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User Manual

1. ie Sw ER DR D RR DN 3 Overview CTE CEE u inka E a uw ww iw w urai akii wq ET CC Pee Tr ee ree 4 2 1 View Sed kv ean tan 4 22 Front Face View xp Vb os TEE EE Re oni Shaan 4 23 Rear View s oleh ove RR wikis 5 Description CET EPEC ETT eee EC Te eT EET Ria m q ey ee ee ee ee ee eee ram ass 6 3 1 MM MM MM M xMMMHHRHMHMHRMMHMMMeHMIRRe emHmIRe HeHe 6 system Configuration EARS SERM TERE CRC RN Wiwa a w Ria w a w wis a RM E NEN NN RN NN RE 7 41 Network Diagram a QM SN NN EE A P QS QUEM S ON Fue 7 4 2 Standards for system configuration E E 7 F un cti 8 5 1 Interfacing with Central control amp monitoring system Ge eens dee qa 8 5 2 Interface for I NET communication 8 53 Synchronization 9 5 4 Displays and Settings Tre
2. 1 1 Time Table for Standard 5 020 1 00 200 1 003 2 006 3 009 4 012 5 015 6 017 7 020 8 023 9 026 10 029 1 2 Time Table for Very Inverse VI 060 100 40 User Manual oso 080 100 1200 1800 1 3 Time Table for Extreme Inverse El 020 040 oso 080 020 100 41 User Manual 1 4 Time Table for Long Inverse Ll oz 040 oso oso 100 400 4 000 8 000 12 000 16 000 20 000 24 000 28 000 32 000 36 000 40 000 42 GIMAC II User Manual GIMAC II USER MANUAL Digital Integrated Metering amp Control Equipment GIMAC II LG Industrial Systems GIMAC II User Manual CONTENTS Presentation E M E uM I E E 3 Features amp system diagram eT Pe RE 3 2 1 Features 3 2 2 System Diagram 4 Specification uM e Mp MM LN EM M 4 INI MIU 6 LLL LLL 6 7 43 7 installation 2 8 9 AMD 10 Odering IBTOFITIA DOT o
3. 5 Length of data willing to transmit Byte DATA n BYTE 0 00 OxFF Details of BINARY DATA Error Check Code CHECK SUM ECC 1 BYTE 0x00 OxFF The residual The sum of data from DEST to DATA 256 GMPC ll User Manual 9 3 Transmitting Junction PROTOCOL P1 P2 DEST T0 00 LENT DATA 0 DATA n ECC is used for transmitting data from the Host system to GIMAC GIPAM or vise versa And FN in the data frame for transmission is 00 at this point E bit in the data frame for transmitting or receiving is always 0 he data frame that GMPC has received is discarded when there is ECC error on it he data frame that GMPC has received is also discarded when there is an error in value on it The structure of the data frame OxFF 0x00 0x23 0 00 1 0x10 0x34 Host System GMPC III GIMAC GIPAM Transmitting Data Frame TX Receiving Data Frame 9 4 Synchronization PROTOCOL P1 P2 DEST E 01 LEN DATA 0 DATA n ECC It is used for synchronizing GMPC with the Host system PC MODEM And FN in the data frame for transmission 15 at this point The data in DEST is disregarded 20 GMPC ll User Manual The data frame that GMPC has received is discarded when there is ECC error on it The data frame that GMPC has received is recognized as abnormal response E bit 1 when there is an error in
4. 10 Current in multiples of set current l Is 26 User Manual 5 SGR Current and voltage in Zone 1 Vo gt Vos lo gt los RCA Relay Characteristic Angle 2 User Manual 7 Installing amp Operating Device 7 1 How to install 1 Set CT PT Ratio Wiring and select relays with DIP Switches located the Main Board of the device 2 Set an Address Number with the Address Knob which is deeply inside of the Main Board 3 Supply the power DC 110V 4 Input the Voltage and Current 5 By pressing the CLEAR S W on the front reset CB Operation CB ON Time etc 7 2 Set the DIP Switches Drawing out the device after taking off the screws on the front there are four of the DIP Switches on top of the Main Board as below Adress knob for Date Communication DIP Switch 1 DIP Switch 3 DIP Switch 2 Calibra CT Ratio tion CT Ratio Wig Mode DIP 1 DIP S W 2 OFF ON 1 ON OFF 0 OCR Mode is selected as default OCGR Mode OVR Mode UVR Mode OVGR Mode On Off SGR Mode On Off x Please contact us if you need to set 50 2 DIP S W 3 28 The DIP Switches are set as follows 1 CT Ratio CODE Table 1 SREP sl pre s papal of up CERDFNEM Gwen rl 30 5 1 1 0 a of 40 5 1 1 of of a 80 54 6054 110 1 a a 5 54 1010 1 1 of
5. oie Ti PPS 52 InTouch and Modbus User Manual ee eee wis miw wik miw 62 13 1 Setting of Modbus M A 62 13 2 In Touch User Manual TT P 65 GMPC ll User Manual 1 Components GMPC III Main Body 1 I NET CABLE 1EA RS232C CABLE 1EA POWER CALBE 1EA 485 Connector T M Connector GMPC ll User Manual 2 Overview 2 1 General View 2 2 Front Face View CD D 4 9 Ne Ne LGES GMPC III TXD RXD RUN IDLE MENU SEL 1 Display Window Displaying time and setting menu 2 SYNC LED Being on and off while a synchronizing data is transmitting 3 Time Master LED Turned on when Time Master is selected in the setting menu 4 TxD LED Turned on while a data is transmitting with RS 232 or 485 port 5 RxD LED Turned on while a data is receiving with 5 232 or 5 485 port GMPC ll User Manual 6 RUN LED Turned on when there is a data flow on I Net port IDLE LED Turned on when there is not any qata flow on net port Error LED Turned on when any error is on the internal system MENU Key Changing the setting menu SELECT Key Changing the setting value 17 ENTER key Storing the changed value 2 3 Rear View D Power Connector
6. 8 54 1o i o i 100 5 1 0 1 1 120 54 1 0 of 1 1 150 5 10010 20 54 1 of o of o of of of 250 5A 30 54 of 1 1 1 400 of 1 1 1 0 of 1 1 0 1 60 54 0 11100 50 54 of 1 olaja 2500 54 o 0 11 of 1 3000 5 0 0 11 0 of 4000 5 4 of 1 5000 5 1 o 600 54 of of 1 Calibration 1 0 Mode Analog input o 1 ON 1 OFF 0 800 1000 1200 1500 2000 5 29 User Manual PT Ratio CODE Table 2 moe sinovi af afof of 3300 110V 1 sso 1 of of a 13200 110V 1 3390 10V 0 1 1 1 2200010 1 1 of 2290010 1 0 1 3300 10v 0100 66000 110v 0 1 1 35400 10v 1 O 2W EE 3W Wiring SW 3 Selecting Relays CODE Table 3 Setting Bits e Frequency ON 1 OFF 0 Please contact us if you need to set 50Hz User Manual 7 3 Setting a Communication Address Number It is set by the two knobs on top of the Main Board and each knobs has hexa decimal
7. Setting COM port to connect with GMPC III MODBUS Communication Port Settings Protocol ca Com ASCII 2 Reply Timeout 3 secs ATL 3 Save Defaults Baud Rate 111 300 C 120 2400 14800 9500 14400 1920067 38 40 Data Bits Stop Bits CT v8 1 Parity Even Mone C ssc 1 Select COM port to connecting with GMPC III MODBUS 2 Setting the Timeout period when there is no response from Device 3 Setting the Baud rate 62 GMPC ll User Manual 13 1 3 Topic Definition Creating New Topic and Modification of setting variables in created Topic Topic Definition SUEGIPAM 1 Creating new Topic 2 Modification of setting variables in created Topic MODBUS Topic Definition SOEGIPAM Slave ID 1 584 984 1 Setting the name Topic The name must be same name of Access Name Topic Name 2 Select COM Port 63 GMPC ll User Manual 3 Select Slave ID of Modbus 4 Coil Read Set maximum number of Coil Registers in a query to 8 Coil Write Set maximum number of Coil Registers in a command to 8 Register Read Set maximum number of Registers in a query to 8 Register Write Set maximum number of Registers in a command to 8 5 Set time Period between queries 13 1
8. SGR Pressing Key to store t set time Storing the time set Pressing Key MD TP TO Move to setting menu for operating mode Setting an appropriate value selecting an operating mode for SGR wiih or T TP Trip amp Alarm AL Alarm XX no operation Pressing Key to store MD selected mode Storing the mode selected Returning to Returning to Normal mode after mode completing the setting Pressing 20 User Manual 6 2 3 The formula of Time Characteristic Curve 1 Time Characteristic t Tx TL sec is an operating characteristic and it should be one of the following formulas Time Delay Characteristic IEC 255 3 is applied Standard Inverse 51 T LL Definite Time 02 T 2 Definite Time DA T 4 Definite Time 08 8 13 5 Very Inverse T 15 1 045 Operated Current Is Set Current Extreme Inverse El T 1 15 1 Long Inverse T 120 1 15 1 TD is the value that determines operating time and ranges from 0 05 to 1 00 21 User Manual 2 The value of operating characteristic The operating time below is the value when TD equals 1 Standard Inverse Time Very Inverse Time 22 1 15 1 15 1 00 gt 1 00 gt 2 00 gt 10 029 2 00 gt 13 500 3 00 gt 6 302 3 00 gt 6 750 4 00 gt 4 980 4 00 gt 4 500 5 00 gt
9. 0101 0 40 19 to 76V Instantaneous pick up voltage V gt gt 0 10 to 0 40 19 to 76V OFF 0 05 1 00 Operation mode AL TP Operation current lo 0 6 to 3 6 0 9 to 5 4mA SCR Operation voltage Vo 0 101 0 40 19 to 76V Operation time t 0 1 to 10 0 sec Operation mode AL TP Note 1 gt 02 D4 D8 Definite time delay t 2 4 8 2 gt SI VI El LI Standard Inverse Very Inverse Extremely Inverse and Long Inverse time delay curves respectively 3 gt XX AL TP Operation mode setting no operation AL alarm mode alarm trip mode 3 Display of fault status Fault LED is turned on in case of error detected each factor of relay It displays by blinking the value of operation or the factor of operation OCR operated Ir value Ir Is current occurs on phase R S Value of Indicator x 5 A x CT Ratio gt Operated current of OCR OCGR operated as value Value of Indicator x 5 A x CT Ratio gt Operated current of OCGR 13 User Manual OVR operated Ov value Value of Indicator x 110 V x PT Ratio gt Operated voltage of OVR UVR operated Uv value Value of Indicator x 110 V x PT Ratio gt kaws Operated Voltage of UVR SGR operated OVGR operated v value Value of Indicator x 190 V x GPT Ratio Operated Voltage OCGR
10. 33105 F 04h Zero Sequence Voltage coat 33121 Example 33121 F 33123 F SUB COMMAND 4 Ton dS sucowwmo ene p seem sme tower vie Lp EL RELAY Operation 33145 BIT Operation status 54 GMPC ll User Manual Reserved Reserved SUB COMMAND 2 SOE DATA Relay SETTING Information Wa SUB COMMAND BYTE 93141 Lower 1 BYTE 10 39 142 Lower 1 BYTE Time Tag Example 33143 L BIT Operation RELAY SETTING 33145 Lower 1 BYTE 7 6 5 4 3 remote 2 Local Setting remote fault reset E local fault reset Reserved Reserved SUB COMMAND 3 SOE DATA CB Status and DATA CLEAR Information SUB COMMAND BYTE 93141 Lower 1 BYTE DEVICE ID BYTE crs 1 BYTE asia ti CB Status BYTE 3145 ME Higher 1 BYTE local on 6 local off 5 remote on remote off CB Status Change BYTE 381454 Lower 1 BYTE 55 t off Input GMPC ll User Manual 7 local on 32 0 6 local off 1 on Input 5 remote off Inout 4 remote off i BIT Operation LOCAL CLEAR BYTE 33146 H Higher 1 BYTE 76 1 5 Vo max 4 CB ON time 3 ON counter 2 SOE buffer 1 varh 0 wh BIT Operation REMOTE CLEAR BYTE 33146 L a BYTE
11. Fuse 2 Power Switch 3 5 232 Serial Port D SUB Male 9Pin 4 5 485 Port 5 Time Master The port for synchronization among GMPCs 6 port GMPC ll User Manual 3 General Description 3 1 Introduction GMPC III is interfacing equipment which makes possible to communicate between the devices using standard Exclusive communication method or standard of LGIS such as GIMAC or GIPAM and the devices using any other communication standard or protocols GMPC has RS 232 5 422 and 485 port for it and enables I Net data to convert 5 232 422 485 that is GMPC has a function that makes it capable to communicate among the devices accepting different protocol with converting not only a data from remote control system to I Net data but also converting I Net one to the one used remote system In particular GMPC provides MODBUS protocol of MODICON which is widely accepted in the industry so that it is capable to interface the devices or control amp monitoring system using MODBUS protocol GMPC supports the function called S O E Sequence Of Event of GIPAM It receives information about time from Time Master which is selected on the network and broadcast it all over the slave devices GMPC makes the devices maintain to be synchronized on the Network and there is no interference except for transmitting delays within several milli seconds between devices and central con
12. If press the reset key after removing the cause of fault a relay will be on operation 4 Measuring display of protection relay part If press the CHAR key during the Run is displayed at operating mode measurement value will be displayed with the Ir If repeat to press the CHAR key it displays measurement value of each contents in a row as followings But the fact value of measurement calculated by formula as table Is It gt Ov gt Uv gt lo gt Contents LCD Display The fact value Current of Phase T Value of indication 5 A CT Ratio Value of indication 110 V PT Ratio Voltage Uv value 5 Uv value 5 Value of indication 110 V PT Ratio Zero Phase Voltage vc value Value of indication 190 V GPT Ratio Zero Phase Current Value of indication 1 5 mA ZCT Ratio 5 Display of System error code is blinking and displaying when internal trouble occurs Error codes are same as followings ERR 1 Detect the analog circuit error of voltage or input circuit ERR 2 Detect damage of back up data ERR 3 Detect obstruction of intemal telecommunication RS 232C 14 User Manual SET x Move to setting menu for RUN overcrrent of Time delay I 2 0 4 Setting an appropriate value Setting an overcurrent value I gt 0 4 for Time delay with or 0 4 3 2 0 1step Pressing Key to store I
13. 4 280 5 00 gt 3 379 6 00 gt 3 837 6 00 gt 2 700 7 00 gt 3 528 7 00 gt 2 250 8 00 gt 3 297 8 00 gt 1 929 9 00 gt 3 116 9 00 gt 1 688 10 00 gt 2 971 10 00 gt 1 500 11 00 gt 2 850 11 00 gt 1 350 12 00 gt 2 748 12 00 gt 1 227 13 00 gt 2 660 13 00 gt 1 125 14 00 gt 2 583 14 00 gt 1 038 15 00 gt 2 516 15 00 gt 0 964 16 00 gt 2 455 16 00 gt 0 900 17 00 gt 2 401 17 00 gt 0 844 18 00 gt 2 353 18 00 gt 0 794 19 00 gt 2 308 19 00 gt 0 750 20 00 gt 2 267 20 00 gt 0 711 Extreme Inverse Time Long Inverse Time 1 15 1 15 1 00 gt 1 00 gt 200 gt 26 667 2 00 gt 120 000 3 00 gt 10 000 3 00 gt 60 000 400 gt 5 333 400 gt 40 000 500 gt 3 333 500 gt 30 000 6 00 gt 2 286 6 00 gt 24 000 7 00 gt 1 667 7 00 gt 20 000 8 00 gt 1 270 8 00 gt 17 143 9 00 gt 1 000 9 00 gt 15 000 10 00 gt 0 808 10 00 gt 13 333 11 00 gt 0 667 11 00 gt 12 000 12 00 gt 0 559 12 00 gt 10 909 13 00 gt 0 476 13 00 gt 10 000 14 00 gt 0 410 14 00 gt 9 231 15 00 gt 0 357 15 00 gt 8 571 16 00 gt 0 314 16 00 gt 8 000 17 00 gt 0 278 17 00 gt 7 500 18 00 gt 0 248 18 00 gt 7 059 19 00 gt 0 222 19 00 gt 6 667 20 00 gt 0 201 20 00 gt
14. 5 4 CB ON time 3 CB ON counter ED Vhs 3401 Control Command 2 SOE buffer 1 varh 0 wh Command for requesting the next data after removing the present data in SOE buffer with single query is not supported 04h Measurement Part SETTING DATA Query ss setting Ratio BYTE 33201 Lower 1 BYTE setting Ratio BYTE 99202 Lower 1 BYTE L3 oetting System Wiring BYTE 33203 Lower 1 BYTE EN oetting Relay Enable BYTE 33204 Lower 1 BYTE CB Operation Count INTEGER 33205 ceruntimesec wrecen Time 1000h 33207 Lower 1 BYTE OCR OCGR SETTING 04h DATA O ting C t Val X X RA ing Current Value BCD 33221 H Time Delay char of Higher 1 BYTE 56 GMPC ll User Manual MN Operating Current Value xx in Instantaneous char off BCD CODE 33221 L L Lower 1 BYTE OCR CURVE BCD CODE 33222 OX Lower 1BYTE Operating Time of OCR BCD CODE 33223 Higher BYTE OX Lower BYTE Operating Current Value Xx in Time Delay char of BCD CODE 33224 H i Higher 1 BYTE Operating Current Value in Instantaneous char of BCD CODE 33224 L OCGR OCGR CURVE BCD CODE 33225 1 Operating Time OCGR BCD CODE 33226 Higher BYTE OX Lower BYTE oelecting OCGR Function OVR Operating Voltage BCD CODE 33241 Higher BYTE Lower BYTE OVR
15. 6 316 User Manual 6 2 4 Characteristic Operation Curve 1 SI Standard Inverse Time OCR OCGR OVGR t TL TL 0 05 1 00 1 15 9 1 OPERATING CHARACTERISTICS SD E E 9 10 O O Current in multiples of set current l ls 23 User Manual 2 Vi Very Inverse Time OCR OCGR t BX TL T 0 05 1 00 1 15 1 OPERATING CHARACTERISTICS VD C 15 10 Current in multiples of current l Is 24 3 El Extremely Inverse Time OCR 0 TL TL 0 05 1 00 1 1s 1 OPERATING CHARACTERISTICS ED User Manual Z D 10 Current in multiples of set 1 1 15 25 User Manual 4 Li Long Inverse Time OCR OCGR t 0 TL 0 05 1 00 1 15 1 OPERATING CHARACTERISTICS LD 52 ui G
16. Canceling the selected point to control CB in the event of receiving the command to control other one lt Canceling the selected point if there is something wrong with the command lt Responding to a command that requests Measurement data normally 46 GMPC ll User Manual 11 3 3 Control Command 11 3 3 1 Command selecting control e sis sus ei a sne sno Command Sub Command selecting Data 1 Data selecting Data 2 Data Check Check Sum Sum lt Selecting Data selecting Data 1 Selecting Data 2 60h 96h Selecting CB Close oth 69h Selecting CB Open QOh FFh Canceling the selected point to Control CB Checksum 1Byte Command 1Byte Sub Command 1Byte Data 0 9Byte 256 The residual Checksum is the sum of each bytes not to include OVERFLOW 11 3 3 2 Control Command sus ono Command 20h Sub Command 55h Control Control Point 1 Point Control Point 2 Data Check Check Sum Sum lt gt Data Reversing all data of command which is selected to control Control Point Control Point 1 Control Point 2 9Fh 69h Close 96h Open Checksum 1Byte Command 1Byte Sub Command 1Byte Data 0 9Byte 256 The residual Checksum is the sum of each bytes not to include OVERFLOW 47 GMPC ll User Manual 11 3 4 Setting Time out of SBO Added to the Command for s
17. Trace to the cause of Voltage drop Check out the polarity Check out DIP S W 2 Check out DIP S W 1 Check the Power circuit Check the contact of Main CPU Check out CPU on the main board or working voltage Check out the working voltage or components Clamp Diode etc Set the calibration mode again Check the ccontact of Main CPU CT rating is inappropriate Check out the CT rating Inaccuracy of displayed The phase sequence of Check out the wiring power voltage or Current is incorrect 7 If E 1 is displayed on the LCD in Measuring part Emors of Data Communication 38 Check the contact of Main Board User Manual 9 2 Replacement If it is necessary to replace a device for any reason after installation please follow the steps below 1 Switch off the AC power supply 2 Disconnect the lines 3 Take off the screws on the front and draw out the device 5 Set CT ratio PT ratio and wirings with DIP Switches 4 For installing the device after replacement take the step three to one 6 Supply the control power DC 110V and check out the below An input value of the present current is displayed on LCD after all the indicators are on for a little while 0 5 0 6sec RUN 15 displayd on DOT Matrix LED of the protection part 10 Ordering Information 115 N Standard SOE Function 39 User Manual Appendix 1
18. 74 219 Step After receiving ACK response Send CB OFF Operate Command 01 06 00 14 9E 96 21 SBO Cancel Command Example To send SBO cancel command to GIMAC II with station address number 1 after sending SBO select command QUERY 01 06 00 00 00 FF C9 8A SBO CANCEL 12 5 4 GIPAM When DEVICE ID is Hex82 Hex83 SOE function is excluded when DEVICE ID is Hex82 EE DEVICE ID BYTE 33001 lower d BYTE RELAY Operation Status 33002 Bit Operation 52 GMPC ll User Manual pos 14 162 dp 2 ny 11 Mes 10 192 ge qms 8 peel mmm o OFFout 2 Local 5 0 BIT Operation ESE LE Lower 1 BYTE 2 1 0 Clear Command Code 7 SOE 6 y Set 5 1 4 R Rst 3 Local 000 varh clear 010 ON counter clear 100 001 011 101 wh clear SOE buffer clear CB ON time clear Vo max clear 110 all clear 111 xxx clear nothing GIPAM Internal Phase Current FLOAT 33021 33021 S Phase Current FLOAT 33023 Example 33023 F T Phase Current FLOAT 33025 Example 33025 F om renew _ 53 GMPC ll User Manual 04h Frequency Active Reactive Energy PhseVotage Phase Voltage FLOAT 33101 Example 33101 Phase Voltage FLOAT 93103 Example 33103 F Phase Voltage FLOAT 33105
19. Oe eee ee ee ee 9 Expression Of Time Data So oe ee ee ee eee ee 11 6 1 Expressing Data of the timer built in 11 Environmental Characteristic 11 Installation 12 8 1 The first installation 12 8 2 The first settings ee ee ee 14 83 MENU TREE E ears io RT ERI MUS wie wie a as ee erue E store 18 Protocols 1 9 9 1 Introduction 19 9 2 Basic structure of data frame for transmission 19 93 Transmitting Junction PROTOCOL 20 9 4 Synchronization PROTOCOL EES CORE KERN Oe Bea REN 20 9 5 Internal Setting PROTOCOL ee 24 GIMAC II Protocol CCC CEC CCT ROTC a ara a iTS a s a a a a ara errr 27 10 1 Data Request PC GIMAC IT
20. Operating Time BCD CODE 33242 Higher BYTE OX Lower BYTE XX Lower 1 BYTE BCD CODE 38227 OX Lower 1BYTE 04h Selecting OVR Function BCD CODE 33243 OX Lower 1 BYTE UVR Operating Voltage BCD CODE 33244 1 BYTE XX XO UVR Operating Time BCD CODE 33245 Higher BYTE OX Lower BYTE oelecting UVR Function BCD CODE 33246 OX Lower 1 BYTE 04h 57 GMPC ll User Manual H L Operating Voltage Value in Time Delay char of BCD CODE 33261 XX Higher 1 BYTE OVGR Instantaneous char off BCD CODE 33261 1 BYTE Operating Voltage Value OVGR Operating Time BCD CODE 33262 Higher BYTE OX Lower BYTE selecting OVGR Function SGR Operating Current BCD CODE 33264 H X X Higher 1 BYTE SGR Operating voltage BCD CODE 33264 L X X Lower 1 BYTE XX XO SGR Operating Time BCD CODE 33265 Higher BYTE 0X Lower BYTE selecting SGR Function BCD CODE 33266 OX Lower 1 BYTE RESERVED BCD CODE 38267 OX Higher 1 BYTE SOE ENABLE and TIMER status Information RELAY O tion EVENT INT 33281 BIT Operation ENABLE CB Status Change BIT Operation INT 33282 EVENT ENABLE Lower 1 BYTE 7 local on 6 local off 5 remote 4 remote off 5225500 1 on Input off Input ESE LE EVE B RESET CLEAR EVENT INT 33283 IT Operation
21. Press the touch switch button displays the frequency by 0 1HZ unit User Manual 4 2 Special function switch Enter the special function mode by pressing the Func switch If you press the Func switch again the standard mode comes In the special function mode the followed measuring switches display the new data as described below 1 V switch Oisplay the PT ratio setting value of the dip switch in the back plate 2 A switch Display the CT ratio setting value of the dip switch in the back plate 3 W switch Display the address setting value of the telecommunication unit If there is no communication just display lt 4 VAR switch Display the number of operation time of the CB which is connected to the CB ON input contact 5 WH switch the let through time hour unit of the CB which is connected to the CB ON input contact When the time is over 9999 hours it display the time by the bargraph on the 10000 hours unit 6 VARH switch Display all the measured data by the following sequence at few seconds intervals V A W VAR WH VARH F PF 7 switch Oisplay the wire connection type of the measured equipment 8 PF switch Display the average power factor which was calculated by use of value of the WH amp VARH 4 8 Etc 1 Clear switch he clear switch in the backplate reset the WH amp VARH value to 0 he users should press the reset button when you first install the system
22. Pressing Key oetting an appropriate value with Pressing Key to store t 0 05 TO Move to setting menu for operating time Setting an appropriate value Setting an operating time for OCGR t 0 05 0 05 1 00 0 01step A Refer to 6 2 3 Pressing Key to store Storing the time set 16 OCGR To Move to setting menu for Cv 51 Time Characteristic Curve Selecting an T C Curve for OCGR Definite Time D2 4 8 Inverse Time SI VI EI LI SI Storing curve selected Cv selected curve User Manual Pressing Key setting an appropriate value OCGR with Pressing E Key to store MD selected mode STIS Key Ov 1 10 To Move to setting menu for a overvoltage value Setting an appropriate value Ov 1 10 setting a value of overvoltage with or 1 10 1 50 0 02step Pressing Key to store Ov set value Storing the value set To Move to setting menu for operating mode Selecting an operating mode for OCGR TP amp Alarm AL Alarm XX no operation Storing the mode selected Pressing Key 0 05 TO Move to setting menu for operating time setting an appropriate value MEM t 0 05 oetting an operating time for OVR with 0 05 1 10 0 0 1step Pressing Key to store Storing the time set To Move to setting menu for Pressin Ke Setting an appropriate value with selecting an operati
23. SOE GIPAM Device ID is GIPAM 115N 82 SOE GIPAM GIPAM 115S 83 GIPAM 115N does not respond to requesting data which is related to SOE function or responds Message 11 1 1 Status Data of GIPAM SOE GIPAM Requesting status information Status Data Device ID 82h or 83h onn E E E Data Check Sum Check Sum 1 Remote 0 Local Clear Command Code Checksum 1Byte Command 1Byte Device ID 1Byte Data 6Byte 256 The residual Checksum is the sum of each bytes to include OVERFLOW Clear Command Code 0101 V0 Max Clear 0110 All Clear 0111 Clear Nothing 1XXX 31 GMPC ll User Manual 1 off on gt Status bit 1 0n 0 off gt ON out OFF out Status r Time Delay Characteristic of OCR Phase 1 gt gt Instantaneous Characteristic of OCR Phase Va Time Delay Characteristic of OVGR Va Instantaneous Characteristic of Sys Internal Error of SOE 1 ON Data exists in SOE Buffer at present 11 1 2 CURRENT Requesting Current Information Command 11h Current Data MSB Byte 3 Byte 2 R Phase Current Byte 1 LSB Byte 0 MSB Byte 3 Byte 2 5 Phase Current Byte 1 LSB Byte 0 MSB Byte 3 Byte 2 T Phase Current Byte 1 LSB Byte 0 Data Check Sum Check Sum The representation follo
24. Watt hour Information Frequency amp Watt hour Data Command lt 3 Blei w 80 ASB ye0 0 MSB 3 Active Power 0 MSB Byte3 00 Byte 2 Reactive Power Byte 1 LSB Byte 0 Data Check Sum Check Sum The representation follows IEEE Standards 4 Byte Floatino Point Number Checksum 1 Byte Command 1Byte Data 12Byte 256 The residual Checksum is the sum of each bytes not to Include OVERFLOW 34 GMPC ll User Manual 11 1 6 Phase Voltage Requesting Phase Voltage Information Phase Voltage Data Sub Command EU Ob __ 05h MSB Byte 3 R Phase Voltage R N Byte 1 LSB Byte 0 MSB Byte 3 Byte 2 5 Phase Voltage S N Byte 1 LSB Byte 0 MSB Byte 3 T Phase Voltage T N Byte 1 LSB Byte 0 Data Check Sum Check Sum The representation follows IEEE Standards 4 Byte Floating Point Number This is available only if 3PAW is set Checksum 1 Byte Command 1Byte Data 12Byte 256 The residual Checksum is the sum of each bytes not to include OVERFLOW 11 1 7 Zero Phase Voltage Requesting Zero Phase Voltage Information Command Zero Phase Voltage Data Sub Command 4 2 _ MSB pM 3 2 2 1 35 GMPC ll User Manual 2 LSB Byte 0 MSB Byte 3 Byte 2 Byte 1 LSB Byte 0 Data C
25. of the circuit breaker which is connected to CB ON input contact 6 FUNC PF It displays all the measured data by the following sequence in roWWV gt gt W gt VAR gt WH gt VARH gt F Voltage Current every phases have been measured 7 FUNC Wh It displays the let through time Hour unit of the CB which is connected to the CB ON input contact When the time is over 9999hours it displays the time by the bargraph on the 10000 hours unit 8 FUNC VARH It displays Vo with 1 and Vo max with N2 6 1 4 CB operation and local or remote control 1 LOCAL It is the key for the local operation If press this button local output contact will be on and it makes possible to operate C B on or off by pressing the keys on the front 2 Remote It is the key for the remote control If press this button remote output contact will be on and it can be possible to operate C B on or off by telecommunication at host computer 3 CB ON OFF If press the ON OFF switch output contact will be conducted during from 0 5 to 0 6 seconds It makes operate CB ON OFF Operation when local operation switch is selected 6 1 5 Others 1 Clear switch The clear switch in the back plate reset the WH amp VARH value to 0 The users should press the reset button when you first install the system 2 CPU Reset button The CPU reset switch in the back plate clear all the data in the CPU When you found the operations of
26. scale marks from to Using these two knobs it is possible to set 255 Address Numbers from 01 up to FF For example if 0 is set on first left knob and 1 is set on second nght knob then Communication Address of this Device becomes 01 7 4 Check the Configuration of device See 6 1 3 Special Function It is possible to check out the configuration data with using FUNC Key among the Measurement Keys on the front When the LED of FUNC Key is on you can easily check out the data by pressing V A F or W Key 1 PT Ratio Pressing V key when the LED of Key is on PT Ratio is displayed on the LCD 2 CT Ratio Pressing A key when the LED of FUNC Key is on CT Ratio is displayed on the LCD 3 Wiring Pressing F key when LED of the Key is on Wiring is displayed on the LCD 4 Communication Address Pressing key when LED of FUNC Key is on Address Number is displayed on the LCD 7 5 The Connection with the main line It differs with applied wiring systems and is connected as follows 1 Sigle Phase Two Wire System A B Terminal Block PT Fuse Bo9 VR B10 VR BO1 IR BO2 IR CTT 30 User Manual 2 Sigle Phase Three Wire System R N T Terminal Block B10 12 14 Com 3 Three Phase Three Wire System with 2 CTs 5 Terminal Block eee BO9 VR B10 12 14 Com E CTT User Manual 4 Three Pha
27. the equipment is unusual you can press and restart 3 COMM LED During the communication with monitoring computer it is go on and off 11 User Manual 6 1 6 Display for the system error Error code will be displayed in case of it is out of order Error code 15 displayed as followings Error 0 PT ratio setting is wrong Error 1 CT ratio setting is wrong Error 2 Detect voltage error of analog circuit and input circuit Error 3 Detect internal telecommunication error Error 4 Detect CPU abnormal operation 6 2 Protection part 6 2 1 Initialization setting 1 DIP switch setting Set up a use frequency and an assigned function of relay 2 Calibration of input amount of energy Please do not adjust a calibration mode temporarily If there are necessity of adjustment please refer to appendix 6 2 2 Operation 1 Display of operating status After power is on DOT matrix and LCD part will be tumed on during 1 second If displayed Run it means normal operating status t displays system error and fault of relay Function of each key SET RUN Changing the normal mode to the setting mode or vise versa CHAR It is an effective key at setting mode and makes possible to move among the setting menu of each really facts V It is effective key at setting mode and it makes possible to decrease set data A It is effective key at setting mode and it makes possible to i
28. 0V 0 1 110 18200 110V O Gt 1 18800 110V 10 O O 22000 1 22800 110 1 0 110 8900 110V 10 11 1 66000 11V 1 1 O0 O 1P2W Connection Connection 101 3 Connection 1 0 Bit setting Dip S W 2 RARE ti L 15 4515 551 4 60 54 76 5 80 5 100 5 1 0 1 0 1 o 10 11 9 T After installation Back up s borat Impossible 0 User Manual 5 2 Wiring Input Output P1 input 3 x C10 CB OFF C11 O31 gt Output m contacts 0 I CT Severe fault jo O21 Local O O22 Remote SGR tfh 160 E UVR Y E I61 B O OH 150 m on Input I 151 contacts 140 ccon O 130 BE over Q s 131 0 120 coon 5 M RX1 4 110 m
29. 2 CPU Reset button The CPU reset switch in the backplate clear all the data in the CPU When you found the operations of the equipment is unusual you can press and restart 3 Fault Reset Switch The alarm relays open when press Reset switch located in front of equipment The fault LED turns off when remove the causes of the fault User Manual Input contact 1 Input contact 2 Display LED 1 Display LED 2 Fault output 5 Installation and operation 1 Set the followings DCT PT ratio by use of the DIP switch in the rear part of the equipment 2Mis operation display mode Wiring connection type 4 Communication address optional 2 Apply the control power 3 Turn on the DIP Switch 2 Bitl Battery Back up use and press the Clear switch to initialize the Wh Varh value When you first use the equipment you should reset the Wh Varh value and after that the value is stored and maintained by the backup power 5 1 Set the ratio User Manual According to the CT PT ratio you can set the Dip switch by referring the following table The WH VARH Pulse output is decided by the ratio of the CT PT ratio setting ees fafs 220 0 1 0 440 3300 0 1 0 0 6600 1100V 0 1 O 1 100 11
30. 2 are used 12 2 3 FLOATING POINT It consists of two registers and is type of IEEE 32 Bit Floating Point Number Its name is REGISTER_NAME Example 30001 30001and 30002are used 12 2 4 BIT IN REGISTER Following Examples are applied Example 30001 1 MSB MOST SIGNIFICANT of INPUT REGISTER Example 30008 16 LSB LEAST SIGNIFICANT INPUT REGISTER x Two of the most significant bytes and the list significant bytes in float pointing data 49 User Manual are swapped and transmitted on GMPC III MODBUS communication For example when GMPC Ill receives the data which is a type of Floating point as below from other devices such as GIMAC 1 GIPAM and so forth 01 02h O3h 040 It transmits the data changed as follow to the master station 03h 04h O1h 021 12 3 USABLE ADDRESS RANGE each Device GIMAC II 40001 43341 ETT 41501 4164 GIMAX III 42001 42025 12 4 Usable MODBUS OPCODE 06h HOLDIG REGISTER u RTU 12 5 ADDRESS Setting in each Device 12 5 1 DEVICE ID BYTE 30001 Lower 1 BYTE BIT Operation Fault Status Data INT 30002 Example 30002 8 50 GMPC ll User Manual 0 Heavy Fault Output Previous Status 1 Bit6 Light Fault Output Previous 87 Heavy Fault Output Current Status Status 9 Light Fault Output Current Status 2 Bitb OVGHR Fault Input Previous 10 Bits OVGR Fault Input Current S
31. 4 Server Setting Setting Server Server Settings D Protocol Timer Tick HetDDE being used Configuration File Directory D Program Files Factory Suite ServenMODBUS 2 Start automatically as Windows MT Service 1 Set data processing period in Server 2 I O server starts its operation automatically when Windows is initialized 64 GMPC ll User Manual 13 2 InTouch User Manual 13 2 1 Definition of Tag Definition of Tag Tagname Dictionary Main Details Alarms Details amp Alarms Members O Restore Uae lt lt Select gt gt Cancel Close Tagname 63 3 Lype Groupe tyster C Read only Read write Comment GIMAC AS LogData Log Events Retentive Value Retentive Parameters Initial Value 0 6 2 14748 008 EU 2 14748 009 Deadband 0 Min 2 14748e 009 14748 009 Conversion Eng Units Linear 7 Access Name III ltem 82001 Use as ltem Log Deadband 0 Square select old Tag Type the name of the Tag select type of the Tag Type initial value of the Tag Type Access Name of Tag 2 3 4 5 the comments of the Tag 9 FAS 6 7 8 Type Addres
32. 5 Fault occurred 2 KON Changing Local Remote Remote CB status ON OFF ON OFF Power ON CB SOE Remote Clear 1 0 CBON SOE Counter Buffer Data Check Sum Check Sum Output of CB status Local ON OFF Remote ON OFF is recorded only the moment that CB is closed but Inout of CB status Is recorded both moment closed and open represents that CB status has been changed when each bit is 1 Checksum 1 Byte Command 1Byte Sub Command 1Byte Device ID 1byte 38 GMPC ll User Manual Fault occurred time 4Byte Data 4Byte 256 The residual Checksum is the sum of each bytes not to include OVERFLOW 11 1 9 GIPAM Setting Data Requesting the set Data Command Measuring Part Setting OCR OCGR Setting Sub Command OVR UVR Setting OVGR SGR Setting SOE Data Setting a Requesting the Set Data of Measuring Part b Requesting the Set Data for OCR OCGR c Requesting the Set Data for OVR UVR d Requesting the Set Data for OVGR SGR e Requesting information of enabling SOE and status of Timer Command Sub Command Setting Data Measuring Part Setting OCR OCGR Setting Sub Command OVR UVR Setting OVGR SGR Setting SOE Dat
33. AC Sync Disable 1 Enable is sync 0 Sync Disable between GMPCs 1 Enable inet addr I NET Adaress for GMPC rs232 485 0 85 485 1 RS 232 baud num Transmission speed 2400 bps 4800 bps 9600 bps 14400 bps 19200 bps 28800 bps 38600 bps 38400 bps 56000 bps 57600 bps CO N O oO A C 9 5 2 WRITE_TIME_MASTER gt GMPC III OxFF 0x00 0x 0X42 0x02 ON OFF ECC Write_Time_Master Off On 25 GMPC ll User Manual PC lt GMPC III OxFF 0x00 0x 0X42 0x02 ON OFF ECC WRITE_TIME_MASTER OFF ON 9 5 3 WRITE _SYNC_ENABLE PC gt GMPC III OxFF 0x00 0x 0X42 0x03 ON OFF ECC WRITE_SYNC_ENABLE OFF ON PC lt GMPC III OxFF 0x00 0 0X42 0x03 ON OFF ECC WRITE_SYNC_ENABLE OFF ON 9 5 4 WRITE_INET_ADDRESS PC gt GMPC III OxFF 0x00 0x 0X42 0x04 inet_address ECC 0x03 WRITE_INET_ADDRESS inet addr I NET Address for GMPC PC lt GMPC III OxFF 0 00 0 OXA2 0 04 inet address ECC 0x03 WHRITE INET ADDRESS inet addr I NET Address for GMPC 26 GMPC ll User Manual 10 GIMAC II Protocol 10 1 Data Request GIMAC 11 Requesting Status data Status of Input Output points Requesting Phase Current data IR IS IT Requesting Line Voltage data VRS VST VTR Requesting PF W Var qata PF W VAR Requesting F Wh Varh data FREQ WH VARH Requesting Phase Voltage
34. Check Key Function Key 10 Terminal Block 37Pin 11 CT Terminal Block 6Pin 12 Communication Unit 13 Protection Cover User Manual 2 2 System Diagram PT CB ON O CB OFF O Input transducer Converter A D Severe fault Digital Output 1 Slight fault Local O OCR SGR UVR OVR OCGR OVGR Remote Q Input CB ON CB OFF Communi Power Input 1 cation Communication Port DC110V isis Ls 3 Specification 3 1 Metering 1 Input Input Voltage 10 132V AC20 264 Range Current 0 2 6A 2 Display 4 10 66000V Voltage AD AC 0 2 6000 A Current 4 LCD 0 9999 MW Watt V 4 LCD 0 9999 ar Watt hour 0 999999 MWh 6 LCD 0 999999 MVarh 3 LCD Lead Lag 0 100 96 3 LCD 45 0 65 0 Hz User Manual 3 Setting PT Ratio DIP switch 1 4BIT CT Ratio DIP switch 2 CLEAR Reset Watt hour CB on time CB operation Average power factor Data reset PI ratio Connetion Fault CT ratio Calibration Barrery on Back up switch 1 DIP switch 2 4 Specifications Less than OIVA Less than IVA 10 156 Control power Less than TOW Data Back up Min 3 years Lithium Battery V W Wh Operating Temperature Range 102556 storage Temperature Range cpu YO Humidity 8096 RH non
35. DATA range is incorrect 11 2 2 Command for controlling a point Checksum 1Byte Command 1Byte Sub Command 1Byte Data 0 9Byte 256 The residual Checksum is the sum of each bytes not to include OVERFLOW lt gt Control Point 02 Relay Fault Reset 03 Clear Wh 04 Clear varh 05 Clear All SOE Data 06 Clear CB ON Counter 07 Clear CB ON Time 08 Clear VO Max 09 Clear All Backup Data 11 2 8 Command for setting SOE event Not requiring ACK Signal Requiring ACK Signal SubCommand Fault 1 Fault 2 45 User Manual 15 Data i Va Fault 1 T E e e E Sys ins a anote r CB rA Relay a CB ON SOE 0 between the brackets is a default 11 3 Command for controlling CB on off To control CB on off on remote it transmits the command for selecting control point and for operating control point sequentially 11 3 1 SBO Select Before Operate It applies to command for CB Open Close lt Transmitting the command for selecting control point to GIPAM gt GIPAM replies with ACK Signal gt Transmitting the command for operating the point selected before time s up gt QIPAM replies with ACK Signal as well as outputs the control signal 11 3 2 Reacting to other command after receiving the command for selecting control point lt Disregarding a command to control other CB lt
36. DISPLAY The front window displays address of GMPC Pressing the gt SEL key once it is changed from Display Mode to Setting Mode and the value on the display window goes on and off To increase this value press the Bu Reaching the value you wish to change press m to store it and then the window is changed into Display Mode automatically If you press the V MENU key while changing the values on the setting menu all the values that has been changed are canceled it is changed into Display Mode To move to the next menu on Display Mode press the MENU 8 2 8 Selecting a Protocol Either MODBUS or l Net protocol is selected in this menu by means of the one adopted on the SCADA system To move to the menu selecting a protocol press MENU key And each time pressing the SEL key it displays GPMC or MODBUS on the window one by one To store the one selected between GMPC and MODBUS press the ENT key If you press the MENU key while changing values on the setting menu the values that has been changed are canceled and it is changed into Display Mode To move to the next menu on Display Mode press the MENU 8 2 9 RS 232 5 485 DISPLAY Either RS 232 or RS 485 selected in this menu for serial communication with the SCADA system GMPC ll User Manual Pressing the SEL key once it is changed from Display Mode to Setting Mode
37. E 6 BYTE 96 0x100 Note Status of bit 0 5 10 2 2 Measuring Data COMMONS Be ae 6 7 8 9 byte 10 11 12 13 byte 14 Remarks CODE R Phase S Phase Current lr Current Is Line Voltage Line Voltage Line Voltage between 5 between 5 and between T and Phase Vrs T Phase Vst Phase Vtr Frequency Wh H Phase o Phase Phase Voltage Vrn Voltage Vsn Voltage Vtn Checksum 1 BYTE 13 BYTE 0x100 Power Watt Reactive Note This data is transmitted from LSB to MSB one after another Representation of FLOATING POINT BIT 30 23 SIGN The representation follows IEEE 754 available to read by High Level Programming Language such as or FORTRAN if 4 bytes of data 15 stored Into FLOATING POINT Variable 28 GMPC ll User Manual Ex C Program gt char RxBuffer 16 float IR IS IT int for I 0 1 lt 4 1 char amp IR char amp IS I 5 char amp IT I RxBuffer l 9 10 3 Control Command COMMAND 1 BYTE SUBCOMMAND 1 BYTE CHECKSUM 1 BYTE COMMAND 0x20 SUBCOMMAND See the table below xxx CHECKSUM COMMAND SUBCOMMAND 96 0x100 42h WH VARH RESET 43h FAULT RESET 44h RESET the Number of times of CB operation 45h RESET accumulated time when CB is on 10 4 Contro
38. ENABLE Lower 1 BYTE 7 relay setting CB ON counter 6 fault reset SOE buffer 5 Vo max varh 4 CB ON time gt wh GIPAM Internal TIMER INT 33284 Calibration DEVICE Name and STRING 33301 Example 33301 33306 M 58 GMPC ll User Manual Example To send Query for reading SBO ARM TIME to SOE GIPAM with station address number 1 QUERY 01 04 OC F8 00 01 B3 6B CLEAR WH Control Command No ACK Fu T em Cunan soe onra oono connate ACO Con commenti ax 0 LINE Le nnt CLEAR ALL BACKUP 3181 Controle d No ACK Command No RELAY FAULT RESET Control Command With ACk CLEAR ALL SOE DATA Control Command With ACk w ALL BACKUP d With ACK ontroi comman CB ON OFF Select Select 48941 Example To send CB ON SBO command to SOE GIPAM with station address number 1 1 Step Send CB ON Select Command 01 06 0D 60 96 274 Step After receiving ACK response Send CB ON Operate Command 01 06 OD 20 69 23 72 Example To send CB OFF SBO command to SOE GIPAM with station address number 1 1 Step Send CB OFF Select Command 01 06 00 0C 61 69 2 DB 274 Step After receiving ACK response Send OFF Operate Command 01 06 0D 20 9E 96 62 A2 59 GMPC ll User Manual CB SBO CANCEL 222 43341 E
39. ST frame is received A2 The Host system transmits TIME ADJUST frame to GMPC And this frame includes the starting point that TIME ADJUST frame is transmitted and the time data A1 A2 which has already been stored RTC Real Time Clock inside of GMPC is calibrated by using the time data A1 A2 which have been received and B1 B2 stored in GMPC ADJ A B22 B1 2 T NEW T OLD ADJ 22 GMPC ll User Manual If there is an error on the data that GMPC received GMPC requests restarting SYNC SEQUENCE via transmitting REQUEST RESTART SYNC frame to the Host system oince the Host system receives REQUEST RESTART SYNC frame from it restarts SYNC SEQUENCE as requested If there is an error on the data that the Host system received the Host system restarts SYNC SEQUENCE via transmitting SYNC SYNC frame to GMPC OI ART PRECI SYNC GMPC III 0 00 0x 0x21 0 01 DATA 0 START PRECI SYNC REQUEST ADJUST lt GMPC III 0x00 0x 0x21 0x01 ECC DATA 0 REQUEST ADJUST TIME ADJUST OxFF 0x00 0x Ox2C 0x02 year mon day A2 4 A1 4 ECC gt GMPC III 0x02 lime Adjust Inputting the last two digits of year as binary Inputting the value of month as binary Inputting the value of date as binary Inputting the value of millisecond Long Word 4 Byte Inputting the value of millisecon
40. Ve DIST VE 27 10 2 Data Transmission GIMAC gt E siete miele sere 27 10 3 Control Command I PEE 20 10 4 Control Command Ve qe iri pe uw ww Qa Gens a CR dob pr 29 GIPAM Protocol Tt ee er Tt ere Tee Cer ri rr ree eee ee eee 31 11 1 Data communication of GIPAM SOE GIPAM GR PR TERT CET Teer TCT VEO wawa ee CCRT TST RT CTE SET eee Tee aa eee ery ae 31 11 2 Control Command eh Weed abi TS ed sw 44 11 3 Command for controlling CB on off 46 Modbus 49 12 1 Setting of MODBUS TOPIC ORA I MQU CRETE TO TPCT CONCERT TES ERT ToC TR AOL OE ree 49 12 2 ITEM POINT NAME 49 12 3 USABLE ADDRESS RANGE in each Device 50 12 4 Usable MODBUS OPCODE 50 12 5 ADDRESS Setting in each Device assia e viele rare ein laid FUSIUS a E RU b gt wile wares biel 50 SOE function 15 excluded when DEVICE ID 15 82 QUU vale oles aude o s
41. a Setting Setting Data 11 Byte Data Check Sum Check Sum 39 GMPC ll User Manual a Set Data of Measuring Part Command Number of CB operation Accumulated time that CB is closed 100msec Data Check Sum Check Sum Checksum 18yte Command 18yte Sub Command 1Byte Data 10Byte 256 gt The residual Checksum is the sum of each bytes not to Include OVERFLOW b OCR OCGR Setting Data Sub Command Time Delay char for OCR Instantaneous char for OCR OX Up to a decimal point Operating time for OCR XX Down to a decimal point Current value of XX Time Delay char for OCGR Current value of XX Instantaneous char for OCGR OX Up to a decimal point Operating time for OCR XX Down to a decimal point Selecting OCGR Function OX Data Check Sum Check Sum Each item is represented as BCD that has a decimal point 40 GMPC ll User Manual Checksum 1 Byte Command 18yte Sub Command 1 Byte Data 11Byte 256 gt The residual Checksum is the sum of each bytes not to include OVERFLOW Time Characteristic Curve for OCR OCGR _ tng verse Selecting the Relay operation OCGR Selecting the Relay Operation _ 0 c OVR UVR Setting Data 02h OX Up to a decimal point Operating Voltage for OVR Down to a decimal point XX Up to a decimal point Operating Time for OVR Down to a decimal point XX Down to a decimal
42. age Value LCD 0 eere Bargraph 0 to 120 IN Average Value LCD 0 9999 MVars 2 096 Bargraph to E Energy 2 0 Power Factor Lead LagO 10000 2 0 Frequency Hz Average Value 45 65H2 05 3 UT Contact MENU Contents Input CB ON DC110 V Connected Voltage and Current to origin of signal CB OFF DC110V 5mA Max sae Resitance Load AC250V 10A OVR DC 30V 10A 5 1 0 UVR OVR n Induction Load AC250V 7 5A SGR DC 30V 5A Alarm 5 0 4 L R ms System Error CB ON Switching Capacity 2 500VA 300W CB OFF REM LOC I I I I Zero Voltage User Manual 4 Displaying a status of Circuit Breaker and operation LED Lamp Name CB On Red LED lamp will be on when breaker is on position CB Off Green LED lamp will be on when breaker is Off position Local Yellow When operator select local control LED lamp will be tumed on Remote Yellow When operator select remote control LED lamp will be tumed on Power Red LED lamp will be on during the system 15 operated Comm Red LED lamp blinks when GIPAM is communicated with host Func Red When operator select special function mode LED lamp will be tumed on 5 Setting a metering part Setting object CT Ratio DIP Switch 1 5bit Metamorphosis Ratio PT Ratio DIP Switch 2 4bit CPU Reset Reset all da
43. and the value on the display window goes on and off And each time pressing the gt SEL key it displays RS 232 or 5 485 the window To store the one selected between RS 232 and RS 485 press ENT Key If you press the MENU key while changing values the setting menu the values that has been changed are canceled and it is changed into Display Mode To move to the next menu on Display Mode press the MENU key 8 2 10 Parity Bit Setting Parity is set this menu To move to the menu setting parity press And each time pressing the gt SEL key it displays odd or even window To store the one selected among them press the If you press V MENU key while changing the values the setting menu all the values that has been changed are canceled it is changed into Display Mode To move to the next menu on Display Mode press the MENU 8 2 11 BAUD RATE DISPLAY The front window displays speed for serial communication Pressing the SEL key once it is changed from Display Mode to Setting Mode and the value on the display window goes on and off To increase this value press the Bu Reaching the value you wish to change press m ENT key to store it and then the window is changed into Display Mode automatically If you press the V MENU key while changing the
44. ces 5 9 oynchronization 5 3 1 Synchronizing between GMPC and the remote control system GMPC which is set as Time Master receives information about time from the remote control system and set the timer built in for the time data received For synchronization it is capable to use 1151 1 ms unit one For more detailed information refer to section 7 4 Synchronization mode 5 3 2 Synchronizing between the GMPOs By means of broadcasting time data which is stored on the inside timer of Time master GMPC synchronization is carried out among the slaves ones All of the slave GMPCs not selected as the Time Master receive time data from the Time Master one and synchronize their own timer built in The accuracy of synchronization is within 0 5ms when all of the GMPCs are connected directly There is a separated serial port RS 485 connection on the GMPC for this synchronization 5 3 3 Synchronizing communication GMPC broadcasts the stored information about time via serial port frequently so that it is possible to keep synchronizing all the devices connected on Il Net network For more information about data frame for synchronization via I Net communication refer to Chapter 9 GMPC ll User Manual 5 4 Displays and Settings 1 GMPC is able to display the items in the table as below 5232 RS485 RS232 RS485 Communication Speed 2400 5 600 bps 5 4 1 It is capable to monitor th
45. condencing Insulation voltage AC 2kV 1 5kV 1min Insulation resistance DC 500V 10 M9 User Manual 4 Operational functions 4 1 Display GIMAC II display the measuring the data by pressing the button in the lower part of the front surface of the GIMAC II first and then selecting the data you want 1 Voltage 2wire displays the data by Voltage unit 3wires Displays the voltage by Vtn gt sequence at each time you press the touch switch button 3wires Displays the voltage by Vrs Vst sequence at each time you press the touch switch button phase 4wires Displays the voltage by Vsn Vrs Vst Vtr sequence at each time you press the touch switch button 2 Current 2wires displays the data by Ampere unit 3wires Displays the voltage by Ir gt In Mt sequence at each time you press the touch switch button 3phase 4wires Displays the voltage by Ir gt 15 L sequence at each time you press the touch switch button 3 POWER Press the touch switch button W displays the power W and the VAR button displays the power VAR 4 WATT HOWER Press the touch switch button displays the WH and the VARH button displays the VARH 5 Power factor Press the touch switch button PF displays the power factor by unit 6 Frequency
46. d Long Word 4 Byte END PRECI SYNC PC GMPC III 0x00 0x 0x21 0x02 ECC END PRECI SYNC 23 GMPC ll User Manual 9 5 Internal Setting PROTOCOL P1 P2 DEST F DATA 0 DATA n ECC It is used for monitoring status of GMPC or changing the setting information And FN in the data frame for transmission is 10 at this point The data in DEST is disregarded The data frame that GMPC has received is discarded when there is ECC error on it The data frame that GMPC has received is recognized as abnormal response E bit 1 when there is an error in value on it The internal setting PROTOCOL is as follow Host System GMPC III READ_STATUS etc Normal Response ERROR 9 5 1 READ_STATUS PG OMP OxFF 0x00 0x 0X41 0x01 ECC OxFF 0x00 4 0 01 year mon day hour PC lt GMPC III min sec err t m sync_en is_sync inet_addr rs232 485 baud_num ECC 24 GMPC ll User Manual Read Status The value of year that GMPC displays at present The value of month that GMPC displays at present The value of day that GMPC displays at present The value of hour that GMPC displays at present The value of minute that GMPC displays at present The value of second that GMPC displays at present err Error check on GMPC 0 No Error 1 Error t m 0 Non Time Master 1 Time Master sync en 0 GIM
47. d it is changed into Display Mode To move to the next menu on Display Mode press the MI MENU 8 2 5 TIME MASTER DISPLAY The front window displays whether it is selected as Time Master or not Pressing the SEL key once it is changed from Display Mode to Setting Mode and the value on the display window goes on and off And each time pressing the gt SEL key it goes On to or vise versa To store the status selected between On and Off press the 4 ENT Key If you press the MENU key while changing the values on the setting menu all the values that has been changed are canceled and it is changed into Display Mode To move to the next menu on Display Mode press the MENU 8 2 6 SYNC BROADCAST DISPLAY The front window displays whether it broadcasts time synchronous data to the connected devices using communication or not Pressing the SEL key once is changed from Display Mode to Setting Mode and the value on the display window goes on and off And each time pressing the SEL key it goes On to or vise versa GMPC ll User Manual To store the status selected between On and Off press the E ENT Key If you press the MENU key while changing values on the setting menu the values that has been changed are canceled and it is changed into Display Mode To move to the next menu on Display Mode press the MENU 8 2 7 ADDRESS
48. data 3PAW VRN VSN VTN 10 2 Data Transmission GIMAC gt PC 10 2 1 SIATUS Data BYTE em em em im EX 81h FFh FFh 17h 1 byte 00h gt requested COMMAND CODE requesting STATUS Data 274 byte 81h gt DEVICE ID signifying with function 3 byte Status of fault at present Latch Signal MSB a o 1 USB BITZ Heavy Fault Output BIT6 Light Fault Output BITS Heavy Fault input for OVGR BIT4 Heavy Fault input for Heavy Fault input for OVR BIT2 Heavy Fault input for UVR BIT 1 Heavy Fault input for SGR BITO Heavy Fault input for OCR d 4 byte FF gt Status of fault input at present MSB BIT Heavy Fault Output BIT6 Light Fault Output BIT5 Heavy Fault input for OVGR BIT4 Heavy Fault input for OCGR BITS Heavy Fault input for OVR BIT2 Heavy Fault input for UVR BIT1 Heavy Fault input for SGR BITO Heavy Fault input for OCR e 5 byte 17 gt Status of CB 27 User Manual MSB 0 0 0 1 0 1 T 158 BIT 6 5 Null 4 CB ON Output BIT 3 CB OFF Output BIT 2 0 LOCAL 1 REMOTE 4 CB ON Input BIT O OFF Input f 6 byte OF gt Status of RESET 5 0 0 0 0 4 1 1 1 LSB BIT 4 Null BIT3 REMOTE FAULT RESET BIT2 LOCAL FAULT RESET BIT 1 REMOTE WH RESET BITO LOCAL WH RESET 77 byte BYT
49. dii iude c 13 1 Presentation User Manual GIMAC II is multi functional measuring amp control equipment adopt and intensify the electronic technology to the High voltage and medium voltage switchgear 1 Compact and multi functional measuring equipment Measure the following electronic data only by the GIMAC Il aphase voltage 3phase current Watt Var Watt hour Var hour power factor frequency 2 Intensify the circuit breaker control circuit to one body Make the switchgear into compact size by intensify the circuit breaker control switch and on off switch to one body 3 Easy to modify the specification If there is modifications in the main circuit specifications the GIMAC II correspond it by resetting the phase and line types in the electrical system by use of the dip switch 4 Various display functions by Adopting the custom LCD 6digit 60seg both digital type display and analog bar graph type display are available 5 Safety protection by the anti mis operating covers Protect the circuit breaker operation by a careless mistake 2 Features amp system diagram 2 1 Features ea 9 1 LCD Display 2 Display Select Key 3 Local Key 4 Remote Key 6 7 8 9 ON Key CB OFF Key Fault Reset Key System
50. e items the following table on the Remote Control Center via GMPC GMPC ll User Manual 5 4 2 It is capable to set the following items in the table via the front panel of the GMPC Communication Speed of RS232 485 standards 8 Data Bits No Parity 1 Stop Bit 5 4 3 It is capable to set the following items in the table via the Remote Control Center oetting Parameters oetting Range The Present Time Year Month Oay Min Sec oelecting a TIME MASTER Selecting Remove SYNC BROADCAST Selecting Remove I NET ADDRESS 0x00 0XFF GMPC ll User Manual 6 Expression Of Time Data 6 1 Expressing Data of the timer built in 6 1 1 Time SYNC Frame for Time synchronization on Network A time information is displayed 32bits time data in the form of O h 0 m 0 000 s and it is reset once a day The form of Sync Frame is as below Time Byte 3 MSB Time Byte 2 Time Byte 1 Time Byte O LSB 6 1 2 Time SYNC Frame for synchronizing between the GMPCs Being defined separately 6 1 3 Time SYNC Data from the computer of remote control system If the computer system is selected as a Time master it provides synchronizing with the GMPC by means of Time SYNC Protocol which is defined separately If one of the GMPC is selected as a Time Master computer system provides time data for GMPC and the GMPC makes inside timer be synchronized with the time data from the computer syst
51. e provided t makes high reliance of protection by adopting technology of digitail filter applied 16bit processor 2 Self Diagnosis Function GIPAM detects an error of CPU operation or circuit of signal input immediately and it indicates caution and reason of error It also has a data transmission function 3 An outstanding flexibility GIPAM corresponds suitably to a change of PT ratio CT ratio and wirings through setting DIP Switches 4 Fault amp Event Recording 255 Faults and Events can be recorded a 10ms aberration Itis available to analyze an error of system and a daily or monthly record User Manual 3 Main Features 1 High accuracy measuring function 3 Phases Voltage Current Power Active Watt Reactive Vars Energy Active Wh Reactive Varh Power Factor Frequency Zero Phase Voltage Vo 2 Multi Functional Relays OCR Overcurrent relay OCGR Overcurrent ground relay UVR Under voltage relay OVR Over voltage relay OVGR Over voltage ground relay SGR Sensitive ground relay 3 Indication Function Indicates the status of protection relay and circuit breaker on front LED Displaying status via digital LCD and analog bar graph to offer better visual effect to customer Error message is indicated on front DOT Matnx LED when error occurs 4 Communication Function All data and information can be transferred to a host computer up to 255 sets of GIPAM with hi
52. el 86 20 8755 3410 e Fax 86 20 8755 3408 e e mail 191592 public1 guangzhou gd cn Industrial Systems New Jersey Office USA e Address 1000 Sylvan Avenue Englewood Cliffs New Jersey 07632 USA Tel 1 201 816 2985 Fax 1 201 816 2343 Specifications in this catalog are subject to change without notice due to younsupi lgisusa som continuous product development and improvement Industrial Systems Tokyo Office Japan e Address 16F Higashi Kan Akasaka Twin Towers 17 22 2 chome Akasaka Minato ku Tokyo 107 0052 Japan Tel 81 3 3582 9128 Fax 81 3 3582 0065 e mail snbaek Igis com User Manual 2003 01 2003 10 Printed in Korea STAFF
53. em However the timer built in the GMPC is possible not to be tuned by the milli second unit but by the second unit That is time data from the computer system is used for synchronizing by the second unit but it has not influence on synchronization for all over the computer system 7 Environmental Characteristic Control Power 110V 220 20 50 60 2 Operating Temperature 10C 50 C Operating Humidity 90 RH Non Condencing Insulation Voltage AC 2kV for 1 minute 11 GMPC ll User Manual 8 Installation 8 1 The first installation 8 1 1 Connecting to the power GMPC has two different type which means the RACK Type and the UNIT type and both of them are supplied AC110 220V Free Voltage as a control power The power cable has to be connected to the plug at the rear of the device The rated voltage and current of the fuse which is inside of the Fuse Holder on the rear of the Unit Type should be checked if it is 220V and 2A It has to be checked that the power switch is turned on 8 1 2 The connection of a communications line GMPC has communication ports for transmitting data to the Host System which means the computer of the Remote Control amp Monitoring system and it can be selected either RS 232 or 5 485 The port that is above mentioned is plugged into the connecter 9 PIN D SUB MALE TYPE on the rear 5 232 makes use of DTE connection and the rear view is as below Z RS
54. ement value of each phase gt TN gt RT RS gt ST gt RT gt SN gt gt RS gt ST gt 3 Power Active power is displayed with W unit by pushing touch switch W and reactive power will be displayed with Var by pushing touch switch Var 4 Energy Active energy is displayed with unit by pushing touch switch Wh and reactive energy will be displayed with unit pushing touch switch 5 Power Factor Power factor is displayed by pushing touch switch PF with unit and also displayed LEAD or LAG 6 Frequency Frequency 15 displayed by pushing touch switch F with Hz unit and it displays the first decimal place 6 1 3 Special Function Pushing the FUNC Switch it is transferred to special function mode and the switch lamp is tumed on It shows special function mode continuously during the switch lamp of FUNC Switch is on If operator pushes the FUNC Switch again it will return to Standard mode If it is changed to special mode measuring switch function will be changed and it displays as followings 1 FUNCV It displays PT ratio setting value of DIP Switch 2 It displays CT ratio setting value of DIP Switch 3 It displays wiring type 10 User Manual 4 FUNCHMW It displays a settled own address at telecommunication part of main board 5 It displays the number of operation time
55. etting SOE Event 11 3 4 1 Setting Time out data l Not requiring ACK Signal Requiring ACK Signal Command 23n 2Bn h SubCommand 11 Time out High Byte Data Time out Low Byte lt Time out data is displayed in 10ms and the length 1 16 bits lt gt Default value of Time out 5 seconds 1 has to be set over than 1 second 11 3 4 2 Reading Time out data Added to the Data for setting GIPAM Requiring Timeout Data Command Timeout Data Command ODh Data Check Sum Check Sum Checksum 1Byte Command 1Byte Sub Command 1 Data 0 9Byte 256 The residual Checksum is the sum of each bytes not to include OVERFLOW 48 GMPC ll User Manual 12 Modbus 12 1 Setting of MODBUS TOPIC All of the following examples are applied to WONDERWARE MODICON MODBUS 1 0 SERVER MAX COIL READ COUNT MAX COIL WRITE COUNT MAX REGISTER READ COUNT MAX REGISTAER WRITECOUNT CO CO 12 2 ITEM POINT NAME 12 2 1 SIGNED REGISTER It has a value of decimal 0 65535 range when WONDERWARE MODICON MODBUS SERVER is used It has name of REGISTER 5 when its data type is signed integer Example 3001 UNSIGNED REGISTER 0 65535 Example 3001 S SIGNED REGISTER 32 68 32761 12 2 2 LONG INTEGER It consists of two registers is type of 32BIT SIGNED INTEGER Its name is REGISTER Example 30001 L 30001 and 3000
56. gh speed 250kbps through internal communication module User Manual 4 External view and System structure 4 1 Extemal view and part name Protection function keys an displays Key Description 1 Reset key to reset fouli indications Dot matrix LED display Fault indication LEDs Set Run key Characteristic key Enter Decrement key Increment key LCD display Display selection key 4 2 System structure LPF Power input DC110V Communication module keys and displays 10 Ti Control keys Function key red LED Communication LED blinking on communicating Power LED red LED CB ON key red LED CB OFF key green LED Selection key for CB local operation yellow LED Selection key for CB remote operation yellow LED Clear key CPU reset key Control key protection cover OCR Frequency detection OVR UVR 7 OVGR SGR ALARM SYS ERROR REMOTE LOCAL CB ON CB OFF Communication port User Manual 5 Spacification 5 1 Metering 1 Input specification Wiring Type 1P2W 1P3W 3P3W 3P4W Input Range Voltage AC10 132V AC20 264V 0 2 6A 2 of metering result LCD AC10 154000 V Between Phases Bargraph 0 to eit Between phase and Neutral 5 0 120 Zero Phase Voltage Vo RMS Value 0 190 V Max Value back up Active Watt Aver
57. gt set value Storing the value set Pressing Key 558 To Move to setting menu for overcrrent of Instantaneous Setting an appropriate value setting an overcurrent value 222 for Instantaneous with or Ke 41 x 2 20 1step Pressing Key to store I gt gt set value Storing the value set Char Move to setting menu for Time Characteristic Curve OCR Setting an appropriate value Selecting an T C Curve for OCR Definite Time D2 4 8 ui Inverse Time SI VI EI LI Pressing Key to store Cv selected curve Storing the curve selected Pressing Key t 0 05 TO Move to setting menu for operating time Setting an appropriate value Setting an operating time for OCR 0 05 0 05 1 00 0 01step ney Refer to 6 2 3 storing the time set Pressing Key to store t set time The function of OCR is selectedas default 15 User Manual Pressing Key I gt 0 10 Move to setting menu for earth crrent of Time delay Setting an appropriate value Setting an earth current value I gt 0 10 for Time delay with Or Key 0 10 0 50 0 02step Pressino Key to store I gt set value Storino the value set os To Move to setting menu for Pressing Key I gt gt 0 50 earth crrent of Instantaneous Setting an appropriate value Setting an earth current value I gt gt 0 50 for Instantaneous mn dd 0 50 8 0 0 5step Pressing Key to store I 2 set value Storing the value set
58. gt x gt x gt gt lt 252 T 1 1 e xz aam Lee Leer OO DCD RxD TxD DTR TGND 10 20 30 40 50 eO 80 90 DSR RTS CTS 5 232 Connector GMPC ll User Manual 8 1 3 The Connection of I Net cable GMPC also has communication ports for I Net communicating with GIMAC and GIPAM and for wiring it is necessary to be used Multi drop network configuration with 4 wires as below TX 0 TX 1 RX 0 RX 1 UNIT 1 3 4 5 6 7 8 Connector DPR L RTU DPR u RTU n 8 1 4 The connection of auxiliary connectors GMPC has a function called S O E Sequence Of Event which means to synchronize among a number GMPCs In order to use this function all the terminals that each device has should be plugged in with two wires 13 GMPC ll User Manual 8 2 The first settings O 2 1 TEST When GMPC is supplied the power it carries out self test within 2 or seconds changed into ERROR DISPLAY Mode If there is not any errors on the device it turns over into TIME DISPLAY Mode 8 2 2 ERROR DISPLAY It can be only displayed one of the Error Codes on the front window when an error is on the device Error Code Error 1 An error while transmitting I Net Data Error 2 An error about time data Error 4 An error on Serial c
59. heck Sum Check Sum This is Supported only if OVGR enables The representation follows IEEE Standards 4 Byte Floating Point Number Checksum 1 Byte Command 1Byte Data 8Byte 256 The residual Checksum is the sum of each bytes not to include OVERFLOW 11 1 8 SOE Data GIPAM 115N does not respond to requesting data which is related to SOE function or responds Message Requesting SOE Data Some 5 Reg Bit Requesting Data Frame 1 Clear Bit Canceling one frame of the data Buffer at present a Requesting the data in Buffer b Canceling one frame of the data in Buffer c Requesting the next data after canceling the present data in buffer Command Sub Command SOE Data 0 Information of occurring Fault Information of setting Relays Information of CB status Clearing Data Sub Command 36 GMPC ll User Manual Device ID 83h Fault occurred Time 4 Byte msec Time Status Information 1 4 Byte Data Check Sum Check Sum Checksum Command 1Byte Sub Command 1Byte Device ID 1byte Fault occurred t time 4Byte Data 1 4Byte 256 The residual Checksum is the sum of each bytes not to include OVERFLOW SOE Event is classified and presented on the last bits of Sub Command The MSB Bit 7 of Sub Command is EOD which stands for End Of Data 0 The pre
60. l Command 10 4 1 Command of selecting control point COMMMAND 1BYTE SUBCOMMAND 1 BYTE Control CODE1 1 BYTE Control CODE2 1 BYTE CHECK SUMUBYTE COMMAND Ox2e SUBCOMMAND Control CODE1 Control CODE2 See the table below x CHECKSUM COMMAND SUBCOMMANO Control CODE1 Control CODE 2 96 0x100 29 GMPC ll User Manual Control CODE1 Control CODE2 Description oelecting CB OFF Cancel Selecting CB Control 10 4 2 Command of operating Control point COMMMAND 1 BYTE SUBCOMMAND 1 BYTE Control CODE1 1 BYTE Control CODE2 1 BYTE CHECK SUM 1 BYTE COMMAND SUBCOMMAND 0x55 Control CODE1 Control CODE2 See the table below CHECKSUM COMMAND SUBCOMMAND Control CODE1 Control CODE2 0 100 Control Control CODE2 Operating CB ON 10 5 ACK NAK Response for Control Command I 10 5 1 ACK It responds when the Control Command 1 1 is operated successfully Command Field of Control Command operated oubCommand Field of Control Command operated Checksum 0xa0 Command Field SubCommand Field 96 0x100 10 5 2 NAK Error Code 01 Abnormal Command 02 Not being operated at present 03 Abnormal Control Command 04 CB Control in Remote Bypassing in LOCAL MODE Checksum 0xa1 Command Field Error Code 9 0 100 30 GMPC ll User Manual 11 GIPAM Protocol 11 1 Data communication of GIPAM
61. lt a Dalian LG Industrial Systems Co Ltd China LG Industrial Systems e Address No 15 Liaohexi 3 Road economic and technical development zone Dalian China Tel 86 411 731 8210 86 411 730 7560 HEAD OFFICE e mail youngeel Igis com TT _ LG VINA Industrial Systems Co Ltd Vietnam LG TWIN TOWERS 20 Yoido dong Youngdungpo gu e Address LGIS VINA Congty che tao may dien Viet Hung Dong Anh Seoul 150 721 Korea Hanai Tel 84 4 882 0222 Fax 84 4 882 0220 Tel 82 2 3777 4640 4649 e e mail srjo hn vnn vn Fax 82 2 3777 4648 3 E LG Industrial Trading Shanghai Co Ltd China e Address Room1705 1707 17th Floor Xinda http www lgis com Commerical Building No 318 Xian Xia Road Shanahai e Tel 86 21 6252 4291 e Fax 86 21 6278 4372 e e mail hgseo lgis com Industrial Systems Beijing Office China e Address Room 303 North B D EAS 21 XIAO YUN ROAD Dong San Huan Bei Road Chao Yang District Beijing China UN Tel 86 10 6462 3259 4 e Fax 86 10 6462 3236 e mail sclim mx cei gov cn LG Industrial Systems Shanghai Office China e Address Room1705 1707 17th Floor Xinda Commerical Building No 318 Xian Xia Road Shanahai China e Tel 86 21 6278 4370 e Fax 86 21 6278 4301 e e mail sdhwang lgis com F LG Industrial Systems Guangzhou Office China e Address Room 303 3F Zheng Sheng Building No 5 6 Tian He Bei Road Guangzhou China e T
62. lude OVERFLOW 11 2 Control Command 11 2 1 Control Command eer one oto t Data 000000000000 9 000000000000 Data HE M Check Sum Sum Checksum 1Byte Command 1Byte Sub Command 1Byte Data 0 9Byte 256 The residual Checksum is the sum of each bytes not to include OVERFLOW 1 Reply Bit 3 lt It shows whether ACK response is requested by Control Command 517 Requesting ACK response O Not necessary Command ID Bit 2 lt It shows a type of Control Command e 000 Controlling a Point is a Command to control each point such as Controlling CB OPEN CLOSE Wh Reset etc Sub Command designates a point which wills to be controlled 011 Setting SOE Event The event is set as SOE Event Sub Command has to be 0x00 e 100 Setting the Remote The protection relay part of is set on the remote lt Sub Command designates a relay which wills to be set ACK NAK Response a ACK lt gt lt replies when the control command of which Reply Bit is set executed completely 44 GMPC ll User Manual Command AOh Sub Command Field of the control command executed Sub Command 2 Field of the control command executed Data Check Sum Check Sum b NAK Data Check Sum Check Sum lt Error Code 01 Wrong control command 02 Not being able to execute 03 Lack of Data 04
63. nals User Manual 3 Terminal Block Ground Terminal NI NI O CN Y NI NI x Ground Terminal 08 7 7 Extemal Dimension mm 6x08 35 User Manual 389 210 188 168 8 Communication 8 1 Communication Specific Senal communication with high speed and reliability using the custom LSI ASIC designed by LGIS 1 Transmision Speed 250kbps 2 Cable Lenth max 1000m 3 Insulation Pulse Transformer 4 5 6 7 Connection 4 wire Multi drop Signal Modulation Bipolar Communication Address 0 255 with Hexa Decimal Switch eer ole Communication Cable Low Capacitance LAN Interface Cable SPEC LIREV AMESB 22AWG 2 PAIR 1 0 643 Impeadance 10MHz 120101 Termination Use two terminating resistors 120Q at both ends of cable 36 User Manual 8 2 Sequence of Event Function Option If there is an occurrence of an event such as operating CB the event is recorded with the operated time 1ms unit in sequence so it can be easier to troubleshoot 1 Event Recording when the relays in GIPAM has been operated OCR OCGR OVR UVR SGR OVGR when the CB has been controlled when the status of the CB has been changed 2 Synchronization Function of synchroinsing among the devices through the communication network occurrence of an event is
64. ncrease set data ENT It is effective key at setting mode and it saves the corrected data RESET It is effective key at Normal mode When remove the cause of system error and fault it resets error indication 12 User Manual 2 Protection function setting Dot Matrix LED displays Run as normal state when control power is supplied to GIPAM Press Set Run key to move to setting mode to set following protection functions Function Setting mode Setting range Time delay pick up current 0 410 3 2 210 16 Instantaneous pick up current gt gt 21020 1010 100A O lIn case of lock SIL Operation curve types Cv Definite time delay D2 D4 D8 Inverse time delay SI VI El LI Operation tap 0 05 to 1 00 tap Time delay pick up current P 0 10 to 0 50 0 5 to 2 5A Instantaneous pick up current gt gt 0 50 to 8 0 2 510 40A O In case of lock OCGR Operation curve types Cv Definite time delay D2 D4 D8 Inverse time delay SI VI EI LI Operation tap 0 05 to 1 00 tap Operation mode MD XX AL TP Operation voltage Ov 11010 1 50 121 to 165 OVR Operation time t 0 05 0 1 to 10 sec Operation mode MD XX AL TP Operation voltage Uv 0 50 to 0 90 55 to 99V UVR Operation time t 0 03 0 1 TO 10 0 sec Operation mode MD XX AL TP TA Auto reset Time delay pick up voltage V
65. ng mode for amp Alarm AL Alarm XX no operation Pressing Key to store MD selected mode Storing the mode selected 17 User Manual Pressing Key Uv 0 50 To Move to setting menu for a undervoltage value setting an appropriate value Uy 0 50 setting a value of undervoltage with or N 0 50 0 90 0 02step Pressing Key to store Uv set value Storing the value set TO Move to setting menu for Char t 0 03 setting an appropriate value t 0 03 Setting an operating time for UVR with or 0 03 0 1 10 0 0 1step Pressing Key to store Storing the time set Pressing Key WD TP To Move to setting menu for operating mode Setting an appropriate value Selecting an operating mode for UVR with Ke MD TP TP Trip amp Alarm AL Alarm operation TA Auto Reset Pressing Key to store MD selected curve Storing the mode selected setting an appropriate value Setting a zero phase sequence th K V gt 0 10 voltage value for Time delay 0 10 0 40 0 02step Pressing Key to store V gt set value Storing the value set 18 To Move to setting menu for Pressing Char Key 0 10 zero phase sequence voltage value of Time delay OVGR User Manual operating switches Pressing Key setting an appropriate value To Move to setting menu for zero phase sequence voltage value of Instantaneous setting a zero phase seq
66. ommunication Line RS 232 485 To move to the next menu press the MI MENU key 8 2 3 HOUR MINUTE SECOND DISPLAY The Front window displays the present hour minute second Pressing the SEL key once it is changed from Display Mode to Setting Mode and the value on the display window goes on and off To increase this value press the us Reaching the value you wish to change press 4 ENT key to move to the next step To store all the values changed press the ENT key at the last menu and then the display window is changed into Display Mode automatically If you press the MENU key while changing values on the setting menu the values that has been changed are canceled and it is changed into Display Mode To move to the next menu on Display Mode press the MENU GMPC ll User Manual 8 2 4 YEAR MONTH DAY DISPLAY The Front window displays the present year month day Pressing the SEL key once it is changed from Display Mode to Setting Mode and the value on the display window goes on and off To increase this value press the Bu Reaching the value you wish to change press m ENT key to move to the next step store all the values changed press the 4 ENT key at the last menu and then the display window is changed into Display Mode automatically If you press the MENU key while changing the values on the setting menu all the values that has been changed are canceled an
67. on 1 INPUT Input Range 110 V GPT 190 1 5 A ZCT 1 5mA User Manual 6 Operating 6 1 Measuring Part 6 1 1 Calibration Mode A calibration mode of metering consists of 2 modes One Is adjusting offset and gain of A D converter and the other is selecting the ratings of analog input signal Please do not adjust a calibration mode temporarily If there are necessity of adjustment refer to appendix 6 1 2 Measurement display The measurement result is displayed by pushing the measurement selection key Easurement key displays FUNC V PT Ratio A Ratio Connection W Comm Address x C B Operatopn Pf Display All 2 x Wh C B ON Time Bam ne Vo Vomax 1 Current Display panel shows current value of phase at the initial status Each phase of current measurement value will be displayed continuously with the unit by repeating to push the touch switch It is possible to check the type of wiring when operator pushes the Function and F key at the same time Type of wiring Displayed phase 1P2W Measurement value of each phase 1P3W gt N gt T 3P3W 3P4W gt S gt User Manual 2 Voltage Each phase of voltage measurement value will be displayed continuously with the V unit by repeating to push the touch switch V Type of wiring Displayed phase Measur
68. on drawing 2 27 7 7 Cutting dimensions of fixing part 2 2 20 0 0 0 74 28 7 8 External VIEW and dimenslofis ies eost e d boe 29 8 Communication cm ele m 51 29 8 2 Sequence of Events FUNCTION 30 8 3 Composition of communication system 30 9 Maintenance 9 1 A defect management during the test operation 31 DZ RE DIAC CNG 32 Time 33 User Manual 1 Summary LG Digital Integrated Protection and Measurement device indicates and measures electricity amount of various kinds such as 3 phases voltage current power electricity power factor frequency zero phase voltage and so on It also has 6 kinds of function for the protection relay OCR OCGR OVR UVR OVGR SGR It can be applied at 1W2P 3P 3W3P 4P 2 Characteristics 1 Compact and Simple GIPAM is an assortment of equipments for switchgear panel It includes panel meters protection relays operating and transffering switchs and lamps in one unit Various types of characteristic curves ar
69. ormer synchronous code When received Data Check Sum Check Sum Checksum 1Byte Command 1Byte Sub Command 1Byte Data 11Byte 256 gt The residual Checksum is the sum of each bytes not to include OVERFLOW Event Enable lt It decides to make SOE Data about the event occurred SOE data is made when there is an event occurring which is set 1 Value for calibrating the timer inside GIPAM Itis calibrating value to synchronize the timer with System Time lt indicates a number of clocks 0 4 S as 2Byte Signed Integer Time error of former synchronous code when received lt indicates time gap between the time the synchronous code and the one that stored timer inside GIPAM when the last synchronous code is received and it is also described as a 2Byte signed integer A cycle of former synchronous code when received indicates time gap between the last synchronous code and the previous to the last one as a 2Byte unsgned Integer lt this value is FFFF it means synchronization fail because the synchronizing cycle exceeds the tolerance limit 43 GMPC ll User Manual 11 1 10 Device ID Requiring Device ID m Device ID Data Device Version ASCII String within12Byte Data Check Sum Check Sum Checksum 1Byte Command 1Byte Device ID 1Byte Data 12Byte 256 gt The residual Checksum is the sum of each bytes not to inc
70. point Operating Time for UVR Up to a decimal point Data Check Sum Check Sum Each item is represented as BCD that has a decimal point 4l GMPC ll User Manual Checksum 1 Byte Command 18yte Sub Command 1 Byte Data 11Byte 256 gt The residual Checksum is the sum of each bytes not to Include OVERFLOW Selecting the Relay operation OVR UVR 01 9 OVGR SGR Setting Data Sub Command Voltage value of Voltage value of T Instantaneous char for OVGR Up to a decimal point Operating Time for OVGR XX Down to a decimal point Operating Current for SGR XX Up to a decimal point Operating Time for SGR X0 Down to a decimal point a Setting External Trip Operation Data Check Sum Check Sum Each item is represented as BCD that has a decimal point Checksum 1 Byte Command 1 Byte Sub Command 1 Byte Data 11Byte 256 gt The residual Checksum is the sum of each bytes not to include OVERFLOW 42 GMPC ll User Manual Selecting the Relay operation OVGR SGR Disable 00 Alarm amp Trip eJInformation of enabling SOE and status of Timer Command SubCommand 04h Enabling Event of Local Local Remote Remote OFF CB Status ON OFF ON OFF Enabling Event of Relay Fault CBON CBON SOE Calibrating the timer in GIPAM When received A cycle of f
71. recorded by 1ms unit 8 3 Communication Network Diagram Terminal Resistor 120 I NET Network 2 GIPAM 1 GIPAM 2 GIPAM 3 4444 20 Protocol Converter a 1 2 seeen 20 1 Connecting communication Port GMPC GMPC lt gt Protocol Converter 37 lt gt GIPAM 1 9 9 1 Troubleshooting GIPAM 2 GIPAM 3 User Manual Terminal Resistor E 1200 5 Popes If all the indicators the front have been off If one of the Error Code 5 displayed on the LCD in Measunng part as below ERR 0 ERR 1 ERR 2 ERR 3 ERR 4 If one of the Error Code 5 displayed on the LCD in Protection part as below ERR 1 ERR 2 ERR 3 Inaccuracy of displayed PT Fuse is down Check out PT Fuse Voltage Inaccuracy of displayed Current The supplied power is under the rated Voltage DC 110V The polarity of power supply is connected in the opposite PT Ratio set is wrong CT Ratio set is wrong Errors of Input circuit or the power in Analog circuit an obstruction of the inside communication CPU is out of order Errors of Input circuit or the power in Analog circuit Errors of the Back up Data Calibration Data an obstruction of the inside communication RS 232C
72. s of the Tag 65 GMPC ll User Manual 13 2 2 Setting Tag Type Tag Types LO Discrete Indirect Discrete Memory Integer Integer Memory Real Indirect Analog Memory Message VO Message Indirect Message Group Hist Trend Cancel AR ancl A tag with Tag Name starting with Memory is internal tag and a tag with Tag Name starting with I O is external tag Discrete Binary 1bit Integer Integer Type 32bit Real Floating Point Type 32bit Message String Type 131Byte in max 13 2 3 Setting Access Name Modify Access Mame CD Access Mame Cancel 2 Application MODBUS 3 Name EMAC Which protocol to use DDE SuiteLink When to advise server Advise all items Advise only active items 1 Type the same Topic Name 3 2 Type name of I O Server Modbus 3 Topic Name Topic Definition of I O Server 66 Safety Instructions For your safety please read user s manual thoroughly before operating e Contact the nearest authorized service facility for examination repair or adjustment Please contact qualified service technician when you need maintenance Do not disassemble or repair by yourself Any maintenance and inspection shall be performed by the personnel having expertise concerned Global 847 1170
73. se Three Wire System with 3 CTs Terminal Block R 5 T Fuse 09 ws B10 12 14 Com Fuse La B11 VS with 3PTs R S T Terminal Block B09 VR B10 12 14 Com B11 VS User Manual 5 Three Phase Four Wire Syste note 1 R S T Terminal Block Fuse 09 B11 VS Fuse 13 10 12 14 lt B01 IR O 7 cra 6 Connecting with ZCT Terminal Glock B15 l0 16 7 Connecting with GPT RF T Terminal Block B250 33 7 6 External connection 1 Avoid parallel connection with other devices that generate noises 2 Press the CLEAR Switch to initialize all data after installing device Warnings It must be supplied the well smooting DC power whose ripple rate is under 6 VR VR VS VS VT VT CB OFF CB OFF DC110V Input B01 B02 B19 B18 B20 B22 B24 r ZCT PT1 PT2 PT3 GPT 34 Output O O O O O e a RX1 TXO TXI Com A23 A16 A18 A20 GIPAM User Manual OCR OCGR OVR UVR OVGR SGR Com Alarm Sys Err Remote Local Com CB ON CB ON CB OFF Communication termi
74. sent frame is the last SOE data EOD 1 Other SOE data exists in the buffer Fault occurred time It is the value of 4 Byte Long Integer and represents time that present status has been changed 32bit Binary Number Ohou Omin 0 000 The MSB Bit 31 of Fault occurred time is Flag 1 Null 1 off All Status bit a SOE Buffer Empty No SOE Data exists b Information of Fault Command OS FF CE E OR UR ser ve gt 1 1 Se Null Data Check Sum Sum Checksum 18yte Command 1Byte SubCommand 1Byte Device ID 1byte Fault occurred time 4Byte status of Relay 2Byte Null 2Byte 256 gt The residual 37 GMPC ll User Manual Checksum is the sum of each bytes to include OVERFLOW c Information of setting Relays T Valid w T s Fault occurred Device ID Relay Setting Remote Local Fault Reset Fault Reset Data Check Sum Check Sum Checksum 1 Byte Command 1 Byte Sub Command 1 Byte Device ID 1 Byte Fault occurred time 4Byte Relay Setting 1 Byte 256 The residual Checksum is the sum of each bytes not to include OVERFLOW d Information of CB status amp Data clear Command Device ID mM KE Tvaia 130 79 12
75. solution Leader in Electrics amp Automation User Manual GIMAC II GNPCIIII LG Industrial Systems www lgis com GIPAM User Manual GIPAM USER MANUAL Digital Integrated Protection amp Monitoring Equipment LG Industrial Systems User Manual CONTENTS 1 3 2 CharacterislieS uuu u uu uu u uyu ce Set 3 3 5 uu u uu u ul 4 4 External view and System structure 4 1 External view part name cece 5 q 2 SVysEtemi SUCUT aya akha 5 5 5 5T eds 6 5 2 PEOEOGCEHOF JP at uum iD 8 6 A A 9 6 2 PrOleelionieaor m i 12 7 Installation and operation Z L 6 Metho 23 7 2 Setting method of DIP Switch Hmm HH mne 23 7 3 Setting communication address number 25 FAAM Maon OF MR TT 25 Z 5 GOPIDPISCUH IIAIIA u I L D u u Ie ine eo baa L a uui 25 7 6 External connecti
76. sua Communication 111 Control power DC 110V 10 User Manual 1 SP4W 3 R S T N GIMAC II PTx3 Fuse x Eee 1 di Fuse i i Coo p on C11 ese C30 lt lt lt C31 O O CTT 2 R S T GIMAC II PT x2 Fuse x 2 P2 O D C10 m lt Q O CTT With 8 Terminal Block R S T P1 11 User Manual 3 3P3W 2CT R S T GIMAC II PTx2 Fuse x 2 ws 2 1 O O C10 a F Pos C30 CTx2 _ x 4 1P3W R N T GIMAC II PTx2 Fuse x 2 i 10 TOR lt lt Q O C30 Tp lt CTT Gw C31 12 User Manual 5 1P2W A GIMAC II PT x1 Fuse x 1 1 10 C11 CTT C20 CTx1 C21 C30 C30 6 Odering Information TT TT 1 GIMAC II Control voltage Meausring items Transformer ratio type 1 DC 110V 5 Integrated With standard 2 DC 220V type amp PT ratio With non standard PT ratio With non standard CT ratio S PT S CT 13 User Manual GMPC III USER MANUAL Protocol converter lll LG Industrial Systems 10 11 12 13 GMPC ll User Manual CONTENTS Com ponents Sud acne w as misa W wk wis
77. ta of CPU Upper part of main board Calibration Mode Set up DIP Switch 1 by 2bit Connetion Method Set up DIP Switch 2 by 2bit Communication Address Set up specific address by 16 bit switch 2 3 gt 6 Zo 424 amp T 8 Calibra E CT Ratio tion PT Ratio Wiring Mode DIP S W 1 DIP S W 2 Note Please do not operate no 7 and no 8 of DIP Switch 1 gt LGIS set up in best condition when it is shipped from the factory Please do not operate change the setting value In case of reset unwillingly please refer to appendix User Manual 6 Other specification x Contents A Voltage Under 0 1 VA Input burden Under 1 VA Voltage DC110 V 93 5 121V Control Power Under 151 Wi Data Backup Over 10 years by adopting NV RAM 10 55 C Temperature Storage 25 75 C 80 RH Non condensing Insulated Resistance Over DC500V 10MQ Tested part is the same as impulse voltage Between electrical circuit ground 2 000V 1min Power Frequency withstand mm iit Between electrical circuit phase AC 2 000V 1min oltage Between electrical circuit terminal AC 1 000V 1min 5kV for 1 2x 50u Lightning Impulse Voltage for 1 2x 50u Overload n Rated amp x2 for 3hours Current Circuit Withstand Rated amp x20 for 2 seconds Capacity Voltage Circuit Rated voltsx1 15 for 3 hours Applied Standard IEC 60255 KEMC 1120 J EC174C 5 2 Protecti
78. tatus Status 11 Bit4 OCGR Fault Input Current Status Fault Input Previous 12 OVR Fault Input Current Status Status 13 Bit2 UVR Fault Input Current Status 4 Bit3 Fault Input Previous Status 14 Biti SGR Fault Input 5 Bit2 UVR Fault Input Previous Status 15 Bit0 OCR Fault Input 6 SGR Fault Input Previous Status 7 OCR Fault Input Previous Status CB RESET Status BIT Operation 0 1 2 Bit 6 5 Reserved Bit4 CB ON Output Status 4 Bits CB OFF Output Status 5 Bit2 0 LOCAL 1 REMOTE 6 Biti CB ON Input Status 7 CB OFF Input Status 04h Voltage Power Factor Active 04h Power Reactive Energy Reactive Energy 51 Current Status Current Status 8 Bit 6 5 4 Reserved 9 Bit3 REMOTE FAULT RESET 10 Bit2 LOCAL FAULT RESET 11 Bill REMOTE WH RESET 12 LOCAL WH RESET GMPC ll User Manual Operation Count CB Run Time RESET Run Time RESET Command Example To send CB SBO command GIMAC II with station address number 1 1 Step Send CB ON Select Command 01 06 00 00 60 96 21 274 Step After receiving ACK response Send CB ON Operate Command 01 06 00 14 9F 69 60 10 Example To send OFF command to GIMAC II with station address number 1 1 Step Send CB OFF Select Command 01 06 00 00 61 69 60
79. trol amp monitoring system GMPC ll User Manual 4 system Configuration 4 1 Network Diagram To be connected When using S O E function RS 232C For synchronization 2 GMPC 4 Multi serial communication Board 4 2 Standards for system configuration Installation between GMPC and remote control amp monitoring system is permitted point to point topology on the network adopting 5 232 485 connection The Multi drop network configuration has to be applied between the GMPC For synchronization GMPC is capable to be connected up tp16ea maximum and of them has to be selected as Time Master GMPC ll User Manual 5 Functions 5 1 Interfacing with Central control amp monitoring system GMPC has 232 and 485 port which applies asynchronous mode for interfacing with Central control amp monitoring system is capable to set all parameters about transmission such as transmission speed for 5 232 and 485 port Because there is a control signal for modem it is possible to use external modem via 232 port It is electrically insulated between the external serial ports RS 232 or RS 485 port etc and internal electronic circuits to provide accurate environmental condition 5 2 Interface for communication GMPC has two of serial ports which support multi connection for communication and it is possible to set I Net address for each devi
80. uence voltage value for Instantaneous 0 10 0 40 off 0 02step with Pressing Key to store V gt gt set value Pressing Charl Key t 0 05 To Move to setting menu for operating time Setting an appropriate value Setting an operating time for OVGR OVGR t 0 05 0 05 1 00 0 01step th K id Refer to 6 2 3 Pressing Key to store Storing the time set Pressing Cha Key WD TP to setting menu for operating mode Setting an appropriate value Selecting an operating mode for OVGR MD TP TP Trio amp Alarm th K A id AL Alarm XX no operation Pressing Key to store MD selected mode Move to setting menu for Pressing Key Io 0 6 a value of zero phase sequence current Setting an appropriate value Setting a value of zero phase SGR lo 0 6 sequence current with or Ke M 0 6 3 6 0 2step Pressing Key to store Io set value Storing the value set 19 storing the value set storing the mode selected User Manual To Move to setting menu for Pressing Key Vo 0 1 a value of zero phase sequence voltage Setting an appropriate value Setting a value of zero phase Vo 0 1 sequence voltage wn a i2 0 1 0 4 0 02step Pressing Key to store Vo set value otoring the value set Pressing Key t 0 1 TO Move to setting menu for operating time Setting an appropriate value Setting an operating time tor SGR with Or 0 1 10 0 0 1step
81. value on it here are two different types of synchronization which are ROUGH SYNC and PRECISION SYNC 9 4 1 ROUGH SYNC Host System SM SIART ROUGH SYNC END ROUGH SYNC ERROR START ROUGH SYNC 0x00 0x 0x27 0x00 year mon day PC GMPC III hour min sec START_ROUGH_SYNC Inputting the last two digits of year as binary Inputting the value of month as binary Inputting the value of date as binary Inputting the value of hour as binary Inputting the value of minute as binary Inputting the value of second as binary END ROUGH SYNC OxFF 0x00 0x 0x21 0x00 ECC END_ROUGH_SYNC ERROR lt GMPC III OxFF 0x00 0 ECC 21 GMPC ll User Manual 9 4 2 PRECISION SYNC Host System GMPC III START PRECI SYNC Jo E REQUEST_ADJUST TIME_ADJUST SYNC The Host system transmits START PRECI SYNC frame to GMPC And The Host system stores the time when the first frame and the first bit is started transmitting A1 at this point stores the point that the first frame and the first bit of START PRECI SYNC frame is received B1 GMPC transmits REQUEST ADJUST frame to the Host system And GMPC stores the time when the first frame and the first bit is started transmitting B2 at this point The Host system stores the point that the first frame and the first bit of REQUEST ADJU
82. values on the setting menu all the values that has been changed are canceled it is changed into Display Mode To move to the next menu on Display Mode press the MENU key 8 3 MENU TREE Time Master I NET Address GMPC ll User Manual GMPC ll User Manual 9 Protocols 9 1 Introduction GMPC transfers the data from Central Control amp Monitoring system PC MODEM to subordinate devices such as GIMAC GIPAM if there is a response from them or vise versa And a structure of the data which is communicated between Central Control amp Monitoring System and subordinate devises will be defined in this chapter Meanwhile the other type of structure which is necessary to read status or change setting value of is also defined in this chapter separately 9 2 Basic structure of data frame for transmission Data that flows between GMPC and the Host system is transmitted frame by frame and the basic structure of a frame is as follow P1 POD S DEST A EFN LEN e ste 3 DATA h TECC 1 BYTE NAME SIZE VALUE DESCRIPTION DEST BYTE 0 00 OxFF I NET ADDRESS for a receiving apparatus eman _ 1 BIT Abnormal Response Transmitting Junction Time Setting 2 BIT setting Value of GMPC
83. ws IEEE Standards 4 Byte Floating Point Number Checksum 1 Byte Command 1Byte Data 12Byte 256 The residual Checksum is the sum of each bytes not to include OVERFLOW 11 1 3 Line Voltage Requesting Line Voltage Information Sub Command 32 GMPC ll User Manual Line Voltage Data MSB Byte 3 Voltage between R and S phase Byte 2 1P3W Between R and N Phase Voltage between S and T phase 1P3W Between S and N Phase MSB Byte 3 Voltage between T and R phase 1P3W Between T and N Phase The representation follows IEEE Standards 4 Byte Floating Point Number 1P2W 219 data S T amp 39 data T R become null Checksum 1 Byte Command 1Byte Data 12Byte 256 The residual Checksum is the sum of each bytes not to include OVERFLOW 11 1 4 Power Requesting Power Information Power Data MSB Byte 3 Byte 2 Power Factor Byte 1 LSB Byte 0 MSB Byte 3 Byte 2 Watt Byte 1 LSB Byte 0 33 User Manual MSB Byte 3 Volt Ampere Reactive LSB Byte 0 Data Check Sum Check Sum The representation follows IEEE Standards 4 Byte Floating Point Number Reactive Power SQRT Apparent Active Checksum 1 Byte Command 1Byte Data 12Byte 256 The residual Checksum is the sum of each bytes not to Include OVERFLOW 11 1 5 Frequency Watt Hour Representing Frequency amp
84. xample send SBO cancel command to SOE with station address number 1 after sending SBO select command QUERY 01 06 OD OC 00 FF 0B 25 ARM TIMER 43021 With SETTING Example To send SBO ARM TIMER setting command to SOE GIPAM with station address number 1 With QUERY 01 06 0B CC 07 DO 48 7D SBO ARM TIMER 43001 No ACK SETTING Example To send SBO ARM TIMER setting command to SOE GIPAM with station address number 1 No ACK QUERY 01 06 0B B8 07 DO 08 67 SOE EVENT SETTING FAULT 1 43001 FAULT 2 43002 asi socevewrserme iP mere inno pes _ seme nue 17 5 8 GMPC II 60 GMPC ll User Manual 49803 0 31 GIMAC SYNC Sync_en 39805 H 0 Sync Disable 1 Sync Enable Between GMPC Ill s 39805 1 0 Sync Disable 1 Sync Enable RS232 485 RS485 1 RS232 GMPC 111 Baud Rate 2400 BPS 4800 BPS 9600 BPS 14400 BPS Baud_num 39807 19200 5 28800 BPS 33600 BPS 38400 BPS 56000 BPS 57600 BPS Address 49861 I NET Address 0 255 61 GMPC ll User Manual 13 InTouch and Modbus Server User Manual 13 1 Setting of Modbus O Server 13 1 1 Main View Modbus l O Server iy MODBUS Hel Cam Part Settings Topic Definition Server settings 13 1 2 Com Port Setting

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