech instrument requiring the strict observance o...

Page 6: ...S 6 20200205 V1 3 Product description 3 1 Delivery configuration Delivered items The scope of delivery encompasses PQRM5100 11 Ux Ix xx xx documentation this operating instructions certification warra...

Page 7: ...lated communication output with MODBUS RTU slave protocol 32 instruments can be connected to the PLC or to the computer One option can be installed dual analog output or communication output at the sa...

Page 8: ...ted power factor f Measured network freuqvency Hz THDU Calculated total harmonic distortion of phase voltage up to 19 harmonic THDI Calculated total harmonic distortion of phase current up to 19 harmo...

Page 9: ...munication output RS4 option 3 5 Storage and transport This instrument should be stored and transport in places whose climatic conditions are in accordance with chapter 9 1 as described under the titl...

Page 10: ...ng conditions are in accordance with chapter 9 1 as described under the title Operating conditions Mounting position The instruments are designed in housing for mounting on TS 35 rail The instruments...

Page 11: ...The mounting doesn t need any tool 1 Tilt the instrument according to the figure put the instrument s mounting hole onto the upper edge of the rail figure step 1 2 Push the instrument s bottom onto t...

Page 12: ...lity of the connecting cable wire cross section insulation etc The cross section of the connecting wires specified in the following table connector wire cross section Main inputs 0 75 1 5 mm2 Voltage...

Page 13: ...ng the voltage and current inputs to power network 1 Loosen terminal screws 2 Insert the wire ends into the open terminals according to the wiring plan 3 Screw the terminal in 4 Check the hold of the...

Page 14: ...rent inputs to power network The terminal k of CT you have to connecting to earth 1 Loosen terminal screws 2 Insert the wire ends into the open terminals according to the wiring plan 3 Screw the termi...

Page 15: ...s to power network The terminal k of CT and terminal v of VT you have to connecting to earth 1 Loosen terminal screws 2 Insert the wire ends into the open terminals according to the wiring plan 3 Scre...

Page 16: ...Wiring plan connecting the voltage and current inputs to power network The application of The vectorsum of all phase voltages is always zero The terminal k of CT and terminal v of VT you have to conn...

Page 17: ...ting machinery Wiring plan connecting the voltage and current inputs to power network The application of The vector sum of all phase voltages is always zero The terminal k of CT and terminal v of VT y...

Page 18: ...tal outputs of the device are passive switch transistor The external power supply is required for operation The figure shows the outputs terminal of the switching transistor Output terminal of the dig...

Page 19: ...rews 2 Insert the wire ends into the open terminals according to the wiring plan 3 Screw the terminal in 4 Check the hold of the wires in terminals by pulling on them firmly 9 10 digital output 1 11 1...

Page 20: ...ssing unit Be careful the polarity of the cables 1 Loosen terminal screws 2 Insert the wire ends into the open terminals according to the wiring plan 3 Screw the terminal in 4 Check the hold of the wi...

Page 21: ...utput to the signal processing unit Be careful the polarity of the cables 1 Loosen terminal screws 2 Insert the wire ends into the open terminals according to the wiring plan 3 Screw the terminal in 4...

Page 22: ...iring plan 3 Screw the terminal in 4 Check the hold of the wires in terminals by pulling on them firmly Checking the connections Check if the cables are connected properly have you connected all the c...

Page 23: ...shows the protection covers opened 1 Insert the screwdriver between the protection covers and the device housing 2 Push the screwdriver in the specified direction 3 Open the protection covers 4 Connec...

Page 24: ...ime Setting up 1 Start the configuration program 2 Connect the instrument with the USB cable to the PC USB port and put it under supply voltage If you have already installed the USB serial card driver...

Page 25: ...ge between the device and the configuration software You can set the serial line to the PC and start and stop the collection of measurement data Function The log file will be written continuously prev...

Page 26: ...xx xx PS 26 20200205 V1 6 3 Configuration software Measuring tab Displays the data of measured electrical network The Settings button In the bottom right corner of window you can enter the Configurat...

Page 27: ...7 6 4 Configuration software Harmonics tab You can see the phase currents and phase voltages harmonics of network Function You need to enable harmonic analysis option If you enable this function the m...

Page 28: ...rrents and phase voltages vectors of network Function The scale of Vector illustration is aligned of voltage vectors You can the voltages and currents vectors simultaneous representation The scale dis...

Page 29: ...dents such that the system can detect and which is constantly changing depending on the state of the electrical network Static errors Incidents such that the system can detect and whose occurrence is...

Page 30: ...o configure Password protected area 1 Click the Measuring tab 2 Click the Settings button In the bottom right corner of window 3 Enter the password Default 0 Sequence of operations 4 If the entered pa...

Page 31: ...nnect the inputs directly you should set VT 1 When you connect the inputs through voltage transformers you should set the VT ratio of the applied transformers so the instrument able to calculate with...

Page 32: ...connect the input directly you should set CT 1 When you connect the input through a current transformer you should set the CT ratio of the applied transformer so the instrument able to compute with th...

Page 33: ...50Hz of the current transformer you can specify the value here The device to compensate the measurement results Default 0 1 Click on the Configuration tab 2 Inside of Configuration tab click on the M...

Page 34: ...the calculations and updates the outputs You can increase the sampling time It is possible to reduce the fluctuation of measured values The sampling time modification change refresh time of the instr...

Page 35: ...measurement with neutral conductor Using 1 meter configuration It is assumed symmetric load system so you can use the measurement of rotating electrical machines 3 phase 3 wire 1 meter Three phase me...

Page 36: ...11 Ux Ix xx xx PS 36 20200205 V1 1 Click on the Configuration tab 2 Inside of Configuration tab click on the Measure settings tab 3 Select the Measure layout 4 Click on the Save button Sequence of op...

Page 37: ...ion may be useful when the power network is noisy either in voltage off state or in unloaded state and this effect may cause an error in energy measurement Default 0 0 1 Click on the Configuration tab...

Page 38: ...n the Configuration tab 2 Inside of Configuration tab click on the Module 1 tab 3 Select the Energy pulse functions from the Function pull down menu 4 Select the output polarity from the Polarity pull...

Page 39: ...pulses ms field the minimum time between the pulses in milliseconds 9 Click on the Save button Warning At settings always take note the maximum power on the power network Improper settings may cause a...

Page 40: ...tion tab click on the Module 1 tab 3 Select the Energy sign function from the Function pull down menu 4 Select the output polarity from the Polarity pull down menu When you select the NO Normally open...

Page 41: ...side of Configuration tab click on the Module 1 tab 3 Select the Limit signal function on Function pull down menu 4 Select the output polarity from the Polarity pull down menu When you select the NO N...

Page 42: ...omes lower as the monitored value The output changes into inactive state when measured value becomes higher as the monitored value and hysteresis Above higher limit The output changes into active stat...

Page 43: ...e output changes into active state when measured value is out upper and lower limit as the monitored value The output changes into inactive state when measured value is between of range upper and lowe...

Page 44: ...states the alarm signaling remains as far as it is acknowledged by the user through the configuration program by clicking on the Clear errors button on the Errors page 1 Click on the Configuration tab...

Page 45: ...If the value is greater than the setting limit the device holds the digital1 output to active state and the digital2 output sets to active state At the next sampling the value of expected average pow...

Page 46: ...PQRM5100 11 Ux Ix xx xx PS 46 20200205 V1 5 Select the Demand 2 limit function on Function pull down menu 6 Select the output polarity from the Polarity pull down menu 7 Click on the Save button...

Page 47: ...apter 1 Click on the Configuration tab 2 Inside of Configuration tab click on the Demand power tab 3 Select the Demand enable function on Demand pull down menu 4 Select the synchrony clock source to I...

Page 48: ...L3 QL1 QL2 QL3 SL1 SL2 SL3 PFL1 PFL2 PFL3 L1 L2 L3 P Q S PF f1 f2 f3 12 13 1 Click on the Configuration tab 2 Inside of Configuration tab click on the Modul2 tab Contents this window depends on device...

Page 49: ...it approx 0 22mA Error signal mode The output signal always follows the input signal between of range minimum and maximum If the value of input signal falls outside of range minimum and maximum the ou...

Page 50: ...ruct 3 Select the Test value from the Select pull down menu 4 Type in into the Range form field the lower value of the output scale 5 Type in into the Range to field the higher value of the output sca...

Page 51: ...Error mode Min 3 800 mA Max 20 100 mA Error 20 500 mA Select Test value Range form 0 000 Range to 1000 000 Signal of analog output Test value 0 000 analogue out 4 mA Test value 500 000 analogue out 12...

Page 52: ...Inside of Configuration tab click on the Modul2 tab Contents this window depends on device construct 3 Select the Protocol from the Protocol pull down menu 4 Type in into the Modbus Address field the...

Page 53: ...of the measured quantities are stored in 2 MODBUS register On the lower address is the upper 16 bit and on the higher address is the lower 16 bit 1068 1131 2016 2031 3016 3031 4016 4031 5010 5023 of...

Page 54: ...Q2 high 16 bit 1027 Q2 low 16 bit 1028 Q3 high 16 bit 1029 Q3 low 16 bit 1030 S1 high 16 bit 1031 S1 low 16 bit 1032 S2 high 16 bit 1033 S2 low 16 bit 1034 S3 high 16 bit 1035 S3 low 16 bit 1036 PF1...

Page 55: ...1 16 bit 1107 EQ1 15 0 bit 1108 EQ2 63 48 bit 1109 EQ2 47 32 bit 1110 EQ2 31 16 bit 1111 EQ2 15 0 bit 1112 EQ3 63 48 bit 1113 EQ3 47 32 bit 1114 EQ3 31 16 bit 1115 EQ3 15 0 bit 1116 EP 63 48 bit 1117...

Page 56: ...b k high 16 bit 2033 Hib k low 16 bit 2034 THD U1 high 16 bit 2035 THD U1 low 16 bit 2036 THD I1 high 16 bit 2037 THD I1 low 16 bit 2038 U1 fundamental freuq 2039 U1 1 harmonic 2040 U1 2 harmonic 2041...

Page 57: ...b k high 16 bit 3033 Hib k low 16 bit 3034 THD U2 high 16 bit 3035 THD U2 low 16 bit 3036 THD I2 high 16 bit 3037 THD I2 low 16 bit 3038 U2 fundamental freuq 3039 U2 1 harmonic 3040 U2 2 harmonic 3041...

Page 58: ...b k high 16 bit 4033 Hib k low 16 bit 4034 THD U3 high 16 bit 4035 THD U3 low 16 bit 4036 THD I3 high 16 bit 4037 THD I3 low 16 bit 4038 U3 fundamental freuq 4039 U3 1 harmonic 4040 U3 2 harmonic 4041...

Page 59: ...06 PF high 16 bit 5007 PF low 16 bit 5008 Fi high 16 bit 5009 Fi low 16 bit 5010 EP 63 48 bit 5011 EP47 32 bit 5012 EP 31 16 bit 5013 EP 15 0 bit 5014 EP 63 48 bit 5015 EP 47 32 bit 5016 EP 31 16 bit...

Page 60: ...6031 EQ1 15 0 bit 6032 EP2 63 48 bit 6033 EP2 47 32 bit 6034 EP2 31 16 bit 6035 EP2 15 0 bit 6036 EP2 63 48 bit 6037 EP2 47 32 bit 6038 EP2 31 16 bit 6039 EP2 15 0 bit 6040 EQ2 63 48 bit 6041 EQ2 47...

Page 61: ...bit 7024 EQ1 63 48 bit 7025 EQ1 47 32 bit 7026 EQ1 31 16 bit 7027 EQ1 15 0 bit 7028 EQ2 63 48 bit 7029 EQ2 47 32 bit 7030 EQ2 31 16 bit 7031 EQ2 15 0 bit 7032 EQ3 63 48 bit 7033 EQ3 47 32 bit 7034 EQ3...

Page 62: ...bit 7124 EQ1 63 48 bit 7125 EQ1 47 32 bit 7126 EQ1 31 16 bit 7127 EQ1 15 0 bit 7128 EQ2 63 48 bit 7129 EQ2 47 32 bit 7130 EQ2 31 16 bit 7131 EQ2 15 0 bit 7132 EQ3 63 48 bit 7133 EQ3 47 32 bit 7134 EQ3...

Page 63: ...bit 7224 EQ1 63 48 bit 7225 EQ1 47 32 bit 7226 EQ1 31 16 bit 7227 EQ1 15 0 bit 7228 EQ2 63 48 bit 7229 EQ2 47 32 bit 7230 EQ2 31 16 bit 7231 EQ2 15 0 bit 7232 EQ3 63 48 bit 7233 EQ3 47 32 bit 7234 EQ3...

Page 64: ...325 EP 15 0 bit 7326 EP 31 16 bit 7327 EP 15 0 bit 7328 EQ 31 16 bit 7329 EQ 15 0 bit 7330 EQ 31 16 bit 7331 EQ 15 0 bit Energies MWh MVARh 32 bit MB add Content MB add Content 7400 EP1 31 16 bit 7401...

Page 65: ...0 bit 7508 EP2 31 16 bit 7509 EP2 15 0 bit 7510 EP3 31 16 bit 7511 EP3 15 0 bit 7512 EQ1 31 16 bit 7513 EQ1 15 0 bit 7514 EQ2 31 16 bit 7515 EQ2 15 0 bit 7516 EQ3 31 16 bit 7517 EQ3 15 0 bit 7518 EQ1...

Page 66: ...ll 10 L1 overload 11 L2 overload 12 L3 overload 13 Phase sequence error 14 Frequency out of range 15 Q out of range 16 Modbus communication error 17 Analogue output error 18 Demand overrun 19 Unexpete...

Page 67: ...ce error The L1 L2 L3 phases follow each other unlike the positive sequence 120 240 The user can be order the detected errors for digital output 6 17 Digital output Alarm output settings or for Error...

Page 68: ...05 V1 6 24 Setting errors LED Function Programming the error LED 1 Click on the Configuration tab 2 Inside of Configuration tab click on the Error LED tab 3 Click on the displayed error 4 Click on the...

Page 69: ...content for 18 harmonic Here can be enabled the harmonics analysis 1 Click on the Configuration tab 2 Inside of Configuration tab click on the Harmonics tab 3 Click on the calculating harmonics 4 Clic...

Page 70: ...is OK the instrument is defective There is no output signal check the device connected to the input When the result of fault finding is that the PQRM5100 11 Ux Ix xx xx PS is defective call the manuf...

Page 71: ...ws 1 Before dismounting disconnect all wires 2 Put the screwdriver end into the fixing assembly s hole figure step 1 3 Lift the screwdriver handle until it possible to open the fixing assembly figure...

Page 72: ...th the concerning EU directive the manufacturer undertakes the disposal of the instrument that are manufactured by it and intended to be destroyed Please deliver it in contamination free condition to...

Page 73: ...ecified at ordering Type IIN A IIN max A IIN max 1s A I1 0 1 2 x IBE 20 Input current ranges I5 0 5 2 x IBE 100 Input current ranges specified at ordering Current measure input Galvanic isolated R 20...

Page 74: ...pply voltage 24 VDC 10 PQRM5100 11 Ux Ix xx xx or 230 V AC DC 10 PQRM5100 11 Ux Ix xx xx PS Power consumption 1 5 VA 1 W Galvanic isolation Operating isolation voltage 250 Veff between measuring input...

Page 75: ...a A criteria A criteria SURGE Power measure input Main supply input PS Analogue outputs Digital outputs 4 kV CATIII 250V 2 kV line to ground 1 kV line to ground 1 kV line to ground B criteria B criter...

Page 76: ...PQRM5100 11 Ux Ix xx xx PS 76 20200205 V1 9 2 Application examples...

Page 77: ...PQRM5100 11 Ux Ix xx xx PS 20200205 V1 77...

Page 78: ...PQRM5100 11 Ux Ix xx xx PS 78 20200205 V1 RS485 bus topology...

Page 79: ...PQRM5100 11 Ux Ix xx xx PS 20200205 V1 79...

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