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Datcon PQRM5100 11 U I Series Instruction Manual

Single phase power transmitter
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PQRM5100 11 Ux Ix xx xx (PS)
Single Phase power transmitter
Instruction manual

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Summary of Contents for Datcon PQRM5100 11 U I Series

  • Page 1 PQRM5100 11 Ux Ix xx xx (PS) Single Phase power transmitter Instruction manual...

  • Page 2: Table Of Contents

    PQRM5100 11 Ux Ix xx xx (PS) Contents 1. About this document .............4 1.1. Function ................... 4 1.2. Target group................4 1.3. Symbolism used............... 4 2. For your safety ...............5 2.1. Authorized personnel ............... 5 2.2. Appropriate use................ 5 2.3. Warning about misuse ............. 5 2.4.
  • Page 3 PQRM5100 11 Ux Ix xx xx (PS) 5.7. Connecting the digital outputs..........18 5.8. Connecting to MODBUS RS485 network....... 20 5.9. Connecting the analog output to signal processing unit..21 5.10. Connecting the power supply..........22 5.11. Connecting to PC via USB ........... 23 6.

  • Page 4: About This Document

    PQRM5100 11 Ux Ix xx xx (PS) 1. About this document 1.1. Function This operating instructions manual has all the information you need for quick set-up and safe operation of PQRM5100 11 Ux Ix xx xx. Please read this manual before you start setup. 1.2.

  • Page 5: For Your Safety

    For safety and warranty reasons, any internal work on the instruments must be carried out only by DATCON personnel. 2.2. Appropriate use The PQRM5100 11 Ux Ix xx xx is a Single Phase power transmitter.

  • Page 6: Product Description

    PQRM5100 11 Ux Ix xx xx (PS) 3. Product description 3.1. Delivery configuration The scope of delivery encompasses: Delivered items • PQRM5100 11 Ux Ix xx xx • documentation: this operating instructions certification warranty 3.2. Type designation 20200205-V1...

  • Page 7: Operating Principle

    PQRM5100 11 Ux Ix xx xx (PS) 3.3. Operating principle The PQRM5100 11 Ux Ix xx xx (PS) Single Phase power Area of application transmitter measures the characteristic for single-phase network system. The current input of the instrument is isolated from the network with wideband current transformers.
  • Page 8 PQRM5100 11 Ux Ix xx xx (PS) Measuring parameters: • : Measured voltage [V] • : Measured current [A] • P: Measured active power [W] • Q: Measured reactive power [VAr] • S: Measured apparent power [VA] • PF: Calculated power factor •...

  • Page 9: Indicators

    PQRM5100 11 Ux Ix xx xx (PS) 3.4. Indicators The following figure shows the frontpanel: 1. USB configuration port 2. „on” green indicator for indicating that device is ready. 3. „error” red indicator for indicating that a kind of error occurred.

  • Page 10: Mounting

    PQRM5100 11 Ux Ix xx xx (PS) 4. Mounting 4.1. General instructions The instrument should be installed in a cabinet with sufficient IP protection, where the operating conditions are in accordance with chapter 9.1. , as described under the title: Operating conditions. The instruments are designed in housing for mounting on Mounting position TS-35 rail.

  • Page 11: Mounting

    PQRM5100 11 Ux Ix xx xx (PS) 4.3. Mounting The following figure shows the mounting procedures (fixing on the rail): Mounting on the rail 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.).

  • Page 12: Connecting

    PQRM5100 11 Ux Ix xx xx (PS) 5. Connecting 5.1. Preparing the connection Always observe the following safety instructions: • The connection must be carried out by trained and authorized personnel only • Connect only in the complete absence of supply voltage •...

  • Page 13: Connecting The Measuring Inputs To Power Network (1Ph, 2W, 1M)

    PQRM5100 11 Ux Ix xx xx (PS) 5.2. Connecting the measuring inputs to power network (1ph, 2w, 1m) The following figure shows the wiring plan, connecting the instrument to low voltage power network. Wiring plan, connecting the voltage and current inputs to power network 1.

  • Page 14: Connecting The Measuring Inputs To Power Network Trough Ct (1Ph, 2W, 1M)

    PQRM5100 11 Ux Ix xx xx (PS) 5.3. Connecting the measuring inputs to power network trough CT (1ph, 2w, 1m) The following figure shows the wiring plan, connecting the instrument to low voltage power network. Wiring plan, connecting the voltage and current inputs to power network The terminal “k”...

  • Page 15: (1Ph, 2W, 1M)

    PQRM5100 11 Ux Ix xx xx (PS) to medium 5.4. Connecting the measuring inputs power network . (1ph, 2w, 1m) The following figure shows the wiring plan, connecting the instrument to medium voltage power network. Wiring plan, connecting the voltage and current inputs to power network.

  • Page 16: Measuring)

    PQRM5100 11 Ux Ix xx xx (PS) to symmetrical 5.5. Connecting the measuring inputs three-phase power network with neutral conductor. (3 phase, 4 wire, 1 measuring) The following figure shows the wiring plan to symmetrical three-phase network. Measuring only one phase. The three phase outputs are calculated values.

  • Page 17: Connecting The Measuring Inputs To Symmetrical Three-Phase Power Network Without Neutral Conductor. (3 Phase, 3 Wire, 1 Measuring)

    PQRM5100 11 Ux Ix xx xx (PS) to symmetrical 5.6. Connecting the measuring inputs three-phase power network without neutral conductor. (3 phase, 3 wire, 1 measuring) The following figure shows the wiring plan to symmetrical three-phase network without neutral conductor. Measuring only one phase.

  • Page 18: Connecting The Digital Outputs

    PQRM5100 11 Ux Ix xx xx (PS) 5.7. Connecting the digital outputs The digital 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 digital outputs The technical parameters of the digital outputs refer to the...
  • Page 19 PQRM5100 11 Ux Ix xx xx (PS) Example: Connect the digital output for processing unit. Wiring plan, connecting to 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.

  • Page 20: Connecting To Modbus Rs485 Network

    PQRM5100 11 Ux Ix xx xx (PS) 5.8. Connecting to MODBUS RS485 network The following figure shows the wiring plan, connecting the devices with MODBUS RS485 option to processing unit: Wiring plan, connecting to processing unit. Be careful the polarity of the cables! 1.

  • Page 21: Connecting The Analog Output To Signal Processing Unit

    PQRM5100 11 Ux Ix xx xx (PS) 5.9. Connecting the analog output to signal processing unit The following figure shows the wiring plan, connecting the devices with Analog output option to processing unit Wiring plan, connecting the analog output to the signal processing unit Be careful the polarity of the cables!

  • Page 22: Connecting The Power Supply

    PQRM5100 11 Ux Ix xx xx (PS) 5.10. Connecting the power supply The following figure shows the wiring plan, connecting the PQRM5100 11 Ux Ix xx xx to the power supply Wiring plan, connecting the power supply In case of DC supply the polarity is indifferent 1.

  • Page 23: Connecting To Pc Via Usb

    PQRM5100 11 Ux Ix xx xx (PS) 5.11. Connecting to PC via USB The following figure 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.

  • Page 24: Setting-Up

    PQRM5100 11 Ux Ix xx xx (PS) 6. Setting-up 6.1. First steps For setting-up you need: Necessary tools • mini USB A (5 pin)-USB A cable • PQRM_CAL.exe configuration software (version: 3.2.4.) • PC with free USB port Easy to use the PQRM_CAL configuration software (free of Software charge).
  • Page 25 PQRM5100 11 Ux Ix xx xx (PS) The following figure shows the data exchange between the Function device and the configuration software. You can set the serial line to the PC and start and stop the collection of measurement data. The log file will be written continuously, previously saved data is retained.

  • Page 26: Configuration Software, Measuring Tab

    PQRM5100 11 Ux Ix xx xx (PS) 6.3. Configuration software, Measuring tab. Displays the data of measured electrical network. Function The "Settings" button (In the bottom right corner of window) you can enter the "Configuration" menu. 20200205-V1...

  • Page 27: Configuration Software, Harmonics Tab

    PQRM5100 11 Ux Ix xx xx (PS) 6.4. Configuration software, Harmonics tab. You can see the phase currents and phase voltages Function harmonics of network. You need to enable harmonic analysis option. If you enable this function, the measurement update time greatly increases.

  • Page 28: Configuration Software, Phasor Tab

    PQRM5100 11 Ux Ix xx xx (PS) 6.5. Configuration software, Phasor tab You can see the phase currents and phase voltages vectors Function of network. The scale of Vector illustration is aligned of voltage vectors. You can the voltages and currents vectors simultaneous representation.

  • Page 29: Configuration Software, Errors Tab

    PQRM5100 11 Ux Ix xx xx (PS) 6.6. Configuration software, Errors tab You can check the dynamic and static errors. Function Dynamic errors: Incidents such that the system can detect, and which is constantly changing depending on the state of the electrical network.

  • Page 30: Configuration Software, Configure Tab

    PQRM5100 11 Ux Ix xx xx (PS) 6.7. Configuration software, Configure tab You can the devices to configure. Password-protected Function area. 1. Click the „Measuring” tab. Sequence of operations 2. Click the “Settings” button. (In the bottom right corner of window) 3.

  • Page 31: Voltage Transformers (Vt) Ratio Settings

    PQRM5100 11 Ux Ix xx xx (PS) 6.8. Voltage Transformers (VT) ratio settings The voltage inputs of the instrument may connect directly to Function the power network (Vin < 250 Veff [nominal]), or through voltage transformers (Vin > 250 Veff [nominal]). When you connect the inputs directly you should set VT=1.

  • Page 32: Current Transformers (Ct) Ratio Settings

    PQRM5100 11 Ux Ix xx xx (PS) 6.9. Current Transformers (CT) ratio settings The current input of the instrument may connect directly to Function the power network (Iin < 5 Aeff [nominal]), or through a current transformer (Iin > 5 Aeff [nominal]). When you connect the input directly you should set CT=1.

  • Page 33: Phase Lag Of Ct Settings

    PQRM5100 11 Ux Ix xx xx (PS) 6.10. Phase lag of CT settings If you know the phase shift (50Hz) of the current Function transformer, you can specify the value here. The device to compensate the measurement results. [Default: 0.] 1.

  • Page 34: Sampling Time Setting

    PQRM5100 11 Ux Ix xx xx (PS) 6.11. Sampling time setting The device sampling the necessary data for the calculation. Function After sampling time (minimum 80 ms) the MCU of device makes the calculations and updates the outputs. You can increase the sampling time.

  • Page 35: Measure Layout Setting

    PQRM5100 11 Ux Ix xx xx (PS) 6.12. Measure layout setting The PQRM5100 11 Ux Ix xx xx device can operate several Function types of measurement setup. Here you can set the measuring arrangement. Possible measuring modes: 3 phase, 4 wire, 3 meter: Three phase measurement with neutral conductor 3 phase, 3 wire, 3 meter: Three phase measurement without neutral conductor...
  • Page 36 PQRM5100 11 Ux Ix xx xx (PS) 1. Click on the ”Configuration” tab Sequence of operations 2. Inside of ”Configuration” tab click on the “Measure settings” tab. 3. Select the “Measure layout” 4. Click on the “Save” button. 20200205-V1...

  • Page 37: Current Threshold Setting

    PQRM5100 11 Ux Ix xx xx (PS) 6.13. Current threshold setting When the current threshold function is used on the current Function input, the instrument eliminates the input signal under 0.2% of the input range. This function 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.

  • Page 38: Digital Output, Energy Pulse Output Settings

    PQRM5100 11 Ux Ix xx xx (PS) 6.14. Digital output, Energy pulse output settings The instrument has two open collector transistor pulse Function outputs for transmitting export-import energy values for data acquisition purposes. The frequency of the pulse outputs is proportional to the measured energy.
  • Page 39 PQRM5100 11 Ux Ix xx xx (PS) 6. Type-in the energy / pulse ratio into the “ Pulse equivalent” field. 7. Type-in into the “Pulse width [ms]” field the pulse width in milliseconds. 8. Type-in into the “Tmin between pulses [ms]” field the minimum time between the pulses in milliseconds.

  • Page 40: Digital Output, Energy Sign Output Settings

    PQRM5100 11 Ux Ix xx xx (PS) 6.15. Digital output, Energy sign output settings The instrument can transmit the energy sign on the Pulse Function outputs. + sign: energy export - sign: energy import Here you can select the output for transmitting sign, the energy (E ) and the polarity of the output.

  • Page 41: Digital Output, Limit Output Settings

    PQRM5100 11 Ux Ix xx xx (PS) 6.16. Digital output, Limit output settings Here you can set low limit-, high limit values and hysteresis Function and assign them to any measured quantity. The instrument compares continuously this quantity to the measured value and activates digital output(s) according the output settings.
  • Page 42 PQRM5100 11 Ux Ix xx xx (PS) 6. Select the limit mode from the “Mode” pull-down menu: “Under low limit” The output changes into active state when measured value becomes lower as the monitored value. The output changes into inactive state when measured value becomes higher as the monitored value and hysteresis.
  • Page 43 PQRM5100 11 Ux Ix xx xx (PS) “Between limits” The output changes into active state when measured value is between of range upper and lower limit as the monitored value. The output changes into inactive state when measured value is out of range as the monitored value. The hysteresis is like the high and low limit functions can use it.

  • Page 44: Digital Output, Alarm Output Settings

    PQRM5100 11 Ux Ix xx xx (PS) 6.17. Digital output, Alarm output settings The instrument can generate alarm signaling in a case of Function one or more error state(s). It can be select which error state(s) generate the alarm signaling. The alarm state activates the digital outputs.

  • Page 45: Digital Output, Demand Control Function Setting

    PQRM5100 11 Ux Ix xx xx (PS) 6.18. Digital output, Demand control function setting The device calculates the expected average performance Function (15 min) from actual power. If this value is greater than the setting limit, the device set to active state the digital1 output. If the value is lower than the limit at the next sampling, the device turn back the digital1 output.
  • Page 46 PQRM5100 11 Ux Ix xx xx (PS) 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. 20200205-V1...

  • Page 47: Digital Output, Tariff Settings

    PQRM5100 11 Ux Ix xx xx (PS) 6.19 Digital output, Tariff settings Before you setting the limit value please read out the 6.18. Sequence of operations Digital output, Demand control function chapter. 1. Click on the ”Configuration” tab 2. Inside of ”Configuration” tab click on the “Demand power” tab.

  • Page 48: Analog Output Settings

    PQRM5100 11 Ux Ix xx xx (PS) 6.20. Analog output settings There can be two optional dual independent analog outputs Function of the instrument. Any of the measured quantities can be transmit in a 0 / 4-20 mA current form. Here you can set all of the parameters of the outputs.
  • Page 49 PQRM5100 11 Ux Ix xx xx (PS) 7. Select the output function mode from the “Mode” pull- down menu. • Limited mode The output signal will always remain within the chosen value (0-20 mA, 4-20 mA) • Unlimited mode The output signal always follows the input signal, between of range “minimum"...

  • Page 50: Analog Output Testing

    PQRM5100 11 Ux Ix xx xx (PS) 6.21. Analog output testing You can here testing the analogue outputs. Function 1. Click on the ”Configuration” tab Sequence of operations 2. Inside of ”Configuration” tab click on the “Modul2” tab. Contents this window depends on device construct. 3.
  • Page 51 PQRM5100 11 Ux Ix xx xx (PS) Attention! If "Test value" position leaves the 'Select' window, the analog output will not change the current output. Example: Setting analog output Type 4-20mA Mode Error mode Min. 3.800 mA Max. 20.100 mA Error 20.500 mA Select...

  • Page 52: Communication Settings

    PQRM5100 11 Ux Ix xx xx (PS) 6.22. Communication settings It can be read out through the communication output all of Function the measured quantities. The optional communication option have two operating mode: • MODBUS RTU Slave RS485 • MODBUS ASCII Slave RS485 1.
  • Page 53 PQRM5100 11 Ux Ix xx xx (PS) MODBUS registers format The range of measured vale is 1000-5027 address, and they are readable with 3 Modbus command. • 1000-1067, 1132-1143, 2000-2015, 3000-3015, 4000-4015, 5000-5009 of the measured quantities are in 32 bit “Single Precision”...
  • Page 54 PQRM5100 11 Ux Ix xx xx (PS) MODBUS address All measured value Content Content add. add. 1000 U high 16 bit 1001 U low 16 bit eff 12 eff 12 1002 U high 16 bit 1003 U low 16 bit eff 23 eff 23 1004 U...
  • Page 55 PQRM5100 11 Ux Ix xx xx (PS) Content Content add. add. 1072 +EP 63–48 bit 1073 +EP 47–32 bit 1074 +EP 31–16 bit 1075 +EP 15–0 bit 1076 +EP 63–48 bit 1077 +EP 47–32 bit 1078 +EP 31–16 bit 1079 +EP 15–0 bit 1080 -EP 63–48 bit...
  • Page 56 PQRM5100 11 Ux Ix xx xx (PS) L1 phase value Content Content add. add. 2000 U high 16 bit 2001 U low 16 bit eff 1 eff 1 2002 I high 16 bit 2003 I low 16 bit eff 1 eff 1 2004 P high 16 bit...
  • Page 57 PQRM5100 11 Ux Ix xx xx (PS) L2 phase value Content Content add. add. 3000 U high 16 bit 3001 U low 16 bit eff 2 eff 2 3002 I high 16 bit 3003 I low 16 bit eff 2 eff 2 3004 P high 16 bit...
  • Page 58 PQRM5100 11 Ux Ix xx xx (PS) L3 phase value Content Content add. add. 4000 U high 16 bit 4001 U low 16 bit eff 3 eff 3 4002 I high 16 bit 4003 I low 16 bit eff 3 eff 3 4004 P high 16 bit...
  • Page 59 PQRM5100 11 Ux Ix xx xx (PS) Three phase value Content Content add. add. 5000 ∑P high 16 bit 5001 ∑P low 16 bit 5002 ∑Q high 16 bit 5003 ∑Q low 16 bit 5004 ∑S high 16 bit 5005 ∑S low 16 bit 5006 ∑PF high 16 bit 5007 ∑PF low 16 bit 5008 ∑Fi high 16 bit...
  • Page 60 PQRM5100 11 Ux Ix xx xx (PS) Powers, Energies (readable as 32 bit value) Content Content add. add. 6000 P high 16 bit 6001 P low 16 bit 6002 Q high 16 bit 6003 Q low 16 bit 6004 P high 16 bit 6005 P low 16 bit...
  • Page 61 PQRM5100 11 Ux Ix xx xx (PS) Energies (kWh, kVARh) Content Content add. add. 7000 +EP 63–48 bit 7001 +EP 47–32 bit 7002 +EP 31–16 bit 7003 +EP 15–0 bit 7004 +EP 63–48 bit 7005 +EP 47–32 bit 7006 +EP 31–16 bit 7007 +EP 15–0 bit...
  • Page 62 PQRM5100 11 Ux Ix xx xx (PS) Energies (MWh, MVARh) Content Content add. add. 7100 +EP 63–48 bit 7101 +EP 47–32 bit 7102 +EP 31–16 bit 7103 +EP 15–0 bit 7104 +EP 63–48 bit 7105 +EP 47–32 bit 7106 +EP 31–16 bit 7107 +EP 15–0 bit...
  • Page 63 PQRM5100 11 Ux Ix xx xx (PS) Energies (GWh, GVARh) Content Content add. add. 7200 +EP 63–48 bit 7201 +EP 47–32 bit 7202 +EP 31–16 bit 7203 +EP 15–0 bit 7204 +EP 63–48 bit 7205 +EP 47–32 bit 7206 +EP 31–16 bit 7207 +EP 15–0 bit...
  • Page 64 PQRM5100 11 Ux Ix xx xx (PS) Energies (kWh, kVARh) (32 bit!) Content Content add. add. 7300 +EP 31–16 bit 7301 +EP 15–0 bit 7302 +EP 31–16 bit 7303 +EP 15–0 bit 7304 +EP 31–16 bit 7305 +EP 15–0 bit 7306 -EP 31–16 bit 7307 -EP...
  • Page 65 PQRM5100 11 Ux Ix xx xx (PS) Energies (GWh, GVARh) (32 bit!) Tartalom Tartalom cím cím 7500 +EP 31–16 bit 7501 +EP 15–0 bit 7502 +EP 31–16 bit 7503 +EP 15–0 bit 7504 +EP 31–16 bit 7505 +EP 15–0 bit 7506 -EP 31–16 bit 7507 -EP...

  • Page 66: Errors

    PQRM5100 11 Ux Ix xx xx (PS) 6.23. Errors The device measures the following error conditions. Function Sequence of operations Error Explanation: number: L1 voltage dip L2 voltage dip L3 voltage dip L1 voltage interrupt L2 voltage interrupt L3 voltage interrupt L1 voltage swell L2 voltage swell L3 voltage swell...
  • Page 67 PQRM5100 11 Ux Ix xx xx (PS) Overload: The measured current value is more than 120% of nominal current value. Phase sequence 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.

  • Page 68: Setting Errors Led

    PQRM5100 11 Ux Ix xx xx (PS) 6.24. Setting errors LED Programming the error LED Function 1. Click on the ”Configuration” tab Sequence of operations 2. Inside of ”Configuration” tab click on the “Error LED” tab. 3. Click on the displayed error. 4.

  • Page 69: Harmonics Setting

    PQRM5100 11 Ux Ix xx xx (PS) 6.25. Harmonics setting The device can calculate voltage and current content for 18 Function harmonic. Here can be enabled the harmonics analysis. 1. Click on the ”Configuration” tab Sequence of operations 2. Inside of ”Configuration” tab click on the “Harmonics” tab. 3.

  • Page 70: Fault Rectification

    Ix xx xx (PS) is defective call the manufacturer service department. 7.2. Repairing There is no user repairable part inside the instrument. In accordance with Point 2.1.: For safety and warranty reasons, any internal work on the instrument must be carried out by DATCON personnel. 20200205-V1...

  • Page 71: Dismounting

    PQRM5100 11 Ux Ix xx xx (PS) 8. Dismounting 8.1. Dismounting procedure The following figure shows the dismounting procedures: Dismounting from the rail The dismounting procedure needs a screwdriver for slotted screws. 1. Before dismounting disconnect all wires. 2. Put the screwdriver end into the fixing assembly’s hole (figure step 1.).

  • Page 72: Disposal

    PQRM5100 11 Ux Ix xx xx (PS) 8.2. Disposal According with 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 the site of the Manufacturer or to a specialized recycling company.

  • Page 73: Appendix

    PQRM5100 11 Ux Ix xx xx (PS) 9. Appendix 9.1. Technical specification Safety data: The connection terminals of the inputs, the outputs and the supply voltages are galvanic isolated from each other. The isolation of the measuring inputs and the power supply input are in accordance with the standard MSZ EN 61010-1, taking into consideration the following: Pollution level:...
  • Page 74 PQRM5100 11 Ux Ix xx xx (PS) Analogue outputs (optional) Output type: 2 galvanic isolated active current outputs (configurable, scalable) Ranges: 0-20 mA / 4-20 mA or 0-5 mA / 1-5 mA Burden: 500 ohm (max.) Refreshing time: same as the measuring time (100 ms) Setting time: (10-90%) Max.
  • Page 75 PQRM5100 11 Ux Ix xx xx (PS) Electromagnetic compatibility (EMC) In accordance with the standard EN 61326-1 Emission: In accordance with the standard EN 61326-1 Conducted: EN 55011 Limits for Class A equipments Radiated: EN 55011 Limits for Class A equipments ESD: 4 kV/8 kV contact / air -A- criteria...

  • Page 76: Application Examples

    PQRM5100 11 Ux Ix xx xx (PS) 9.2. Application examples 20200205-V1...
  • Page 77 PQRM5100 11 Ux Ix xx xx (PS) 20200205-V1...
  • Page 78 PQRM5100 11 Ux Ix xx xx (PS) RS485 bus topology: 20200205-V1...
  • Page 79 PQRM5100 11 Ux Ix xx xx (PS) 20200205-V1...

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