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AcuRev 2000 Manual

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1. 2D87H Channel 1demand R Same as phase A 2DAAH data demand 173 180 2DABH Channel 2 demand R Same as phase A 2DCEH data demand 181 188 2DCFH Channel 3 demand R Same as phase A 2DF2H data demand 189 196 2DF3H Channel 4 demand R Same as phase A 2E16H data demand 197 204 2E17H Channel 5 demand R Same as phase A 2E3AH data demand 205 212 2E3BH Channel 6 demand R Same as phase A 2E5EH data demand 213 220 2E5FH Channel 7 demand R Same as phase A 2E82H data demand 221 228 2E83H Channel 8 demand R Same as phase A 2EA6H data demand 229 236 2EA7H Channel 9 demand R Same as phase A 2ECAH data demand 237 244 2ECBH Channel 10 demand R Same as phase A 2EEEH data demand 245 252 2EEFH Channel 11 demand R Same as phase A 2F12H data demand 253 260 2F13H Channel 12 demand R Same as phase A 2F36H data demand 261 268 2F37H Channel 13 demand R Same as phase A 2F5AH data demand 269 276 2F5BH Channel 14 demand R Same as phase A 2F7EH data demand 277 284 2F7FH Channel 15 demand R Same as phase A 2FA2H data demand 285 292 2FA3H Channel 16 demand R Same as phase A 2FC6H data demand 293 300 223 AcuRev 2000 AcuRev 2000 2FC7H Channel 17 demand Same as phase A 2FEAH data demand 301 308 2FEBH Channel 18 demand Same as phase A 300EH data demand 309 316 The same as to inline system Channel 1 3 phase
2. Front View 85 o Ej 70 a a D S8 Ss 3 2 o HE DO 1 2 GES DEG D A Er m cS eS mmm gt 22 SCT 20 25 75 98 22 SCT 80 25 75 98 22 SCT 150 25 75 98 22 SCT 200 25 75 98 22 Figure c 255 AcuRev 2000 AcuRev 2000 256 Ss 107 m z SCT 250 SCT 1000 N o Og P 3 Ss o z q 26 rm SCT 250 45 107 109 26 m SCT 1000 45 107 109 26 gure AcuRev 2000 Appendix D TP900 meter reader Instructions AcuRev 2000 series meters support on site infrared meter reader meter reading before meter reader and meter needs for simply setup and then use the TP900 meter reader reads the brightest active energy values 1 TP900 meter reader settings Boot into the main menu as shown in Figure 1 Select 7 Exec Program press ENTER Main Menu 1 Communication 2 User Program 3 System Setup 4 System Info 5 System Test 6 File Manager 8 Power Off 9 Help key to enter into the program list screen shown in Figure 2 Acu CHN bxe Figure 1 Figure 2 There are two programs to choose from Acu ENG bxe is the English program Acu CHI bxe is the Chinese program To use English program you can use up and down keys 257 option to Acu ENG bxe as shown in Figure 2 and then right click Figure 3 wi
3. 3 9 Network Settings e eoe eee eene eene enm nennen Ee 3 10 Meter information and key operation Chapter 4 Functions and Software 4 1 Basic Parameter Functions AcuRev 2000 4 2 1 O Functions 81 4 3 Demand 84 4 4 Energy 2 92 9222 n nnn nnn nnn nnn mM 86 4 5 Sequence of Event 92 4 6 Over Under Limit Alarming 4 7 System Event 96 4 8 Trending Record 97 4 9 Seal FUNCtION 101 4 10 Device Information 112 Chapter 5 Communication 113 5 1 Modbus Protocol Introduction 114 5 2 Modbus Communication Forma
4. 1 phaseVoltageA 0 integer 0 2 phaseVoltageB 0 integer 0 3 phaseVoltageC 0 integer 0 4 averagePhaseVoltage 0 integer 0 5 lineVoltageAB 0 integer 30540 582 user16MappingRelationships 0 integer 272 583 user17Name 0 octet string user17 75 73 65 72 31 37 hex 584 user17MappingRelationships 0 integer 273 585 user18Name 0 octet string user18 75 73 65 72 31 38 hex 586 user18MappingRelationships 0 integer 277 587 threePhaselnputWiringType 0 integer 2 SNMP QUERY FINISHED 5 Get a value Right Click on one MIB OID which you want to query then select Get Da and then return the OID value For example the followings demonstrate the result of getting the value of phaseVoltageA Operation Get 156 Reguest binding 1 phaseVoltageA 0 null null Response binding 1 phaseVoltageA 0 integer 0 NIB Browser Prof onal Developer read only able View Copy OID A Toggle Bookmark MRI Properties Figure 5 29 S S S E las 5 3 12 SNTP Function AcuRev 2000 Ethernet communication supports SNTP Simple Network Time Protocol protocol so meters can get update time to Coordinated Universal Time UTC Please find the SNTP Settings Network Settings by Internet Explorer v SNTP Enable SNTP Interval 10 min Default 10 Scope 1 560000 SNTP Server
5. AcuRev 2000 Reserve Clear Clear Clear Clear Clear SOE Clear Clear this battery meter event alarm records demand month and runtime runtime records records historical energy Meter and Battery Runtime Function Code 03 Read Data Type Word 1050H 1051H Meter R Dword Runtime 1052H 1053H Battery R Dword Runtime Clock Function Code 03 Read Function Code 16 Write Date Type Word 1054H Year R W 0 99 Word 1055H Month R W 1 12 Word 1056H Day R W 1 31 Word 1057H Hour R W 0 23 Word 1058H Minute R W 0 59 Word 1059H Second R W 0 59 Word 105AH Week R W 0 6 0 Sunday Word Over Under Limit Alarming There are a total of 10 groups for alarming each group follows the same format Function 177 AcuRev 2000 Code 03 Read Function Code 16 Write setup Group 1 105BH Parameter R W 0 352 Number 1 larger than 105CH ili R W 2 equal to P 3 smaller than 105DH Group 1 Set R W Related percentage Value 105EH dM 0 30000ms Delay Time Group 1 0 disabled 105FH Output to RO R W 1 4 RO number 1060H 1064H Group 2 R W The same as Group 1 Integer setup 1065H 1069H Group 3 R W The same as Group 1 Integer setup 106AH 106EH roupi R W The same as Group 1 Integer setup 106FH 1073H Groupo R W The same as Group 1 Integer setup 1074H 1078H Gr
6. DI Category x8 DI Unit x8 ced oe ee DI Pulse Counter clear 5 When bit 4 of address 8AFH is valid parameters below should be blocked 1054H Year V V 1055H Month V v 1056H Day V vV 1057H Hour V V 1058H Minute V V 1059H Second V NI 105AH Week V v Note Standard time is valid within 5 minutes it will be invalid if not in this range 8AEH Ten years download setting enable TOU 1093H 109EH Basis parameter of TOU 108 10B0H 10D9H v 10DAH 1229H v 122AH 1283H v Current TOU energy 2600H 2627H In line Current TOU energy y 2628H 2717H Each channel Current TOU energy se y DST setting 4000H DST enable V 4001H DST format V 4002H DST Start Mon V 4003H DST Start Day V 4004H DST Start Hour V 4005H DST Start Min V 4006H DST Start Adjust time Unit Min NI 4007H DST Ending Mon y 4008H DST Ending Day NI 4009H DST Ending Hour V 400AH DST Ending Min NI 400BH DST Ending Adjust time Unit Min y 400CH DST Start Mon V 400DH DST Start week V 400EH DST Start First few weeks NI 400FH DST Start Hour V 4010H DST Start Min V 4011H DST Start Adjust time Unit Min ES NI 4012H DST Ending Mon v 4013H DST Ending Week v 4014H DST Ending First few weeks V 40
7. poo 22 3 Tenen 18 T T T vvv I Tenent 17 I Sie come le Tenent 16 T T NE vw F Tenent 15 A glia E Tenent 14 SS e FR ov E Tenent 13 gla z Sl Tenent 12 a Sw C ox Ja 1 SF Lum az ol gt DM2 Load Figure 2 26 Single Phase Out DM C 2 Three phase 4 out 3LN Table 2 2 Three Phase 4 Out current Tenant 1 Tenant 2 Tenant 3 Tenant 4 Tenant 5 n 110 111 Phase A Phase B Phase C AcuRev 2000 EM Vn v3 v2 vi 33 34 35 36 VOLTAGE INPUTS EM1 CURRENT INPUTS EM2 CURRENT INPUTS n 12 B 4 15 16 7 18 19 nojn1 12 n3 ta ns 116 m7 is B sa peo nz o ae se eno v ness s el n ESE SEGE EL de Load A fent Phase I pon ant 2 Phase A stu ant 3 Phase A B E enti Phase I E ant Phase poni EED EIE EET al Temi Phat Tent Phase A Den Tent Phase A Des rane Phase A m reant s Phasen E Tent Phase Des fent 6rmase stu ant phase Ud EE E Tent Phase C Figure 2 27 Three Phase 4 Out EM DM Teant 3 Phase C Teant 2 P
8. 0007 myy 1 1 Meter Overview 1 2 Areas of Application 1 3 AcuRev 2000 features AcuRev 2000 series performs real time metering measures energy consumption and monitors power quality for up to 18 single phase circuits or 6 three phase circuits in one unit It is an advanced intelligent power meter that Accuenergy developed and manufuctured for the next generation smart grids The main features include multi tenants submetering cyclic display tamper proof which make it highly suitable for large commercial facilities residential apartments and industrial environments AcuRev 2000 series has infrared RS485 and Ethernet communication options as well as VO options e g Pulse Counting from water or gas meters making it useful in energy management systems Due to its communication capability ease of installation and use this product can be easily integrated into new and existing energy management systems AcuRev 2000 Measurement Function Voltage Line Voltage Phase Voltage Current In line Current Each Tenant Current Power and Power Factor In line and Each Tenant Power Reactive Power Apparent Power Power Factor Frequency System Frequency Demand In line and Each Tenant Power Reactive Power Apparent Power and Current Demand Energy Function Energy KWh measurement meeting international standards Accuracy is Class 0 5 It has Time of Use feature 14 Seasons 14 Schedules 4 Tariffs
9. AcuRev 2000 PO SET NET INFO fox Usero1 HDI S userot k Factor Th harmonic 8 130 harmonic SUM ODD EVEN ser actor n harmonic 7 harmonic v v ratio v ratio aJfv A User01 HARMONIC A User01 HARMONIC A User01 HARMONIC I LR 26th 31st harmonic he 20th 25th harmonic nu 14th 19th harmonic y ratio v ratio v ratio Figure 3 17 Single phase power quality 2 Three Phase 4 Out 3LN POSET NET INFO fox Useror uneli Users THDIa Usero1 THD Ib A Useror THDIc Usero1 KFactor mo gt SUMODDEVEN lt SUMODDEVEN SUMODDEVEN ABC v v v v al ty User i HARMONICIa A User i HARMONICIa A User i HARMONICTa a Usero HARMONICIa a Usero HARMONIC la 26th 31st harmonic 20th 25th harmonic 5 14th 19th 8th 13th harmonic 2nd 7th harmonic ratio v ratio wW __harmonic ratio v ratio v ratio 68 ality User01 HARMONIC Ib 2nd 7th harmonic ratio User01 HARMONIC Ib 8th 13th harmonic ratio User01 HARMONIC Ib 14th 19th harmonic ratio A 5 k y v ratio User01 HARMONIC Ib A 20th 25th harmonic User01 HARMONIC Ib 26th 31st harmonic ratio 1 al ly User01 HARMONIC Ic 26th 31st harmonic ratio User01 HARMONIC Ic 20th 25th harmonic ratio a Pa aard Y User01 HARMONIC Ic 14th 19th harmonic ratio A gt i v ratio User01 HA
10. Tent Phase A D CE f po Tem S Phase O Teanta Phase pon Tess Phase n ET Figure 2 29 Single Phase 3 Out EM DM AcuRev 2000 z DOOP EE EUH er E nge f Ed r E rens phase ES 3 2 E ran fasc B Spe f t ES 2 SS eant Phases ER Teant3 Phase A nana E y N S Teant2 Phase A A r REC fa Erra I fanaa pz RE L1 N es DMI OP eel DI T T im a ge 53 P 5 i i gt n t6 Phase B Eg SIE tento Phase pina Erens rcd E SIE ud IE ren LS Ea EET DR REI Cm 4 OVS Teant 5 Phase A 23rL poe zig Co m SS reca Phase sE mar a lk DM2 is Figure 2 30 Single Phase 3 Out DM z AcuRev 2000 Communication AcuRev 2000 communication utilizes RS485 port via Modbus RTU protocol The wiring terminals are A B S 1 2 3 A is called differential signal B is called differential signal S is connected to the shielding of shielded twisted pair cable The maximum distance of Shielded Twisted Pair cable is 1200 m The distance will be shorter if more devices are on the same communication link or using a higher baud rate If the master device does not have RS485 but RS232 port a RS232
11. None mode users disable both Triggered Sending and Timed Sending modes Note Mail Server part includes SMTP Server User Name and Password For the SMTP Server users can input either domain name such as mail accuenergy com or an IP address such as 222 128 6 73 which is from mail accuenergy com resolved A user name and password will be required to log in AcuRev 2000 AcuRev 2000 Mail Information Mail From Acurey 2000 Example Technical Support Mail To 1 abcBaccuener gy con cn Example abe accuenergy com Mail To 2 Example abe gmail com Mail To 3 Example abo yahoo com Subject Metering Example test mail Mail Server SMTP Server mail accuener gy con c User Name testi accuenergy con Password Mail Content Triggered Sending arm event CI soe Evert C system Evert Timed Sending 0 min Time Scope 5 1440min 0 for disable Metering energy Harmonics C demand C Alarm Record DD SOE Record DD system Record Figure 5 18 d Web Configuration Settings Webpage AcuRev 2000 Figure 5 19 Webpage Settings page Users set the Device Description according to the meter type ALCUENZAGY Main Page Data Settings Webpage Configuration Setting Module Status Device Description Acurev2000 Example Feed line s name Figure
12. harmonic distortion AcuRev 2000 AcuRev 2000 Channel 3 Current Even SH harmonic distortion Word Channel 3 Current K Factor were Channel 4 Current Odd o Word harmonic distortion Channel 4 Current Even Word harmonic distortion Channel 4 Current Word K Factor Channel 5 Current Odd Word harmonic distortion Channel 5 Current Even Word harmonic distortion Channel 5 Current K Factor Word Channel 6 Current Odd Word harmonic distortion Channel 6 Current Even Word harmonic distortion Channel 6 Current Word K Factor Channel 7 Current Odd Word harmonic distortion Channel 7 Current Even Word harmonic distortion Channel 7 Current Word K Factor Channel 8 Current Odd Word harmonic distortion Channel 8 Current Even Word harmonic distortion 32B7H Channel 8 Current R Word K Factor AcuRev 2000 32B8H Channel 9 Current Odd R harmonic distortion 32B9H Channel 9 Current Even R harmonic distortion 32BAH Channel 9 Current R K Factor Channel 10 Current 32BBH Odd harmonic R distortion Channel 10 Current 32BCH Even harmonic R distortion 32BDH Channel 10 Current R K Factor Channel 11 Current 32BEH Odd harmonic R distortion Channel 11 Current 32BFH Even harmonic R distortion Channel 11 Current seen K Factor R Channel 12 Current 32C1H Odd harmonic R distortion Channel 12 Current 32
13. DI Type Di Come Puse 1 Tunis 000 RMB Di2 Counter Puse 1 ium 10000 ame Cadiz DI3 Come z Puse t iunt 1000 ers Cela DI4 Counter gt f Pulse 1 1Unit i200 s zi Clear DIA DIS Counter 1 Puse 1 1Unt i30 ma z fendi DIE Counter z f Puse 1 Tun io f z EesrDi DI Counter Puse 1 Aunt o fh Deo DI8 Counter v Puse 1 1Unit 2100 fr z Cade PRO Type RO Oupa Mode Ro Relay Contiol x Rot on zl R02 Relay Contol ee EI ROI Lich os R03 Relay Corto RD4 os m EE RO Pulse Width 0 me System Event Alarm Enable Output Reset T Re El DI Synchronization Demand T Ret zi Command Synchronization Demand T Ret Reset Energy OT Rei E Reset Device Run Time r Pes sl Reset Belle Run Time ro Rei z P En Relay 1 zl r est x Modiy TOU Setings T Res zi Modify Clock T Petey El Reverse Power PC Rest z Reset DI Pulse Counter TT res RO Alam Output Time 60S Save Load Update Device Figure 4 6 DI RO and System Event alarming setup 83 AcuRev 2000 DO Function AcuRev 2000 AcuRev 2000 has 4 DO output 2 channel energy pulse output the two channel can be used to send out independant energy pulses see Appendix B Pulse Constant Pulse Width can be set Tenant Number Pulse Constant and Pulse Width settings can be implemented as Figure 4 2 shows 1 channel demand cycle pulse output 1 channel second pulse output is used to check t
14. Year Month Day Hour Minute Second Trending Log Status Trending Log Status describes the current status of each record Logging 1 Max Record 3C00H 3C01H R 0 468100 record 3Co2Hu3coan Lodging 1 Used R 0 468100 Record 3C04H Legging 1 Record ip 14 246 Size 3C05H Reserved 3c06H 3c08H bogging 1 First R Record Time 3CO9H 3CobH Logging 1 Last R Record Time 3D00H 3D01H bogging 2 Used R 0 468100 Record 3D02H 3D03H dux tae R 0 468100 3D04H Reserved R 14 246 Logging 2 First 3005H Record Time 3D06H 3D08H Logging 2 Last R Record Time 3D09H 3D0bH Logging 2 Used R AcuRev 2000 AcuRev 2000 3E00H 3E01H Logging 3 Used R 0 468100 dword Record 3E02H 3E03H can uel R 0 468100 dword 3E04H Reserved R 14 246 word Logging 3 First 3E05H Record Time R 3E06H 3E08H Hogging 3 Last R word Record Time 3E09H 3E0bH Logging 3 Used R word Record Max Record the maximum number of records the log can record based on the given Record Size and Sector Number Used Record The record number of the log when the log is full it should equal Max Record When the log is reset User Record will be changed to 0 Record Size Each record size in the log including timestamp The trending record format is Record Number Abytes Timestamp 6bytes Data1 DataN 2Nbytes CRC 2bytes Record Star
15. 1 The display module displays the user Low byte 0 Disable 1 18 The corresponding physical channel 19 24 corresponding channel 1 6 three phase users 0x0105 853H 855H user06 user name R W user name 6 ASCII user06 AcuRev 2000 AcuRev 2000 856H Mappings R W High byte 0 The display module does not display the user 1 The display module displays the user Low byte 0 Disable 1 18 The corresponding physical channel 19 24 corresponding channel 1 6 three phase users 0x0106 Word 857H 859H user07 user name R W user name 6 ASCII user07 Word 85AH Mappings R W High byte 0 The display module does not display the user 1 The display module displays the user Low byte 0 Disable 1 18 The corresponding physical channel 19 24 corresponding channel 1 6 three phase users 0x0107 Word 85BH 85DH user08 user name R W user name 6 ASCII user08 Word 85EH Mappings R W High byte 0 The display module does not display the user 1 The display module displays the user Low byte 0 Disable 1 18 The corresponding physical channel 19 24 corresponding channel 1 6 three phase users 0x0108 85FH 861H user09 user name R W user name 6 ASCII user09 862H Mappings R W High byte 0 The display module does not displ
16. 20 12000 Phase A B C reactive energy 21 12100 System apparent energy 22 12200 Phase A B C apparent energy Demand Inline 20100 System active power demand System reactive power demand System apparent power demand Acurev2010 only has active power demand 20200 Phase A B C active power demand 20300 Phase A Real Power Demand prediction Phase A Real Power Demand Peak and happening time 20400 Phase B Real Power Demand prediction Phase B Real Power Demand Peak and happening time 20500 Phase C Real Power Demand prediction Phase C Real Power Demand Peak and happening time 20600 Phase A B C Reactive power demand 20700 Phase A Reactive Power Demand prediction Phase A Reactive Power Demand Peak and happening time 20800 Phase B Reactive Power Demand prediction Phase B Reactive Power Demand Peak and happening time 20900 Phase C Reactive Power Demand prediction Phase C Reactive Power Demand Peak and happening time AcuRev 2000 AcuRev 2000 Demand Inline 21000 Phase A B C Apparent power demand 21100 Phase A Apparent Power Demand prediction Phase A Apparent Power Demand Peak and happening time 21200 Phase B Apparent Power Demand prediction Phase B Apparent Power Demand Peak and happening time 21300 Phase C Apparent Power Demand predicti
17. Epin C inline Phase C prior month TOU energy tariff 1 dwod 2922H 2923H 2924H 2925H Epin C inline Phase C prior month TOU energy tariff 2 Epin C inline Phase C prior month TOU energy tariff 3 dwod dwod 2926H 2927H Epin C inline Phase C prior month TOU energy tariff 4 dwod Channel 1 18 single phase 3 Channel 1 6 3 phase 4 line single phase 3 line prior month TOU energy Channel 1 prior 2928H 2929H month TOU energy R total Channel 1 prior 292AH 292BH month TOU energy R Tariff 1 Channel 1 prior 292CH 292DH month TOU energy R Tariff 2 AcuRev 2000 AcuRev 2000 292EH 292FH Channel 1 prior month TOU energy Tariff 3 dwod 2930H 2931H Channel 1 prior month TOU energy Tariff 4 dwod 2932H 293BH Channel 2 prior month TOU energy The same as Channel 1 dwod 293CH 2945H Channel 3 prior month TOU energy The same as Channel 1 dwod 2946H 294FH Channel 4 prior month TOU energy The same as Channel 1 dwod 2950H 2959H Channel 5 prior month TOU energy The same as Channel 1 dwod 295AH 2963H Channel 6 prior month TOU energy The same as Channel 1 dwod 2964H 296DH Channel 7 prior month TOU energy The same as Channel 1 dwod 296EH 2977H Channel 8 prior month TOU energy The same as Channel 1 dwod 2978H
18. Protocol Reguest Indication Modbus Client Modbus Server rat Confirmation Response Figure 5 13 a Data Frame Format Table 5 15 MBAP Header Function Data 7x8 Bits 8 Bits Nx8 Bits b Modbus Application Header MBAP Header Field The Modbus application header field is the start of the data frame and consists of seven bytes Table 5 16 Transaction 2 Bytes Identification of a Modbus Request Response transaction Identifier Protocol Identifier 2 Bytes Modbus protocol 0 Length 2 Bytes Number of following bytes Unit Identifier 1 Byte Slave address in the range of 0 247 decimal c Function Field The function code field of a message frame contains eight bits Valid codes are in the range of 1 255 decimal When a message is sent from a client to a server device the function code field tells the server what kind of action to perform AcuRev 2000 AcuRev 2000 Table 5 17 01 Read Relay Output Status Obtain current status of Relay Output 02 Read Digital Input DI Status Obtain current status of Digital Input 03 ReadData Obtain current binary value in one or more registers 05 Control Single Relay Output Force Relay to a state of on or off 16 Write Multiple registers Place specific value into a series of consecutive multiple registers d Data Field The data field is constructed using sets of two hexadecimal digits in the range of 00 to FF
19. R W dword time energy 2526H 2527H N R W dword time energy 2528H 2529H Channel 17 real gy dword time energy 252AH 252BH Channel 18 real pny dword 204 252CH 252DH Channel 1 3 phase 4 line single phase 3 line real time system active power energy R W 252EH 252FH Channel 2 3 phase 4 line single phase 3 line real time system active power energy R W 2530H 2531H Channel3 3 phase 4 line single phase 3 line real time system active power energy R W 2532H 2533H Channel 4 3 phase 4 line single phase 3 line real time system active power energy R W 2534H 2535H 2536H 2537H Channel 5 3 phase 4 line single phase 3 line real time system active power energy Channel 6 3 phase 4 line single phase 3 line real time system active power energy R W R W TOU Energy This Month TOU Eenergy AcuRev 2000 AcuRev 2000 Inline this month TOU energy 2613H tariff 4 2600H Epin S inline system 2601H this month TOU energy RW died Epin S inline system 2602H this month TOU energy R W dwod 2603H x tariff 1 Epin S inline system 2601n this month TOU energy R W dwod 2605H tariff 2 Epin S inline system 2606F this month TOU energy R W dwod 2607H tariff 3 Epin S inline system pd this month TO
20. dwod Channel 1 this month TOU energy Tariff 2 R W dwod Channel1 this month TOU energy Tariff 3 R W dwod Channel1 this month TOU energy Tariff 4 R W dwod Channel 2 this month TOU energy The same as Channel 1 R W dwod Channel 3 this month TOU energy The same as Channel 1 R W dwod Channel 4 this month TOU energy The same as Channel 1 R W dwod Channel 5 this month TOU energy The same as Channel 1 R W dwod Channel 6 this month TOU energy The same as Channel 1 R W dwod Channel 7 this month TOU energy The same as Channel 1 R W dwod Channel 8 this month TOU energy The same as Channel 1 R W dwod Channel 9 this month ae TOU energy The same R W dwod 2681H as Channel 2 2682H Channel 10 this month TOU energy The same R W 268BH as Channel 1 268CH Channel 11 this month TOU energy The same R W 2695H as Channel 2696H Channel 12 this month TOU energy The same R W 269FH as Channel 1 26AOH Channel 13 this month TOU energy The same R W 26A9H as Channel 1 26AAH Channel 14 this month TOU energy The same R W 26B3H as Channel 1 26B4H Channel 15 this month TOU energy The same R W 26BDH as Channel 1 26BEH Channel 16 this month TOU energy The same R W 26C7H as Channel 1 26C8H Channel 17 this month TOU energy The same R W 26D1H as Channel 1 e
21. for instance ifthe season number is 2 it only runs the first 2 seasons Schedule the maximum schedule number is 8 If the schedule number is set as 3 the 4th to the 14th schedules will be unavailable Segment the maximum segment number is 14 If the segment is set as 4 the 5th to the 14th segments will be unavailable Only the first 4 segments are available Tariff the maximum tariff number is 4 If tariff number in the schedule is larger than the set tariff number or equals 0 the energy in this schedule will be using tariff 1 Weekend setup the schedule number according to weekends Holiday the maximum holiday number is 30 If it is set as 0 it indicates public holiday disabled For instance public holidays such as January 1 December 25th which users can set Public holidays and their schedule number can be configured as different public holidays by using different schedule numbers Note if the public holiday and weekend schedule number is set as 0 it means these public holidays are unavailable If the weekend and public holidays are overlapped the public holiday overrides the weekend setting holiday has the higher priority Parameter Settings changing tariff settings will do an auto check If there is an error found it will send out an alert and an error message status In the error state all tariffs should follow tariff 1 until the status is corrected Season and Schedule settings must be continous the starting time o
22. time windows com Time Zone Selecting UTC 08 00 Beijing Chongqing Hong Kong Urumqi v Figure 5 30 1 Data Type Bit is binary value Word is 16 bit unsigned integer using one register address 2 bytes The data range is 0 65535 int is 16 bit signed integer using one register address 2 bytes The data range is 32768 32767 dword is 32 bit unsigned integer using two register addresses high bytes followed by low bytes using 4 bytes in total The data range is 0 4294967295 Rx High Word x 65536 Low Word float is single precision floating point using two register addresses 4 bytes The data range is 0 0 3 402823E 38 2 The relationship between communication value and real value The meter s communication value does not always equal the real value There is a conversion relationship between them It is very important to be aware of the parameter relationship when users design a communication software otherwise the result may be incorrect AcuRev 2000 AcuRev 2000 Parameter Relationship Unit System Parameter Status The communication value g No Unit Parameter equals the real value Meter and Battery runtime T Rx 100 Hour Real time Clock Timestamp Hie communication valde Time Unit equals the real value Ep kWh Energy E Rx 10 A decimal Eq kvarh Es kVAh Dp kW Demand The communication value Dq kvar equals the re
23. tole e 7 eo s 2 0 y ON a gt wa 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 v Dn DI DS DA DE DI Dr DB V IROT1 RO12RO21 RO22 RO31 RO32 RO41 RO42 DIGITAL NPUTS RELAY OUTPUTS Figure 2 20 Meter Base Terminals External CT Module EM Terminals The upper row has voltage input terminals the lower row has current input terminals 9 channel inputs correspond to 11 19 it only requires one EM1 module 18 inputs correspond to 11 118 it requires two modules EM1 and EM2 The following figure shows 18 channel inputs EM1 EM2 VOLTAGE INPUTS VN v v2 vi 33 34 35 36 38 40 42 44 46 48 so s2 54 56 58 60 62 64 66 68 70 72 11 1 13 wis 16 i i8 ro 110 111 112 113 14 ris i6 7 ns 37 39 41 43 45 47 49 st sa 55 57 se er 63 65 67 eo 71 EMI CURRENT INPUTS EM2 CURRENT INPUTS Figure 2 21 External CT Module terminals Internal CT Module DM Terminals The upper level has voltage input terminals the lower level has voltage output terminals 9 channel inputs corresponds to V1 V3 it only requires one DM1 module 18 channel inputs corr
24. 12 Preset tenant 1 s real time energy Response The correct response is to send back address function code data starting address data bytes CRC check after the value is changed Data start Data start Data of Data of CRC16 CRC16 Addr Fun a reg hi reg lo reg hi Reg lo hi lo 11H 10H 25H 08H 00H 02H C9H 96H Table 5 13 Preset Multi reigster response frame 5 3 1 Introduction to Ethernet Ethernet was originally developed by Xerox and then developed further by Xerox DEC and Intel Ethernet uses a Carrier Sense Multiple Access with Collision Detection CSMA CD protocol and provides transmission speeds up to 10 Mbps Now Ethernet stands for LAN with CSMA CD protocol Ethernet is the most current communication standard in LAN This standard defines the used type of cable and the method of Signal processing in LAN 5 3 2 Function Description of Ethernet module Please read appendix of technical data and specifications of Ethernet module before using The Ethernet module supports Modbus TCP protocol It is used as a server the default value of the protocol port is 502 and the user defined range of the protocol port is 2000 5999 The device address is the same as the meter The Ethernet module supports SMTP protocol It has an email function and supports Send mail for timing mode and Send mail for event mode The Ethernet module supports HTTP protocol It is used as an HTTP ser
25. 485 converter can be utilized Typical RS485 network topologies include line circle and star wye In order to improve communcation quality please pay attention to 1 High quality Shielded Twisted Pair cable is very important AWG22 0 6mm or lower is recommended Two cables should be different colors 2 Pay attention to single point earthing It means there is only one point of the shielding connected to ground in a single communication link 3 Every A should be connected to A B to B or it will infuence the network even damage the communication interface 4 T type connection topology should be avoided This means no new branches except from the starting point 5 Keep communication cables away as much as possible from sources of electrical noise When several devices are connected daisy chain to the same long communication line an anti signal refecting resistor typical value 1200 30000hm 0 25W is often used at the end of the circuit the last meter of the chain if the communication quality is distorted 6 Use RS232 RS485 or USB RS485 converter with optical isolated output and surge protection 7 A infrared port is also available in the Display Module which supports meter reading AcuRev 2000 also supports 10 100M Ethernet optional its protocol is ModBus TCP SMTP HTTP SNMP SNTP AcuRev 2000 0007 myy MENU Chapter 3 Meter Display and Operation 3 1 Display Panel and Keys 3 2 E
26. 5 19 e Management webpage Figure 5 20 Management webpage Users can easily update the software online by selecting the updated file which can be got from Accuenergy Corporation The Reboot NET module option resets the module itself IP Address 192 168 1 254 Subnet Mask 255 255 255 0 Gateway 192 168 1 1 DNS Primary 202 106 0 20 DNS Secondary 202 106 196 115 MODBUS Port 502 AcuRev 2000 HTTP Port 80 ALCUENZAGY Main Page Data Settings Module Status ET Note Reboot the NET module after the update Update Load Default Setting Reboot NET Module Submit Figure 5 20 f Password Setting Webpage Figure 5 21 Password Setting webpage To change the password users need to input the current password first ALCUENZAGY Main Page Data Settings Change Password Module Status cumrent Password TT New Password le A 2bits Confirm Password 6 12bits Figure 5 21 4 Data Webpage Click Data Link to Visit Data webpages There are eight kinds of data webpages They are Metering webpage Demand webpage Energy webpage Harmonics webpage IO Status webpage Alarm Record webpage SOE Record webpage and System Record webpage Each webpage shows the working status of the meter Metering webpage includes the data of real time parameters for Acurev 2000 series meter such as Volts AN A Watt A of inline an
27. 60000 windows com Gute 00 00 Peijine Choneaine Hone Kone Urunai Figure 5 17 c Mail Settings Webpage Figure 5 18 Mail Settings webpage Users can choose between 4 mail sending modes Triggerd Sending Timed Sending both Triggered and Timed Sending and None Boxes marked with cannot be left blank Triggered Sending means users will receive mail when the meter detects a new event such as an Alarm Event SOE Event or System Event Timed Sending means users can receive mail every 5 1440 minutes user settable reporting Metering Energy Demand Max Min Alarm Record SOE Record and System Reord Sending Modes can be set as follows Setting Triggered Sending mode users can select one or all of the checkboxes below Triggered Sending includes Alarm Event SOE Event and System Reord as seen in Figure 5 18 Triggered Sending mode is disabled if neither Alarm Event SOE Event or System Event is selected Setting Timed Sending mode users enter a number between 5 and 1440 minutes into the box beside Timed Sending This number is the interval time between mail Sending mode is disabled if 0 is entered Users can also select which parameters to receive reports on by checking the checkboxes below Timed Sending in Figure 5 46 Setting both Triggered Sending and Timed Sending mode users follow the steps for both Triggered Sending and Timed Sending above
28. 804H communication R W 41200 38400 9600 baud rate 805H Password R W 10000 9999 0000 gosh Energy Pulse R W 500 20000 5000 constant sok Enetay Pulse R W 20 100ms 80 width AcuRev 2000 DO1 Energy 808H Pulse Output R W See Appendix B 0 word setting DO1 Energy 809H Pulse Output R W Same as above 0 word setting 0 Sliding Window Demand 1 Rolling Window adel calculation RON 2 Fixed window 8 wora 3 Thermal Primary 80BH Demand R W 1 30 minutes 15 word Window Secondary 80CH Demand R W 1 30 minutes 1 word Window DI 1 8 DI1 DI8 as 80DH Synchronization R W PURUS 1 word Synchronization Source Source 0 No Triggering DI Triggering 1 Rising Edge POERI Condition RN 2 Falling Edge 0 word 3 By Changes bit0 bit7 correspond to DIT DI8 80FH DI Working R W 0 State Monitoring 0 word Mode 1 Pulse Counter DI1 8 Pulse 810H 817H Constant for R W 1 65535 1 word each channel 818H 81FH DI Category 8 rw e one pulse represents 20 1 word tons water 162 1 ton 2 m3 cubic meter 820H 827H DI Unit x8 R W 3 KWh 1 4 RMB 5 US Dollar bitO bit3 correspond to RO1 Relay Output RO4 8287 Working Mode RN 0 Relay Control 9 1 Alarming bitO bit3 correspond to RO1 Relay Control RO4 ad Mode RAW 0 Latching 9 1 Momentary Relay Control 82AH Momentary R W 50 3000ms 80 Time Alarming 0 Disable
29. Ben Feature R W 1 Enable 9 BitO bit9 correspond to 1 10 1 10 Alarming alarming channels BAG Channel RA 1 Active 0 Inactive Each event alarm is sent to Bit0 15 correspond to 16 RO feature bit 2 Events BDH bytes represent RM 1 Enable 16 events sent 0 Disable to RO feature AcuRev 2000 AcuRev 2000 2 Bytes Every 2 bit RO alarming correspond to each one of the one event the RO number is first 8 events R W 00 RO1 0 word corresponds to 01 RO2 RO settings 10 RO3 11 RO4 2 Bytes Every 2 bits correspond to EA one event the RO number is the last 8 events RAK SO ROH 9 word 01 RO2 10 RO3 11 RO4 RO alarming time delay not applicable to R W 1 60000 second 60 word over under limit alarming Backlight time R W 0 60 minute 1 word Automatic display it no key R W 1 60 minute 1 word is pressed in how long Automatic Display each R W 5 100 second 5 word screen duration Display Power demand R W 3 4 digit 3 word decimal place Reactive Power R W les 0 word 1 Generalized VAR PF 0 IEC 836r Convention Rw 1 IEEE 9 werd Clear all data 837H digits to clear all R W See Appendix 0 records bitO bit7 correspond to DI1 838H Kien Counter R W DI8 1 means clearing the 0 counter 839H 83EH 645 Address R W 0 83FH 841H 19994 user R W User name 6 ASCII user01 name High byte 0 The display module does not display the us
30. Channel 3 Channel 6 Channel 3 Channel 6 Channel 9 AcuRev 2000 22 Channel 10 Channel 13 Channel 10 Channel 13 Channel 16 23 Channel 11 Channel 14 Channel 11 Channel 14 Channel 17 24 Channel 12 Channel 15 Channel 12 Channel 15 Channel 18 In the second page of the main menu select NET press OK button to enter the password screen the password authentication is passed into the network settings screen When the cursor is not enabled the arrow keys to scroll when you press the OK button to move the cursor starts blinking left and right keys to switch cursor positions up and down keys to set the value of the parameter After setting parameters press the OK button to set parameters success while the cursor is no longer flashing Combination of keys left and right keys pressed together to return to the main menu PQSET NET INFO OK E PASSWORD a m A A A E A P01 DHCP ZO P02 IP address PO3 SubnetMask 7 PO4 Gateway 7 POS DNS 1 v s d y h di Ally ality d P10 Network PO9 Network module PO7 Modbus Password reset e reset Pos Http Port gt TER A poe gt PO6 DNS2 Figure 3 22 Network setting display P01 DHCP represents DHCP address allocation mode setting MANU static allocation and AUTO dynamic allocation PO9 network module reset options include not res
31. Data start Data of Data of CRC16 Addr Fun f reg hi reg lo regs hi regs lo Hi 06H 03H 00H 00H 00H 21H 84H Figure 5 3 Protocol Illustration Addr Slave device address Fun Function Code Data start reg hi Start register address high byte Data start reg lo Start register address low byte Data of reg hi Number of registers high byte Data of reg lo Number of registers low byte CRC16 Hi CRC high byte CRC16 Lo CRC low byte AcuRev 2000 AuRe 2000 1 Read Relay Output status Function Code 01 Query The master device sends query frame to the salve deivce Function Code 01 allows users to acquire the relay output status 1 ON 0 OFF of the slave device with the specified address On top of slave device address and function code query frame must contain the relay register starting address and the number of registers to be read Table 5 4 depicts reading Relay 1 and Relay 2 status of the slave device with the address of 17 Relay start Relay start Relay of Relay of CRC16 CRC16 Addr Fun reg hi reg lo regshi regslo Hi Lo 11H 01H 00H 00H 00H 02H BFH 5BH Table 5 4 Query frame of reading Relay Output status Response The slave device anwsers the master device s query The response frame contains slave device address function code data quantity and CRC check Each relay utilizes one bit 1 ON 0 OFF Table 5 5 de
32. ENE is 13 53301 53318 n ii Current 14 53401 53418 ii Aa 15 53501 53518 Md c Current 16 53601 53618 ER Current 17 53701 53718 iid ed Current MEIN eee 19 53901 53918 did rr Current 20 54001 54018 Harmonic of Phase C Current 26th 31st AcuRev 2000 Note AcuRev 2000 Acurev 2010 only include active power demand Acurev 2010 only include active power The instrument is Acurev2010 enter an asterisk zone function code when prompted SCREEN WRONG 3 Single Phase 3 Out 2LN Description 2LN number of screens begin to run from 61 to distinguish 1LN 3LN Note to indicate that only Acurev2020 meter has feature Note the is enabled only content sharing Screen Function Users Code Content Note Number 1 16101 16118 Real time energy 2 16201 16218 Phase A B real time energy This month total power 3 16301 16318 sharing this month ud 1 Energy No energy this month tariff 2 Time of Use energy only real 1 18 4 16401 16418 This month tariff 3 energy this time energy month tariff 4 energy Prior month total power 5 16501 16518 sharing prior month tariff 1 energy prior month tariff 2 energy 6 16601 16618 Prior month tariff 3 energy prior month tariff 4 energy Energy No Time of Use only real time energy 1 18 Phase A this month total energy Phase A this month
33. Energy data Apparent Energy Inline Apparent Energy EEE ceo IRENE dene ARRESE dens TE re Channel 1 18 single phase 3 Channel 1 6 3 phase 4 line single phase 3 line prior month apparent energy 2B40H Tenant 1 18 real time R W dwod 2B63H Apparent Energy 2B64H Tenant 1 real time R W dwod 2B65H system Apparent Energy 2B66H Tenant 2 6 Apparent R W 2B6FH Energy data Demand Inline Demand AcuRev 2000 AcuRev 2000 2DOOH 2D01H Pin s dema inline system demand PinS inline system power demand prediction 143 144 float float Pin s dema max inline system demand peak float Pin s time inline system demand peak times Year Month Day Hour Minute Second word Qin s dema inline system reactive power demand 145 float QinS inline system reactive power demand prediction 146 float Qin s dema max inline system reactive power demand peak float Qin s time inline system reactive power demand peak times Year Month Day Hour Minute Second word Sin s dema inline system apparent demand 147 float SinS inline system apparent demand prediction 148 float 2D16H Sin s dema max inline system 2D17H apparent demand noor peak 2D18H Sin s time inline Year Month 2D1AH system apparent Day Hour demand p
34. Energy tariff 2 energy No Time This month tariff 3 energy this 3 of Use 10301510318 month tariff 4 energy i only real 1 18 Prior month total energy prior time 4 1 18 month tariff 1 energy prior month energy tariff 2 energy Prior month tariff 3 energy Prior 3 1030110518 month tariff 4 energy 10601 10618 Reactive energy 7 10701 10718 Apparent energy Real power demand Reactive 1 20101 20118 power demand Apparent power demand Real Power Demand prediction 2 20201 20218 Real Power Demand Peak and happening time Demand 1 18 Reactive Power Demand 3 20301 20318 prediction Reactive Power Demand Peak and happening time Apparent Power Demand 4 20401 20418 rediction Apparent Power Demand T 18 Demand Peak Eg time 5 20501 20518 Current demand Current Demand prediction 6 20601 20618 Current Demand Peak and happening time d DI 1 30101 30108 DI Status Di Channel 2 30201 30208 RO Status Output 1 8 3 30301 30308 DI Pulse Input related 1 40101 40118 Real Power 2 40201 40218 Reactive power Real time 1 18 3 40301 40318 Apparent power 4 40401 40418 Power Factor 5 40501 40518 Load Type 40601 40618 Current Harmonic distortion odd harmonic 1 50101 50118 distortion even harmonic distortion 2 50201 50218 Current K factor Power 1 18 3 50301 50318 Harmonic of Current 2nd 7th
35. Message Transaction Transaction Protocol Protocol L thhi L thl Unit identifier hi identifierlo identifierhi identifierlo 09 ENIT 9 identifier OOH OOH OOH OOH OOH 06H 01H Fun Data start reg hi Data start reg lo Value hi Value lo 05H 00H 00H FFH 00H AcuRev 2000 Response after the Relay status has been altered Table 5 23 Control Relay Response Message The normal response to the command request is to retransmit the message as received Transaction Transaction Protocol Protocol Lenathihi kenathilo Unit identifier hi identifierlo identifier hi identifier lo g 9 identifier 00H 00H 00H 00H 00H 06H 01H Fun Data start reg hi Data start reg lo Value hi Value lo 05H 00H 00H FFH 00H e Preset Reset Multi Register Function Code 16 Query Function code 16 allows the user to modify the contents of a Multi Register The example below is a request to an AcuRev 2000 series meter address 1 to Preset CT1 500 and CT2 5 CT1 data address is 1008H and CT2 data address is 1009H Table 5 24 Preset CT Value Query Message Transaction Transaction Protoco Protocol shath engini Unit identifier hi identifierlo identifier hi identifierlo 9 9 identifier 00H 00H 00H 00H 00H OBH 01H Fun Data start Data start Data of Data of Byte Value1
36. N Time RT Frequency R1 Volts AN I Vols BN RA Vote CN RT Vots LN AJAT Vots AB A1 Vols BC AT Vols CA 1 1 Doon 00V 00v gov cov ov 00v dov Figure 4 17 Log 1 Record Retrieve In manual retrieve mode users can adjust Offset and Window Record Number Offset is the 100 deviation number from the first record Window Record Number is 246 Record Size users can retrieve no larger than this number of records by pressing Read One Window button In automatic retrieve mode the software retrieves all the Used Records in the memory automatically Users just press Read All button The display module with seal which has sealed key control is different with one without seal When the seal is in opened status functions are same like normal meters But when the seal is in sealed status some functions of meters which include parameters blocked by seal and optional parameters will be blocked These parameters can still be accessible by keys and communication way if they can be accessed before but in sealed status these parameters cannot be modified by keys or communication way any more Addresses about seal function are BAFH and 8BOFH Address 8AFH is about parameters blocked by seal which can be configured by users These setting will be valid only when seal is in sealed status Address 8BOH is about if seal function is valid When the dispaly module is normal one not connected display module or the seal module is in inv
37. Obtain current binary value from one or more registers 05 Control DO Control Digital Relay Output ON OFF Preset multiple 16 registers Place specifc value into a series of consecutive multiple registers Table 5 2 Function Code AcuRev 2000 Data Field Data field contains the data that terminals need to complete the reguest and the data that terminals respond to the reguest This data may be a numerical value address or setting For example Function Code tells the terminal to read one register Data Field needs to specify reading from which register and how many registers to read Error Check Field The field allows the error check by master and slave devices Due to electrical noise and other interferences a group of data may be changed while transmitting from one location to the other Error Check ensures master or slave devices do not respond to the distorted data during the transmission which enhances the system security and efficiency Error Check uses 16 bit Cyclic Redundancy Check CRC 16 3 CRC Check Every message includes an error checking field which is based on the Cyclical Redundancy Check CRC method The CRC field checks the contents of the entire message It is applied regardless of any parity check method used for the individual characters of the message The CRC field is two bytes long containing a 16 bit binary value The CRC value is calculated by the transmit
38. Phase A Reactive Power Demand Peak and happening time 26701 26718 Phase B Reactive Power Demand prediction Phase B Reactive Power Demand Peak and happening time 26801 26818 Phase A B Apparent power demand 26901 26918 Phase A Apparent Power Demand prediction Phase A Apparent Power Demand Peak and happening time 27001 27018 Phase B Apparent Power Demand prediction Phase B Apparent Power Demand Peak and happening time 11 27101 27118 Phase A B Current demand Phase A Current Demand rediction Phase A Current 2 2720127218 Demand Peak and happening Demand 1 18 time Phase B Current Demand rediction Phase B Current is 27300227216 an Peak and happening time Digital Input DI 1 30101 30108 DI Status and Digital Channel 2 30201 30208 RO Status Output 1 8 3 30301 30308 DI Pulse Input related Total Active Power Total Reactive 1 NG Power Total Apparent Power 2 46201 46218 Total Power Factor Total Load Type Real time 1 18 3 46301 46318 Phase A B Active Power 4 46401 46418 Phase A B Reactive Power 5 46501 46518 Phase A B Apparent Power 6 46601 46618 Phase A B Power Factor 7 46701 46718 Phase A B Current 1 56101 56118 Current unbalance Phase A harmonic distortion 56201 56218 odd harmonic distortion even harmonic distortion Phase B harmonic distortion Power Quality ete 3 56301 56318 odd harmonic distortion even ha
39. Quality 4 50401 50418 Harmonic of Current 8th 13th 5 50501 50518 Harmonic of Current 14th 19th 6 50601 50618 Harmonic of Current 20th 25th 7 50701 50718 Harmonic of Current 26th 31st AcuRev 2000 Note AcuRev 2000 Acurev2010 only include active power demand The instrument is Acurev2010 enter an asterisk zone function code when prompted SCREEN WRONG 2 Three Phase 4 Out 3LN Description 3LN number of screens begin to run from 21 to distinguish 1LN 2LN Note to indicate that only Acurev2020 meter has feature Note the is enabled only content sharing 1 12101 12118 Total real energy 2 12201 12218 Phase A B C real energy This month total power sharing this month tariff 1 energy this month tariff 2 energy Energy No 4 12401 12418 This month tariff 3 energy Time of Use this month tariff 4 energy only real 1 18 Prior month total power time energy 5 12501 12518 sharing prior month tariff 1 energy prior month tariff 2 energy Prior month tariff 3 energy prior month tariff 4 energy Phase A this month total power sharing Phase A this month tariff 1energy Phase A this month tariff 2 energy 3 12301 12318 6 12601 12618 7 12701 12718 Energy No Time of Use only real time energy 12801 1 2818 Phase A this month tariff 3 energy Phase A this month tariff 4 energy 12901 1 2918 Phase A
40. Schedule Number R W 124BH 124DH The 12th Holiday Month Day Schedule Number R W 124EH 1250H The 13th Holiday Month Day Schedule Number R W AcuRev 2000 AcuRev 2000 1251H 1253H The 14th Holiday Month Day Schedule Number R W Word 1254H 1256H The 15th Holiday Month Day Schedule Number R W Word 1257H 1259H The 16th Holiday Month Day Schedule Number R W Word 125AH 125CH The 17th Holiday Month Day Schedule Number R W Word 125DH 125FH The 18th Holiday Month Day Schedule Number R W Word 1260H 1262H The 19th Holiday Month Day Schedule Number R W word 1263H 1265H The 20th Holiday Month Day Schedule Number R W Word 1266H 1268H The 21st Holiday Month Day Schedule Number R W Word 1269H 126BH The 22nd Holiday Month Day Schedule Number R W Word 126CH 126EH The 23rd Holiday Month Day Schedule Number R W 126FH 1271H The 24th Holiday Month Day Schedule Number R W 1272H 1274H The 25th Holiday Month Day Schedule Number R W 1275H 1277H The 26th Holiday Month Day Schedule Number R W 1278H 127AH The 27th Holiday Month Day Schedule Number R W 127BH 127DH The 28th Holiday Month Day Sche
41. System active power demand System reactive power demand System apparent power demand 22201 22218 Phase A B C active power demand 22301 22318 Phase A Real Power Demand prediction Phase A Real Power Demand Peak and happening time 22401 22418 Phase B Real Power Demand prediction Phase B Real Power Demand Peak and happening time 22501 22518 Phase C Real Power Demand prediction Phase C Real Power Demand Peak and happening time 22601 22618 Phase A B C Reactive power demand Demand 22701 22718 Phase A Reactive Power Demand prediction Phase A Reactive Power Demand Peak and happening time 22801 22818 Phase B Reactive Power Demand prediction Phase B Reactive Power Demand Peak and happening time 22901 22918 Phase C Reactive Power Demand prediction Phase C Reactive Power Demand Peak and happening time 23001 23018 Phase A B C Apparent power demand 23101 23118 Phase A Apparent Power Demand prediction Phase A Apparent Power Demand Peak and happening time 23201 23218 Phase B Apparent Power Demand prediction Phase B Apparent Power Demand Peak and happening time 23301 23318 Phase C Apparent Power Demand prediction Phase C Apparent Power Demand Peak and happening time 23401 23418 Phase A B C Current demand 23501 23518 Phase A Current Demand prediction Phase A Current Demand Peak and
42. TOU energy Inline prior month TOU energy 2900H 2901H Epin S inline system prior month TOU energy total 2902H 2903H Epin S inline system prior month TOU energy tariff 1 2904H 2905H Epin S inline system prior month TOU energy tariff 2 AcuRev 2000 AcuRev 2000 2906H 2907H Epin S inline system prior month TOU energy tariff 3 dwod 2908H 2909H Epin S inline system prior month TOU energy tariff 4 dwod 290AH 290BH Epin A inline Phase A prior month TOU energy total dwod 290CH 290DH Epin A inline Phase A prior month TOU energy tariff 1 dwod 290EH 290FH Epin A inline Phase A prior month TOU energy tariff 2 dwod 2910H 2911H Epin A inline Phase A prior month TOU energy tariff 3 dwod 2912H 2913H Epin A inline Phase A prior month TOU energy tariff 4 dwod 2914H 2915H Epin B inline Phase B prior month TOU energy total dwod 2916H 2917H Epin B inline Phase B prior month TOU energy tariff 1 dwod 2918H 2919H Epin B inline Phase B prior month TOU energy tariff 2 dwod 291AH 291BH Epin B inline Phase B prior month TOU energy tariff 3 dwod 291CH 291DH Epin B inline Phase B prior month TOU energy tariff 4 dwod 291EH 291FH Epin C inline Phase C prior month TOU energy total dwod 2920H 2921H
43. Value1 Value2 Value2 reg hi reg lo regs hi regslo count hi lo hi lo 10H 10H 08H 00H 02H 04H 01H FAH 00H 05H Response The normal response to a preset Multi Register request includes MBAP Header function code data start register and the number of registers Table 5 25 Preset Multi Registers Response Message Transaction Transaction Protocol Protocol Lencth hi Lenathlo Unit identifier hi identifierlo identifier hi identifier lo 9 9 identifier OOH OOH OOH 00H 00H 06H 01H Fun Data start reg hi Data start reg lo Data of regs hi Data of regs lo 10H 10H 08H 00H 02H Users may refer to the sixth chapter Communication and get the details of AcuRev 2000 series meter When using Modbus TCP function it is best to set the Scan interval of the software to under 1000 ms When using Third Party software it is best to set Frame interval for the Modbus TCP function to under 1000 ms 5 3 9 Webpage Browsing and Parameter Settings The Ethernet module supports HTTP protocol and has a Web Server function making the AcuRev 2000 series meter accessible through Ethernet at anytime from anywhere The Ethernet module supports IE Browser 6 0 and higher editions and the Webpage Settings only support ASCII characters The IP address will be referred to as 192 168 1 200 for the remainder of this chapter 1 Main page Users enter the correct IP address and HTTP port of the module in t
44. Voltage 0 5 0 1V 10 400V Current 0 5 0 001A 5mA 10000A Real Power 1 0 1var 4000 0kW Reactive Power 196 0 1VA 4000 0kvar Apparent Power 196 0 1VA 4000 0kVA Power Factor 196 0 001 1 000 1 000 Frequency 0 2 0 01Hz 45 65Hz Power Demand 1 0 1W 4000 0kW Current Demand 0 596 0 001A 5mA 10000A Harmonics 2 0 01 0 100 Unbalance 1 0 01 0 100 Meter Runtime 0 01 hour 0 999999 9 hours Input Type Dry Contact Max Input Current 2mA Input Voltage 15 30V Start Voltage 12V Stop Voltage 10V Pulse Max Frequency 100 Hz 50 Duty Ratio SOE Resolution 2ms 247 AcuRev 2000 AcuRev 2000 Voltage 24 Vdc Power 1W Voltage 250 Vac 30 Vdc Load Current 3A Set Time 10 ms Max Contact Resistance 100 mO Max Isolation Voltage 2500V Mechanical Life 1 5x107 4 Power Supply Power Supply 100 415Vac 50 60Hz 100 300Vdc Burden 5W 5 Environment Operation Temperature 25 C 70 C Power Consumption 1W Relative Humidity 5 95 non condensing Elevation above sea level 3000m 6 Measurement Standard IEC62053 21 Static meters for active energy classes 1 and 2 Environmental Standard IEC 60068 2 Safety Standard IEC 61010 1 UL 61010 1 Appendix B Pulse Output Setup Set Value Output Active energy puls
45. as 10 Alarming parameters includes inline basic parameter tenant basic parameter inline demand and tenant demand Inline basic parameters system real power real power Pa real power Pb real power Pc Channel Basic parameters system real power real power Pa real power Pb real power Pc Inline demand system real power system real power demand prediction system power demand Pa power demand Pa prediction system power demand Pb system power demand Pb prediction system power demand Pc system power demand Pc prediction Channel Demand System Power real power demand Pa real power demand Pa prediction real power demand Pb real power demand Pb prediction real power demand Pc real power demand Pc prediction Condition gt larger than equal smaller than Alarming setpoint alarming setpoint is expressed by the percentage of rated value For instance voltage rating is 220 V transformer type CT 20 now it requires alarms when the 1st tenant s real power is larger than 3 kW Since rated power is 1 1 kW 3kW is 1 1kW 273 then set alarming setpoint as 273 Time Delay 0 30000 ms Output No output one of RO1 RO4 AcuRev 2000 AcuRev 2000 96 Ld Reset Mois cani Parameters Figure 4 15 System Event Log Logs system event date and type Please refer to the 12 system events in 4 2 The max record number is 100 It can be chosen as the newest 20 reco
46. b correspondence between the 101 118 refers to the physical channel 1 18 road 301 201 306 206 phase refers to the user s physical channel corresponding 78 c If either one is not used you can set the corresponding channel is not displayed i e remove allowed to display on the hook CT model as follows When using EM modules Different channels can access different types transformers as required by the customer can be independently set For example The first one username Jack01 wiring is 3LN the first channel phase composed by the channel 1 4 7 following settings the 1 users change the name of Jack01 the corresponding channel is set to 301 201 check allows the display the user s wiring phase change 3LN Note after the setup Update Device must be clicked in order to send the settings to the meter All the other setting operations should follow this as well The basic parameters measured in the AcuRev 2000 are voltage current power etc Th e base module only displays power including sytem power inline A B C power and each tenant s power Different wiring methods lead to different displays The following figure is the display of baisc parameter measurement take the first one 3LN wiring for instance AcuRev 2000 AcuRev 2000 eene Figure 4 4 AcuRev 2020 Basic Measurment Parameter Display Note the user above is optional select the user name to be displayed The user divides the screen i
47. energy measurement 2 represents demand measurement 3 represents Digital Input Digital Output 4 represents real time 5 represents Power Quality all the other parameters do not have shortcut code Energy Measurement Demand Measurement Digital Input Digital Output Real time Measurement 4 Power Quality Left in the second and third digits are the number of selection screen the right side the first and the second is to select the user number When user Settings screen number is not correct or the selected user number is not enabled the connection mode of the display module based on user and instrument types and set up accordingly When user Settings screen number is not correct or the selected user number is not enabled the connection mode of the display module based on user and instrument types and set up accordingly Tip USER WRONG indicating that the user is not enabled AcuRev 2000 Tip SCREEN WRONG setting screen instructions when the number exceeds the limit or chose not to support the screen AcuRev 2000 Different connection types are also different codes detailed shortcut code corresponding to the screen please follow this swift code table 1 Single Phase Out 1LN Note to indicate that only Acurev2020 meter has feature Note the is enabled only content sharing 1 10101 10118 Real time energy This month total energy this 2 10201 10218 month tariff 1 energy this month
48. happening time AcuRev 2000 AcuRev 2000 Phase B Current Demand prediction Phase B Current ip 236901723018 Demand Peak and happening Demand 1 18 umg Phase C Current Demand rediction Phase C Current w 23701 23718 ni Peak and happening time Digital Input DI 1 30101 30108 DI Status and Digital Channel 2 30201 30208 RO Status Output 1 8 3 30301 30308 DI Pulse Input related Total Active Power Total 1 42101 42118 Reactive Power Total Apparent Power 2 42201 42218 Total Power 1 Total Load Real time 1 18 3 42301 42318 Phase A B C Active Power 4 42401 42418 Phase A B C Reactive Power 5 42501 42518 Phase A B C Apparent Power 6 42601 42618 Phase A B C Power Factor 7 42701 42718 Phase A B C Current 1 52101 52118 Current unbalance Phase A harmonic distortion 52201 52218 odd harmonic distortion even harmonic distortion POWER Phase B harmonic distortion 1 18 3 52301 52318 odd harmonic distortion even Ouality id gt harmonic distortion Phase C harmonic distortion 4 52401 52418 odd harmonic distortion even harmonic distortion 5 52501 52518 Current K factor Power Ouality Harmonic of Phase A 8 32001702018 Current 2nd 7th 7 52701 52718 iin doy Current 8 52801 52818 id dcs Current 9 52901 52918 b Wo Current MEIN mene 11 53101 53118 iu Ke d Current
49. hexadecimal The data field of messages sent from a master to slave devices contains additional information which the slave must use to take the action defined by the function code This can include items like discrete and register addresses the quantity of items to be handled and the count of actual data bytes in the field For example if the master requests a slave to read a group of holding registers function code 03 and the data field specifies the starting register and how many registers are to be read If the master writes to a group of registers in the slave function code 10 hexadecimal the data field specifies the starting register how many registers to write the count of data bytes to follow in the data field and the data to be written into the registers 2 Format of communication Explanation of frame Table 5 18 Transaction Transaction Protocol Protocol L thhilL thl Unit identifierhi identifierlo identifier hi identifierlo SPYT 69119 identifier 00H 00H 00H 00H 00H 06H 01H Fun Data start reg hi Data start reg lo Data of regs hi Data of regs lo 03H 40H 00H OOH 48H As shown in Table 5 4 the meaning of each abbreviated word is Transaction identifier hi Transaction Identifier high byte Transaction identifier lo Transaction Identifier low byte Protocol identifier hi Protocol Identifier high byte Protocol identifier lo Protocol Identifier low byte Lengt
50. is factory installed on the meter base Users can use the meter base and display module combination directly The following steps show how Display Module is installed 1 Firstly make a standard panel Cut Out as the Figure 2 16 shows Unit mm so C FAT eo o po 0 5 68 00 Panel Figure 2 16 Cut Out dimensions 2 Remove the clips of Display Module install the module into the Cut Out in the direction P d lt Pad Panel of arrow Figure 2 17 Insert Display Module into the Cut Out 3 Install the Display Module into the Cut Out The module front panel will appear at the front of the Cut Out the Meter Base case and wiring terminals will appear at the back of the Cut Out Then put on two installation clips following the grooves at the back of Display Module and push forward to tighten the clips Make sure the clip and the panel are joined tightly Tighten the screws as Figure below shows and the installation is completed See Figure 2 18 Installation Clip H d Screw Panel Figure 2 18 Use clips to affix the Display Module Figure 2 19 Installation Clip AcuRev 2000 AcuRev 2000 Terminals Meter Base Terminals Upper row Power Supply Pulse Output Communication NET Lower row Digital Input Relay Output POWER SUPPLY E2 PU s eEt PULS DEMAND sec RS 485 LION 6 c elc Ee c eE s 8 A NET ia 13 12 i
51. or liable for any damages or injuries caused by improper meter installation and or operation AcuRev 2000 Chapter 1 Introduction 1 1 1 Meter Overview 22 22 2222 EE EE nnn nn nnn nnn 1 2 Area of Application 1 3 AcuRev 2000 Series Features Chapter 2 Installtion 2 1 Appearance and Dimensions 2 2 Installation Methods EDE EE EE ra ARS Chapter 3 Meter Display and Operationn 3 1 Display Panel and Keys 3 2 Energy Display and Operation 3 3 Demand Display and Operation 3 4 I O Display and Operation 3 5 Parameter Settings nnn m 3 6 Shortcut Keys __________________ rr momen 3 7 Real Time Parameters 3 8 Device Information
52. phase four wire 3LN single phase three wire 2LN The followings introduces EM and DM wiring methods in those three scenarios 1 Single phase out 1LN AcuRev 2000 EM AcuRev 2000 Vn v3 v2 vi 33 34 35 36 VOLTAGE INPUTS EMI CURRENT INPUTS EM2 CURRENT INPUTS n 2 i 4 6 7 i Jie Jo ni ma ns ia ns ne ng 8 37 38 39 40 41 42 43 44 4s 46 47 48 49 s0 51 52 53 54 55 56 57 58 5960 61 62 63 64 65 6667 68 69 70 71 7 Load Tenent 1 n Tenent2 pm Tenant Tenent 4 D Tenent I lu Tenent 5 p Tenent7 Tenent amp Tenent 10 L Tenent 12 t pm FTenent 11 Dee Tenent 13 D Tenent 15 i D FTenent 14 stu FTenent 16 n Tenent 18 f mj FTenent 17 Fligure 2 25 Single Phase Out EM DM D S S gt a las Tenent 9 Tenent amp Tenent7 Tenent Tenent 5 Tenent 4 Tenent 3 Tenent 2 Tenent 1 V11 v12 V13 v21 v22 v23 v31 v32 v33 77 78 72 a0 81 82 83 84 as
53. prior month total energy Phase A prior month tariff 1energy Phase A prior month tariff 2 energy 13001 1 3018 Phase A prior month tariff 3 energy Phase A prior month tariff 4 energy 13101 1 3118 Phase B this month total energy Phase B this month tariff 1energy Phase B this month tariff 2 energy 13201 1 3218 Phase B this month tariff 3 energy Phase B this month tariff 4 energy 13301 1 3318 Phase B prior month total energy Phase B prior month tariff 1energy Phase B prior month tariff 2 energy 13401 1 3418 Phase B prior month tariff 3 energy Phase B prior month tariff 4 energy 13501 1 3518 Phase C this month total energy Phase C this month tariff 1energy Phase C this month tariff 2 energy 13601 1 3618 Phase C this month tariff 3 energy Phase C this month tariff 4 energy AcuRev 2000 AuRe 2000 Energy No Time of Use only real time energy 13701 1 3718 Phase C prior month total energy Phase C prior month tariff 1energy Phase C prior month tariff2 energy 13801 1 3818 Phase C prior month tariff 3 energy Phase C prior month tariff 4 energy 19 13901 1 3918 Total reactive energy 20 14001 1 4018 Phase A B C reactive energy 21 14101 1 4118 Total apparent energy 22 14201 1 4218 Phase A B C apparent energy 22101 22118
54. supporting weekend and holiday settings supporting daylight saving time and 10 year holidays automatic 2 switching It supports kWh pulse output System Event Logging This product runs self check on systems When an important operation is performed such as reset energy or demand clear system parameter changes it immdediately records the event timestamp event type via event state word and judges whether relay output needs to be sent Over Under Limit Alarming Users can select parameters and set their setpoints An alarm will be triggered when the setpoint is reached At the same time sound and light signals could be sent out via relay output The time and reason of an alarm event will be recorded Power Quality Analysis Power quality parameters such as voltage and current THD Odd harmonic distortion Total Odd HD even harmonic distortion Total Even HD 2 31 times the harmonic content Current K factor KF crest factor CF telephone interference factor THFF voltage and current unbalance etc will be monitored 1 0 Option Standard output ports provide energy KWh pulse output and time pulse output digital inputs DI provide pulse counting from water electricity and gas meter and monitor Switch status relay outputs RO react upon alarming conditions Data Logging and Load Trending With 8MB of onboard memory AcuRev 2000 series can log real time metering parameters I O status and energy measurement This
55. through SNMP by get get next and walk instructions To master this manual you suppose to be familiar with SNMP protocol and you have generously mastered the function and application of this product We will show you an example of how to use SNMP server software to get data from the meter The example is showed by MG SOFT MIB Browser Professional SNMPv1 v2c Edition 2010 NOTE MG SOFT MIB Browser Professional is the production of MG SOFT Corporation and its copyrights are reserved by MG SOFT Corporation We will not supply MG SOFT MIB Browser Professional with our meters 1 Compile MIB After installed MG SOFT MIB Browser Professional you can load Acurev 2000 mib file by MIB Compiler which is one part of MG SOFT MIB Browser Professional AcuRev 2000 OFT NIB Compi c 2000 nib AcuRev 2000 ACCUENERGY MIB iso org 3 dod 6 internet 1 private 4 enterprises 1 accuenergy 39604 ACCUENERGY MIB DEFINITIONS BEGIN PORTS enterprises Integer32 Counter32 TimeTicks FROM RFC1155 SMI DisplayString FROM SNHPv2 TC DisplayString OCTET STRING accuenergy MODULE IDENTITY LAST UPDATED 2012032600002 ORGANIZATION www accuenergy com CONTACT INFO Accuenergy Canada Address DESCRIPTION Accuenergy Enterprise MIB FRAIE RELAT DTE MIB 32 MI REVISION 2012032600002 Tr DESCRIPTION TER MIB Modules ups First revision Figure 5 23 Using F7 on keyboard to compile this
56. 0 DI pulse counter remains when power is off When DI type is changed from Pulse Counter to Signal Detection the pulse number still remains Function Code 03 is to read DI1 Pulse Counter R dword F1 DI2 Pulse Counter R dword F1 DI3 Pulse Counter R dword F1 DI4 Pulse Counter R dword FI DI5 Pulse Counter R dword FI DI6 Pulse Counter R dword F1 DI7 Pulse Counter R dword F1 AcuRev 2000 ed DI8 Pulse Counter R dword F1 an DIT Pulse Counter R float i DI2 Pulse Counter R float 2 DI3 Pulse Counter R float di DI4 Pulse Counter R float ee DI5 Pulse Counter R float vidus DI6 Pulse Counter R float i DI7 Pulse Counter R float n DI8 Pulse Counter R float DI State Parameter 1 8 DI status Function Code 02 to read 0000 DIT R 1 ON 0 OFF 0 0001 0007 DI2 DI8 R 1 ON 0 OFF 0 RO state 1 4 channel Relay Output Function Code 01 to read function code 05 to write 0000 RO1 R 1 ON 0 OFF AcuRev 2000 0001 RO2 R 1 ON 0 OFF bit 0002 RO3 R 1 ON 0 OFF bit 0003 RO4 R 1 ON 0 OFF bit Daylight saving time setting Function Code 03 to read function code 10 to write Min 4000H DST enable R W O danie 1 enable 4001H DST format R W Stone
57. 00 kvar 0 431 kvar 2000 1 1 1 24 58 0 000 kvar VAR C 0 000 kvar 0 477 kvar 2000 1 1 0 54 58 0 000 kvar VAR Total 0 000 kvar 0 477 kvar 2000 1 1 0 54 58 0 000 kvar VAA 0 000 kVA 0 553 kVA 2000 1 1 1 15 58 0 000 kV VAB 0 000 kVA 0 549 kVA 2000 1 1 1 21 58 0 000 KVA VAC 0 000 kVA 0 551 kVA 2000 1 1 0 52 58 0 000 kVA VA Total 0 000 kVA 0 646 kVA 2000 1 1 0 22 58 0 000 KVA Figure 4 7 Demand 85 AcuRev 2000 AcuRev 2000 Display Demand Max Demand Max Demand Time Demand Prediction update per second of the real power The users is selective The users divides the software window into two parts the upper part indicates the demand related parameters the lower part indicates the demand of each individual tenant Demand calculation has four methods Sliding Window method Fixed Window method Rolling Window method and Thermal method Users can set the demand period 1 30 minutes and secondary demand period 1 30 minutes according to different calculation methods All related settings can be found in Figure 4 2 Support Demand Synchronization Method Synchronizing with DI Synchronizing with Command DI Synchronization DI triggering can be chosen as no triggering triggered by rising edge triggered by falling edge triggered by changes DI Synchronization source can set as DI1 DI8 The Synchronizing with DI settings is in Figure 4 2 The Synchronizing with Command choose Clear Demand in Figure 4 7 Demand cycle or seconda
58. 0000 O Figure 3 9 DI Display indicates this channel DI status OFF or Pulse Input indicates DI status ON 2nd screen RO status 4 channel RO RO OOO O indicates this channel RO status OFF indicates this RO status ON Figure 3 10 RO Display 43 AcuRev 2000 AcuRev 2000 3rd screen DI pulse input number and its parameter press Left and Right to select different channel 1 8 PULS CONT x x PCS X XX yy Figure 3 11 DI Pulse Input Display CONT X indicates DI channel number PCS indicates pulse number yy indicates number such as 6 15 m3 represents 6 15 m3 On the first screen of the main menu select MUL real time press the OK button the meter displays real time Left and right keys to select a different user or inline up and down keys to select the current user s different screen the OK button to return to the main menu For Acurev2010 only display the active power The total amount of time MUL Sum Active power MUL P Reactive power MUL Q Apparent power MUL S Real time current value MUL I Power Factor MUL PF Nature of the load MUL Load Type Phase voltage MUL Phase U Phase voltage average Uavg Line voltage MUL Line U Line voltage average Ulavg Different wiring Real time display is not the same Details are as follows AcuRev 2010 meter does not show the screen of yellow backgro
59. 1 DMD P Pre Max Maximum Demand 7 gt Happening Time Y m Es Figure 3 5 Single Phase Out demand display dir d ir Es Ed fb 2 Three Phase 4 Out 3LN E D IO MUL M ok Aj Ti OT DMD Pa A Tri 007 DMD Pb s Ki ABC Pre Max Maximum Demand Pre Max Maximum Demand vi Happening Time v Happening Time Ja a Tri 001 DMD Pc PreMax MaximumDemand v v v Happening Time vile vila a m A a A E E lm vi ja PQS Tri 001 DMD Sum A Tr 001 DMD P w Figure 3 6 Three Phase 4 Out demand display 3 Single Phase 3 Out 2LN E D IO MUL M fox A A Tri 001 DMD Pa A Tri 001 DMD Pb ullos ae Sum fj THOT DMDOP 2 Pre Max MaximumDemand gt Pre Max Maximum Demand v v Happening Time v Happening Time vi ja v v v di ovii vi Ja Al A vi v 4 Figure 3 7 Single Phase 3 Out demand display AcuRev 2000 AcuRev 2000 42 On the first page of the main menu press left and right to choose IO then press the center key the meter displays IO data Up and Down to select a different screen the OK key to return to the main menu Figure 3 8 IO Display ED IO MULM 1 ok A A 3 DI Pulse RO Stat DI Status le d sr Input Related Vv 1st screen DI status 8 channel DI DI 1 2 3 4 5 6 7 8 6000
60. 15H DST Ending Hour NI 40164 DST Ending Min NI 109 AcuRev 2000 AcuRev 2000 4017H DST Ending Adjust time Unit Min Jy Ten years holiday setting 4100H Holiday setting enable V 4101H Start year holiday setting V 4102H End year holiday setting V The 1st year holiday setting 4103H 415EH Holiday Parameter setting V The 2nd year Holiday setting 415FH 41BA Holiday Parameter setting V The 3nd year Holiday setting 41BBH 4216H Holiday Parameter setting V The 4nd year Holiday setting 4217H 4272H Holiday Parameter setting NI The 5nd year Holiday setting 4273H 42CEH Holiday Parameter setting V The 6nd year Holiday setting 42CFH 432AH Holiday Parameter setting V The 7nd year Holiday setting 432BH 4386H Holiday Parameter setting V The 8nd year Holiday setting 4387H 43E2H Holiday Parameter setting V The 9nd year Holiday setting 43E3H 443EH Holiday Parameter setting V The 10nd year Holiday setting 443FH 449AH Holiday Parameter setting V 6 When bit 5 of address 8AFH is valid parameters about RO should be blocked 828H Relay Output Working Mode 110 Relay Control Momentary Time Alarming Feature 1 10 Alarming Channel Each event alarm is sent to RO feature 82DH bit 2 bytes represent 16 events sent to RO feature 82EH RO alarming each one of the first 8
61. 2981H Channel 9 prior month TOU energy The same as Channel 1 2982H 298BH Channel 10 prior month TOU energy The same as Channel 1 298CH 2995H Channel 11 prior month TOU energy The same as Channel 1 2996H 299FH Channel 12 prior month TOU energy The same as Channel 1 29A0H 29A9H Channel 13 prior month TOU energy The same as Channel 1 29AAH 29B3H Channel 14 prior month TOU energy The same as Channel 1 29B4H 29BDH Channel 15 prior month TOU energy The same as Channel 1 AcuRev 2000 AcuRev 2000 29BEH 29C7H Channel 16 prior month TOU energy The same as Channel 1 dwod 29C8H 29D1H Channel 17 prior month TOU energy The same as Channel 1 dwod 29D2H 29DBH Channel 18 prior month TOU energy The same as Channel 1 dwod 29DCH 29DDH 29DEH 29DFH Channel 1 3 phase 4 line single phase 3 line prior month system TOU energy Total Channel 1 3 phase 4 line single phase 3 line prior month system TOU energy Tariff 1 dwod dwod 29E0H 29E1H Channel 1 3 phase 4 line single phase 3 line prior month system TOU energy Tariff 2 dwod 29E2H 29E3H Channel 1 3 phase 4 line single phase 3 line prior month system TOU energy Tariff 3 dwod 29E4H 29E5H Channel 1 3 phase 4 line single phase 3 line prior month system TOU energy Tariff 4 29
62. 4 Mappings vV V 852H user05 Mappings V V 856H user06 Mappings vV V 85AH user07 Mappings V V 85EH user08 Mappings V V 862H user09 Mappings v V 866H user10 Mappings V V 86AH user11 Mappings vV V 86EH user12 Mappings V vV 872H user13 Mappings vV v 876H user14 Mappings V V 87AH user15 Mappings V V 87EH user16 Mappings V vV 882H user17 Mappings V v 886H user18 Mappings V V 887H Load voltage rating setting V 888H Connection mode of three phase V v user 889H Channel 1 CT Specifications V vV 88AH Channel 2 CT Specifications V v 88BH Channel 3 CT Specifications V v 88CH Channel 4 CT Specifications V v AcuRev 2000 AcuRev 2000 88DH Channel 5 CT Specifications Vv V 88EH Channel 6 CT Specifications vV NI 88FH Channel 7 CT Specifications V V 890H Channel 8 CT Specifications v V 891H Channel 9 CT Specifications V V 892H Channel 10 CT Specifications v V 893H Channel 11 CT Specifications vV V 894H Channel 12 CT Specifications vV V 895H Channel 13 CT Specifications V V 896H Channel 14 CT Specifications vV V 897H Channel 15 CT Specifications V V 898H Channel 16 CT Specifications vV V 899H Channel 17 CT Specifications V V 89AH Channel 18 CT Specifications vV V 8ADH Restore the default parameters vV V User name and mappings and CT wiring specifications 8AFH Sealed Nonstandard Parameters V V Selection Note means these addresses will be blocked for keys and c
63. 485 Baud Rate 19200 v bps Change Password Addes RS485 Parity None Extended Baud Rate 38400 v bps Extended Parity Even z Channel of Energy Pulse Energy Pulse DI Synchronous Demand DOI None RA Const 5000 DI Trigger Condition Do not trigger v DO2 Ep a CH101 v Width 80 ms DI Syno Source DIT VAR PF Convention VAR Calculation Method Other o G EC Method 1 True RatedVolage 20 v C IEEE C Method 2 Generalized Demand Type Demand Sliding Window Demand C Fed Window Demand Averaging Interval Window 2 2 min Roling Window Demand C Thermal Demand SubInterval M Hmn Display AutocyceStatTime T mn Fower Decimal 3 Auto oycle Show Time 5 E Tun Onthe Backlight 1 H min Save Load Update Device Figure 4 2 General Settings in the software Energy pulse output setting energy pulse settings include Pulse Constant and Pulse Width Pulse Constant s range is 500 20000 Pulse Width range is 20 100ms In practical applications Pulse Constant and Pulse Width should be set according to the system s real power otherwise it will influence the system s energy accuracy Pulse Period 3600000 Real Power x Pulse Constant Pulse Period gt Pulse Width The following equation must be fulfilled in order to ensure the energy accuracy the unit of Real Power is kW Pulse Width is ms 3600000 Real Power x Pulse Constant gt Pulse Width
64. 49 port 161 transport IP UDP AcuRev 2000 Local address 192 168 1 126 port 3592 transport IP UDP Protocol version SNMPv1 1 Loaded RFC 1215 sysUpTime 0 timeticks 0 days 20h 11m 50s 23th 7271023 Quem mB Pina r Bemote SNMP agent Split 192 168 1 249 i Gn Vertical MIB tree TEL Remote address 192 168 1 249 port 161 transport IP UDP Local address 192 168 1 111 port 1194 transport IP UDP Protocol version SNMPv1 1 Loaded RFC 1215 sysUpTime 0 timeticks 0 days 20h 11m 50s 23th 7271023 Ei Figure 5 27 4 Walk the MIB Right Click on the tree root then expand MIB find Acurev 2000 OID right click to select walk then query whole acurev 2000 MIB AcuRev 2000 Bemote SNMP agent Split 192 168 1 248 vi Vertical MIB tree hardware ifa Prompt For OID 46 Multiple Operations B Multiple Variable Bindings TY Expand F Collapse Da Get DR Get Next dof cet Bulk oom Set Query results Remote liet 192 168 1 249 port 161 transport IP Ed Table View 3 Info BA Find Copy OID V Toggle Bookmark Figure 5 28 OUERY returns like these AcuRev 2000 xxx SNMP QUERY STARTED
65. 7 16 01 16718 tariff 1energy Phase A this month tariff 2 energy Phase A this month tariff 3 8 16801 16818 energy Phase A this month tariff 4 energy Phase A prior month total energy Phase A prior month 3 16201216318 ri Phase A prior month tariff 2 energy Phase A prior month tariff 3 10 17001 17018 energy Phase A prior month tariff 4 energy Phase B this month total 4 energy Phase B this month H VER ed Ha EE EN Phase B this month tariff 2 energy Phase B this month tariff 3 12 17201 17218 energy Phase B this month tariff 4 energy Phase B prior month total energy Phase B prior month Li EE sh reds ie B prior month tariff2 energy Phase B prior month tariff 3 14 17401 17418 energy Phase B prior month tariff 4 energy 15 17501 17518 Total reactive energy 16 17601 17618 Phase A B reactive energy 17 17701 17718 Total apparent energy 18 17801 17818 Phase A B apparent energy AcuRev 2000 AuRe 2000 Demand 1 18 26101 26118 System active power demand System reactive power demand System apparent power demand 26201 26218 Phase A B active power demand 26301 26318 Phase A Real Power Demand prediction Phase A Real Power Demand Peak and happening time 26401 26418 Phase B Real Power Demand prediction Phase B Real Power Demand Peak and happening time 26501 26518 Phase AB Reactive power demand 26601 26618 Phase A Reactive Power Demand prediction
66. 7H IL3 Phase C inline float current 2018H 2019H Svg Average Current 201AH 201BH Pin s inline system real power 201CH 201DH Qin s inline system reactive power 201EH 201FH Sin s inline system apparent power 2020H 2021H PFin s inline system power factor 2022H 2023H Inline System Load Nature 2024H 2025H Pin A inline Phase A real power 2026H 2027H Pin B inline Phase B real power 2028H 2029H Pin C inline Phase C real power 202AH 202BH Qin A inline Phase A reactive power 202CH 202DH Qin B inline Phase B reactive power 202EH 202FH Oin C inline Phase C reactive power 2034H 2035H 2030H 2031H Sin A inline A apparent power 2032H 2033H Sin B inline B apparent power Sin C inline C apparent power AcuRev 2000 AcuRev 2000 TE ie A R 26 float power factor 20388 2054 ve inline B power n 27 float factor 203AH 203BH PFin C inline C power p 28 float factor 203CH 203DH A inline load nature R float 203EH 203FH B inline load nature R float 2040H 2041H C inline load nature R float 2100H 2101H I1 Channel 1 Current R 29 float 2102H 2103H Fi Ehannel 1 Real R 30 float power 2104H 2105H Q1 Channel 1 R 31 float Reactive power 2106H 2107H 31 Channel R 32 float Apparent Power siggHogas PE C
67. ABH Schedule Table 5 1st 14th schedule Hour Minute Tariff Number R W The same as Schedule Table 1 AcuRev 2000 AcuRev 2000 11ACH 11D5H 11D6H 11FFH Schedule Table 6 1st 14th schedule Hour Minute Tariff Number Schedule Table 7 1st 14th schedule Hour Minute Tariff Number R W R W The same as Schedule Table 1 The same as Schedule Table 1 Word Word 1200H 1229H Schedule Table 8 1st 14th schedule Hour Minute Tariff Number R W The same as Schedule Table 1 Word 122AH 122CH The 1st Holiday Month Day Schedule Number R W Word 122DH 122FH The 2nd Holiday Month Day Schedule Number o R W Word 1230H 1232H The 3rd Holiday Month Day Schedule Number R W Word 1233H 1235H The 4th Holiday Month Day Schedule Number o R W word 1236H 1238H The 5th Holiday Month Day Schedule Number R W Word 1239H 123BH The 6th Holiday Month Day Schedule Number R W Word 123CH 123EH The 7th Holiday Month Day Schedule Number R W 123FH 1241H The 8th Holiday Month Day Schedule Number o R W 1242H 1244H The 9th Holiday Month Day Schedule Number R W 1245H 1247H The 10th Holiday Month Day Schedule Number R W 1248H 124AH The 11th Holiday Month Day
68. AcuRev 2000 Smart Metering System User s Manual ALLVEMERGY CopyRight 2014 V2 10 This manual may not be altered or reproduced in whole or in part by any means without the expressed written consent of Accuenergy Document 2010E2210 Revision Date Jan 2014 AcuRev 2000 AuRew 2000 The information contained in this document is believed to be accurate at the time of publication however Accuenergy assumes no responsibility for any errors which may appear here and reserves the right to make changes without notice Please ask the local representative for latest product specifcations before ordering Please read this manual carefully before installation operation and maintenance of AcuRev 2000 series meter The following symbols in this manual are used to provide warning of danger or risk during the installation and operation of the meters followed to reduce the risk of electric shock and danger to personal health Safety Alert Symbol Carries information about circumstances which if not 4 Electric Shock Symbol Carries information about procedures which must be y considered may result in injury or death Prior to maintanence and repair the equipment must be de energized and grounded All maintainence work must be performed by qualified competent accredited professionals who have received formal training and have experience with high voltage and current devices Accuenergy shall not be responsible
69. Apparent energy ES Table 3 6 Energy Display Different wiring energy data display is not the same Inline default 3LN wiring out line has three ways single phase out 1LN three phase four wire out 3LN single phase three wire out 2LN Details are as follows AcuRev 2010 meter does not show the screen of yellow background 1 Single Phase Out 1LN E D IO MUL M fox Tri 001 EP Kwh Tri 001 EP kwh Tri 001 EP kwh S Tri 001 EP kwh A Tri 001 EP KWh lt F MTNSMTISMT2SI 2 MT3S M T4S UMSUT ISUT 25 7 U T35 U T4S y ja A v Figure 3 2 Single Phase Out energy display 4f 2 Three Phase 4 Out 3LN E D IO MULM fox Tri 001 EP sum kwh o gt mon EP kWh A ricor EP Ah S Ti oo EPKWh S TA 001 EP kWh FA jy ABC MTns MTISMT2S M T35 M TAS UTnS U TIS U T25 Y Y v v v ja Tri 001 EP kWh lt amp Triooi EP kWh 4S Tr oor EP kWh L Ta oor EP kWh Tr 001 EP kWh U T3A U TA H VIA U TA UTA X MT3A MISA Fal mmamnamra U 735 U Tas vi Ja a a A Tio EP kWh S Tion EP kwh Tiom ep kWh a Tricot EP kWh Trioo1 EP kWh MTB M TIBM T28 MT38 MTAB lt UTB UTB UTB U 738 U TAB MTC MTIC MT2C v Y a v vi ja 44 Tion EP kwh M Tricor EPkWh Tri 001 EP kWh w U TBC U TAC Fal
70. Bytes Used 132 Sectors 0 Drag the bar to control Bytes Remaining 102 Other 3 0 Fs 0 2 40 60 80 100 Cena Ap min p Logging Mode Continuous T Sea D Hou oO Mn Stat Time 20001 1 0 00 00 EndTime 2000 1 1 0 00 00 Save Load Update Device C Interval Figure 4 16 Trending Log 1 Configuration Different contents can be added into 3 logs to meet users requirements For example log 1 can be configured as basic parameter measurement such as Power log 2 can be configured as energy measurement log 3 can be configured as demand measurement log can be choose from 8 categories 98 1 Real Time Metering lncoming AcuRev 2000 2 Real Time Metering User 3 Demand Incoming 4 Demand User 5 Energy Real Time Incoming 6 Energy Current Month TOU Incoming 7 Energy Prior Month TOU Incoming 8 Energy Real Time User Inline real time parameters Users can set different parameters from the 8 categories Generally one trending record needs the following settings 1 8 categories 2 Choose Parameters a Select the interested parameters from the left column b Press Add button the selected parameters will be added to the right column c If a parameter needs to be removed select the parameter in the right column click Remove to deselect it 3 Set logging interval The logging interval can be set as any integer between 0 1440 It is how often a record will be logged W
71. C2H Even harmonic R distortion 32C3H Channel 12 Current R K Factor AcuRev 2000 32CAH Channel 13 Current Odd harmonic distortion Word Channel 13 Current Even harmonic distortion Word Channel 13 Current K Factor Word Channel 14 Current Odd harmonic distortion Word Channel 14 Current Even harmonic distortion Word Channel 14 Current K Factor Word Channel 15 Current Odd harmonic distortion Word Channel 15 Current Even harmonic distortion Word Channel 15 Current K Factor Word Channel 16 Current Odd harmonic distortion Word Channel 16 Current Even harmonic distortion Word Channel 16 Current K Factor Word Channel 17 Current 32DOH Odd harmonic R Word distortion Channel 17 Current 32D1H Even harmonic R distortion 32D2H Channel 17 Current R K Factor Channel 18 Current 32D3H Odd harmonic R distortion Channel 18 Current 32D4H Even harmonic R distortion 32D5H Channel 18 Current R K Factor Channel 1 Channel 18 single phase 3 line data Channel 1 current 3300H THD I1 R Channel 1 current 3301H THD I2 R Toi N EE R Channel 1 current ats THD I31 R 331FH Channel 2 current 333DH harmonic data R Same as Channeli 333EH Channel 3 current 335CH harmonic data R Ek ami 335DH Channel 4 current 337BH harmonic data R Mass ani 337
72. CH Channel 5 current R sameas Channeli harmonic data AcuRev 2000 AcuRev 2000 339BH Channel 6 current 33BOH harmonic dats R Same as Channel 1 word 33BAH Channel 7 current 33D8H harmonie data R Same as Channel 1 word 33D9H Channel 8 current 33F7H harmonie dats R Same as Channel 1 word 33F8H Channel 9 current 3416H harmonie dats R Same as Channel 1 word 3417H Channel 10 current 3435H harmoniedsta R Same as Channel 1 word 3436H Channel 11 current 3454H h rmonic data R Same as Channel 1 word 3455H Channel 12 current 3473H harmoniedata R Same as Channel 1 word 3474H Channel 13 current 3492H harmonicdata R Same as Channel 1 word 3493H Channel 14 current 34B1H harm niedata R Same as Channel 1 word 34B2H Channel 15 current 34D0H harmonic dats R Same as Channel 1 word 34D1H Channel 16 current 34EFH harmonie data R Same as Channel 1 word 34F0H Channel 17 current 350EH harmonic dsta R Same as Channel 1 word 350FH Channel 18 current 352DH harmonic data R Same as Channel 1 word Channel 1 Channel 6 3 phase 4 line single phase 3 line data Channel 1 3 phase 352EH ene ide R word phase 3 line current unbalance Channel 2 3 phase 4 line single phase 3 line current unbalance Channel 3 3 phase 4 line single phase 3 line current unbalance Channel 4 3 phase 4 line single phase 3 line current unbalance Cha
73. E5H Schedule Table 1 4th schedule Hour Minute Tariff Number R W Word 10E6H 10E8H Schedule Table 1 5th schedule Hour Minute Tariff Number R W Word 10E9H 10EBH Schedule Table 1 6th schedule Hour Minute Tariff Number R W Word 10ECH 10EEH Schedule Table 1 7th schedule Hour Minute Tariff Number R W Word 10EFH 10F1H Schedule Table 1 8th schedule Hour Minute Tariff Number R W Word 10F2H 10F4H Schedule Table 1 9th schedule Hour Minute Tariff Number R W Word 10F5H 10F7H Schedule Table 1 10th schedule Hour Minute Tariff Number R W Word 10F8H 10FAH Schedule Table 1 11th schedule Hour Minute Tariff Number R W Word 10FBH 10FDH Schedule Table 1 12th schedule Hour Minute Tariff Number R W 10FEH 1100H Schedule Table 1 13th schedule Hour Minute Tariff Number R W 1101H 1103H Schedule Table 1 14th schedule Hour Minute Tariff Number R W 1104H 112DH Schedule Table 2 1st 14th schedule Hour Minute Tariff Number R W The same as Schedule Table 1 112EH 1157H Schedule Table 3 1st 14th schedule Hour Minute Tariff Number R W The same as Schedule Table 1 1158H 1181H Schedule Table 4 1st 14th schedule Hour Minute Tariff Number R W The same as Schedule Table 1 1182H 11
74. E6H 29EFH Channel 2 3 phase 4 line single phase 3 line data The same as to Channel 1 3 phase 4 line single phase 3 line data 29F0H 29F9H Channel 3 3 phase 4 line single phase 3 line data The same as to Channel 1 3 phase 4 line single phase 3 line data 29FAH 2A03H Channel 4 3 phase 4 line single phase 3 line data The same as to Channel 1 3 phase 4 line single phase 3 line data 2A04H 2A0DH Channel 5 3 phase 4 line single phase 3 line data The same as to Channel 1 3 phase 4 line single phase 3 line data AcuRev 2000 AcuRev 2000 Channel 6 3 phase 4 line single phase 3 line data The 2A0EH 2A17H same as to Channel 1 3 phase 4 line single phase 3 line data dwod Reactive Energy Inline Reactive Power Energy Egin A inline Phase Power Energy 2B00H 2B01H A Reactive Power R W dwod Energy Egin B inline Phase 2B02H 2B03H B Reactive Power R W dwod Energy Egin C inline Phase 2B04H 3 2B05H C Reactive Power R W dwod Energy 2B06H Eqin S inline system 2B07H Reactive Energy RN awed Channel 1 18 single phase 3 Channel 1 6 3 phase 4 line single phase 3 line reactive power energy Tenant 1 18 real 2B08H P 2B2BH time Reactive Power R W dwod Energy Tenant 1 real time 2B2CH 2B2DH system Reactive R W dwod 2B2EH Tenant 2 6 Reactive R W 2B37H Power
75. For example if the Real Power is 35 2 kW Pulse Width 3600000 35 2 x Pulse Constant it must meet 3600000 35 2 x Pulse Constant gt Pulse Width Note The voltage rating is set for alarm as the voltage rating in the alarm settings AcuRev 2000 Utility Software Accuenergy Corporation AcuRev 2000 ELE CCL iE SE Ft Be ED Bu N S1 S2 Sal 2 User and Channel Mapping Wiring of Three phase User si Ir REN G IN C AN Channel Display A ET Model Only for EM Module O Channel 101 5 AfFulscale Channel102 5 A Fullscale Channel 103 5 AtFulscale Channel 104 5 A Fulkscale Channel 105 5 AfFulscael Channel106 5 A Fullscale Channel107 5 A Fulkscale Channeli08 5 A Fulkscale Channel1og 5 A Fullscale Channel110 5 A Fulkscale Jen m x Channel 111 5 z AfFulscalel a n Channel 112 A Fullscale ax ue SJ Channel113 5 A Fulkscale eens ED 7 I Channel 114 5 AfFulscael FEE IS Channel 115 5 AfFulscale fer Channel 116 5 A Fulkscale fee Mme a Channel 117 5 AfFultscale Channel 118 P si A Fulescale Restore to Defaults User and CT Settings 1 ERR 0 1189 0 00 A Figure 4 3 User and CT Settings display About user name and the corresponding channel are described below a The user name can be customized supports up to six only supports letters and numbers
76. MIB then select ACCUENERGY MIB select Save AcuRev 2000 Compiled HIB EKodules Figure 5 24 After successfully adding Acurev 2000 MIB there should show ACCUENERGY MIB in MIB Modules which OID is 1 3 6 1 4 1 39604 AcuRev 2000 x Module Root OID a ACCVENERGI MIB 1 3 6 1 4 1 3880 QUADSL LINE EXT MIB 1 3 6 1 2 1 10 94 3 ig ADSL LINE MIB 1 3 6 1 2 1 10 94 ig ADSL TC MIB 1 3 6 1 2 1 10 94 ADSL2 LINE MIB 1 3 6 1 2 1 10 238 UADSL2 LINE TC MIB 1 3 6 1 2 1 10 238 2 QUAGENTI MIB 1 3 6 1 2 1 74 QU AGGREGATE MIB 1 3 8 1 3 123 ALARM MIB 1 3 6 1 2 1 118 AMTEC MIB 1 3 6 1 4 1 1954 ig APM MIB 1 3 6 1 2 1 16 23 T Tr MIB Modules MIB Groups 7 y Figure 5 25 2 Load ACCUENERGY MIB Opening MIB Browser which is part of MG SOFT select MIB Table then load ACCUENERGY MIB from MIB Modules unload unnecessary MIBs from Loaded MIB modules AcuRev 2000 637 229391 B C Program Files MG SOFT MIB Browser MIB SMIDB ACCUENERGY t JAPPC MIB QAPPLETALK MIB LICATION MIB APPN DLUR MIB BGP4 MIB BRIDGE MIB QCHARACTER MIB aDECNET PHIV MIB a DIAL CONTROL MIE Figure 5 26 3 Contact SNMP Agent Change to Query Label input IP address under Remote SNMP agent such as 192 168 1 249 select Contact button 4251 if the SNMP agent works on this IP it will return like this Remote address 192 168 1 2
77. Month R W Word 13B4H Sena ax R W Word Hour Starting 10558 Minute Second NW Word Ending Year 13B6H Month R W Word 13B7H Ending Day R W Word Hour 13B8H Ending Minute R W Word Second 13B9H Clear Trending R W 0 not clear 1 Word Log clear the same as 13COH 1479H Log2 setting Log the same as 1480H 1539H Log3 setting Log The logging can be implemented by putting the desired parameter Modbus address in the register of Trending Record Some parameters use 2 Modbus registers so the descriptor is required A descriptor represents how many Modbus registers a parameter uses 189 AcuRev 2000 For example register 4102H and 4103H are configured as a specific record the corresponding descriptor is 2 the software can display content as Frequency Trending log setting includes Log1 Setting Log2 Setting Log3 Setting 1300H 13BFH Log 13COH 147FH Log2 1480H 153FH Log3 Range each record uses 192 registers 384 bytes Trending record setting 1300H 1301H 1302H 1376H 1377H 13B1H 13B2H 13B8H Parameter Register Address Log Settings Register Property Register Property 1 Log Settings Register 1300H 1301H Size 2 Addess 1300H 1301H Bytes O Low byte 1 High byte 2 Low byte 3 High byte Parameter Sector Register Logging time Register Number The number of Modbus registers Data range 0 117 The trending record siz
78. RMONIC Ic 8th 13th harmonic User01 HARMONIC Ic 2nd 7th harmonic ratio t Figure 3 18 Three phase 4 out power quality 3 Single phase 3 Out 2LN AcuRev 2000 PO SET NET INFO fox Userot unei Usero1 THDIa Usero1 THD Ib n gt User01 KFactor lt SUMODDEVEN SUMODDEVEN AB Y Y Y Alfv User i HARMONIC Ta a UserOT HARMONICIa UserOT HARMONICIa 4 User i HARMONICIa a User0 HARMONIC a 26th 31stharmonic 20th 25th harmonic 14th 19th harmonic 8th 13th harmonic 2nd 7th harmonic v la A gt LI gt ratio Y ratio v ratio Vv ratio v ratio al tv User i HARMONIC Ib a User0 HARMONICIb a Usero HARMONICID A Usero HARMONICIE a User HARMONIC Ib 2nd 7th harmonic 8th 13th harmonic 14th 19th harmonic 20th 25th harmonic 26th 31st harmonic ratio T ratio v ratio v ratio bd ratio Figure 3 19 Single phase 3 out power quality 4 Inline PO SETNETINFO fox nline UNBL 4 inlineTHDUa S nineTHDUB S amp InlineTHDUc Inline THD U UI 4g SUMODDEVEN SUMODDEVEN SUMODDEVEN lt avg alle Inline HARMONIC Ua a Inline HARMONIC Ua A Inline HARMONICUa A A ur 14th 19th harmonic ath 13th harmonic 2nd 7
79. U energy R W dwod 2609H F tariff 4 Epin A inline Phase A oar this month TOU energy R W dwod 260BH total Epin A inline Phase A 260CH this month TOU energy R W dwod 260DH tariff 1 Epin A inline Phase A SI this month TOU energy R W dwod 260FH 3 tariff 2 2610H Epin A inline Phase A this month TOU energy R W dwod 2611H tariff 3 2612H Epin A inline Phase A this month TOU energy R W dwod Epin B inline Phase 2614H BthismonthTOU Rw dwod 2615H enery total Epin B inline Phase B ele this month TOU enery R W dwod 2617H tariff 1 2618H Epin B inline Phase B 2619H this month TOU enery R W dwod tariff 2 Epin B inline Phase B Li this month TOU enery R W dwod tariff 3 Epin B inline Phase B uv this month TOU enery R W dwod tariff 4 Epin C inline Phase 261EH CthismonthTOU R W dwod 261FH enery total Epin C inline Phase C eie this month TOU enery R W dwod 2626H i tariff 1 Epin C inline Phase C EN this month TOU enery R W dwod tariff 2 Epin C inline Phase C Li this month TOU enery R W dwod tariff 3 Epin C inline Phase C pn this month TOU enery R W dwod tariff 4 Channel 1 18 single phase 3 Channel 1 6 3 phase 4 line single phase 3 line this month TOU energy AcuRev 2000 AcuRev 2000 2628H 2629H Channel 1 this month TOU energy total Channel 1 this month TOU energy Tariff 1 R W R W dwod
80. al value Ds kVA LA The communication value Frequency Hz equals the real value Power Factor he communication value No Unit equals the real value Voltage he communication value Volt equals the real value The communication value Current Ampere equals the real value Unbalance Unbl Rx 1000 X 100 No Unit Total Harmonic distortion THD Rx 10000 X 100 No Unit All times Harmonic ratio HDn Rx 10000 X 100 No Unit Odd harmonic ratio HDo Rx 10000 X 100 No Unit Even harmonic ratio HDe Rx 10000 X 100 No Unit Crest Factor CF Rx 1000 No Unit K factor KF Rx 10 No Unit Phone Form Factor THFF Rx 10000 X 100 No Unit Pulse Counted Value Rx 100 According to settings Table 5 26 The relationship between communication value and real value Rx is the communication value 3 Parameter Address Table AcuRev 2000 System Settings Users should thoroughly understand the system settings as they contribute to the meter operation mode The details on system settings can be found in Chapter 4 Function Code 10H Write 03H Read 800H Meter Address R W 1 247 1 word Channel 1 485 0 Even parity communication 1 Odd parity e Modbus parity RAN 2 No parity 2 3 bit setting 3 No parity 1 Infrared 0 Even parity communication 1 Odd parity oa parity bit RAN 2 No parity Stop Bit 2 i setting 3 No Parity Stop Bit 1 Channel 1 485 communication 803H Modubs baud R W 41200 38400 9600 rate Infrared
81. alid sealed status this address will show seal is open When the seal is valid this address will show sealed status and corresponding parameters will be blocked AcuRev 2000 AcuRev 2000 Address Parameter Description 8AFH Sealed Nonstandard Parameters Selection Bit0 RS485 communication parameters and infrared communication parameters Bit1 network parameters Bit2 Clear Meter Run Time Bit3 DI pulse counting Bit4 TOU Bit5 RO 1 valid of corresponding selection 0 invalid of corresponding selection 8BOH Seals status OXOA Seal sealed Other Seal opened Parameters blocked by seal As long as seal is in sealed status parameters below must be blocked no matter what value of address 8AFH System parameters setting 806H Energy constant pulse NI V 807H Energy pulse width V V 808H DO1 output energy pulse channel V V settings 809H DO2 output energy pulse channel V V settings 80AH Demand calculating mode V V 80BH Demand period V V 80CH Secondary period of Demand V V 80DH DI Synchronization Source V V BOEH DI Triggering Condition NI NI 835H Reactive Power NI V 836H VAR PF Convention V V 837H Bit0 Clear energy data NI V 837H Bit1 Clear demand data V V 842H user01 Mappings V V 846H user02 Mappings vV V 84AH user03 Mappings V V 84EH user0
82. ame and the rules used to transmit data A Coding System 8 bit A Start bit 1 bit A Data bits 8 bit A Parity No parity odd parity even parity A Stopbit 1bit or 2bit A Error checking CRC 2 Frame When data frame reaches the terminal unit it goes through the unit via a special port the unit removes the data frame s header reads the data ifthere is no error then it implements the data s task Afterwards the unit puts its own data with the acquired header and sends back the frame to the sender The response data frame contains Address Function Data and CRC Check Any error will cause a failure to respond Frame Format AcuRev 2000 Address Function Data Check 8 Bits 8 Bits Nx8 Bits 16 Bits Table 5 1 Data Frame Format Address Field The address field is at the start of the frame It is composed of 1 byte 8 bits its decimal value range is 0 247 A master addresses a slave by placing the slave address in the address field of the message When the slave sends its response it places its own address in this address field of the response to let the master know which slave is responding Function Field When a message is sent from a master to a slave device the function code field tells the slave what kind of action to perform Read DO status Obtain Digital Relay Output current status ON OFF Read DI status Obtain Digital Input current status ON OFF 03 Read Data
83. ameters the lower part indicates the individual tenant energy parameters oftware Accuenergy Corporation rm dev G8 OR eR S E ERE EE DENN Si S2 Sal Current Tarif Monthly Biling Mod G End of Month C Assign Schedule Setting 6 Weekend Schedule 5 Fault Status Word 1 O v Enable TOU 7 Restore to Defaults Restore to Default Tariff Setting Holiday Setting Fault Status Word 2 O 7 n Day 1 Hour 0 Weekend Day T Monday T Saturday I Tuesday Iv Sunday T Wednesday Thursday Friday Daylight Saving Time Iv DST Enable DST Format Fomat2 Format 1 DST Start Jul fi Day fT How 32 Min Adjust Time 5 Minutes DST Ending u sif Day i Heu 5 Min Adjust Time I Minutes Format DST Start see sin fsn jam ue Minutes Adjust Tine 13 DST Ending fot Mon a 0 Adjust Time 20 Minutes TOU Seasons 9 01 01 022005 fomos soas fomo 070107 08 01 08 momo moos 120104 oo0000 000000 folidays 000000 00 0000 000000 000000 88 Figure 4 9 Time of Use setting ERR 3 4505 0 07 TOU energy settings are in Figure 4 9 Season the maximum season number is 14 If the season number is smaller than the programmed season number the energy meter only utilizes the first seasons
84. annel 1 3 phase 4 line single phase 3 line total active power Qs1 Channel 1 3 phase 4 line single phase 4 line total reactive power 119 AcuRev 2000 Ss1 Channel 1 3 phase 21DCH 21DDH 4 line single phase 121 float 3 line total apparent power PFs1 Channel 1 210EH 21DFH Phase 4line single 122 float phase 3 line total power factor Nature of the load Channel 1 3 phase 21E0H 21E1H 4 line single phase float 3 line nature of the load Same as to Channel 21E2H 21EBH Channel 2 1 3 phase 4 line float Measurement single phase 3 line 123 126 Same as to Channel 21ECH 21FSH Channel 3 1 3 phase 4 line float Measurement single phase 3 line 127 130 Same as to Channel 21F6H 21FFH Channel 4 1 3 phase 4 line float Measurement single phase 3 line131 134 Same as to Channel 2200H 2209H Channel 5 1 3 phase 4 line float Measurement single phase 3 line 135 138 Same as to Channel 220AH 2213H Channel 6 1 3 phase 4 line float Measurement single phase 3 line 139 142 Energy The decimal place for energy is 1 the real value is communication value divided by 10 The unit is kWh Real time energy and this month TOU energy is editable but the prior month TOU energy cannot be edited The data type is double word each parameter uses two register address 4 bytes High bytes are followed by low bytes Function Code 03 to read Function Code 10 to write R
85. ar Month Day Hour word 3805H Time Minute Second 3806H Event Marking 1 16 indicating 1 16 events word agogn Newest Event 1 100 0 indicates null word Number 234 AcuRev 2000 Event number 3808H currently being R W 1 100 1 word read SOE Record When an event happens SOE records the DI state and its time of occurrence Each time only one SOE record can be read via current SOE record setting it can save up to 20 SOE records Function Code 03 is to read Function Code 10 is to write 3900H DI SOE first record R Year DI SOE first record 3901H Month R 3002H DI SOE first record R Day 3903H DI SOE first record R Hour 3904H DI SOE first record R Minute 3905H DI SOE first record R Second DI SOE first record 320641 millisecond high byte R DI SOE first record 23074 millisecond low byte i Bit0 7 indicates the 8 3908H DI EUM R channel s DI statue 1 means ON 0 means OFF AcuRev 2000 Newest SOE record 3909H R 1 20 0 means null word number saam 5OErecord number pyw 1 20 word being read DI Pulse Counter and Value DI can query the number of counts 1 8 pulse count value pulse count value is the number of the set pulse count value obtained by multiplying the pulse counting dimension plus get the value of units Pulse count value is the actual value of the communication value divided by 10
86. ase user 1LN and single phase three wire user 2LN mixed use In line of all connection types according to the three phase four wire user 3LN display Display Mode Display company name ACCUENERGY in LCD screen when powered up after 2 seconds entering the main menu screen automatically Arrow keys to move the cursor position OK button to confirm and enter the corresponding menu If you enter M quick code screen the left and right keys to move the cursor up and down keys to change the value the OK button to confirm and enter the corresponding screen Settings Mode AcuRev 2000 AcuRev 2000 In the main menu screen move the cursor to the setting icon press OK to enter the settings mode After the password screen it will display language setting screen Press OK to activate the cursor When the cursor is inactive arrow keys to scroll the screens When the cursor is active the cursor blinks Up and Down to change the value where the cursor stays Left and Right to move the cursor OK is for confirmation LED indicator from top to bottom L1 Power Supply Remains on when the meter is powered Turns off when meter is not powered L2 Pulse Output 1 Blinking E1 Pulse Ouput Non BlinkingL no Pulse Output L3 Pulse Output 2 Blinking E2 Pulse Output Non Blinking no Pulse Output L4 Alarming Blinking when an alarm is triggered Non Blinking no alarms Main menu first scree
87. ay Module Dimensions Unit mm 140 li 1 I 5 n D n x S o 4 D d 77 7 Front View Side View Figure 2 3 Meter Base dimensions Display Module The Display Module can also be panel mounted Appearance Figure 2 4 Display Module Dimensions 715 10 72 67 A Front View Side View Figure 2 5 Display Module dimensions Unit mm 68 68 Cut Out Cut Out AcuRev 2000 External CT Module EM AcuRev 2000 Appearance Figure 2 6 EM module appearance Dimensions Unit nit mm 67 J 1 DIL t 3 5 L 0 pae 1 77 7 Front View Side View Figure 2 7 EM module dimensions Internal CT Module DM Direct Module AcuRev 2000 Appearance Figure 2 8 DM module appearance Dimensions 153 105 4 105 4 Front View Side View Figure 2 9 DM module dimensions Environmental AcuRev 2000 Before installation please check the environment temperature and humidity to ensure t
88. ay the user 1 The display module displays the user Low byte 0 Disable 1 18 The corresponding physical channel 19 24 corresponding channel 1 6 three phase users 0x0109 863H 865H user10 user name R W user name 6 ASCII user10 AcuRev 2000 AcuRev 2000 866H Mappings R W High byte 0 The display module does not display the user 1 The display module displays the user Low byte 0 Disable 1 18 The corresponding physical channel 19 24 corresponding channel 1 6 three phase users 0x010a Word 867H 869H user11 user name R W user name 6 ASCII user11 Word 86AH Mappings R W High byte 0 The display module does not display the user 1 The display module displays the user Low byte 0 Disable 1 18 The corresponding physical channel 19 24 corresponding channel 1 6 three phase users 0x010b Word 86BH 86DH user12 user name R W user name 6 ASCII user12 Word 86EH Mappings R W High byte 0 The display module does not display the user 1 The display module displays the user Low byte 0 Disable 1 18 The corresponding physical channel 19 24 corresponding channel 1 6 three phase users 0x010c 86FH 871H user13 user name R W user name 6 ASCII user13 872H Mappings R W High byte 0 The display module does
89. bove register number 3 Register property Register 1377H 13B1H Size one register uses one byte in total there are 117 descriptors 59 register addresses The descriptor indicates how many register number one parameter uses It can be set as 1 191 AcuRev 2000 AcuRev 2000 or20r3 For example If the first descriptor is 2 the second descriptor is 1 then the first two Modbus addresses belong to the first the third Modbus address belong to the second descriptor Note From the above example can be seen between the register list and the descriptor is not one to one a record register property may correspond to two recording parameter register address 4 Logging mode setting Logging mode as follows Mode 1 Interval setting time recording recording full set sector the records covering the trend originated Mode 2 within the set time recording data if within a set range record full set sector to stop recording Mode 3 To set the start time to start recording data records full set sector the records covering the trend originated Register address 13B2H is the trend recording a mode setting register 0 Log 1 1 Log 2 2 Log 3 13B3H to 13B5H is to set the starting time of the trend recording 13B6H to 11B7H is to set the trend recording ending time Register 13B3H 13B5H Logging Timer starting time 13B6H 13B8H Logging Timer ending time Size 3 Byte 0 1 2 3 4 5 Parameter
90. ct range the set port will return to the default value P08 Http port 0080 Figure 5 9 11 Set resetting mode in the ninth setting page Select RESET to reset the module Selecting NO will not reset the module Selecting DEFAULT will load the module with default settings and reset module Press the OK key to go to the setting page Press A key or v key to select configuration mode press the OK key to accept Note When configuring Ethernet module settings completely users must select RESET to restart module and new settings will take effect Ethenet RESET NO Figure 5 9 12 The password of AXM NET module can be reset by selecting RESET The password then becomes 12345678 Selecting NO means no change Press OK key to accept S S N S 3 lt P10 Net PSD RESET NO Figure 5 10 13 After configuring AXM Net settings completely press key and lt 4 key simultaneously to return to menu selecting mode 5 3 7 Searching IP Address of Ethernet Module The utility software of AcuRev 2000 series meter supports a meter search function Users can use this function to obtain IP and MAC addresses of Ethernet Modules Operation steps 1 Click Start menu of utility software 2 Click Search Device menu se ETE Settings Help Ee ONOR RRB AD BEB N Si S2 Sal eee BB Connection Settings Vots AB lA LoodA TETEEEEERN 2 is Lott Volts CA ic Lond C Brit VAveage Load To
91. d each user Demand webpage includes the demand data for Acurev 2000 series meter such as real time value predictive value maximum value and the maximum value timestamp of inline and each user Energy webpage includes the energy data for Acurev 2000 series meter such as Delivered kWh kVAh of inline and each user Harmonics webpage includes harmonics parameters for Acurev 2000 series meter such as THD Volts Average of inline and each user IO Status webpage includes RO status DI status or DI counters DI value and DI unit Alarm Record webpage includes alarm records for Acurev 2000 series meter There are twenty records Each record includes Time Stamp Limit ID Status Alarm Channel and Value SOE Record webpage includes SOE record for Acurev 2000 series meter There are twenty records Each record includes Time Stamp and DI Status System Record webpage includes system record for Acurev 2000 series meter There are one hundred records Each record includes Time Stamp and system event AcuRev 2000 AcuRev 2000 ACTUZIV AGY Main Page AcuRev 2000 Series Web Server Data Metering ms realtime metering measures energy consumption and monitors power quality for up to 18 single phase Settings Demand ircuits in one unit Itis an advanced intelligent power meter that Accuenergy developed and manufuctured for Module Status Energy aridis The main features include multitenants submetering cyclic display tamp
92. demand active 300FH 3029H 4 line single phase demand reactive 3 line total demand power demand apparent demand 317 322 The same as to 302AH ci Channel 1 3 phase 3044H line icildemand 4 line single phase 3 line 323 328 The same as to 3045H Crannel Apie Channel 1 3 phase 4 line single phase 305FH 3 line total demand 4 line single phase 3 line 329 334 The same as to 3060H in Channel 1 3 phase 307AH Jire total demand 4 line single phase 3 line 335 240 The same as to 307BH du ee Channel 1 3 phase 3095H 3 line total demand 4 line single phase 3 line 341 346 The same as to 3096H MERE Channel 1 3 phase 30BOH line total demand 4 line single phase 3 line 347 352 Energy Quality 224 The Power Ouality parameters include Unbalance Factor Total Harmonic Distortion Crest Factor Current K Crest Telephone interference factor and 2nd 31st harmonic data 2010 does not measure power quality parameters The power quality parameter data type is Integer Each parameter uses 4 bytes high bytes followed by low bytes AcuRev 2000 Function Code 03 read There is Corresponding relationship between communication and actual values Unbalance Unbl Rx 1000 X 100 Total harmonic distortion THD RX 10000 X 100 The harmonic distortion HDn RX 10000 X 100 Odd harmonic distortion HDo RX 10000 X 100 Even harmonic distortion HDe RX 10000 X 100 Crest Factor CF RX 1000 K Factor KF Rx 10 Te
93. direct Connect The Ethernet module uses straight line standard 568B to access the Ethernet through a router or hub 5 3 6 Initializing Ethernet Module AXM NET Module s default settings are as follows IP Address 192 168 1 254 Subnet Mask 255 255 255 0 Gateway 192 168 1 1 This information can be found by using the keys on the meter front The following process shows how to configure Ethernet module settings by using the front panel AcuRev 2000 AcuRev 2000 1 Pressing 4 key and gt key simultaneously on the meter will go to the menu selecting mode Cursor E flashes in this mode E D IO MUL M Figure 5 2 2 Press A key or v key to move the cursor to NET Press OK key to go to the Ethernet module setting mode Access Code page is the first page of NET mode Press OK key to go to the Ethernet parameter setting page PASSWORD 0000 Figure 5 2 3 Set configuration mode in the first setting page AUTO means that users configure module settings with DHCP protocol while MANU means that users configure module settings with manual setting Press OK key to go to the setting state Press A key or w key to select configuration mode press OK key to accept Press the A key again to go to the second setting page for IP Address Note If you select the AUTO mode please go to step 11 directly and reset module Wait until the reset is finished and find the new IP address
94. dule Number R W 127EH 1280H The 29th Holiday Month Day Schedule Number R W AcuRev 2000 AcuRev 2000 The 30th Holiday Month 1281H 1283H Day Schedule R W Word Number Weekend Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 BitO 0 1 Work 0 Rest Reserved Saturday Friday Thursday Wednesday Tuesday Monday Sunday Tariff parameter error word 1 basic parameter Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 BitO 1 1 1 1 1 1 1 1 Weekend Holiday Holiday Season Season Schedule Schedule Schedule 3 Tariff Setti Setting Number Setting Number Table Setting E d ca Error Exceeds Error Exceeds Exceeds Error EM Tariff parameter error word 1 basic parameter ii pa fa ai ii Schedule Schedule Schedule Schedule Schedule Schedule Schedule Schedule 8 Error 7 Error 6 Error 5 Error 4 Error 3 Error 2 Error 1 Error Trending Record Settings Log1 Registers R W Registers 0 117 Sectors Sectors 0 10 1301H Log1 Interval R W 0 65535 Word 1300H Word Log1 register AcuRev 2000 1302H 1376H 1 117 R W 0 65535 Word identifier High 4 bit data Log1 register type 1377H 13B1H 1 117 R W Byte descriptors Low 4 bit data length isamod 0 Mode 1 13B2H ie R W 1 Mode 2 Word 2 Mode 3 Starting Year 13B3H
95. e is Register Number x 2 12 Sector Number Each sector is 64 kB Trending Log1 Log2 Log3 in total use 100 sectors the range is 0 100 The logging is disabled if the setting is set as 0 190 Logging Interval the time interval between two records the unit is minute The range is 0 1440 when it is set as 0 logging will be disabled 2 Parameter Address Register 1302H 1376H Size One parameter uses one two or three Modbus register addresses in total there are 117 addresses Modbus register address list you can set the parameters that are recorded in the record set the trend because some parameters such as power and electricity etc takes up two Modbus address to record these parameters need to use two Modbus address to characterize Some parameter take up 3 Modbus address such as maximum demand happening time For example Register 2000H and 2001H is set in the trend recorded in the register list the trends recorded in these registers record access frequency value Frequency Modbus addresses is 2000H and 2001H Note when 117 registers are all fully assigned be sure that no extra parameters will be assigned For example all parameter registers are energy when all 117 registers are full it leads to that the last energy only uses one Modbus address The last value will be incorrect because every energy uses two Modbus addresses Unused register should be set as 0000H or FFFFH Each logging size is decided by the a
96. e output circuit 0 No Output 1 Channel1 single phase 2 Channel 2 single phase 3 Channel 3 single phase 4 Channel 4 single phase 5 Channel 5 single phase 6 Channel 6single phase 7 Channel 7 single phase 8 Channel 8 single phase 9 Channel 9 single phase 10 Channel 10 single phase 11 Channel 11 single phase 12 Channel 12 single phase 13 Channel 13 single phase 14 Channel 14 single phase 15 Channel 15 single phase 16 Channel 16 single phase 17 Channel 17 single phase 18 Channel 18 single phase 19 Channel 1 3 phase 4 line user Single phase 3 line user total 20 Channel 2 3 phase 4 line user Single phase 3 line user total 21 Channel 3 3 phase 4 line user Single phase 3 line user total 22 Channel 4 3 phase 4 line user Single phase 3 line user total 23 Channel 5 3 phase 4 line user Single phase 3 line user total 249 AcuRev 2000 AcuRev 2000 250 24 Channel 6 3 phase 4 line user Single phase 3 line user total 25 Inline total 26 Inline A phase 27 Inline B phase 28 Inline C phase Appendix C Ordering Information Model Display D Embedded display E External Display Protocol MODBUS Modbus RTU L DLT645 protocol Ethernet M NC None L NET with Ethernet port RO ORO No RO L 4RO 4 Relay Output DI ODI No DI Current Option Frequency Ee 50Hz 60 60Hz AcuRev 2010 AcuRe
97. e user 1 The display module displays the user Low byte 0 Disable 1 18 The corresponding physical channel 19 24 corresponding channel 1 6 three phase users 0x0111 883H 885H user18 user name R W user name 6 ASCII user18 AcuRev 2000 AcuRev 2000 High byte 0 The display module does not display the user 1 The display module displays the user Mappings R W ii 0x0112 Word 1 18 The corresponding physical channel 19 24 corresponding channel 1 6 three phase users Bead voltage R W Default 220v 220 Word rating setting 0 No three phase wiring 1LN x 1 Three phase user wiring is Connection 3LN three phase four wire mode of three R W di 0 word phase user 2 Three phase user wiring is 2LN single phase three wire Note EM effective DM invalid Can be set for example Zi R W 20 CCT 20 full scale 20A 20 Word 80 CCT 80 full scale 80A 150 CCT 150 full scale 150A 200 CCT 200 full scale 200A anna id R W Same as above 20 Word Specifications Channel ET R W Same as above 20 Word Specifications Channel EN R W Same as above 20 Word Specifications als ed R W Same as above 20 Word Specifications BER ee R W Same as above 20 Specifications 88FH chanel TT R W Same as above 20 Specifications Boop hannele ET R W Same as above 20 Specifications ggi E
98. eak times Minute Second 2D1BH IL1 dema Phase A inline current 149 2D1CH demand 2010H cient demand 150 2D1EH Ed prediction IL1 dema 2D1FH max Phase A 2D20H inline max current demand 2D21H IL1 time Phase A Year Month 2D23H inline max current Day Hour demand occurance Minute Second 2D24H para inline 2D25H phase A power demand 2D26H pae eu Ps is 2p zH Pos Geman prediction 2D28H Pin A dema max inline phase A 2D29H power demand peak EE p 2D2CH P P Jot ir demand peak times Minute Second AcuRev 2000 AcuRev 2000 Qin A dema inline ZDADHE phase A reactive 153 float 2D2EH power demand 2D2FH QinA inline phase A reactive power 154 float 2D30H NP demand prediction Qin A dema 2D31H max inline phase float 2D32H A reactive power demand peak Qin A time inline Year Month 2D33H phase A reactive 2D35H power demand peak Day Hour word Minute Second times 2D36H Sin A dema inline phase A apparent 155 float 2D37H demand aaah parent demand 156 floa 2D39H APparent os prediction Sin A dema max 2D3AH inline phase A float 2D3BH apparent demand peak 2D3CH Sin A time inline Year Month 2D3EH phase A apparent Day Hour word demand peak times Minute Second 2D3FH Inline phase B Same as phase A 2D62H demand data demand 157 164 2D63H Inline phase C Same as phase A 2D86H demand data demand 165 172
99. eal Time Energy Inline real time energy time energy Epin A inline 2500H 2501H Phase A real time R W dwod energy Epin B inline 2502H 2503H Phase B real time R W dwod energy Epin C inline 2504H 2505H Phase C real time R W dwod energy Epin S inline 2506H 2507H system real time R W dwod energy Channel 1 18 single phase 3 Channel 1 6 3 phase 4 line single phase 3 line real time energy 2508H 2509H Channel 1 real pyw dwod time energy 250AH 250BH Channel 2real gj dword 203 AcuRev 2000 AcuRev 2000 250CH 250DH Channel 3 real time energy R W dword 250EH 250FH Channel 4 real time energy R W dword 2510H 2511H Channel 5 real time energy R W dword 2512H 2513H Channel 6 real time energy R W dword 2514H 2515H Channel 7 real time energy R W dword 2516H 2517H Channel 8 real time energy R W dword 2518H 2519H Channel 9 real time energy R W dword 251AH 251BH Channel 10 real time energy R W dword 251CH 251DH Channel 11 real time energy R W dword 251EH 251FH Channel 12 real time energy R W dword 2520H 2521H Channel 13 real time energy R W dword 2522H 2523H Channel 14 real time energy R W dword 2524H 2525H Channel 15 real time energy Channel 16 real
100. ected to it Before energizing the meter please refer to the meter s label and specifications O Do not perform high voltage test insulation experiment to output input or communication terminals O The use of shorting blocks and fuses are recommended Current transformers need to be grounded O Use dry cloth to wipe the meter D The replace of the Battery must be performed by professionals Note Failure to follow manufacturer guidelines for installation and use may compromise the safety of the meter and the user Note Any repair should only be performed by the manufacturer 8 A switch or circuit breaker should be utilized in the eguipment The switch should be placed close to the eguipment and easy to reach The switch is regarded as a part of the breaking device Meter Base LxWxH 140x105 4x77 7mm External CT Module EM LxWxH 67x105 4x77 7mm Internal CT Module DM LxWxH 153x105 4x77 7mm Display Module LxWxH 72x72x26 5mm Table 2 1 AcuRev 2000 Appearance Meter Base If a Display Module is specified an RJ45 jack is equipped in the Meter Base where the attached cable should be pluged in to connect the Display Module to the Meter Base See Figure 2 1 If the Display Module is not specified the Display Module is embedded in the Meter Base See Figure 2 2 Appearance Figure 2 1 Meter Base with external Display Module AcuRev 2000 AcuRev 2000 Figure 2 2 Meter Base with embedded Displ
101. edule Number The 20th Holiday Month Day Schedule Number R W R W 00 00 0 00 00 0 The 21st Holiday Month Day Schedule Number R W 00 00 0 The 22nd Holiday Month Day Schedule Number R W 00 00 0 The 23rd Holiday Month Day Schedule Number R W 00 00 0 The 24th Holiday Month Day Schedule Number R W 00 00 0 The 25th 414BH Holiday Month Day RAW 00 00 0 414DH Schedule Number The 26th 414EH Holiday Month Day R W 00 00 0 4150H Schedule Number The 27th 4151H Holiday Month Day RAW 00 00 0 4153H Schedule Number The 28th 4154H Holiday Month Day RAW 00 00 0 4156H Schedule Number The 29th pod Holiday Month Day R W 00 00 0 4159H Schedule Number The 415AH 30thHoliday Month 415CH Day Schedule RW 00 000 Number 415DH The 1st setting year R W 0 415EH Holiday number of the R W 0 1st year The 2nd year Holiday setting 415FH The same as to first 41BAH year The 3rd year Holiday setting 41BBH The same as to first 4216H year The 4th year Holiday setting 4217H Thesameas to first 4272H year The 5th year Holiday setting 243 AcuRev 2000 AcuRev 2000 4273H The same as to first 42CEH year The 6th year Holiday setting 42CFH The same as to first 432AH year The 7th year Holiday setting 432BH The sa
102. elay status to ON or OFF Data FFOOH sets the relay as ON and data 0000H sets the relay as OFF The relay will not be influenced by any other data input The following is to query slave device 17 to set relay status as ON DO addr DO addr Value Value CRC16 CRC16 Addr Fun M hi Lo Hi lo hi lo 11H 05H 00H 00H FFH 00H BEH AAH Table 5 10 Control relay status guery frame Response The correct response to this reguest is to send back the received data after the relay status is changed Do addr Do addr Value Value CRC16 Adat run Hi Lo Hi Lo Hi 11H 05H 00H 00H FFH 00H BEH Table 5 11 Control relay status response frame AcuRev 2000 5 Preset Reset Multi Register Function Code 16 Ouery Function Code 16 10H Hex allows the user to modify the contents of multiple registers The example below is a reguest to preset device address of 17 s channel 1 s real time energy as 12345 6 kWh AcuRev 2000 energy is raw data multiplied by 0 1 kWh therefore the value written into the register should be 123456 hex format is 01E240H Channel 1 s real time energy address is 2508H and 2509H 32 bit total 4 Bytes Data start Data start Data of Data of Byte Addr Fun reg hi reg lo reg hi reg lo Count 11H 10H 25H 08H 00H 02H 04H Value hi Value Lo Value hi Valuelo CRC hi CRC lo 00H 01H E2H 40H 18H C8H Table 5
103. er 1 The display module displays the user user01 Low byte 642 Mappings R W 0 Disable 0x010 1 18 The corresponding physical channel 19 24 corresponding channel 1 6 three phase users 843H 845H ei user R W user name 6 ASCII user02 AcuRev 2000 AcuRev 2000 846H Mappings R W High byte 0 The display module does not display the user 1 The display module displays the user Low byte 0 Disable 1 18 The corresponding physical channel 19 24 corresponding channel 1 6 three phase users 0x0102 Word 847H 849H user03 user name R W user name 6 ASCII user03 Word 84AH Mappings R W High byte 0 The display module does not display the user 1 The display module displays the user Low byte 0 Disable 1 18 The corresponding physical channel 19 24 corresponding channel 1 6 three phase users 0x0103 Word 84BH 84DH user04 user name R W user name 6 ASCII user04 Word 84EH Mappings R W High byte 0 The display module does not display the user 1 The display module displays the user Low byte 0 Disable 1 18 The corresponding physical channel 19 24 corresponding channel 1 6 three phase users 0x0104 84FH 851H user05 user name R W user name 6 ASCII user05 852H Mappings R W High byte 0 The display module does not display the user
104. er proof which make it highly ial facilities residential apartments and industrial environments AcuRev 2000 series has infrared R8485 and Harmonics ptions as well as VO options e g Pulse Counting from water or gas meters making it useful in energy 1e to its communication capability ease of installation and use this product can be easily integrated into new Kytie Jement systems Alarm Record SOE Record System Record motriuuls Public Infrastructures a HoteljOfice Buildings telligent Power Distributions ondominium Residential Buildings nergy Management Systems dustrial Environment Energy Saving Systems Figure 5 22 5 3 10 Email Function The Ethernet module supports SMTP protocol which provides email capabilities Before sending emails users must set their own DNS Server Please refer to Network settings which includes DNS Server setting Please note as per 3 c of Section 5 3 9 there are three modes users can select The first is Trigged Sending which means once new events happen users can receive email notifications immediately The second is Timed Sending mode Users can receive emails based on preset time invervals 5 1440 minutes which include all information on Data webpage The third mode is a combination of Triggered Sending and Timed Sending 5 3 11 SNMP Function Ethernet communication supports SNMP Simple Network Management Protocol protocol so you can get data from the meter
105. esponds to V1 V6 it requires two modules EM1 and EM2 DMI DM2 vi v2 v3 VN va vs ve VN INPUT INPUT INPUT INPUT INPUT INPUT 5 74 75 76 86 87 88 89 7 78 79 80 ar 82 83 s 85 so si 92 s3 94 ss 96 97 98 vu via vis va vez va vai va valve vel va ve ve vss ver ve ve VOLTAGE OUTPUTS VOLTAGE OUTPUTS VOLTAGE OUTPUTS VOLTAGE outputs voLtAGE OUTPUTS VOLTAGE OUTPUTS Figure 2 22 DM module terminals AcuRev 2000 AcuRev 2000 Aux Power Supply AcuRev 2000 power supply is 100 415Vac 50 60Hz or 100 300Vdc which are universally supported If any other power supply is required please contact the manufacturer The power consumption of the power meter is low during normal operation therefore the power supply can be either via a standalone power supply or via the measured circuit A regulator is recommendended where the voltage is not stablized The power supply terminal number is L N G 1A FUSE Lo G3 L Power Supply N 0 H amp N AcuRev2000 6 Figure 2 23 Power Supply wiring Power Supply wiring is AWG22 16 or 0 6 1 5mm A fuse or small size circuit breaker is mandotary for AcuRev 2000 Power Supply The fuse recommendation is 1A 250Vac
106. et reset network module and restore the default parameters and reset the network module Network module Network settings only apply to network module after setting each network module needs to be reset before work In the second page of the main menu select INFO message press the OK button to start the meter information display Arrow keys to scroll press the OK button to return to AcuRev 2000 the main menu PQ SET NET INF fox Acurev2020 Version Serial Number Run time Date and Time af gt df gt af gt Figure 3 23 Meter information display Chapter 4 Functions and Software 4 1 Basic Parameter Functions 4 2 IO Functions 4 3 Demand 4 4 Energy 4 5 Sequence of Events SOE 4 6 Over Under Limit Alarming 4 7 System Event 4 8 Trending Record 4 9 Seal Function 4 10 Device Information AcuRev 2000 This chapeter introduces AcuRev 2000 Utility Software s AcuRew 2020 Utility S ccuenergy Corporation Start Beadini s Help te immune omo RRR E HWS KO NSS Figure 4 1 AcuRev 2000 Utility Software interface General Setting users and CTsetting must be configured properly in order to have AcuRev 2000 operate normally 2020 Utility Software Start 4tings Help e i mMer ORO Ri Re Fa D AAD XC Ex E N SS Sal 2 Secuily Communication 4 RS
107. events corresponds to RO settings 82FH Same as above the last 8 events RO alarming time delay not applicable 830H no to over under limit alarming Aar ar AA 111 AcuRev 2000 AcuRev 2000 Start Readings sttings Help ration e EMS O BR R2 Ra S BOB Be Be Ey N S S2 Sal Device Display Modul Device Type HC02 AcuRev 2020 Device Type SA31 Hardware Version 2 03 Hardware Version 1 03 Software Version 2 05 Software Version 2 03 Release Date 20130725 Release Date 20130715 Serial Number Net Mode 34 Device Type ANEM Hardware Version 1 01 Software Version 1 01 Release Date 20130108 Device Run Time 3275 Hours Battery Run Time 0 Hours Reset Bettery Run Time Device Clock 2000 1 1 0 30 14 SAT Set Device Clock Use PC Time C 2000 1 1 z 0 00 00 sd Figure 4 18 Device Information Chapter 5 Communication 5 1 Modbus Protocol Introduction 5 2 Modbus Communication Format 5 3 Ethernet communication 5 4 Application Details and Parameter Address Table AcuRev 2000 AcuRev 2000 supports Modbus communication protocols The infrared port supports field meter reading The meter supports 10 100 M Ethernet port protocols are Modbus TCP SMTP HTTP SNMP SNTP 1 Transmission mode The mode of transmission defines the data structure within a fr
108. f the 2nd season is the ending time of the 1st season the same rule applies to the rest AcuRev 2000 AcuRev 2000 Daylight saving time DST Daylight saving time can be enabled in one of two formats The fixed date option or a fixed day of one of the weeks in the month also named as the non fixed date option if you choose a fixed date option you set the format according to a fixed date for the daylight saving time switch the format month day hour minute adjust time in minutes If you choose non fixed date option DST will be implemented by which day of which week whose setting format is month which day i e Tuesday which week i e 1st week hour minute adjust time in minutes By using the function you can cause the instrument to automatically switch to and from daylight saving time When the clock starts to run to daylight saving time the meter will automatically adjust the clock to a time period in advance while the clock is running to the end of daylight saving time meter will automatically adjust the clock pushed back to a time period as shown in Figure 4 10 Format 1 DST Start Jul X Day 1 Hour 32 Min Adjust Time 5 Minutes DST Ending 1 Jul v Day ft How s1 Min Adjust Time 1 Minutes Format 2 DST Start Sep v 5th v Sun wl at 23 46 AdjustTime 19 Minutes DST Ending Det list Mon wl at o AE Adjust Time 20 Minutes Figu
109. fierhi identifierlo identifierhi identifierlo 9 9 identifier 00H 00H 00H 00H 00H 04H 01H Fun Byte count Data 01H 01H 02H The content of the data is 7 6 5 4 3 2 1 0 0 0 0 0 0 0 1 0 MSB LSB Relay 1 OFF Relay 2 ON Response AcuRev 2000 An example response to read Time 2006 12 18 14 15 20 is shown as Table 5 10 Table 5 21 Read Time Response Message Transaction Transaction Protocol Protocol Lenoth hi denathilo Unit identifier hi identifierlo identifier hi identifier lo 9 9 identifier OOH 00H 00H 00H 00H OFH 01H Byte Data1 Data1 Data2 Data2 Data3 Data3 Data4 Data4 Data5 Data5 Data6 Data6 Fun count hi lo hi lo hi lo hi lo hi lo hi lo 03H OCH 07H D6H OOH OCH OOH 12H OOH OEH OOH OFH OOH 14H d Control Relay Function Code 05 Query The message forces a single Relay either on or off Any Relay that exists within the AcuRev 2000 series meter can be forced to be either status on or off The address of Relay starts at 0000H and the meter has eight Relays The data value FFOOH will set the Relay on and the value 0000H will turn it off all other values are invalid and will not affect that relay The example below is a request to AcuRev 2000 series meter address 1 to turn on Relay 1 Table 5 22 Control Relay Query
110. first year holiday setting The 1st Holiday Month SSH Day Schedule R W 00 00 0 4105H Number The 2nd perd Holiday Month Day R W 00 00 0 Schedule Number The 3rd pec Holiday Month Day R W 00 00 0 Schedule Number The 4th prd Holiday Month Day R W 00 00 0 Schedule Number The 5th 410FH Holiday Month Day RAW 00 00 0 4111H Schedule Number The 6th 4112H Holiday Month Day RAW 00 00 0 4114H Schedule Number The 7th 4115H Holiday Month Day RAW 00 00 0 4117H Schedule Number The 8th 4118H Holiday Month Day RAW 00 00 0 411AH Schedule Number The 9th i Holiday Month Day R W 00 00 0 411DH Schedule Number The 10th All Ee Holiday Month Day R W 00 00 0 4120H Schedule Number The 11th E Holiday Month Day R W 00 00 0 4123H Schedule Number The 12th pred Holiday Month Day R W 00 00 0 4126H Schedule Number The 13th A12 h Holiday Month Day R W 00 00 0 4129H Schedule Number The 14th 412AH 412CH Holiday Month Day R W 00 00 0 Schedule Number 241 AcuRev 2000 AcuRev 2000 412DH The 15th Holiday Month Day Schedule Number R W 00 00 0 The 16th Holiday Month Day Schedule Number R W 00 00 0 The 17th Holiday Month Day Schedule Number R W 00 00 0 The 18th Holiday Month Day Schedule Number R W 00 00 0 The 19th Holiday Month Day Sch
111. gy Set 9 TOU Energy Change 10 System Clock Change 11 Reversed Power Direction 12 DI Pulse Counter Clear These 12 events can enable the output of Relay 1 to Relay 4 for alarming The time delay for alarming signal is 1 60000 s the Relay Output status will latch for that amount of time If the Relay Output type is set as Relay Control click Control in Figure 4 5 to send command close or open to the relay When the relay is set as alarming output Relay Control function will be disabled DI Function DI type Signal Status Pulse Counter DI unit and category s seooncd m3 cubic meters kWh energy RMB Renminbi dollar When DI type is set as Signal Status it monitors the input status providing all DI status High level displays as ON low level displays as OFF When DI type is set as Pulse Counter it counts the input pulses The Pulse Counter settings include Pulse Constant how many pulses equals one count Category amd Unit Value 82 Category multiplied with the count number The display panel displays the number corresponding to the pulse as well as the calculated value For instance if set 10 pulses one count one count represents 5 kWh When 100 pulses are input the display panel will display Number 100 10 10 10 5 50 kWh E S1 S2 S
112. h hi length high byte Length lo length low byte Unit identifier slave address Fun function code Data start reg hi start register address high byte Data start reg lo start register address low byte Data of regs hi number of register high byte Data of regs lo number of register low byte a Read Status Relay Function Code 01 Function Code 01 This function code is used to read relay status in AcuRev 2000 series meter 1 On 0 Off There are 8 Relays in the meter and the starting address is 0000H The following query is to read 2 Relays Status of the meter Address 1 AcuRev 2000 AuRe 2000 Ouery Table 5 19 Read 2 Relays Status Ouery Message Transaction Transaction Protocol Protocol Length hi tenathlo Unit identifier hi identifierlo identifier hi identifier lo 9 9 identifier 00H 00H 00H 00H 00H 06H 01H Fun Data start reg hi Data start reg lo Data of regs hi Data of regs lo 01H 00H 00H 00H 02H Response The AcuRev 2000 series meter response includes MBAP Header function code quantity of data byte and the data For example response to read the status of Relay 1 and Relay 2 is shown as Table 5 6 The status of Relay 1 and Relay 2 is responding to the last 2 bit of the data Table 5 20 Read 2 Relays Status Response Message Relay 1 bitO Relay 2 bit1 Transaction Transaction Protocol Protocol Length hi Eenath lo Unit identi
113. hannel 1 Powerj ip 33 float Factor Load Nature 210AH 210B 1 Channel 1 Load R float Nature Channel 2 The same as Channel 210CH 2117H Measurement R 134 38 float Channel 3 The same as Channel 2118H 2123H Measurement R 1 39 43 float Channel 4 The same as Channel 2124H 212FH Measurement R 1 44 48 float Channel 5 The same as Channel 2130H 213BH Measurement R 149 53 float Channel 6 The same as Channel 213CH 2147H Measurement R 154 58 float 2148H 2153H Channel 7 Measurement The same as Channel 1 59 63 AcuRev 2000 oat 2154H 215FH Channel 8 Measurement The same as Channel 1 64 68 2160H 216BH Channel 9 Measurement The same as Channel 1 69 73 216CH 2177H Channel 10 Measurement The same as Channel 1 74 78 2178H 2183H Channel 11 Measurement The same as Channel 1 79 83 2184H 218FH Channel 12 Measurement The same as Channel 184 88 2190H 219BH Channel 13 Measurement The same as Channel 1 89 93 219CH 21A7H Channel 14 Measurement The same as Channel 194 98 21A8H 21B3H Channel 15 Measurement The same as Channel 199 103 21B4H 21BFH Channel 16 Measurement The same as Channel 1 104 108 21C0H 21CBH Channel 17 Measurement The same as Channel 1109 113 21CCH 21D7H Channel 18 Measurement The same as Channel 1 114 118 21D8H 21D9H 21DAH 21DBH Ps1 Ch
114. haseG 75 v3 Teant 1 Phase C Teant3 Phase B ad Teant 2 Phase B 74 v2 H Teant 1 Phase B Teant3 Phase A Teant 2 Phase A 73 VI 77 78 2 80 81 82 83 84 85 111 V12 V13 v21 V22 v23 v31 v32 v33 Teant 1 Phase A 76 VN l Load 88 V6 core Teant 6 Phase C z I Teant 5 Phase C iL eet Teant4 Phase C Teant 6 Phase B Teant 5 Phase B 87 V5 Va Teant4 Phase B Teant 6 Phase A 92 93 94 95 96 97 98 Teant 5 Phase A 86 Teant4 Phase A 90191 O0000O 89 VN DM2 Vai va2 vaa vst vs2 V53 vei Ve2 V63 Load Figure 2 28 Three Phase 4 Out DM 27 AcuRev 2000 3 Single phase 3 out 2LN AcuRev 2000 EM Vn v3 v2 vi 33 34 35 36 VOLTAGE INPUTS EMI CURRENT INPUTS EM2 CURRENT INPUTS n wu us w vw v w v o no my 12 ns ya s ne uz vs jaz se ao so s sz ss s ss ses se se eo ev ez es ea es se e es ev o 1 72 Load Tent Phase A E Tanta Phase A pn Temt3 Phase Ten Fase Temi Paes
115. he Acuvim 2000 series meter is being placed where it will not be damaged 1 Temperature AcuRev 2000 operating temperture is 25 70 C Exceeding this temperature range will cause damage to the meter Please note it can influence the meter life negatively if the meter operates in extremly high or extremly low temperatures AcuRev 2000 storage temperature range is 40 85 C 2 Humidity 596 to 9596 non condensing 3 Location AcuRev 2000 series meter should be installed in a dry and dust free environment Avoid exposing meter to excessive heat radiation and high electrical noise sources Installation of Meter Base and Modules Below are examples of the assembled meter and modules AcuRev 2000 oooo Smart Metering System EM ACCUENERGY Transformer Module Figure 2 10 Meter Base connected with an EM module 9 channels ALCUENZAGY J AcuRev 2000 oooo Smart Metering System EM ACCUENZAEY Transformer Module EM ACCUZNERGY Transformer Module Figure 2 11 Meter Base connected with two EM modules 18 channels AuRe 2000 AuRe 2000 AcuRe
116. he address bar of the web browser This provides access to Data Settings and Module Status AcuRev 2000 AcuRev 2000 ALLUENZAGY Main Page AcuRev 2000 Series Web Server Data Settings AcuRev 2000 series performs real time metering measures energy consumption and monitors power quality for up to 18 single phase circuits or 6 three phase circuits in one unit Itis an advanced intelligent power meter that Accuenergy developed and manufuctured for Module Status the next generation smart grids The main features include multitenants submetering cyclic display tamper proof which make it highly suitable for large commercial facilities residential apartments and industrial environments AcuRev 2000 series has infrared RS485 and Ethernet communication options as well as VO options e g Pulse Counting from water or gas meters making it useful in energy management systems Due to its communication capability ease of installation and use this product can be easily integrated into new and existing energy management systems Areas of Application Large Commercial Centers Railway Transportation a Schools Public Infrastructures a Hotel Office Buildings a Intelligent Power Distributions a CondominiumyResidential Buildings Energy Management Systems a Industrial Environment Energy Saving Systems Figure 5 14 2 Module Status Webpage By selecting the Module Status link users can view the sta
117. he system clock s accuracy or used to be the benchmark of time for the other eguipment art Readings tings Help er EO kie 9 8 Ri Ro Ra 3 BOB Lu N SS Sa Demand Current Maximum Time Stamp Prediction IA 2 000 4 7525A 2013 8 1 10 00 22 0 0004 1B 0 0004 75244 2013 8 1 10 00 22 0 0004 IC 0 0004 7525A 2013 8 1 11 34 22 0 0004 Watt 0 000 kw 0 483 kW 2000 1 1 1 03 58 0 000 kw Watt B 0 000 kw 0 546 kW 2000 1 1 1 20 58 0 000 kw Watt C 0 000 kw 0 518 kw 2000 1 1 0 51 58 0 000 kw Watt Total 0 000 kw 0 609 kw 2000 1 1 0 23 58 0 000 kw VARA 0 000 kvar 0 476 kvar 2000 1 1 0 09 58 0 000 kvar VARB 0 000 kvar 0 431 kvar 2000 1 1 1 24 58 0 000 kvar VAR C 0 000 kvar 0 477 kvar 2000 1 1 0 54 58 0 000 kvar VAR Total 0 000 kvar 0 477 kvar 2000 1 1 0 54 58 0 000 kvar VAA 0 000 kVA 0 553 KVA 2000 1 1 1 15 58 0 000 kVA VAB 0 000 kVA 0 549 KVA 20004 1 1 21 58 0 000 kVA VAC 0 000 kVA 0 551 kVA 2000 1 1 0 52 58 0 000 kVA VA Total 0 000 kVA 0 646 kVA 2000 1 1 0 22 58 0 000 kVA User usem CHa Demand Current Maximum Time Stamp Prediction IA 0 0004 25014 2000 1 1 0 09 58 0 0004 1B 0 0004 2 496 A 2000 1 1 1 21 58 0 0004 IC 0 0004 2 5004 2000 1 1 0 13 58 0 0004 Watt A 0 000 kw 0483 kw 2000 1 1 1 03 58 0 000 kw Watt B 0 000 kw 0546 kw 2000 1 1 1 20 58 0 000 kw Wat C 0 000 kw 0 518 kw 2000 1 1 0 51 58 0 000 kw Watt Total 0 000 kw 0 609 kw 2000 1 1 0 23 58 0 000 kw VARA 0 000 kvar 0 476 kvar 2000 1 1 0 09 58 0 000 kvar VARB 0 0
118. hen it is set as 0 the logging feature is disabled AcuRev 2000 4 Log sector size setup The log sector size can be selected between 0 and 100 Make sure the total sector number of the 3 logs does not exceed 100 5 Select the corresponding trend recording mode Note If logging Timer mode is selected as Mode 2 when the memory is full no more records will be logged If you choose to Mode 1 or Mode 3 when the memory is full the meter keeps logging the earlist records will be overwritten by the latest record When overwriting happens the earlist whole sector will be erased 64 kB data will be erased It is recommended that users retrieve all the data and save them before the memory is full in order to avoid data loss There are two regions displaying register number total used bytes and remaining bytes These values are automatically calculated by the software according to users selected parameters The total bytes available is 234 Retrieve Record There are two methods to retrieve records manual retrieve and automatic retrieve The retrieve page can be found in Figure 4 14 Accuenergy Corporation XeBummues GF R Re Ra BS TAB HO HEWN S m5 T Data Log 1 Window Record Num T Ole 0 Read One Window Window Status Normal Used Records 1 Fist Record Time Stamp 2000 1 1 0 28 00 Read All CA i Max Records 3840 RecodSze 144 Last Record Time Stamp 2000 1 1 0 28 00 n Record
119. in the following step P01 DHCP setting AUTO Figure 5 3 4 Set IP Address in the second setting page such as 192 168 1 21 as shown below Press the OK key to go to the IP setting page The cursor starts at the first digit After setting the IP address press the OK key to accept Press the A key again to go to the third setting AcuRev 2000 page for Subnet Mask IP Address 192 168 001 21 Figure 5 4 5 Set Subnet Mask in the third setting page such as 255 255 255 0 Press the OK key to go to the setting page The cursor starts at the first digit After setting the Subnet Mask press the OK key to accept Press the A key again to go to the fourth setting page for Gateway Submask 255 255 255 000 Figure 5 5 6 Set Gateway in the fourth setting page such as 192 168 1 1 Press the OK key to go to the setting page The cursor starts at the first digit After setting the Gateway press the OK key to accept Press the A key to go to the fifth setting page for DNS Primary Server Gateway 192 168 001 000 Figure 5 5 7 Set DNS Primary Server in the fifth setting page such as 202 106 0 20 Press the OK key 127 AuRe 2000 to go to the setting page The cursor starts at the first digit After setting the DNS Primary Server press the OK key to accept Press the 4 key to go to the sixth setting page for DNS Secondary Server Note the DNS pa
120. indow Status is read only all writing operations are disabled 195 AcuRev 2000 AcuRev 2000 bH Window Status effective FFH Window Status not effective aaH Data Log erasing in operation bbH Data Log erasing not in operation Offset this parameter is configurable In order to read all the records of one log users can just modify this offset value When the data is retrieved the first data is locked so offset 0 is always pointed at the first data Window a window is where to store the data the window is read only Please note the data number in the window is an integer Retrieve Note As the trend recording record full case when using trend record mode 1 and mode 3 will erase the earliest record of a sector of data in order to continue to record When reading the whole trend recording so try to avoid in read write full set by sector is whether going to write full set by sector depends on whether has with the record number close to the maximum number of records If set to be filled with the situation of the sector continue to read you should read before reading a window about the current record number of records that have been used to compare this with the number of records that have been are down from decreases with the number of records by dividing the maximum number of records record number of sectors if this offset is less than the maximum number of records divided by the number of sectors
121. information can be used for historical trending and system analysis Communication and Network AcuRev 2000 Supports R 485 communication open protocol Modbus RTU supports 10 100M Ethernet interface with protocol ModBus TCP HTTP SMTP SNTP SNMP DLMS COSEM meter reading via infrared port Industrial environment S S WARNING This product shall be installed in an full enclosed industrical cabinet the access to which is strictly limited to professional personnel Multifunction Multi Tenants AcuRev 2000 multi tenants intelligent power meter utilizes powerful data acquisition and processing functions which implements real time metering and monitoring for up to 18 single phase circuits or 6 three phase circuits in one unit It will also record system events over under limit alarming and data logging functions Innovative Display and Installation Multi tenant energy information is cycled through on the high resolution display The display panel has two options embedded in the unit or externally installed on a panel Current input has two options direct input 20 80A or external CT model Flexible Wiring Users can choose measuring circuits and wiring methods Measuring circuit can be selected as 9 or 18 single phases three phase 3x3 or 3x6 Single phase or three phase hybrid access including single phase out 1LN three phase 4 out 3LN single phase 3 out 2LN where out means the load side Inline defa
122. lephone interference factor THFF RX 10000 X 100 Rx Communications value Inline Energy Quality Voltage Unbalance Factor 3201H U1 or U12 THD U1 R 3202H U2 or U23 THD U2 R 3200H AcuRev 2000 3203H U3 or U31 THD U3 word 3204H Voltage THD average word U1 or U12 2nd word harmonic U1 or U12 3rd word harmonic word U1 or U12 31st word harmonic U2 or U23 2nd word harmonic U2 or U23 3rd word harmonic m word U2 or U23 31st word harmonic U3 or U31 2nd word harmonic U3 or U31 3rd i word harmonic word U3 or U31 31st word harmonic Current Unbalance Word Factor U1 Odd harmonic distortion Wed U1 Even harmonic Word distortion U1 crest factor Word U1 Telephone aa harmonic form factor Word 3264H U2 Odd harmonic distortion 3265H U2 Even harmonic distortion 3266H U2 crest factor 3267H U2 Telephone harmonic form factor 3268H U3 Odd harmonic distortion 3269H U3 Even harmonic distortion 326AH U3 crest factor 326BH U3 Telephone harmonic form factor 32A0H Channel 1 Current Odd harmonic distortion 32A1H Channel 1 Current Even harmonic distortion Channel 1 Current Ra K Factor 32A3H Channel 2 Current Odd harmonic distortion 32A4H Channel 2 Current Even harmonic distortion Channel 2 Current Sens K Factor 32A6H Channel 3 Current Odd
123. ll appear then you set the default process of meter reader Return to the main menu enter 2 User Program as shown in Figure 4 the English program will be executed and after boot it will go directly to the English program If you want to set Chinese program it same as to English program setting AcuRev 2000 Acu CHI bxe Figure 3 Main Menu 1 Communication Figure 4 2 on site infrared meter reading AcuRev 2000 infrared meter reader default baud rate is 1200bps open the TP900 meter reader enter the interface as shown in Figure 5 ACCUENERGY Input user number RANGE 1 28 Figure 5 After the Input user number input user number the value range from 1 to 28 1 to 28 are read values in Table 1 have the following meanings 10 n 2 13 E 15 i i 16 i i 17 i i 18 i Channel 15 single phase active energy value Channel 16 single phase active energy value Channel 17 single phase active energy value Channel 18 single phase active energy value AcuRev 2000 AcuRev 2000 19 Channel 1 three phase single three phase total active energy value AcuRev 2000 user number 5 5 0kWh 012345678999 Figure 6 After input user number press ENTER button to start meter reading when meter reading meter reader will read the meter 645 addresses and then according to 645 addresses and user number to read energy data If we can read the data correctly the meter reader can
124. me as to first 4386H year The 8th year Holiday setting 4387H The same as to first 43E2H year The 9th year Holiday setting 43E3H The same as to first 443EH year The 10th yea r Holiday setting 443FH 449AH The same as to first year Appendix A Technical Data and Specification Appendix B Pulse Output Settings Appendix C Ordering Information Appendix D TP900 meter reader Instructions Appendix E Version Information AcuRev 2000 Appdenxi A Technical Data and Specifications 1 Input otageput o Voltage Rating 400Vac L N 690Vac L L CAT III Overload 1500Vac Continuously 2500Vac 50 60Hz 1 minute Input Impedance 2M0 phase Frequency Range 45Hz 65Hz PT Burden 0 2VA Curentinput DirectInputorVaCT Via CT Solid Core CT 20A 80A 150A 200A Direct Input Each Tenant Max Current 20 80 A 1 CAT III Measurement category III CAT III is for measurements performed in the building installation NOTE Examples are measurements on distribution boards circuit breakers wiring including cabies bus bars junction boxes switches socket outlets in the fixed installation and equipment for industrial use and some other equipment for example stationary motors with permanent connection to the fixed installation 2 Measurement Real Energy 1 0 01kWh 0 999999 9kwh
125. ming conditions in Alarm Setup The maximum alarming record is 20 Note The alarming threshold value is not a real measured value it is the percetage of real measured value over rated value For instance if the rated value is 1100 the displayed threshold is 40 then real value rated value x percentage 1100x40 440 Please refer to Figure 4 11 for detailed setup Corporation Start Readings Settings Help er Ci ESI e OROS Ri Ro Ra GBD EXE En NS S2 Sal 2 TT Enable Alarm Linit Enable Alarm Channel Seti Setpoint Dele ms Output 3 RealTime Meterinincoming Frequency gt zl e None 5 M RealTime Metetinalincoming Frequency zl fa one 6 ReattimeMeteringincomino Frequency sis sl ls None T ReatTime Meterinalincoming m Femens wif gt zl P none T RestTme Meterngincomng Frequency zl zl fo wwe sz T RealTime Meteringlncomino v Femex Is sie b None Save Load Update Device Figure 4 14 Alarming Setup Set up alarming rule including alarming parameter alarming condition alarming target delay time ms and alarming output Energy and alarm switch can be set at the same time Current rating and voltage rating are the load s current and voltage ratings Current rating relates to transformer type such as CT 20 transformer current rating is 5A The maximum alarming condition can be set
126. monic distortion even harmonic distortion Power inline 5 50500 Average voltage of harmonic Quality distortion 6 50600 Crest Factor 7 50700 Telephone harmonic form factor 8 50800 Harmonic of Phase A Current 2nd 7th Harmonic of Phase A Current 30200 8th 13th Harmonic of Phase A Current S 31090 14th 19th Harmonic of Phase A Current n ibd 20th 25th AcuRev 2000 cu 13 51300 idc ie Current SR en j soosse atest Sa a p 17 51700 me x Current 18 51800 Msn Be Current 19 51900 MEE ii c Current AN EEN ME 21 52100 dd Sea Current 22 52200 i Current 7 Note Acurev2010 only include active power demand Acurev2010 only include active power The instrument is Acurev2010 enter an asterisk zone function code when prompted SCREEN WRONG For AcuRev 2010 no power quality menu AcuRev 2000 In the second page of the main menu select PQ quality press the OK button to begin the display of power quality data Left and right keys to select a different user or into the line up and down keys to select the current user s different screen the Enter key to return to the main menu Table3 9 Power quality display i ODD Different wiring current quality data display is not the same Details are as follows AcuRev 2010 meter does not show the screen of yellow background 1 Single Phase Out 1LN
127. n E Energy Energy Measurement D Demand Demand Measurement IO IO Digital Input Output MUL Real time Real time M Obtain Cursor Table 3 2 Main menu first screen Main menu second screen AcuRev 2010 SET Basic Settings NET Network Settings INFO Device Information Table 3 3 Main menu second screen Main menu second screen AcuRev 2020 te Harmonic Table 3 4 Main menu second screen AcuRev 2020 Main menu screen is shown in Table 3 2 the arrow keys to switch between menus 2010 A E DIO MUL M P SET NET INFO lt lt wv 2020 A E DIO MUL M PQ SET NET INFO w Table 3 2 Menu display On the first screen of main menu select E by pressing Left and Right press OK to display energy Press Left or Right to choose tenant and in line energy Press Up and Down to select different screens Press OK return to main menu screen If TOU energy is not used it only displays real time energy AcuRev 2000 AcuRev 2000 Real time energy EP This Month Total Energy M TnS This Month Tariff 1 Energy MT1S This Month Tariff 2 Energy MT2S This Month Tariff 3 Energy MT3S This Month Tariff 4 Energy M TAS Prior Month Total Energy UTnS Prior Month Tariff 1 Energy UTIS Prior Month Tariff 2 Energy UT2S Prior Month Tariff 3 Energy UT3S Prior Month Tariff 4 Energy UTAS Reactive energy EQ
128. n allows the master to obtain the measurement results from the meter Table 5 8 depicts reading slave device address 17 Inline A real time energy Inline B real time energy Inline C real time energy these parameters are dword data type each parameter uses 2 addresses each address uses 2 bytes AcuRev 2000 Inline A real time energy address is 2500H 2501H Inline B real time energy address is 2502H 2503H Inline C real time energy is 2504H 2505H Addr Fun Data start Data start Data of Data of CRC16 CRC16 addr hi Addrlo regs hi regs lo hi lo 11H 03H 25H 00H 00H 06H CCH 54H Table 5 8 Query of Inline A real time energy Inline B real time energy Inline C real time energy Response Response frame contains slave device address function code data quantity and CRC check Table 5 9 depicts Inline A real time energy 0000000BH 1 1kWh Inline B real time energy 0000000CH 1 2kWh Inline C real time energy 0000000D 1 3kWh 03H Data1 00H Data1 Data 2 Data2 00H 00H OBH Data3 hi Data3 Data4 Data4 Data5 Data 6 Data6 CRC16 CRC16 Lo hi lo hi lo 00H 00H ODH 21H 88H Tabl e 5 9 Response of Inline A real time energy Inline B real time energy Inline C real time energy 4 Control Relay Output Function Code 05 AcuRev 2000 Query This query frame forces the r
129. nergy Display and Operation 3 3 Demand Display and Operation 3 4 VO Display and Operation 3 5 Parameter Settings 3 6 Shortcut Code 3 7 Real time Parameters 3 8 Device Information 3 9 Network Settings 3 10 Meter information and key operation AcuRev 2000 Chapter 2 1 shows the dimensions of Display Module It consists of one LCD screen and five keys AcuRev 2000 innovative Display Module can be integrated into the meter base or the display module can also be mounted on the panel 1LCD Meter Base LU 4 LED Indicator La ELS 2 Function Keys DIL4 p 3 Infrared Port Figure 3 1 Display Module and LED Indicator Function Keys A Up Scroll up or increase value Editing mode v Down Scroll down or decrease value Editing mode lt q Left Decrease tenant number or move cursor to the left gt Right Increase tenant number or move cursor to the Right OK Confirm Show menu or confirmation Table 3 1 Function Keys illustration Key Combination Holding Left and right at the same time is quick exit function In any screen press this key combination can return to the main menu screen basic settings and network settings are only available with this key combination to return to the main menu screen Wiring type The meter supports single phase user 1LN and three phase four line users 3LN mixed use single ph
130. ng section it supports two network setting modes Manual or Auto There are two port settings HTTP port and Modbus TCP port AcuRev 2000 The default value of Modbus TCP port is 502 and the user defined range is 2000 5999 The default value of HTTP port is 80 and the user defined range is 6000 9999 In SNTP setting section there are four contents SNTP Enable enable SNTP function SNTP Interval setup interval seconds which SNTP client check SNTP server The default value is 10min and the user defined range is 1 60000min SNTP Server setup SNTP Server which SNTP client update from Please find available SNTP server from internet Time Zone Selecting select Time Zone which match your location ALTVENERGY Main Page Data Settings Network Parameter Configuration Module Status Manual Setting Network Parameter IP Address Subnet Mask Gateway DNS Primary Server DNS Secondary Server Port Setting O Auto setting 192 165 ms EET m i fi mz MODBUS Port soe HTTP Port eo Detauit 502 Scope 2000 5999 Detaut 80 Scope 6000 9999 Example 1921681254 Exemple 255 255 255 0 Example 192 168 1 1 Example 202 106 0 20 Example 202 106 196 115 SNTP Setting Please restart AXM NET Module after SNTP setting FISNTP Enable SNTP intervat 10 SNTP Server time Time Zone Selecting min Default 10 Scope 1
131. nnel 5 3 phase 4 line single phase 3 line current unbalance Channel 6 3 phase 4 line single phase 3 line current unbalance AcuRev 2000 352FH R word 3530H R word 3531H R word 3532H R word 3533H R word Over Under Limit Alarm A High Byte indicates an alarming channel number 1 10 Low Byte bitO 1 indicates alarming bitO 0 indicates restoration Only one alarming record can be read each time The reading will be implemented via the current alarming record number and it can save up to 20 alarming records Function Code 03 is to read Function Code 10 is to write AcuRev 2000 High byte Alarm Channel 1 10 Group 1 Alarm Bito 3700H State R 1 Alarm happening wora 0 Alarm recovery Group 1 3701H Parameter R 0 352 word Number Group 1 3702H Over limit or R word restoration value 3703H Group 1 R Year Month Day Hour werd 3709H Happening Time Minute Second Millisecond 370AH Newest alarm R 1 20 0 indicates no alarm Word record number record Alarm Record TA _ Number R W 1 20 word currently being read System Event Log Records event happening and event Please refer to Chapter 4 for details Only one record can be read every time via current event number it can be saved up to 100 records Function Code 03 is to read Function Code 10 is to write 3800H Event Happening R Ye
132. nnnne S ET R W Same as above 20 Specifications ggz Channel eer R W Same as above 20 Specifications sein Ene El R W Same as above 20 Specifications Ee R W Same as above 20 Specifications EE EA CT R W Same as above 20 Specifications ggg di R W Same as above 20 Specifications saggi Shannel 1 CT R W Same as above 20 Specifications Bg Chamnekle SE R W Same as above 20 Specifications EA R W Same as above 20 Specifications 89AH Channel 18 CT RAN same as above 20 Specifications AcuRev 2000 AcuRev 2000 89BH 8ACH Reserved Restore the default 0 no action parameters OxAA Restore factory settings 8ADH User name R W Note The recovery zone for the 0 Word and mappings user name CT specifications and CT wiring three phase wiring specifications garn Adecadesetting py 1 Enable active 0 Word load enable Bit0 RS485 communication parameters and infrared communication parameters Bit1 Network parameters Bit2 Clear Meter Run Time Bit3 DI pulse countin 8AFH sale ae R W p g 0 Word arameters Selection Bit4 TOU Bit5 RO 1 valid of corresponding selection 0 invalid of corresponding selection SBOH Seals status R OXOA Seal sealed Other Seal OxO Word opened 8B1H 8BF Reserved Clear Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bit0 1 to clear 1 to clear 1 to clear 1 to clear 1 to clear 1 to clear 1 to clear 1 to clear
133. not display the user 1 The display module displays the user Low byte 0 Disable 1 18 The corresponding physical channel 19 24 corresponding channel 1 6 three phase users 0x010d 873H 875H user14 user name R W user name 6 ASCII user14 AcuRev 2000 AcuRev 2000 876H Mappings R W High byte 0 The display module does not display the user 1 The display module displays the user Low byte 0 Disable 1 18 The corresponding physical channel 19 24 corresponding channel 1 6 three phase users 0x010e Word 877H 879H user15 user name R W user name 6 ASCII user15 Word 87AH Mappings R W High byte 0 The display module does not display the user 1 The display module displays the user Low byte 0 Disable 1 18 The corresponding physical channel 19 24 corresponding channel 1 6 three phase users 0x010f Word 87BH 87DH user16 user name R W user name 6 ASCII user16 Word 87EH Mappings R W High byte 0 The display module does not display the user 1 The display module displays the user Low byte 0 Disable 1 18 The corresponding physical channel 19 24 corresponding channel 1 6 three phase users 0x0110 87FH 881H user17 user name R W user17 882H Mappings R W High byte 0 The display module does not display th
134. nth tariff 4 energy 10700 Phase A this month total energy Phase A this month tariff 1energy Phase A this month tariff 2 energy 10800 Phase A this month tariff 3 energy Phase A this month tariff 4 energy 10900 Phase A prior month total energy Phase A prior month tariff 1energy Phase A prior month tariff 2 energy 11000 Phase A prior month tariff 3 energy Phase A prior month tariff 4 energy AcuRev 2000 AuRe 2000 Energy No Time of Use only real time energy Inline 11 11100 Phase B this month total energy Phase B this month tariff 1energy Phase B this month tariff 2 energy 12 11200 Phase B this month tariff 3 energy Phase B this month tariff 4 energy 13 11300 Phase B prior month total energy Phase B prior month tariff Tenergy Phase B prior month tariff2 energy 14 11400 Phase B prior month tariff 3 energy Phase B prior month tariff 4 energy 11500 Phase C this month total energy Phase C this month tariff 1energy Phase C this month tariff 2 energy 11600 Phase C this month tariff 3 energy Phase C this month tariff 4 energy 11700 Phase C prior month total energy Phase C prior month tariff 1energy Phase C prior month tariff2 energy 11800 Phase C prior month tariff 3 energy Phase C prior month tariff 4 energy 11900 System reactive energy
135. nto two parts the upper part is the inline power the lower part is the user power When wiring is set differently gray data is invalid In the upper display Pa represents Phase A Power In the lower display Pa N represents the N th tenant s Phase A power The power accuracy is 0 5 96 with 4 decimal places AcuRev 2000 Utility Software Accuenergy Corporation s Help Le Hide 9 O fj BR R2 Ra EE AB KB EE N 152 Sal 2 Relay 1 OFF Control Relay 2 OFF Control Relay 3 OFF Control Relay 4 OFF Control DIT 10 1100 00 RMBDI 2 4 400 00 RMBDI 3 4 4000kwh DI 4 4 48 00 DIS 3 39 00m3 DIG 3 0 03t DZ 3 0 03t DIS 5 10500t Figure 4 5 DI RO As Figure 4 5 shows AcuRev 2000 has 4 Relay Outputs RO 8 Digital Inputs DO Please refer to Figure 4 6 for DI RO related settings RO Each channel RO can be configured as Relay Control or Alarm Output 1 Relay Control Latching or Pulse Pulse width can be set between 50 and 3000 ms 2 Alarm Output There are two Alarm Output types Over Under Limit Alarming and System Event Alarming the two can be active at the same time Over Under Limit Alarming will be introduced in detail later There are 12 events for system event alarming which are 1 Reset 2 Demand DI Synchronization 3 Demand Command Synchronization AcuRev 2000 4 Energy Clear 5 Running Hour Clear 6 Battery Runtime Clear 7 System Parameter Change 8 Initialized Ener
136. ommunication and means this function is unavailable Energy 2500H 2501H Epin A inline Phase A real time energy 2502H 2503H Epin B inline Phase B real time energy 2504H 2505H Epin C inline Phase C real time energy 2506H 2507H Epin S inline system real time energy 2508H 2509H Channel 1 real time energy IE 104 250AH 250BH Channel 2 real time energy 250CH 250DH Channel 3 real time energy 250EH 250FH Channel 4 real time energy 2510H 2511H Channel 5 real time energy 2512H 2513H 2514H 2515H Channel 6 real time energy Channel 7 real time energy 2516H 2517H Channel 8 real time energy 2518H 2519H Channel 9 real time energy 251AH 251BH Channel 10 real time energy 251CH 251DH Channel 11 real time energy 251EH 251FH Channel 12 real time energy 2520H 2521H Channel 13 real time energy 2522H 2523H Channel 14 real time energy 2524H 2525H Channel 15 real time energy 2526H 2527H Channel 16 real time energy 2528H 2529H Channel 17 real time energy 252AH 252BH Channel 18 real time energy 252CH 252DH Channel 1 3 phase 4 line single phase 3 line real time system active power energy 252EH 252FH Channel 2 3 phase 4 line single phase 3 line real time system active power energy 2530H 2531H Channel 3 3 phase 4 line single phase 3 line real time s
137. on Phase C Apparent Power Demand Peak and happening time 21400 Phase A B C Current demand 15 21500 Phase A Current Demand prediction Phase A Current Demand Peak and happening time 16 21600 Phase B Current Demand prediction Phase B Current Demand Peak and happening time 17 21700 Phase C Current Demand prediction Phase C Current Demand Peak and happening time Digital Input and Digital Output DI channel 1 8 30101 30108 DI Status 30201 30208 RO Status WIN 30301 30308 DI Pulse Input related 40100 System Active Power System Reactive Power System Apparent Power 40200 System Power Factor System Load Type AcuRev 2000 3 40300 Phase A B C Active Power 4 40400 Phase A B C Reactive Power 5 40500 Phase A B C Apparent Power 6 40600 Phase A B C Power Factor 7 40700 Phase A B C Current Real time Inline 8 40800 Phase A B C phase voltage 9 40900 Phase A B C average of phase voltage 10 41000 Phase A B C line voltage 11 41100 Phase A B C average of line voltage 12 41200 Voltage Frequency 1 50100 Voltage unbalance Phase A harmonic distortion 2 50200 odd harmonic distortion even harmonic distortion Phase B harmonic distortion 3 50300 odd harmonic distortion even harmonic distortion Phase C harmonic distortion 4 50400 odd har
138. oup 6 R W The same as Group 1 Integer setup 1079H 107DH Group R W The same as Group 1 Integer setup 107EH 1082H Group R W The same as Group 1 Integer setup 1083H 1087H Graup 2 R W The same as Group 1 Integer Group 10 setup AcuRev 2000 1088H 108CH R W The same as Group 1 Integer Time of Use Parameter Setup Before time of address 109F is the basic parameters for the setting then the time zone time tables and holidays specific settings Up to 14 time zones eight times tables 14 hours 30 holidays Two error status word is used to indicate that when parameter setting wrong Function Code 03 Read Function Code 10 Write Error word 1090H 1 basic R See Appendix parameter Error word 1091H 2 schedule R See Appendix table 1092H Current Tariff R 1 4 1 1093H Season R W 1214 2 1094H Schedule Table R W 1 8 2 1095H Schedule R W 1414 9 1096H Tariff R W 1 4 4 Bit0 7 1097H Weekend R W 1 ON 0 OFF Ox7F Weekend 1098H Schedule R W 1 8 2 1099H Holiday R W 0 30 0 AcuRev 2000 109AH TOU Energy onthly settle up 3 R W 1 special day 0 end of month Word 109BH TOU Energy Special Day settle up Day R W 1 28 Word 109CH TOU Energy Special Day settle up Time R W Word 109DH TOU Energy Enable R W Word 109EH 109FH 10AFH TOU Energy reset to factory Reserved R W Wo
139. picts the response frame Addr Fun Byte count Data CRC16 hi CRC16 lo 11H 01H 01H 02H D4H 89H Data Bytes 1 6 5 4 3 2 1 0 0 0 0 0 0 0 1 0 MSB LSB Relay 1 OFF Relay 2 ON 118 Table 5 5 Response frame of reading Relay Output status 2 Read the status of DI Function Code 02 Query On top of slave device address and function code query frame must contain the digital input register starting address and the number of registers to be read DI register address starts from 0000H DI1 0000H DI2 0001H DI3 0002H DI4 0003H Table 5 6 depicts of reading DI1 to DI4 status of the slave device with the address of 17 Addr Fun DI start DI start DI num DI num CRC16 CRC16 addr hi addr lo hi lo hi lo 11H 02H 00H 00H 00H 04H 7BH 59H Table 5 6 Query frame of reading DI status Response The slave device anwsers the master device s query The response frame contains slave device address function code data quantity and CRC check Each DI utilizes one bit 1 2 ON 0 OFF Table 5 7 depicts the response frame Addr Fun Byte count Data0 CRC16 hi CRC16 lo 11H 02H 01H 03H E5H 49H Data Bytes 0 0 0 DI4 DI3 DI2 0 0 0 0 0 1 MSB Table 5 7 Response frame of reading DI status AcuRev 2000 AcuRev 2000 3 Read Data Function Code 03 Query This functio
140. r 0 word 1 format 2 4002H DST Start R W 1 12 1 word Mon 4003H DST Start Day R W 1 31 1 word 4004H DST Start R W 0 23 0 word Hour 4005H DST Start Min R W 0 59 0 word DST Start 4006H Adjust time R W 1 120 60 word Unit Min 40074 PST Ending R W 1 12 1 word Mon acca PST Ending R W 131 1 word Day 40094 PST Ending R W 0 23 0 word Hour aooan PST Ending R W 0 59 0 word AcuRev 2000 DST Ending 400BH Adjust time R W 1 120 60 word Unit Min 400CH da R W 1 12 1 Mon 0 6 0 Sunday 400DH DATA R W 1 6 Monday 0 week to Saturday DST Start 400EH First few R W 1 5 1 weeks 400FH DST Sate R W 0 23 0 Hour 4010H DST Start Min R W 0 59 0 DST Start 4011H Adjust time R W 1 120 60 Unit Min 4gigg PST Ending R W 1 12 1 Mon 0 6 0 Sunday 4013H PST Ending R W 1 6 Monday 0 Week to Saturday DST Ending 4014H First few R W 1 5 1 weeks 4015H PST Ending R W 0 23 0 Hour AcuRev 2000 oie BS Ending R W 0 59 0 word Min DST Ending 4017H Adjust time R W 1 120 60 word Unit Min Ten Years Holiday Setting Function Code 03 to read function code 10 to write Address Parameter Propert Range Default Date perty g Type 0 disable 4100H Holiday setting enable R W 1 enable 0 word 0 99 4101H start et holiday Less than 10 years 0 setting 4102H End year holiday 0 99 0 setting The
141. rameters must be set correctly to use the SMTP functions DNS1 202 106 000 020 Figure 5 6 8 Set DNS Secondary Server in the sixth setting page such as 202 106 196 115 Press the OK key to go to the setting page The cursor starts at the first digit After setting the DNS Secondary Server press the OK key to accept Press the 4 key to go to the seventh setting page for the Modbus TCP port Note the DNS parameters must be set correctly in order to use the SMTP functions DNS2 202 106 196 115 Figure 5 7 9 Set Modbus TCP port in the seventh setting page such as 502 Press the OK key to go to the setting page The cursor starts at the first digit After setting the Modbus TCP port press the OK key to accept Press the A key to go to the eighth setting page for the HTTP port The Modbus TCP port s default value is 502 and the user defined range of port is 2000 5999 If the set port is not in the correct range the set port will return to the default value Modbus AcuRev 2000 TCP IP Port 0502 Figure 5 8 10 Set HTTP port in the eighth setting page such as 80 Press the OK key to go to the setting page The cursor starts at the first digit After setting the HTTP port press the OK key to accept Press the A key to go to the ninth setting page for the reset mode The HTTP port s default value is 80 and the user defined range of port is 6000 9999 If the set port is not in the corre
142. rd 10BOH 10B2H Season 1 month Day Schedule Table Number R W Word 10B3H 10B5H Season 2 month Day Schedule Table Number R W Word 10B6H 10B8H Season 3 month Day Schedule Table Number R W Word 10B9H 10BBH Season 4 month Day Schedule Table Number R W Word 10BCH 10BEH Season 5 month Day Schedule Table Number R W word 10BFH 10C1H Season 6 month Day Schedule Table Number R W Word 10C2H 10C4H Season 7 month Day Schedule Table Number R W Word 10C5H 10C7H Season 8 month Day Schedule Table Number R W 10C8H 10CAH Season 9 month Day Schedule Table Number R W 10CBH 10CDH Season 10 month Day Schedule Table Number R W 10CEH 10D0H 10D1H 10D3H Season 11 month Day Schedule Table Number Season 12 month Day Schedule Table Number R W R W 10D4H 10D6H Season 13 month Day Schedule Table Number R W 10D7H 10D9H Season 14 month Day Schedule Table Number R W 10DAH 10DCH Schedule Table 1 1st schedule Hour Minute Tariff Number R W 10DDH 10DFH Schedule Table 1 2nd schedule Hour Minute Tariff Number R W AcuRev 2000 AcuRev 2000 10EOH 10E2H Schedule Table 1 3rd schedule Hour Minute Tariff Number R W Word 10E3H 10
143. rds or all records In order to have the user understand meter s history the meter provides trending record function which is logging a group of data with a preset time interval AcuRev 2000 has 8 MB of memory which is used for logging the historic trending The meter has a system clock therefore all of the trending records have a timestamp when they are created Trending Record Setup AcuRev 2000 has 3 trending logs each log can be programmed individually Different contents can be added into 3 logs Each log slot can be added up to 117 parameters The memory size of the 3 logs can als obe configured however the total sector number of the 3 logs cannot be over 100 each sector has 64 kB Trending log 1 configuration page can be found in Figure 4 13 AcuRev 2000 AcuRev 2000 Utility Sof Accuenergy Corpora Help eli He RA RRRE AHD Pe A E NIS 2 Sa Data Log 1 Settings Real Time Metering Incoming X R1 Frequency Incoming R1 Volts BC Incoming Add gt gt R1 Volts CA Incoming R1 Volts LL Average Incoming R1 1A Incoming om RIT 1B Incoming EST lt lt Remove RI I C Incoming R1 Average Incoming R1 Watt Total Incoming DI V Er pom 1 V Total Incoming pels RI Pwr Factor Total Incoming R1 Volts LN Average Incoming R1 Volts AB Incoming R1 Watt C Incoming mi Registers and Sectors Bytes Registers 66 Total
144. re 4 10 DST display Ten year Holiday setting Users can preset holidays of the next decade via the meter software The holiday format is month day year holiday code holiday schedule After the format setup click on Make 90 Holiday Settings 10 year then a holiday table for the next decade will be generated AcuRev 2000 Holiday Auto Switch When Ten year Holiday is enabled if the current year of the meter falls into the Ten year Holiday setting it automatically loads the Ten year Holiday settings into the current TOU settings If the current year of the meter does not fall into the Ten year Holiday setting it remains the current TOU settings 7 2 EL pon o par av fon a Figure 4 11 Holiday Settings AcuRev 2000 3333333332339333333 FEEL TER FAFFIFISIIFFVIIIZII 32333332333293329242 5 88884 Figure 4 12 SOE in software When DI is used as remote signal detection it will record SOE SOE is when DI circuits detect the change of the signal voltage level it records the channel the event and the event s timestamp The SOE records DI1 DI8 input status change and its time it allows up to 20 events The newest event number can be displayed Utility zoo omsom Figure 4 13 Alarming in software 93 AuRe 2000 AcuRev 2000 Alarming records alarming timestamp alarming parameter over under limit value alarming status and alarming condition Users can setup alar
145. records then the number of records to be read should subtract this number from The earliest record data of one sector data has been erased irreversible If at this time if the time offset is greater than the maximum number of records divided by the number of sectors records then the offset should be unified after subtracting this number To avoid these problems we recommend that users use as much as possible before the trend for reading demerit record 196 For example log 1 uses 3 sectors each sector saves 448 records in total there will be 1344 records When the user retrieves the data when 1340 records are used the first sector of log 1 will be erased without being retrieved Data Retrieve Example The example is based on log 1 The logging content is Channel 1 Active Power Channel 2 Active Power and Channel 3 Active Power 12 bytes the logging interval is 1 minute sector number is 10 register number is 6 using log 1 The Offset is 0 There are no new records logged while retrieving a Setup Log 1 1 Set Tenant 1 Power Tenant 2 Power Tenant 3 Power into this log Since each parameter uses two Modbus registers set 0x2102 0x2103 0x210e 0x210f 0x211a 0x211b to 0x1302 0x1303 0x1304 0x1305 0x1306 and 0x1307 The descriptor is 2 so at the same time set 0x0202 0x0200 to 0x1377 0x1378 2 The register number is 6 it uses 10 sectors So set 0x060A to 0x1300 3 The logging interval is 1 minute set 0x0001 to 0
146. red meter display module baud rate and parity bit is set DI constant represents the input number of pulses counted once DI units represent physical unit that DI count value representing there are five kinds t m kWh Y DI values represent physical quantity that pulses counted once representing P33 restore factory setting meaning the user s name mapping relationship wiring CT type revert to the default values 71 AcuRev 2000 AcuRev 2000 Select the channel number For each user corresponding physical channel mapping mapping relationship in the following table pos Corresponding physical channel 1LN 3LN 2LN 1 Channel 1 Channel 1 Channel 1 2 Channel 2 Channel 2 Channel 2 3 Channel 3 Channel 3 Channel 3 4 Channel 4 Channel 4 Channel 4 5 Channel 5 Channel 5 Channel 5 6 Channel 6 Channel 6 Channel 6 7 Channel 7 Channel 7 Channel 7 8 Channel 8 Channel 8 Channel 8 9 Channel 9 Channel 9 Channel 9 10 Channel 10 Channel 10 Channel 10 11 Channel 11 Channel 11 Channel 11 12 Channel 12 Channel 12 Channel 12 13 Channel 13 Channel 13 Channel 13 14 Channel 14 Channel 14 Channel 14 15 Channel 15 Channel 15 Channel 15 16 Channel 16 Channel 16 Channel 16 17 Channel 17 Channel 17 Channel 17 18 Channel 18 Channel 18 Channel 18 19 Channel 1 Channel 4 Channel 1 Channel 4 Channel 7 20 Channel 2 Channel 5 Channel 2 Channel 5 Channel 8 21
147. rity bit setting Infrared communication parity bit setting Channel 1 485 communication Modubs baud rate Infrared communication baud rate 839H 83EH 645 Address 2 When bit 1 of address 8AFH is valid parameters about Network parameters should be blocked FFH Reset and restore the default values V V 102H DHCP setting NI NI 103H IP address 1st byte high Vv y IP address 2nd byte low 104H IP address 3rd byte high y Vv IP address 4th byte low 105H Submask 1st byte high NI NI Submask 2nd byte low 106H Submask 3rd byte high NI NI Submask 4th byte low 107H Gateway 1st byte high NI NI Gateway 2nd byte low 108H Gateway 3rd byte high NI NI Gateway 4th byte low 109H DNS1 1st byte high y NI DNS1 2nd byte low 10aH DNS1 3rd byte high y NI DNS1 4th byte low 10bH DNS2 1st byte high NI NI DNS2 2nd byte low 10cH DNS2 3rd byte high NI NI DNS2 4th byte low 10dH Modbus Tcp lp port NI NI 10eH Http port V y 3 When bit 2 of address 8AFH is valid parameters below should be blocked 107 AcuRev 2000 AcuRev 2000 837H Bit6 837H Bit5 Meter run time clear Saueryrntmecer 810H 817H 818H 81FH 820H 827H 838H 4 When bit 3 of address 8AFH is valid parameters below should be blocked DI Working Mode DI1 8 Pulse Constant for each channel
148. rm i i Data Logging Up to 8M e e Infrared e Modbus RTU e e Communication R5485 DL T645 o Ethernet Modbus TCP HTTP 7 o SMTP SNMP SNTP Demand Cycle Second api Pulse 2 channel s vo kWh Pulse Output Digital Output Pulse 8DI e e Output channel Digital ako Alarming Output Display LCD Display e e Table 1 1 Model Selection 2 1 Appearance and Dimensions 2 2 Installation Methods 2 3 Wiring AcuRev 2000 Before Installtion O The installation must be perfomred by qualified competent accredited professionals who have received formal training and have experience with high voltage and current devices Appropriate safety wear gloves glasses arc flush suit etc is mandatory to ensure safe installation O During normal meter operation caution should be used when handling the following as high voltage may be present Terminal Blocks Current Transformer connection nodes Potential Transformer connection nodes and the related circuits All primary and secondary circuits may contain lethal current and voltage Contact with current channels must be avoided O The power meter and I O modules cannot be installed on the primary side of transformers or where VA has limitations The power meter can be only installed on the secondary side Avoid contact with meter terminals after the completion of installtion Ll Do not input voltage above the rated maximum limit of the power meter and devices conn
149. rmonic distortion 4 56401 56418 Current K factor 5 56501 56518 Harmonic of Phase A Current 2nd 7th AcuRev 2000 AcuRev 2000 6 56601 5661 Harmonic of Phase A Current Power Quality 1 18 10 57001 5701 8th 13th 7 56701 56718 HE ae Current 8 56801 56818 didi 1 Current REIN 8 Harmonic of Phase B Current 2nd 7th 11 57101 57118 j ded ms 12 57201 57218 ii GE Current 13 57301 57318 pede LL 14 57401 57418 d doe Current Note Acurev2010 only include active power demand Acurev2010 only include active power The instrument is Acurev2010 enter an asterisk zone function code when prompted SCREEN WRONG 4 Inline Note to indicate that only Acurev2020 meter has feature Note the is enabled only content sharing Function Users Screen Number Code Content Note Energy No Time of Use only real time energy Inline 1 10100 System active energy 2 10200 Phase A B C active energy 10300 System this month total energy System this month tariff 1energy System this month tariff 2 energy 10400 System this month tariff 3 energy System this month tariff 4 energy 10500 System prior month total energy System prior month tariff 1energy System prior month tariff 2 energy 10600 System prior month tariff 3 energy System prior mo
150. ry cycle finishing signal can be sent out by DO Time of Use bi directional real energy measurement It saves up to 2 months energy data data saving boundary time can be any specified day auto meter reading day between 1 and 28 The factory default is at 0 o clock the first day of each month 2020 Utility Software ettings Help Accuenergy Corporation Sa Ei ESI kis o OR RRRO BOB e EIE N 1 52 Sal Real Time Epa Epb Epc Ep D kwh D1 kwh DO kwh Di kWh Eqa DO kvarh DO kvarh 10 kvath Esa Esb Esc Es 0 1 KVAh Di kVAh DI VAR Current Month TOU Ep a Ep b Ep c Ep Sharp OO kwh OO kwh Prior Month TOU User user01 CH301 Real Time Epa Ep b Epc Ep Eqa Ea b Eqe Eq OO kwath 00 kvarh Current Month TOU Epa Ep b Peak DO kwh D kwh DO kwh 0 0 kWh 0 1 kwh TXD 1012 00 00 00 06 01 03 2B Ot AXD Figure 4 8 Energy ERR 3 4117 0 07 Displays real time energy this month TOU energy prior month TOU energy individual tenant real time energy this month individual tenant TOU energy prior month individual tenant energy Critial peak On peak Mid peak Off peak energy reading If TOU energy 87 AcuRev 2000 AuRe 2000 measurement is not enabled it displays real time energy only The user divides the screen into two parts the upper part indicates inline energy par
151. show the value of the household s electricity and 645 address A5 AO displayed in the order as shown in Figure 6 Energy is 5 0kWh 645 address 012345678999 A5 AO order press any key to return to the main interface you can re read the other ones of the energy value V1 01 Appendix E Revision History 2012 04 20 1 edition V1 02 2012 08 08 P95 Add the range of measured values V2 01 2013 08 02 1 Add the network module content 2 Redefining wiring the user name 3 CT mix to increase user functionality 4 Improve Measurement Accuracy of Meter 5 Add daylight saving time and ten holidays automatic switching function V2 10 2014 01 07 1 Add seals Description 2 Add channel options described 3 Add the rated voltage described 261 AcuRev 2000 Your Power and Automation Partner Accuenergy Corporation Toronto Los Angeles Beijing North American Toll Free 1 877 721 8908 Email support accuenergy com Web www accuenergy com
152. t 117 5 3 Ethernet communication 220 123 5 4 Application Details and Parameter Address Table 159 Appendix 2 EE EE EE Ee ee 245 Appendix A Techincal Data and Specifications 246 Appendix B Pulse Output Setup 249 Appendix C Ordering Information 251 Appendix D TP900 meter reader Instructions 257 Appendix E Revision History 261 Welcome to AcuRev 2000 You have purchased an advanced versatile multifunction power meter Please note the following chapter descriptions in order to utilize the power meter properly Chapter 1 Introduces the basic AcRev 2000 features and application areas Chapter 2 Introduces AcuRev 2000 installation and wiring methods in detail Chapter3 Walks through how to operate AcRev 2000 via the display panel display measurement data and parameter settings Chapter 4 Introduces AcuRev 2000 functions with the included software Chapter 5 Introduces communication related information including protocol format and parameter address table Appendix The appendix provides AcuRev 2000 technical specifications and ordering information AcuRev 2000 s
153. ta Wat VARA VAA Pw Factor A Was VARB VAB Pw Facta B Watc VAR C vac Pra Factor C Wat Total VAR Total VA Total Pa Factor Total Frequency val z TA LosdA LI LosdB tc LosdC Load Tota Waa VARA VAA Pw Factor A WAP VAB Pra Factor B Figure 5 11 3 Utility software pop ups Search Device s window and the window displays IP address and MAC address of module 131 AcuRev 2000 AcuRev 2000 BEI 6908 Ri RR E S iB amp HEN NS SS Volts AN Volts AB l Load A Volts BN Volts BC 1B Load B Volts CN Volts CA Ic Load C Volts LN Average Volts LL Average Average Load Total Search Device s in LAN Watt AR wate ad No Device IP Address MAC Address 1 Acuvim IIR 192 168 1 6 ec c3 8a 00 00 06 Walt C AR 2 Acuvim IIE 192 168 1 23 20 E Ei Watt Total User Y ich Stop Copy IP Address Close Load Total WatA VARA VAA Pwr Factor A Watt B VAR B VAB Pwr Factor B Figure 5 12 Note This function is used only in LAN not used in WAN or direct connect to computer 5 3 8 Description of Modbus TCP protocol The Modbus TCP protocol is used for communication in Ethernet modules The protocol sets up master slave link in Ethernet First master device client sets up TCP link with slave device server Second master device sends request frame to slave device and slave device receives request frame and returns response frame to master device Figure 5 13 displays working mode of Modbus TCP protocol 1
154. the basic interface is not P25 reactive power calculation methods setting interface and P26 load protocol selection interface PQ SET NET INFO OK Password o por language gt PO2 communication A pos Rsags Baud BREER A Pos Energy pulse guagi address lt Rate and checksum de lt constant setting Y w and parity bit Y aj 1 v Ho oes 2 pos Demand period 4 pos Demand A Po7 populse Pos Pulse width ger ng gt Second cycle calculation output setting Ss setting conditions v v v v Al ty A A A A P11 ape p12 Diconstant Pis DiUnit gt Pia Divalues gt P15 Relay selection function Y Y Y Alv P A A A P20 Clear P17 Relay Pulse operation S P19 Alarmtime lt P18 Alarm switch rata PI6 Relay work v v v Y l ty P21 Pulsecount p22 Backightoff P23 Backlight P24 cyclestat lt is cleared delay brightness lt time and duration lt v v Y v Alv P30 Users channel P29 connection P28 users enable A P27645 address Full Ss lt Full number selection type setting ed set ting defined M v v v v Alv P31 CTtype A p32 Dateandtime amp P33 Restore S P34 Password slection Y settings Y factory settings Y setting A v Figure 3 21 basic settings screen PO4 extended serial baud rate and parity settings are infra
155. thharmonic 5 nine ig Ss ineen oder ratio v ratio v ratio v v alte inline HARMONICUa A Inline HARMONICUa A Inline HARMONICUb A Inline HARMONICU Inline HARMONIC UB 20th 25th harmonic 26th 31stharmonic 7 2nd 7thharmonic 8th 13th harmonic 14th 19th harmonic ratio v ratio v ratio v ratio v ratio alle inline HARMONIC Uc a Inine HARMONIC Uc A inline HARMONICUc A Inline HARMONICUb A Inline HARMONIC Ub 14th 19th harmonic 8th 13th harmonic 2nd 7th harmonic 26th 31st harmonic gt 20th 25th harmonic ratio v ratio v ratio v ratio v ratio alte Inline HARMONIC Uc A Inline HARMONIC Uc 20th 25th harmonic 7_ 26th 31st harmonic ratio v ratio A Y Figure 3 20 Inline power quality In the second page of the main menu select SET press the OK button the password inquiry is passed display language setting interface the OK key to activate the cursor the cursor is activated the cursor blinks When the cursor is not activated the arrow keys to scroll when the cursor is activated the up and down keys to change the value at the cursor left and right keys to move the cursor the OK button to confirm the changes and stop the cursor Combination of keys left and right keys pressed together to return to the AcuRev 2000 main menu When the meter using the DM module then no CT setting interface set interface when the meter type is Acurev2010
156. time delay If a circuit breaker is utilized it must be CE certified and comply with IEC 947 standard An isolated transformer or EMC flter should be used in the auxiliary power supply loop if there is a power quality problem in the power supply A FUSE O L L 14 Power Supply O O d O ON NO GN AcuRev2000 Figure 2 24 Power Supply wiring Voltage Input signal 400Vac L N 690Vac L L A fuse typical 1A 250Vac or air circuit breaker must be used in the voltage input loop Current Input signal Current Input has two options Direct Connection or Via CT Current Transformer Connection DM module is utlized in Direct Connection while EM module is utilized in Via CT Connection For Direct Connection each tenant maximum current is 80A nominal current 20A For Via CT Connection the CTs are solid core type and should be installed first The CT accuracy is 0 296 options are 20A 80A 150A 200A 250A 1000A Current transformer or 0 333V Voltage Transformer Vn Connection Vn is the voltage reference point of AcuRev 2000 a low resistance to Vn connection contributes to a better measurement accuracy Vn connection is related to the system wiring Please refer to Wiring Methods for details Wiring Methods AcuRev 2000 wiring methods can be selected in system parameter settings Inline defaults to 3 phase 4 line 3LN load wiring can be set to single phase 1LN three
157. ting Time First Record the earliest record time Record Ending Time Last Record the latest record time Trending Record Retrieve Trending Record can be divided into two parts File Header and Main Window File Header is used to finalize the contents displayed in Main Window Main Window is a sliding window representing all the records 3 trending records have one address 194 Register Size 4 3B00H 3B03H N R dT 3BOOH Record Type R W LLL CESOIRE SSSSSSSS Reserved Wind R d WWWWWWWW status 3B01H ICON ee R W Window Record Number Status nnnnnnnn Number Window Status 3B02H 3B03H Record Offset R W 3B04H 3B7eH Window R Record Type which record will be read 0 Log 1 1 Log2 2 Log3 Record Number the record number each window displays Please note this Record Number cannot exceed the window size This setting tells AcuRev 2000 how many records are saved in Main Window Window size bytes equal window record multiplied with Record Size For example a record size is 50 the window size should be 246 50 4 Status Window Status indicates the data status of the current window It may exceed the time delay 1 second when AcuRev 2000 is preparing for a one window size data This byte represents the data effectiveness if the window records are not effective the data will be ignored In addition it takes time to erase the memory The memory erasing status can be represented by this byte If W
158. ting device and is appended to the message The receiving device recalculates the CRC value during reception of the message and compares the calculated value to the actual value it received in the CRC field An error will be reported if the two values are not equal CRC calculation is first started by preloading the whole 16 bit register to 1 s The process begins by applying successive 8 bit bytes of the message to the current contents of the register Only the eight bits of data in each character are used for generating the CRC Start and stop bits and the parity bit do not apply to the CRC When generating the CRC each 8 bit character is exclusive ORed with the register 116 contents The result is shifted towards the least signifcant bit LSB with a zero filled into the most signifcant bit MSB position The LSB is extracted and examined if the LSB equals to 1 the register is exclusive ORed with a preset fixed value if the LSB equals to 0 no action will be taken This process is repeated until eight shifts have been performed After the last eighth shift the next 8 bit byte is exclusive ORed with the register s current value and the process repeats for eight more shifts as described above The final contents of the register after all the bytes of the message have been applied is the CRC value When the CRC is appended to the message the low order byte is appended first followed by the high order byte Data start
159. tra m 26DBH gy as Channel 1 AcuRev 2000 AcuRev 2000 26DCH Channel 1 3 phase 4 line single phase 3 line system this month TOU energy total R W dwod Channel 1 3 phase 4 line single phase 3 line system this month TOU energy tariff 1 R W dwod Channel 1 3 phase 4 line single phase 3 line system this month TOU energy tariff 2 R W dwod Channel 1 3 phase 4 line single phase 3 line system this month TOU energy tariff 3 R W dwod Channel 1 3 phase 4 line single phase 3 line system this month TOU energy tariff 4 R W dwod Channel 2 3 phase 4 line single phase 3 line data The same as to Channel 1 3 phase 4 line single phase 3 line data R W dwod Channel 3 3 phase 4 line single phase 3 line data The same as to Channel 1 3 phase 4 line single phase 3 line data R W dwod 26FAH 2703H Channel 4 3 phase 4 line single phase 3 line data The same as to Channel 1 3 phase 4 line single phase 3 line data R W dwod 2704H 270DH Channel 5 3 phase 4 line single phase 3 line data The same as to Channel 1 3 phase 4 line single phase 3 line data R W dwod 270EH 2717H Channel 6 3 phase 4 line single phase 3 line data The same as to Channel 1 3 phase 4 line single phase 3 line data R W dwod TOU Energy Prior month
160. tus and change the settings of the Ethernet module ALCUENZALY Main Page Data Setings Device Description A urov2000 Mail rom Module Staus DHCP Mode MANUAL Manto st IP Address 132 168 121 Mailto 2 Subnot Mask 6 165 2550 Mailto 83 Gateway 13216811 Subject DIIS Primary 13246914 SMTP Servor DIS Secondary 137168179 User ame MODBUS Port 5 HTTP Port B MAC Address Ja 10 00 ec Mail Content Mater Model Azurev 2020 Meter SH Meter Firmware 201 NET Frmware Default Frequency _5 Hz Device Clock Figure 5 15 Visurov 2000 agcigazeLeneney com Er metenrg mail accuenergycom zn deett arcuenergycom en sable d sabled C401 0012 2300 1 1 1145 3 Settings Webpage AcuRev 2000 By selecting the Settings link users can access Network Settings Mail Settings Webpage Settings Load Default and Password Setting When accessing the Settings link users will be prompted to enter a password The default password is 12345678 a Password Webpage Figure 5 16 Password webpage If the password is valid the browser will go to the Network Settings webpage If an incorrect password is used users will be notified of Invalid Password ALCUENZAGY Main Page Data Settings Password Module Status Figure 5 16 b Network Settings Webpage Figure 5 45 Network Settings webpage There are two sections for you to set Ethernet setting and SNTP setting In Ethernet setti
161. ults to 3 phase 4 line 3LN Model Selection AcuRev 2000 series has two models AcuRev 2010 Basic Measurement and AcuRev 2020 Multifunction The function comparison is listed below Standard Optional Blank means Not Available AcuRev 2000 Function Parameter AcuRev 2010 AcuRev 2020 Real Energy Ep e e Energy Reactive Energy Eq Apparent Energy Es e 4 Tariffs 14 Schedules TOU e e TOU Daylight Saving Time DST e e Holidays e e Power Demand Demad P e e Power Demand Max Demad P max e e Reactive power Demad O Demand due Demad 0 mar Demand Apparent Power Demand Demad_S e RE a Demad S max e Current Demand Line amp Each Tenant e Current Demand Max Line amp Each Tenant V1 V2 V3 Voltage V12 V23 V31 Current Line amp Each Tenant e Power Line amp Each Tenant e e do Reactive Power Line amp Each Tenant e Apparent Power Line amp Each Tenant e Power Factor Line amp Each Tenant e Nature of the load Line amp Each Tenant Frequency F e AcuRew 2000 THD THD Individual Harmonic 2nd 31st e Current K Factor KF e a Crest Factor CF e P lit ower Quady Voltage Unbalance U_unbl e Current Unbalance unbl e Voltage telephone THFF interference factor Year Month Day Hour i Minute Second Alarmin Over Under Limit 9 Ala
162. umcumcurmX Fy MT3C MTAC Figure 3 3 Three Phase 4 Out energy display 3 Single Phase 3 Out 2LN E D IO MULM tok Tri 001 EP SumkWh TH 001 ewh S mioo ewh S Tio Ep kWh Ti 001 EP kwh eum i AB M MTns MTIS MT2s lt MT3S M TAS IE UMSUTISUT25 v v v v vila Tri 001 EP kWh Trioo1 EP kWh 4 Trioo1 EP kwh Tri 001 EP kWh A Trioo1 EP kWh U T3A U TAA UTnAU mauta MT3A MTAA Fal MTAAM TIA MIRA UT3S U T4S v v v v vt fa A A Tri 001 EP kwh S Tn oo EP kWh mioo EPkWh a Trioo1 EP kWh MTnBM TIBM 128 gt MT3BM TAB UTB U TIB U Tag pad UT3B U TAB a A v v Figure 3 4 Single Phase 3 Out energy display AcuRev 2000 AcuRev 2000 On the first page of the main menu press D then press the OK the meter displays demands Left and Right keys to select a different user or Inline Up and Down keys to select the current user s different screen press OK button to return to the main menu For AcuRev 2010 only displays the active power demand Demand DMD Active Demand DMD P Reactive Demand DMD Q Apparent Demand DMD S Current Demand DMD I Predicted Demand Pre Maximum Demand Max Table 3 7 Demand display Different wiring demand data display is not the same Details are as follows AcuRev 2010 meter does not show the screens of yellow background 1 Single Phase Out 1LN E D IO MULM ok Tri 001 DMD Pas Tri 00
163. und 1 Single Phase Out 1LN E D IO MUL M Tom 001 MUL P A 2 Three Phase 4 Out 3LN Figure 3 12 Single Phase Out real time display E DIO MUL M OK Tomoo1MuL Sum gt POS Tom001MUL P ABC v Figure 3 13 Three Phase 4 Out real time display dh A El A S rmon musa S momoo wes en mare vila A Fe aard v AcuRev 2000 AcuRev 2000 3 Single Phase 3 Out 2LN E DIO MUL M POS A OK Tom 001 MUL Sum 5 LA Tom001 MUL P rz AB v Y v 4 Inline EDIO MUL M Jos Inline MuL Sum s PQs Y ABC a a A s E pali BE hard Be v v P Inline MUL Figure 3 14 Single Phase 3 Out real time display Figure 3 15 Inline real time display On the first screen of main page press Left and Right keys to choose M then press the OK key to enter Shortcut Keys page ED IO MUL M m 10101 Figure 3 16 Press Left and Right to move the cursor to choose different digit Press Up and Down key to change the digit value after the input of Shortcut Code press the center key to enter the corresponding pages Shortcut Code consists of five digits The first digit on the left is to choose functions as depicted in Table 3 8 1 represents
164. v 2000 ACCUZNZAEY Smart Metering System 0000 DM ACCUENZRGY Transformer Module Figure 2 12 Meter Base connected with a DM module 9 channels Smart Metering synem ACCUNAEY Transformer Module nod DM noon ALCUENZAGY Transformer Module Figure 2 13 Meter Base connected with two DM modules 18 channels Installation Steps This meter is DIN rail mounted which fits 35 mm standard rails 1 Insert the meter groove all the way into the rail and flip the meter case as Figure below shows making the meter mounted into the rail Installation Rail STEEL a ec e ec ABEL TEILTE EL BERRRBB BRABRERER Visus ARR TDARADONDE ee TE Figure 2 14 Step A 2 Use the metal clips to tighten the rail and installation will be completed eTO EE L L4 ED ED Cm DPC c UO BA DA WBRBRRBRRR BRARBBBE Figure 2 15 Step B AcuRev 2000 AcuRev 2000 Display Module Installtion The Display Module
165. v 2020 L 8DI 8Dl including 15V DI power supply 1EM 1 EM module 9 single phase input max 2EM 2 EM modules 18 single phase input max 1DM20 1 DM module 9 single phase max max current input 20 80 A 2DM20 2 DM modules 18 single phase max max current input 20 80 A 1EM V 1 EM module supports 333mV standard transformer up to 9 Single phase input user with transformer 2EM V 2 EM module supports 333mV standard transformer up to 18 Single phase input user with transformer AcuRev 2000 AcuRev 2000 Solid Core Type Type Current Transformer CCT 20 Full Range 20A CCT 80 Full Range 80A CCT 150 Full Range 150A CCT 200 Full Range 200A SCT 20 Full Range 20A SCT 80 Full Range 80A SCT 150 Full Range 150A SCT 200 Full Range 200A SCT 250 Full Range 250A SCT 1000 Full Range 1000A 0007 MAY Side View Front View Front View CCT 20 CCT 80 25 25 46 46 53 53 12 20 CCT 20 CCT 80 Front View CCT 150 CCT 200 i 1 Bottom View Figure c 21 21 78 78 63 5 6 3 Side View 26 26 CCT 150 CCT 200 0007 MYN 254 SCT 20 SC 80 SCT 150 SCT 200
166. ver the default value of the protocol port is 80 and the scope of the protocol port is 6000 9999 The Ethernet module supports SNMP protocol It is used as a SNMP agent providing management to MIB library so you can get data from the meter The Ethernet module supports SNTP protocol It can get update time to Coordinated Universal Time UTC AcuRev 2000 AuRe 2000 5 3 3 Definition of RJ45 Interface The Ethernet module uses a standard RJ45 connector to access the Ethernet network The mechanical and electrical characteristics of the connectors comply with the requirements of IEC 603 7 Figure 5 1 Script ID Content 1 TX Tranceive Data 2 TX Tranceive Data 3 RX Receive Data 4 n c Not connected 5 n c Not connected 6 RX Receive Data 7 n c Not connected 8 n c Not connected Table 5 14 LED L yellow displays speed status LED on indicates 100Mbps while LED off indicates 10Mbps LED_R green displays link and activity status combined LED on indicates link status while flashing LED indicates activity status 5 3 4 Cable Shielded twisted pair cable standard 568A or standard 568B is usually recommended as reference to the EIA TIA standard 5 3 5 Connection Method 1 Direct Connect The Ethernet module uses cross line standard 568A to connect to computers The module supports Modbus TCP SNMP and HTTP functions for a direct connection 2 In
167. x1301 4 Log 1 set 0 to 0x13b9 the default is the log 1 b Data Log Retrieve The following describes how to retrieve from the earliest record to the latest record 1 Calculate the max record number a window holds The max record number 246 Record Size In this example 246 24 10 AcuRev 2000 2 Set the max record number and Offset to the meter Initially the Offset is 0 In this example set OxOAOB and 0x0000 to 0x3B01 and 0x3B02 AcuRev 2000 3 Read the Window Status from 0x3B01 if the status says OXFF then go to step 2 to set max record number and Offset again If the status says OXOB the content of the window will be read 4 Read the window content and calculate the next record offset The next record offset is the last record offset plus the max record number per window After completing set the new offset to 0x3B02 Then repeat step 3 until all the records are retrieved Basic Measurement AcuRev 2010 only takes power related measurements The format is floating point Each parameter uses 4 bytes high bytes are followed by low bytes Function Code 03 Read only 2000H 2001H R 0 2002H 2003H U1 R 1 2004 2005H U2 R 2 2006 2007H U3 R 3 2008 2009H Uavg R 4 200AH 200BH U12 R 5 200CH 200DH U23 R 6 200EH 200FH U31 R 7 2010H 2011H R 8 2012H 2013H IL1 Phase A inline R 9 current IL2 Phase B inline current 2014H 2015H o float 2016H 201
168. ystem active power energy 2532H 2533H 2534H 2535H Channel 4 3 phase 4 line single phase 3 line real time system active power energy Channel 5 3 phase 4 line single phase 3 line real time system active power energy 2536H 2537H Channel 6 3 phase 4 line single phase 3 line real time system active power energy 2B00H 2B01H Eqin A inline Phase A Reactive Power Energy ca so ex e C EES 105 AcuRev 2000 AcuRev 2000 2B02H 2B03H Eqin B inline Phase B Reactive Power Energy 2B04H 2B05H Eqin C inline Phase C Reactive Power Energy 2B06H 2B07H Eqin S inline system Reactive Energy 2B08H 2B2BH Tenant 1 18 real time Reactive Power Energy 2B2CH 2B2DH Tenant 1 real time system Reactive Power Energy 2B2EH 2B37H Tenant 2 6 Reactive Power Energy data 2B38H 2B39H Eqin A inline Phase A Apparent Energy 2B3AH 2B3BH Esin B inline Phase B Apparent Energy 2B3CH 2B3DH Esin C inline Phase C Apparent Energy 2B3EH 2B3FH Esin S inline system Apparent Energy 2B40H 2B63H Tenant 1 18 real time Apparent Energy 2B64H 2B65H Tenant 1 real time system Apparent Energy 2B66H 2B6FH Tenant 2 6 Apparent Energy data Sealed Nonstandard Parameters 1 When bit 0 of address 8AFH is valid parameters about RS communication should be blocked Meter Address EES ems SL cs CS Channel 1 485 communication Modbus pa

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