RISH
Master
3430
Operating Manual
%THD
Page 1: ...RISH Master 3430 RISH Master 3430 Operating Manual THD ...
Page 2: ... 3 2 2 Potential Transformer Primary value 3 2 4 Current Transformer Primary value 3 2 5 Current Transformer Secondary value 3 2 6 Reset 3 2 8 Low current noise cutoff 3 2 9 RS 485 Device Address 3 2 10 RS 485 Baud rate 3 2 11 RS 485 Parity Selection 3 2 12 Assignment of Energy to Pulse output 1 3 2 13 Assignment of Energy to Pulse output 2 3 2 7 Auto Scrolling 3 2 3 Potential Transformer Secondar...
Page 3: ... 2 20 Energy display on Modbus 3 2 14 Pulse duration 10 Specification 8 Installation 8 1 EMC Installation Requirements 8 2 Case Dimensions and Panel Cut out 8 3 Wiring 8 4 Auxiliary Supply 8 5 Fusing 8 6 Earth Ground Connections 9 Connection Diagrams 11 Connection for Optional Pulse output RS 485 Analog Ouput 4 Analog output option Relay Output optional 5 Rs485 MODBUS Output 7 Phaser Diagram 6 2 ...
Page 4: ...ed at site for the following PT Primary PT Secondary CT Primary CT Secondary 5A or1A and 3 phase 3W or 3 Phase 4W system Down Up VRY KVAr Sys V x1000 KVArh IN Ph R KAh VYB A KVA Min x1000 Hz KVAh Ph Y THD Angle KW VBR Max x1000 P F KWh Ph B Down Up Max KVAr V x1000 KVArh Angle A KVA Min x1000 Hz D kVAh KW kAh x1000 P F kWh THD The screen shown on left is of 3 Phase Meter The front panel has two pu...
Page 5: ...urement Active Import Energy 8 Digit resolution kWh kWh Active Export Energy 8 Digit resolution Active Power System Phase 4 wire only Reactive Power System Phase 4 wire only Apparent Power System Phase 4 wire only Power Factor System Phase 4 wire only Phase Angle Phase 4 wire only Kwatts KVAr KVA Degree kVArh Reactive Import Energy 8 Digit resolution kVArh Reactive Export Energy 8 Digit resolution...
Page 6: ...ase of 3P 4W L L in case of 3P 3W Measured Parameters Units of Measurement I1 THD I2 THD V1 THD V2 THD V3 THD I3 THD System Voltage THD System Current THD for 3 4 wire for 3 4 wire for 3 4 wire for 3 4 wire for 3 4 wire for 3 4 wire 5 ...
Page 7: ...the Up key and in decremental order by pressing Down key Parameter Screens 1 Phase System Voltage System Current System Active Power Phase Angle Frequency System Power Factor Reactive Power Apparent Power Active Power Active Energy Import Min System Voltage Min System Current Active Energy Export Reactive Energy Import Reactive Energy Export Apparent Energy Max System Voltage Max System Current Sy...
Page 8: ...mport Reactive Energy Export Apparent Energy Max System Voltage Max System Current R Phase Reactive Power R Phase Apparent Power R Phase Active Power Y Phase Reactive Power Y Phase Apparent Power Y Phase Active Power B Phase Reactive Power B Phase Apparent Power B Phase Active Power Phase Angle R Phase Angle Y Phase Angle B Phase Power Factor R Phase Power Factor Y Phase Power Factor B Voltage THD...
Page 9: ...rty Parity bits none No Parameter ALL All Parameter E Energy hi Max Values Lo Min Values Select any one option using down key rl1 Relay 1 rl2 Relay2 puls Pulse Duration rAtE Pulse Divisor codE Password AnL1 Analog1 Parameter Selection AnL2 Analog1 Parameter Selection Enrt Energy update rate Edrc Energy digit reset count En OP Energy Output on Modbus Note Sys type selection screen is not available ...
Page 10: ... of 0000 disables the password protection 3 Programming The following sections comprise step by step procedures for configuring the 3430 for individual user requirements To access the set up screens press and hold the Key simultaneously for 5 seconds This will take the User into the Password Protection Entry Stage Section 3 1 Down and Up VYB VRY KVAr Sys V A KVA Min KW VBR Angle Max x1000 KVArh x1...
Page 11: ...e Up key to advance to next digit VYB VRY KVAr Sys V A KVA Min KW VBR Angle Max x1000 KVArh x1000 x1000 IN Ph R Hz KVAh Ph Y P F KWh Ph B KAh THD Enter Password third digit entered prompt for fourth digit Denotes that decimal point will be flashing Use the Down key to scroll the value of the fourth digit from 0 through to 9 the value will wrap from 9 round to 0 Press the Up key to advance to verif...
Page 12: ...nge Password entry stage VYB VRY KVAr Sys V A KVA Min KW VBR Angle Max x1000 KVArh x1000 x1000 IN Ph R Hz KVAh Ph Y P F KWh Ph B KAh THD Password Incorrect The unit has not accepted the Password entered Pressing the Down key will return to the Enter Password stage Pressing the Up key exits the Password menu and returns operation to the measurement reading mode VYB VRY KVAr Sys V A KVA Min KW VBR A...
Page 13: ... the value of the first digit from 0 through to 9 the value will wrap from 9 round to 0 Pressing the Up key to advance the operation to the next digit and sets the first digit in this case to 2 VYB VRY KVAr Sys V A KVA Min KW VBR Angle Max x1000 KVArh x1000 x1000 IN Ph R Hz KVAh Ph Y P F KWh Ph B KAh THD New Change Password second digit entered prompting for third digit decimal point indicates tha...
Page 14: ...IN Ph R Hz KVAh Ph Y P F KWh Ph B KAh THD New Password confirmed Pressing the Down key will return to the New Change Password Pressing the Up key will advances to the Menu selection screen see section 3 2 3 2 Set up Screens 3 2 1 System Type VRY KVAr Sys V KW VBR Angle Max x1000 KVArh x1000 IN Ph R P F KWh Ph B A VYB KVA Min x1000 Hz KVAh Ph Y THD x1000 Hz KVAh Ph Y THD This screen is used to set ...
Page 15: ...y the multiplier must be selected pressing the Down key will move the decimal point position to the right until it reaches after which it will return to Pressing the Up key accepts the present multiplier decimal point position and advances to the potential Transformer primary Digit Edit mode 3 2 2 Potential Transformer Primary Value The nominal full scale voltage which will be displayed as the Lin...
Page 16: ... Primary value can be set from 100V L L to 692 8 kV L L Note the flashing decimal point indicates the cursor position a steady decimal point will be present to identify the scaling of the number until the cursor position coincides with the steady decimal point position At this stage the decimal point will flash When the least significant digit has been set pressing the Up key will advance to the P...
Page 17: ... from the Transformer when the potential transformer PT primary is supplied with the voltage defined in 3 2 1 2 potential transformer primary voltage The ratio of full scale primary to full scale secondary is defined as the transformer ratio The Valid range of instrument is from 100 to 600V Transformer Secondary Value Edit mode Down key will scroll the value of the most significant digit from avai...
Page 18: ...g the Up key accepts the present value and advances to the Current Transformer Secondary Value See Section 3 2 5 Potential Transformer Secondary Value Confirmation This screen will only appear following an edit of the Potential Transformer Secondary Value If the scaling is not correct pressing the Down key will return to the Potential Transformer Secondary Value Edit Pressing the Up key sets the d...
Page 19: ...the value will be forced to 1 if the display contains zero of Current is restricted to 1157A Current Transformer Primary Value Confirmation This screen will only appear following an edit of the If the scaling is not correct Pressing the Down key will return to the Current Transformer Primary Value Edit stage with the most significant digit highlighted associated decimal point flashing and the bott...
Page 20: ...dary value confirmation CT Secondary value confirmation This screen will only appears following an edit of CT secondary value If secondary value shown is not correct pressing the Down key will return to CT secondary edit stage by blanking the bottom line of the display Pressing Up key sets the displayed value and will advance to reset parameter menu See Section 3 2 6 VRY KVAr Sys V KW VBR Angle Ma...
Page 21: ...meter Reset option select Resets ALL resettable parameter The user has scrolled through to the ALL Pressing Up key will select the value and advance to the Reset ALL Confirmation Mode Will reset all resettable parameter VYB VRY Sys V A KVA Min KW VBR Angle Max x1000 KVArh x1000 x1000 IN Ph R Hz KVAh Ph Y P F KWh Ph B KAh THD KVAr Demand VRY KVAr Sys V KW VBR Angle Max x1000 KVArh x1000 IN Ph R P F...
Page 22: ...h Ph Y THD x1000 Hz KVAh Ph Y THD Reset option select Reset Energy The user has scrolled through to the E Energy value Pressing Up key will select the value and advance to the Reset Energy Confirmation Mode Reset Energy Confirmation Pressing Up key resets the all Energy parameters and advances to the Auto scroll setting see section 3 2 7 Pressing the Down key will re enter the Reset option mode Re...
Page 23: ...lling Edit and toggle the status Yes and No VYB VRY KVAr Sys V A KVA Min KW VBR Angle x1000 KVArh x1000 x1000 IN Ph R Hz KVAh Ph Y P F KWh KAh THD Max Ph B 3 2 8 Low Current noise cutoff This screen allows the user to set Low noise current cutoff in mA Pressing Up key accepts the present value and advance to Rs485 address selection Pressing the Down key will enter the Low current noise cutoff Edit...
Page 24: ...B A VYB KVA Min x1000 Hz KVAh Ph Y THD x1000 Hz KVAh Ph Y THD This screen applies to the RS 485 output only This screen allows the user to set RS485 address for instruments Enter Address prompt for first digit Denotes that decimal point will be flashing Press the Down key to scroll the value of the first digit Press the Up key to advance to next digit The range of allowable address is 1 to 247 VYB...
Page 25: ...KVArh x1000 x1000 IN Ph R Hz KVAh Ph Y P F KWh Ph B KAh THD Enter Address second digit entered prompt for third digit Denotes that decimal point will be flashing Use the Down key to scroll the value of the third digit VYB VRY KVAr Sys V A KVA Min KW VBR Angle Max x1000 KVArh x1000 x1000 IN Ph R Hz KVAh Ph Y P F KWh Ph B KAh THD Address confirmation Screen This Screen confirms the Address set by us...
Page 26: ...ee section 3 2 11 Pressing the Down key will enter the Baud Rate Edit mode and scroll the value through 2 4 4 8 9 6 19 2 and back to 2 4 Pressing the Up key will select the value and advances to the Parity Selection see section 3 2 11 VRY KVAr Sys V KW VBR Angle Max x1000 KVArh x1000 IN Ph R P F KWh Ph B A VYB KVA Min x1000 Hz KVAh Ph Y THD x1000 Hz KVAh Ph Y THD VRY KVAr Sys V KW VBR Angle Max x1...
Page 27: ... no parity with one stop bit no 2 no parity with two stop bit E even parity with one stop bit Pressing the Up key will set the value and advances to the Pulse output Selection see section 3 2 12 RS 485 Parity confirmation Pressing Down key will be re enter into Parity Edit mode VRY KVAr Sys V KW VBR Angle Max x1000 KVArh x1000 IN Ph R P F KWh Ph B A VYB KVA Min x1000 Hz KVAh Ph Y THD x1000 Hz KVAh...
Page 28: ...y Active E E Export Energy Active I rE Import Reactive Energy E rE Export Reactive Energy Pressing the Up key will set the value and advances to the Assignment of Energy to pulse output 2 see section 3 2 13 Pulse output1 confirmation Pressing Down key will be re enter into edit mode VRY KVAr Sys V KW VBR Angle Max x1000 KVArh x1000 IN Ph R P F KWh Ph B A VYB KVA Min x1000 Hz KVAh Ph Y THD x1000 Hz...
Page 29: ...y Active E E Export Energy Active I rE Import Reactive Energy E rE Export Reactive Energy Pressing the Up key will set the value and advances to the Pulse duration see section 3 2 14 Pulse output 2 confirmation Pressing Down key will be re enter into edit mode VRY KVAr Sys V KW VBR Angle Max x1000 KVArh x1000 IN Ph R P F KWh Ph B A VYB KVA Min x1000 Hz KVAh Ph Y THD x1000 Hz KVAh Ph Y THD VRY KVAr...
Page 30: ...nds Pressing Up key accepts the present value and advance to the Pulse rate see section 3 2 15 Pressing the Up key will select the value and advances to Pulse Duration Confirmation Pressing the Down key will enter the Pulse Duration Edit mode and scroll the value through 60 100 200 and wrapping back to 60 Pulse Duration Edit VRY KVAr Sys V KW VBR Angle Max x1000 KVArh x1000 IN Ph R P F KWh Ph B A ...
Page 31: ... Pressing the Up key advances to the Pulse rate Divisor Confirmation menu Pulse Rate Divisor Confirmation This screen will only appear following an edit of the Pulse rate divisor If the Pulse rate shown is not correct pressing the Down key will return to the Pulse rate divisor Edit stage by blanking the bottom line of the display Pressing Up key sets the displayed value and will advance to the Ana...
Page 32: ...ional This screen is for analog output 1 only It allows the user to set analog output 1 to corresponding measured parameter Refer table Parameter for Analog output Pressing Up key accepts the present value and advance to the Analog output 2 selection see section 3 2 17 Pressing the Down key will enter the Analog output 1 Edit mode and scroll the values as per Table Parameter for Analog output Pres...
Page 33: ...ing the Down key will enter the Analog output 2 Edit mode and scroll the values as per Table Parameter for Analog output Pressing the Up key advance to the Analog output 2 confirmation screen A VYB KVA Min x1000 Hz KVAh Ph Y THD x1000 Hz KVAh Ph Y THD VRY KVAr Sys V KW VBR Angle Max x1000 KVArh x1000 IN Ph R P F KWh Ph B VRY KVAr Sys V KW VBR Angle Max x1000 KVArh x1000 IN Ph R P F KWh Ph B Pressi...
Page 34: ... x1000 IN Ph R P F KWh Ph B VRY KVAr Sys V KW VBR Angle Max x1000 KVArh x1000 IN Ph R P F KWh Ph B A VYB KVA Min x1000 Hz KVAh Ph Y THD x1000 Hz KVAh Ph Y THD Pressing the Up key sets the displayed value and will advance to Energy display on Modbus menu 3 2 19 Energy Digit reset count This screen enables user for setting maximum energy count after which energy will rollback to zero depends upon se...
Page 35: ...isplay will show i e energy overflow when energy crosses the 8 digit count Pressing Up key accepts the presents value and returns to measurement screen 3 2 20 Energy Display on modbus Pressing the Down key will enter the Energy Display On Modbus Edit mode and scroll the value through the values 1 2 3 wrapping back to 1 1 Energy In Wh 2 Energy in KWh 3 Energy in MWh VRY KVAr Sys V KW VBR Angle Max ...
Page 36: ... KVAr Sys V KW VBR Angle Max x1000 KVArh x1000 IN Ph R P F KWh Ph B A VYB KVA Min x1000 Hz KVAh Ph Y THD x1000 Hz KVAh Ph Y THD Pressing the Down key will enter the Energy Display On Modbus Edit stage by blanking the bottom line of the display Note Default value is set to 1 i e Energy on Modbus will be in terms of Wh VArh VAh resp Pressing the Up key advances to the returns to Measurement screen 3...
Page 37: ...ch end of the 4 way connector Please refer section 15 for connection details On both modules the output signals are present on pins A1 Analog Output 1 A2 Analog Output 2 These outputs can be individually assigned to represent any one of the measured and displayed Parameters All settlings are user con gurable via the user interface screen See Analog o p selection section 3 2 16 section 3 2 17 for d...
Page 38: ...37 Diagram 1 4 20 mA 0 0 12 mA 0 181 4 mA 0 180 20 mA 0 90 16 mA 0 270 8 mA Diagram 2 0 1 mA 0 0 0 5 mA 0 181 0 mA 0 180 1 mA 0 90 0 75 mA 0 270 0 25 mA ...
Page 39: ... 18 POWER FACTOR L3 19 PHASE ANGLE L1 20 PHASE ANGLE L2 21 PHASE ANGLE L3 0 120 0 120 0 120 0 120 0 0 181 0 180 0 0 181 0 180 0 0 181 0 180 0 0 181 0 180 0 0 181 0 180 0 0 181 0 180 22 VOLTAGE AVG 24 CURRENT AVG 0 100 0 100 INPUT VOLTAGE L1 Sr No Parameter 0 1 2 INPUT VOLTAGE L2 2 3 INPUT VOLTAGE L3 None 4 INPUT CURRENT IL1 3P 4W 1P 2W 3P 3W Range 0 100 0 100 0 100 0 100 5 INPUT CURRENT IL2 6 INPU...
Page 40: ... Range Analog Output 0 181 0 180 101 INPUT VOLTAGE L12 102 INPUT VOLTAGE L23 103 INPUT VOLTAGE L31 113 NEUTRAL CURRENT 0 100 0 100 0 100 0 100 Note Parameters 1 2 3 are L N Voltage for 3P 4W L L Voltage for 3P 3W 1 For Frequency 0 corresponds to 40 Hz 120 corresponds to 70 Hz 2 For Angle and PF 0 corresponds to 0 Deg 100 corresponds to 360 Deg 36 Frequency 45 to 65 Hz ...
Page 41: ...00kW Up to 3600kW Up to 3600kW Up to 3600kW Above 3600kW Above 3600kW Above 3600kW Above 3600kW TABLE 3 Energy Pulse Rate Divisor 1 For Energy Output in Wh Divisor 1 Pulse rate Pulse System Power 1 per kWh 1 per 1000kWh 1 per 1000MWh Up to 3600W Up to 3600kW Above 3600kW 2 For Energy Output in Kwh Divisor 1 Pulse rate Pulse System Power 1 per Mwh 1 per 1000Mwh 1 per 1000Gwh Up to 3600W Up to 3600k...
Page 42: ...ble and be at bothends of the line The cable should be terminated at each end with a 120 ohm 1 4 Watt min resistor RS 485 network supports maximum length of 1 2km Including the Master a maximum of 32 instruments can be connected in Rs485 network The permissible address range for the is between 1 and 247 for 32 instruments Broadcast Mode address 0 is not allowed instrument The maximum latency time ...
Page 43: ...r 2 bits if no parity Byte format Communication Baud Rate is user selectable from the front panel between 2400 4800 9600 19200 bps Exception Cases An exception code will be generated when the receives instrument ModBus query with valid parity error check but which contains some other error e g Attempt to set oating point variable to an invalid value The response generated will be Function code Ore...
Page 44: ...s Example To read parameter Volts 3 Start address 04 Hex Number of registers 02 Note Number of registers Number of parameters x 2 Each Query for reading the data must be restricted to 20 parameters or less Exceeding the 20 parameter limit will cause a ModBus exception code to be returned Query Accessing 3 X register for reading measured values Device Address Function Code Start Address High Start ...
Page 45: ... High Byte Most signi cant 8 bits of Data register 1 of the parameter requested Data register 1 Low Byte Least signi cant 8 bits of Data register 1 of the parameter requested Data register 2 High Byte Most signi cant 8 bits of Data register 2 of the parameter requested Note Two consecutive 16 bit register represent one parameter Data register 2 Low Byte Least signi cant 8 bits of Data register 2 o...
Page 46: ...0021 11 VA3 VAR1 VAR2 VAR3 PF1 PF2 PF3 Phase Angle 1 Phase Angle 2 Phase Angle 3 Volts Ave Volts Sum Current Ave Current Sum Watts Ave Watts Sum VAAve VA Sum VAr Ave VAr Sum PF Ave Parameter W2 W3 VA1 VA2 00 16 00 18 00 1A 00 1C 00 1E 00 20 00 22 00 24 00 26 00 28 00 2A 00 2C 00 2E 00 30 00 32 00 34 00 36 00 38 00 3A 00 3C 00 3E Modbus Start Address Hex High Byte Low Byte 00 E 00 10 00 12 00 14 3P...
Page 47: ...le Ave Phase Angle Sum 00 42 00 44 30109 00 6C Wh Import Over ow Count 00 6E Wh Export Over ow Count 00 70 Varh Import Over ow Count 00 72 Varh Export Over ow Count 00 74 Vah Over ow Count 30111 30113 30115 30117 52 53 54 55 30143 60 Current Ave Min 00 8E 30147 30149 62 63 30145 00 90 61 Wh Import 57 58 59 30133 30135 30141 Volts Ave Max Volts Ave Min 84 86 8C Current Ave Max 00 00 00 On Update Ra...
Page 48: ... I2 THD I3 THD System VoltageTHD Modbus Start Address Hex High Byte Low Byte 00 00 00 00 00 00 00 00 00 CA CC CE D0 D2 D4 D6 D8 DA 30201 VL 1 2 Calculated 00 C8 30151 30153 30197 30199 64 65 66 67 00 00 C4 C6 Model Number Version Number 68 00 96 Varh Export On Update Rate 00 9A Vah On Update Rate Note Parameters 1 2 3 are L N Voltage for 3P 4W L L Voltage for 3P 3W 30225 79 I neutral 00 E0 47 ...
Page 49: ...ster represent one parameter Device Address Function Code Start Address High Start Address Low Number of Registers Hi Number of Registers Lo CRC Low CRC High 01 Hex 03 Hex 00 Hex 0A Hex 00 Hex 02 Hex E4 Hex 09 Hex Each setting is held in the 4X registers ModBus code 03 is used to read the current setting and code 16 is used to write change the setting Refer Table 5 for 4 X Register addresses Examp...
Page 50: ...er requested Note Two consecutive 16 bit register represent one parameter Data register 2 Low Byte Least signi cant 8 bits of Data register 2 of the parameter requested Example Writing System type System type Start address 0A Hex Number of registers 02 Query Change System type to 3phase 3wire 2 01 Hex 10 Hex Device Address Function Code 00 Hex Starting Address Hi 0A Hex Starting Address Lo 00 Hex ...
Page 51: ...ter 1 Low Byte Least signi cant 8 bits of Data register 1 of the parameter requested Data register 2 High Byte Most signi cant 8 bits of Data register 2 of the parameter requested Note Two consecutive 16 bit register represent one parameter Data register 2 Low Byte Least signi cant 8 bits of Data register 2 of the parameter requested Response Device Address Function Code Start Address High Start A...
Page 52: ...register addresses Address Register Parameter No Parameter Modbus Start Address Hex High Byte Low Byte 40007 4 Sys Voltage 00 06 Read Write R 40009 5 Sys Current 00 08 R 6 Sys Type 00 0A 40011 R Wp 00 0C 40019 7 Pulse Width R Wp 00 40015 8 RS 485 Set up Code R Wp 00 14 40021 11 Node Address 00 16 40023 12 Pulse Divisor R Wp 00 18 40025 13 Min Reset Wp 00 1A 40027 14 Max Reset Wp 00 1C 40029 15 Ana...
Page 53: ...arameter select Energy digit reset count R Wp 00 50 40081 41 Energy Update Rate R Wp 00 52 40083 42 Model Number R 40107 40109 40111 40113 54 55 56 57 58 60 61 62 Wh Import Start Count Wh Export Start Count Varh Import Start Count Varh Export Start Count Vah Start Count Wh Import Over ow Start Count Wh Export Over ow Start Count Varh Import Over ow Start R Wp R Wp R Wp R Wp R Wp R Wp R Wp R Wp 00 ...
Page 54: ...rror 40011 System Type 40013 Pulse Width of Relay This address is used to set pulse width of the Pulse output Write one of the following values to this address 60 60 ms 100 100 ms 200 200 ms Writing any other value will return error 40015 Reset Parameters This address is used to reset the parameters by writing following 0 Energy reset 2 Sys Min reset 3 Sys Max reset 6 Reset all Writing any other v...
Page 55: ... an error This address is used to set pulse divisor of the Pulse output Write one of the following values to this address for Wh 1 Divisor 1 10 Divisor 10 100 Divisor 100 1000 Divisor 1000 in KWh MWh Divisior will be 1 default Writing any other value will return an error Pulse rate divisor is set to 1 when Energy on Rs485 is set to kWh or MWh 40029 Analog Out 1 Para Set This address is used to set...
Page 56: ... register the instrument will detect the order used to send this value and set that order for all ModBus transaction involving oating point numbers This address allows the user to set CT Primary value The maximum settable value is 9999 also depends on the per phase 666 6MVA Restriction of power combined with PT primary 40035 CT Pimary 40039 40033 PT Primary This address allows the user to set PT P...
Page 57: ...address is used to assign the Parameter to Relay2 refer table 7 40071 Password This address is used to set reset the password Valid Range of Password can be set is 0000 9999 1 If password lock is present if this location is read it will return zero 2 If Password lock is absent if this location is read it will return One 3 If password lock is present to disable this lock first send valid password to...
Page 58: ...e Model Number of the meter Model Number to 40117 Energy Start Count 40107 The user can set respective energy starting count in these registers before the user can write values to these locations user needs to check register 40005 i e Energy on RS485 and register 40036 i e Energy digit reset count Valid range is 0 9999999 For E g if Energy on RS485 is in K and Energy digit reset count is 7 the sta...
Page 59: ...value 01 01 02 13 14 12 EVEN 19200 9600 9600 9600 NONE NONE ODD 01 02 01 01 15 08 09 10 ODD 9600 4800 4800 NONE NONE 4800 4800 2400 2400 2400 2400 NONE NONE ODD EVEN ODD EVEN 02 01 01 01 02 01 01 01 01 11 04 05 06 07 00 01 02 03 NOTE Codes not listed in the table above may give rise to unpredictable results including loss of communication Excise caution when attempting to change mode via direct Mo...
Page 60: ... area The actual address of the parameters 3X registers addresses which are to be assessed via address 0x200 to 0x226 are speci ed in 4x Register 0x200 to 0x213 see Table 9 30513 257 00 Modbus Start Address Hex Assignable Reg 1 30515 258 02 02 Assignable Reg 2 30517 259 04 02 Assignable Reg 3 30519 260 06 02 Assignable Reg 4 30521 261 08 02 Assignable Reg 5 30523 262 0A 02 Assignable Reg 6 Table 8...
Page 61: ...ssignable Reg 9 Address Register Parameter Number Assignable Register High Byte Low Byte 30531 266 12 02 Assignable Reg 10 Table 9 User Assignable mapping register 4X registers 40514 258 Mapped Add for register 0x0202 02 01 40515 259 Mapped Add for register 0x0204 02 02 260 Mapped Add for register 0x0206 02 03 40516 02 04 40517 261 Mapped Add for register 0x0208 02 05 40518 262 Mapped Add for regi...
Page 62: ...egister 0x021C 40528 272 Mapped Add for register 0x021E 40529 273 Mapped Add for register 0x0220 40530 274 Mapped Add for register 0x0222 40531 275 Mapped Add for register 0x0224 40532 276 Mapped Add for register 0x0226 Example Assigning parameter to user assignable registers To access the voltage2 3X address 0x0002 and Power Factor1 3X address 0x001E through user assignable register assign these ...
Page 63: ...h User Assignable Registers In assigning query Voltage2 and Power Factor1 parameters were assigned to 0x 200 and 0x201 Table10 which will point to user assignable 3xregisters 0x200 and 0x202 table9 So to read Voltage2 and PowerFactor1 data reading query should be as below Device Address Function Code Start Address High Start Address Low Number of Registers Hi Number of Registers Lo CRC Low CRC Hig...
Page 64: ...r assignable register Number of register Hi Most signi cant 8 bits of Number of registers requested Number of register Lo Least signi cant 8 bits of Number of registers requested Note Two consecutive 16 bit register represent one parameter Since two parameters are requested four registers are required Response Volt2 219 30 Power Factor1 1 0 01 Hex 04 Hex Device Address Function Code 08 Hex 43 Hex ...
Page 65: ...1 16 bit 0x203 16 bit 0x202 16 bit 0x204 16 bit 0x205 16 bit 0x206 16 bit 0x207 16 bit 0x224 16 bit 0x225 16 bit 0x226 16 bit 0x227 16 bit 0x200 0x202 0x204 0x206 0x224 0x226 0x200 0x201 0x202 0x203 0x212 0x213 Starting Address 00 Hex 00 Hex 79 Hex 3F Hex 3F Hex 80 Hex Data Register 4 Low Byte CRC High CRC Low Data Register 3 Low Byte Data Register 4 High Byte Data Register 3 High Byte Power Facto...
Page 66: ...s are mapped data can be acquired by using User assignable data register Starting address i e to access data of Voltage2 Power factor1 Wh import Frequency send query with starting address 0x200 with number of register 8 or individually parameters can be accessed for example if current1 to be accessed use starting address 0x212 See section Reading Parameter data through User Assignable Registers In...
Page 67: ...Mounting is by four side clamps slide the side clamps through side slot till side clamp gets rmly locked in a groove Refer g Consideration should be given to the space required behind the instrument to allow for bends in the connection cables SLIDE IN THIS DIRECTION AND LOCK PANEL Meter When the instrument displays Active power P with positive sign the connection is Import When the instrument disp...
Page 68: ... must be installed by a qualified engineer abiding by any local regulations 2 Voltages dangerous to human life are present at some of the terminal connections of this unit Ensure that all supplies are de energised before attempting any connection or disconnection 3 These products do not have internal fuses therefore external fuses must be used to ensure safety under fault conditions As the front of...
Page 69: ...to restore correct operation The Current inputs of these products are designed for connection in to systems via Current Transformers only where one side is grounded 8 2 Case Dimension and Panel Cut Out 3 78 96mm FRONT DISPLAY AREA 3 78 96mm 3 15 80mm 3 62 92mm PANEL CUTOUT 3 62 92mm MAX PANEL THICKNESS 0 18 5mm 8 3 Wiring Input connections are made directly to screw type terminals with indirect wi...
Page 70: ...powered from a dedicated supply however it may be powered instrument from the signal source provided the source remains within the limits of the chosen auxiliary voltage 8 5 Fusing It is recommended that all voltage lines are tted with 1 amp HRC fuses 8 6 Earth Ground Connections For safety reasons CT secondary connections should be grounded in accordance with local regulations 69 ...
Page 71: ...ASE 4 WIRE UNBALANCED LOAD DIGITAL METERING SYSTEM 2 5 8 11 1 3 4 6 7 9 13 14 L N AUX SUPPLY P1 S1 S1 P1 P1 S1 L1 L2 L3 N L O A D SINGLE PHASE DIGITAL METERING SYSTEM P1 S1 L N AUX SUPPLY L N L O A D 2 3 70 ...
Page 72: ...x per phase Max short duration current input 20 x Rated Value 1s application repeated 5 times at 5 min intervals Nominal input current 1A 5A AC rms 1 or 5 Amp secondaries Line Line 100 600 V 10 Speci cation System 3 Phase 3 Wire 3 phase 4 Wire programmable at site Auxiliary Standard nominal Auxillary supply voltages Frequency a c supply frequency range 45 to 66 Hz 60 300 V AC DC OR 65 300 V AC DC ...
Page 73: ...er Apparant Energy 1 0 of range Accuracy 1 Re Active Energy 1 0 of range Current 5 120 of Rated Value Angle 1 of range Analog Output 1 of Output end value Total Harmonic Distortion Neutral Current 4 of range Accuracy 0 5 Voltage 0 5 of range Current 0 5 of range Frequency 0 15 of mid frequency Active Energy 0 5 of range 0 5 of range Active Power 0 5 of range Re Active Power 0 5 of range Apparent P...
Page 74: ...ge Active Power 0 4 of range Re Active Power 0 2 of range Apparent Power Re Active Energy Apparant Energy 0 2 of range Power Factor 1 of Unity Angle 1 of range Analog Output 1 of Output end value Total Harmonic Distortion 1 Accuracy 0 2 0 5 of range Neutral Current 4 of range Sinusoidal distortion factor 0 005 Input waveform Rated Value 1 Auxiliary supply voltage Auxiliary supply frequency Rated V...
Page 75: ...f Rated Value Rated Value 10 0 0 to 50 C Voltage Current Input frequency Temperature Auxiliary supply voltage Auxiliary supply frequency Rated Value 10 Rated Value 10 Temperature Coef cient 0 0 025 C for Voltage 50 120 of Rated Value For Rated value range of use 0 0 05 C for Current 10 120 of Rated Value 0 0 50 C Error change due to variation of an in uence quantity 2 Error allowed for the referen...
Page 76: ...tand test between circuits and accessible surfaces Environmental 0 10 to 55 C 0 20 to 65 C 0 90 RH 3 minute minimum 15g in 3 planes 10 55 Hz 0 15mm amplitude IP 54 as per IEC 60529 Operating temperature Storage temperature Relative humidity Warm up time Shock Vibration Enclosure front only Enclosure 96mm x 96mm DIN Quadratic Style Polycarbonate Housing Material Self extinguish non dripping as per ...
Page 77: ...bove 3600 kW 100 1 per 1000Wh up to 3600W 1 per 1000kWh up to 3600kW 1 per 1000MWh above 3600 kW 1000 60ms 100ms or 200ms Pulse Duration Note Above conditions are also applicable for Reactive Apparent Energy ModBus RS 485 Option ModBus RS 485 Protocol 19200 9600 4800 or 2400 Baud Rate Programmable Odd or Even with 1 stop bit Parity Or None with 1 or 2 stop bits Note Pulse rate divisor is set to 1 ...
Page 78: ...RS 485 Analog Output rear view of the instrument 1 RS 485 Output One Pulse Two Analog Output A1 A2 Gnd 0 1mA N O N C COM Relay 2 B A Gnd RS 485 Gnd 2 Two Pulse RS 485 Output N O N C COM Relay 1 N O N C COM Relay 2 B A Gnd RS 485 3 Ethernet 77 ...
Page 79: ...use only by installers trained to make electrical power installations and is intended to describe the correct method It is the user s responsibility to determine the suitability of the installation method in the of installation for this product user s eld conditions 78 ...
