janitza UMG 96 RM Operating Instructions And Technical Data Download Page 32

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UMG 96RM

Digital outputs

The UMG 96RM has 2 digital outputs. These outputs
are electrically isolated from the evaluation electronics
by optocouplers. The digital outputs have a common
reference.

•

The digital outputs can switch DC and AC loads.

•

The digital outputs are

not

short circuit protected.

•

Connected cables longer than 30 m must be shielded.

•

An external auxiliary voltage is required.

•

The digital outputs can be used as pulse outputs.

•

The digital outputs can be controlled via the Modbus.

•

The digital outputs can output results from
comparators.

Fig. Connection of digital/pulse
outputs

Fig. Connection of two relays to digital
outputs 14 and 15.

24 V

AC/DC

External

auxiliary voltage

UMG 96RM

Digital outputs 1-2
Digital outputs 1-2

Digital
output 1

Digital
output 2

AC/DC

When using the digital outputs as a pulse
output, the auxiliary voltage (DC) must only
have a maximum residual ripple of 5%.

Summary of Contents for UMG 96 RM

Page 1: ...g instructions and technical data Item no 33 03 114 Janitza electronics GmbH Vor dem Polstück 1 D 35633 Lahnau Support tel 0049 6441 9642 22 Fax 0049 6441 9642 30 E mail info janitza com Internet http www janitza com www janitza com from firmware 1 1 x Power Analyser ...

Page 2: ...f measured value displays 96 Declaration of conformity 102 Connection example 103 Brief instructions 104 Inhaltsverzeichnis General 4 Incoming goods inspection 6 Scope of delivery of the basic device 7 Available accessories 7 Product description 8 Intended use 8 Characteristics of the basic device 9 Measuring method 10 GridVis network analysis software 11 Connection options 11 Assembly 12 Installa...

Page 3: ...3 UMG 96RM ...

Page 4: ...k 1 D 35633 Lahnau Germany Trademarks All trademarks and the rights resulting from them remain the property of the trademark holder of these rights Disclaimer Janitza electronics GmbH assumes no responsibility for errors or omissions in this manual and assumes no obligation to keep the contents of this manual up to date Meaning of the symbols The following pictograms are used in this manual c Dang...

Page 5: ...gence in terms of the product s guarantee and thus excludes the warranty for covering any possible resulting damages This device must only be operated and maintained by qualified personnel Qualified personnel are persons who due to their respective training and experience are able to recognise risks and avoid potential hazards that can be caused by operation or maintenance of the device When using...

Page 6: ...s visible damage does not work despite intact power supply and was exposed to unfavourable conditions e g storage outside of the permissible climatic limits without adaptation to the ambient climate condensation etc or transport stresses e g falling from a great height even without exterior visible damage etc for prolonged periods Please check that the delivery is complete before you begin with in...

Page 7: ...w terminal pluggable 2 pin auxiliary energy 1 10 01 828 Screw terminal pluggable 4 pin voltage measurement 1 10 01 820 Screw terminal pluggable 6 pin current measurement 1 10 01 807 Screw terminal pluggable 2 pin RS 485 1 10 01 808 Screw terminal pluggable 3 pin digital pulse output Available accessories Item no Designation 29 01 907 Seal 96 x 96 18 08 094 RS485 external terminating resistor 120 o...

Page 8: ...nd can be read and processed over the RS485 interface The voltage measurement inputs are designed for measuring in low voltage grids in which nominal voltages up to 300V phase can occur in countercurrent with ground and overvoltages of overvoltage category III The UMG 96RM current measurement inputs are connected via external 1A or 5A current transformers Measurements in medium and high voltage sy...

Page 9: ...ss 1 for 1 A transformer Reactive energy class 2 Measurement Measurement in IT and TN networks Measurement in networks with nominal voltages up to L L 480 V and L N 277 V Current metering range 0 5 Aeff True root mean square measurement TRMS Continuous scanning of voltage and current measurement inputs Frequency range of the mains frequency 45 Hz 65 Hz Measurement of harmonics 1 to 40 for ULN and ...

Page 10: ...several ways to program the UMG 96RM and retrieve measured values Directly on the device using two buttons Via the programming software of the GridVis Via the RS485 interface with the Modbus protocol Data can be changed and retrieved with the help of the Modbus address list stored on the accompanying data carrier These operating instructions only describe the operation of the UMG 96RM using the 2 ...

Page 11: ...M UMG 96RM UMG 96RM UMG 96RM GridVis network analysis software The UMG 96RM can be programmed and read with the GridVis network analysis software which is part of the scope of delivery For this a PC must be connected to the RS485 interface of the UMG 96RM via a serial interface RS485 Ethernet Characteristics of GridVis Programming the UMG 96RM Graphic representation of measured values ...

Page 12: ... top and bottom must be at least 50 mm and 20 mm at the sides Front panel cutout Cutout dimensions 92 0 8 x 92 0 8 mm m Failure to comply with the minimum spacing can destroy the UMG 96RM at high ambient temperatures Fig UMG 96RM installation location rear view Mounting The UMG 96RM is mounted on the switchboard by the side mounting brackets These must be removed before using the device Mounting i...

Page 13: ...13 UMG 96RM ...

Page 14: ...ed via plug in terminals on the back of the device Before applying the supply voltage ensure that the voltage and frequency correspond with the details on the nameplate The supply voltage must be connected via a UL IEC approved fuse 6 A type C Fig Connection example of the supply voltage to the UMG 96RM Separator Fuse N L ...

Page 15: ...uit breaker The disconnect switch must be attached near the device and must be easily accessible by the user The switch must be labelled as a separator for this device Voltages that exceed the permissible voltage range can destroy the device c Attention The inputs for the supply voltage are dangerous to touch ...

Page 16: ...M Voltage metering The UMG 96RM can be used for voltage measurement in TN TT and IT systems Voltage measurement in the UMG 96RM is designed for the 300 V overvoltage category CATIII 4 kV rated pulse voltage Fig Principle circuit diagram Measurement in three phase 4 wire systems Fig Principle circuit diagram Measurement in three phase 3 wire systems In systems without a neutral measured values that...

Page 17: ...27 V 220 V 220 V 380 V 230 V 400 V 240 V 415 V 260 V 440 V 277 V 480 V Fig Table of the rated mains voltages suitable for the voltage measuring inputs according to EN60664 1 2003 Unearthed three phase 3 wire systems Fig Table of the rated mains voltages suitable for the voltage measuring inputs according to EN60664 1 2003 Maximum rated voltage of the network UL L 66 V 120 V 127 V 220 V 230 V 240 V...

Page 18: ...t in networks in which overvoltages of overvoltage category 300V CATIII 4 kV rated pulse voltage can occur Frequency The UMG 96RM requires the mains frequency for the measurement and calculation of measured values The UMG 96RM is suitable for measurements in the frequency range of 45 to 65 Hz Fig Connection example for the voltage measurement Separator Fuse L2 L3 N L1 ...

Page 19: ... protection device must have a nominal value that is designed for the short circuit current on the connection point Measurement voltages and measurement currents must originate from the same grid c Attention Voltages that exceed the permitted ratedmains voltages must be connected via voltage transformers c Attention The UMG 96RM is not suitable for the measurement of DC voltages c Attention The vo...

Page 20: ...ee phase conductors and a neutral conductor Fig System with three phase conductors and a neutral conductor Measurement via voltage transformer Fig System with three phase conductors and no neutral conductor Measured values that re quire a neutral refer to a calculated neutral Fig System with three phase conductors and no neutral conductor Measurement via voltage transformer Measured values that re...

Page 21: ... med to be zero and not calculated Fig Measured values derived from the V2 and V3 voltage measurement inputs are assumed to be zero and not calculated Fig System with uniform phase loading The measured values for the V2 voltage measure ment input are calculated L1 L2 L3 L1 L2 L3 L1 L2 L3 V1 V2 V3 VN N 3p 1w addr 509 7 Fig Three systems with uniform phase loading The measurement values L2 L3 resp L...

Page 22: ...rect measurement with out a current transformer with the UMG 96RM Only AC currents and not DC currents can be meas ured L2 L3 N L1 c Attention The current measurement inputs are dangerous to touch m Attention The UMG 96RM is not suitable for the measurement of DC voltages c Earthing current transformers If a connection is provided for earthing the secondary winding it must be connected to the eart...

Page 23: ...nnected If a test switch which automatically short circuits the current transformer secondary leads is available it is sufficient to put this into the test position provided the short circuiters have been checked beforehand c Open current transformer High voltage peaks that are dangerous to touch can occur on current transformers that are operated in an open state at the secondary terminals In ope...

Page 24: ...i0 addr 510 2 L1 L2 L3 I1 I2 I3 3p 3w3 addr 510 3 Fig Measurement in a three phase net work with an unbalanced load Fig The measured values for the I2 current measurementinput are calculated Fig System with uniform phase loading The measured values for the I2 current measurement input are measured Fig Measurement in a three phase net work with an unbalanced load ...

Page 25: ...asurement input are assumed to be zero and not calculated Fig Measured values derived from the I2 and I3 current measurement inputs are assumed to be zero and not calculated Fig System with uniform phase loading The measured values for the I2 current measurement input are calculated Fig System with uniform phase loading The measured values for the I2 and I3 current measurement inputs are calculate...

Page 26: ...ng L1 L2 L3 I1 I2 I3 L1 L2 L3 L1 L2 L3 3p 1w addr 510 8 Fig Three systems with uniform phase load ing The current measurement values of the phases of the respective system where are no CTs connected are calculated I2 I3 resp I1 I3 resp I1 I2 ...

Page 27: ...ransformers Both current transformers have a transformer ratio of 1000 5 A The total measurement is performed with a 5 5 5 A total current transformer The UMG 96RM must then be set as follows Primary current 1000 A 1000 A 2000 A Secondary current 5 A Fig Current measurement via a total current transformer example Supply 1 Supply 1 Supply 1 Supply 1 UMG 96RM 1 2 I1 P1 P2 1S1 1S2 2S2 2S1 k l k l K L...

Page 28: ...sure the current not only with the UMG 96RM but also with the ammeter the ammeter must be connected in series with the UMG 96RM Fig Current measurement with an additional ammeter example Supply Consumer UMG 96RM 1 2 I1 A k S1 K P1 S2 l P2 L ...

Page 29: ...gramming para meters Terminating resistors The cable is terminated with resistors 120 ohm 1 4 W at the beginning and end of a segment The UMG 96RM has no terminating resistors Terminal block in the switch cabinet Device with RS485 interface without a terminating resistor Device with RS485 interface with terminating resistor on the device RS485 interface 2 pole plug contact A B ...

Page 30: ...sh wire shielding of the cable Earthing clamp Low noise earth Shielding A twisted and shielded cable must be provided for connections via the RS485 interface Ground the shields of all cables that run into the cabinet at the cabinet entry Connect the shield so it has a large contact area and conductively with a low noise earth Mechanically trap the cable above the earthing clamp in order to avoid d...

Page 31: ...der to connect the individual segments Devices with activated bus termination must be supplied with power It is recommended to set the master at the end of a segment The bus is inoperative if the master is replaced with an activated bus termination The bus can become unstable if the slave is replaced with an activated bus termination or is dead Devices that are not involved in the bus termination ...

Page 32: ...l auxiliary voltage is required The digital outputs can be used as pulse outputs The digital outputs can be controlled via the Modbus The digital outputs can output results from comparators Fig Connection of digital pulse outputs Fig Connection of two relays to digital outputs 14 and 15 K1 K2 24 V AC DC External auxiliary voltage UMG 96RM Digital outputs 1 2 Digital outputs 1 2 14 Digital output 1...

Page 33: ...33 UMG 96RM ...

Page 34: ...sured value displays to be shown alternately after a settable changeover time Programming mode In the programming mode the settings required for operating the UMG 96RM can be displayed and changed Pressing buttons 1 and 2 simultaneously for about one second calls up the programming mode after the password prompt If no user password was programmed the user arrives directly in the first programming ...

Page 35: ...1 Button 2 Export Mean value CT Current transformer VT Voltage transformer K1 Output 1 K2 Output 2 Password Phase conductor Phase conductor Sum measurement Programming mode Minimum value NT export Maximum value HT import ...

Page 36: ...nificant digits of a value Selected measured values are summarised in measured value display profiles and can be shown in display mode using buttons 1 and 2 The current measured value display profile the current display change profile and date and time can only be read and changed via the RS485 interface Example of the parameter display On the UMG 96RM display the value 001 is shown as the content...

Page 37: ...d values 2a Measured values 2b long short Programming mode simultaneous Change mode Browse long short Programming menu 1 Programming menu 2 Programming menu 3 Programming Programming menu 1 Confirm selection flashes Short digit 1 Long digit 1 flashes Short value x 10 decimal to the right Long Value 10 decimal to the left ...

Page 38: ...atio only needs to be changed if voltage transformers are connected When connecting voltage transformers the measure ment voltage on the UMG 96RM nameplate must be observed c Attention Supply voltages that do not correspond to the nameplate information can lead to device malfunction or destruction C The adjustable value 0 for the primary current transformer does not produce any useful energy value...

Page 39: ... inputs can be individually programmed in the Gri dVis software included in the scope of delivery Only the transformer ratio of the respective group of current measurement inputs or voltage measurement inputs is adjustable on the device Fig Display for configuring the current and voltage transformers in the GridVis software ...

Page 40: ...or the programming mode PRG and for the current transformer CT appear Confirm the selection with button 1 The first digit of the input area for the primary current starts flashing Current transformer primary current input Change the flashing digit with button 2 Select the next digit to be changed with button 1 The selected digit to be changed starts flashing If the entire number is flashing the de...

Page 41: ...rs Switch to the programming mode as described The symbols for the programming mode PRG and for the current transformer CT appear Use button 2 to switch to the voltage transformer setting Confirm the selection with button 1 The first digit of the input area for the primary current starts flashing The ratio of primary to secondary voltage of the voltage transformer can be set in the same way as the...

Page 42: ...o switch to the voltage transformer setting The first parameter of the parameter list is shown by repeatedly pressing button 2 Changing parameters Confirm the selection with button 1 The most recently selected address is displayed with the associated value The first digit of the address flashes and can be changed using button 2 Button 1 provides a selection of digits that in turn can be changed wi...

Page 43: ...can be selected from a list of nine fixed averaging times Current averaging time addr 040 Power averaging time addr 041 Voltage averaging time addr 042 Setting Averaging time sec 0 5 1 10 2 15 3 30 4 60 5 300 6 480 factory setting 7 600 8 900 Setting Baud rate 0 9 6 kbps 1 19 2 kbps 2 38 4 kbps 3 57 6 kbps 4 115 2 kbps factory setting C The adjustable range of the device address is between 0 and 2...

Page 44: ...The maxi mum value is the largest measured value that has been determined since the last clearance All minimum and maximum values are compared with the corresponding measured values and are overwritten if they are undercut or exceeded The minimum and maximum values are stored in an EE PROM every 5 minutes without the date and time This means that if the operating voltage fails only the mini mum an...

Page 45: ...rs The voltage current and all other resulting values are calculated based on the previous frequency measurement and possible cable connecting sockets and continue to be displayed However these derived measured values are no longer subject to the specified accuracy If it is possible to re measure the frequency then the error message will disappear automatically after a period of approx 5 seconds o...

Page 46: ...e UMG 96RM has energy meters for active energy reactive energy and apparent energy Reading the active energy Total active energy The active energy in this example is 12 345 678 kWh The active energy in this example is 134 178 kWh ...

Page 47: ...ig Display of the 15th harmonic of the current in the L3 phase example Number of the harmonic Phase L3 Current harmonic Value C Harmonics are not displayed in the factory default setting Total Harmonic Distortion THD THD is the ratio of the root mean square value of harmonics to the root mean square value of the mains frequency Phase L3 Voltage Value Fig Display of the total harmonic distortion of...

Page 48: ...elected display change profile of the programmed measured value displays are shown one after the other Changeover time addr 039 Adjustment range 0 60 seconds If 0 seconds are set no changeover takes place between the measured value displays selected for the measured value relay The changeover time applies for all display change profiles Display change profile addr 038 Adjustment range 0 3 0 Displa...

Page 49: ...The profiles display change profile and dis play profile are clearly shown in the GridVis software included in the scope of delivery The profiles can be adjusted in the software via the device configuration customised dis play profiles can also be programmed A connection between the UMG 96RM and the PC via the serial interface RS485 is required for using the GridVis soft ware This requires an inte...

Page 50: ...button 1 and will begin flashing The programming menu for the current transformer can only be accessed after entering the correct number combination Forgotten password If you have forgotten the password the password can only be cleared by using the GridVis PC software To do this connect the UMG 96RM to the PC via a suitable interface More information can be found in the help section of GridVis Cle...

Page 51: ...is missing or two of the same phases are connected the rotation field direction will not be determined and the character string does not appear on the display Fig Display of the mains frequency 50 0 and the rotation field direction Fig No rotation field direction detectable LCD contrast addr 035 The preferred direction of viewing for the LCD is from below The user can adjust the LCD contrast of th...

Page 52: ...an be shown on the measured value display Fig Operating hours meter of the measured value display The UMG 96RM shows the number 140 8 h in the ope rating hours meter This cor responds to 140 hours and 80 industrial minutes 100 in dustrial minutes correspond to 60 minutes In this example 80 industrial minutes therefore represent 48 minutes Operating hours meter The operating hours meter measures th...

Page 53: ... plate The serial number cannot be changed Software release addr 750 The software for UMG 96RM is continuously improved and expanded The software version in the device is marked with a 3 digit number the software release The user cannot change the software release Serial number display Serial number information on the nameplate XX00 0000 ...

Page 54: ...ate information can lead to device malfunction or destruction m Attention The UMG 96RM is not suitable for the measurement of DC voltages Applying the measured current The UMG 96RM is designed for connecting 1 A and 5 A current transformers Only AC currents and not DC currents can be measured via the current measurement inputs Short circuit all current transformer outputs except for one Compare th...

Page 55: ...ons S1 k and S2 I on the current transformer are inverted Active energy is being returned to the network Checking the measurement If all voltage and current measurement inputs are correctly connected the individual and sum power ratings are accurately calculated and displayed Checking the individual power ratings If the current transformer is assigned to the wrong phase conductor the associated po...

Page 56: ... for the respective phase conductor are correctly displayed the sum power ratings measured by the UMG 96RM must also be correct For confirmation the sum power ratings measured by the UMG 96RM should be compared with the energy of the active and reactive power meters at the power feed ...

Page 57: ...5 2 kbps by default Modbus Functions Slave 04 Read Input Registers 06 Preset Single Register 16 10Hex Preset Multiple Registers 23 17Hex Read Write 4X Registers The sequence of bytes is high before low byte Motorola format Transmission parameters Data bits 8 Parity None Stop bits UMG 96RM 2 External stop bits 1 or 2 Number formats short 16 bit 215 215 1 float 32 bit IEEE 754 The message length mus...

Page 58: ...ollows Description Hex Note Device address 01 UMG 96RM address 1 Function 03 Read Holding Reg Start address Hi 00 0200dec 00C8hex Start address Lo C8 Disp Values Hi 00 2dec 0002hex Disp Values Lo 02 Error Check The response from the UMG 96RM can then appear as follows Description Hex Note Device address 01 UMG 96RM address 1 Function 03 Byte meter 06 Data 00 00hex 00dec Data E6 E6hex 230dec Error ...

Page 59: ...ue Addr 200 0 Addr 200 1 Addr 200 2 0 1 0 1 0 1 0 1 RS485 Addr 602 0 off 0 on Inverter Addr 201 0 not inverted Addr 201 1 inverted 0 1 Addr 608 0 State of digital output 1 Result Addr 616 Modbus External source External value Fig Overall block diagram for digital output 1 Digital output 2 Address 202 0 Result of the comparator group 2 Address 202 1 Pulse output Address 202 2 Value from an external...

Page 60: ...he UMG 96RM display by circular symbols States of the digital output A current of 1 mA can flow Digital output 1 Address 608 0 Digital output 2 Address 609 0 A current of 50 mA can flow Digital output 1 Address 608 1 Digital output 2 Address 609 1 Since the display is only updated once per second faster changes of the output states cannot be displayed C ...

Page 61: ...lse value Fig Block diagram Example of digital output 1 as a pulse output Digital output 1 13 14 Source selection Pulse Addr 100 874 Address of Psum3 Addr 106 50 ms Addr 102 1000 Wh Impuls Addr 200 1 0 1 UMG 96RM 0 1 Inverter Addr 201 0 not inverted Addr 201 1 inverted 0 1 Addr 608 0 State of digital output 1 Measured value selection addr 100 101 Enter the power value here that is to be issued as ...

Page 62: ...pulse length and minimum pulse pause the values in the table are for the maximum number of pulses per hour Examples for the maximum possible number of pulses per hour Pulse length Pulse pause Maximum pulses hour 10 ms 10 ms 180 000 pulses hour 30 ms 30 ms 60 000 pulses hour 50 ms 50 ms 36 000 pulses hour 100 ms 100 ms 18 000 pulses hour 500 ms 500 ms 3 600 pulses hour 1 s 1 s 1 800 pulses hour 10 ...

Page 63: ... only be issued if the measured value also has a positive sign If the pulse value is specified with a negative sign pulses will only be issued if the measured value also has a negative sign C Since the reactive energy meter works with a return stop pulses are only issued under inductive load Since the active energy meter works with a return stop pulses are only issued during import of electrical e...

Page 64: ...V Power per phase 150 A x 300 V 45 kW Power for 3 phases 45 kW x 3 Maximum connected load 135 kW Calculating the pulse value Fig Connection example for wiring the pulse output 230 V AC 24 V DC External operating voltage 1 5 k Data logger UMG 96RM Switching and pulse outputs 24V 13 14 15 Pulse value 135 kW 60000 pulses h Pulse value 0 00225 pulses kWh Pulse value 2 25 pulses Wh Pulse value maximum ...

Page 65: ... comparator group 2 is assigned to digital output 2 Digital output 1 13 14 Source selection Addr 200 0 0 1 Comparator group 1 Comparator A Comparator B Comparator C Logic Result Addr 616 UMG 96RM 0 1 Inverter Adr 201 0 not inverted Adr 201 1 inverted 0 1 Addr 608 0 State of digital output 1 Block diagram Use of digital output 1 for limit value monitoring ...

Page 66: ... 100 A For a minimum exposure time of 2 minutes digital output 1 should remain switched if the limit value is exceeded Address 111 120 seconds For the lead time of 60 seconds any exceeding should be minimised Address 112 60 seconds The operator for comparison between the measured value and the limit value Address 113 0 corresponds 2 Source selection Select comparator group 1 as the source Address ...

Page 67: ...via the GridVis C Measured value addr 110 Limit value addr 108 Minimum turn on time addr 111 Lead time addr 112 Operator addr 113 Comparator A Measured value addr 116 Limit value addr 114 Minimum turn on time addr 117 Lead time addr 118 Operator addr 119 Comparator B Measured value addr 122 Limit value addr 120 Minimum turn on time addr 123 Lead time addr 124 Operator addr 125 Comparator C Compara...

Page 68: ...econds can be assigned to the lead time Operator addr 113 119 125 132 138 144 Two operators are available for comparing the measured value and the limit value Operator corresponds to 0 greater than or equal to Operator corresponds to 1 less than Comparator result addr 610 611 612 613 614 615 The result from the comparison between the measured value and the limit value is in the comparator result T...

Page 69: ...69 UMG 96RM Measured value Limit value Exceedance Lead time Minimum turn on time Comparator result 2 seconds 2 seconds ...

Page 70: ...6RM can be disposed of as electronic scrap in accordance with the statutory recycling provisions The lithium battery must be disposed of separately Firmware update If a firmware update needs to be implemented for your UMG 96RM it can be implemented using the GridVis software included in the delivery via the Update Extras Device menu item Service If questions arise that are not described in this ma...

Page 71: ...for an error message Error number The three digit error number is composed of the error description and if detectable by the UMG 96RM one or more error causes Symbol for an error message Description of the error Error cause Example of error message 911 The error number is composed of serious error 910 and internal error cause 0x01 In this example an er ror occurred when read ing the calibration fr...

Page 72: ... the calibration Internal causes of the error The UMG 96RM can usually determine the cause of an internal error and then report it with the following error code The device must be sent to the manufacturer for inspection Error Description of the error 0x01 EEPROM does not answer 0x02 Address range exceeded 0x04 Checksum error 0x08 Error in the internal I2C bus Error Description of the error EEE 500...

Page 73: ...curred is indicated with the up arrow The V and A symbols show whether the metering range exceedance occurred in the current or voltage circuit I 7 Aeff UL N 520 VL N UL L 900 VL L Limit values for metering range exceedance A current circuit V voltage circuit Display of the phase L1 L2 L3 with the metering range exceedance Examples A current circuit Fig Display of the metering range exceedance in ...

Page 74: ...d encoded in the parameters of the metering range exceedance addr 600 in the following format 0 x F F F F F F F F Phase 1 Phase 2 Phase 3 1 2 4 Current 1 2 4 U L N 1 2 4 U L L Example Error in phase 2 in the current circuit 0xF2FFFFFF Example Error in phase 3 in the voltage circuit UL N 0xFFF4FFFF ...

Page 75: ...75 UMG 96RM ...

Page 76: ...he peak current value at the measurement input was exceeded by current harmonics Install current transformer with a higher current transformer ratio The current at the measurement input was exceeded Install current transformer with a lower current transformer ratio The displayed voltage is too small or too large Measurement in the wrong phase Check and correct the connection if necessary Voltage t...

Page 77: ... transformer connection is inverted Check and correct the connection if necessary A current circuit is assigned to the wrong voltage circuit Check and correct the connection if necessary An output is not reacting The output was incorrectly programmed Check the programming and correct if necessary The output was incorrectly connected Check and correct the connection if necessary EEE on the display ...

Page 78: ...tive humidity 0 to 90 RH Ambient conditions during operation The UMG 96RM is intended for use in weather protected fixed locations Protection class II according to IEC 60563 VDE 0106 part 1 Rated temperature range K55 10 C 55 C Relative humidity 0 to 75 RH Operational altitude 0 2000 m above sea level Degree of pollution 2 Installation position any Ventilation Forced ventilation is not required Fo...

Page 79: ...y Connectable conductor Only one conductor may be connected per contact point Single wire multi wire finely stranded conductor 0 2 2 5 mm2 AWG 24 12 Pin terminals ferrules 0 25 2 5 mm2 Tightening torque 0 5 0 6 Nm Stripping length 7 mm Outputs 2 digital outputs semi conductor relay not short circuit protected Switching voltage max 33 V AC 60 V DC Switching current max 50 mAeff AC DC Reaction time ...

Page 80: ...ages up to IT 480 V 10 Overvoltage category 300V CAT III Rated surge voltage 4 kV Metering range L N 01 300 Vrms max overvoltage 520 Vrms Metering range L L 01 520Vrms max overvoltage 900Vrms Resolution 0 01 V Crest factor 2 45 relative to the metering range Impedance 4 MOhm phase Power consumption approx 0 1 VA Sampling rate 21 33 kHz 50 Hz 25 6 kHz 60 Hz per measuring channel Mains frequency Res...

Page 81: ...tage and current measurement Connectable conductor Only one conductor may be connected per contact point Single wire multi wire finely stranded conductor 0 2 2 5 mm2 AWG 24 12 Pin terminals ferrules 0 25 2 5 mm2 Tightening torque 0 5 0 6 Nm Stripping length 7 mm Serial interface RS485 Modbus RTU slave 9 6 kbps 19 2 kbps 38 4 kbps 57 6 kbps 115 2 kbps Stripping length 7 mm Connection capacity of th...

Page 82: ...0 Hz 65 00 Hz Phase current I 0 5 IEC61557 12 0 5 Arms 0 A 9999 kA Measured neutral conductor current IN Calculated neutral conductor current INc 1 0 IEC61557 12 0 03 25 A 0 03 A 9999 kA Voltage U L N 0 2 IEC61557 12 10 300 Vrms 0 V 9999 kV Voltage U L L 0 2 IEC61557 12 18 520 Vrms 0 V 9999 kV Displacement factor PFA PFV 0 5 IEC61557 12 0 00 1 00 0 00 1 00 Short term flicker long term flicker Pst ...

Page 83: ...cy class 1 with 1 A transformer The display returns to 0 W when the maximum total energy values are reached Function Symbol Accuracy class Metering range Display range Current harmonics Ih Class 1 IEC61000 4 7 up to 2 5 kHz 0 A 9999 kA THD of the current 3 THDi 1 0 IEC61557 12 up to 2 5 kHz 0 999 THD of the current 4 THD Ri 1 0 IEC61557 12 up to 2 5 kHz 0 999 Mains signal voltage MSV ...

Page 84: ... and Modbus address list The following excerpt from the parameter list contains settings that are necessary for proper operation of the UMG 96RM such as current transformers and device addresses The values in the parameter list can be written and read In the excerpt the measured value list files the measured and calculated measured values output status data and recorded values so that they can be ...

Page 85: ...D WR Display contrast 0 9 5 0 low 9 high 36 SHORT RD WR Backlight 0 9 6 0 dark 9 light 37 SHORT RD WR Display profile 0 3 0 0 default display profile 1 default display profile 2 default display profile 3 freely selectable display profile 38 SHORT RD WR Display change profile 0 3 0 0 2 default display change profiles 3 freely selectable display change profile 39 SHORT RD WR s Changeover time 0 60 0...

Page 86: ...10 SHORT RD WR Comparator 1A Address of the measured value 0 32000 0 111 SHORT RD WR s Comparator 1A Minimum turn on time 0 32000 0 112 SHORT RD WR s Comparator 1A Lead time 0 32000 0 113 SHORT RD WR Comparator 1A Operator 0 1 0 0 1 114 FLOAT RD WR Comparator 1B Limit value 1000000 1000000 0 116 SHORT RD WR Comparator 1B Address of the measured value 0 32000 0 117 SHORT RD WR s Comparator 1B Minim...

Page 87: ... 0 130 SHORT RD WR s Comparator 2A Minimum turn on time 0 32000 0 131 SHORT RD WR s Comparator 2A Lead time 0 32000 0 132 SHORT RD WR Comparator 2A Operator 0 1 0 0 1 133 FLOAT RD WR Comparator 2B Limit value 1000000 1000000 0 135 SHORT RD WR Comparator 2B Address of the measured value 0 32000 0 136 SHORT RD WR s Comparator 2B Minimum turn on time 0 32000 0 137 SHORT RD WR s Comparator 2B Lead tim...

Page 88: ...3 0 3 3 503 SHORT RD WR Terminal assignment U L1 0 3 1 504 SHORT RD WR Terminal assignment U L2 0 3 2 505 SHORT RD WR Terminal assignment U L3 0 3 3 506 SHORT RD WR Clear min and max values 0 1 0 507 SHORT RD WR Clear energy meter 0 1 0 508 SHORT RD WR Force write EEPROM 0 1 0 Note Energy values and minimum and maximum values are written to the EEPROM every 5 minutes 509 SHORT RD WR Voltage connec...

Page 89: ...1 609 SHORT RD State of output 2 610 SHORT RD Comparator result 1 Output A 611 SHORT RD Comparator result 1 Output B 612 SHORT RD Comparator result 1 Output C 613 SHORT RD Comparator result 2 Output A 614 SHORT RD Comparator result 2 Output B 615 SHORT RD Comparator result 2 Output C 616 SHORT RD Linkage result of comparator group 1 617 SHORT RD Linkage result of comparator group 2 750 SHORT RD So...

Page 90: ...al power L1 19022 870 float RD W Real power L2 19024 872 float RD W Real power L3 19026 874 float RD W Sum Psum3 P1 P2 P3 19028 884 float RD VA Apparent power S L1 19030 886 float RD VA Apparent power S L2 19032 888 float RD VA Apparent power S L3 19034 890 float RD VA Sum Ssum3 S1 S2 S3 Modbus Address Address Above display Format RD WR Unit Note C A complete overview of the parameters and measure...

Page 91: ...3 19062 float RD Wh Real energy L1 consumed 19064 float RD Wh Real energy L2 consumed 19066 float RD Wh Real energy L3 consumed 19068 float RD Wh Real energy L1 L3 consumed rate 1 19070 float RD Wh Real energy L1 delivered 19072 float RD Wh Real energy L2 delivered 19074 float RD Wh Real energy L3 delivered 19076 float RD Wh Real energy L1 L3 delivered 19078 float RD VAh Apparent energy L1 19080 f...

Page 92: ...apacitive L2 19106 float RD varh Reactive energy capacitive L3 19108 float RD varh Reactive energy L1 L3 cap 19110 836 float RD Harmonic THD U L1 N 19112 838 float RD Harmonic THD U L2 N 19114 840 float RD Harmonic THD U L3 N 19116 908 float RD Harmonic THD I L1 19118 910 float RD Harmonic THD I L2 19120 912 float RD Harmonic THD I L3 Modbus Address Address Above display Format RD WR Unit Note ...

Page 93: ...93 UMG 96RM ...

Page 94: ...94 UMG 96RM Dimensional drawings Cutout dimensions Cutout dimensions 92 0 8 x 92 0 8 mm max 6 91 100 96 42 Rear view Side view ...

Page 95: ...95 UMG 96RM Bottom view 97 91 ...

Page 96: ...ue Sum Current in the N line B04 Mean value L1 active power L2 active power L3 active power B05 Mean value Sum Active power B06 Maximum values L1 N voltage L2 N voltage L3 N voltage C01 Maximum values L1 L2 voltage L2 L3 voltage L3 L1 voltage C02 Maximum values L1 current L2 current L3 current C03 Maximum value Measured value sum Current in the N line C04 Maximum values L1 active power L2 active p...

Page 97: ...r L3 apparent power B07 Mean value Sum Apparent power B08 Mean values L1 reactive power L2 reactive power L3 reactive power B09 Mean value Sum of reactive power B10 Measured value Distortion factor THD U L2 B11 Measured value Distortion factor THD I L2 B12 Maximum values L1 apparent power L2 apparent power L3 apparent power C07 Maximum value Sum Apparent power C08 Maximum values ind L1 reactive po...

Page 98: ...tion field display A17 Measured value Total active energy without a backstop A18 Maximum value Distortion factor THD U L2 B13 Maximum value Distortion factor THD I L2 B14 Mean value Sum of cos phi B16 Measured value Total active energy import B18 Maximum value Distortion factor THD U L3 C13 Maximum value Distortion factor THD I L3 C14 Measured value Total active energy export C18 Measured value Su...

Page 99: ...Comparator 1 Total running time B20 Measured value 3rd harmonic U L1 B21 Measured value 3rd harmonic U L2 B22 Measured value 3rd harmonic U L3 B23 Measured value 3rd harmonic I L1 B24 Measured value Sum Reactive energy ind C19 Comparator 6 Total running time G20 Measured value 15th harmonic U L1 H21 Measured value 15th harmonic U L2 H22 Measured value 15th harmonic I L1 H24 Measured value 15th har...

Page 100: ...B25 Measured value 3rd harmonic I L3 B26 Maximum value 3rd harmonic U L1 B27 Maximum value 3rd harmonic U L2 B28 Maximum value 3rd harmonic U L3 B29 Maximum value 3rd harmonic I L1 B30 Measured value 15th harmonic I L3 H26 Maximum value 15th harmonic U L1 H27 Maximum value 15th harmonic U L2 H28 Maximum value 15th harmonic I L1 H30 Maximum value 15th harmonic U L3 H29 Measured value 15th harmonic ...

Page 101: ...armonic I L2 B31 Maximum value 3rd harmonic I L3 B32 Maximum value 15th harmonic I L3 H32 Maximum value 15th harmonic I L2 H31 Marked menus are not displayed in the factory presetting C Even and odd harmonics up to the 40th order can be called up via the GridVis software and can be viewed in the software ...

Page 102: ...00 4 4 2005 07 IEC 61000 4 4 Electrical fast transients 1 kV 2 kV DIN EN 61000 4 5 2007 06 IEC 61000 4 5 Sure voltages 1 kV 2 kV DIN EN 61000 4 6 2009 12 IEC 61000 4 6 Conducted radio frequency 3 V signals DIN EN 61000 4 8 2001 12 IEC 61000 4 8 Electromagnetic fields 100 A m DIN EN 61000 4 11 2005 02 IEC 61000 4 11 Voltage dips voltage variations Emission DIN EN 61326 1 2006 10 IEC 61326 1 Electri...

Page 103: ...IEC approved overcurrent protection device 10 A type C 3 Jumpers external 13 14 15 16 17 B A Digital outputs RS485 Basic device UMG 96RM L1 L2 L3 N V1 V2 V3 VN Voltage input 3 4 5 6 I1 I2 I3 Current input 7 8 9 10 11 12 Supply voltage N L 1 2 A B 24V DC K1 K2 Consumer 230V 400V 50Hz 3 3 3 2 1 2 2 ...

Page 104: ...he secondary current Select the secondary current with button 1 Change the flashing digit with button 2 Leaving the programming mode Simultaneously press buttons 1 and 2 for approx 1 second again in order to switch to display mode Retrieving measured values Switch to display mode If programming mode is still active the PRG and CT symbols appear on the display simultaneously press buttons 1 and 2 f...

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