Eaton Modbus MS Card, User Manual

Page 1: ...www eaton com Modbus MS Card User manual Modbus MS Card User Manual 34009048XT_EN AD Page 1 55 ...

Page 2: ...s settings 15 3 3 3 Choice 3 Display Jbus diagnostics 16 3 3 4 Choice 4 Reset Jbus diagnostics 16 3 3 5 Choice 5 Return to Jbus Default Configuration 16 3 3 6 Choice 6 Display Jbus frames 16 4 ADDITIONAL WEB PAGES 18 5 MENU CLI INTERFACES 19 5 1 MENU INTERFACE 19 5 1 1 Main menu 19 5 1 2 Modbus Jbus menu 19 5 2 COMMAND LINE INTERFACE 21 5 2 1 getJBUS 21 5 2 2 setJBUS 21 5 2 3 getJBUSCounter 22 5 2...

Page 3: ...tus table 39 6 7 2 Measurements table 40 6 8 DATA FOR EATON 9PX AND EATON 9SX SINGLE PHASE 41 6 8 1 Status table 41 6 8 2 Measurements table 42 6 9 DATA FOR EATON 9PX THREE PHASE INPUT 43 6 9 1 Status table 43 6 9 2 Measurements table 44 6 10 DATA FOR EATON 9PX SPLIT PHASE 45 6 10 1 Status table 45 6 10 2 Measurements table 46 6 11 GENERIC UPS 47 6 11 1 Status table 47 6 11 2 Measurements table 49...

Page 4: ...ion of the Modbus MS Card previously INMC is based on the Network MS Card previously NMC For all common features the user manual is the same as NMC see reference below In this document only JBUS MODBUS requirements are described Reference Network Management Card User Manual 34003990XT_FR EF ...

Page 5: ...to provide UPS Uninterruptible Power Supply data states and measures to be sent a computer system The JBUS hexadecimal MODBUS RTU communication protocol is used in slave mode The system provides a communication channel with an RS485 or RS232 interface Note 2 wires or 4 wires RS485 link are available Warning RS232 and RS485 communication ports cannot be used together JBUS MODBUS communication is op...

Page 6: ...aud rate Parity Bit number Stop bit Slave number 9600 bauds without parity 8 2 Slave nr 1 1200 2400 4800 9600 19200 38400 Without parity even parity odd parity 1 2 1 to FF hexadecimal RS232 link Link connection in transmit data Tx or receive data Rx Rx on pin 1 Tx on pin 3 Rx on pin 1 Tx on pin 3 RS485 link Termination No termination With or without 2 or 4 wires ...

Page 7: ... the SA2 switches like below The next figure shows the details of the connection in RS232 mode JBUS 232 485 OV T T R R UPS Data Settings Sensor ETHERNET 100M ACT RS232 Tx Rx 1 2 5 4 3 XXXXXXXXXXXX 66103 Pin number Function 1 Received data input 2 Not connected 3 Transmitted data output 4 Not connected 5 Signal Ground ...

Page 8: ...minators to avoid mismatching the line when any equipment at the end of the line is disconnected The next figure gives the detail of the RS485 connector and the internals drivers Pin number Function 1 R Receiver input 2 R Receiver input 3 T Transmitter output 4 T Transmitter output 5 0 V Important notes Use twisted pair cable cable specification 0 3mm 2 and capacitance 42pF m The transmission rang...

Page 9: ...the SA1 switches SA1 description 1 reserved 2 reserved 3 link termination between T to R 2 wires configuration if set to ON 4 connection T to R 2 wires configuration if set to ON 5 connection T to R 2 wires configuration if set to ON 6 reserved 7 reserved 8 link termination between R and R if set to ON ...

Page 10: ... Manual 34009048XT_EN AD Page 10 55 3 2 2 RS485 link configuration for 2 wires connexion Set the SA2 switches like below to set the RS485 mode Set the SA1 switches to select the two wires configuration with no termination ...

Page 11: ...bus MS Card User Manual 34009048XT_EN AD Page 11 55 Set the SA1 switches to select the two wires configuration with termination The next figure gives a typical bus structure in the two wires configuration ...

Page 12: ... Card User Manual 34009048XT_EN AD Page 12 55 3 2 3 RS485 link configuration for 4 wires connexion Set the SA2 switches like below Set the SA1 switches to select the four wires configuration with no termination ...

Page 13: ...us MS Card User Manual 34009048XT_EN AD Page 13 55 Set the SA1 switches to select the four wires configuration with termination The next figure gives a typical bus structure in the four wires configuration ...

Page 14: ...cord supplied with the card Connect the card to a computer equipped with a Hyper terminal type emulator The serial link must be set at 9600 baud 8 bits no parity 1 stop bit and without flow control Check that UPS power is on Enter the admin password not upgradable Connect the RS232 link to a terminal Microsoft Hyper terminal ...

Page 15: ...o display the JBUS configuration menu The next menu appears Jbus settings 1 Display Jbus settings 2 Modify Jbus settings 3 Display Jbus diagnostics 4 Reset Jbus diagnostics 5 Return to Jbus Default Configuration 6 Display Jbus frames 0 Exit 3 3 1 Choice 1 Display Jbus settings Enables reading of the card s Jbus settings Jbus configuration Slave number 1 Speed 9600 bds Data 8 bits stop bit 1 Parity...

Page 16: ...ostics Jbus diagnostics Cpt1 Bus Message Count 0 Cpt2 CRC Error Count 0 Cpt3 Slave Exception Error Count 0 Cpt4 Slave Message Count 0 Cpt5 Slave No Response Count 0 Cpt6 Slave NAK Count 0 Cpt7 Slave Busy Count 0 Cpt8 Bus Caracter Overrun Count 0 Cpt9 Slave Correct Response Count 0 3 3 4 Choice 4 Reset Jbus diagnostics Reset the Jbus diagnostic counters 3 3 5 Choice 5 Return to Jbus Default Configu...

Page 17: ...cv 01 01 00 00 00 64 3d e1 Send 01 81 02 c1 91 Recv 01 03 00 62 00 64 e5 ff Send 01 03 c8 00 00 00 00 00 00 00 00 00 00 00 00 00 Recv 01 01 00 00 00 64 3d e1 Send 01 81 02 c1 91 Recv 01 03 00 62 00 64 e5 ff Send 01 03 c8 00 00 00 00 00 00 00 00 00 00 00 00 00 ...

Page 18: ...Modbus MS Card User Manual 34009048XT_EN AD Page 18 55 4 Additional Web pages The Modbus MS card parameters could be set through the next page ...

Page 19: ...n is the main screen displayed when the connection is established EATON NETWORK MANAGEMENT JBUS CARD Main menu 1 Reset 2 Network settings 3 Trap receivers 4 System settings 5 Shutdown settings 6 Access control 7 Date and Time 8 Environment settings 9 Modbus Jbus settings 10 Set login password to default 11 Default configuration Quit Close session 5 1 2 Modbus Jbus menu Theses menus are used to vis...

Page 20: ...ve address 1 2 Baud rate 1200 2400 4800 9600 19200 38400 9600 3 Data bits 8 8 4 Stop bits 1 2 1 5 Parity 0 None 1 Odd 2 Even 0 0 Exit EATON NETWORK MANAGEMENT JBUS CARD Modbus Jbus settings Serial link Buss message 24 CRC error 0 Slave exception error 0 Slave message 24 Slave no response 0 Slave NAK 0 Slave busy 0 Bus character overrun 0 Slave correct response 0 10 Reset diagnostic counter 0 Exit ...

Page 21: ...ot allowed in command arguments except for the strings The strings are in double quotes The code colour is the following Setting in read write or write only mode light green Setting in read only mode yellow Warning message green Error message light red The recognized commands are given in the following chapters and may be updated later 5 2 1 getJBUS Purpose To read a JBUS network setting Syntax ge...

Page 22: ...tax getJBUSCounter option1 option2 options BusMessage CRCError SlaveException SlaveMessage SlaveNoResponse SlaveNAK SlaveBusy Overrun SlaveCorrectResponse All Examples getJBUSCounter All 5 2 4 setJBUSCounter Purpose Reset of the JBUS diagnostics counters Syntax setJBUSCounter option1 options RAZ Examples setJBUSCounter RAZ ...

Page 23: ...w battery no yes 40 6 Operation on static switch no yes 40 7 Communication fault absent present 40 9 UPS overload no yes 40 A Emergency stop absent present 40 B Battery to be checked no yes 40 D Device ventilation fault no yes 40 E Battery present absent present 42 0 Mains 1 voltage out of tolerance no yes 44 8 Mains 1 frequency out of tolerance no yes 44 B Bypass status no yes 46 7 Charger genera...

Page 24: ...rd hex Unit I output 109 A U output 124 V U battery 12D V Output active power 136 W Output apparent power 137 VA output load level 139 Power factor Cos PHI 13D Mains 1 frequency 13E Hz Output frequency 141 Hz Battery backup time 149 Min Battery charging level 14B U mains 1 150 V Nominal voltage of battery element 213 V ...

Page 25: ... stop absent present 40 B Battery to be checked no yes 40 D Device ventilation fault no yes 40 E Manual bypass switch Q3BP open closed 41 6 Battery present absent present 42 0 Mains 1 voltage out of tolerance no yes 44 8 Mains 1 frequency out of tolerance no yes 44 B Redundancy lost no yes 45 7 Maintenance position no yes 46 1 Mains 2 overload no yes 46 5 Output on bypass no yes 46 7 Mains 2 frequ...

Page 26: ...ins 2 106 A I output 109 A U mains 2 11E V U output 124 V U battery 12D V Output active power 136 W Output apparent power 137 VA output load level 139 Power factor x 100 13D Mains 1 frequency 13E dHz Output frequency 141 dHz Battery backup time 149 Min Battery charging level 14B U mains 1 150 V Nominal voltage of battery element 213 V ...

Page 27: ...d 41 6 UPS in eco mode no yes 41 7 Battery present absent present 42 0 Mains 1 voltage out of tolerance no yes 44 8 Mains 1 fuse fault no yes 44 9 Mains 1 frequency out of tolerance no yes 44 B Redundancy lost no yes 45 7 Maintenance position no yes 46 1 Mains 2 overload no yes 46 5 Mains 2 thermal overload no yes 46 6 Output on bypass no yes 46 7 Mains 2 frequency out of tolerance no yes 46 9 Mai...

Page 28: ...output 109 A I battery 10E A U mains 2 11E V U output 124 V U battery 12D V Output active power 136 W Output apparent power 137 VA output load level 139 Power factor Cos PHI 13D Mains 1 frequency 13E dHz Mains 2 frequency 140 dHz Output frequency 141 dHz Battery backup time 149 Min Battery charging level 14B U mains 1 150 V Nominal voltage of battery element 213 V ...

Page 29: ...ass switch Q3BP open closed 41 6 Battery present absent present 42 0 Mains 1 voltage out of tolerance no yes 44 8 Mains 1 fuse fault no yes 44 9 Mains 1 frequency out of tolerance no yes 44 B Redundancy lost no yes 45 7 Maintenance position no yes 46 1 Mains 2 overload no yes 46 5 Mains 2 thermal overload no yes 46 6 Output on bypass no yes 46 7 Mains 2 frequency out of tolerance no yes 46 9 Mains...

Page 30: ...esent 62 2 Inverter thermal overload Absent Present 62 3 Inverter fault Absent Present 62 4 Inverter fuse blown Absent Present 62 5 Load short circuit Absent Present 62 6 Module 3 General alarm Absent Present 63 0 Fan failure Absent Present 63 1 Internal communication fault Absent Present 63 2 Inverter thermal overload Absent Present 63 3 Inverter fault Absent Present 63 4 Inverter fuse blown Abse...

Page 31: ...verter thermal overload Absent Present 66 3 Inverter fault Absent Present 66 4 Inverter fuse blown Absent Present 66 5 Load short circuit Absent Present 66 6 Module 7 General alarm Absent Present 67 0 Fan failure Absent Present 67 1 Internal communication fault Absent Present 67 2 Inverter thermal overload Absent Present 67 3 Inverter fault Absent Present 67 4 Inverter fuse blown Absent Present 67...

Page 32: ...phase 2 11F V U mains 2 phase 3 120 V U12 mains 2 121 V U23 mains 2 122 V U31 mains 2 123 V U1N output 124 V U2N output 125 V U3N output 126 V U12 output 127 V U23 output 128 V U31 output 129 V U battery 12D V Output active power phase 1 130 W Output active power phase 2 131 W Output active power phase 3 132 W Output apparent power phase 1 133 VA Output apparent power phase 2 134 VA Output apparen...

Page 33: ... 33 55 Description of the physical quantity Word hex Unit Output frequency 141 dHz Battery backup time 149 Min Battery charging level 14B U mains 1 phase 1 150 V U mains 1 phase 2 151 V U mains 1 phase 3 152 V Nominal voltage of battery element 213 V ...

Page 34: ... NS 101 on line hot standby redundancy 41 1 to 3 Manual bypass switch Q3BP open closed 41 6 Mode ECO 1 no yes 41 7 Battery present absent present 42 0 Fuse fault absent present 42 B Over temperature absent present 42 A D Circuit breaker QF1 status open close 42 F Wiring fault absent present 44 2 Circuit breaker Q1 status open close 44 3 Mains 1 voltage out of tolerance no yes 44 8 Mains 1 fuse fau...

Page 35: ...pply of electronic control absent present 50 6 Wiring fault of bypass absent present 50 7 Shutdown in progress absent present 50 8 Compatibility fault of the embedded software absent present 50 9 Rectifier status absent present 50 A 6 5 2 Measurements table Description of the physical quantity Word hex Unit I1 I phase 1 mains 1 100 A I2 I phase 2 mains 1 101 A I3 I phase 3 mains 1 102 A I1 I phase...

Page 36: ...utput active power phase 3 132 W Output apparent power phase 1 133 VA Output apparent power phase 2 134 VA Output apparent power phase 3 135 VA Output total active power 136 W Output total apparent power 137 VA output load level 139 Power factor x 100 13D Mains 1 frequency 13E Hz Mains 2 frequency 140 Hz Output frequency 141 Hz Battery backup time 149 Min U mains 1 phase 1 150 V U mains 1 phase 2 ...

Page 37: ...sent present 40 9 UPS overload no yes 40 A Emergency stop absent present 40 B Battery to be checked no yes 40 D Device ventilation fault no yes 40 E UPS Class 001 off line line interactive 011 on line unitary parallel 100 on line parallel with NS 101 on line hot standby redundancy 41 1 to 3 Battery present absent present 42 0 Mode buck no yes 44 0 Mode Boost no yes 44 1 Mains 1 voltage out of tole...

Page 38: ...l value active power 111 W of KW U output 124 V U battery 12D V Output active power 136 W Output apparent power 137 VA output load level 139 Power factor Cos PHI 13D Mains 1 frequency 13E Hz Output frequency 141 Hz Battery backup time 149 Min Battery charging level 14B U mains 1 150 V Nominal value apparent power 209 VA or KVA Nominal voltage of battery element 213 V ...

Page 39: ...tilation fault no yes 40 E Classe d UPS 001 off line line interactive 011 on line unitary parallel 100 on line parallel with NS 101 on line hot standby redundancy 41 1 to 3 Manual bypass switch Q3BP open closed 41 6 Mode ECO 1 no yes 41 7 Battery present absent present 42 0 Wiring fault absent present 44 2 Mains 1 voltage out of tolerance no yes 44 8 Mains 1 frequency out of tolerance no yes 44 B ...

Page 40: ... output 124 V U battery 12D V Output total active power 136 W Output total apparent power 137 VA output load level 139 Mains 1 frequency 13E Hz Mains 2 frequency 140 Hz Output frequency 141 Hz Battery backup time 149 Min Battery charging level 14B U mains 1 phase 1 150 V U mains 1 phase 2 151 V U mains 1 phase 3 152 V Nominal value apparent power 209 VA or KVA Nominal voltage of battery element 21...

Page 41: ... interactive 011 on line unitary parallel 100 on line parallel with NS 101 on line hot standby redundancy 41 1 to 3 Manual bypass present absent present 41 5 Manual bypass switch Q3BP open closed 41 6 Mode ECO 1 no yes 41 7 Battery present absent present 42 0 Battery test no yes 42 2 Fuse fault absent present 42 B Timer expired absent present 43 3 Wiring fault absent present 44 2 Mains 1 voltage o...

Page 42: ...tion of the physical quantity Word hex Unit I mains 2 106 A I output 109 A I battery 10E A Nominal value active power 111 W of KW U mains 2 11E V U output 124 V U battery 12D V Output total active power 136 W Output total apparent power 137 VA output load level 139 Power factor x 100 13D Mains 1 frequency 13E Hz Mains 2 frequency 140 Hz Output frequency 141 Hz Battery backup time 149 Min Battery c...

Page 43: ...ne interactive 011 on line unitary parallel 100 on line parallel with NS 101 on line hot standby redundancy 41 1 to 3 Manual bypass present absent present 41 5 Manual bypass switch Q3BP open closed 41 6 Mode ECO 1 no yes 41 7 Battery present absent present 42 0 Battery test no yes 42 2 Fuse fault absent present 42 B Timer expired absent present 43 3 Wiring fault absent present 44 2 Mains 1 voltage...

Page 44: ...phase 2 mains 1 101 A I3 I phase 3 mains 1 102 A I mains 2 106 A I output 109 A I battery 10E A Nominal value active power 111 W of KW U mains 2 phase 1 11E V U output 124 V U battery 12D V Output total active power 136 W Output total apparent power 137 VA output load level 139 Power factor x 100 13D Mains 1 frequency 13E Hz Mains 2 frequency 140 Hz Output frequency 141 Hz Battery backup time 149 ...

Page 45: ...001 off line line interactive 011 on line unitary parallel 100 on line parallel with NS 101 on line hot standby redundancy 41 1 to 3 Mode ECO 1 no yes 41 7 Battery present absent present 42 0 Battery test no yes 42 2 Fuse fault absent present 42 B Timer expired absent present 43 3 Mains 1 voltage out of tolerance no yes 44 8 Mains 1 fuse fault no yes 44 9 Mains 1 frequency out of tolerance no yes ...

Page 46: ... KW U12 mains 1 115 V U mains 2 phase 1 11E V U mains 2 phase 2 11F V U12 mains 2 121 V U1N output 124 V U2N output 125 V U12 output 127 V U battery 12D V Output active power phase 1 130 W Output active power phase 2 131 W Output apparent power phase 1 133 VA Output apparent power phase 2 134 VA Output total active power 136 W Output total apparent power 137 VA output load level 139 Mains 1 freque...

Page 47: ...line unitary parallel 100 on line parallel with NS 101 on line hot standby redundancy 41 1 to 3 Manual bypass present absent present 41 5 Manual bypass switch Q3BP open closed 41 6 Mode ECO 1 no yes 41 7 Battery present absent present 42 0 Battery test no yes 42 2 Fuse fault absent present 42 B Over temperature absent present 42 A D Circuit breaker fuse fault open close 42 E Circuit breaker QF1 st...

Page 48: ...ose 46 E Internal fault absent present 47 0 Synchronization source 47 1 8 Mains 2 internal fault absent present 47 2 Charger general fault no yes 49 0 Battery charge no yes 49 1 3 Chopper fault absent present 4A 1 Rectifier short circuit absent present 4A 2 Inverter major fault no yes 4C 1 Inverter overload no yes 4C 2 Inverter thermal overload no yes 4C 3 Inverter limitation no yes 4C 4 UPS fuse ...

Page 49: ...116 V U31 mains 1 117 V U mains 2 phase 1 11E V U mains 2 phase 2 11F V U mains 2 phase 3 120 V U12 mains 2 121 V U23 mains 2 122 V U31 mains 2 123 V U1N output 124 V U2N output 125 V U3N output 126 V U12 output 127 V U23 output 128 V U31 output 129 V U battery 12D V Output active power phase 1 130 W Output active power phase 2 131 W Output active power phase 3 132 W Output apparent power phase 1 ...

Page 50: ...Power factor x 100 13D Mains 1 frequency 13E Hz Mains 2 frequency 140 Hz Output frequency 141 Hz Battery backup time 149 Min Battery charging level 14B U mains 1 phase 1 150 V U mains 1 phase 2 151 V U mains 1 phase 3 152 V Nominal value apparent power 209 VA or KVA Nominal voltage of battery element 213 V ...

Page 51: ...atus to 0 Status to 1 Word hex Bit Input 1 alarm No yes 45 5 Input 2 alarm No yes 45 6 Alarm humidity too low no yes 45 4 Alarm humidity too high no yes 45 3 Alarm temperature too low no yes 45 2 Alarm temperature too high no yes 45 1 Communication fault no yes 45 0 Input 1 open close 48 0 Input 2 open close 48 1 ...

Page 52: ...ature date MSB in Unix timestamp 185 Minimum temperature date LSB in Unix timestamp 186 Humidity measure 187 Maximum humidity 188 Maximum humidity date MSB in Unix timestamp 189 Maximum humidity date LSB in Unix timestamp 18A Minimum humidity 18B Minimum humidity date MSB in Unix timestamp 18C Minimum humidity date LSB in Unix timestamp 18D Input 1 changing date MSB in Unix timestamp 194 Input 1 c...

Page 53: ...ication 334 2 Inputs call mask input 2 open notification 334 3 Inputs call mask high temperature notification 334 4 Inputs call mask low temperature notification 334 5 Inputs call mask high temperature shutdown 334 6 Inputs call mask low temperature shutdown 334 7 Inputs call mask high humidity notification 334 8 Inputs call mask low humidity notification 334 9 Inputs call mask high humidity shutd...

Page 54: ...8XT_EN AD Page 54 55 6 13Other data Information description Word hex Example Manufacturer name 1A0 1A7 Eaton Product name 1A8 1AF Pulsar UPS model 1B0 1B7 700 Serial number 1B8 1BF AN2E49008 Part number 1C0 1C7 Reference number 1C8 1CF ...

Page 55: ...Modbus MS Card User Manual 34009048XT_EN AD Page 55 55 7 Glossary ...