Liebert Hipulse-U Modbus Manual
Contents
1. 1 Emerson Network Power a business of Emerson NYSE EMR a global company that leads by applying a unique combination of industry expertise technology and resources to make the future of our customers enterprises and networks possible Emerson Network Power provides innovative solutions and expertise in areas including AC and DC power and precision cooling systems embedded computing and power integrated racks and enclosures power switching and controls infrastructure management and connectivity All solutions are supported globally by local Emerson Network Power service technicians While every precaution has been taken to ensure the accuracy and completeness of this literature Emerson Network Power assumes no responsibility and disclaims all liability for damages resulting from use of this information or for any errors or omissions All rights reserved throughout the world Specifications subject to change without notice All names referred to are trademarks or registered trademarks of their respective owners E 31011134 V1 7 www EmersonNetworkPower com2. Figure 1 1 Adapter appearance The printed board of the adapter is available in two sizes 130mm L x60mm W x1 6mm H and 130mm L x63mm W x1 6mm H additionally the former has a narrow opening at the plug in connector The former is UPS JBUS MODBUS Adapter User Manual Chapter 1 Product Description applicable to NX NXr series UPS iTrust Adapt UPS and APM 150 UPS while the latter is applicable to Hipulse U series UPS FLP and all iTrust series UPS except for iTrust Adapt UPS As shown in Figure 1 1 the adapter provides communication port equipment communication LED host communication LED plug in connector and DIP switch which are described in Table 1 2 Table 1 2 Hardware description Nm Bep LED yellow Flash quickly about once per 1s communication with UPS or FLP is normal Host communication LED OFF communication with host computer not established green Flash communication with host computer being normal Plug in connector Plug in the SNMP slot of the UPS or FLP connect to the UPS or FLP DIP switch Used to configure the basic parameters of the adapter Warning All external ports of the adapter must connect to SELV circuit Failure to observe this could cause damage to the adapter UPS JBUS MODBUS Adapter User Manual Chapter2 Installation 3 2 1 2 2 2 3 2 3 1 Chapter 2 Installation Unpacking Inspection Unpack the adapter take out the delivery
3. Abnormal Bit 6 User operation error 0 Normal 1 Abnormal UPS JBUS MODBUS Adapter User Manual 8 Chapter 3 Protocol Text ID Bit Item Value Bit 7 Inverter heatsink over temperature 0 Normal 1 Over temperature Bit 8 Rectifier heatsink over temperature 0 Normal 1 Over temperature Bit 9 Inverter fan failure 0 Normal 1 Failed Bit 10 Rectifier fan fault 0 Normal 1 Failed 1031 Bit 11 Battery contactor fault 0 Normal 1 Abnormal Bit 12 Rectifier input contactor abnormal 0 Normal 1 Abnormal Bit 13 Auxiliary contactor abnormal 0 Normal 1 Abnormal Bit 14 Input fuse blowout 0 Normal 1 Abnormal Bit 15 Output fuse blowout 0 Normal 1 Abnormal Bit 0 Module output overload 0 Normal 1 Overload Bit 1 Parallel system overload 0 Normal 1 Overload Bit 2 Module overload timeout 0 Normal 1 Overload timeout 0 Normal Bit 3 Bypass over current timeout iz OVor cu t bbtiimedlit Bit 4 Auxiliary supply 1 failure 0 Normal 1 Fault Bit 5 Auxiliary supply 2 failure 0 Normal 1 Fault 1032 Bit 6 UPS shutdown due to abnormal bypass 0 Normal 1 Fault Bit 7 Bypass input phase rotation 0 Normal 1 Fault Bit 8 Mains input phase rotation 0 Normal 1 Fault Bit 9 Input soft start fault 0 Normal 1 Fault Bit 10 AC output overvoltage 0 Normal 1 Fault Bit 11 Outp
4. 0Vac 1053 2 AC output phase voltage A 2200 corresponds to 220 0Vac 1054 2 AC output phase voltage B 2200 corresponds to 220 0Vac 1055 2 AC output phase voltage C 2200 corresponds to 220 0Vac 1056 2 AC output current A 1000 corresponds to 100 0A 1057 2 AC output current B 1000 corresponds to 100 0A 1058 2 AC output current C 1000 corresponds to 100 0A 1059 2 DC input voltage battery voltage 1000 corresponds to 100Vdc 1060 2 Output frequency 3 phases the same 5000 corresponds to 50 00Hz 1061 2 AC input line voltage AB 3800 corresponds to 380 0Vac 1062 2 AC input line voltage BC 3800 corresponds to 380 0Vac 1063 2 AC input line voltage CA 3800 corresponds to 380 0Vac 1064 2 Phase A input current 1000 corresponds to 100 0A 1065 2 Phase B input current 1000 corresponds to 100 0A 1066 2 Phase C input current 1000 corresponds to 100 0A 1067 2 Input frequency 3 phases the same 5000 corresponds to 50 00Hz 1068 2 Input power factor 3 phases the same 100 corresponds to 1 1069 2 Phase A bypass voltage 2200 corresponds to 220 0Vac 1070 2 Phase B bypass voltage 2200 corresponds to 220 0Vac 1071 2 Phase C bypass voltage 2200 corresponds to 220 0Vac 1072 2 Phase A bypass current 1000 corresponds to 100 0A 1073 2 Phase B bypass current 1000 corresponds to 100 0A 1074 2 Phase C bypass current 1000 corresponds to 100 0A 1075 2 Bypass frequency 3 phases the same 5000 corresponds to 50 00Hz 1076 2 Battery temperature 1000 corresponds to 100 Celsius degrees 1077
5. 2 Phase A output power factor 100 corresponds to 1 1078 2 Phase B output power factor 100 corresponds to 1 UPS JBUS MODBUS Adapter User Manual 10 Chapter 3 Protocol Text ID Byte Item Value 1079 2 Phase C output power factor 100 corresponds to 1 1080 2 Phase A output active power 10000 corresponds to 100 00kW 1081 2 Phase B output active power 10000 corresponds to 100 00kW 1082 2 Phase C output active power 10000 corresponds to 100 00kW 1083 2 Battery current 1000 corresponds to 100 0A 1084 2 Battery autonomy 1 corresponds to 1 minute 1085 2 Phase A output apparent power 10000 corresponds to 100 00kVA 1086 2 Phase B output apparent power 10000 corresponds to 100 00kVA 1087 2 Phase C output apparent power 10000 corresponds to 100 00kVA 1088 2 Phase A output load percentage 1000 corresponds to 100 0 1089 2 Phase B output load percentage 1000 corresponds to 100 0 1090 2 Phase C output load percentage 1000 corresponds to 100 0 1091 2 Ambient temperature 1000 corresponds to 100 Celsius degrees 1092 2 Phase A output peak value 100 corresponds to 1 1093 2 Phase B output peak value 100 corresponds to 1 1094 2 Phase C output peak value 100 corresponds to 1 1095 2 Reserved 1096 2 Reserved 1097 2 Reserved 3 2 Protocol Text Of Hipulse U UPS And FLP 1 UPS basic information ID Byte Item Value 1000 1004 10 UPS name HL33 0200L 1005 2
6. UPS firmware release 0100 corresponds to V1 0 1006 1015 20 Manufacturer EmersonNetworkPower 1019 2 Adapter firmware release 0 1234 corresponds to Ver12 34 2 UPS alarm data ID Bit Item Value Bit 0 UPS alarm flag 0 Normal 1 Alarm Bit 1 Adapter communication fault flag 0 Normal 1 Fault Bit 2 Not defined 2 c dr 0 Normal Bit 3 Synchronization Unsynchronization ee 1 Unsynchronization Bit 4 Rectifier input voltage 0 Normal 1 Abnormal Bit 5 Rectifier 0 Normal 1 Fault Bit 6 Inverter 0 Normal 1 Fault 0 Normal Bit 7 Bypass voltage or frequency 1 Outside specifications 1030 000 Normal B 001 Below lower limit EOD point 010 Above upper limit voltage too high Bits 10 9 8 Battery total voltage 011 No battery 100 Pre alarm 101 Battery reverse connection 0 Normal Bit 11 Rectifier input frequency 1 Outside specifications Bit 12 Input fuse 0 Normal 1 Fail Bit 13 Mains phase 0 Normal 1 Reversed Bit 14 REC input Phase 0 Normal 1 Missing Bit 15 Control power 1 0 Normal 1 Fault UPS JBUS MODBUS Adapter User Manual Chapter Protocol Text 11 ID Bit Item Value Bit 0 Control power 2 0 Normal 1 Fault Bit 1 Rectifier 0 Normal 1 Current limit Bit 2 Soft start 0
7. are set by the 8 bit DIP switch of the adapter refer to Figure 1 1 for its location The up position means ON the down position means OFF as shown in the following figure ON 1 2 3 4 5 6 7 8 Figure 2 1 DIP switch The basic parameters of the adapter are set by Bits 1 7 of the DIP switch Bit 8 is factory reserved The setting shown in Figure 2 1 is the factory default UPS JBUS MODBUS Adapter User Manual Chapter 2 Installation Setting physical address The physical address of the adapter is set by Bits 1 5 The setting range is 1 31 0 is factory reserved setting 1 is the factory default The physical address setting method is shown in Table 2 2 Table 2 2 Physical address setting method Physical address Bit 1 Bit 2 Bit 3 Bit 4 Bit 5 0 OFF OFF OFF OFF OFF 1 ON OFF OFF OFF OFF 2 OFF ON OFF OFF OFF 3 ON ON OFF OFF OFF 4 OFF OFF ON OFF OFF 5 ON OFF ON OFF OFF 6 OFF ON ON OFF OFF 7 ON ON ON OFF OFF 8 OFF OFF OFF ON OFF 9 ON OFF OFF ON OFF 10 OFF ON OFF ON OFF 11 ON ON OFF ON OFF 12 OFF OFF ON ON OFF 13 ON OFF ON ON OFF 14 OFF ON ON ON OFF 15 ON ON ON ON OFF 16 OFF OFF OFF OFF ON 17 ON OFF OFF OFF ON 18 OFF ON OFF OFF ON 19 ON ON OFF OFF ON 20 OFF OFF ON OFF ON 21 ON OFF ON OFF ON 22 OFF ON ON OFF ON 23 O
8. list see Table 2 1 and check the goods against it Should there be any discrepancy contact the distributor immediately Table 2 1 Adapter delivery list S N Goods Qty Remark 1 Adapter 1 pcs 2 CD 1 pcs UPS JBUS MODBUS Adapter User Manual Installation Notes 1 The adapter should be installed in the SNMP slot of the UPS or FLP which is also used for the installation of SNMP card Therefore if you use the adapter you cannot use the SNMP card 2 The adapter is available in two sizes please verify that your adapter matches the UPS or FLP refer to the hardware description in section 1 3 Otherwise the adapter cannot be plugged in the SNMP slot of the UPS or FLP 3 Some electronic components of the adapter are sensitive to static electricity To prevent static electricity from damaging the adapter do not touch its electronic components or circuits also avoid their contact with live objects Therefore please hold the side edges of the adapter when moving or installing it Installation Procedures Please install the adapter in the following sequence 1 Set the basic parameters of the adapter 2 Plug the adapter in the SNMP slot 3 Connect the communication cable 4 Set the communication parameters in the host software Setting Basic Parameters To enable the functions of the adapter you must set its basic parameters which are e Physical address Communication baud rate These parameters
9. the UPS or FLP or recognize the UPS or FLP type Please check if the adapter matches the UPS or FLP type according to the hardware description in section 1 3 The adapter can recognize the UPS or FLP type After it recognizes the UPS or FLP the yellow LED will flash quickly about once per 1s 4 The yellow LED equipment communication LED flashes quickly the green LED host communication LED is off Cause analysis and solution the adapter is not properly connected to the host computer Please properly connect the adapter to the host computer following the instructions provided in section 2 3 3 5 The yellow LED equipment communication LED flashes quickly the green LED host communication LED flashes too but the host monitoring software cannot monitor the UPS or FLP normally Cause analysis and solution the yellow LED flashing quickly indicates the communication between the adapter and the UPS or FLP is normal if the green LED flashes but the host monitoring software cannot detect the UPS or FLP data please check that 1 the communication cable is properly connected between the adapter and the host computer 2 the adapter s physical address and communication baud rate settings are the same as those set in the host monitoring software 3 the adapter s physical address setting does not conflict with that of any other monitored equipment applicable only in RS485 cascade connection UPS JBUS MODBUS Adapter User Manual O M SS
10. to 100 00kW 1079 2 Module Phase C output active power 10000 corresponds to 100 00kW 1080 2 Module Phase A output apparent power 10000 corresponds to 100 00kVA 1081 2 Module Phase B output apparent power 10000 corresponds to 100 00kVA 1082 2 Module Phase C output apparent power 10000 corresponds to 100 00kVA 1083 2 Module Phase A output load percentage 1000 corresponds to 100 096 1084 2 Module Phase B output load percentage 1000 corresponds to 100 096 1085 2 Module Phase C output load percentage 1000 corresponds to 100 096 1086 2 Module Phase A output reactive power 10000 corresponds to 100 00kVA 1087 2 ModulePhase B output reactive power 10000 corresponds to 100 00kVA 1088 2 ModulePhase C output reactive power 10000 corresponds to 100 00kVA 1089 2 System Phase A output active power 10000 corresponds to 100 00kW 1090 2 System Phase B output active power 10000 corresponds to 100 00kW 1091 2 System Phase C output active power 10000 corresponds to 100 00kW 1092 2 System Phase A output apparent power 10000 corresponds to 100 00kVA 1093 2 System Phase B output apparent power 10000 corresponds to 100 00kVA 1094 2 System Phase C output apparent power 10000 corresponds to 100 00kVA 1095 2 System Phase A output reactive power 10000 corresponds to 100 00kVA 1096 2 System Phase B output reactive power 10000 corresponds to 100 00kVA 1097 2 System Phase C output reactive power 10000 corresponds to 100 00kVA 1098 2 Battery autonomy 1 corresponds to 1 minute 1099 2 Batt
11. 0 Normal 1 Overtemp Bit 2 Bypass feedback fault 0 Normal 1 Fault Bit 3 INV drive circuit fault 0 Normal 1 Fault Bit 4 Inverter comm fail 0 Normal 1 Fault Bit 5 System Battery low pre warning 0 Normal 1 Warning Bit 6 EPO 0 Normal 1 EPO Bit 7 Ambient overtemp 0 Normal 1 Overtemp 1033 00 Normal Bits 9 8 Battery life 01 Battery needs replacement 10 Life span terminates Bit 10 Battery overtemp 0 Normal 1 Overtemp Bit 11 Battery ground fault 0 Normal 1 Fault Bit 12 Battery fuse fail 0 Normal 1 Fault 00 BCB not connected Bits 14 13 BCB status 01 BCB closed 10 BCB open Bit 15 Output fuse fail no use 0 Normal 1 Fault UPS JBUS MODBUS Adapter User Manual Chapter 3 Protocol Text ID Bit Item Value Bit 0 Bus capacitor over voltage 0 Normal 1 Fault Bit 1 DC bus over voltage 0 Normal 1 Fault Bit 2 Bus short circuit fault no use 0 Normal 1 Fault Bit 3 Input current uneven 0 Normal 1 Fault 1034 Bit 4 Output capacitor need maintenance 0 Normal 1 Fault Bit 5 Input filter transfer time out 0 Normal 1 Time out Bit 6 Battery SCR fault 0 Normal 1 Fault Bit 7 PFC mode abnormal 0 Normal 1 Fault Bit 8 Equalize charge overtime 0 Normal 1 Fault Bits 15 9 Not use 3 UPS status data ID Bit Item Value 000 Neither Normal nor Battery mode 001 Normal mode Bits 2 1 0 Operation m
12. MODBUS Adapter UF MODBUS 1 10 User Manual For Hipluse U Series UPS And iTrust UL33 Series UPS n EMERSON Network Power Contents Chapter 1 Prod ct Description isc ei eds t ee e da Paca ep diee d ier e qns 1 IntrOdUCTIONS inn ee a meg eB REGGIO Ee 1 1 2 Specifications And Features iiec hee e wee We alee 1 1 3 Appearance And Hardware Description mener n nnne 1 Ghapter 2 Installatiori o nio tote o Dim Eie 3 2 1 Unpacking Inspection t i iere Ge Ui a tee dedita See ee ce 3 2 2 Installation pino DR ROI RO ER REP ERE PIREHERAU T 3 2 9 Installation Procedures oie mette ere ee Le be Che a Re ecules 3 2 3 1 Setting Basic Paramlielters oie e mete be ee ibo de Vet pa HU ER onere 3 2 3 2 Plugging In Adaptere iani unninn e dete a Led eoru it ect e ssec redet 5 2 3 3 Connecting Communication Cable ssis eeina neret nnne nnne nnne nnne 5 2 3 4 Setting Communication Parameters In Host Software ssssssssssseeeeeeeeneeneee nennen 6 Ghapter 3 Protocol ince e gestisce qe decas a der eee seed ec dec reae 7 3 1 Protocol Text OMULS3IUPS eb tibt ud E ta het etu e ad e ae dpi ces 7 3 2 Protocol Text Of Hipulse U UPS 10 Gliapter4 Troubleshooting toti te qoe tto M ce D E e e Ee i eT LED IE LE Eb ee 14 Chapter 1
13. N ON ON OFF ON 24 OFF OFF OFF ON ON 25 ON OFF OFF ON ON 26 OFF ON OFF ON ON 27 ON ON OFF ON ON 28 OFF OFF ON ON ON 29 ON OFF ON ON ON 30 OFF ON ON ON ON 31 ON ON ON ON ON Warning The physical address 0 is factory reserved You shall not set the physical address to 0 otherwise the adapter cannot operate normally Setting communication baud rate The communication baud rate of the adapter is set by Bits 6 7 and can be set to 2400bps 4800bps 9600bps or 19200bps 9600bps is the factory default The communication baud rate setting method is shown in Table 2 3 Table 2 3 Communication baud rate setting method Communication baud rate bps Bit 6 Bit 7 2400 OFF OFF 4800 ON OFF 9600 OFF ON 19200 ON ON UPS JBUS MODBUS Adapter User Manual Chapter 2 Installation 5 2 3 2 Plugging In Adapter La Note The adapter is hot pluggable You can install the adapter with shutting down the UPS or FLP User the following steps to plug the adapter in the SNMP slot of the UPS or FLP 1 Remove the SNMP slot cover on the rear panel of the UPS or FLP Retain the SNMP slot cover and the screws for use in the future Refer to the corresponding UPS or FLP user manual for the location of the SNMP slot 2 Align the plug in connector of the adapter with the SNMP slot plug the adapter into the slot along the grooves on both sides of the slot then fix the adapter through the fixing holes on the ad
14. Normal 1 Fail Bit 3 Rectifier overtemp 0 Normal 1 Overtemp Bit 4 Input filter fault 0 Normal 1 Fault Bit 5 Input filter transfer time out 0 Normal 1 Time out Bit 6 Filter contactor fault 0 Normal 1 Fault 1021 Bit 7 REC drive cirtuit fault 0 Normal 1 Fault Bit 8 Rectifier comm fail 0 Normal 1 Fail Bit 9 Inverter overtemp 0 Normal 1 Overtemp Bit 10 Fan fault 0 Normal 1 Fault Bit 11 Inverter STS fail 0 Normal 1 Fail Bit 12 Bypass STS fail 0 Normal 1 Fail Bit 13 Operation invalid 0 Normal 1 Invalid Bit 14 Unit over load 0 Normal 1 Over load Bit 15 System over load 0 Normal 1 Over load Bit 0 Unit over load time out 0 Normal 1 Time out Bit 1 Byp abnormal shutdown 0 Normal 1 Shutdown Bit 2 Output over voltage 0 Normal 1 Over voltage Bit 3 Inverter over current 0 Normal 1 Over current Bit 4 Bypass phase 0 Normal 1 Reverse Bit 5 Load impact transfer 0 Normal 1 Transfer Bit 6 Transfer time out 0 Normal 1 Time out Bit 7 Load sharing fault 0 Normal 1 Fault 1032 Bit 8 DC bus abnormal 0 Normal 1 Abnormal Bit 9 System transfer 0 Normal 1 Transfer Bit 10 Parallel board fault 0 Normal 1 Fault Bit 11 Parallel connect fault 0 Normal 1 Fault Bit 12 Parallel comm fail 0 Normal 1 Fault Bit 13 Bypass over current 0 Normal 1 Over current 00 Not Active Bits 15 14 LBS Active Fault 01 Active 10 Fault Bit 0 Bypass induct overtemp 0 Normal 1 Overtemp Bit 1 Static Sw overtemp
15. Product Description 1 Chapter 1 Product Description 1 4 Introduction The UPS JBUS MODBUS adapter hereinafter referred to as adapter allows you to use your host monitoring software to monitor your Emerson UPS and FLP field lighting power supply system FLP for short equipment through JBUS MODBUS RTU protocol to learn about the equipment operating status by acquiring the equipment electrical parameter data operating data and alarm data Currently the adapter supports the UPS and FLP equipment listed in Table 1 1 Table 1 1 UPS and FLP equipment supported by adapter S N Equipment Equipment series 1 UL33 UPS ITrust series 2 Hipulse U UPS 120 160 200 300 400 kVA Hipulse U series 1 2 Specifications And Features e Protocol JBUS MODBUS eCommunication mode RS485 RS232 eSetting range of physical address 1 31 e Setting range of communication baud rate 2400 4800 9600 default 19200bps e Communication data format 1 start bit 8 data bit 1 stop bit no parity check e CRC16 standard check mode first high byte then low byte Hot pluggable easy to install 1 8 Appearance And Hardware Description Appearance The adapter is a plug in card and should be plugged in the SNMP slot of the UPS and FLP The adapter is shown in Figure 1 1 Plug in connector Communication port Hardware description DIP switch amp kKF communication LED Equipment communication LED
16. apter panel More than ten seconds later you will see the yellow equipment communication LED on the adapter panel flash quickly indicating that the adapter has started to operate normally and the communication between the adapter and the UPS or FLP has been established 2 3 8 Connecting Communication Cable Note RS485 communication cables use twisted pair After plugging in and fixing the adapter you need to connect the communication cable between the communication port of the adapter and the RS232 serial port of the computer Communication port of the adapter The communication port of the adapter is shown in Figure 2 2 RS485 RS232 T T T T Tx Rx GND Figure 2 2 Communication port As shown in the figure the four terminals on the left are for RS485 communication while the three ones on the right are for RS232 communication The terminals are described in Table 2 4 Table 2 4 Communication port terminal description Terminal Description T4 RS485 communication differential signale 2 terminals shorted internally used for cascade connection T RS485 communication differential signal 2 terminals shorted internally used for cascade connection Tx Transmit terminal of RS232 communication signal Rx Receive terminal of RS232 communication signal GND Signal ground Connecting communication cable There are two methods to make the communication connection between the adapte
17. e overtime 0 Normal 1 Fault Bits 15 8 Not defined UPS JBUS MODBUS Adapter User Manual Chapter Protocol Text 9 3 UPS status data ID Bit Item Value 000 Neither Normal nor Battery mode 001 Normal mode Bits 2 1 0 Operation mode 010 Battery mode 011 Bypass mode 100 Source share mode Bit 3 Battery under test 0 Not under test 1 Under test 00 Float charge Bits 5 4 Boost float charge 01 Boost charge 10 Not charging 1040 Bit 6 Turn on off 0 Turn on 1 Turn off Bit 7 Generator connection 0 Connected 1 Not connected Bit 8 Input breaker state 0 Open 1 Closed Bit 9 Manual bypass breaker state 0 Open 1 Closed Bit 10 Automatic bypass breaker state 0 Open 1 Closed Bit 11 Output breaker state 0 Open 1 Closed Bit 12 Generator operation status 0 Not in operation 1 In operation Bit 13 Module output inhibited 0 Yes 1 No Bit 14 Parallel system output inhibited 0 Yes 1 No Bit 15 Not defined 000 Single module 001 Master in hot standby 1041 Bits 2 1 0 UPS property 010 slave in hot standby 011 Master in parallel 100 Slave in parallel Bits 15 3 Not defined 4 UPS analog data ID Byte Item Value 1050 2 AC input phase voltage A 2200 corresponds to 220 0Vac 1051 2 AC input phase voltage B 2200 corresponds to 220 0Vac 1052 2 AC input phase voltage C 2200 corresponds to 220
18. ease start the host monitoring software and set the communication parameters Note that the communication parameter settings in the host monitoring software should agree with the adapter s physical address and communication baud rate settings by the DIP switch For the setting method refer to the user manual of the host monitoring software After setting the communication parameters in the software you will see the green host communication LED of the adapter flash which indicates that the adapter is in normal operation and the communication between the software and the adapter has been established At this point you can view the UPS or FLP data through the software The installation of the adapter is complete UPS JBUS MODBUS Adapter User Manual Chapter Protocol Text 7 3 1 Chapter 3 Protocol Text The preconditions for the user s host monitoring software to monitor the UPS or FLP through the adapter is that the software supports JBUS MODBUS RTU protocol and is able to interpret the JBUS MODBUS RTU protocol text of the corresponding UPS or FLP L3 1 The adapter provides answer only to the 03 query command It will not answer the query commands of other function codes 2 When the adapter answers the 03 query command it will return invalid data address information with abnormal code 02 if the required byte of answer information is bigger than 100 3 In communication through JBUS MODBUS RTU protocol
19. ery temperature 1000 corresponds to 100 Celsius degrees 1100 2 Ambient temperature 1000 corresponds to 100 Celsius degrees 1101 2 Battery aging ratio 10000 corresponds to 100 UPS JBUS MODBUS Adapter User Manual 14 Chapter 4 Troubleshooting Chapter 4 Troubleshooting 1 After plugging the adapter in the SNMP slot of the UPS or FLP the yellow LED equipment communication LED of the adapter does not illuminate Cause analysis and solution the UPS or FLP is off or has no mains input Please turn on the UPS or FLP if the UPS or FLP cannot be turned on please connect the mains input to the UPS or FLP and try again 2 After the adapter is installed the yellow LED equipment communication LED of the adapter illuminates and the host monitoring software cannot monitor the UPS or FLP normally Cause analysis and solution the UPS or FLP is on but the communication between the adapter and the UPS or FLP has not been established Please pull out the adapter check for the presence and proper insertion of the chip on the PCB If the check proves satisfactory the adapter must be damaged please contact the customer service center of Emerson 3 After the adapter is installed the yellow LED equipment communication LED of the adapter flashes about once per 5s and the host monitoring software cannot monitor the UPS or FLP normally Cause analysis and solution the yellow LED flashing once per 5s indicates the adapter cannot detect
20. ode 010 Battery mode 011 Bypass mode 100 Source share mode 0 Not under test Bit 3 Battery selftest 1 Under test 00 Float charge Bits 5 4 Boost float charge 01 Boost charge 10 Not charging Bit 6 Turn on off 0 Turn on 1 Turn off 1040 Bit 7 Generator connection 0 Connecteg 1 Not connected Bit 8 Input breaker state 0 Open 1 Closed Bit 9 Maintenance bypass breaker state 0 Open 1 Closed Bit 10 Bypass breaker state 0 Open 1 Closed Bit 11 Output breaker state 0 Open 1 Closed 00 Normal mode 01 Battery mode Bits 13 12 Parallel system operation mode 10 Bypass mode 11 No output Bits 15 14 No use 000 Closed 001 Under test Bits 2 1 0 Bypass rotary switch state 010 Normal 011 Bypass state 100 Maintenance state 104 Bits Filter state 9 Not Connected 1 connected 0 Not Sleep Bit4 Sleep state 1 Sleep Bit 5 Rectifier work state mode 1 PFC mode Bits 15 6 No use 4 UPS analog data ID Byte Item Value 1050 2 AC output phase voltage A 2200 corresponds to 220 0Vac 1051 2 AC output phase voltage B 2200 corresponds to 220 0Vac 1052 2 AC output phase voltage C 2200 corresponds to 220 0Vac 1053 2 AC output current A 1000 corresponds to 100 0A 1054 2 AC output current B 1000 corresponds to 100 0A 1055 2 AC output current C 1000 corresponds to 100 0A 1056 2 Battery voltage 1000 corresponds to 100Vdc 1057 2 Output frequency 3 phases the same 5000 corresponds to 50 00Hz 1058 2 AC input line voltage AB 3800 c
21. orresponds to 380 0Vac UPS JBUS MODBUS Adapter User Manual Chapter Protocol Text 13 ID Byte Item Value 1059 2 AC input line voltage BC 3800 corresponds to 380 0Vac 1060 2 AC input line voltage CA 3800 corresponds to 380 0Vac 1061 2 Phase A input current 1000 corresponds to 100 0A 1062 2 Phase B input current 1000 corresponds to 100 0A 1063 2 Phase C input current 1000 corresponds to 100 0A 1064 2 Input frequency 3 phases the same 5000 corresponds to 50 00Hz 1065 2 Total input power factor 100 corresponds to 1 1066 2 Phase A bypass voltage 2200 corresponds to 220 0Vac 1067 2 Phase B bypass voltage 2200 corresponds to 220 0Vac 1068 2 Phase C bypass voltage 2200 corresponds to 220 0Vac 1069 2 Bypass frequency 3 phases the same 5000 corresponds to 50 00Hz 1070 2 Battery current 1000 corresponds to 100 0A 1071 2 Phase A output power factor 100 corresponds to 1 1072 2 Phase B output power factor 100 corresponds to 1 1073 2 Phase C output power factor 100 corresponds to 1 1074 2 Module Phase A output peak value 100 corresponds to 1 1075 2 Module Phase B output peak value 100 corresponds to 1 1076 2 Module Phase C output peak value 100 corresponds to 1 1077 2 Module Phase A output active power 10000 corresponds to 100 00kW 1078 2 Module Phase B output active power 10000 corresponds
22. r and the host computer 1 RS232 communication Make the connection between the adapter and the computer using the method shown in Table 2 5 Table 2 5 Connection bet adapter and computer RS232 Communication port of adapter RS232 port of computer DB9 male Tx Pin 2 Rx Pin 3 GND Pin 5 UPS JBUS MODBUS Adapter User Manual Chapter2 Installation 2 3 4 2 RS485 communication Where RS485 communication is used please provide an RS232 to RS485 converter for yourself and make the connection between the adapter and the computer using the method shown in Table 2 6 and Table 2 7 For details of the communication ports of the RS232 to RS485 converter please refer to the user manual of the converter Table 2 6 Connection bet adapter and RS232 RS485 converter RS485 Communication port of adapter RS485 port of RS232 to RS485 converter T RS485 communication differential signal T RS485 communication differential signal Table 2 7 Connection bet RS232 RS485 converter and computer RS485 RS232 port of RS232 to RS485 converter RS232 port of computer DB9 male RS232 data transmission terminal Pin 2 RS232 data receiving terminal Pin 3 Signal ground Pin 5 Warning RS232 communication and RS485 communication cannot be used at the same time Setting Communication Parameters In Host Software After making communication connection pl
23. the adapter is passive waiting for the host monitoring software to query it The following sections provide the JBUS MODBUS RTU protocol texts of various UPSs or FLPs Protocol Text Of UL33 UPS 1 UPS basic information D w s J valu 1000 10 TT 105 20708 corresponds o VT 1006 1015 EmersonNetworkPower 107 OB corresponds 2 UPS alarm data ID Bit Item Value Bit 0 UPS alarm flag 0 Normal 1 Alarm Bit 1 Adapter communication failure flag 0 Normal 1 Fault Bit 2 Not defined jen 0 Normal Bit 3 Synchronization Unsynchronization 1 Unsynchronization 00 Normal Bits 5 4 Mains voltage 01 Abnormal 10 Undervoltage Bit 6 Rectifier 0 Normal 1 Fault 1030 Bit 7 Inverter 0 Normal 1 Fault 00 Normal Bits 9 8 Bypass voltage or frequency 01 Outside synchronization range 10 Outside protection range 000 Normal 001 No battery 010 Below lower limit EOD point uL pallens vonage status 011 Above upper limit voltage too high 100 Battery reverse connection 101 Pre alarm Bits 15 13 Not defined 0 Normal Bit 0 Battery test result 1 need replacement Bit 1 Mains frequency 0 Normal 1 Abnormal 1031 Bit 2 Input transformer over temperature 0 Normal 1 Over temperature Bit 3 Output transformer over temperature 0 Normal 1 Over temperature Bit 4 Inverter SCR damaged 0 Normal 1 Abnormal Bit 5 Bypass SCR damaged 0 Normal 1
24. ut over current impact 0 Normal 1 Fault Bit 12 Inverter module over current 0 Normal 1 Fault Bit 13 Rectifier module over current 0 Normal 1 Fault Bits 15 14 Not defined Bit 0 Transfer to bypass due to load impact 0 Normal 1 Fault Bit 1 Transfer limitation 0 Normal 1 Fault Bit 2 Parallel load sharing fault 0 Normal 1 Fault Bit 3 Turn off due to low bus voltage 0 Normal 1 Fault Bit 4 Other module requests transfer to bypass 0 Normal 1 Fault Bit 5 Ambient temperature too high 0 Normal 1 Fault Bit 6 Ambient alarm channel 1 fault 0 Normal 1 Fault 1033 Bit 7 Ambient alarm channel 2 fault 0 Normal 1 Fault Bit 8 Ambient alarm channel 3 fault 0 Normal 1 Fault Bit 9 Ambient alarm channel 4 fault 0 Normal 1 Fault Bit 10 Ambient alarm channel 5 fault 0 Normal 1 Fault Bit 11 Ambient alarm channel 6 fault 0 Normal 1 Fault Bit 12 Ambient alarm channel 7 fault 0 Normal 1 Fault Bit 13 Ambient alarm channel 8 fault 0 Normal 1 Fault Bit 14 Rectifier communication fault 0 Normal 1 Fault Bit 15 Inverter communication fault 0 Normal 1 Fault Bit 0 Parallel board fault 0 Normal 1 Fault Bit 1 DC bus overvoltage fault 0 Normal 1 Fault Bit 2 Batt Convertor Fault 0 Normal 1 Fault Bit 3 Battery Fuse Fault 0 Normal 1 Fault 1034 Bit 4 Batt Conv Comm Fail 0 Normal 1 Fault Bit 5 Battery Voltage Abnormal 0 Normal 1 Fault Bit 6 Rectifier inductor over temperature 0 Normal 1 Fault Bit 7 Equalize charg
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