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PMC-5151 User Manual

1. 254 Appendix IV The configuration setting of M 7000 module 208 Appendix V The AI Channel setting of XW310C 1 00 ccceeeeeeeeeeeeeeeeeeeeeeeeeeees 262 Appendix VI The SNMP Variables for PMC 5151 263 ICP DAS PMC 5151 User Manual Figurel 1 Figure3 1 Figure4 1 Figure4 2 Figure4 3 Figure4 4 Figure4 5 Figure4 6 Figure4 7 Figure4 8 Figure4 9 Figure4 10 Figure4 11 Figure4 12 Figure4 13 Figure4 14 Figure4 15 Figure4 16 Figure5 1 Figure5 2 Figure5 3 Figure5 4 Figure5 5 Figure5 6 Figure5 7 Figure5 8 Figure5 9 Figure5 10 Figure5 11 Figure5 12 Figure5 13 Figure5 14 Figure5 15 Figure5 16 Figure5 17 List of Figures PMC 515 1 Sy Stent Architecture sn nant 1 PIMC 5 TSI 10 Ci Pa Ge enr ateme teeta anes ete 5 PMC ISL MIEP a Sn aa ad aie 6 System Function Area login as a Administrator 7 System Function Area login as a General user cccceeeeeeeeeeeeeeeees 7 Rules management toolbar login as a Administrator 7 Rules management toolbar login as a General user 8 Confirm Lo Clear setin S sasse2ers nsoi vine ciqivemeuves eelaneet oeeiereiaaiionseieseeesee 8 Conti 10 load SCUING S in nee en ee a era 8 COHEN to SAVE SEMINGS nier nues antenne 9 Confirm to logout The settings are saved 9 Confirm to logout The settings are not saved
2. ccceeeeeeeeeeeeeeeees 9 Real time Information dred ia snaennaestensesaaentiianienure 10 Real time information List sareni a a a 10 C OE a N 11 Power data Overview page iii 12 Select the classification of Power data 12 Display power data of the selected classification ccceeeeeeeeeees 13 Information display options on Main Page s sessssesessnneserererrerene 14 Power Meter Information Overview 15 The attribute of PM 3133 Power Meter 15 The attribute of PM 3133 MTCP Power Meter 16 Real Time Power Information of PM 3133 16 Real Time Power Information of PM 3114 cccecceeeeceeeeeneeeeeees 17 Real Time Power Information of PM 3112 17 Power Meter Statistics Information ccccccecceeceeeeeeeceeeeeseeneeaes 18 Power Data Overview Mode ccccecceeceeceeeeceeceeseeseeeceeseeseeeeeaes 20 Change Display List Button VV 21 Th Power Meter List sauna ae alim 21 Power Data Group Overview Mode cccsceeceeceeceeseeeeceeseeneeaeeaes 21 Realtime Chart Power Meter Mode 23 Realtime Chart Group Mode 25 aS tonic al CRAQUE a estate tes 26 Historical Data Chart for power data ccceceeeeeeeeeeeeeeeeeeeeeeeeeees 2 1 Historical Data Table for power data ccceeeeeeneeeeeeeeeeeeeeeeeeeeees 28 ICP DAS PMC 5151 User Manual
3. COM w Air Conditioner Control 4 oner _ Address 0 M Figurel0 8 Input Register condition setting page Follow the steps below 1 Specify the module and address of the Modbus TCP RTU Slave module from the dropdown list of the Module amp Address section that you are going to include its value in the IF condition statements 11 Set up the expression statement for this Input Register address value Select an operator from gt lt gt or lt 11 And then specify the evaluation value If this Input Register 161 ICP DAS PMC 5151 User Manual value match the evaluation criteria the result of this condition evaluation will be true iv PMC S151 provides 7 value options you can compare them with the Input Register value for condition evaluation Please refer to 10 1 1 3 section for more detailed information for comparison value settings of these 7 options v Click OK button to confirm the settings and return to the Rule settings page 10 1 2 4 Holding Register Holding Register channel value from Modbus TCP RTU Slave module can be included in the IF condition statements the editing page for Holding Register Condition Setting is shown as below Holding Register Condition Setting Module amp Address Operator Value User Defiend E COM2 w Air Conditioner Control 4 v Address 0 v Figurel0 9 Holding Register condition setting
4. Power Meter List Modbus RTU COM2 COM3 LAN Q No Address Power Meter Nickname 3 M 3 m Search PM 3114 PM 3114 O 2 2 PM 3112 PM 3112 Figure7 2 Power Meter Setting Page On the Power Meter Setting page a list for all power meters connected to the PMC 5151 will be displayed Please follow the following sections to perform settings for Modbus RTU and Modbus TCP power meters After all settings are completed click Save button to save the changes Please note I PMC 5151 provides COM2 RS 485 and COM3 RS 485 interface that allows connections to Modbus RTU power meters PMC 5151 provides LAN interface that allows connections to Modbus TCP power meters For more detailed information about LAN settings please refer to 6 4 I O Interface setting One PMC 5151 allows connections to at most 24 ICP DAS Modbus power meters including Modbus RTU and Modbus TCP power meters A single I O interface COM2 COM3 or LAN allows connections to at most 16 devices Power meters and I O modules each device requires its own index number Therefore if an I O interface is connecting to both power meters and I O modules they will share the same set of the index numbers For example if COM2 is connecting to 2 Modbus RTU power meters and already takes the index numbers No 1 and No 2 the Modbus RTU I O modules that are going to be connected to COM2 can be only set as No 3 No 16 that are not occupied T2 I
5. 77 ICP DAS PMC 5151 User Manual Move Down Click the radio button in front of the power meter and click on Move Down to move the power meter to lower order lower index number No Copy To copy the settings of a pre set power meter to the new power meter please click the radio button in front of the pre set power meter and then click on Copy a new power meter in sequence will be added to the list and the settings of the old power meter will be copied to this newly added power meter Remove Click the radio button in front of the power meter and click on Remove to remove the selected power meter After all settings are completed click Save button to save the changes 7 1 5 Modbus RTU Powe Meter Setting PMC 5151 support ICP DAS Single phase and Three phase Modbus RTU Powe Meters the following section will give more detailed settings of each power meter setting page The Three Phase Modbus RTU Powe Meter Setting page is shown as follow using PM 3133 as an example Power Meter PM 3133 Setting Nickname PM 3133 Description Address 2 Scan Rate 5 second s Polling Timeout 1000 millisecond s Retry Interval 5 second s Power Meter Setting Main Power Meter Set as main power meter Phase A Nickname Phase B Phase C DO Attribute Other Attribute Channel Nickname Power On Value Ch 0 Ch 1 OK Figure7 15 OFF OFF Cancel PM 3133 Setting Page
6. Go to specific page F Go to next page l Go to last page 5 5 Historical Data Report titi The Historical Data Report allows display of the power data report of desired power meter specify the power meter power classification and date range to inquire the data shown as below Inquiry Topic Power Meter List Report Type Report Date PM 3114 Daily Report 2014 1 7 27 Recorded Data File Range 2013 12 24 2014 1 27 Inquiry Download Figure5 18 Historical Data Report inquiry Power Meter List All power meter connected to the PMC 5151 will be listed on the 28 ICP DAS PMC 5151 User Manual dropdown list of the Power Meter List if no power meter is connected the inquiry operation will not be able to perform Report Type Allow to inquire Daily Report or Monthly Report options Report Date The dates that are available for data retrieval will be displayed Please note if no log file is available the inquiry operation will not be performed Click on Inquiry or Download to display download the Historical Data Report of the selected date range If the selected date does not contain the file or exceeds the date of the file storage range a message No file exists will be displayed For the number of loops of power meters are different the data report will be in different format please refer to Figure 5 20 for the Daily Report of 3 phase power
7. j Figure6 25 Subgroup Setting 1 Input the group subgroup name and click to add this group subgroup to the lists Figure 6 26 Click Close button to return to group setting page Subgroup Setting Power Meter Group Setting gt Location Group Group Name Taipei Taichung Figure6 26 Subgroup Setting Window 64 ICP DAS PMC 5151 User Manual 6 8 3 Group and Subgroup configuration Subgroup Setting Power Meter Group Setting gt Location Group No Group Name 1 Taipei 2 Taichung Change Name Move Up Move Down Copy Remove Close Figure6 27 Configurations for Subgroup The group subgroup configurations can be done on the Group Subgroup Setting page Please select the group subgroup first and click on the function button to perform the configurations Change Name Click the radio button in front of the group and click on Change Name to change the name of selected group Click OK button to save the changes Move Up Click the radio button in front of the group name and click on Move Up to move the group to upper order upper index number No Move Down Click the radio button in front of the group and click on Move Down to move the group to lower order lower index number No Copy To copy the settings of a pre set group to the new group please click the radio button in front of the pre set group and then click
8. 2 oe Max D d Max Deman Q SA 300616 2 Float Floating Point 9 Monthly as Daily Accumulated ER SA 300618 2 Float Floating Point Electricity Monthly Accumulated SA 300620 2 Float Floating Point Electricity Yearly Accumulated SA 300622 2 Float Floating Point Float Floating Point Float Floating Point Float Floating Point Float Electricity 15 30 60 mins SA 300624 Actual Demand 15 30 60 mins SA 300626 Forecast Demand Max Demand SA 300628 Hourly Max Demand 2 2 2 O ON a S lt x qe fb SA 300630 2 Daily Floating Point 292 ICP DAS PMC 5151 User Manual Max Demand SA 300632 Monthly Daily Accumulated SA 300634 Electricity Monthly Accumulated 2 Float Floating Point Float Floating Point Floating Point 2 SA 300636 2 Electricity Yearly SA 300638 Accumulated 2 Floating Point p_i S ee Electricity Submeter 2 15 30 60 mins SA 300640 Actual Demand 15 30 60 mins SA 300642 Forecast Demand Max Demand SA 300644 Hourly Max Demand SA 300646 Daily 2 Float Floating Point 2 Float Floating Point 2 Float Floating Point 2 Float Floating Point lt Max Demand l lt SA 300648 2 Float Floating Point D Monthly as Daily Accumulated _ SA 300650 2 Float Floating Point
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10. 78 ICP DAS PMC 5151 User Manual The settings are as follow Nickname For user to define nicknames for each power meter this nickname will be displayed on the Power Meter Information and Rule Setting pages Description The Description field provides a space for the user to make a brief description of this power meter Address The address will be the Modbus address of this Modbus RTU power meter please make sure the address setting is the same as the settings of the module if the setting is not accurate the connection for PMC 5151 to the power meter will be failed Scan Rate Input the time interval for PMC 5151 to periodically retrieve the power data of this Modbus RTU Power Meter the setting range will be 0 65535 seconds Polling Timeout The time interval for PMC 5151 to send command to the Modbus RTU Power Meter and wait for the response the unit will be ms The setting range will be 1 10000 ms Retry Interval The time interval to wait for PMC 5151 to repeatedly send command again when PMC SI51 sends command to the Modbus RTU Power Meter and get no response The unit will be second the setting range will be 3 65535 seconds Main Power Meter When the Set as main power meter is selected this power meter will be set as main power meter and the power data of this meter will be displayed on the Main Power Meter area on the Power Data Overview page CT Phase Nickname For user
11. 0 253 0 262 0 282 0 265 0 279 0 251 0 265 0 260 0 265 0 276 0 257 30 ICP DAS PMC 5151 User Manual 5 6 Historical Electricity Analysis Historical Electricity Analysis can be done in 3 ways Electricity Usage Analysis of Trend Electricity Usage Analysis of Time and Electricity Usage Analysis of Proportion The user can query electricity analysis for specific date by selecting Chart Type Data Classification Date and Loop s Phase s the following section will provide more detailed information 5 6 1 Electricity Usage Analysis of Trend The users could specify the data classification and the time range under this section and then select the loop s phase s to be inquired the corresponding Electricity Usage Analysis will be displayed in Trend chart format COUL Option Settings Inquiry Topic Function Type Electricity Usage Analysis of Trend Data Classification V v Chart Type Yearly Chat 2014 2014 Recorded Data File Range 2014 9 26 2014 10 21 Date Inquiry Mode Group v Group Location Y Subgroup Taipei v Figure5 21 Electricity Usage Analysis of Trend Function Type The user can select one of the following three options for electricity analysis Electricity Usage Analysis of Trend Electricity Usage Analysis of Time and Electricity Usage Analysis of Proportion Inquiry Mode The user can select one of the following two options for inquirying group mode and
12. 30 mY Maximum 0 Figure7 40 M 7000 AI Channel Setting Page The settings are as below Nickname For user to define nickname for each I O channel this nickname will be displayed on the I O Information and 99 ICP DAS PMC 5151 User Manual Rule Setting pages Type Select the input signal type of the AI channel from the dropdown list Deadband Please refer to Deadband section in the 7 2 3 XW Board AI Channel Settings for more detailed information Scale Please refer to Scale section in the 7 2 3 XW Board AI Channel Settings for more detailed information After all settings are completed click OK button to save the changes and return to Modbus RTU Module List The AO channel setting for M 7000 module The M 7000 module AO channel setting interface is shown as below using M 7024 as an example Module M 7024 Setting Nickname Description Address 1 M Scan Rate 0 second s Polling Timeout 300 milisecond s Retry Interval 5 second s AO Attribute Channel Nickname Type Ch 0 rl IOV 5V ov Ch OV 5V Ch 2 OV 5V ow Ch 3 DV 5V m Figure7 41 M 7000 AO Channel Setting Page The settings are as below Nickname For user to define nickname for each I O channel this nickname will be displayed on the I O Information and Rule Setting pages Type Select the output signal type of the AO channel from the dropdown list A
13. Channel DI M chia Figure9 7 SMS Setting Page 2 133 ICP DAS PMC 5151 User Manual iv Input name in the Name field and you could also input the V pd description of this SMS Alarm in the Description field In the Phone Number section click on Add to input the phone numbers to receive the SMS Alarm messages The SMS can be sent to multiple receivers Keep on clicking Add to add all phone numbers to receive the Alarm message click Remove to remove the phone numbers you want to delete Enter the content in the Message field If the Unicode mode is adopted the length of the content cannot exceed 70 characters If the Unicode mode is not selected will support English characters only the length of the content limit is 160 characters SMS Alarm provides an encoded string for you to add current I O channel data power data or Internal Register data into SMS Alarm message To make it easy to add the encoded string PMC provides Real time variable editor Please refer to 8 1 Data Logger Setting for more detailed information of the Real time variable editor vii Click on OK to confirm the setting and leave the setting page vill Repeat steps i1i vii to complete settings of all SMS Alarm setting ix To modify the settings of a pre set SMS Alarm please click on the radio button in front of the SMS Alarm and then click on Setting to modi
14. Electricity Monthly Accumulated SA 300652 2 Float Floating Point Electricity Yearly Accumulated SA 300654 2 Float Floating Point Electricity 15 30 60 mins SA 300656 Actual Demand 15 30 60 mins SA 300658 Forecast Demand Max Demand SA 300660 Hourly Max Demand Daily 2 Float Floating Point 2 Float Floating Point 2 Float Floating Point Phase B CT5 SA 300662 2 Float Floating Point 233 ICP DAS PMC 5151 User Manual Max Demand Monthly Daily Accumulated SA 300664 2 Float Floating Point Float Floating Point Float SA 300666 2 Electricity Monthly Accumulated 2 SA 300668 Floating Point Electricity Yearly SA 300670 2 Float Float Accumulated Floating Point Electricity 15 30 60 mins Actual Demand 15 30 60 mins Forecast Demand SA 300672 2 SA 300674 2 Max Demand Hourly Max Demand Daily Max Demand Monthly Daily Accumulated SA 300676 2 SA 300678 2 SA 300680 2 Phase C CT6 SA 300682 2 Electricity Monthly Accumulated SA 300684 2 Floating Point Electricity Yearly 2 SA 300686 Float Float Floating Point Float Floating Point Float Floating Point Float Floating Point Float Floating Point 234 Accumulated Floating Point Electricity 15 30 60 mins Actual Demand 15 30 60 mins Forecast Demand SA 300688 2 SA 300690 2 Max Dem
15. Figure5 18 Figure5 19 Figure5 20 Figure5 21 Figure5 22 Figure5 23 Figure5 24 Figure5 25 Figure5 26 Figure5 27 Figure5 28 Figure5 29 Figure5 30 Figure5 31 Figure5 32 Figure5 33 Figure5 34 Figure5 35 Figure5 36 Figure5 37 Figure5 38 Figure5 39 Figure5 40 Figure6 1 Figure6 2 Figure6 3 Figure6 4 Figure6 5 Figure6 6 Figure6 7 Figure6 8 Figure6 9 Figure6 10 Figure6 11 Figure6 12 Figure6 13 Figure6 14 Figure6 15 Historical Data Report inquiry ccccceceeeeeeeeeeeeeeeeeeeseeseeseeseeseeees 28 Daily Report tor EM S 192 ee din dinde 29 Daily Report for PM 3114 ccccecceccseeseeeeeeeeeteeeseeseeeeeeneeseeeseenes 30 Electricity Usage Analysis of Trend cccccccceeeeeeeeeeeeeeseeeeeeeenaes 31 Inquiry by Group Mode iii 32 Inquiry by User detined Modes nue nana 32 PM 3114 Electricity Usage Analysis Trend Chart 33 Electricity Usage Analysis of Time 0ccseeeeeeeeeeeeeeseeeeeeeeeeeeaes 34 Time Histogram Chart for PM 3114 Loop 1 35 Electricity Usage Analysis of Proportion ccscceeceeceeceeeeeeeeeees 36 Inquiry by Group MOG siseicicssecsocuseecesivesesvetasertei EE Niisi 3 Inquiry by User defined Mod essence umo 3 Electricity Usage Analysis of Proportion Chart 38 PUE information Realtime carcini EEA 39 PUE information History 1 cccccccecceeseeeeceeeeeseeseeeeeee
16. To add a new rule please click Add new rule Copy To copy the settings of an old rule to the new rule please click on the rr button on the right side of the old rule a new rule will be added to the list and the settings of the old rule will be copied to this newly added rule Remove To remove a pre set rule please click on the button on the right side of the pre set rule Arrange the order Right click on the pre set rule and drag them up or down to arrange the rules into the proper order Click Add new rule to get into the Rule Information Setting page for logic rule edition shown as below 153 ICP DAS PMC 5151 User Manual Rule Infomation Setting Nickname Rule 4 Description Status Enable ODisable Rule Content Setting IF THEN ELSE Add a new Condition Add a new Action Add a new Action Set a Condition Set an Action Set an Action No Condition exists No Action exists No Action exists Figure10 2 Rules setting page Nickname Input name in the Nickname field and you could also input the description of this Rule in the Description field Status Select Enable or Disable If you select Enable the rule will be executed after being downloaded If you select Disable the rule will only be stored temporarily and will not be executed after being downloaded IF Condition Setting More detailed information please
17. Yearly 2 Float Float SA 300118 Floating Point Accumulated Electricity 15 30 60 mins SA 300120 Actual Demand 15 30 60 mins SA 300122 Forecast Demand Max Demand SA 300124 Hourly Max Demand SA 300126 Daily Max Demand SA 300128 Monthly Daily Accumulated Ea SA 300130 Electricity Monthly Accumulated 2 2 2 2 2 Total Average 2 SA 300132 2 Floating Point Electricity 207 ICP DAS PMC 5151 User Manual Yearly Accumulated SA 300134 2 Float Floating Point Electricity 3x Input Register Unit Register 16 Bits Power Meter Type PM_SA 300000 2133 PM_SA 300004 1 Uintl 1 247 Initializing Error Code PM_SA 300005 UIntl6 O Failed 1 Success PM 2134 Modbus Data Parameter Name Length Range Address Type 3x Input Register Unit Register 16 Bits kva SA 300006 2 Float Routing Point va S 300008 2 Float Routing Point re ee own Sa 300012 2 Float Fioatimg Point 1 sa 300020 2 Float Foatng Point aiw SA 300002 2 Float Floating Point Divan SA 300008 2 Float Floating Point eva Sa 300026 2 Float Floating Point 208 ICP DAS PMC 5151 User Manual SA 300030 kVAh SA 300034 SA 300036 Float SA 300040 kvar SA 300042 SA 300048 kVAh SA 300052 g W oe H Q PF W Q PF W k I k k I k k SA 300066 kVAh
18. lt kvarh kVAh SA 300242 Floating Point SA 300244 Floating Point SA 300246 Floating Point SA 300248 Floating Point SA 300250 Floating Point SA 300252 Floating Point SA 300254 Floating Point SA 300256 Floating Point SA 300258 Floating Point SA 300260 Floating Point SA 300262 Floating Point SA 300264 Floating Point SA 300266 Floating Point kvarh kVAh kvarh Phase C CT12 Phase B CT11 Phase A CT10 Flu Ala lA SN Riu Ala lA nl S relire SN a gs lt es lt lt 2 TT NL iil Il 226 ICP DAS PMC 5151 User Manual CURE SEE Foame Pon vA SA 300282 Floating Point SA 300284 Floating Point SA 300286 Floating Point Submeter 5 SA 300288 2 Floating Point SA 300290 2 Floating Point SA 300292 2 Floating Point SA 300294 2 Floating Point SA 300296 2 Floating Point SA 300298 2 Floating Point SA 300300 2 Floating Point SA 300302 2 Floating Point SA 300304 2 Floating Point SA 300306 2 Floating Point SA 300308 2 Floating Point SA 300310 2 Floating Point 2 2 2 2 2 2 2 2 2 2 2 2 2 En 27 EA 27 27 27 E E 27 Es 27 ma 27 SA 300312 02 Float Floating Point 27 O2 27 27 27 27 EE 2 E 27 27 7 as ANS D D S lt kvarh kVAh SA 300314 Floating Point SA 300316 Floating Point SA 300318 Floating Point SA 300320 Floating Point SA 300
19. to add new Time Range to execute this schedule Select the start time and the end time from the dropdown list Each Schedule is required to set at least one Time Range click on Add to add more Time Range Please note the time zones you specified can t be overlapped If you specify an end time that is earlier than the start time such as 20 00 00 06 00 00 it indicates the end time will be set one day after the start date Click Remove to remove a pre set Time Range c On the calendars click to toggle highlight on the dates you d like to execute or not execute the operations for this Schedule If the date shows a light green background it indicates the date is In Range of the schedule that is that date falls into the range that will execute the operations On the contrary if the date shows a light grey background it indicates that date is Out of Range of the schedule that is that date falls out of the range and will not execute the operations By default all dates will be In Range that is during the date range you select the 147 ICP DAS PMC 5151 User Manual operation will be executed every day Select All button is used to set all dates to be In Range whereas Unselect All button is for marking all dates to be Out of Range The Weekday button is for you to select all Mondays to Fridays to be In Range and Saturdays and Sundays to be Out of Range that i
20. 01A3851F140000D3_2 3133 7 _info txt Historical Data Log 01A3851F140000D3_2 3133 7 2013 05 23 csv Daily Report Log 01A3851F140000D3_2 3133 7 2013 05 23Rpt csv Monthly Report Log 01A3851F140000D3_2 3133 7 2013 O5Rpt csv O01A3851F140000D3_2 3133 7 is the ID of this power meter OLA3851FI40000D3 indicates the serial number of the PMC 5151 2 indicates the power meter is connected to the COM2 of the PMC 5151 3133 indicates the module type of the power meter 7 is the Modbus Address of the power meter and 2013 05 23 indicates the date the data is recorded The power meter information file _info txt 1s used to record the nickname of the power meter and the related information of the PMC 5151 which connect to the power meter Modbus TCP Power Meter ower Meter Data File Log 192 168 100 20_502_00D3 3112 1 _info txt Historical Data Log 192 168 100 20_502_00D3 3112 1 2013 05 23 csv ao 121 ICP DAS PMC 5151 User Manual Daily Report Log 192 168 100 20_502_00D3 3112 1 2013 05 23Rpt csv Monthly Report Log 192 168 100 20_502_00D3 3112 1 2013 0SRpt csv 192 168 100 20_502_00D3 3112 1 42 amp 49 ID 192 168 100 20 502 _00D3 3112 1 is the ID of this power meter 192 168 100 20 indicates the connection IP of the power meter 502 indicates the port number of the power meter OOD3 indicates the last 4 digits of the serial number of PMC 5151 3112 indicates the module type of the
21. 23400 24599 Module Power Data index 3 of COM3 7 24600 25799 Module Power Data index 4 Of COM3 7 25800 26999 Module Power Data index s of COM3 7 27000 28199 Module Power Data index 6 of COM3 7 28200 29399 Module Power Data index 7 of COM3 7 29400 30599 Module Power Data Index 8 of COM3 7 30600 31799 Module Power Data index 9 of COM3 7 31800 32999 Module Power Data index 10 of COM3 7 33000 34199 Module Power Data index 11 of COM3 7 182 ICP DAS PMC 5151 User Manual Module Power Data Index 12 of COM3 7 Module Power Data index 15 of COM3 7 Module Power Data index 16 of COM3 7 Power Meter Information index 1 of COM3 07 Power Meter Information Index 4 of COM3 7 Power Meter Information Index 5 of COM3 7 Power Meter Information index 6 of COM3 07 Power Meter Information ndex 9 of COM3 7 Power Meter Information index 10 of COM3 07 Power Meter Information Index 11 of COM3 7 Power Meter Information index 12 of COM3 7 Power Meter Information index 15 of COM3 7 Power Meter Information index 16 of COM3 07 Module Power Meter Data of LAN LOE 1 Each Module Power Data block contains 1200 addresses 2 Each Power Meter Information block contains 50 addresses 41000 42199 Module Power Data index 1 of LAN 42200 43399 Module Power Data index 2 of LAN 43400 44599 Module Power Data index 3 of LAN 44600 45799 Module Power Data index a of LAN 45800 46999 Module Power Data i
22. 300734 Floating Point Electricity 15 30 60 mins SA 300736 Actual Demand 15 30 60 mins SA 300738 Forecast Demand Max Demand SA 300740 Hourly Max Demand SA 300742 Daily 2 2 2 2 oN En x Max D d ax Deman Q SA 300744 2 Float Floating Point 9 Monthly as Daily Accumulated SR SA 300746 2 Float Floating Point Electricity Monthly Accumulated SA 300748 2 Float Floating Point Electricity Yearly 2 Float Float Floating Point Float Floating Point Float Floating Point Float Accumulated SA 300750 Floating Point Electricity 15 30 60 mins SA 300752 Actual Demand 15 30 60 mins SA 300754 Forecast Demand Max Demand SA 300756 Hourly Max Demand 2 2 2 O ON a S lt x qe fb SA 300758 2 Daily Floating Point 236 ICP DAS PMC 5151 User Manual Max Demand SA 300760 Monthly Daily Accumulated SA 300762 Electricity Monthly Accumulated 2 Float Floating Point Float Floating Point Floating Point 2 SA 300764 2 Electricity Yearly SA 300766 Accumulated 2 Floating Point gs p_i Electricity Submeter 4 15 30 60 mins SA 300768 Actual Demand 15 30 60 mins SA 300770 Forecast Demand Max Demand SA 300772 Hourly Max Demand SA 300774 Daily 2 Float Floating Point 2 Float Floating Point 2
23. The settings steps are as below 11 11 Select the number of the Internal Register from the dropdown list input Name and Initial Value and then click to add new Internal Register Please Note there are up to 48 Internal Register can be enabled if the name of the register is not inputted the name will be automatically set as Internal Register 1s the number of the register the default initial value will be set as 0 To modify the settings of a pre set internal register please click on the radio button in front of the register and then click on Setting to modify the settings Internal Register Internal Register 5 Setting rc No 5 Nickname Internal Register 5 Description Initial Value 0 Figure9 29 Internal Register setting page 2 111 To copy the settings of a pre set internal register to the new internal 1V register please click the radio button in front of the pre set internal register and then click Copy a new internal register in sequence will be added to the list and the settings of the old internal register will be copied to this newly added internal register To remove a pre set internal register please click the radio button in front of the pre set internal register and then click Remove 151 ICP DAS PMC 5151 User Manual v After you finish all the Internal Registers selections and settings click Save button to save t
24. V l CT1 112 695 30 302 CT2 108 378 24 046 Other Information Polling Time Information Modbus Table Information UID Information Data Classific ation2 Data Classific ation3 kW 3 187 2 393 PM 3114 V 107 580 107 580 107 146 107 146 Figure5 1 Information display options on Main Page 5 1 Power Meter Information Power Meter Information page displays detailed power data information including Power Meter Information Overview and Power Meter Statistics Information Overview 5 1 1 Power Meter Information Overview After getting into this page the system will display real time power information of the selected power meter To display desired power meter data information select the power meter from the dropdown list of the Power Meter List The page refreshes every 20 seconds the user could also click Refresh button to refresh the data immediately Power Meter Information Overview includes the following sections 14 ICP DAS PMC 5151 User Manual Overview Statistics Overview No COM Port Power Meter Attribute COM2 Real Time Information 1 Address Other I O Module Name PM 3133 Phase A Phase B Phase C Total Average V 108 989 106 592 109 641 108 407 10 299 8 665 12 551 10 505 kW 1 030 0 889 1 267 3 189 kvar 0 446 0 252 0 538 1 226 kVA 1 123 0 924 1 376 3 416 FF 0 918 0 962 0 921 0 933 Real Time Information 2 s Reset Phase A Phase B Phase C Total Av
25. _ SA 300098 2 Electricity 2 2 2 2 2 2 2 2 2 2 2 2 2 Float Float Float Float Float Float Float Float Float Float Float Float Float Float Float Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point 214 ICP DAS PMC 5151 User Manual Max Demand SA 300128 2 Monthly Daily Accumulated o SA 300130 2 Float Floating Point Electricity Monthly Accumulated SA 300132 2 Float Floating Point Electricity Float Floating Point Yearly Accumulated SA 300134 2 Float Floating Point Electricity 3x Input Register Unit Register 16 Bits VTHD SA 300136 Float ITHD SA 300138 Float 3x Input Register Unit Register 16 Bits PM_SA 300000 Int16 PM_SA 300001 PM_SA 300002 PM_SA 300003 BCD PM_SA 300004 Uint16 Floating Point Floating Point 3133 Reserved Power Meter Type Reserved Reserved OxO100 1 247 Initializing Error Code PM_SA 300005 l UIntl6 O Failed Reserved Firmware Version Address NetID 1 Success IPI PM_SA 300006 Intl6 0 255 IP2 PM_SA 300007 Intl6 0 255 IP3 PM_SA 300008 Intl6 0 255 md 0 255 1 65535 Reserved 0 01 655 35 1
26. ftp icpdas com pub cd 8000cd napdos driver dcon_utility 258 ICP DAS PMC 5151 User Manual _ L ftp icpdas com pub c x e gt CD http ftp icpdas com pub cd 8000cd napdos driver dcon_utility ftp icpdas com pub cd 8000cd napdos driver dcon_utility To Parent Director 6 27 2013 6 27 2013 6 27 2013 6 27 2013 6 27 2013 6 27 2013 6 27 2013 6 27 2013 6 27 2013 6 27 2013 3 Start the DCON Utility and verify if the COM Port parameters are accurate 4 Perform Search to find all M 7000 modules that are connected to the PC peb peb ped jab jed HR pad lt dir gt config 820014 dcon utility module support list htm 670104 dcon utility revision history enq pdf 36075 Ole os ee EEE Le odf 3869709 SX LE A SP ee E lt dir gt manual lt dir gt old 1849 releasenote txt lt dir gt setup 8 Select the COM Port and Baud Rate es COM to search Time Out Setting coms 300 ms Baud Rate Option 921600 pM 460800 7 230400 115200 M 57600 p 38400 19200 fv 9600 r 4800 M 2400 M 1200 Select All Clear All PDS PPDS 700 CS N lity_version 524 stop searching le COM Port Search fun Terminai _module Address Baudrate checks Searching Status COM Port 259 ICP DAS PMC 5151 User Manual 9600 Disable N 8 1 Searching Status COM Port COM 3 Address 01 dec 1 hex Baudrate 0 5 Click o
27. the Total Average value of the kW from module PM 2133 2 on COM2 and value of Internal Register 1 to the command sender Taking the second SMS Command on the list as an example when user send SMS message AO to PMC 5151 PMC 5151 will set the value of AOO on XW310C XW Board to be 2 3 after receiving the message Taking the third SMS Command on the list as an example when user send SMS message DO to PMC 5151 PMC 5151 will set 137 ICP DAS PMC 5151 User Manual the value of DOO on XW310C XW Board to be ON after receiving the message ix To modify the settings of a pre set SMS Command please click on the radio button in front of the SMS Command and then click on Setting to modify the settings x To copy the settings of a pre set SMS Command to the new SMS Command please click the radio button in front of the pre set SMS Command and then click Copy a new SMS Command will be added to the list and the settings of the old SMS Command will be copied to this newly added SMS Command x1 To remove a pre set SMS Command please click the radio button in front of the pre set SMS Command and then click Remove After you finish all the SMS Command selections and settings click Save button to save the settings 138 ICP DAS PMC 5151 User Manual 9 3 SNMP Trap Setting SNMP Trap function allows PMC 5151 to initiative sending of the system data power meter data and IO channel data to the SNMP Mana
28. to transform the Input Register value in this block by linear transformation The formula is as follow Transformed Value Scale Ratio x Input Register value Offset After the linear transformation the Transformed Value will be saved in floating point format on the PMC 5151 no matter what format the raw Input Register value was in the device The default Scale Ratio will be 1 and the default Offset is O indicating not using linear transformation For more information about Deadband setting please refer to 7 2 3 XW Board AI Channel Settings Click OK for modification or click Remove to remove the setting OK Remove Data Address 10 Data Number 3 Type 32 bit Floating Point Inverse Big Endian Data Adjustment Scale Ratio D 1 Offset 0 Deadband 0 109 ICP DAS PMC 5151 User Manual If the user wants to assign a Nickname for the address blocks the user can click on the Nickname Setting tab and then input the Nickname for each address block The Nickname will be shown in the I O Information and Rule Setting pages Modbus Mapping Table Address Setting Nickname Setting Local Coil Output Discrete Input Input Register Holding Register Address Ox 1x 3x 4x 300 Data Address 0010 Nickname 301 Unit 302 Data Address 0012 Nickname 303 Unit 304 Data Address 0014 Nickname 305 Unit After all Inp
29. 0 Figure7 21 XW Board AI attribute setting page The settings are as follow Nickname For user to define nicknames for each I O channel this nickname will be displayed on the I O Information and Rule Setting pages Type Select the input signal type of the AI channel from the dropdown list Scale In the Scale field AI channel raw data can be set to operate with linear proportion between MIN and MAX values 86 ICP DAS PMC 5151 User Manual The IF Condition will use this already adjusted value in the evaluation operation and the AI value retrieved from the I O Information page or Modbus Table via PMC 5151 would be the adjusted value The default value for MAX and MIN is Q it means the Scale function is disabled Deadband In order to avoid signal oscillation that may result in instability to the measurement of the AI channel value or system operations the user can set up a Deadband value for the AI channel to reduce the oscillation effect to the channel value The detailed description of Deadband operation is as below There are three operation styles for AI Deadband The AI Channel setting in following examples is OmA 20mA a In the IF Condition when AI gt or gt a numerical value Assuming the Deadband value is set to be 2 mA and the following statements are defined in the related logic Rule IF Al gt l10mA THEN DO ON ELSE DO OFF that means when AI receives
30. 15 30 60 mins SA 300122 Forecast Demand Max Demand SA 300124 Hourly Max Demand SA 300126 Daily Max Demand lt a SA 300128 Q Monthly Daily Accumulated Z 2 2 2 2 SA 300130 2 Electricity Monthly Accumulated SA 300132 2 Floating Point Electricity Yearly 2 SA 300134 Float Floating Point Accumulated Electricity 3x Input Register Unit Register 16 Bits PM_SA 300000 PM_SA 300001 PM_SA 300002 PM_SA 300003 PM_SA 300004 Intl6 2134 Initializing UIntl6 O Failed Power Meter Type Reserved Reserved Firmware Version Address Error Code PM_SA 300005 1 1 Success PM_SA 300011 PM_SA 300012 PM_SA 300014 md Float 0 01 655 35 Float 1 65535 Reserved PT Ratio CTRatio 211 ICP DAS PMC 5151 User Manual PM 3133 PM 3133 MTCP Modbus Data Parameter Name Length Range Address Type Ox Coils Output Unit Coil 8 Bits DO Ch 0 SA 000000 0 OFF 1 ON DO Ch 1 SA 000001 0 OFF 1 ON 4x Holding Register Unit Register 16 Bits 0 Disable 1 Phase A Harmonic Selector SA 400000 1 Ulnt16 2 Phase B 3 Phase C 3x Input Register Unit Register 16 Bits 212 Phase A D Phase Phase C ICP DAS PMC 5151 User Manual elie oO ON a gt lt a H 15 30 60 mins l SA 300072 2 Float Floating Point Actual Deman
31. 2 2 XW Board DO Channel Settings The XW Board DO Channel Setting page is shown as follow using XW 107 as an example 84 ICP DAS PMC 5151 User Manual Module XW107 Setting Nickname Description DI Attribute DO Attribute Channel Ch 0 Nickname Power On Value Advanced Function OFF M Disable wi OFF Disable v OFF Disable M OFF M Disable v Ys OFF M Disable v OFF M Disable v f OFF M Disable v OFF M Disable v Figure7 20 XW Board DO attribute setting page The settings are as follow Nickname For user to define nicknames for each I O channel this nickname will be displayed on the I O Information and Rule Setting pages Power On Value Specify the initial status to be ON or to be OFF when PMC 5151 power on Select the value from the dropdown list of Power On Value field The default value is OFF PMC S151 provides 3 advanced functions select the function from the dropdown list Pulse Output If the Pulse Output is selected it will allow this DO channel to perform pulse output and form a periodic pulse cycle In Pulse Output mode the selected DO channel will generate a square wave according to specified parameters Pulse High and Pulse Low Pulse High indicates the ON time duration and Pulse Low indicates the OFF time duration in a periodic Pulse cycle The unit is 100ms Auto OFF When Auto OFF is s
32. 201 4 8 20 Date Inquiry Figure5 25 Electricity Usage Analysis of Time Function Type The user can select one of the following three options for electricity analysis Electricity Usage Analysis of Trend Electricity Usage Analysis of Time and Electricity Usage Analysis of Proportion Select Loop Phase All power meters connected to the PMC 5151 will be listed If no power meter is connected the user couldn t perform inquiry operation Data Classification includes V voltage I current PF power factor Electricity Usage K Wh and Maximum Demand Chart Type Provides Yearly Chart Quarterly Chart and Monthly Chart Date Select the date range to be queried the system will provide the date range can be queried Click on Inquiry button to display the Electricity Usage Analysis of Time for the specified date range If the selected date does not contain the file or exceeds the date of the file storage range a message No file exists will be displayed The Electricity Usage Analysis of Time will be displayed in the lower region in histogram chart Move the mouse cursor close to the histogram chart the value will be displayed 34 ICP DAS PMC 5151 User Manual Statistic Chart Electricity Usage Analysis of Time Electricity Usage kWh PM 2134 Loop 1 M2010 DM 2011 MB 2012 2073 Figure5 26 Time Histogram Chart for PM 3114 Loop 1 35 ICP DAS PMC 5151 User Manual 5 6 3 Electr
33. 3114 Loop Name Loop 1 Loop 1 Loop 2 Loop 3 Loop 4 Add Loops Phases for Subgroup Loop Name Loop 1 Y Loop 1 Loop 2 Loop 3 Loop 4 Move Down Remove Move Up Figure6 31 Configurations for Loops Phased of Subgroup The loop phase of subgroup configurations can be done on the Power Meter Loop Setting page Please select the loop phase first and click on the function button to perform the configurations Move Up Click the radio button in front of the loop phase name and click on Move Up to move the loop phase to upper order upper index number No Move Down Click the radio button in front of the loop phase and click on Move Down to move the loop phase to lower order lower index number No Remove Click the radio button in front of the loop phase and click on Remove to remove the selected loop phase Close Click the Close button to return to group setting page 67 ICP DAS PMC 5151 User Manual 6 9 Firmware Update PMC 515lallows to update firmware via browser after the update is completed the PMC 5151 doesn t require to reboot Please follow the steps below 1 Please contact ICP DAS service to obtain the latest version of the PMC 5151 firmware file ii Go to System Setting page under the Firmware Update Setting click on Browse System Setting Page Time Setting I O Interface Setting Date amp Time COM1
34. 60 mins N SA 300088 Float Floating Point E Actual Demand Q 15 30 60 mins SA 300090 2 Floating Point 219 2 2 2 2 2 2 2 2 ICP DAS PMC 5151 User Manual Forecast Demand Max Demand SA 300092 2 Float Floating Point Hourly Max Demand SA 300094 2 Float Floating Point Daily Max Demand SA 300096 2 Float Floating Point Monthly Daily Accumulated _ SA 300098 2 Float Floating Point Electricity Monthly Accumulated SA 300100 2 Float Floating Point Electricity Yearly SA 300102 2 Accumulated Float Floating Point Electricity 15 30 60 mins SA 300104 Actual Demand 15 30 60 mins SA 300106 Forecast Demand Max Demand SA 300108 Hourly Max Demand SA 300110 Daily m Max Demand pm SA 300112 Q Monthly Daily Accumulated 2 Float Floating Point 2 Float Floating Point 2 Float Floating Point 2 Float Floating Point 2 Float Floating Point SA 300114 2 Float Floating Point Electricity Monthly Accumulated SA 300116 2 Float Floating Point Electricity Yearly SA 300118 2 Accumulated Float Floating Point Electricity 15 30 60 mins SA 300120 Actual Demand 15 30 60 mins SA 300122 Forecast Demand 2 Float Floating Point CT4 2 Float Floating Point 220 ICP DAS PMC 5151 User Manual Max Demand SA 300124 Hourly Max Demand SA 300126 2 Float Daily 2 Floa
35. DO ON ELSE DO OFF that means when AI receives a signal between 8mA 9mA minus the deadband value ImA and 10mA 9mA plus the deadband value ImA the DO channel will change to ON immediately However when the AI channel value exceed 10mA or is lower than 8mA the DO channel will change to OFF as shown in the following figure IF Al 9mA THEN DO ON ELSE DO OFF 10mA 9mA 8mA lt DO OFF DO DO OFF DO ON lt DO OFF Figure7 24 AI Deadband Operation a numerical value 88 ICP DAS PMC 5151 User Manual After all settings of the channels are completed click OK button to return to XW Board Setting page Please Note XW 310C supports two AI type Differential and Single ended When the Differential is selected the number of the AI channels will be 4 and when the Single ended is selected the number of the AI channels will be 8 To complete the settings in addition to specifying the AI type on the PMC 5151 web page it also required to adjust the jumper on the XW310C for more detailed information about jumper adjustment on XW310C please refer to Appendix 5 7 2 4 XW Board AO Channel Settings The XW Board AO Channel Setting page is shown as follow using XW304 as an example Module XW 304 Setting Nickname Description DI Attribute DO Attribute AI Attribute AO Attribute Channel Nickname Type Power On Value Ch 0 5V 5V 0 Figure7 25 XW Board AO attribute setting page Th
36. Daily 2 Float Floating Point 2 Float Floating Point 2 Float Floating Point Phase B CT14 SA 300854 2 Float Floating Point 239 ICP DAS PMC 5151 User Manual Max Demand SA 300856 Monthly Daily Accumulated 2 Float Floating Point Float Floating Point Float SA 300858 2 Electricity Monthly Accumulated SA 300860 2 Floating Point Electricity Yearly 2 SA 300862 Float Accumulated Floating Point Electricity 15 30 60 mins SA 300864 Actual Demand 15 30 60 mins SA 300866 Forecast Demand Max Demand SA 300868 Hourly Max Demand Ta SA 300870 E Daily Max Demand O SA 300872 2 Float Floating Point Monthly Daily Accumulated a ou SA 300874 2 Float Floating Point Electricity 2 2 2 2 Monthly Accumulated SA 300876 2 Float Floating Point Electricity Yearly SA 300878 2 Float Float Floating Point Float Floating Point Float Floating Point Float Accumulated Floating Point Electricity 15 30 60 mins SA 300880 Actual Demand 15 30 60 mins SA 300882 Forecast Demand Max Demand SA 300884 Hourly Max Demand 2 2 2 O ON a S lt x qe fb SA 300886 2 Daily Floating Point 240 ICP DAS PMC 5151 User Manual Max Demand SA 300888 Monthly Daily Accumulated SA 300890 Electricity Monthly Accumulated 2
37. Float Floating Point Float Floating Point Floating Point 2 SA 300892 2 Electricity Yearly SA 300894 Accumulated 2 Floating Point p_i S ee Electricity Submeter 6 15 30 60 mins SA 300896 Actual Demand 15 30 60 mins SA 300898 Forecast Demand Max Demand SA 300900 Hourly Max Demand SA 300902 Daily 2 Float Floating Point 2 Float Floating Point 2 Float Floating Point 2 Float Floating Point be Q Max Demand lt SA 300904 2 Float Floating Point D Monthly Daily Accumulated po _ SA 300906 2 Float Floating Point Electricity Monthly Accumulated SA 300908 2 Float Floating Point Electricity Yearly Accumulated SA 300910 2 Float Floating Point Electricity 15 30 60 mins SA 300912 Actual Demand 15 30 60 mins SA 300914 Forecast Demand Max Demand SA 300916 Hourly Max Demand Daily 2 Float Floating Point 2 Float Floating Point 2 Float Floating Point Phase B CT17 SA 300918 2 Float Floating Point 241 ICP DAS PMC 5151 User Manual Max Demand SA 300920 Monthly Daily Accumulated 2 Float Floating Point Float Floating Point Float SA 300922 2 Electricity Monthly Accumulated SA 300924 2 Floating Point Electricity Yearly 2 SA 300926 Float Accumulated Floating Point Electricity 15 30 60 mins SA 300928 Actual Demand 1
38. Hex 32 bit Signed Long 32 bit Unsigned Long and 32 bit Floating Point If the 16 bit HEX option is selected it is required to setup the corresponding scale parameters for linear transformation from HEX value to real value The PMC 5151 will retrieve the HEX value and transfer it to real value in floating point format this real value could be included in the IF THEN ELSE rule for edition Modbus Mapping Table Setting Data Model Holding Register 4x LM Start Address 0 Data Number 1 Type 16 bit HEX v HEX Minimum 0000 Maximum 000 HEX Type Real Minimum 0 Maximum 0 Add If users select 32 bit Signed Long 32 bit Unsigned Long or 32 bit Floating Point the option Inverse Big Endian will appear Enable Inverse Big Endian to receive the data in big endian format correctly Type 32 bit Floating Point 7 Inverse Big Endian After finishing the Start Address Data Number and Type setting click on Add button A new Holding Register address block will be added to the Modbus address mapping table All added address blocks will be located in sequences staring from the Starting Address The address number on the first column of the Local Address indecates the local Modbus address of PMC 5151 to keep the Holding Register data Figure 7 50 shows an example about Holding Register setting for a Modbus RTU module The start
39. LAN and which index number the module 1s Connection Starting Modbus address of Starting Modbus address of port Module Power data 1 Power Meter Information 2 2 Module Power Data Calculate the value of SA The starting Modbus address of the data block of the module based on the type of the connection port and the index number SA The starting Modbus address of Module Power data 1 of the connection port Module Power Meter Index number 1 x 1200 3 Power Meter Information Calculate the value of PM_SA The starting Modbus address of basic information block of the power meter based on the type of the connection port and the index number PM_SA The starting Modbus address of Power Meter Information 2 of the connection port Power Meter Index number 1 x 50 4 Check the Modbus Address Table of each type module shown as below to calculate the real I O channel Modbus Address or real Loop or Phase power data Modbus Address with SA value for the M 7000 power meter and Modbus TCP RTU module that are connected to PMC 5151 5 Check the Modbus Address Table of each type power meter shown as below to calculate the real power meter attributes Modbus Address with PM_SA value for the power meter that are connected to PMC 5151 For example Assume there is an M 7024 module connected to the COM3 of PMC 5151 Its module index number is 3 So the SA value of the M 7024 is 21000 3 1 x 200 23400 The Modbus Addre
40. Notification PMC 5151 offers more thought out power demand management and alarm notification functions and is able to perform load shedding of the devices if required and enables real time monitoring and control of the power consumption of the devices At the same time with the Data Logger function on microSD card the PMC 5151 could real time record the power data and I O channel data and automatically sends back the data file to management center for further statistics and analysis In addition to the standard power data review page by using the Flash HMI web page editor function on PMC S5151 the users could easily design a specific power monitoring page by a few clicks on browsers PMC 5151 also offers Modbus TCP RTU Slave function that allows SCADA software or HMI devices to connect to PMC 5151 to get real time power data of the devices via Modbus TCP RTU protocol When using PMC 5151 to build a power management and monitoring system during the whole process of system development no programming is required it takes a few clicks on web page to complete all settings it 1s easy for the user to quickly view the power data of the devices and furthermore process the data for statistics and analysis The PMC 5151 is an easy to use and easy to build total solution for power management and monitoring that makes more efficient energy usage PMC 5151 features Web Based Operation No extra software tool is required all operations can be
41. PM 3112 10 4 address 43524 438 71 OK 4 Figure5 36 Event Log information display The Event Log record including the following information The PMC 5151 failed to read data of the power meter s Change the network settings on the PMC 5151 Save settings to the PMC 5151 Change the system time setting Reset accumulated power data of the power meter to 0 firmware file to the PMC 5151 is succeeded or failed The upgrade of the firmware is succeeded or failed Transfer Data Logger files to FTP server succeeded or failed When performing firmware upgrade record the transfer of the 42 ICP DAS PMC 5151 User Manual 5 10 HMI User Defiend HMI User Defined HMI will not be shown on the main page by default When you login as the administrator you can set the Flash HMI project as the default system page and then the Flash HMI page will be shown on the main page For more detailed information about HMI project edition and settings please refer to Flash HMI Tools Quick Start M Project List show LOG FullScreen lili Change Page 1 Campus Main Q 5 Q 100 WH Link Status Auditorium Mu f Music Classroom tt 16 89 M SR u 727 TAS Z 11 Lake y Science Hall 13 07 PA 721 dx A 4 y Playground n A ZI Student A nt Activity Center 13 58 F GI rd Restaurant a Basketball Court BE tology Center 4 ET a ER Volleyball Court 30 05 Cp Lars ua Ta e p Fi
42. RTU Master Module Name Nickname Address UID ICP DAS PM 4324 PM 4324 01A1BC1F1400004E_2 4324 1 ICP DAS PM 3133 PM 3133 01A1BC1F1400004E_2 3133 2 ICP DAS PM 3112 PM 3112 01A1BC1F1400004E_2 3112 3 ICP DAS PM 3114 PM 3114 01A1BC1F1400004E_2 3114 4 COM3 Modbus RTU Master LAN Modbus TCP Master Users can click Export button to export the UID information as CSV file 46 ICP DAS PMC 5151 User Manual 6 System Setting System Setting includes 6 options Time Setting Network Setting SNMP Setting Security Setting I O Interface Setting and Other Setting When you get into the System Setting page the system settings information of this PMC 5151 will be displayed as shown below System Setting Page Date 2015 03 27 Function Disable Time 09 48 04 oman DONNEES Function Modbus RTU Master Function Status Disable Baudrate 19200 bps Parity None Network Setting Stop bits 1 RD ont pps coma Function Modbus RTU Master Baudrate 19200 bps Parity None Mask 255 255 255 0 Gateway 192 168 100 254 DNS 168 95 192 1 en ee Silent Interval 100 millisecond s IP 192 168 255 2 Mask 255 255 0 0 SaaS Function Modbus TCP Master Gateway 192 168 0 1 Modbus TCP Slave DNS 8 8 8 8 Pot RE a Contract Capacity Modbus TCP Port 502 Function Status Disable Demand interval Calculation Interval Every 15 minutes Er un Function Status Enable Factor 0 612 SIVFNSEEND Onine GED 255 25
43. System Contact Here Location Your Location Here SNMP Manager List Address Read Write Trap 7 p 7 d d 192 168 100 95 Fi Figure6 8 SNMP Setting Page Please follow the steps below for the SNMP Settings i Inthe Version field select the SNMP version that you want to use Currently PMC 5151 supports SNMP V2c and V1 protocol ii In the Read Community Name field input a string for Read Community Name for SNMP function The default string is public ii In the Write Community Name field input a string for Write Community Name for SNMP function The default string is private iv In the Trap Community Name field input a string for Trap Community Name for the SNMP function The default string is public v Inthe Contact field input the Contact string vi Inthe Location field input the Location string 54 ICP DAS PMC 5151 User Manual The SNMP Manager List is a list for all SNMP Managers which will interact with the SNMP Agent of PMC 5151 Please follow the steps as below to perform the setting for SNMP Managers After all settings are completed click Save button to save the changes SNMP Manager List Address Read VVrite Trap cS o 192 168 100 95 Fi Figure6 9 SNMP Manager List 1 Set up IP Address or domain name of the SNMP Manager that you want to add Please set up the Address appropriately
44. XW310C v aa gt Channel 0 5 i Power Meter The power data of the Power Meter could be used as evaluation criteria select the power data from the dropdown list V I kW kvar kVA PF kWh kvarh kVAh Actual Demand Forecast Demand Hourly Maximum Demand Daily Maximum Demand Monthly Maximum Demand Daily Accumulated Electricity Monthly Accumulated Electricity and Yearly Accumulated Electricity 159 ICP DAS PMC 5151 User Manual And then select module and channel from the dropdown list to specify which power meter and loop or phase value will be used Al Condition Setting Module amp Channel Operator Value XW Board v XW310C gt v Channel 0 v v Click OK button to confirm the settings and return to the Rule settings page 10 1 2 Modbus Module Click on Modbus Module 4 options will appear as the following Discrete Input Coil Output Input Register and Holding Register 10 1 2 1 Discrete Input Discrete Input channel value from Modbus TCP RTU Slave module can be included in the IF condition statements the editing page for Discrete Input Condition Setting is shown as below Discrete Input Condition Setting Module amp Address VO Interface COM2 M Module Air Conditioner Control 4 v Address 0 M Status OFF M Figurel0 6 Discrete Input condition setting page Follow the steps below 1 Specify the module and address of the Modbus TCP RTU Slave module fr
45. Yearly Accumulated Electricity and Daily Monthly Yearly Carbon Emissions to default values if required 18 ICP DAS PMC 5151 User Manual 5 1 3 Other Information In the Other information page users can view or setup the PT Ratio CT Ratio Phase Sequence Wiring Mode Voltage Mode and other specific parameters of the power meter Overview Statistics Overview Other I O PT Ratio CT Ratio Phase Sequence Phase Sequence 1 Positive Wiring Mode Wiring Mode 1 Status 3P4W3CT Setting 3P4W3CT Voltage Mode Voltage Mode 1 Automatic v 5 1 4 I O Information In the I O information page the I O status of the power meter will be listed When login as the Administrator it allows click on Status to perform output operations When login as a general user it only allows to view I O status the output operation is not allowed Overview Statistics Overview Other I O DO Channel0 Channel1 D ON E ON Refresh 19 ICP DAS PMC 5151 User Manual 5 2 Power Data Information Power data information can be displayed in two modes Overview and Group Overview user can change the viewing mode according to the requirements more detailed information will be introduced in the following sections 5 2 1 Overview Power Data Information overview mode allows display of power data of different power meters at the same time Select the classification from the dropdown list of the Data Clas
46. amp Management System pmc 5151 a Main Page Figure4 3 System Function Area login as a General user Each function in system function area 1s as the flowing 4 1 1 Rules management toolbar Rules management toolbar allows user to perform different functions When login into the system as the administrator the rule management toolbar will be shown as below Ag ed Figure4 4 Rules management toolbar login as a Administrator ICP DAS PMC 5151 User Manual If login as a general user the rule management toolbar will be shown x Figure4 5 Rules management toolbar login as a General user as below The functions of the Rules management toolbar are as follow e E New button allows resetting the settings of all parameters and Rules Click on E button and click on OK the settings on PMC 5151 webpage on the browser will be cleared If the user would like to clear the setting on PMC 5151 then continue to click on Save button to save the new settings cleared settings to the PMC 5151 Please note once the settings are cleared and save to the PMC 5151 the settings will be cleared permanently Are you sure ou want to reset all settings Figure4 6 Confirm to clear settings Eh Load button allows to load all parameter settings and rule settings on PMC 5151 Click on button and click OK to load all parameter settigns and rules settings from PMC 5151 to the web page for
47. connect Modbus RTU slave devices or for Modbus RTU Slave to connect HMI or SCADA LAN LAN connection is by default set for Modbus TCP Slave to connect HMI or SCADA It can also be set for Modbus TCP Mater to connect Modbus TCP devices The following section will introduce how to set I O interface for different functions 59 ICP DAS PMC 5151 User Manual Connect to HMI or SCADA via COM Port I O Interface Setting Page COM COM2 COM3 LAN Function Baudrate bps Parity None OOdd OEven Stop bits 1O2 Figure6 18 Function setting to connect to HMI or SCADA The settings steps are as below vii In the Baudrate field select the Baudrate from the dropdown list the Baudrate of PMC 5151 and HMI or SCADA have to be set the same vili In the Parity and Stop bits fields set up the Parity and Stop bits The Parity and Stop bits of PMC 5151 and HMI or SCADA have to be set the same ix After all settings are completed click Save button to save the changes Connect to Modbus RTU slave device via COM Port I O Interface Setting Page COM COM2 COM3 LAN Function Modbus RTU Master Baudrate 19200 M bps Parity None OOdd O Even Stop bits 1O2 Silent Interval 100 milisecond s Figure6 19 Function setting to connect to Modbus RTU slave device The settings steps are as below i In the Baudrate field select the Baudrate from the dropdown list the Baudrate
48. device is down current is PM 3114 Loop 1 A Action Attribute Setting Execution gt y Frequency One Time Repeat Waiting Time 0 second s Figure10 27 SNMP Trap Action Setting Page Follow the steps below 1 11 pd 11 1V In the Trap field specify the SNMP Trap you want to execute in Action from the dropdown list Please note the SNMP Trap you select has to be the pre set SNMP Trap in the SNMP Trap Setting of Advanced Setting The selected SNMP Trap message such as Variable Bindings and message content will be displayed for you to verify if this is the SNMP Trap you want to send Select the Action Execution Frequency there are two options as One Time and Repeat for selection Please refer to 10 2 THEN ELSE Action Setting section for the description of One Time and Repeat operation Input the value in the Waiting Time field it means after the action be exectued how long the system will delay to execute the next Action The unit will be second s Click OK button to confirm the settings and return to the Rule settings page 177 ICP DAS PMC 5151 User Manual 10 2 8 Data Logger You can execute One Time Log in the Action statements to perform data recording one time only when an event is triggered The setting page is show as below Data Logger Action Setting Action One Time Log Figure10 28 Data Logger action setting page F
49. done through the Web browsers to build a power monitoring amp management solution Built in Web Server allows to set up the parameters of the power meters and view power data via browsers Power Data Display Support ICP DAS Modbus TCP RTU power meters Display real time or historical power data in data table or chart form Provides Daily and Monthly power data report Offer Flash HMI Tools for easy HMI Web interface design Power Data Log Provides real time power data log of the power meters in csv format Automatically send back power data files at scheduled time via FTP Allow to recover Data Log files when the network is resumed after temporary network disconnection ICP DAS PMC 5151 User Manual Together with PMC Data Server software it allows to import the content of the power data files into the Database system Power Demand Management and Alarm Notification With built in IF THEN ELSE logic engine that enables thought out power demand management functions Support ICP DAS XW Board M 7000 I O modules and standard Modbus RTU TCP Slave modules for real time I O control and monitoring Provides Schedule function for device operation control Provides alarm message notification function via Email or SMS for SMS message sending GIM 201 USB is required Others Support Modbus TCP RTU Slave protocol that allows seamless integration with SCADA software Offers access management for logic
50. lost or encounters any abnormal problem that you would like to reset the system to factory default please switch the Rotary Switch to specific positions to restore factory settings or to ask PMC 5151 to send the login password to the Email account of the Administrator In addition you can switch the Rotary Switch to the specific position to delete the data logger files and reset the accumulated values of the power meter which connect to PMC 5151 The following figure shows the location of the Rotary Switch of the PMC 5151 Rotary Switch E Send the login password to the Email account of the Administrator E Delete the data logger files and reset the accumulated values of the power meter Please follow the steps below to restore network settings to factory default or send the login password to the Email account of the Administrator Restore network settings to factory default 1 Power off the PMC 5151 2 Switch the Rotary Switch to position 7 3 Power on the PMC 5151 when the RUN PWR LED Indicator turns to be 251 ICP DAS PMC 5151 User Manual Orange ON state it indicates that the setting is completed LAN 192 168 255 1 LAN 192 168 255 2 255 255 0 0 192 168 0 1 8 8 8 8 4 Switch the Rotary Switch to position 0 Send the login password to the Email account of the Administrator 1 Switch the Rotary Switch to position 8 2 Connect to PMC 5151 Login webpage via Web browser Now a Forget passwo
51. meter and Figure 5 21 for the Daily Report of single phase power meter PM 2133 2013 04 15 Daily Report Time rans kWh PF _a A _b A _c A V_a v V_b v Voe KVATot kKW kvar Tot kW o0 3 429 2 835 89 0 9 283 8 781 8 523 224 429 224 006 225 050 3 156 1 102 01 3 775 3 004 90 6 9 500 9 039 8 743 224 910 224 502 225 498 3 279 0 975 02 4 484 3 034 89 1 9 724 9 251 9 016 224 016 223 666 224 656 3 340 1 054 03 4 040 3 214 92 2 10 019 9 579 9 321 224 116 223 789 224 747 3 465 0 921 04 4 351 2 764 85 4 9 125 8 686 8 345 224 284 223 963 224 935 3 094 1 108 05 3 939 2 946 88 1 9 183 8 767 8 431 224 307 223 989 224 964 3 221 0 780 06 4 191 3 195 92 3 9 785 9 381 9 090 224 029 223 706 224 687 3 416 0 840 07 4 595 3 354 93 0 10 101 9 689 9 383 222 777 222 476 223 442 3 544 0 720 08 3 826 3 741 99 8 10 293 9 985 9 694 221 961 221 888 222 791 3 761 0 163 09 4 353 4 141 100 0 11 208 10 935 10 725 222 727 222 797 223 613 4 143 0 093 10 4 486 4 296 100 0 11 603 11 327 11 127 222 359 222 413 223 230 4 287 0 071 11 4 407 4 273 100 0 11 627 11 365 11 144 222 136 222 205 222 975 4 293 0 066 12 4 584 4 505 100 0 12 210 11 896 11 542 223 254 223 028 223 907 4 507 0 044 13 5 278 5 051 100 0 13 794 13 454 13 360 219 214 219 237 220 022 5 053 0 022 14 5 316 5 211 100 0 14 306 13 854 13 893 219 212 219 278 220 039 5 234 0 027 15 5 255 5 198 100 0 14 091 13 734 13 702 220 170 220 290 221 001 5 190 0 029 16 5 381 5 270 100 0 14 206 13 981 13 845 220 339 220 472
52. or save the settings The description of these two buttons are as below Test button The system will test the VPN connection settings If the connection is failed please confirm the settings again Save button The system will save the VPN connection settings If the Function Status is Enable the system will start the VPN connection and the connection status will be shown on System Setting Page as below VPN Setting Function Status Enable VPN State Online 192 168 100 80 299 295 255 255 192 168 100 62 6 6 8 8 Figure6 6 Setting interface of VPN function Please note 1 When using VPN IP address to login the system the below functions will be disabled The network settings of LANI and LAN2 If the user wants to modify the settings of LANI or LAN please use the IP address of LAN or LAN to login the system The testing function of VPN If the user wants to test the settings of VPN connection please use the IP address of LAN1 or LAN to login the system 2 When the user is using the VPN IP address to login the system and save the VPN settings the system will logout the user and redirect the webpage to the new VPN IP address automatically If the user is not sure about the new VPN IP address please use the IP address of LANI or LAN to login the system and go to the System Setting Page to inquiry the VPN settings 52 ICP DAS PMC 5151 User Manual 3 When the VPN connection is failed due t
53. power meter indicates the NetID of the power meter and 2013 05 23 indicates the date the data is recorded The power meter information file _info txt 1s used to record the nickname of the power meter and the related information of the PMC 5151 which connect to the power meter The User Defined Data Log file is also saved under the Log file folder the data file architecture is shown as below Log Custom_01A3851F140000D3 2013 05 23 csv Custom indicates this file folder is for User Defined Data Log O1A3851F140000D3 indicates the serial number of the PMC 5151 and 2013 05 23 indicates the date the data is recorded The Event Log file is saved under the EventLog folder the data file architecture 1s shown as below EventLog Event 2013 05 23 log 20130523 indicates that the first event recorded in the Event Log file is starting from May 23 2013 122 ICP DAS PMC 5151 User Manual 8 5 The format of the Power Data Logger file The power data logger files generated are in CSV format Each line represents one record each field in the line is separated by a comma The data sequences from left to right in the line of the power data are as follows PM 2133 PM 3133 MTCP Data Logger Field Date Time Power meter ID Voltage Current kW kvar kVA PF kWh kvarh kVAh Daily tot Electricity kWh Current demand 15 30 60 mins Voltage Current kW kvar kVA PF kWh kvarh kVAh Daily tot Electricity kWh Cur
54. refer to 10 1 IF Condition THEN ELSE Action Setting More detailed information please refer to 10 2 THEN ELSE Action Save After finish all IF Condition and THEN ELSE Action setting click on Save to save the settings Please note if you make modification in Power meter setting IO module setting or in Advanced Setting after finish defining the rules it might cause unexpected error due to the changes some variables may no longer exist Therefore in case you make any modification please double check your settings and Rules definition to make sure no errors are present When user finish settings of an IF Condition or THEN ELSE Action after going back to the Rule Information Setting page a function component will be displayed under the IF Condition or THEN ELSE Action section shown as below the function component will display the settings information of the IF THEN ELSE logic rule COM M 060 3 DI Counter 0 gt 3 m The function component IF Condition THEN Action or ELSE Action provides various functions such as 154 ICP DAS PMC 5151 User Manual Setting to edit a pre set function component click on Le to get in to the setting page of the function component Copy to copy a pre set function component click on L to generate a new component with the same pre set component settings The new function component will be listed under the pre set component Remove to remove a pre set function c
55. the Modbus address mapping table All added address blocks will be located in sequences staring from the Starting Addressof the Coil Output The address number on the first column of the Local Address indecates the local Modbus address of PMC 5151 to keep the Coil Output data Figure7 44 is an example about Coil Output setting for a Modbus RTU Slave module The starting Modbus address of the Coil Output block is 00050 00000 50 it requires to set 4 103 ICP DAS PMC 5151 User Manual continuous Coil Output data in the setting So that the PMC 5151 can access the 00050 00051 00052 and 00053 Coil Output address of the module and these retrieved Coil Output data will be kept in PMC 5151 Modbus Address 00300 00301 00302 and 00303 Modbus Mapping Table Setting Data Model Coil Output Ox v Start Address 50 Data Number 4 Add Modbus Mapping Table Address Setting Nickname Setting Local Coil Output Discrete Input Input Register Holding Register Address Ox 1x 3x 4x 300 Data Address 50 301 Data Number 4 302 303 Remove all setting Expand All Collapse All Figure7 44 Coil Output Setting Example for Modbus RTU Module To modify the starting address or quantity setting please click on the setting block and input the setting Click OK for modification or click Remove to remove the setting Data Address Data Number 4 If the user wants to assign a Ni
56. the starting address of Input Register 3x on the Modbus RTU module the user would like to retrieve Data Number After finishing the Start Address setting specify the Data Number it is the number of Input Register data you 107 ICP DAS PMC 5151 User Manual would like to retrieve from the Start Address Type The system support 6 kinds of data type setting for Input Register of Modbus RTU module The 6 Data Type options are 16 bit Signed Integer 16 bit Unsigned Integer 16 bit Hex 32 bit Signed Long 32 bit Unsigned Long and 32 bit Floating Point If the 16 bit HEX option is selected it is required to setup the corresponding scale parameters for linear transformation from HEX value to real value The PMC 5151 will retrieve the HEX value and transfer it to real value in floating point format this real value could be included in the IF THEN ELSE rule for edition Modbus Mapping Table Setting Data Model Input Register 3x Start Address 0 Data Number Type 16 hit HEX v HEX Minimum 0000 Maximum 0000 HEX Type Real Minimum 0 Maximum 0 Add If users select 32 bit Signed Long 32 bit Unsigned Long or 32 bit Floating Point the option Inverse Big Endian will appear Enable Inverse Big Endian to receive the data in big endian format correctly Type 32 bit Floating Point T O Inverse Big Endian After fini
57. time zone of the PMC 5151 s location from the dropdown list In the Daylight Saving Time field enable the daylight saving time function if required After all settings are completed click Save button to save the changes 49 ICP DAS PMC 5151 User Manual 6 2 Network Setting Network Setting allows making a change to network configuration web server port or Modbus settings on the PMC 5151 The following figure illustrates the configuration interface Network Setting LAN1 gl 192 168 100 41 Mask 255 255 255 0 Gateway 192 168 100 254 DNS 8 8 8 a Network Setting LAN2 P 192 168 255 2 Mask 255 255 o 0 Gateway 192 168 0 1 DNS 8 8 8 8 Port Setting Web Server Port 80 Modbus TCP Port 502 Modbus NetID 1 Figure6 4 Network Setting Page Each time when the user enters this page it will read and display current network configuration LAN1 LAN2 and port settings from the PMC 5151 In the Network Settings section the user can modify IP Mask Gateway DNS Server IP configuration After all settings are completed click Save button to save the changes After the network configuration is completed the user could login into PMC 5151 webpage via LANI or LAN2 and is able to retrieve data via Modbus TCP In the Port Setting section
58. with PMC 5151 properly Communication Protocol has to be set as Modbus RTU 260 ICP DAS PMC 5151 User Manual Address the address has to be set between 1 64 please note the configuration of M 7000 module address on PMC 5151 has to be set exactly the same Baudrate the Baudrate has to be set the same as the Baudrate of PMC 5151 COM Port which the module will connect All M 7000 modules Baudrate have to be set the same as well Data format set to be Engineering format Please complete others setting of M 7000 module according to system s requirement For more detailed information please refer to DCON Utility manual as below http ftp 1cpdas com pub cd 8000cd napdos driver dcon_utility manual 261 ICP DAS PMC 5151 User Manual Appendix V The AI Channel setting of XW310C The XW310C provides the Differential and Single Ended operation modes for the AI channel User can switch the operation modes by change the positions of the Jumpers and Switchs of the XW310C Please refer to the figure as below for detailed information n7 n6 in4 n3 n2 inl ind om O ec Z _ D gt Vin3 Vin2 Vini JP2 EE Uy EEE Carers oe E B L i Singe ended lololol ET W g l EE Ditereni iz a e NO oe 11 M 50 nue e RE nm EES eel je res 1 20 Qu RS4 m FET CAE Pi 8 mill Je l i RG D amp ka nr it gm p 8 I MUAL
59. 00406 Floating Point SA 300408 Floating Point SA 300410 Floating Point kvarh kVAh kvarh Phase C CT18 Phase B CT17 Phase A CT16 Flu Ala lA SN Riu Ala lA nl S Flu ial A SM a gs lt gs lt lt 2 TT irr iil Il 228 ICP DAS PMC 5151 User Manual BCE TEE UT TN vA SA 300426 Floating Point SA 300428 Floating Point SA 300430 Floating Point Submeter 7 SA 300432 2 Floating Point SA 300434 2 Floating Point SA 300436 2 Floating Point SA 300438 2 Floating Point SA 300440 2 Floating Point SA 300442 2 Floating Point SA 300444 2 Floating Point SA 300446 2 Floating Point SA 300448 2 Floating Point SA 300450 2 Floating Point SA 300452 2 Floating Point SA 300454 2 Floating Point 2 2 2 2 2 2 2 2 2 2 2 2 2 ie ar E Es Es Es En Er En EN BE az Er SA 300456 2 Float Floating Point 3 2 E a Er En Es ne En Le Za Brae D D S lt kvarh kVAh SA 300458 Floating Point SA 300460 Floating Point SA 300462 Floating Point SA 300464 Floating Point SA 300466 Floating Point SA 300468 Floating Point SA 300470 Floating Point SA 300472 Floating Point SA 300474 Floating Point SA 300476 Floating Point SA 300478 Floating Point SA 300480 Floating Point SA 300482 Floating Point kvarh kVAh kvarh Phase C CT21 Phase B CT20 Phase A CT19 Flu Ala lA SN R
60. 2 Float Floating Point 27 o2 27 27 27 27 EE 2 27 27 27 7 as ANS D D S lt kvarh J x S s W kvar lt ae Ty gt W kvarh kVAh kW kvar k SA 300170 Floating Point SA 300172 Floating Point SA 300174 Floating Point SA 300176 Floating Point SA 300178 Floating Point SA 300180 Floating Point SA 300182 Floating Point SA 300184 Floating Point SA 300186 Floating Point SA 300188 Floating Point SA 300190 Floating Point SA 300192 Floating Point SA 300194 Floating Point 7 Ss Phase C CT9 Phase B CT8 Phase A CT7 ae lt gt AlolA lA Al lt kvarh kVAh kvarh 225 ICP DAS PMC 5151 User Manual ivan Sv 300096 2 Foa Fouine ron vA SA 300210 Floating Point SA 300212 Floating Point SA 300214 Floating Point Submeter 4 SA 300216 2 Floating Point SA 300218 2 Floating Point SA 300220 2 Floating Point SA 300222 2 Floating Point SA 300224 2 Floating Point SA 300226 2 Floating Point SA 300228 2 Floating Point SA 300230 2 Floating Point SA 300232 2 Floating Point SA 300234 2 Floating Point SA 300236 2 Floating Point SA 300238 2 Floating Point 2 2 2 2 2 2 2 2 2 2 2 2 2 Er ar E Es Es Es En Er En EN BE E Er SA 300240 2 Float Floating Point 3 2 2 a Er En Es ne En Le Es 7 as ANS D D S
61. 221 191 5 257 0 047 17 5 323 5 270 100 0 14 172 13 994 13 679 221 754 221 819 222 529 5 265 0 055 18 5 090 3 943 100 0 10 749 10 668 10 245 220 483 220 677 221 269 3 951 0 118 19 3 902 3 860 99 9 10 552 10 429 10 038 220 689 220 959 221 548 3 872 0 142 20 3 833 3 602 96 8 10 344 10 181 9 895 221 677 221 872 222 562 3 711 0 502 21 3 540 3 241 92 1 10 342 10 071 9 884 221 711 221 750 222 578 3 548 1 021 22 3 555 3 293 92 5 10 224 9 940 9 754 222 108 222 144 223 018 3 529 0 970 23 4 248 3 263 90 8 10 082 9 731 9 541 222 724 222 705 223 584 3 493 0 927 Daily Maximum Demand 5 381 kW Time 2013 04 15 16 41 59 Total 92 504 kWh Figure5 19 Daily Report for PM 3133 29 ICP DAS PMC 5151 User Manual Time O0 01 02 03 04 05 Ob OF O08 0s 10 Max Demanatkyy 0 804 0 795 0 800 0 803 1 512 0 903 0 805 0 802 0 797 0 804 0 805 kh 0 792 0 792 0 752 0 79 0 034 0 794 0 790 0 79 0 79 0 755 0 794 PM 3114 Loop1 2013 07 19 Daily Report PF 95 2 945 93 8 94 5 95 7 95 3 94 6 945 94 5 94 2 94 9 KA 7 500 7517 7 450 7 513 5 267 T452 T495 T492 7 502 T495 7 509 vi 111 503 111 497 111 425 111 492 111 594 111 567 111 450 111 534 111 474 111 441 111 445 Daily Maximum Demand 1 512 k Time 2013 07 19 04 57 59 Total 7 936 KWh Figure5 20 kVA Tot kW 0 636 0 536 0 533 0 535 0 92 0 534 0 536 0 536 0 8537 0 535 0 837 Daily Report for PM 3114 kvar Tot kw
62. 322 Floating Point SA 300324 Floating Point SA 300326 Floating Point SA 300328 Floating Point SA 300330 Floating Point SA 300332 Floating Point SA 300334 Floating Point SA 300336 Floating Point SA 300338 Floating Point kvarh kVAh kvarh Phase C CT15 Phase B CT14 Phase A CT13 o kel a a a nl Aala e aAa Aala a a eM w a T T lt lt 2 T irr iil Il 227 ICP DAS PMC 5151 User Manual RUE 2 Foa Foame Pon vA SA 300354 Floating Point SA 300356 Floating Point SA 300358 Floating Point Submeter 6 SA 300360 2 Floating Point SA 300362 2 Floating Point SA 300364 2 Floating Point SA 300366 2 Floating Point SA 300368 2 Floating Point SA 300370 2 Floating Point SA 300372 2 Floating Point SA 300374 2 Floating Point SA 300376 2 Floating Point SA 300378 2 Floating Point SA 300380 2 Floating Point SA 300382 2 Floating Point 2 2 2 2 2 2 2 2 2 2 2 2 2 sz ar E Es Es Es En Er En EN DE m E Er SA 300384 2 Float Floating Point _ 2 2 a Er En Es ne En Le Za Brae D D S lt kvarh kVAh SA 300386 Floating Point SA 300388 Floating Point SA 300390 Floating Point SA 300392 Floating Point SA 300394 Floating Point SA 300396 Floating Point SA 300398 Floating Point SA 300400 Floating Point SA 300402 Floating Point SA 300404 Floating Point SA 3
63. 4 00 00 08 00 00 12 00 00 16 00 00 20 00 00 Figure5 33 PUE information History 2 40 ICP DAS PMC 5151 User Manual 5 8 I O Information The I O Information page will display the real time values of the Internal Registers of the PMC 515 land the real time I O channels values of all I O modules including XW Board M 7000 Modules Modbus RTU Modules and Modbus TCP modules that are connected to the PMC 5151 If login as the Administrator it allows to modify the values of Internal Registers or output values of the DO AO channels Figure 5 35 If login as a general user they are allowed to view the values of Internal Registers and the I O channels Figure 5 36 only I O Information Options Module 1 4 x Coil Output Addr Addr 1 Addr 2 Addr 3 E orr E orr j i or n or Figure5 34 T O Information login as Administrator I O Information Options Module 1 4 Coil Output Addr 0 Addr 1 Addr 2 Addr 3 E OFF i OFF i OFF E OFF Figure5 35 I O Information login as General User The graphic indicator on the right side of the I O modules will reveal the connection status of the module the graphic indicators are as follow Online Offline Connecting 41 ICP DAS PMC 5151 User Manual 5 9 Event Log The Event Log page allows to view the list of system event logger information when login as the Administrator Time Type Content Result 20130719 15 59 24 Modbus RTL Meter read failed PM 2133
64. 5 Timer setting Page Assign Period 145 Timer setting page Internal Register cccceeeeeeeeeeeeeeeeeeeeeeeees 145 SCHCCUIC setine 0 OCs die heat at ais dd 146 Calendar mode of Schedule setting css seine 147 Repeat mode of Schedule setting ccceeeeeceeeeeeeeeeeeeeeeeeaeeaees 148 PUE Sete Pas e 1c anne ent es 149 PUP SC tune PAS ES et at eats aa cee heaccea 150 Internal Register setting page 1 cceceeeeeeeeeeeeeeeeeeeseeeeeeaeenees 151 Internal Register setting page 2 ccceceeseeeeeeeeeeeeeeeaeeeeeeaeeeees 151 Rules OVEIVIEW DAC sed aient 153 RUES SCULING DAS sn RE a a 154 DICOndition Seine Paters oaao dc tonte 156 DI Counter condition setting page 157 Al condiion S LLiNS PACE ide ae nm 158 Discrete Input condition setting page 160 Coil Output condition setting page 161 ICP DAS PMC 5151 User Manual Figure10 8 Figure 10 9 Figure10 10 Figure10 11 Figure10 12 Figure10 13 Figure10 14 Figurel0 15 Figure10 16 Figure10 17 Figurel0 18 Figure10 19 Figure 10 20 Figure1l0 21 Figure10 22 Figure10 23 Figure 10 24 Figure10 25 Figure 10 26 Figure 10 27 Figure 10 28 Figure 10 29 Figure 10 30 Input Register condition setting page 161 Holding Register condition setting page ccsceseeseeeeeeeeeeeeeeeees 162 Power Meter condition setting page Vu 163 Connection Status condition setting page 164 Timer condition setting page
65. 5 16 Historical Data Chart for power data On the upper left of the Historical Chart there are 4 function icons E amp Set the Historical Chart to be default status E amp Zoom in the Y axis of the Historical Chart E amp Zoom out the Y axis of the Historical Chart a Hide the markers on the Historical Chart Show the markers on the Historical Chart Historical Data Table Historical Data Table will display the requested historical power data the historical power data of selected classification of each loop or phase will be listed 21 ICP DAS PMC 5151 User Manual tem 2 3 4 5 a 7 5 q 10 11 4 Id 4 Date 2013 7149 2013 7149 201377149 201377149 2013171 4 2013 7149 2013 79 2013 79 2013 7419 2013 79 201371 9 Time Loop 1 Loop 2 Loop 3 Loop 4 00 10 00 111 525 111 464 111 505 111 581 00 20 00 111 401 111 537 111 443 111 497 00 30 00 111 524 111 473 111 516 111 455 00 40 00 111 265 111 566 111 657 111 547 00 50 00 111 784 111 539 111 542 111 534 01 00 00 111 521 111 656 111 388 111 363 01 10 00 111 423 111 505 111 515 111 403 01 20 00 111 669 111 433 111 519 111 562 01 30 00 111 406 111 523 111 518 111 575 01 40 00 111 437 111 536 111 488 111 525 01 50 00 111 377 111 423 111 437 111 431 ii Page 1 of 2 H Figure5 17 Historical Data Table for power data On the lower left of the Historical Data Table there are 5 function ICONS Go to the first page d Go to previous page
66. 5 255 255 OO Firmware Information L Gateway 192 168 100 62 Current Version 2 24 DONS cece Available Version Check SNMP Setting Firmware Browse Version V Update Read Community Name pubic Write Community Name private _ Trap Community Name public Security Setting Local FTP Server Enable Didi Time 10 minute s Figure6 1 System Setting Overview Page 47 ICP DAS PMC 5151 User Manual The user could view system setting information of PMC 5151 or perform firmware update on this page For firmware update operations please refer to 6 9 Firmware Update 6 1 Time Setting On the Time Setting page it allows to set the time of PMC 5151 and Time Synchronization function The setting interface is as below Time Setting Page z ANT gt sun Mon Tue ed Thu Fri Sat 2 3 4 5 B Date f E elf Ul a RES RE 14 15 MIE 17 18 RES 20 sl 22 23 2 2 2 27 23 28 ell ail Time 16 11 47 Time Duplication Load Load current time of this computer Time Synchronization Function Status JEnable Figure6 2 Time Setting Page When get into this page the system will read and display current time of the PMC 5151 To modify the system time of PMC 5151 set up the date and time on the Time Setting page section and then click save to complete the settings The user could click on Load in the Time Duplication to synchronize the system time of the computer where t
67. 5 30 60 mins SA 300930 Forecast Demand Max Demand SA 300932 Hourly Max Demand 00 SA 300934 E Daily Max Demand O SA 300936 2 Float Floating Point Monthly Daily Accumulated Ru ou SA 300938 2 Float Floating Point Electricity 2 2 2 2 Monthly Accumulated SA 300940 2 Float Floating Point Electricity Yearly SA 300942 2 Float Float Floating Point Float Floating Point Float Floating Point Float Accumulated Floating Point Electricity 15 30 60 mins SA 300944 Actual Demand 15 30 60 mins SA 300946 Forecast Demand Max Demand SA 300948 Hourly Max Demand 2 2 2 O ON a S lt x qe fb SA 300950 2 Daily Floating Point 242 ICP DAS PMC 5151 User Manual Max Demand SA 300952 Monthly Daily Accumulated SA 300954 Electricity Monthly Accumulated 2 Float Floating Point Float Floating Point Floating Point 2 SA 300956 2 Electricity Yearly SA 300958 Accumulated 2 Floating Point p_i S ee Electricity Submeter 7 15 30 60 mins SA 300960 Actual Demand 15 30 60 mins SA 300962 Forecast Demand Max Demand SA 300964 Hourly Max Demand SA 300966 Daily 2 Float Floating Point 2 Float Floating Point 2 Float Floating Point 2 2 Float Floating Point Q Max Demand l lt SA 30096
68. 51 will be list on the dropdown list of the Power Meter List if no power meter is connected the inquiry operation will not be able to perform Data Classification Data Classification allows to inquire various power data options including V Voltage I Current kW Real Power kvar Reactive Power kVA Apparent Power PF Power Factor kWh kvarh kVAh Daily Accumulated Electricity and Actual Demand Date The dates that are available for power data retrieval will be displayed Please note if no log file is available the inquiry operation will not be performed Click on Inquiry to display the power data historical statistic chart Figure 5 17 and table Figure 5 18 of the selected date range If the selected date does not contain the file or exceeds the date of the file storage range a message No file exists will be displayed The Historical Data Chart and Historical Data Table are shown as below 26 ICP DAS PMC 5151 User Manual Historical Data Chart The historical power data of specified classification will be displayed in historical chart The user could select the range on the below region or drag and move on the chart to adjust the viewing range Move the mouse cursor close to the marker the value will be displayed HAAG PM 3114 V MB Loop 1 E Loop E Loop 3 MM Loop 4 112 320 111 960 111 600 LAN 111 240 110 880 08 30 00 09 00 00 08 30 00 10 00 00 10 30 00 11 00 00 Figure
69. 5151 User Manual SA 300064 Float Floating Point Float Floating Point SA 300068 Float Floating Point kVAh SA 300070 15 30 60 mins SA 300072 Actual Demand 15 30 60 mins SA 300074 Forecast Demand Max Demand SA 300076 Hourly Max Demand SA 300078 Daily Max Demand SA 300080 Monthly Daily Accumulated Daa SA 300082 Electricity Monthly Accumulated Float Floating Point Float Floating Point 2 2 Float 2 2 2 Phase A 2 SA 300084 2 Floating Point Electricity Yearly SA 300086 2 Float Float Floating Point Accumulated Electricity 15 30 60 mins SA 300088 Actual Demand 15 30 60 mins SA 300090 Forecast Demand Max Demand SA 300092 Hourly Max Demand SA 300094 Daily Max Demand SA 300096 Monthly Daily Accumulated B SA 300098 Electricity Monthly Accumulated 2 2 2 2 2 2 SA 300100 2 Floating Point Electricity 206 ICP DAS PMC 5151 User Manual Yearly 2 Float Float SA 300102 Floating Point Accumulated Electricity 15 30 60 mins SA 300104 Actual Demand 15 30 60 mins SA 300106 Forecast Demand Max Demand SA 300108 Hourly Max Demand SA 300110 Daily Max Demand SA 300112 Monthly Daily Accumulated _ SA 300114 Electricity Monthly Accumulated 2 2 2 2 2 Phase C 2 SA 300116 2 Floating Point Electricity
70. 65535 IP4 PM_SA 300009 1 Intl6 Port Number PM_SA 300010 1 Ulntl6 PM_SA 300011 1 PM_SA 300012 2 Float PM_SA 300014 2 Float Reserved PT Ratio CT Ratio NO nd NO 215 ICP DAS PMC 5151 User Manual PM 3112 PM 3112 MTCP 2 Loops 1 Phase Modbus Data Parameter Name Length Range Address Type Ox Coils Output Unit Coil 8 Bits 3x Input Register Unit Register 16 Bits 15 30 60 mins SA 300036 2 Float Floating Point Actual Demand Q 15 30 60 mins l SA 300038 2 Float Floating Point Forecast Demand Max Demand SA 300040 2 Float Floating Point Hourly Max Demand SA 300042 2 Float Floating Point Daily Max Demand SA 300044 2 Float Floating Point Monthly Daily Accumulated SA 300046 Floating Point 216 ICP DAS PMC 5151 User Manual mey A ES EE PS Monthly Accumulated SA 300048 2 Float Floating Point Electricity Yearly Accumulated SA 300050 2 Float Floating Point Electricity 15 30 60 mins SA 300052 2 Float Floating Point Actual Demand 15 30 60 mins l l SA 300054 2 Float Floating Point Forecast Demand Max Demand l SA 300056 2 Float Floating Point Hourly Max Demand l SA 300058 2 Float Floating Point Daily Max Demand SA 300060 Float Floating Point Monthly Daily Accumulated SA 300062 Float Floating Point Electricity Monthly Float Accumulat
71. 7 52 Modbus TCP Slave Module Setting Page 2 For more detailed information about the data setting of the Coil Output Discrete Input Input Register and Holding Register of the Modbus TCP module please refer to section 7 3 6 Modbus RTU Module Setting After all settings are completed click Save button to save the changes 114 ICP DAS PMC 5151 User Manual 8 Logger Setting The Logger Setting function of the PMC 5151 provides recording of the power data from power meters and the I O channel data from I O modules It includes Power Data Logger and User Defined Data Logger The Power Data Logger is exclusive for the recording of the power data and User Defined Data Logger allows user to define his own data recording options from power data I O channel data or Internal Register data The data log files of these two data loggers are both in CSV format that enables easy intergration with the backend database system In addition PMC 5151 also provides function to set the Log File Retention Time to specify how long will the files be kept in the PMC 5151 and then the file will be automatically sent to backend FTP Server at a scheduled time The data logger setting page is shown as below Logger Setting Data Logger Setting Logger Setting Page Event Logger Setting FTP Upload Setting Power Data Logger Log File Retention Time 12 month s FTP Upload Setting FTP Upload Function Function Status Enable Remote FTP Server A
72. 8 2 Float Floating Point D Monthly Daily Accumulated po _ SA 300970 2 Float Floating Point Electricity Monthly Accumulated SA 300972 2 Float Floating Point Electricity Yearly Accumulated SA 300974 2 Float Floating Point Electricity 15 30 60 mins SA 300976 Actual Demand 15 30 60 mins SA 300978 Forecast Demand Max Demand SA 300980 Hourly Max Demand Daily 2 Float Floating Point 2 Float Floating Point 2 Float Floating Point Phase B CT20 SA 300982 2 Float Floating Point 243 ICP DAS PMC 5151 User Manual Max Demand SA 300984 Monthly Daily Accumulated SA 300986 Electricity Monthly Accumulated 2 Float Floating Point Float Floating Point Float 2 SA 300988 2 Floating Point Electricity Yearly Accumulated SA 300990 2 Float Floating Point Electricity 15 30 60 mins SA 300992 Actual Demand 15 30 60 mins SA 300994 Forecast Demand Max Demand SA 300996 Hourly Max Demand SA 300998 Daily Max Demand SA 301000 Monthly Daily Accumulated o SA 301002 Electricity Monthly Accumulated 2 Float 2 2 2 2 Phase C CT21 2 SA 301004 2 Floating Point Electricity Yearly Accumulated SA 301006 2 Float Floating Point Float Floating Point Float Floating Point Float Floating Point Float Electricity 15 30 60 mins SA 301008 Actual Dem
73. A Average daily kvar Timing of daily max kW daily max kW daily total Electricity Average daily PF Average daily current Average daily voltage Average daily kVA Average daily kvar l Timing of daily max kW daily max kW daily total Electricity Average daily PF Average daily current Average daily voltage Average daily kVA Average daily kvar Reserved Field 125 ICP DAS PMC 5151 User Manual Date Time Power meter ID Submeter 1 Timing of hourly max kW hourly max kW hourly total Electricity Average hourly PF Average hourly current Average hourly voltage Average hourly kVA Average hourly kvar Timing of hourly max kW hourly max kW hourly total Electricity Average hourly PF Average hourly current Average hourly voltage Average hourly kVA Average hourly kvar Timing of hourly max kW hourly max kW hourly total Electricity Average hourly PF Average hourly current Average hourly voltage Average hourly kVA Average hourly kvar Average Total Timing of hourly max kW hourly max kW hourly total Electricity Average hourly PF Average hourly current Average hourly voltage Total hourly kVA Total hourly kvar Timing of hourly max kW hourly max kW hourly total Electricity Average hourly PF Average hourly current Average hourly voltage Average hourly kVA Average hourly kvar Timing of hourly max kW hourly max kW hourly total Electricity Average hourly PF Average hourly current Av
74. AS PMC 5151 User Manual Max Demand SA 301048 Monthly Daily Accumulated SA 301050 Electricity Monthly Accumulated 2 Float Floating Point Float Floating Point Float 2 SA 301052 2 Floating Point Electricity Yearly Accumulated SA 301054 2 Float Floating Point Electricity 15 30 60 mins SA 301056 Actual Demand 15 30 60 mins SA 301058 Forecast Demand Max Demand SA 301060 Hourly Max Demand SA 301062 Daily Max Demand SA 301064 Monthly Daily Accumulated o SA 301066 Electricity Monthly Accumulated 2 Float 2 2 2 2 Phase C CT24 2 SA 301068 2 Floating Point Electricity Yearly Accumulated SA 301070 2 Float Floating Point Float Floating Point Float Floating Point Float Floating Point Float Electricity 15 30 60 mins SA 301072 Actual Demand 15 30 60 mins SA 301074 Forecast Demand Max Demand SA 301076 Hourly Max Demand 2 2 2 O ON a S lt x qe fb SA 301078 2 Daily Floating Point 246 ICP DAS PMC 5151 User Manual Max Demand SA 301080 2 Float Monthly Daily Accumulated o SA 301082 2 Float Floating Point Electricity Monthly Accumulated SA 301084 2 Float Floating Point Electricity Floating Point Yearly Accumulated SA 301086 2 Float Floating Point Electricity 3x Input Register Unit Register 16 Bit
75. CP DAS PMC 5151 User Manual 7 1 1 Scan to add Modbus RTU Power Meters Perform Scan to automatically build a list of Modbus RTU power meters that are connected to the PMC 5151 The steps are as below 1 Before performing the scan of the power metters please make sure the RS 485 wirings connecting to the PMC 5151 and the power meters function well and make sure the settings of the addresses of the power meters are completed u Click A to start the scan of Modbus RTU power meters that are connected to the PMC 5151 Power Meter List Modbus RTU COM2 COM3 LAN No Address Power Meter Nickname iy ha Search id No power meter exists press this button to create one Figure7 3 The Scan button to search Power Meter 111 When the Scan page appears Figure 7 4 input the starting address and the ending address of the Modbus address that are going to perform scan Click on Scan the system will start to scan the power meters that match the settings previously set to cancel the scan click on Cancel Q Set the address range to scan Scan address from to 16 This process will take several seconds tt depends on the address range that you set CO Port COM Parity Mone Baudrate 19200bps Stop bits 1 Figure7 4 Set up the Scanning Range for the Power Meters iv When the system is performing the scan Figure 7 5 the address that are performing scan will be dynamically shown on t
76. Classification3 Historical Chart Historical Data Report Historical Electricity Analysis PUE Information Power Meters IO ati I O Information PM 3114 PM 3133 Event Log V V 112 313 Phase A 111 972 112 313 Phase B 107 468 Modbus Table Information 111 077 Phase C 111 628 UID Information 111 077 Total A 110 356 Other Information Polling Time Information Refresh ICP DAS Co Ltd All Rights Reserved Figure4 1 PMC 5151 Main Page PMC 5151 main page could be divided into 3 areas A System function area B Sub function area C Data review System setting area More detailed information for each area will be given in the following section ICP DAS PMC 5151 User Manual 4 1 System function area System function area provides immediately access to the main functions of PMC 5151 such as system settings system real time information display rule files management etc shown as below 16916 MB APM 3112 is not connected Figure4 2 System Function Area login as a Administrator System function area includes the following areas A1 Rules management toolbar A2 Real time information area A3 System function toolbar When login as a general user the setting functions in Rules management toolbar and System function toolbar will be locked and only allows viewing the power meter data the I O module data and Real time system information The interface is shown as below NS Power Monitor
77. Data review System setting Ted iteb seen 11 IV tii T E E E T E TAE E E T E 14 5 1 Power Meter Information asser mes aa aa 14 Jll Power Meter Information Overview 14 31 2 Power Meter Statistics Information Overview 18 5 1 3 Other TT ONT a OMe Sense mn eine 19 5 1 4 POMTO MAO ane ere sera assaut ES 19 5 2 Power Data MOMA Oi ett a ne de aTa 20 5 2 1 OTE Mie Wei ieee aceasta aca ot eum ee ee create aenstey 20 5 22 CroD OVVIE NI A de ds a en te 21 53 Readme Chail a ane es co a ee OR at tee on 22 3 9 Power Meter Mode i 2ccctdcducsatsrtessateudwatetmududtatsadueaatondmntatsadeds 22 312 CHOUDIMOUE En ei 24 5 4 SOC L MAR En Re de ee 26 DD AStoncal Data R PONSE es cine crosse renier en 28 2 60 Mistorncal Electric iy Amal VSiS sente seen tenant ess 31 5 6 1 Electricity Usage Analysis of Trend 31 5 6 2 Electricity Usage Analysis of Time 33 5 6 3 Electricity Usage Analysis of Proportion ccceccseeeeeeeeenees 36 5 7 PUE MOa UON a de tte ne den de ne tete eii 39 del Reak D0 ate er ee ae 39 2 BURR Beene Mee eee eee mere ae a eee 39 5 8 FO TO TAO Moser ER 41 TCIM OS Siar A des 42 5 10 EME User Detiend ENT tasses tousse 43 IHU Polline Time ID O MAO RE ni ni iii nenties 44 ICP DAS PMC 5151 User Manual 5 12 Modbus Table Information sereme 45 SS OS Ghee cents 1ike o emt mpeman ce men a meen enn nt Renost Rennie Reet rtncrnt na
78. Date 2014 11 07 Function Disable Time 10 42 38 COM2 Time Synchronization Function Modbus RTU Master Function Status Enable Baudrate 19200 bps Sync Interval 6 hours Parity None Time Zone GMT 08 00 Stop bits 1 Daylight Saving Time Disable Silent Interval 100 millisecond s COM3 Network Setting Function Modbus RTU Master Baudrate 19200 bps LAN1 Pari None IP 192 168 100 38 e Mask 255 255 255 0 Gateway 192 168 100 254 LAN 8 8 8 8 Function Modbus TCP Master LAN2 Modbus TCP Slave IP 192 168 255 2 Mask 255 255 0 0 Other Setting Gateway 192 168 0 1 Contract Capacity DNS 8 8 8 8 Function Status Disable Port Demand Interval Web Server Port 80 Calculation Interval Every 15 minutes Modbus TCP Port 502 odbus o Carbon Footprint Modbus NetID 1 Factor 0 612 Stop bits 1 Silent Interval 100 millisecond s CLEE pro Version V2c Firmware Information ity Name bli Read Community puosc Current Version 2 1 2 Write Community Name private E Available Version Check Trap Community Name public Firmware Update Firmware Browse Security Setting Update Local FTP Server Enable Idle Time 10 minute s Figure6 32 Firmware Update 1 68 ICP DAS PMC 5151 User Manual iii Browse through to select the new firmware file and click Open T Firmware v Search Organize New folder vu Date modified Type BB Desktop L PMC 5151 Firmware v2 1 0 hex 8 20 2014 5 16PM HEXFile Rec
79. E 69 Firmware Update 2 ssaessavesaneuasvoavenevevassmavesavewervoovimavemetsverearaarse 69 Pei Wake OMe DE nie ea EENE 69 Firnwar Update as Ana 70 Firmware Update 6 ss ss n a ti en er ci 70 Meter Module Setting Page ccceeceeeneeneeeeeeeeeeeseeseeseeseeeeeeaes 71 Power Meter Settin Page iicsctcctvecotiutensotvedwcantdadscatdcdaisaldeteeatsoaeus 72 The Scan button to search Power Meter 13 Set up the Scanning Range for the Power Meters 13 Scanno the Power Melel Eine dirais mins urosesrs trois eue 74 The Power Meter List after Scan operation cccceceeeeeeeeeeeeeeees 74 Select the actual Power Meter connected to PMC 5151 74 Set up the No and Address of the power meter sceeeeeeeeeeeees 9 Select Modbus RTU Power Meter model 15 Add the Modbus RTU Power Meter mannually c cceeeeeeeees 76 Add Modbus TCP Power Meter 76 Select Modbus TCP Power Meter model 76 Add the Modbus TCP Power Meter mannually 17 Power Meter Estienne eee as 17 PMS Seine PASS nn dd rende dre nun 78 PMS Stun PAR ni ins 80 ICP DAS PMC 5151 User Manual Figure7 17 Figure7 18 Figure7 19 Figure7 20 Figure7 21 Figure7 22 Figure7 23 Figure7 24 Figure7 25 Figure7 26 Figure7 27 Figure7 28 Figure7 29 Figure7 30 Figure7 31 Figure7 32 Figure7 33 Figure7 34 Figure7 35 Figure7 36 Fig
80. Float Floating Point 2 Float Floating Point Q Max Demand l lt SA 300776 2 Float Floating Point D Monthly Daily Accumulated po _ SA 300778 2 Float Floating Point Electricity Monthly Accumulated SA 300780 2 Float Floating Point Electricity Yearly SA 300782 2 Accumulated Float Floating Point Electricity 15 30 60 mins SA 300784 Actual Demand 15 30 60 mins SA 300786 Forecast Demand Max Demand SA 300788 Hourly Max Demand Daily 2 Float Floating Point 2 Float Floating Point 2 Float Floating Point Phase B CT11 SA 300790 2 Float Floating Point 237 ICP DAS PMC 5151 User Manual Max Demand SA 300792 Monthly Daily Accumulated 2 Float Floating Point Float Floating Point Float SA 300794 2 Electricity Monthly Accumulated 2 SA 300796 Floating Point Electricity Yearly SA 300798 2 Float Accumulated Floating Point Electricity 15 30 60 mins SA 300800 Actual Demand 15 30 60 mins SA 300802 Forecast Demand Max Demand SA 300804 Hourly Max Demand SA 300806 Daily 2 2 2 a 2 H Q Max Demand O SA 300808 2 Float Floating Point Monthly Daily Accumulated a au SA 300810 2 Float Floating Point Electricity Monthly Accumulated SA 300812 2 Float Floating Point Electricity Yearly SA 300814 2 Float
81. Float Floating Point Float Floating Point Float Floating Point Float Accumulated Floating Point Electricity 15 30 60 mins SA 300816 Actual Demand 15 30 60 mins SA 300818 Forecast Demand Max Demand Hourly 2 2 SA 300820 2 D D S lt fb Max Demand SA 300822 2 Daily Floating Point 238 ICP DAS PMC 5151 User Manual Max Demand SA 300824 Monthly Daily Accumulated SA 300826 Electricity Monthly Accumulated 2 Float Floating Point Float Floating Point Floating Point 2 SA 300828 2 Electricity Yearly Accumulated SA 300830 2 Floating Point gs p_i Electricity Submeter 5 15 30 60 mins SA 300832 Actual Demand 15 30 60 mins SA 300834 Forecast Demand Max Demand SA 300836 Hourly Max Demand SA 300838 Daily 2 Float Floating Point 2 Float Floating Point 2 Float Floating Point cn 2 Float Floating Point be Q Max Demand l lt SA 300840 2 Float Floating Point D Monthly Daily Accumulated _ SA 300842 2 Float Floating Point Electricity Monthly Accumulated SA 300844 2 Float Floating Point Electricity Yearly SA 300846 2 Accumulated Float Floating Point Electricity 15 30 60 mins SA 300848 Actual Demand 15 30 60 mins SA 300850 Forecast Demand Max Demand SA 300852 Hourly Max Demand
82. ICP DAS PMC 5151 User Manual Version 3 0 2 4 ICP DAS CO LTD O REFA A RA 5 ICP DAS PMC 5151 User Manual Warning ICP DAS Inc LTD assumes no liability for damages consequent to the use of this product ICP DAS Inc LTD reserves the right to change this manual at any time without notice The information furnished by ICP DAS Inc is believed to be accurate and reliable However no responsibility is assumed by ICP DAS Inc LTD for its use or for any infringements of patents or other rights of third parties resulting from its USE Copyright and Trademark Information Copyright 2013 by ICP DAS Inc LTD All rights reserved worldwide Trademark of Other Companies The names used for identification only maybe registered trademarks of their respective companies License The user can use modify and backup this software on a single machine The user may not reproduce transfer or distribute this software or any copy in whole or in part ICP DAS PMC 5151 User Manual e WO N e Table of Contents PMC 5151 Introduction cos csctnevecccencctaccnnsrkcavunieencranscbacoucieteereusrtancenaekesouneetdace 1 Penre m aO a 4 Sy Cite a Boyer a eer errr not 5 System Main P ABC cnrs can due E P A anse line tel nine anne 6 4 1 System PUNCUION AIC de dires et in rs si 7 4 1 1 Rules management toolbar 7 4 1 2 Real time information area ss 10 4 1 3 System function toolbar 10 4 2 SUD HTC HO ARE ee E D cee 11 4 3
83. ICP DAS PMC 5151 User Manual 9 2 xiii Enter the content in the Content section In addition it provides encoded strings for users to add current I O channel value power data or Internal Register value into the Email content To make it easy to add the encoded string PMC provides Real time variable editor Please refer to 8 1 Data Logger Setting for more detailed information of the Real time variable editor xiv Click on OK to confirm the setting and leave the setting page xv Repeat steps i xv to complete settings of all Emails To modify the settings of a pre set Email please click on the radio button in front of the Email and then click on Setting to modify the settings pd o xvi To copy the settings of a pre set Email to the new Email please click the radio button in front of the pre set Email and then click Copy a new Email will be added to the list and the settings of the old Email will be copied to this newly added Email xvii To remove a pre set Email please click the radio button in front of the pre set Email and then click Remove xviii After you finish all the Email selections and settings click Save button to save the settings SMS Setting PMC 5151 offers SMS Alarm message sending and SMS Command receiving functions Required ICP DAS GTM 201 USB modem Please refer to Appendix III for detail For SMS Alarm function it allows to send pre set SMS alarm messag
84. ID 3 address 4352 442 3 Failed A 20130719 155915 Rules Setting Rules file download succeeded OK 201 30719 15 68 21 Modbus ATIJ Meter read failed PM 2133 10 3 address 4352 442 9 Failed 20130 7114 15 58 12 Rules Setting Rules file download succeeded OK 20130 7119 15 55 57 Modbus RTL Meter read failed PM 2133 ID 3 address 43624 44231 Failed 20130 7119 15 5548 Rules Setting Rules file download succeeded OK 2013 0719 16 47 50 Modbus RTU Meter read failed PM 2133 10 3 address 4352 4429 Failed E 20130719154742 Fules Setting Fules file download succeeded OK 2013 0719 15 11 54 Modbus ATIJ Meter read failed PM 2133 10 3 address 4352 4423 Failed 201 3 0749 15 11 50 Rules Setting Rules file download succeeded OK 2015 0749 1445 21 Modbus RTL Meter read failed PM 2133 ID 3 address 4352 4425 Failed 201 3 0 7119 14 45 19 Firmware Firmware upgrade succeeded 1 0 0 to 1 0 0 OK 2013 0711 4 14 41 02 Firmware Download 201307 05 PMC 5151 zip succeeded OK 201 3 0 7114 14 19 20 Modbus ATIJ Meter read failed PM 2133 10 3 address 435274423 Failed 20130 7119 141417 Firmware Firmware upgrade succeeded 1 0 0 Demo to 1 0 0 OK 20130 7114 14 15 20 Firmware Download 201 30710 PMC 5151 hex succeeded OK 2015307119 141227 Rules Setting Rules file download succeeded OK 201 3 0 7119 14 06 59 Rules Setting Rules file download succeeded OK 2013 0719 13 59 55 Firmware Firmware upgrade succeeded 1 0 0 to 1 0 0 Demo OK 201 3 0 711 9 13 59 08 Modbus ATIJ Meter read succeeded
85. M Search 2 300 5 No module exists press this button to create one Figure7 32 Set up the No and Address of the Modbus RTU module 111 Select the module name For ICP DAS M 7000 modules the user could select the default model name from the dropdown list for further modification For other Modbus RTU module non M 7000 module please input the module name Modbus RTU Module List COM2 COM3 LAN Q No Address Nickname Module Name Polling Timeout ms Retry Interval secs s 5 E T 5 A M 7002 No module exists pregs M 7005 M 7011 M 7015 M 7015P ICP DAS CE 4 Figure7 33 Select the model of the Modbus RTU Module iv Polling Timeout The time interval for PMC 5151 to send command to the Modbus RTU module and wait for the response the unit will be ms The setting range will be 1 10000 ms v Retry Interval The time interval to wait for PMC 5151 to repeatedly send command again when PMC 5151 sends command to the 93 ICP DAS PMC 5151 User Manual Modbus RTU module and get no response The unit will be second the setting range will be 3 65535 seconds vi Click to add the Modbus RTU module to the list Figure 7 34 After adding the Modbus RTU module click Save button to save the changes Modbus RTU Module List COM2 COM3 LAN No Address Nickname Module Name Polling Timeout ms Retry Interval secs No module exists press this button to create one Figure7 34 Add the Modbus R
86. M 3112 PM 3112 1 1 PM 3114 PM 3114 Figure7 10 Add the Modbus RTU Power Meter mannually 7 1 3 Add Modbus TCP Power Meter manually PMC 5151 allows connection to Modbus TCP Power Meters via Ethernet the user could add the Modbus TCP Power meter to the list manually the steps are as below 1 No The Number will be the order that the power data of the Modbus TCP power meter being stored in the PMC 5151 Modbus Table The range is 1 16 11 Network Set up the settings of IP Port and NetID appropriately as required Please make sure the network setting is the same as the settings of the module if the setting 1s not accurate the connection for PMC 5151 to the power meter will be failed Power Meter List Modbus TCP COM2 COM3 LAN No al Port NetlD Power Meter Nickname 28 L I 1050210110 BL 1 192 168 100 51 502 1 PM 3112 MTCP PM 3112 MTCP Figure7 11 Add Modbus TCP Power Meter 111 Select the Power meter model Figure 7 12 Power Meter List Modbus TCP COM2 COM3 LAN No IP Port NetlD Povwer Meter Nickname 2 192 168 100 52 602 1 PmattamTcP 2 PM 3112 MTCP 192 i 5 502 PM 3112 MTCP 1 192 168 100 51 D 1 PM 3114 MTCP Figure7 12 Select Modbus TCP Power Meter model iv Nickname For user to define a nickname for this power meter this 76 ICP DAS PMC 5151 User Manual nickname will be displayed on the Power meter Information and Rule Setting pages Def
87. MP Trap 1 lt Description Specific ID 1 i SNMP Trap Variable Binding List Content Format Add new variable bindings O PM 3114 Loop 1 V Opaque Float PM 3114 Loop 1 kW Opaque Float The device is down the current is PM 3114 Loop 1 V the kW is PM 3114 Loop 1 kW OctetString Figure9 19 SNMP Trap setting with variable bindings list vill To copy the settings of a pre set SNMP Trap to the new SNMP Trap please click the radio button in front of the pre set SNMP Trap and then click Copy a new SNMP Trap in sequence will be added to the list and the settings of the old SNMP Trap will be copied to this newly added SNMP Trap 143 ICP DAS PMC 5151 User Manual 9 4 To remove a pre set SNMP Trap please click the radio button in front of the pre set SNMP Trap and then click Remove After you finishing all the SNMP Traps creation and setting click Save button to save the settings Timer Setting PMC 5151 provides Timer for timing functions The Timer status can be Not Timeout or Timeout They can be included in the IF Condition statements The Timer Action can be Start or Reset The Start Action will start to run the Timer and if the Start Action is triggered one more time when the Timer is running the Timer will restart again The Reset action will reset the Timer and stop running the Timer The Timer will be in Timeout status only when the T
88. MS Setting SNMP Trap Setting Timer Setting Schedule Setting PUE Setting Internal Register Setting Flash HMI Setting After complete the Advanced Setting all the setting you define in the section will be the property in the IF THEN ELSE rule setting page Please note In order to avoid possible error when performing rule definition IF THEN ELSE please always finish configuration in Advanced Setting before starting to define Rules Avoid unnecessary change in Advanced Setting after you finish rule definition Unexpected errors might occur if you violate this sequence Advanced Setting Rule Setting In case you make any modification please double check your settings and Rules definition to make sure no errors are present The following sections will describe more detailed information for these configurations 9 1 Email Setting PMC 5151 support Email messages sending function This function allows sending pre input Email message s to pre set Email receiver s under certain conditions The configuration page is shown as below Email Setting Page Nickname Subject Receiver Add new email Google Test Test Email testi google com tw Yahoo Test Test Email test yahoo com te Figure9 1 Email setting page 129 ICP DAS PMC 5151 User Manual The settings steps are as below 1 11 111 Click on Add new email to add a new email setting After clicking the Add new email a setting page will appear input na
89. Meter Information Power Data Overview Power Data Information Delete the data logger files and reset the accumulated values of the power meter Real Time Chart Historical Chart Power Data Classification Historical Data Report Data Classification 1 Data Classification Data Classification3 VO Information Event Log PM 3114 Connection status PM 2133 Connection status Y 106 487 0 000 106 487 0 000 106 483 0 000 106 483 0 410 Loop V Phase A 106 741 0 416 Phase B 0 000 0 000 Phase C 0 000 0 000 Total A 106 741 0416 Detailed information A Detailed information A 4 Switch the Rotary Switch to position 0 253 ICP DAS PMC 5151 User Manual Appendix III Setup the GTM 201 USB with PMC 5151 Hardware installation 1 Install the SIM card and antenna on the GIM 201 USB and connect the device with Power lOVpc 30Vpc Power Supply GTM 201 USB SIM card 2 Connect the GIM 201 USB and PMC 5151 by USB cable USB cable GTM 201 USB PMC 5151 Please Note The driver of GIM 201 USB has been pre installed on PMC 5151 user doesn t need to install it If user wants to install it again please follow the process as below 254 ICP DAS PMC 5151 User Manual GIM 201 USB Driver Installation 1 Goto the link as below to download the latest version of GIM 201 USB driver installation file http ftp icpdas com pub cd usbcd napdos gprs_g
90. Name xwBoardAI Value xwBoardAIType xwBoardAIDeadband xwBoard xwBoardAIScaleMin xwBoardAIScaleMax 266 ICP DAS PMC 5151 User Manual The SNMP Variables naming rule of the I O modules that are connected to PMC 5151 Every I O module that is connected to PMC 5151 provides the SNMP Variables as above with its specific prefix denoted The SNMP Variables naming rule of the I O modules on Com2 The I O Modulel SNMP Variables are shown as above with prefix com2io1 the I O Module2 SNMP Variables are similar to listed information above but with prefix com2io2 instead and the I O Modulel6 SNMP Variables are also similar to the listed information above but with prefix com21016 instead The SNMP Variables naming rule of the I O modules on Com3 The I O Modulel SNMP Variables are similar as listed information above but with prefix com3iol the I O Module2 SNMP Variables are similar to listed information above but with prefix com3102 instead and the I O Modulel6 SNMP Variables are also similar to the listed information above but with prefix com3io16 instead The SNMP Variables naming rule of the I O modules on LAN The I O Modulel SNMP Variables are similar as listed information above but with prefix laniol the I O Module2 SNMP Variables are similar to listed information above but with prefix lanio2 instead and the I O Module16 SNMP Variables are also similar to the listed information above but with prefix lanio16 instead otherInfo
91. O will set to be OFF as well all settings are completed click OK button to save the 98 ICP DAS PMC 5151 User Manual changes and return to Modbus RTU Module List Please Note 1 To set up the Power On value of the DO channels on M 7000 modules please use DCON Utility to set the value 2 The DO channels on M 7000 modules do not offer Pulse Output function The AI channel setting for M 7000 module The M 7000 module AI channel setting interface is shown as below using M 7018 as an example Module M 7018 Setting Nickname Description Address 1 4 Scan Rate 0 second s Polling Timeout 300 milliseconds Retry Interval 5 second s Temperature Unit Celsius C OFahrenheit F Al Attribute Channel Nickname Type Deadband Scale a Minimum 0 Ch 0 1 15 mV 15 mV v oT m 0 30 mY Maximum 0 Minimum D Ch 1 15 mV 15 mV v i l 0 30 mv Maximum 0 eee SS ane Minimum 0 Ch2 15 mV 15 mV v o De 0 30 my Maximum 0 Minimum 0 Ch 3 15 mV 15 mV v 3 O 30 mv Maximum 0 Minimum 0 cha 15 mV 15 mV 9 ei RES 0 30 mv Maximum 0 Minimum 0 Ch 5 15 mV 15 mV v 1 0 30 mv Maximum 0 2 Minimum 0 Ch 6 1 15 mV 15 mV v o 0 30 mY Maximum 0 ET 0 Minimum 0 Ch7 15 mV 15 mV v 0
92. OO ION Doc oo 1 Bye ozor Iz0N DOC oos 1 Bye 00m ON 1x Discrete Input Unit Coil 8 Bits 3x Input Register Unit Register 16 Bits 4x Holding Register Unit Register 16 Bits AO Ch 0 400200 Floating Point p pt pd 190 ICP DAS PMC 5151 User Manual XW310 XW310C Differential Modbus Data Ox Coil Output Unit Coil 8 Bits ocho oomoo 1 Byte ook ION 1x Discrete Input Unit Coil 8 Bits 3x Input Register Unit Register 16 Bits 4x Holding Register Unit Register 16 Bits XW310C Single Ended Modbus Data Ox Coil Output Unit Coil 8 Bits ocho oo 1 Byte om ISON oc oo 1 Byte om izon 1x Discrete Input Unit Coil 8 Bits 3x Input Register Unit Register 16 Bits 191 ICP DAS PMC 5151 User Manual 4x Holding Register Unit Register 16 Bits 192 ICP DAS PMC 5151 User Manual 6 PUE Data This block stores information of 10 user defined PUES 2 1 ATT PUE 10 300318 193 ICP DAS PMC 5151 User Manual 194 ICP DAS PMC 5151 User Manual 7 Module Data This block stores all I O channel data of M 7000 modules power data of power meters and I O channel data of Modbus TCP RTU modules Depend on different configuration of I O modules and power meters the arrangement of data block will be different Detailed information is shown as below 1 Make sure which connection port COM2 COM3 or
93. P Variables as above with its specific prefix denoted The SNMP Variables naming rule of the power meters on Com2 The Power Meter SNMP Variables are shown as above with prefix com2pml the Power Meter2 SNMP Variables are similar to listed information above but with prefix com2pm2 instead and the Power Meter16 SNMP Variables are also similar to the listed information above but with prefix com2pm16 instead The SNMP Variables naming rule of the power meters on Com3 The Power Meter SNMP Variables are similar as listed information above but with prefix com3pm1 the Power Meter2 SNMP Variables are similar to listed information above but with prefix com3pm2 instead and the Power Meter16 SNMP Variables are also similar to the listed information above but with prefix com3pm16 instead The SNMP Variables naming rule of the power meters on LAN The Power Meter SNMP Variables are similar as listed information above but with prefix lanpm1 the Power Meter2 SNMP Variables are similar to listed information above but with prefix lanpm2 instead and the Power Meter16 SNMP Variables are also similar to the listed information above but with prefix lanpm16 instead xwBoardDOAmount xwBoardAIAmount xwBoardAOAmount xwBoardDIIndex xwBoardDIName xwBoardDI Value xwBoardDICounterType xwBoardDICounterInit Value xwBoardDICounter Value xwBoardDOIndex xwBoardDOName xwBoardDO Value xwBoardDOPowerOn Value xwBoardDOAdvFunction xwBoardAIIndex xwBoardAI
94. SA 300070 15 30 60 mins SA 300072 Actual Demand 15 30 60 mins SA 300074 Forecast Demand Max Demand SA 300076 Hourly Max Demand SA 300078 Daily Max Demand h h h 2 2 2 2 SA 300080 2 Monthly Daily Accumulated SA 300082 2 Electricity Monthly Accumulated SA 300084 2 i Floating Point Electricity 209 ICP DAS PMC 5151 User Manual Yearly SA 300086 2 Float Float Floating Point Accumulated Electricity 15 30 60 mins SA 300088 Actual Demand 15 30 60 mins SA 300090 Forecast Demand Max Demand SA 300092 Hourly Max Demand SA 300094 Daily m Max Demand un SA 300096 Q Monthly Daily Accumulated o SA 300098 Electricity Monthly Accumulated 2 2 2 2 2 2 SA 300100 2 Floating Point Electricity Yearly SA 300102 2 Float Float Floating Point Accumulated Electricity 15 30 60 mins SA 300104 Actual Demand 15 30 60 mins SA 300106 Forecast Demand Max Demand SA 300108 Hourly Max Demand SA 300110 Daily Max Demand SA 300112 Monthly Daily Accumulated 2 SA 300114 Electricity Monthly Accumulated 2 2 2 2 CT3 2 2 SA 300116 2 n Floating Point Electricity 210 ICP DAS PMC 5151 User Manual Yearly SA 300118 2 Float Float Floating Point Accumulated Electricity 15 30 60 mins SA 300120 Actual Demand
95. SA 300090 Floating Point SA 300092 Floating Point SA 300094 Floating Point SA 300096 Floating Point SA 300098 Floating Point SA 300100 Floating Point kWh SA 300102 Floating Point kvarh SA 300104 Floating Point kVAh SA 300106 Floating Point SA 300108 Floating Point SA 300110 Floating Point SA 300112 Floating Point SA 300114 Floating Point SA 300116 Floating Point SA 300118 Floating Point SA 300120 Floating Point SA 300122 Floating Point D D S lt D z kvarh al sl SIZIF zT SISI SIE a W kvar ae FT Phase C CT6 Phase B CT5 Phase A CT4 irr AlolA lal Alo S a lt W kvarh kVAh kW kvar kV gt PT BI DID ID ID ID DID ID ID DID ID ID ID DID ID ID DID ID ID ID Rp kvarh bo NS R ICP DAS PMC 5151 User Manual ETAT sarsa 2 oat Floating Point VA SA 300138 Floating Point SA 300140 Floating Point SA 300142 Floating Point V SA 300144 Floating Point 3 2 SA 300146 2 Floating Point SA 300148 2 Floating Point SA 300150 2 Floating Point kVA SA 300152 2 Floating Point SA 300154 2 Floating Point SA 300156 2 Floating Point SA 300158 2 Floating Point SA 300160 2 Floating Point SA 300162 2 Floating Point SA 300164 2 Floating Point SA 300166 2 Floating Point 2 2 2 2 2 2 2 2 2 2 2 2 2 En EE EA 27 e E 2 27 Es 27 ma 27 SA 300168
96. TU Module mannually 7 3 3 Add Modbus TCP Module manually To manually add Modbus TCP modules please follow the steps below 1 No The number will be the order that the I O channel data of the Modbus TCP module being stored in the PMC 5151 Modbus Table The range is 1 16 1 Network Set up the settings of IP Port and NetID appropriately as required If the settings are not the same as the settings of the module the connection for PMC 5151 to the Modbus TCP module will be failed Modbus TCP Module List COM2 COM3 LAN No GIF Port NetID Nickname Ca LL Cel C1 No module exists press this button to create one Figure7 35 Add Modbus TCP Module ii Nickname For user to define nicknames for the Modbus TCP module this nickname will be displayed on the Module Information pages iv Click to add the Modbus TCP module to the list Figure 7 36 After adding the module click Save button to save the changes 94 ICP DAS PMC 5151 User Manual Modbus TCP Module List COM2 COM3 LAN No ig Port NetID Nickname 2 E 192 168 100 51 502 ai 1 192 168 100 51 502 1 Module TCP Figure7 36 Add the Modbus RTU Power Meter mannually 7 3 4 VO Module List Interface After the Modbus RTU I O module or Modbus TCP I O module are added to the I O Module list via auto scan or manual work the Modbus RTU I O modules and Modbus TCP I O modules will be listed as below Modbus RTU Mo
97. UADOOLA TONOV OAL DINN O 2 fg p I C Beara j C XW310Crm2 Hels Epme ses Differential 1 2 Differential Default 3 Default After complete the hardware setting remember to complete the setting of XW310C AI channel operation mode on PMC 5151 Web page as well shown as below Module XW310C Setting Nickname Description AI Type Differential OSingle ended 262 ICP DAS PMC 5151 User Manual Appendix VI The SNMP Variables for PMC 5151 The PMC 5151 provides SNMP Simple Network Management Protocol Agent to work with the SNMP Network Management software for monitoring the system data power meter data and I O module data The following table lists the SNMP variables for the PMC S151 RFC1213 MIB II Supported SNMP Variables The following SNMP variables are built into the PMC 5151 SNMP Agent and are compliant with RFC1213 MIB IL SysObjectID SysUpTime ssw ifPhysAddress ifAdminStatus ifOperStatus Interface ifLastChange ifInUcastPkts ifinUnknownProtos ifOutOctets MIB II ipInUnknownProtos ipInDiscards ipAdEntIfIndex ipAdEntNetMask ipRouteInfo pRoutingDiscards 263 ICP DAS PMC 5151 User Manual icmpInMsgs icmpInDestUnreachs ICMP icmpInAddrMaskReps icmpOutMsgs icmpOutTimeExcds icmpOutParmProbs icmpSrcQuenchs icmpRedirects icmpOutEchos i icmpOutEchoReps icmpOutTimestamps impOutTimestampReps impOutAddrMasks impOutAddrMaskReps tpRtoAlgo
98. User Defined Input a User Defined value under the Value field AO Action Setting Frequency One Time ORepeat Module amp Channel Operator Value XW Board XW310C Channel 0 i Internal Register Select the number of the Internal Register from the dropdown list AO Action Setting Frequency One Time ORepeat Module amp Channel Operator Value XW Board XW310C v Channel 0 v AI Using AI channel values from XW Board M 7000 select the module and channel from the dropdown list to 170 ICP DAS PMC 5151 User Manual specify which channel value will be used AO Action Setting Frequency One Time ORepeat Module amp Channel Operator Value XW Board XW310C v Channel go M AO using AO channel values from XW Board M 7000 select the module and channel from the dropdown list to specify which channel value will be used AO Action Setting Frequency One Time ORepeat Module amp Channel Operator Value XW Board y XW310C sl n Channel 0 Internal Register using value of Internal Register from Modbus RTU TCP Slave modules select the module and address from the dropdown list to specify which channel value will be used AO Action Setting Frequency One Time ORepeat Module amp Channel Operator Value XW Board XW310C v Channel 0 Holding Register using value of Holding Register from Modbus RTU TCP Slave modules select
99. User Manual 10 1 1 2 DI Counter DI counter value from XW Board or M 7000 module can be used as evaluation criteria for IF condition statement the editing page for DI Counter Condition Setting 1s shown as follow DI Counter Condition Setting Module amp Channel Operator Value User Defiend v COM2 M O60 3 v gt 0 Channel Ov i II lt Figure10 4 DI Counter condition setting page Follow the steps below 1 11 111 1V Specify the module and channel from the dropdown list of the Module amp Channel section that you are going to include its value in the IF condition statements Set up the expression statement for this counter value Select an operator from gt lt gt lt or Change Set up the value for comparison select the value from the dropdown list to be User Defined or Internal Register If User Defined is selected input the User Defined value under the Value section If Internal Register is selected select the number of the Internal Register from the dropdown list If the DI counter value match the evaluation criteria the result of this condition evaluation will be true If the operator is Change there is no need to set the comparison value the condition will be true when there is a change to the counter value The action will be executed only once and only at the moment when DI Counter experie
100. User Manual The M 7000 module DO channel setting interface is shown as below using M 7060 as an example Module M 7060 Setting Nickname Description Address 1 Scan Rate 0 second s Polling Timeout 300 millisecond s Retry Interval 5 second s DI Attribute DO Attribute Channel Nickname Advanced Function Ch 0 ch 1 CMa Ch 3 Disable v Disable a Disable v Disable x Figure7 39 M 7000 DO Channel Setting Page The settings are as below Nickname For user to define nickname for each I O channel this nickname will be displayed on the I O Information and Rule Setting pages For M 7000 DO channels PMC 5151 provides the following options for advanced function After Disable Disable the advanced function Auto OFF When Auto OFF is selected it allows this DO channel to enable Auto OFF function It is required to set up a time interval when this DO channel is set to be ON and the duration of the ON status reaches the pre set time interval the DO will automatically be set to OFF The unit is second DI Status Mapping When DI Status Mapping 1s selected the status of the DI channel with the same channel number on the M 7000 module will be copied to the DO channel For example when the DI Status Mapping is enabled on DOO when the DIO status is ON DOO will set to be ON and when the DIO status is OFF DO
101. VA Submeter 1 Brae D D S lt ER 15 30 60 mins Actual Demand 15 30 60 mins Forecast Demand SA 300576 2 Float Floating Point SA 300578 2 Float Floating Point Max Demand Hourly Max Demand Daily Max Demand Monthly Daily Accumulated SA 300580 2 Float Floating Point SA 300582 2 Float Floating Point SA 300584 2 Float Floating Point Phase A CTI SA 300586 2 Float Floating Point Electricity Monthly Accumulated SA 300588 2 Float Floating Point Electricity Yearly Accumulated SA 300590 2 Float Floating Point Electricity 15 30 60 mins Actual Demand 15 30 60 mins Forecast Demand SA 300592 2 Float Floating Point SA 300594 2 Float Floating Point Max Demand Hourly Max Demand Daily SA 300596 2 Float Floating Point SA 300598 2 Float Floating Point Phase B CT2 NO W EN ICP DAS PMC 5151 User Manual Max Demand SA 300600 Monthly Daily Accumulated 2 Float Floating Point Float Floating Point Float SA 300602 2 Electricity Monthly Accumulated SA 300604 Floating Point Electricity Yearly Accumulated SA 300606 2 Float Floating Point Electricity 15 30 60 mins SA 300608 Actual Demand 15 30 60 mins SA 300610 Forecast Demand Max Demand SA 300612 Hourly Max Demand SA 300614 Daily 2 2 2
102. XW Board only For M 7088 belongs to PWM Pulse width modulation modules the DO channel Action will be Start PWM or Stop PWM iii Specify the Frequency to be One Time or Repeat iv Click OK button to confirm the settings and return to the Rule settings page 10 2 1 3 AO You can execute an action in AO channel of XW Board or M 7000 module in THEN ELSE Action statement the editing page for AO 169 ICP DAS PMC 5151 User Manual Action 1s shown as follow AO Action Setting Frequency One Time ORepeat Module amp Channel Operator Value User Defiend v XW Board xVW310C v v 0 Channel 0 Figure10 20 AO action setting page Follow the steps below i From the dropdown list of the Module amp Channel field select the AO channel to execute actions 66__99 c6 ii Specify the Operator to be or from the dropdown list in the Operator field The 3 operators are as follow Indicate assign the new AO channel value as the value in Value field Indicate assign the new AO channel value as the original AO channel value plus the value in Value field Indicate assign the new AO channel value as the original AO channel value minus the value in Value field iii Set up the value in the Value field PMC 5151 provides the following 7 value options to be used in the Value field
103. a signal that exceed 10mA the DO channel will change to ON immediately however when the AI channel value drops and becomes lower than 10mA the DO channel will not change back to OFF immediately until the value reaches 8mA 10mA minus the Deadband value 2mA as shown in the following figure IF Al gt 10mA THEN DO ON ELSE DO OFF 10mA 8mA PS Padte nn een nn een nennen arr EA EEE asie ei ess NII IIS ENST DO OFF lt DO OFF DO ON Figure7 22 AI Deadband Operation gt or gt a numerical value b In the IF Condition when AI lt or lt a numerical value Assuming the Deadband value is set to be 2 mA and the following statements are defined in the related logic Rule IF 87 ICP DAS PMC 5151 User Manual c Al lt 10mA THEN DO ON ELSE DO OFF that means when AI receives a signal which is lower than 10mA the DO channel will change to ON immediately however when the AI channel value exceed 10mA the DO channel will not change back to OFF immediately until the value reaches 12mA 10mA plus the Deadband value 2mA as shown in the following figure IF Al lt 10mA THEN DO ON ELSE DO OFF 12mA 10mA DO OFF lt DO OFF lt DO ON Figure7 23 AI Deadband Operation lt or lt a numerical value In the IF Condition when AI a numerical value Assuming the Deadband value is set to be 1 mA and the following statements are defined in the related logic Rule IF AI 9mA THEN
104. acility Energy 4856 21 kWh IT Equipment Energy 3226 92 kWh Refresh Figure5 31 PUE information Realtime 5 7 2 History History overview mode allows display of the PUE data in historical trend Select the PUE option from the dropdown list of the PUE List choose the classification from the dropdown list of the Chart Type and then specify the date from the dropdown list of the Date The interface is shown as below 39 ICP DAS PMC 5151 User Manual Power Usage Effectiveness PUE Information Real Time History Inquiry Topic PUE List PUE 1 Chart Type Daily Chat Date 2015 v 8 18 v Recorded Data File Range 2015 8 14 2015 8 18 Inquiry Figure5 32 PUE information History 1 PUE List All PUE options which are preset by users will be listed on the dropdown list of the PUE List if no PUE option is preset the inquiry operation will not be able to perform Chart Type Provides Daily Chart and Monthly Chart Date The dates which are available for PUE data retrieval will be displayed Please note if no log file is available the inquiry operation will not be performed Click on Inquiry to display the PUE data historical statistic chart Figure 5 34 of the selected date range If the selected date does not contain the file or exceeds the date of the file storage range a message No file exists will be displayed A Historical Chart 2015 8 14 PUE 1 0
105. al Average PM2133 petra 5 PIM 2134 Loop 1 10 ICP DAS Co Ltd All Rights Reserved Figure5 14 Realtime Chart Group Mode There are three function icons on the upper area of the Power Meter Realtime Chart The W icon allows to pause the update of the chart only the data within the 25 minutes will be displayed The user could click and drag on the chart and move forward or backward to show desired time zone Click EJ to resume the update of the chart To view the data on a specific marker move the mouse over the marker to display the data value icon allows to hide the markers on the chart click on button to show the markers on the chart icon will show the connection status of the power meters of the subgroup the graphic indicators are shown as follow Online Offline Connecting 25 ICP DAS PMC 5151 User Manual 5 4 Historical Chart Historical Chart allows display of the value and chart of power data in historical trend Select the power meter from the dropdown list of the Power Meter List choose the classification from the dropdown list of the Data Classification and then specify the date from the dropdown list of the Date The interface 1s shown as below Inquiry Topic Power Meter List PM 3114 v Data Classification Date 2013 r 7 M Recorded Data File Range 2013 7 19 2013 7 19 FigureS 15 Historical Chart Inquiry Power Meter List All power meter connected to the PMC 51
106. also allows performing Logic rule edition Only one administrator is allowded to login into the system at the same time General User Default password User General users are allowed to view power meter data and I O module information only they are not allowed to perform any settings It allows maximum 5 general users to login and get into the system at the same time Select your preferred language from the dropdown list in the Language field for the Web page user interface English Traditional Chinese Simplified Chinese After login into the system if the user want to change the language again logout and re select the language on the Login page Please note Before starting the system please make sure the browser you are using already enable JavaScript support and has the latest version of Adobe Flash Player installed otherwise the system will not function properly ICP DAS PMC 5151 User Manual 4 System Main Page After login into the system PMC 5151 default home page will be displayed and will automatically read settings of the PMC 5151 to the webpage V Has 5 a LE is Power Monitoring amp Management Solution A r s E c ch k JA Kl 3689 7MB Approx 2857 Days instant Message Main Page System Setting Meter Module Setting Logger Setting Main Page Power Meter Information Power Data Overview Power Data Information DR dE Real Time Chart Data Classification Data Classification2 Data
107. and Hourly Max Demand Daily Max Demand SA 300692 2 D ON qe S lt ae SA 300694 2 SA 300696 2 ICP DAS PMC 5151 User Manual Monthly Daily Accumulated SA 300698 2 Float Floating Point Electricity Monthly Accumulated SA 300700 2 Floating Point Electricity Yearly SA 300702 Accumulated D Floating Point Electricity Submeter 3 15 30 60 mins SA 300704 Actual Demand 15 30 60 mins SA 300706 Forecast Demand Max Demand SA 300708 Hourly Max Demand SA 300710 Daily Max Demand SA 300712 Monthly Daily Accumulated a SA 300714 Electricity Monthly Accumulated 2 Float 2 2 2 2 Phase A CT7 2 SA 300716 2 Floating Point Electricity Yearly Accumulated SA 300718 2 Float Floating Point Float Floating Point Float Floating Point Float Floating Point Float Electricity 15 30 60 mins SA 300720 Actual Demand 15 30 60 mins SA 300722 Forecast Demand Max Demand SA 300724 Hourly Max Demand 2 2 2 Phase B CT8 Daily SA 300726 2 Floating Point 235 ICP DAS PMC 5151 User Manual Max Demand SA 300728 Monthly Daily Accumulated 2 Float Floating Point Float Floating Point Float SA 300730 2 Electricity Monthly Accumulated SA 300732 Floating Point Electricity Yearly 2 Float Accumulated SA
108. and 15 30 60 mins SA 301010 Forecast Demand Max Demand SA 301012 Hourly Max Demand 2 2 2 O ON a S lt x qe fb SA 301014 2 Daily Floating Point 244 ICP DAS PMC 5151 User Manual Max Demand SA 301016 Monthly Daily Accumulated SA 301018 Electricity Monthly Accumulated 2 Float Floating Point Float Floating Point Floating Point 2 SA 301020 2 Electricity Yearly SA 301022 Accumulated 2 Floating Point p_i S ee Electricity Submeter 8 15 30 60 mins SA 301024 Actual Demand 15 30 60 mins SA 301026 Forecast Demand Max Demand SA 301028 Hourly Max Demand SA 301030 Daily 2 Float Floating Point 2 Float Floating Point 2 Float Floating Point Q 2 Float Floating Point Q Max Demand l lt SA 301032 2 Float Floating Point D Monthly Daily Accumulated _ SA 301034 2 Float Floating Point Electricity Monthly Accumulated SA 301036 2 Float Floating Point Electricity Yearly Accumulated SA 301038 2 Float Floating Point Electricity 15 30 60 mins SA 301040 Actual Demand 15 30 60 mins SA 301042 Forecast Demand Max Demand SA 301044 Hourly Max Demand Daily 2 Float Floating Point 2 Float Floating Point 2 Float Floating Point Phase B CT23 SA 301046 2 Float Floating Point 245 ICP D
109. and Monthly Maximum Demand Actual Demand and Forecast Demand The displayed power data will be varied according to the selected power data classification 5 3 Realtime Chart Realtime Chart allows display of power information of the power meter in real time trend and pie chart Realtime Chart can be displayed in two modes Power Meter mode and Group mode The users can change the viewing mode according to their requirements The detailed description is as follow 5 3 1 Power Meter Mode Select the power meter from the dropdown list of the Power Meter List and select the classification from the dropdown list of the Data Classification field and then click on Inquiry button it will show the chart Power Meter List All power meter connected to the PMC 5151 will be list on the dropdown list of the Power Meter List if no power meter is connected the inquiry operation will not be able to perform Data Classification Data Classification allows to inquire various power data options including V Voltage I Current kW Real Power kvar Reactive Power kVA Apparent Power PF Power Factor kWh kvarh k VAh Daily Accumulated Electricity and Actual Demand 22 ICP DAS PMC 5151 User Manual Please refer to Figure 5 14 for an example of Realtime Chart for Power Meter Mode Each time the Realtime Chart displays only one power information classification If a different power information classification is inquired p
110. and Monthly Maximum Demand Actual Demand and Forecast Demand The displayed power data will be varied according to the selected power data classification Power Data Classification Data Classification Data Classification Data Classifications Figure4 15 Select the classification of Power data 12 ICP DAS PMC 5151 User Manual PM 3114 Connection status y 108 083 0 412 108 083 0 402 108 094 0410 108 094 0 411 Detailed information q Figure4 16 Display power data of the selected classification Connection Status will reveal the connection status between the power meter and PMC 5151 the graphic indicators are as follow Online Offline Connecting 13 ICP DAS PMC 5151 User Manual 5 Main Page On the Main Page 10 information display options are as follow Power Meter Information Power Data Information Realtime Chart Historical Chart Historical Data Report Historical Electricity Analysis PUE Information I O Information Event Log Polling Time Information Modbus Table Information and UID information Shown as follow Main Page System Setting Meter Module Setting Logger Setting Main Page Power Meter Information Power Data Overview Power Data Information aaa Real Time Chart Data Classification1 Historical Chart Historical Data Report Historical Electricity Analysis PUE Information Power Meters 1O ati O Information PM 3112 Event Log
111. arh KVAR Phase A 106 02 JBda 1 56 O48 1825 or Figure5 5 Real Time Information Phase E Phase C 107 56 105 42 14 00 Marais 1 41 as eae 0 93 Ial 2 69 0 94 0 94 Real Time Information 2 0 10 0 18 0 03 0 06 0 10 Gla Total Average 106 33 19 30 9 04 1 94 6 16 0 95 KA Reset 0 42 0 14 0 44 Real Time Power Information of PM 3133 16 ICP DAS PMC 5151 User Manual Real Time Information 1 Phase A Phase E Phase Total Average y 106 02 107 56 105 42 Maaz ieee 14 00 25 96 19 30 kV 1 98 1 41 oh 5 64 kvar 048 0 52 0 93 1 94 KVA pels al 2 69 6 16 BF O97 0 94 0 94 ias Real Time Information 2 Ka Reset KA 0 14 0 10 0 18 042 kyarh 0 05 0 03 0 06 0 14 kVA Uiz 0 10 0 19 044 Figure5 6 Real Time Power Information of PM 3114 Real Time Information 1 Loop 1 Loop 2 yi 109 14 Wa apa 26 11 ky aot age kvar 1 10 0 96 KVA 345 E EE 0 96 0 96 Real Time Information 2 KA Reset KAMA paa 5245 kyarh AET 19 03 KVAR 69 38 99 00 Figure5 7 Real Time Power Information of PM 3112 Reset Accumulated Value of the Power Meter When login as the Administrator it allows to click on Reset to reset the value of kWh kvarh and KVAR to be 0 if required Please Note After performing the reset function to reset the value of the kWh kvarh and kVAh of the selected power meter the resetting operation is irreversible I7 ICP DAS PMC 5151 User Manual 5 1 2 Power Meter Stati
112. ase Note The addresses are in Base 0 format The addresses are in Decimal format The default value of NetID is 1 and you can modify the NetID value in the Network Setting page Please refer to 6 2 Network Setting If the data is displayed in Floating format each record of data will take two registers to hold the data The following code example demonstrates how to join the two registers into one floating point value float register_to_float short rl short r2 float f int a amp f a rl a Fa T2 return f For the compilers are different big endian or little endian the floating point composing order might be different For example if rl represent the address of 30100 register and r2 represent the address of 30101 register to join rl and r2 to a floating point if the system is big endian system you will need to call float value register_to_float rl r2 On the other hand if the system is little endian system you will need to call float value register_to_float r2 r1 Please Note 1 If you are not sure your compiler belongs to which system try both ways to find the accurate one 2 The way to join the two registers value into DWORD is similar to Floating point change the return value to DWORD or Unsigned Long 180 ICP DAS PMC 5151 User Manual PMC 5151 Modbus Address Table COM2 module connection Status COM3 module connection Status LAN Modbus TCP module conn
113. ault seting will be the model of the power meter v Click to add the meter to the list Figure 7 13 After adding the power meter click Save button to save the changes Power Meter List Modbus TCP COM2 COM3 LAN No GIE Port WNetiD Povwer Meter Nickname 2 192 168 100 52 502 1 PM 3114 mTCcP 1 192 168 100 51 502 1 PM 3112 MTCP PM 3112 MTCP Figure7 13 Add the Modbus TCP Power Meter mannually 7 1 4 Power Meter List Interface After the Modbus RTU TCP Power Meters are added to the power meter list via auto scan or manual work the Modbus RTU TCP Power Meters will be listed as below Power Meter List Modbus RTU COM2 COM3 LAN AS No Address Power Meter Nickname 5 m 5 Ml E O 1 1 PM 3114 PM 3114 O 9 2 PM 3112 PM 3112 3 3 PM 2133 PM 2133 4 PM 2134 PM 2134 Figure7 14 Power Meter List Interface The following functions allow to perform settings or rearrange order of the power meters Please select the power meter and click on the function button to perform the operations Setting Click the radio button in front of the power meter and click on Setting to get into the setting page of the power meter The settings for each power meter module will be given in the following section Move Up Click the radio button in front of the power meter and click on Move Up to move the power meter to upper order upper index number No
114. bled in Advanced Setting ii Specify the Operator in the Operator field The 5 operators are as follow Indicate assign the new Internal Register value as the value in Value field Indicate assign the new Internal Register value as the original Internal Register value plus the value in Value field Indicate assign the new Internal Register value as the original Internal Register value minus the value in Value field Indicate assign the new Internal Register value as the original Internal Register value times the value in Value field Indicate assign the new Internal Register value as the original Internal Register value divided by the value in Value field iii Set up the value in the Value field PMC 5151 provides 7 value options Please refer to 10 2 1 3 section for more detailed information for value settings of these 7 options iv Specify the Frequency to be One Time or Repeat v Click OK button to confirm the settings and return to the Rule settings page 179 ICP DAS PMC 5151 User Manual Appendix I Modbus Address Table PMC 5151 allows SCADA software or HMI device to retrieve the power data I O channel data and system information via Modbus TCP RTU protocol PMC 5151 register addresses are specified according to Modbus register mapping tables more detailed information will follow Ple
115. city Average daily PF Average daily current Average daily voltage Average daily kVA Average daily kvar Timing of daily max kW daily max kW daily total Electricity Average daily PF Average daily current Average daily voltage Total daily kVA Total daily kvar Reserved Field 127 ICP DAS PMC 5151 User Manual 8 7 The Format of User Defined Data File The User Defined Data files are saved in CSV format Each line represents one record after the log format of the data being set in User Defined Data Logger the User Defined Data Logger will record the data according to the data format and content set by the user In addition the system will tag each data log with information such as date time and type of the data etc The log type could be Period Recording that will record the file periodically or Trigger Recording that will record the file when an event is triggered The User Defined Data log file format is shown as below 2013 06 01 12 35 00 XXXX reriod Date and time of the User define data log Specify the data log is Data Log item content string in the Period recording P or User Defined Data Event trigger recording E Logger 128 ICP DAS PMC 5151 User Manual 9 Advanced Setting Advanced Setting provides additional features and allows you to perform more setting on the PMC devices Click on the Advanced Setting button a column of buttons will appear on the left of the page Email Setting S
116. ckname for the address blocks the user can click on the Nickname Setting tab and then input the Nickname for each address block The Nickname will be shown in the I O Information and Rule Setting pages Data Address 0050 Nickname e 104 ICP DAS PMC 5151 User Manual After all Coil Output settings of the Modbus RTU module are completed click OK button to save the changes The Discrete Input Setting of Modbus RTU Module The Modbus RTU module Discrete Input Setting page is shown as follow Modbus Mapping Table Setting Data Model Discrete Input 1x Start Address D B Data Number 1 Add Modbus Mapping Table Address Setting Nickname Setting Local Coil Output Discrete Input Input Register Holding Register Address 0x 1x 3x 4x No mapping table configuration Figure7 45 Discrete Input Setting Page The settings are as follow Data Model WISE 580x offers 4 Data Model selections to match the Modbus RTU Slave module configuration Please refer to the section The Coil Output Setting of Modbus RTU Module for detailed information In this case please select Discrete Input 1x Start Address Allows to set up the starting address of the data on the PMC 5151 that would be retrieved to the Discrete Input 1x on the Modbus RTU module Data Number After finishing the Start Address setting specify the Data Number it is the number of Discrete Input data
117. ctions to Modbus RTU I O modules 2 The LAN interface on PMC 5151 allows connections to Modbus TCP I O modules For more detailed information of the LAN settings please refer to 6 4 I O Interface Setting 3 One PMC 5151 allows connections to at most 8 Modbus I O modules including M 7000 modules Modbus RTU I O modules and Modbus TCP I O modules 4 A single I O interface COM2 COM3 or LAN allows connections to at most 16 devices Power meters and I O modules each device requires its own index number Therefore if an I O interface is connecting to both power meters and I O modules they will share the same set of the index numbers For example if COM2 is connecting to 2 Modbus RTU power meters and already takes the index numbers No 1 and No 2 the Modbus RTU I O modules that are going to be connected to COM2 can be only set as No 3 No 16 that are not occupied 7 3 1 Scan to Add ICP DAS M 7000 Modules 90 ICP DAS PMC 5151 User Manual The user could use Scan function to add ICP DAS M 7000 Modules to the PMC 5151 the steps are as below 1 Click on a button to scan the M 7000 modules that are connected to the PMC 5151 Modbus RTU Module List COM2 COM3 LAN No Address Nickname Module Name Polling Timeout ms Retry Interval secs ba 34 Search a 300 5 No module exists press this button to create one Figure7 27 The Scan button to search M 7000 module 1 When the Scan page appears F
118. d 15 30 60 mins l l SA 300074 2 Float Floating Point Forecast Demand Max Demand SA 300076 2 Float Floating Point Hourly Max Demand SA 300078 2 Float Floating Point Daily E Max Demand Z SA 300080 2 Float Floating Point a Monthly Daily Accumulated SA 300082 2 Float Floating Point Electricity Monthly Accumulated SA 300084 2 Float Floating Point Electricity Yearly Accumulated SA 300086 2 Float Floating Point Electricity 15 30 60 mins l l SA 300088 2 Float Floating Point Actual Demand m 15 30 60 mins l l D SA 300090 2 Float Floating Point 2 Forecast Demand a Max Demand SA 300092 2 Float Floating Point Hourly 213 ICP DAS PMC 5151 User Manual Monthly Accumulated SA 300100 Electricity Yearly Accumulated SA 300102 Electricity 15 30 60 mins SA 300104 Actual Demand 15 30 60 mins SA 300106 Forecast Demand Max Demand SA 300108 Hourly Max Demand SA 300110 Daily Max Demand SA 300112 Monthly Daily Accumulated Ne SA 300114 Electricity Monthly Accumulated SA 300116 Electricity Phase C Yearly Accumulated SA 300118 Electricity 15 30 60 mins SA 300120 Actual Demand 15 30 60 mins SA 300122 Forecast Demand Max Demand SA 300124 Hourly Max Demand Daily D D d S T H SA 300126 Max Demand SA 300096 2 Monthly Daily Accumulated
119. d new variable bindings PM 3114 Loop 1 V Opaque Float O PM 3114 Loop 1 KW Opaque Float Figure9 15 Example of Channel Data Type Variable Binding List vil You can select the User Defined Data as the variable type The setting page interface will be shown as below SNMP Trap Variable Binding Setting Page Type Channel Data User Defined Data View Edit User Defined Data Source COM2 v Module PM 3114 1 Channel Loop 1 Info V M Figure9 16 User Defined Data Type Setting Page Set up the content in the User Defined Data field of the SNMP Trap Variable Binding Setting Page The User Defined Data provides encoded strings for user to add real time power data or I O channel data to the content easily User can select the Edit tab or click on any blank area in the User Defined Data field and then the Real time variable editor will be shown as below 141 ICP DAS PMC 5151 User Manual SNMP Trap Variable Binding Setting Page Type Channel Data User Defined Data V je Ww d it The device is down the current ig C2M1ri4352 the KW i4SC2M1ri4356 User Defined Data Source COM2 v Module PM 3114 1 M Channel Loop1 Info kW v Figure9 17 User Defined Data Interface in Edit Mode Input your message in the User Defined Data field and then select the Source Module and Channel from the d
120. d the Modbus RTU Power Meter mannually 95 Modbus module List Interface 95 M 7000 DI Channel Setting Pages sense 97 M 7000 DO Channel Setting Page cccccseceeeeeeeeeeeeeneeseeeeeenes 98 M 7000 AI Channel Setting Page 99 M 7000 AO Channel Setting Page cccsccceeceeeeeeeeeeeeeeeeeeeenees 100 Modbus RTU Slave Module Setting Page ccceceeeeseeeeeeeeeeees 101 Coil Output SENS PAS Crcesesssssvuedussenvetessavvotesseeredumanevineueoiwnane 103 Coil Output Setting Example for Modbus RTU Module 104 Discrete Input Serine PASS een 105 Discrete Input Setting Example for Modbus RTU Module 106 Input R sister Setting Pace sini acinar eas 107 Input Register Setting Example for Modbus RTU Module 109 Holding Register Setting Page cccceceeeeeeeeeeeeeeeeseeseeseeseeseeeaes 110 Input Register Setting Example for Modbus RTU Module 112 Modbus TCP Slave Module Setting Page 1 113 Modbus TCP Slave Module Setting Page 2 114 Data Logger Seine Passer sed tement 115 Data Logger Seve ADO Si eos 116 ICP DAS PMC 5151 User Manual Figure8 3 Figure 4 Figure9 1 Figure9 2 Figure9 3 Figure9 4 Figure9 5 Figure9 6 Figure9 7 Figure9 8 Figure9 9 Figure9 10 Figure9 11 Figure9 12 Figure9 13 Figure9 14 Figure9 15 Figure9 16 Figure9 17 Figure9 18 Figur
121. ddress 192 168 100 57 Port 21 Path path Data Log Upload Function Power Data Log Enable Function Status Enable Log Mode Average Column Header Add User Defined Data Logger Function Status Enable Log Attribute Log Interval 1 minute File Name Format YYYY MM DD csv End of Line Character CRLF Windows Log File Retention Time 3 month s User Defined Data Log Enable Frequency Every 1 hour Event Log Upload Function Event Log Enable Frequency Once a day Figure8 1 Data Logger Setting Page There are some setting options on the Data Logger Setting page Data Logger Setting Power Data Logger User Defined Data Logger Event Logger Setting FTP Upload Setting More detailed information of these options will be given in the following section 115 ICP DAS PMC 5151 User Manual 8 1 Data Logger Setting On the Data Logger Setting page the user could enable the Power Data Logger or User Defined Data Logger of the PMC 5151 if required The Power Data Logger allows recording the power data of the power meters that are connected to the PMC 5151 and the User Defined Data Logger allows recording user defined data such as power data I O channel data internal register values etc The setting page 1s shown as below Power Data Logger Setting Function Status lEnable Log Mode Column Header MAdd User Defined Data Logger Setting Function Status lEnable View Edit Data Format Source COM w Mo
122. dule PM 3112 9 y Channel Info M i M Log Attribute Setting Log Interval File Name Format ACA MM O0O csv End of Line Character CRLF VVindows Log File Retention Time month s Figure8 2 Data Logger Setting Page 116 ICP DAS PMC 5151 User Manual Follow the steps below 1 111 Check Enable in the Function Status field under the Power Data Logger section to enable the Power Data Logger function Set the data log mode to be Average or Instantaneous from the dropdown list of the Log Mode If Average is selected the system will record the average value of the power data during the time interval set in Log Interval If Instantaneous is selected the system will record the instantaneous value of the power data when the time reaches the the time interval set in Log Interval If user would like to add a header to the power data to specify the name of the power data click Add in the Column Header the system will add the Column Header at the beginning of the power data logger file to specify the name of the power data Check Enable in the Function Status field under the User Defined Data Logger section to enable the User Defined Data Logger function Set up the data format in the Data Format field in the User Defined Data Logger section The User Defined Data Logger provides encoded strings for user to add real time power data o
123. dule List COM2 COM3 LAN QA No Address Nickname Module Name Polling Timeout ms Retry Interval secs ca CA M 6 O 1 1 VO Module 300 2 2 KO Module2 300 Figure7 37 Modbus module List Interface The following functions allow to perform settings or rearrange order of the Modbus I O modules Please select the Modbus I O module and click on the function button to perform the operations Setting Click the radio button in front of the Modbus I O module and click on Setting to get into the setting page of the Modbus I O module The settings for each Modbus I O module will be given in the following section Move Up Click the radio button in front of the Modbus I O module and click on Move Up to move the Modbus I O module to upper order upper index number No Move Down Click the radio button in front of the Modbus I O module and click on Move Down to move the Modbus I O module to lower order lower index number No Copy To copy the settings of a pre set Modbus I O module to the new Modbus I O module please click the radio button in 95 ICP DAS PMC 5151 User Manual front of the pre set Modbus I O module and then click on Copy a new Modbus I O module in sequence will be added to the list and the settings of the old Modbus I O module will be copied to this newly added Modbus I O module Remove Click the radio button in front of the Modbus I O module and click on Remove t
124. e field and you could also input the description of this PUE in the Description field 149 ICP DAS PMC 5151 User Manual iii Setup the calculation expressions of the Total Facility Energy and users can click add button to modify the expressions iv Setup the calculation expressions of the IT Equipment Energy and users can click add button to modify the expressions v Select the Data Classification of the PUE vi Setup the maximum display value of the chart on the main page PUE PUE 2 Setting No Nickname Description Energy Setting Total Facility Energy IT Equipment Energy Data Classification Display Setting Chart Maximum 2 PUE 2 Operator Power Meter Channel No Total Facility Energy Exist 9 7 Internal Register Setting PMC 5151 provides 48 Internal Registers they can be used to hold temporary variables and to read write data via Modbus address The configuration page is shown as follow FT PM 4324 Phase A Add Operator Power Meter Channel No IT Equipment Energy Exist Vv PM 4324 Y Phase A Add kWh v 3 OK Cancel Figure9 27 PUE Setting Page 2 150 ICP DAS PMC 5151 User Manual Internal Register Setting Page No Nickname Initial Value fy E o CR 1 Internal Register 1 0 2 Internal Register 2 D O Internal Register 3 0 4 Internal Register 4 0 5 Internal Register 5 0 Figure9 28 Internal Register setting page 1
125. e to add a new schedule ii After clicking the Add new schedule a setting page will appear input name in the Name field and you could also input the description of this schedule in the Description field ii Select Mode to be Calendar or Repeat Calendar a In the Date field select the Starting Month and Duration from the dropdown list The maximum duration can be set 1s 12 months After you specify the Year and Month in the Date section the calendars corresponding to the Year and Month you specified will appear as shown below 146 ICP DAS PMC 5151 User Manual Schedule Schedule 1 Setting Nickname Schedule 1 Description Schedule Content Setting Mode Calendar ORepeat Starting Month 2013 May wi Duration Month s 08 30 00 12 00 00 Time Range s 13 00 00 17 30 00 v Date Add InRange Out of Range 2013 5 2013 6 2013 7 sun Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat Sun Mon Tue Wed Thu Fri Sat 1 Peer GE 4 1 OS ee a ee 6 5 Baap eee 11 2 eee eee 6 7 SO SRI eS EN tees 13 12 DIS RS ie MIN MIN 18 8 BR DER 15 14 SR D RE 20 19 o ee eee 25 16 Be ee ee eee eee 22 21 ne 27 26 en Ab RS ell Een 23 RES eee 29 25 EE ee 30 Figure9 24 Calendar mode of Schedule setting b In the Time Range s section click Add
126. e 150 99 JP IASH VE Se C0 ns nes mensnane ondes sonbenseniess rss 152 PRS SN OI ED A Te 153 IOL IF Condition Seti Hindi 155 OLE ICP DAS Mod l reon e mr abs cost 156 10 1 2 Modbus Module ccccccsscceceseeeeeeeeeeeeeeeeseeseeeeeeneeseeeneess 160 JOUE POWer MIET i srcsertsudousatiadvccetindueatiedueraliadnecatiadneatindsaetians 163 LOMA COMM OOM S tat S ves SERRE R 163 OS ETS r qoteananneen entice eer Gee gate gee Get eaten tues 164 TOG SSCHe Cle wucosustevsecusieerseustauswsusdeusocesiauiueustanwsysteuncusiaunseneaan 165 LO FP Upload Status ste a eee ere nn 165 DOS LS DAC RS S dt 166 WIS RUE Sde E A 166 10 110 Internal Resister susie veneer nn 167 10 2 THEN ELSE Action Setune sc esccncectucdtacertucdteceemctahainatadeeiacdideccatds 167 O2 ICPDAS Module sisi RE NRA indens 168 DO MODS NE en en 172 TODS PONETIMIOL R Sa nn en De ends nen eines E De 173 DO OMS en A dc ne ions 174 Oe ae ett RE rrr cree errr rere rrer rere 174 1026 SMS AIME EE RE ER nine 175 ICP DAS PMC 5151 User Manual 10227 SNMP Wrap nds nn nan 177 DOS ODA Bo 81ers gerne neon Rn On dde 178 1029 RUNG Status re nn eds e nan meme PANON Dan sta ie teens pe 178 TOPO Thermal RESISTE cevnsuctaceueurccosctetacvensatnenenceteacousataGrenseatacxates 179 Appendix I Modbus Address Table sirreadh 180 Appendix II Reset to Factory Default Setting and send password to Administrator 251 Appendix III Setup the GTM 201 USB with PMC 5151
127. e Retention Time field select the file retention time for the log file from the dropdown list The retention time can be 1 month 6 months or 12 months The default setting will be12 months 11 After all settings are completed click Save button to save the changes FTP Upload Setting Both Power Data logger files and User Defined Data logger files can be upload to remote FTP server of the manage center via FTP protocol The FTP Upload Setting page allows to set up parameters for FTP Upload the setting page is shown as below FTP Upload Setting Page Function Status Enable Address ftp 192 168 100 57 Por Remote FTP Server D Password Path Remote FTF Server Setting Test Upload Power Data Log Data Log Upload User Defined Data Log Upload Function Frequency Every 1 hour v Event Log Upload Event Log Upload Function Frequency Figure8 4 FTP Upload Setting Page 119 ICP DAS PMC 5151 User Manual Follow the steps below 1 In the Function Status check Enable to enable the FTP Upload function ii Inthe Remote FTP Server section input Address Port ID Password and Path 111 The user could test if the FTP settings are correct in the Remote FTP Server Setting Test section After clicking Send the system will create a folder on the remote FTP server and will generate a test file under this folder iv In the Data Log Upload Function section select the data log type use
128. e failed Port The setting will be the Port number of this power meter please make sure the Port number is the same as the settings of the module if the setting is not accurate the connection for PMC 5151 to the power meter will be failed NetID The setting will be the NetID of this power meter please make sure the NetID is the same as the settings of the module 81 ICP DAS PMC 5151 User Manual if the setting is not accurate the connection for PMC 5151 to the power meter will be failed Scan Rate Input the time interval for PMC 5151 to periodically retrieve the power data of this Modbus TCP Power Meter the setting range will be 0 65535 seconds Polling Timeout The time interval for PMC 5151 to send command to the Modbus TCP Power Meter and wait for the response the unit will be ms The setting range will be 1 10000 ms Retry Interval The time interval to wait for PMC 5151 to repeatedly send command again when PMC SI51 sends command to the Modbus TCP Power Meter and get no response The unit will be second the setting range will be 3 65535 seconds Main Power Meter When the Set as main power meter is selected this power meter will be set as main power meter and the power data of this meter will be displayed on the Main Power Meter area on the Power Data Overview page CT Phase Nickname For user to define nicknames for each CT or phase this nickname will be displayed on the Power M
129. e for the Modbus RTU Slave module Please minimize the number of Modbus address setting blocks merge the conjunctive setting blocks to speed up the data update rate for the communication between PMC 5151 and Modbus RTU Slave module The Coil Output Setting of Modbus RTU Module The Modbus RTU Module Coil Output Setting page is shown as follow 102 ICP DAS PMC 5151 User Manual Modbus Mapping Table Setting Data Model Coil Output 0x v Start Address 0 Data Number 1 Add Modbus Mapping Table Address Setting Nickname Setting Local Coil Output Discrete Input Input Register Holding Register Address 0x 1x 3x 4x No mapping table configuration Figure7 43 Coil Output Setting Page The settings are as follow Data Model PMC 5151 offers 4 Data Model selections to match the Modbus RTU Slave module configuration The Data Model list is as follow In this case please select Coil Output Ox The Modbus Address of Data Model Modbus RTU Slave Modules Start Address Allows setting up the starting address of Coil Output Ox on the Modbus RTU Slave module you would like to retrieve Data Number After finishing the Start Address setting specify the Data Number it is the number of Coil Output data you would like to retrieve from the Start Address After finishing the Start Address and Data Number setting click on Add button A new Coil Output address block will be added to
130. e settings are as follow Nickname For user to define nicknames for each I O channel this nickname will be displayed on the I O Information and Rule Setting pages Type Select the output signal type of the AO channel from the dropdown list Power On Value You can set the initial value of the AO channel in the Power On Value field The default initial value is 0 After all settings of the channels are completed click OK button to return to XW Board Setting page 89 ICP DAS PMC 5151 User Manual 7 3 I O Module Setting PMC 5151 allows connections to ICP DAS M 7000 modules It also supports standard Modbus RTU or Modbus TCP I O modules The I O Module Setting page allows user to add Modbus RTU or Modbus TCP I O modules that are connected to the PMC 5151 to the list After the module is added it allows to set up the configuration of the I O module The setting page is shown as below Modbus RTU Module List COM2 COM3 LAN OQ No Address Nickname Module Name Polling Timeoutims Retry Interval secs No module exists press this button to create one Figure7 26 I O Module Setting Page The following section will give more information how to add and complete settings of Modbus RTU I O modules and Modbus TCP I O modules After all settings are completed click Save button to save the changes Please Note 1 The COM2 RS 485 and COM3 RS 485 interfaces on PMC 5151 allows conne
131. e to specific phone numbers For SMS command function it allows to set up authorized phone numbers to receive SMS commands PMC 5151 will execute the commands received from authorized phone numbers only There are 2 types of SMS commands Retrieve channel data GET The user can retrieve specific channel real time data One SMS Command message can require up to 10 channel data values The user could add the encoded string to the message to retrieve the related channel data Modify channel data SET The user could modify channel data by SMS command Each SMS command message allows to modify one channel value 132 ICP DAS PMC 5151 User Manual 9 2 1 SMS Alarm Setting The SMS Alarm Setting page is shown as below SMS Setting Page SMS Alarm SMS Command PIN Code SMS Alarm List Nickname Phone Numbers Message Add new SMS alarm SMS Alarm 1 0958123456 Test message Figure9 6 SMS Setting Page 1 Please follow the steps below 1 Make sure the SMS Alarm Tab is selected ii In the PIN field input the 4 digit SIM card PIN code If the PIN code is not required leave the field blank ii Click Add new SMS alarm the SMS Alarm Setting page will appear as follow SMS Alarm SMS Alarm 1 Setting Nickname SMS Alarm 1 Description 886987654321 Add Phone Number CI Multilingual Support Unicode View Edit ee Message Source XW Board v Module XVV310C
132. e9 19 Figure9 20 Figure9 21 Figure9 22 Figure9 23 Figure9 24 Figure9 25 Figure9 26 Figure9 27 Figure9 28 Figure9 29 Figurel0 1 Figure10 2 Figure10 3 Figure10 4 Figurel0 5 Figure10 6 Figure10 7 Event Logoer Seine PAS nana 119 TP Upload Seine Fae 6 sis need dde 119 MA S HMS PaVe EE EE E E 129 Email setting page Name amp Description ceeeeeeeeeeeeeeeeeeeees 130 Email setting page SMTP Server 130 Email setting page Email Address cceeeceeeeeeeeeeeeeeeeeeeeaeeaees 131 Email setting page Email Content 131 SMS Seine Pas ln sa nn dent 133 SIMS Serine Page sin titine 133 SMS Command Setite Pace T egemunia nen 135 SMS Command Setting for GET Command 136 SMS Command Setting for SET Command 137 SMS Command listaan senc 137 SNMP Hap Seine Pape cecene ane EE E EAA 139 SNMP Trap Parameter Setting Page ccsscceceseeseeeeeeneeeeeeeeeees 139 Channel Data Type Setting Page 140 Example of Channel Data Type Variable Binding List 141 User Defined Data Type Setting Page ccccseeeeeeeeeeeeeeeeeeees 141 User Defined Data Interface in Edit Mode 142 User Defined Data Interface in View Mode 143 SNMP Trap setting with variable bindings list 143 Mier Cle avin Pe AOC isana a a e de cu 14
133. ection Status Modbus Coil Output Discrete Input Input Register Holding Register Address Ox 1x 3x 4x PMC 5151 System Data COM module Informations COM3 module Informations LAN Modbus TCP module Information XW Board Datas PUE Data Internal Register 1 Each Module Power Data block contains 1200 addresses 2 Each Power Meter Information block contains 50 addresses Module Power Data index 1 Of COM2 7 Module Power Data index 2 of COM2 7 Module Power Data index 3 of COM2 7 Module Power Data index 4 Of COM2 7 181 ICP DAS PMC 5151 User Manual Module Power Data Index 12 of COM2 7 Module Power Data index 15 of COM2 7 Module Power Data index 16 Of COM2 7 Power Meter Information index 1 of COM2 7 Power Meter Information Index 4 of COM2 7 Power Meter Information Index 5 of COM2 07 Power Meter Information index 6 of COM2 7 Power Meter Information Index 9 of COM2 7 Power Meter Information index 10 of COM2 7 Power Meter Information index 11 of COM2 7 Power Meter Information Index 12 of COM2 7 Power Meter Information ndex 15 of COM2 7 Power Meter Information index 16 of COM2 7 Module Power Meter Data of COM3 RUS ote 1 Each Module Power Data block contains 1200 addresses 2 Each Power Meter Information block contains 50 addresses 21000 22199 Module Power Data index 1 of COM3 7 22200 23399 Module Power Data index 2 of COM3 7
134. ection will introduce the DI DO AI and AO channel settings of the XW Board After all settings are completed click Save button to save the changes 7 2 1 XW Board DI Channel Settings The XW Board DI Channel Setting page is shown as follow using XW 107 as an example 83 ICP DAS PMC 5151 User Manual Module XVW107 Setting Nickname Description DI Attribute DO Attribute Channel Nickname Counter Type Counter Initial Value Ch 0 Disable x Ch 1 Disable M Ch2 a Disable M o Ch 3 Disable Ch4 Disable Ch 5 OoOo Disable v Ch Disable v Ch 7 Disable v Figure7 19 XW Board DI attribute setting page The settings are as follow Nickname For user to define nicknames for each I O channel this nickname will be displayed on the I O Information and Rule Setting pages Counter Type Specify the counter type to be Falling ON to OFF or Rising OFF to ON if you select Disable indicates that the counter of this DI channel will not function Counter Initial Value Set the initial value of the counter in the Counter Initial Value field This counter will start counting from the initial count value The default initial value is O After the DI channel settings are completed continue to perform settings of other channels after all settings are completed click Save button to save the changes and return to XW Board Setting page 7
135. ed CT2 2 2 SA 300064 2 Floating Point Electricity Yearly SA 300066 2 Accumulated Float Floating Point Electricity 3x Input Register Unit Register 16 Bits PM_SA 300000 PM_SA 300001 PM_SA 30000 PM_SA 300003 PM_SA 300004 Initializing UIntl6 0 Failed Power Meter Type Reserved NO Reserved Firmware Version Address NetID Error Code PM_SA 300005 1 1 Success p TD PM_SA 300006 PM_SA 30000 IP3 PM_SA 300008 1 Intl6 0 255 ntl6 0 255 Intl6 0 255 217 ce NO _ ICP DAS PMC 5151 User Manual PM_SA 300010 Ulnt16 1 65535 PM 3114 PM 3114 MTCP 4 Loops 1 Phase Modbus Data Parameter Name Length Range Address Type Ox Coils Output Unit Coil 8 Bits 3x Input Register Unit Register 16 Bits 218 ICP DAS PMC 5151 User Manual kVAh SA 300052 Floating Point 15 30 60 mins l l SA 300072 2 Float Floating Point Actual Demand 15 30 60 mins l l SA 300074 Float Floating Point Forecast Demand Max Demand SA 300076 Float Floating Point Hourly Max Demand SA 300078 Float Floating Point Daily CTI Max Demand SA 300080 Float Floating Point Monthly Daily Accumulated _ SA 300082 Float Floating Point Electricity Monthly Accumulated SA 300084 Float Floating Point Yearly Accumulated SA 300086 Float Floating Point 15 30
136. elected it allows this DO channel to enable Auto OFF function It is required to set up a time interval when this DO channel is set to be ON and the duration of the ON status reaches the pre set time interval the DO will automatically be set to OFF The unit is second 85 ICP DAS PMC 5151 User Manual DI Status Mapping When DI Status Mapping is selected the status of the DI channel with the same channel number on the XW Board will be copied to the DO channel For example when the DI Status Mapping is enabled on DOO when the DIO status is ON DOO will set to be ON and when the DIO status is OFF DOO will set to be OFF as well After all settings of the channels are completed click OK button to return to XW Board Setting page 7 2 3 XW Board AI Channel Settings The XW Board AI Channel Setting page is shown as follow using XW310C as an example Module XW310C Setting DI Attribute DO Attribute Al Attribute Channel Nickname Type Ch 0 0 mA 20 mA w Ch 1 0 mA 20 mA v Ch2 0 mA 20 mA Ch 3 0 mA 20 mA M h 4 Nickname Description AI Type Differential OSingle ended AO Attribute Deadband 0 0 20 mA 7 0 20 mA 0 20 mA 0 20 mA lo 0 20 mA Scale Minimum 0 Maximum 0 Minimum D Maximum 0 Min Max Min Max Min NM ax imum 0 imum 0 imum 0 imum 0 imum 0 imum
137. ent kW kvar kVA PF kWh kvarh kVAh Daily tot Electricity kWh Current demand 15 30 60 mins Phase C CT6 Voltage Current kW kvar kVA PF kWh kvarh kVAh Daily tot Electricity kWh Current demand 15 30 60 mins Average Total Voltage Current kW kvar 123 ICP DAS PMC 5151 User Manual kVA PF kWh kvarh kVAh Daily tot Electricity kWh Current demand 15 30 60 mins ssssssee Phase A CT22 Voltage Current kW kvar kVA PF kWh kvarh kVAh Daily tot Electricity kWh Current demand 15 30 60 mins Phase B CT23 Voltage Current kW kvar kVA PF kWh kvarh kVAh Daily tot Electricity kWh Current demand 15 30 60 mins Voltage Current kW kvar kVA PF kWh kvarh kVAh Daily tot Electricity kWh Current demand 15 30 60 mins Average Total Voltage Current kW kvar kVA PF kWh kvarh kVAh Daily tot Electricity kWh Current demand 15 30 60 mins Reserved Field 124 ICP DAS PMC 5151 User Manual 8 6 The format of the Power Report file The power report files are saved in CSV format Each line represents one record each field in the line is separated by a comma The data sequences from left to right in the line of the power report are as follows Index of hour Date Power meter ID Timing of hourly max kW hourly max kW Hourly total Electricity Average hourly PF Average hourly current Phase A Average hourly current Phase B Average hourly curre
138. ent places m Downloads fi OneDrive Homegroup 1 This PC hi Network Fier PMC 51 Nm iles Figure6 33 Firmware Update 2 iv Click Update to update the firmware Firmware Update Setting Firmware Information Current Version 2 1 0 Available Version Check Firmware Update Firmware PMC 5151 Firm Figure6 34 Firmware Update 3 v Click OK to start the firmware update to cancel the firmware update click Cancel Are ou sure you want to update firmware All settings without save will lost after you Update firmware Figure6 35 Firmware Update 4 69 ICP DAS PMC 5151 User Manual vi Updating the firmware Please note when the firmware update process is started please DO NOT close the update window or perform any system modification or may result in unexpected failures Do NOT close or leave this page The firmware is in update status 2 Figure6 36 Firmware Update 5 vil Click OK to complete the update process After the update is completed please clear the cache and cookies on your browser If the update process is failed please perform the update again The firmware has been updated to 2 1 0 successfully Please click OK to logout and login again to get into the new system OK Figure6 37 Firmware Update 6 70 ICP DAS PMC 5151 User Manual 7 Power Meter I O Module Setting Meter Module Setting page allows to perform settings of t
139. er 16 Bits DI Counter 0 DI Counter DI Counter 2 DI Counter 3 DI Counter 4 DI Counter 5 DI Counter 6 DI Counter 7 M 7088 8 DI 8 PWM Output channel Ox Coils Output Unit Coil 8 Bits PWM Output Ch 0 SA 000000 0 OFF 1 ON PWM Output Ch 1 SA 000001 0 OFF 1 ON 203 ICP DAS PMC 5151 User Manual PWM Output Ch 2 PWM Output Ch 3 PWM Output Ch 4 PWM Output Ch 5 PWM Output Ch 6 PWM Output Ch 7 Byte Byte Byte Byte Byte Byte O OFF I ON O OFF 1 ON O OFF I ON O OFF I ON O OFF 1 ON O OFF I ON 1x Discrete Input Unit Coil 8 Bits 3x Input Register Unit Register 16 Bits DI Counter 0 SA 300000 DI Counter 1 SA 300002 DI Counter 2 SA 300004 DI Counter 3 SA 300006 DI Counter 4 SA 300008 DI Counter 5 SA 300010 DI Counter 6 SA 300012 DI Counter 7 SA 300014 Byte Byte Byte Byte Byte Byte Byte Byte UInt32 UInt32 UInt32 UInt32 UInt32 UInt32 UInt32 UInt32 O OFF 1 ON O OFF 1 ON O OFF I ON O OFF I ON O OFF I ON O OFF I ON O OFF I ON O OFF I ON 0 4294967295 0 4294967295 0 4294967295 0 4294967295 0 4294967295 0 4294967295 0 4294967295 0 4294967295 204 ICP DAS PMC 5151 User Manual PM 2133 Modbus Data Parameter Name Length Range Address Type 3x Input Register Unit Register 16 Bits 205 Phase A ay Phase Phase D EN S lt L z be ICP DAS PMC
140. er to the following example The Modbus RTU module is connected to COM2 of PMC 5151 Its module index number is 3 So the SA value of the Modbus RTU module in PMC 5151 is 1000 3 1 x 1200 3400 The Modbus address of the I O channel of the module is in Sequence arrangement from the module starting address 3400 Modbus Mapping Table Address Setting Nickname Setting Local Coil Output Discrete Input Input Register Holding Register Ox 1x 3x 4x Address 400 Dan Aes CT 20 lt a lt w canines 10 parue 3402 3403 3404 3405 3406 3407 3408 3409 Remove All Setting Expand All Collapse All The detailed I O channel information of the module Disem 0 0 The allocation of the Modbus Address in PMC 5151 for the Coil Output setting of this Modbus RTU module is shown as below 249 ICP DAS PMC 5151 User Manual The allocation of the Modbus Address in PMC 5151 for the Discrete Input setting of this Modbus RTU module is shown as below The allocation of the Modbus Address in PMC 5151 for the Input Register setting of this Modbus RTU module is shown as below The allocation of the Modbus Address in PMC 5151 for the Holding Register setting of this Modbus RTU module is shown as below ICP DAS PMC 5151 User Manual Appendix IT Reset to Factory Default Setting and send password to Administrator During the operation of PMC 5151 if the hardware system setting data is
141. erage kWh 17 696 14 122 21 124 52 887 kvarh 6 423 5 127 7 665 19 198 kVAh 18 826 15 024 22 472 56 263 Refresh Figure5 2 Power Meter Information Overview Power Meter Attribute The Power Meter Attribute section will display different information according to different power meters and the ways they are connected to the PMC 5151 Currently PMC 5151 supports connecting to power meter via Modbus RTU Figure 5 3 or Modbus TCP Figure 5 4 If the power meter is connected via Modbus RTU it will display the Power Meter Number No Com Port Address Module Name If the power meter is connected via Modbus TCP it will display the Power Meter Number No IP Port NetID Module Name Power Meter Attribute No COM Port Address Module Name COM2 PM 3133 Figure5 3 The attribute of PM 3133 Power Meter 15 ICP DAS PMC 5151 User Manual No Power Meter Attribute IP Port 2 192 168 100 95 502 Figure5 4 Real Time Power Information Module Name PM 3133 MTCP The attribute of PM 3133 MTCP Power Meter In this section it provides real time power data information of the selected Power Meter For 3 phase power meter it will display real time information of Phase A Phase B and Phase C Figure 5 5 For single phase power meter it will display real time information of Loop 1 Loop2 Loop3 and Loop4 Figure 5 6 For PM 3112 will display real time information of Loop 1 and Loop2 Figure 5 7 KVA PF kVA kv
142. erage hourly voltage Average hourly kVA Average hourly kvar Timing of hourly max kW hourly max kW hourly total Electricity Average hourly PF Average hourly current Average hourly voltage Average hourly kVA Average hourly kvar Timing of hourly max kW hourly max kW hourly total Electricity Average hourly PF Average hourly current Average hourly voltage Total hourly kVA Total hourly kvar ss Timing of hourly max kW hourly max kW hourly total Electricity Average hourly PF Average hourly current Average hourly voltage Average hourly kVA Average hourly kvar Timing of hourly max kW hourly max kW hourly total Electricity Average hourly PF Average hourly current Average hourly voltage Average hourly kVA Average hourly kvar Timing of hourly max kW hourly max kW hourly total Electricity Average hourly PF Average hourly current Average hourly voltage Average hourly kVA Average hourly kvar Timing of hourly max kW hourly max kW hourly total Electricity Average hourly PF Average hourly current Average hourly voltage Total hourly kVA Total hourly kvar Reserved Field 126 ICP DAS PMC 5151 User Manual Date Time Power meter ID Submeter 1 Timing of daily max kW daily max kW daily total Electricity Average daily PF Average daily current Average daily voltage Average daily kVA Average daily kvar Timing of daily max kW daily max kW daily total Electricity Average daily PF Average dai
143. ers in the format of proportion chart If no group is pre set the user will not be able to perform inquiry operation 36 ICP DAS PMC 5151 User Manual Inquiry Mode Group v Group Location Y Subgroup Taipei v Inquiry Figure5 28 Inquiry by Group Mode User defined In user defined mode all power meters connected to the PMC 5151 will be listed If no power meter is connected the user will not be able to perform inquiry operation The minimum loop phase to be queried is loop phase Inquiry Mode User defined Y Power Meter Setting 0 loops are selected Select Loop Phase PM 2133 Phase A Phase B Phase C Average PM 3112 Loop 1 Loop 2 PM 3114 Loop 1 Loop 2 Loop 3 Loop 4 PM 3133 Phase A Phase B Phase C Average Inquiry Figure5 29 Inquiry by User defined Mode 37 ICP DAS PMC 5151 User Manual Click on Inquiry button to display the Electricity Usage Analysis of Proportion for the specified date range If the selected date does not contain the file or exceeds the date of the file storage range a message No file exists will be displayed The Electricity Usage Analysis of Proportion will be displayed as category pie chart in the lower region Move the mouse cursor close to the category pie chart the value will be displayed The electricity usage information will be listed as table below The maximum and minimum value of the loop phase will be listed on the table If the Data Classification of t
144. eter Information and Rule Setting pages For single phase power meter the user could give nicknames to the CT1 CT2 CT3 CT4 DO Attribute Nickname For user to define nicknames for each DO channel this nickname will be displayed on the Power Meter Information and Rule Setting pages Power On Value Set up the initial value for the DO channels when the power meter is powered on After all settings are completed click OK button to return to the Power Meter List 82 ICP DAS PMC 5151 User Manual 7 2 XW Board Setting XW Board Setting page allows the user to set up the configuration of the 5 XW Boards XW107 XW110 XW304 XW310 and XW310C that are connected to the PMC 5151 The XW Board Setting page is shown as follow Please note Each time PMC 5151 is allowed to connect to one XW Board module only XW Board Setting Page Module A107 Figure7 18 XW Board Setting Page Select the XW Board that are connected to the PMC 5151 from the drop down list and click Setting a window for setting up the parameters of XW Board and its I O channel will appear The setting for the module is shown as below Nickname For user to define a nickname for the module this nickname will be displayed on the I O Information and Rule Setting pages Description The Description field provides a space for the user to make a brief description of this XW Board The following s
145. fter all settings are completed click OK button to save the 100 ICP DAS PMC 5151 User Manual changes and return to Modbus RTU Module List Please note To set up the Power On value of the AO channels on M 7000 modules please use DCON Utility to set the value 7 3 6 Modbus RTU Module Setting PMC 5151 allows connections to modules that support Modbus RTU Slave protocol for offering I O interface function Through Modbus RTU protocol it enables to read or write 4 types of Modbus data Coil Output Discrete Input Input Register and Holding Register from the Modbus RTU Slave modules And by PMC 5151 IF THEN ELSE rule engine it allows to perform automation control operation on the modules And with SCADA software it also allows monitoring and control of the Modbus RTU modules which connect with the PMC 5151 The Modbus RTU Slave Module setting page is shown as follow Module 1 0 Module Setting Nickname O Module Description Address 1 M Scan Rate oo second s Polling Timeout 300 millisecond s Retry Interval 5 second s Modbus Mapping Table Setting Data Model Coil Output Ox v Start Address 0 Data Number 1 Add Modbus Mapping Table Address Setting Nickname Setting Local Coil Output Discrete Input Input Register Holding Register Address Ox 1x 3x 4x No mapping table configuration Figure7 42 Modbus RTU Slave Module Setting Page The settings are as below Nickname For user
146. further edition Are ou sure vou want to load the setting file All unsaved settings will be lost after you load the file Cancel Figure4 7 Confirm to load settings Save button allows to save all parameter settings and Rule settings to PMC 5151 Click on button and click OK to save all parameter settings and Rule settings from the web page of PMC 5151 to the PMC 5151 ICP DAS PMC 5151 User Manual Are you sure you want to save the setting file Figure4 8 Confirm to save settings KI Logout button allows to log out the system click on KI button and click OK to logout the system Are you sure ou want to logout Figure4 9 Confirm to logout The settings are saved If the settings are not saved to the PMC 5151 before performing logout a warming message will appear as below Do you want to save the settings before logout Figure4 10 Confirm to logout The settings are not saved Please note 1 All the edited settings on the webpage have to be saved to PMC 5151 to make all settings take effect before click on button the settings will only be saved on the Web page site not in the PMC 5151 2 Please DO NOT logout or close the web page during the process of the edition otherwise all pre set settings on the page will be disappeared In addition on the left side of the Rules management toolbar the user could give a nickname for th
147. fy the settings To copy the settings of a pre set SMS Alarm to the new SMS Alarm please click the radio button in front of the pre set SMS Alarm and then click Copy a new SMS Alarm will be added to the list and the settings of the old SMS Alarm will be copied to this newly added SMS Alarm x1 To remove a pre set SMS Alarm please click the radio button in front of the pre set SMS Alarm and then click Remove xii After you finish all the SMS Alarm selections and settings click Save button to save the settings 134 ICP DAS PMC 5151 User Manual 9 2 2 SMS Command Setting The SMS Command Setting page is shown as below SMS Setting Page SMS Alarm SMS Command PIN Code SMS Command ere ae SCAG ODisable Enable Authorized Phone Numbers Add SMS Command List Command Command String Add new SMS command status GET xXdi0 Figure9 8 SMS Command Setting Page 1 Please follow the steps below 1 11 pd 11 1V Make sure the SMS Command Tab 1s selected In the PIN field input the 4 digit SIM card PIN code If the PIN code is not required leave the field blank In the SMS Command Function section click on Enable to enable SMS Command function The SMS Command list will be displayed If Disable is selected the SMS Command list will be disabled In the Authorized Phone Number field click on Add to input the phone numbers you would like
148. g Point 200 ICP DAS PMC 5151 User Manual M 7024R 5 DI 4 AO channel 1x Discrete Input Unit Coil 8 Bits DI Ch 0 0 0FF 1 ON DI Ch 1 0 0FF 1 ON DI Ch 2 0 0FF 1 ON DI Ch 3 0 OFF 1 ON DI Ch 4 0 0FF 1 ON 3x Input Register Unit Register 16 Bits DI Counter 0 065535 DI Counter 1 0 65535 DI Counter 2 0 65535 DI Counter 3 065535 DI Counter 4 0 65535 4x Holding Register Unit Register 16 Bits M 7000 DI DO Module Maximum 16 DI channel 16 DO channel By the channel numbers of M 7000 DI DO Module the user can look up the address of the M 7000 DI DO Module channel from the following table Ox Coil Output Unit Coil 8 Bits 0 OFF 1 ON Byte 0 0FF I ON 0 OFF 1 ON Byte 0 OFF 1 ON DO Ch 5 SA 000005 DO Ch 6 SA 000006 DO Ch 7 SA 000007 0 OFF 1 ON Byte 0 OFF 1 ON Byte 0 OFF 1 ON yte Byte yte Byte Byte Byte DO Ch 4 O OFF 1 ON 201 ICP DAS PMC 5151 User Manual 202 ICP DAS PMC 5151 User Manual DI Counter 11 SA 300011 DI Counter 12 SA 300012 M 7080 M 7080B 2 Counter Frequency 2 DO channel Ox Coils Output Unit Coil 8 Bits DO Ch 0 SA 000000 0 OFF 1 ON DO Ch 1 SA 000001 0 OFF 1 ON 3x Input Register Unit Register 16 Bits DI Counter 0 SA 300000 Uint32 0 4294967295 DI Counter 1 SA 300002 Uint32 0 4294967295 M 7084 8 Counter Frequency 3x Input Register Unit Regist
149. ger pre defined in the SNMP Setting page in real time automatically when unusual events occur so that the SNMP Manager can respond immediately with corresponding operations The configuration page for SNMP Trap setting 1s shown as below SNMP Trap Setting Page Nickname Specific ID Amount of Variable Bindings amp es O SNMP Trap 1 1 2 Trap for Lighting 1 2 Trap for Air Con 1 2 Figure9 12 SNMP Trap Setting Page The settings steps are as below i Input Nickname and Specific ID and then click button to create a new SNMP Trap 11 To modify the settings of a pre set SNMP Trap please click on the radio button in front of the SNMP Trap and then click on Setting then the SNMP Trap Parameter Setting page will be showen as below You can modify the settings of the SNMP Trap you selected if required SNMP Trap SNMP Trap 1 Setting Nickname SNMP Trap 1 Description Specific ID 1 SNMP Trap Variable Binding List Content Format Add new variable bindings Figure9 13 SNMP Trap Parameter Setting Page 139 ICP DAS PMC 5151 User Manual 111 In the SNMP Trap Parameter Setting page you can input or modify the VI name of the SNMP Trap in the Nickname field and you could also input the description of this SNMP Trap in the Description field Input the Specifid ID value of the SNMP Trap in the Specifid ID field Click on Add new variable bindings to add a
150. gure5 37 User Defiend HMI page 43 ICP DAS PMC 5151 User Manual 5 11 Polling Time Information Users can check the polling time of each modules and power meters which are connected with PMC 5151 currently The Polling Time Infomation Page is as below Polling Time Information Page COM2 Modbus RTU Master Module Name Nickname Address Polling Time ICP DAS PM 3112 PM 3112 81ms ICP DAS PM 3112 PM 3112 81ms ICP DAS PM 3114 PM 3114 3 90ms ICP DAS PM 3112 PM 3112 81ms 333ms COM Modbus RTU Master No Module Name Nickname Polling Time 3 ICP DAS PM 3133 PM 3133 159ms Total 159ms LAN Modbus TCP Master No Module Name Nickname Address Polling Time ICP DAS PM 3114 MTCP PM 3114 MTCP 192 168 100 128 502 1 33mMS Figure5 38 Polling Time Information The graphic indicator on the right side of the No will reveal the connection status of the module the graphic indicators are as follow Online Offline Connecting 44 ICP DAS PMC 5151 User Manual 5 12 Modbus Table Information The user can query and print the detailed modbus address information of the modules which are connected to PMC 5151 Please refer to Appendix I for more detailed Modbus address description Inquiry Topic Figure5 39 The User Interface of Modbus Table Information Module Type Module Type includes 4 options Power Meter I O Module XW Board and Other Informa
151. he browser located and the system time of the PMC 5151 The PMC 5151 also provides SNTP Time Server function that allows to set up Time Synchronization to sync the clock through network The following figure illustrates the set up interface 48 ICP DAS PMC 5151 User Manual Time Synchronization Function Status MlEnable pool ntp org tock usno navy mil SNTP Time Server time windows com Use Default SNTP Time Servers Port 123 Sync Interval 6 vi hours Time Zone GMT 08 00 Taipei v Daylight Saving Time Enable Figure6 3 Time Synchronization Setting Follow the steps below to set up Time Synchronization Setting 1 11 111 iV V1 In the Function Status field check Enable to enable the Time Synchronization function In the SNTP Time Server field input the IP address or domain name of the SNTP Time Server There are 3 default SNTP Time Servers the user could modify the address to use other server Click Use Default SNTP Time Servers to restore the default Time Server settings The default Port number setting is 123 currently it is not allowed to be modified In the Sync Interval field select the time interval to specify how often will the PMC 5151 automatically connect to SNTP time server for time synchronization through the network The user could set the time interval to be 6 12 or 24 hours In the Time Zone field select the
152. he inquired data is Electricity Usage K Wh the statistic information of total Electricity Usage will also be listed on the table Statistic Chart Electricity Usage Analysis of Proportion Electricity Usage kWh 2014 8 17 M PM 3174 Loop 4 I PM 3114 Loop 3 E PM 3114 Loop 1 IBM PM 3114 Loop 2 EE PM 27134 Loop 4 M PM 2134 Loop 1 I PM 2134 Loop 3 M PM 2134 Loop 2 Electricity Information Loop Phase with Highest Value PM 3114 Loop 4 Highest Value 0 069 kWh Loop Phase with Lowest Value PM 2134 Loop 2 Lowest Value 0 044 kWh Total Usage 0 441 kWh Figure5 30 Electricity Usage Analysis of Proportion Chart 38 ICP DAS PMC 5151 User Manual 5 7 PUE Information Power Usage Effectiveness PUE information can be displayed in two modes Real Time and History users can change the viewing mode according to the requirement more detailed information is as below 5 7 1 Real Time Real Time overview mode allows display of the mutiple PUE values which are calculated by Total Facility Energy and IT Equipment Energy preset by users The page refreshes every 20 seconds the user could also click Refresh button to refresh the data immediately Power Usage Effectiveness PUE Information Total Facility Energy 4856 21 kWh IT Equipment Energy 2101 92 kWh Total Facility Energy 3226 92 kWh IT Equipment Energy 1629 29 kWh Total Facility Energy 4856 21 kWh IT Equipment Energy 1125 00 kWh Total F
153. he power meters and I O Modules that are connected to the PMC 5151 After getting into the setting page the overview page will display current setting of the power meters and I O Modules that are connected to the PMC 5151 shown as below N gt is Power Monitor amp Management System do fl CP DAS Co Lti 1691 MB instant Message Main Page System Setting Meter Module Setting Logger Setting Advanced Setting Rules Setting 4 Meter Module Setting Power Meter Setting Meter Module Setting Page XWY Board Setting Xw Goard VO Module Setting COM2 Modbus RTU Master Nickname Module Name Address Polling Timeout ms VO Module1 300 L PM 3114 PM 3114 1000 A PM 3112 PM 3112 1000 COM3 Modbus RTU Master LAN Modbus TCP Master No Nickname Module Name IP and Port NetID 1 L PM 3112 MTCP PM 3112 MTCP 192 166 100 51 502 1 ICP DAS Co Ltd All Rights Reserved Figure7 1 Meter Module Setting Page Meter Module Setting includes the following 3 setting options Power Meter Setting XW Board Setting I O Module Setting More detailed information for each function setting will be given in the following sections 71 ICP DAS PMC 5151 User Manual 74 Power Meter Setting On the Power Meter Setting page it allows to set up the settings of the Modbus RTU and Modbus TCP power meters that are connected to the PMC 5151 The Power Meter Setting page is shown as below
154. he settings 9 8 Flash HMI Setting Please refer to the document Flash HMI Tools Quick Start 152 ICP DAS PMC 5151 User Manual 10 Rules Setting After finishing all Advanced Setting configurations you can start to edit IF THEN ELSE rules Click the Rules Setting button a list of rules will be displayed on the left side of the page and at the right side of the page will show detailed content of each rule that was previously defined The rule setting page is shown as below Rules Setting Add new rule Rule Overview Air Conditioner Control GBS Air Conditioner Control a lt IF gt pene eae Schedule Schedule 1 Out of Range ee ee IS lt THEN gt Air Conditioner Control ce eae 7 COM2 M 7005 2 DOO Air conditioner switch OFF One Time lt ELSE gt COM2 M 7005 2 DOQ Air conditioner switch ON One Time Air Conditioner Control lt IF gt COM2 PM 2134 1 PM 2134 Loop 1 Meeting Room Forecast Demand gt 100 kA lt THEN gt COM 2 M 7005 2 DOO Air conditioner switch OFF One Time lt ELSE gt No action Air Conditioner Control lt IF gt COM2 PM 2134 1 PM 2134 Loop 1 Meeting Room Forecast Demand lt 100 kV lt THEN gt XVV Board XW 310C DOO ON One Time lt ELSE gt No action Figure10 1 Rules overview page In addition to the list of the rules Rule Management interface will also be shown on the left side of the page Detailed description is as below Add new rule
155. he upper left side please wait till the scan operation is completed To stop the scan operation click on Cancel to terminal the scan and leave the page 73 ICP DAS PMC 5151 User Manual Set the address range to scan Scan address from to 16 This process will take several seconds tt depends on the address range that you set CO Port COM Party Mone Baudrate 19200bps Stop bits 1 Figure7 5 Scaning the Power Meters v After the Scan operation is completed a Power Meter List will appear Figure 7 6 If the newly scaned module doesn t match the module previously set on the same address a window will appear Figure 7 7 please select the actual device that are connected to PMC 5151 After all settings are completed click Save button to save the changes Power Meter List Modbus RTU COM2 COM3 LAN Q No Address Power Meter Nickname 3 w 3 M Is earch 2 1 1 PM 3114 PM 3114 2 2 PM 3112 PM 3112 Figure7 6 The Power Meter List after Scan operation QA Some addresses are already in use Please select the module that you want to use for each address Address Previgus set Module Scanned Module OPM 31 J4 PM 31 14 PM 2134 2 OPM 3112 PM 3112 PM 2133 Figure7 7 Select the actual Power Meter connected to PMC 5151 7 1 2 Add Modbus RTU Power Meter manually In addition to perform Scan operation to automatically add Modbus RTU power meters to the list the user could also add the Modb
156. i Enter the SMTP server password in the Password field vill In the Security field select the security setting to be No Security TLS or SSL from the dropdown list ix After complete SMTP server setting continue to input Email address setting In the Sender Name field input the name of the sender The Email Address Setting page is shown as below Email Address Setting Sender Name Test Sender Email Address Test Yahoo com z Receiver Email lest google cam Remove Address Add Email Setting Test Figure9 4 Email setting page Email Address x Enter the sender s email address in the Sender Email Address field xi In the Receiver Email Address section click on Add to add the receiver s email address At least one email address has to be entered xii To verify whether your email setting is correct to send the Email click Send in the Email Setting Test section then PMC 5151 will send a test Email to the receiver s email address After complete Email Address setting continue to input Email Content setting Enter the email subject in the Subject field The Email Content Setting page is shown as below Email Content Setting Subject DATA Vi Pyy E d it DI 0 value Xdi0 DO 0 value Xdo0 Content Source Internal Register v No 1 Internal Register 1 v Figure9 5 Email setting page Email Content 131
157. icity Usage Analysis of Proportion The users could specify the data classification and the time range under this section and then select the loop s phase s to be inquired the corresponding Electricity Usage Analysis of Proportion will be displayed in category pie chart to show the Electricity Usage Proportion of the loops phases A Inquiry Topic Option Settings Function Type Electricity Usage Analysis of Proportion Y Data Classification V v Chart Type Yearly Chat 7 2014 Recorded Data File Range 2014 9 26 2014 10 21 Date Inquiry Mode Group v Group Location Y Subgroup Taipei v Inquiry Figure5 27 Electricity Usage Analysis of Proportion Function Type The user can select one of the following three options for electricity analysis Electricity Usage Analysis of Trend Electricity Usage Analysis of Time and Electricity Usage Analysis of Proportion Data Classification includes V voltage I current PF power factor Electricity Usage K Wh and Maximum Demand Chart Type Provides Yearly Chart Monthly Chart and Daily Chart Date Select the date range to be queried the system will provide the date range can be queried Inquiry Mode The user can select one of the following two options for inquirying group mode and user defined mode Group In group mode the user can select group and subgroup to inquiry the electricity usage analysis of loops phases of the power met
158. ickname Unit After all Holding Register settings of the Modbus RTU module 112 ICP DAS PMC 5151 User Manual are completed click OK button to save the changes 7 3 7 Modbus TCP Module Setting PMC 5151 allows connections to modules that support Modbus TCP Slave protocol for offering I O interface function Through Modbus TCP protocol it enables to read or write 4 types of Modbus data Coil Output Discrete Input Input Register and Holding Register from the Modbus TCP Slave modules And by PMC 5151 IF THEN ELSE rule engine it allows to perform automation control operation on the modules And with SCADA software it also allows monitoring and control of the Modbus TCP modules which connect with the PMC 5151 The Modbus TCP Slave Module setting page is shown as follow Module Module TCP Setting Nickname Mo dule TCP Description Polling Timeout 300 millisec ond s Retry Interval 5 second s Figure7 51 Modbus TCP Slave Module Setting Page 1 The settings are as below Nickname For user to define nickname for each I O channel this nickname will be displayed on the I O Information and Rule Setting pages Description The Description field provides a space for the user to make a brief description of this module IP Allows modification of the IP address of this Modbus TCP Slave module make sure the IP setting is the same as the settings of the module If the se
159. if the settings are not the same as the settings of the SNMP Manager the interaction between PMC 5151 and the SNMP Manager will be failed SNMP Manager List Address Read Write Trap 192 168 100 100 O O 192 168 100 95 O1 Figure6 10 The Address Setting for SNMP Manager 1i Click to Enable or Disable the working model between the SNMP Manager and the SNMP Agent of PMC 5151 Currently PMC 5151 provides two working models as Read Write Polling and Trap for SNMP Manager SNMP Manager List Address Read Write Trap 192 168 100 100 0 192 168 100 95 Oo Figure6 11 The Working Model Setting for SNMP Manager Please Note If no Read Write field on the list is enabled to accept 55 ICP DAS PMC 5151 User Manual the Read Write commands indicating that it will allow accepting the Read Write commands from ANY SNMP Manager i After completing the IP address and working model setting please click button to add the SNMP Manager to the list After adding the SNMP Manager click Save button to save the changes Read Write Trap SNMP Manager List Address Fi F O 192 168 100 95 Fi 192 168 100 100 O Fi Figure6 12 Save the SNMP Manager Setting 56 ICP DAS PMC 5151 User Manual 6 5 Security Setting Security Setting allows user to change the password that 1s required when access to PMC 5151 The user could also modify the settings of FTP Server and Idle Time The Security Setting page 1
160. igure 7 28 input the starting address and the ending address of the Modbus address that are going to perform scan Click on Scan the system will start to scan the M 7000 modules that match the settings previously set to cancel the scan click on Cancel Q Set the address range to scan Scan address from to 16 This process Will take several seconds it depends on the address range that you set COM Pot COM Parity Mone Baudrate 19200bps Stop bits 1 Figure7 28 Set up the Scanning Range for the M 7000 module 111 When the system is performing the scan Figure 7 29 the address that are performing scan will be dynamically shown on the upper left side please wait till the scan operation is completed To stop the scan operation click on Cancel to terminal the scan and leave the page 91 ICP DAS PMC 5151 User Manual set the address range to scan Scan address from to 16 This process Will take several seconds it depends on the address range that you set COM Port COM Parity None Baudrate 19200bps Stop bits 1 Figure7 29 Scaning the M 7000 modules iv After the Scan operation is completed an M 7000 module list will appear Figure 7 30 If the newly scaned module doesn t match the module previously set on the same address a window will appear Figure 7 31 please select the actual device that are connected to PMC 5151 After all settings are completed click Save button t
161. igure6 18 Figure6 19 Figure6 20 Figure6 21 Figure6 22 Figure6 23 Figure6 24 Figure6 25 Figure6 26 Figure6 27 Figure6 28 Figure6 29 Figure6 30 Figure6 31 Figure6 32 Figure6 33 Figure6 34 Figure6 35 Figure6 36 Figure6 37 Figure7 1 Figure7 2 Figure7 3 Figure7 4 Figure7 5 Figure7 6 Figure7 7 Figure7 8 Figure7 9 Figure7 10 Figure7 11 Figure7 12 Figure7 13 Figure7 14 Figure7 15 Figure7 16 lde Time Seine PASS nn nn nine ataddatedandiateians 59 l O Iinterhace Se time Pablo 59 Function setting to connect to HMI or SCADA ccccecceeeeeeeeee es 60 Function setting to connect to Modbus RTU slave device 60 I O Function setting about LAN 61 OCR SCLC ASG wrth orate nn ee et or ne 62 Power Meter Group Sctine seresrisrere erroen ireen oE Er annee 63 Group and Subgroup Viewing ccccccsseceeeeeeseeeeeeeeeeeeeeeneeseeeneess 63 Croup Scinn a 64 SU rO DSE E a E E 64 Subgroup Setting Window iii 64 Configurations for SUDSrOU Poges rs teneae ess eeenusebnes 65 Loops Phases of subroup Setting cccccceeeneeeeeeeeeeeeeeeneeeeeeneeees 66 Choose Loops Phased of Subgroup ccceeeseeeeeeeeeeeeeeeeneeeeeeneees 66 Add Loops Phases for Subgroup sesessssssesenerrrererrrrrrsrerrrrerennne 67 Configurations for Loops Phased of Subgroup c cceeeeeeeeeeeeees 67 Firmware Upda Tese E nie 68 Fei Wake DOI in A EA
162. imer is running and reached the setting time otherwise the status of Timer will remain in Not Timeout Follow the following steps 1 11 111 1V Input the nickname of the timer in the Nickname field Specify the initial status of the timer from the dropdown list of the Initial Status field The Initial Status could be Stop or Start Status Specify the period interval in units of seconds There are two modes to setup the period interval M Assign Period Input the period interval in units of seconds manually d Stop Y Assign Period 1 second s M Internal Register Assign the period interval as the value of selected internal register it Stop Internal Register No 1 IR1 T Please note The user must setup internal register before using internal register as timer period Please refer to ch 9 6 Internal Register Setting to setup internal register Click button to create a new Timer 144 ICP DAS PMC 5151 User Manual Timer Setting Page Nickname Initial Status Period Stop Y Internal Register No 1 IR1 y Timer1 Stop 10 second s Setting Copy Remove Save Figure9 20 Timer creating Page v Repeat steps i iv to complete settings of all Timer vi To modify the settings of a pre set timer please click on the radio button in front of the timer and then click on Setting to modify the settings The setting user interface is as fo
163. in Advanced Setting The Email group information will be displayed for you to verify if this is the Email group you are going to send the message to ii Click OK button to confirm the settings and return to the Rule settings page 10 2 6 SMS Alarm You can send a specific SMS Alarm message ICP DAS GTM 201 USB is required when executing a THEN ELSE Action statement The setting page is show as below SMS Alarm Action Setting SMS Alarm The temperature is too high Action Send SMS Alarm Information Phone Numbers 09123456678 Message Please note the engine temperature is too high Figure10 26 SMS Alarm action setting page Follow the steps below ii In the SMS Alarm field specify the SMS Alarm you want to execute in Action from the dropdown list Please note the SMS Alarm you select has to be enabled in Advanced Setting The selected SMS Alarm message such as phone numbers and message content will be displayed for you to verify if this is the SMS Alarm 175 ICP DAS PMC 5151 User Manual you want to send ii Click OK button to confirm the settings and return to the Rule settings page 176 ICP DAS PMC 5151 User Manual 10 2 7 SNMP Trap You can send a specific SNMP Trap when executing a THEN ELSE Action statement The setting page is show as below SNMP Trap Action Setting Trap SNMP Trap 1 Action Send SNMP Trap Information e PM 3114 Loop 1 V Variable Bindings a e The
164. ing Modbus address of the Holding Register block is 40060 40000 60 it requires to set 111 ICP DAS PMC 5151 User Manual 2 continuous Holding Register data in the setting and the data type is 32 bit Floating Point So that these retrieved Holding Register data will be kept in PMC 5151 Address 40300 and Modbus Mapping Table Address Setting Nickname Setting Local Coil Output Discrete Input Input Register Holding Register Address Ox 1x 3x 4x 300 Data Address 60 301 Data Number 2 302 303 Remove All Setting Expand All Collapse All OK Cancel Figure7 50 Input Register Setting Example for Modbus RTU Module To modify the starting address or quantity setting please click on the setting block to perform the modification The user could also modify Type Scale Ratio Offset and Deadband on this interface For more detailed information please refer to section The Input Register Setting of Modbus RTU Module OK Remove Data Address 60 Data Number 2 Type 32 bit Floating Point Inverse Big Endian Data Adjustment Scale Ratio 1 Offset 0 Deadband 0 If the user wants to assign a Nickname for the address blocks the user can click on the Nickname Setting tab and then input the Nickname for each address block The Nickname will be shown in the I O Information and Rule Setting pages Data Address 0060 N
165. into the page the Data review System setting Area of the Main Page will be Power Data overview page it will display all power information of the power meters that are connected to the PMC 5151 shown as below 11 ICP DAS PMC 5151 User Manual Power Data Overview Power Data Classification Data Classification1 Data Classification Data Classification3 PM 3114 Connection status _ PM 3112 Connection status _ Loop Y kiA Loop VW kV Loop 1 107 850 0 414 0 027 Loop 1 0 000 0 000 0 000 Loop 2 107 850 0 404 0 025 Loop 2 0 000 0 000 0 000 Loop 3 107 885 0411 0 026 Detailed information Q Loop 4 107 885 0 412 0 027 Detailed information Q Figure4 14 Power data Overview page Power data overview page display the power data of the power meters that connected to the PMC 5151 Depend on the requirement to select the desired classification of the power data to display the desired power data The page refreshes every 20 sec the user could also click Refresh button to refresh the data immediately The power data classification includes the following options V Voltage I Current kW Real Power kvar Reactive Power kVA Apparent Power PF Power Factor kWh kvarh kVAh Daily Accumulated Electricity Monthly Accumulated Electricity Yearly Accumulated Electricity Daily Carbon Emissions Monthly Carbon Emissions Yearly Carbon Emissions Hourly Maximum Demand Daily Maximum Dem
166. is PMC 5151 in the nickname field for easy recognition ICP DAS PMC 5151 User Manual 4 1 2 Real time information area Real time information area allows display of current free space and approximate number of days available to save of the microSD card of the PMC 5151 and the real time system information shown as below 372 4MB Approx 104 Days Instant Message Figure4 11 Real time information area gt 972 4MB Approx 104 Days CP 97 Allows display of the current free space and approxmiate number of days available to save of the micro SD card in PMC 5151 nsin Messa Allows display of real time system information click on Instant Message to open up the list of real time information maximum 10 information will be kept on the list 1545 4 ME Failed to initialize module MWl 7015 3 17 25 40 Failed to initialize module M 7015 3 17 25 40 Failed to initialize module M 002 21 17 24 40 Failed to initialize module M r002 2 17 14 43 Login successfully Figure4 12 Real time information list 4 1 3 System function toolbar According to the level of login permission the System function toolbar will be different If login as an administrator all parameter settings and data review function will be enabled more detailed information of the functions will be give in the following sections The System function toolbar includes the following function options Chapter 5 Main Page Chapter 6 System Se
167. is section it allows to enable or disable the FTP Server function on the PMC 5151 side The user could connect to PMC 5151 FTP Server via FTP software to remotely retrieve event log or data record file To enable this function check Enable in the Server Status field The default password is Admin the user could modify the password of the FTP Server on the PMC 5151 side if required Local FTP Server Setting Server Status MEnable D admin Change password Password New Password fs Figure6 15 Local FTP Server Setting Page 58 ICP DAS PMC 5151 User Manual Idle Time Setting After the administrator login into the PMC 5151 page when the idle time exceeds the pre set time interval default is 10 minutes the administrator will be automatically logout The idle time could be set as Disable 10 20 30 60 minutes after the setting 1s completed click Save button to save the changes Idle Time Setting Idle Time 20 minute s Figure6 16 Idle Time Setting Page 6 6 I O Interface Setting I O Interface Setting allows to setup the function settings on COM1 COM2 COMS3 or LAN The setting interface is shown as below I O Interface Setting Page COM COM2 COM3 LAN Function Figure6 17 I O Interface Setting Page The I O interface on PMC 5151 includes COMI RS 232 Reserved specifically for Modbus RTU Slave for connections to HMI or SCADA COM2 COMS3 RS 485 Reserved for Modbus RTU Master to
168. iting page for SD Card Status Condition Setting is shown as follow SD Card Status Condition Setting Status Abnormal Figure10 15 SD Card Status condition setting page Follow the steps below i When the status of micro SD Card appears irregular micro SD Card is not detected or the space is less than 100MB the result of this condition evaluation will be true Click OK button to confirm the settings and return to the Rule settings page 10 1 9 Rule Status The Rule Status Gif the Rule is disabled or enabled can be used as evaluation criteria for IF condition statement Please note there must be at least one edited rule on PMC 5151 controller for setting up Rule Status in the IF Condition Setting page The editing page for Rule Status Condition Setting is shown as below Rule Status Condition Setting Rule Rule 1 M Status Disable M Figure10 16 Rule Status condition setting page Follow the steps below 1 Specify the Rule that is going to be used in the IF Condition statement from the dropdown list of the Rule field ii Specify the Rule status to be Disable or Enable from the dropdown list of the Status field When the Rule status matches the specified status the evaluation result will be true ii Click OK button to confirm the settings and return to the Rule settings page 166 ICP DAS PMC 5151 User Manual 10 1 10 Internal Register Internal Register value ca
169. lect from the dropdown list to set the time interval of the recording session The Log Interval could be 1 min 5 mins 15 min hour 3 hours 6 hours 12 hours and 24 hours Default is 5 mins Each time when reaches the Log Interval it will perform one time data recording for the Power Data and User Defined Data In the File Name Format field select the File Name Format of the log file from the dropdown list YYYY indicates western year MM indicates month DD indicates date and the file format is CSV In the End of Line Character field select the appropriate End of Line Character format from the dropdown list CRLF applies to Windows LF applies to Unix Linux or CR applies to Mac In the Log File Retention Time field select the file retention time for the log file from the dropdown list The retention time can be month 2 months 3 months or 6 months The default setting will be 3 months After all settings are completed click Save button to save the changes Please Note The settings in Log Attribute Setting section apply to both Power Data Logger and User Defined Data Logger 118 ICP DAS PMC 5151 User Manual 8 2 Event Logger Setting 8 3 The Event Logger allows to record system event of the PMC 5151 the setting page is shown as below Event Logger Setting Page Log File Retention Time month s Figure8 3 Event Logger Setting Page Follow the steps below 1 In the Log Fil
170. llowing Timer Timer1 Setting Nickname Timer1 Description Initial Status Stop Y Period Assign Period Y 1 second s OK Cancel Figure9 21 Timer setting Page Assign Period Timer Timer1 Setting Nickname Timer Description Initial Status Stop Y Period Internal Register No 1 IR1 v OK Cancel Figure9 22 Timer setting page Internal Register vii To copy the settings of a pre set Timer to the new Timer please click the radio button in front of the pre set Timer and then click Copy a new Timer in sequence will be added to the list and the settings of the old Timer will be copied to this newly added Timer viii To remove a pre set Timer please click the radio button in front of the pre set Timer and then click Remove ix After all timer settings are completed click Save button to save the changes 145 ICP DAS PMC 5151 User Manual 9 5 Schedule Setting PMC 5151 provides Schedules to setup prescheduled routine tasks The setting of Schedule can be used to check if the system time of the PMC is in the range of date time setting of the schedule or not The checking status can be included in the IF Condition statements Schedule setting page is shown as below schedule Setting Page Nickname Mode Add new schedule D Schedule 1 Calendar Schedule 2 Repeat Figure9 23 Schedule setting page The settings steps are as below 1 Click on Add new schedul
171. lue field Indicate assign the new Holding Register value as the original Holding Register value minus the value in Value field iii Set up the value in the Value field PMC 5151 provides 7 value options Please refer to 10 2 1 3 section for more detailed information for value settings of these 7 options iv Specify the Frequency to be One Time or Repeat v Click OK button to confirm the settings and return to the Rule settings page 10 2 3 Power Meter Click on Power Meter 1 option Power Relay will appear You can execute an action to change the Power Relay status of the Power Meter in the THEN ELSE Action statement the editing page for Power Relay Action of Power Meter is shown as follow Power Relay of Power Meter Action Setting ii ila nt Bii VO Interface COM2 M Power Meter PM 3112 5 PM 3112 M Channel 0 x Status OFF Ml 173 ICP DAS PMC 5151 User Manual Figure10 23 Power Meter Relay Action setting page Follow the steps below 1 From the dropdown list of the Power Meter amp Channel field select the Power Meter module and Channel 11 Specify the output value of Power Relay from the dropdown list of the Status field The output value can be OFF or ON iii Specify the Frequency to be One Time or Repeat Click OK button to confirm the settings and return to the Rule settings page 10 2 4 Time
172. lul Ala lA S Fluvial A SM a gs lt es lt lt 2 T irr iil Il 229 ICP DAS PMC 5151 User Manual RUE CEE UT JS vA SA 300498 Floating Point SA 300500 Floating Point SA 300502 Floating Point Submeter 8 SA 300504 2 Floating Point SA 300506 2 Floating Point SA 300508 2 Floating Point SA 300510 2 Floating Point SA 300512 2 Floating Point SA 300514 2 Floating Point SA 300516 2 Floating Point SA 300518 2 Floating Point SA 300520 2 Floating Point SA 300522 2 Floating Point SA 300524 2 Floating Point SA 300526 2 Floating Point 2 2 2 2 2 2 2 2 2 2 2 2 2 z ar E Es Es Es En Er En EN BE az Er SA 300528 2 Float Floating Point 3 2 E a Er En Es ne En Le En 7 as ANS D D S lt kvarh kVAh SA 300530 Floating Point SA 300532 Floating Point SA 300534 Floating Point SA 300536 Floating Point SA 300538 Floating Point SA 300540 Floating Point SA 300542 Floating Point SA 300544 Floating Point SA 300546 Floating Point SA 300548 Floating Point SA 300550 Floating Point SA 300552 Floating Point SA 300554 Floating Point kvarh kVAh kvarh Phase C CT24 Phase B CT23 Phase A CT22 Alola EE nl SN Almlrlrlirlel S Fluvial Al SM w a gs lt es lt lt 2 T irr vil Il 230 ICP DAS PMC 5151 User Manual ETAT SAxr300556 2 Float Floating Point
173. ly current Average daily voltage Average daily kVA Average daily kvar Timing of daily max kW daily max kW daily total Electricity Average daily PF Average daily current Average daily voltage Average daily kVA Average daily kvar Timing of daily max kW daily max kW daily total Electricity Average daily PF Average daily current Average daily voltage Total daily kVA Total daily kvar Timing of daily max kW daily max kW daily total Electricity Average daily PF Average daily current Average daily voltage Average daily kVA Average daily kvar Timing of daily max kW daily max kW daily total Electricity Average daily PF Average daily current Average daily voltage Average daily kVA Average daily kvar Timing of daily max kW daily max kW daily total Electricity Average daily PF Average daily current Average daily voltage Average daily kVA Average daily kvar Timing of daily max kW daily max kW daily total Electricity Average daily PF Average daily current Average daily voltage Total daily kVA Total daily KVaT soosi Timing of daily max kW daily max kW daily total Electricity Average daily PF Average daily current Average daily voltage Average daily kVA Average daily kvar Timing of daily max kW daily max kW daily total Electricity Average daily PF Average daily current Average daily voltage Average daily kVA Average daily kvar Timing of daily max kW daily max kW daily total Electri
174. mation group overview mode allows display of power data of pre set group of power meters please refer to 6 8 Power Meter Group Setting The page refreshes every 20 seconds the user could also click Refresh button to refresh the data immediately Power Data Information Overview Group Overview Select Group Location M Select Subgroup All Li Data Classification V PM 3114 PM 3114 PM 3114 PM 3114 Loop 1 Loop 2 Loop 3 Loop 4 107 311 v 107 311 v 107 602 v 107 602 v PM 2133 PM 2133 PM 3112 PM 3112 Phase A Phase B Loop 1 Loop 2 111 2294 111 359 v 109 098 v 109 437 v Refresh Figure5 12 Power Data Group Overview Mode 21 ICP DAS PMC 5151 User Manual Select Group Select the group from the dropdown list in the Select Group field If no group is pre set the inquiry operation will be disabled Select Subgroup Select the subgroup from the dropdown list in the Select Subgroup field User can select one subgroup to view or select All to view power datas of all subgroups Data Classification The power data classification includes the following options V Voltage Current kW Real Power kvar Reactive Power kVA Apparent Power PF Power Factor kWh kvarh kVAh Daily Accumulated Electricity Monthly Accumulated Electricity Yearly Accumulated Electricity Daily Carbon Emissions Monthly Carbon Emissions Yearly Carbon Emissions Hourly Maximum Demand Daily Maximum Dem
175. mber of the Internal Register from the dropdown list Al Condition Setting Module amp Channel Operator Value XW Board XW310C Channel 0 The AI channel value from other ICP DAS modules such as XW Board or M 7000 could be used as evaluation criteria select the module and channel from the dropdown list to 158 ICP DAS PMC 5151 User Manual specify which channel value will be used Al Condition Setting Module amp Channel Operator XW Board M XW310C v Channel 2 v The AO channel value from other ICP DAS modules such as XW Board or M 7000 could be used as evaluation criteria select the module and channel from the dropdown list to specify which channel value will be used Al Condition Setting Module amp Channel Operator Value XW Board XW310C Channel 2 The Input Register value from other Modbus RTU TCP Slave modules could be used as evaluation criteria select the module and channel from the dropdown list to specify which channel value will be used Al Condition Setting Module amp Channel Operator Value XW Board v XW310C Channel 0 v Holding Register The Holding Register value from other Modbus RTU TCP Slave modules could be used as evaluation criteria select the module and channel from the dropdown list to specify which channel value will be used Al Condition Setting Module amp Channel Operator Value XW Board
176. me in the Name field and you could also input the description of this email in the Description field shown as below Email Email 3 Setting Nickname Email 3 Description Figure9 2 Email setting page Name amp Description In the SMTP Server field enter the IP or the domain name of the SMTP server or select the SMTP server from the dropdown list In the dropdown list PMC 5151 provide four public SMTP servers for selection as below Google Gmail Yahoo Mail Microsoft Outlook Hotmail AOL Mail After select SMTP server from the dropdown list PMC will automatically complete the Port Number and Security setting related to the SMTP server you select The SMTP Setting page is shown as below SMTP Server Setting Is pecify an address of SMTP server SMTP Server O Google Gmail smtp gmail com v Port 25 MlEnable D admin A Authentication DR uen Security SSL wi Figure9 3 Email setting page SMTP Server Input the Port number the default port number is set as 25 If the SMTP server requires account and password validation please select the Enable checkbox and continue steps vi viii to login into the SMTP server If the SMTP server doesn t need account and password validation uncheck the Enable checkbox and go directly to Step 1x 130 ICP DAS PMC 5151 User Manual vi Enter the SMTP server login ID in the Login ID field vi
177. n it will show the chart Group The preset group lists will be shown on the dropdown list of the Group if no group is pre set the inquiry operation will not be able to perform Subgroup According to the selected Group option the corresponding subgroups will be listed If the selected Group contains no subgroup or the subgroup doesn t setup any loop phase of the power meter the inquiry operation will not be able to perform Data Classification Data Classification allows to inquire various power data options including V Voltage I Current kW Real Power kvar Reactive Power kVA Apparent Power PF Power Factor kWh kvarh kVAh Daily Accumulated Electricity and Actual Demand Please refer to Figure 5 15 for an example of Realtime Chart for Group Mode Each time the Realtime Chart displays only one power information classification If a different power information classification is inquired the previously displayed chart will be closed automatically The user could choose desired power data classification to view the corresponding Realtime Chart The chart refreshes every 5 seconds 24 ICP DAS PMC 5151 User Manual Real Time Chart Power Meter Inquiry Topic Group Location Subgroup Taipei Data Classification Das 2015 1 7 Location Taipei m PM 2133 Phase A m PM 2133 Phase 8 mm PM 2134 Loop 1 Em PM 2134HLoop 4 m PM 3114Loop 2 mi PM 3114 Loop 4 Em PM 213 FPhase A m PM 313 Tot
178. n be used as evaluation criteria for IF condition statement the editing page for Internal Register Condition Setting 1s Shown as follow Internal Register Condition Setting No Operator Value User Defiend Internal Register 1 M 0 Figurel0 17 Internal register condition setting page Follow the steps below 1 11 111 1V Select the Internal Register that you are going to use the value as evaluation criteria for IF condition statement Specify the Internal Register Index from the dropdown list of No field Set up the expression statement for this Internal Register value Select an operator from gt lt gt or lt And then specify the evaluation value If this Internal Register value match the evaluation criteria the result of this condition evaluation will be true PMC 5151 provides 7 value options you can compare them with the Input Register value for condition evaluation Please refer to 10 1 1 3 section for more detailed information for comparison value settings of these 7 options Click OK button to confirm the settings and return to the Rule settings page 10 2 THEN ELSE Action Setting To add a THEN ELSE Action please select and set the Action from the dropdown list in the Add a new Action field under the THEN ELSE Action setting section ICP DAS Module Modbus Module Power Meter Timer Email 167 ICP DAS PMC 5151 User Man
179. n the M 7000 module to bring up the Configuration Window and setup the parameters such as Address Baudrate for the module The Configuration Window will be shown as follow using M 7019R as an example 8 Configuration for 7019R Module Version B305 ach eu Setting Channel Enable Disable Setting Running CH Input Range CH CJC Temp Offset e CH 0 S000 posodo 100 15 mv pooo H fono H Address dec fi ad i x Cz Baudrate 0 CH 1 75000 015 000 100 15 mv z poo H poo H Checksum Disable CH 2 15000 015 000 100 15 mv y x00 H f 00 00 4 Dataformat Engineering zi CH 3 15000 015 000 00 7 15 mv poo 0000 H I Filter Setti v ng 60Hz CH 4 75000 015 000 100 15 mv z 000 H foo H Parity Option None Parity N 8 1 x CH 5 15000 015 000 00 15 mv z 000 H pooo H wl i Lad ra CH 6 15000 015 000 100 15 mv ono 0000 H Command Response Delay Time CH 7 00315 000 315 100 15 mv o0 biel 00 00 Delay Time o 07 30 ms setting aa Select All Clear All Setting Set All as CH 0 Configure CJC Offset CIC Temperature 36 47 Enable CJC aa Module CJC Offset 00 00 Disable CJC information Calibration Exit Adjustable CJC Increment 2 We o mi le Setting Please note The following parameters has to be accurate to connect
180. nce a change Click OK button to confirm the settings and return to the Rule settings page 10 1 1 3 Al AI channel value from XW Board or M 7000 module can be included in the IF condition statements the editing page for Al Condition Setting is shown as below 157 ICP DAS PMC 5151 User Manual Al Condition Setting Module amp Channel Operator Value User Defiend XW Board M XW310C Channel 0 wv 0 Figure10 5 AI condition setting page Follow the steps below 1 Specify the module and channel from the dropdown list of the Module amp Channel section that you are going to include its value in the IF condition statements 11 Set up the expression statement for this channel value Select an operator from gt lt gt or lt 111 And then specify the evaluation value If this AI channel value match the evaluation criteria the result of this condition evaluation will be true iv PMC 5151 provides the following 7 values options you can compare them with the AI channel value for condition evaluation User Defined The User Defined value could be used as evaluation criteria input the User Defined value under the Value field Al Condition Setting Module amp Channel Operator XW Board XVV310C v Channel 0 Internal Register The Internal Register value could be used as evaluation criteria select the nu
181. ndex s of LAN 47000 48199 Module Power Data index 6 of LAN 48200 49399 Module Power Data index 7 of LAN 49400 50599 Module Power Data index g of LAN 50600 5 1799 Module Power Data index 9 of LAN 51800 52999 Module Power Data index 10 of LAN 53000 54199 Module Power Data index 11 of LANG 183 ICP DAS PMC 5151 User Manual More detailed information for each block please refer to the number in quotes and find the related information in the following section 184 ICP DAS PMC 5151 User Manual 1 PMC 5151 System Data This block stores the system information of PMC 5151 shown as below Modbus Data 1x Discrete Input Unit Coil 8 Bits O Disable Local FTP Server 100000 l Byte 1 Enable 3x Input Register Unit Register 16 Bits x Input Register Unit Registe6Bis module 185 ICP DAS PMC 5151 User Manual O Initial success SMS Modem Status 30003 1 1 Ulnt16 oe Others Initializing O Not registered 1 Registered home network 2 Not registered and searching SMS Register Status 300032 l UInt1l6 3 Registration denied 4 Unknown 5 Registered roaming SMS Signal 300033 Uint16 0 65535 micro SD Free Space 300034 Uint16 0 65535 MB Initializing FTP Upload Status 300035 1 Intl6 0 Failed 1 Success Contract Sones opty 300036 2 Float 0 99999999 kW Carbon Carbon Footprint Factor Factor 300038 2 Float 0 001 99999999 Calculation Interval for 300040 1 UI
182. new variable binding for the SNMP Trap After clicking the Add new variable bindings the Variable Binding Setting Page will appear Select the variable type first PMC 5151 provides two variable types as Channel Data and User Defined Data for selection If you select the variable type as Channel Data type The setting page interface will be shown as below SNMP Trap Variable Binding Setting Page Type Channel Data User Defined Data Source COM2 La Channel Data Module PM 3114 1 Channel Loop 1 Info V M Format Opaque Float Figure9 14 Channel Data Type Setting Page Based on the Channel Data type interface it provides the encoded string for user to easily add one real time power data or I O channel data as the variable binding in SNMP Trap each time Select the Source Module Channel and Format from the dropdown list and click the OK button to add the power data or I O channel to the variable bindings list of the SNMP Trap The following figure shows two variable binding examples in Channel Data type are included in the SNMP Trap The first variable binding is the voltage value of PM 3114 Loop 1 on the module 1 that is connected to COM2 The second variable binding is the kW value of PM 3114 Loop 1 on the module 1 that is connected to COM2 140 ICP DAS PMC 5151 User Manual SNMP Trap Variable Binding List Content Format Ad
183. ng page Follow the steps below 1 Specify the module from the dropdown list of the Module section that you are going to include its Connection Status in the IF condition statements ii And then specify the Connection Status to be Offline or Online If the Connection Status of the module match the evaluation criteria the result of this condition evaluation will be true ii Click OK button to confirm the settings and return to the Rule settings page 10 1 5 Timer Timer condition can be used as evaluation criteria for IF condition statement the editing page for timer condition setting 1s shown as follow Timer Condition Setting Timer Timer1 Y Status Not timeout Y OK Cancel Figure10 12 Timer condition setting page Follow the following steps 1 Select the timer that you are going to use its status as evaluation criteria for IF condition statement Specify the timer from the dropdown list of the Timer field 11 Define the evaluation criteria of the timer status in IF statement to be Not timeout or Timeout If the timer status match the evaluation criteria the result of this condition evaluation will be true iii Click OK button to save the settings The popup window will be closed and return to the Rule settings page 164 ICP DAS PMC 5151 User Manual 10 1 6 Schedule The Schedule can be used as evaluation criteria for IF condition statement the edi
184. nt Phase C Average hourly voltage Phase A Average hourly voltage Phase B Average hourly voltage Phase C Total hourly kVA Total hourly kvar Reserved Field PM 2133 PM 3133 MTCP Monthly Report Index of Date Date Power meter ID Timing of daily max kW Daily max kW Daily total Electricity Average daily PF Average daily current Phase A Average daily current Phase B Average daily current Phase C Average daily voltage Phase A Average daily voltage Phase B Average daily voltage Phase C Total daily kVA Total daily kvar Reserved Field PM 2134 PM 3112 MTCP PM 3114 MTCP Daily Report Index of hour Date Power meter ID Timing of hourly max kW hourly max kW Hourly total Electricity Average hourly PF Average hourly current Average hourly voltage Average hourly kVA Average hourly kvar Timing of hourly max kW hourly max kW Hourly total Electricity Average hourly PF Average hourly current Average hourly voltage Average hourly kVA Average hourly kvar ICTN Timing of hourly max kW hourly max kW Hourly total Electricity Average hourly PF Average hourly current Average hourly voltage Average hourly kVA Average hourly kvar Reserved Field PM 2134 PM 3112 MTCP PM 3114 MTCP Monthly Report Index of date Date Power meter ID Timing of daily max kW daily max kW daily total Electricity Average daily PF Average daily current Average daily voltage Average daily kV
185. ntl6 15 30 60 minutes Demand 2 COM2 COM3 LAN Modules Connection Status This block stores the connection status of M 7000 power meter and Modbus TCP RTU modules that are connected to the PMC 5151 detailed information is shown as below ds Data CP Lenet DS f ee 1x Discrete Input Unit Coil 8 Bits The connection status of M 7000 power meter and 100060 i Byte 0 0ffline Modbus RTU modules that 100075 1 Online are connected to COM2 The connection status of M 7000 power meter and 100076 i Byte O Offline Modbus RTU modules that 100091 1 Online are connected to COM3 186 ICP DAS PMC 5151 User Manual The connection status of power meter and Modbus 100092 O Offline TCP modules that are 100107 1 Online connected to LAN 3 COM2 COM3 LAN Modules Information This block stores the module type or address information of M 7000 power meter and Modbus TCP RTU modules that are connected to the PMC 5151 If the module is M 7000 or power meter it will show the module type If it is the Modbus TCP RTU module it will show the Address or NetID of the module Detailed information is shown as below 3x Input Register Unit Register 16 Bits The module type or address of M 7000 300060 7002 7088 power meter or Modbus UIntl6 2133 4324 RTU modules that are 300075 Module Address 1 64 connected to COM2 The module type or address of M 7000 300076 7002 7088 power meter or M
186. o save the changes Modbus RTU Module List COM2 COM3 LAN Q No Address Nickname Module Name Polling Timeout ms Retry Interval secs E 7 300 5 og 3 3 M 7005 300 5 o 4 4 M 7015P 300 5 og 5 5 M 7017C 300 5 6 6 M 7018 300 5 Figure7 30 The M 7000 List after Scan operation Q Some addresses are already in use Please select the module that you want to use for each address Address Previous set Module Scanned Module 3 M 7005 M 7055 5 M 7022 7024R OK Cancel Figure7 31 Select the actual M 7000 modules connected to PMC 5151 92 ICP DAS PMC 5151 User Manual 7 3 2 Add Modbus RTU Module or M 7000 Module manually In addition to perform Scan operation to automatically add M 7000 modules to the list the user could also add the Modbus RTU module or M 7000 module manually one by one the steps are as below 1 No The number will be the order that the I O channel data of the Modbus RTU module being stored in the PMC 5151 Modbus Table The range is 1 16 1 Address The address will be the Modbus address of this Modbus RTU module please make sure the address is the same as the settings of the module if the setting 1s not accurate the connection for PMC 5151 to the Modbus RTU module will be failed Modbus RTU Module List COM2 COM3 LAN Q No Address Nickname Module Name Polling Timeout ms Retry Interval secs 1 1
187. o remove the selected Modbus I O module After all settings are completed click Save button to save the changes 7 3 5 M 7000 Module Setting PMC 5151 support ICP DAS M 7000 module the following section will give more detailed settings of ICP DAS M 7000 module setting page Figure 7 38 Nickname For user to define nicknames for each M 7000 module this nickname will be displayed on the I O Information and Rule Setting pages Description The Description field provides a space for the user to make a brief description of this M 7000 module Address The address will be the Modbus address of this M 7000 module please make sure the address is the same as the settings of the module if the setting is not accurate the connection for PMC 5151 to the M 7000 module will be failed Scan Rate Input the time interval for PMC 5151 to periodically retrieve the I O channel data of this M 7000 module the setting range will be 0 65535 seconds Polling Timeout The time interval for PMC 5151 to send command to the M 7000 module and wait for the response the unit will be ms The setting range will be 1 10000 ms Retry Interval The time interval to wait for PMC 5151 to repeatedly send command again when PMC SI151 sends command to the M 7000 module and get no response The unit will be second the setting range will be 3 65535 seconds The settings interfaces of the DI DO AI and AO channels on the M 7000 M
188. o security issues please check if the security settings of the remote VPN servers are matched with the VPN security settings of the PMC 5151 Please refer to the description of the web setting page as below Security Setting Data encryption Authentication Option Figure6 7 Enable O Auto EAP MD5 Challenge This option doesn t support VPN server setting MPPE 128 and MPPE 40 data encryption PAP This option doesn t support VPN server setting MPPE 128 and MPPE 40 data encryption CHAP This option doesnt support VPN server setting MPPE 128 and MPPE 40 data encryption MS CHAP lf VPN server is set as MPPE 126 please set VPN server configuration as MPPE stateful mode MS CHAP2 If VPN server is set as MPPE 128 or MPPE 40 please set VPN server configuration as MPPE stateful mode Security setting interface of VPN function 53 ICP DAS PMC 5151 User Manual 6 4 SNMP Setting The PMC 5151 provides SNMP Simple Network Management Protocol VI and V2c to work with the SNMP Network Management software for monitoring the system data power meter data and I O module data The SNMP Setting page allows you to enable or modify the settings of the SNMP function on the PMC 5151 The following figure illustrates the set up interface SNMP Setting Page Version V2c OV1 Read Community Name public Write Community Name lta Trap Community Name public Contact Your
189. odbus UIntl6 2133 4324 RTU modules that are 30009 ModuleAddress 1 64 connected to COM3 The module type or NetID of power meter or 300092 2133 4324 Modbus TCP modules UInt16 that are connected to 300107 Module NetID 1 247 LAN 4 Internal Register Data This block stores 48 sets of Internal Register data provided by PMC 5151 4x Holding Register Unit Register 16 Bits Internal Register 1 400060 Floating Point Internal Register 3 Floating Point Internal Register 4 Floating Point Internal Register 5 Floating Point 187 ICP DAS PMC 5151 User Manual Internal Register 7 400072 2 Float Floating Point Internal Register 8 400074 2 Float Floating Point 2 2 5 XW Board Data This block stores information of XW Board For different XW Board modules the data will be store in different address the following section shows corresponding address information for different modules XW107 XW107i Modbus Data Ox Coil Output Unit Coil 8 Bits ocho omo 1 Byte oore on DOG om 1 Byte foore ON och3s 0000 1 Bye OM ON och 00004 1 Bye OM ON DOCS 00020 1 Bye O OFRI ON DOCS 00006 1 Bye O OFRI ON och 000207 1 Bye OM ON 1x Discrete Input Unit Coil 8 Bits 3x Input Register Unit Register 16 Bits DI Counter 0 300200 Uint16 0 65535 188 p dt dt mt nd dt ee ICP DAS PMC 5151 User Manual DI Counte
190. odule are as below The DI channel setting for M 7000 module 96 ICP DAS PMC 5151 User Manual The M 7000 module DI channel setting interface is shown as below using M 7052 as an example Module M 7052 Setting Nickname Description Address 1 M Scan Rate 0 second s Polling Timeout 300 millisecond s Retry Interval 5 second s DI Attribute Channel Nickname Reset counter when power on Ch 0 O Ch 1 O Ch 2 O Ci oO h4 oe oO Ct O Ch 6 oO t O Figure7 38 M 7000 DI Channel Setting Page The settings are as below Nickname For user to define nickname for each I O channel this nickname will be displayed on the I O Information and Rule Setting pages Reset counter when power on If the Reset counter when power on is selected for the DI channel the DI channel counter of this M 7000 module will be reset to the default value when the PMC 5151 is powered on or after loading the rules After all settings of the DI channels are completed continue the configuration of other channel and after all channel settings are completed click OK button to save the changes and return to Modbus RTU Module List Please Note 1 For M 7000 modules the counting mode of the DI channel counter is Falling 2 To set up the default value of the DI channels on M 7000 modules please use DCON Utility to set the value The DO channel setting for M 7000 module 97 ICP DAS PMC 5151
191. of PMC 5151 and Modbus RTU slave device have to be set the same li In the Parity and Stop bits fields set up the Parity and Stop bits 60 ICP DAS PMC 5151 User Manual 111 iV The Parity and Stop bits of PMC 5151 and Modbus RTU slave device have to be set the same In the Silent Interval field input the the time interval between successive sending of commands from the PMC 5151to the Modbus RTU slave device the unit will be millisecond ms Please Note After the Baudrate is selected the system will automatically generate a proper value in the Silent Interval field For each Modbus RTU Slave device has different Modbus command process capability the response time for sending result from Modbus RTU Slave device to PMC 5151 might be different The user can adjust this value to most appropriate time interval such as extend this value to make sure every Modbus RTU Slave device connected to the PMC 5151 has enough time to process the Modbus command or shorten this value to improve the efficiency of the poll mechanism between Modbus RTU Slave device and PMC 5151 After all settings are completed click Save button to save the changes Connect to HMI or SCADA and Modbus TCP Slave device via LAN I O Interface Setting Page COM COM2 COM3 LAN MI Modbus TCP Master Modbus TCP Slave Function Figure6 20 I O Function setting about LAN The LAN function on PMC 5151 is by default set fo
192. ollow the steps below 1 Click OK button to confirm the settings and return to the Rule settings page 10 2 9 Rule Status The Rule Status can be modified to be Disable or Enable in the Action The editing page for Rule Status Action Setting is shown as below Rule Status Action Setting Rule Air Conditioner Control v Action Disable M Figure10 29 Rule Status action setting page Follow the steps below 1 Specify the Rule It has to be a previously saved Rule that is going to be changed in the Action Condition statement from the dropdown list of the Rule field 11 Specify the Rule status to be Disable or Enable from the dropdown list of the Action field When the Action being executed the Rule status will be changed to specified status ii Click OK button to confirm the settings and return to the Rule settings page 178 ICP DAS PMC 5151 User Manual 10 2 10 Internal Register You can modify the value of Internal Register in the THEN ELSE Action statement the editing page for Internal Register Action Setting is shown as below Internal Register Action Setting Frequency One Time ORepeat No Operator Value User Defiend 1 Internal Register 1 M M 0 Figure10 30 Internal Register action setting page Follow the steps below 1 Select the pre defined Internal Register from the dropdown list of the No field Please note the Internal Register you select has to be ena
193. om the dropdown list of the Module amp Address section that you are going to include its value in the IF condition statements 11 Define the evaluation criteria of the status in IF statement to be OFF or ON ii Click OK button to confirm the settings and return to the Rule settings page 10 1 2 2 Coil Output Coil Output channel value from Modbus TCP RTU Slave module 160 ICP DAS PMC 5151 User Manual can be included in the IF condition statements the editing page for Coil Output Condition Setting is shown as below Coil Output Condition Setting Module amp Address I O Interface COM me Module Air Conditioner Contral 4 M Address ow Status OFF M Figurel0 7 Coil Output condition setting page Follow the steps below 1 Specify the module and address of the Modbus TCP RTU Slave module from the dropdown list of the Module amp Address section that you are going to include its value in the IF condition statements 11 Define the evaluation criteria of the status in IF statement to be OFF or ON ii Click OK button to confirm the settings and return to the Rule settings page 10 1 2 3 Input Register Input Register channel value from Modbus TCP RTU Slave module can be included in the IF condition statements the editing page for Input Register Condition Setting is shown as below Input Register Condition Setting Module amp Address Operator Value User Defiend v
194. omponent click on M to remove the component Arrange order the order of the function component might result in different outcomes of IF THEN ELSE rule execution therefore user could click on W and drag the component to arrange the components into appropriate order The following section will give more detailed information of IF Condition and THEN ELSE Action settings 10 1 IF Condition Setting To add an IF Condition please select and set the Condition from the dropdown list in the Add a new Condition field under the IF Condition setting section IF Condition provides the following Condition setting options ICP DAS Module Modbus Module Power Meter Connection Status Timer Schedule FTP Upload Status SD Card Status Rule Status Internal Register If the PMC S151 is connected to ICP DAS XW Board M 7000 I O modules ICP DAS power meters or Modbus TCP RTU modules the setting options for I O channel information AI DI Discrete Input Coil Output Input Register and Holding Register or power data on these modules will be automatically displayed on the dropdown list To include subjects other than modules mentioned above in the IF Condition statement they have to be pre defined in Advanced Setting first 155 ICP DAS PMC 5151 User Manual The setting options of the subjects that already being defined in Advanced Setting will appear on the dropdown list of IF Condition Select the Condition option from
195. omtrot Products Dota Acmasition System O Ep Task Bar Settings Auto Hide Always On Top Blank Desktop Configure synchronization with a time server Enable Autorun when connecting a USB Disk Enable Autorun when connecting a Micro SD WinPAC Utility 2 1 0 4 Tee de 5 30 PM Za E 6 Click Yes button to reboot PMC 5151 When the reboot process is completed The driver will take effect Warning Would you like to save the settings and reboot the device 207 ICP DAS PMC 5151 User Manual Appendix IV The configuration setting of M 7000 module PMC 5151 allows connection to ICP DAS M 7000 modules for the I O channel data settings and data retrieve However for other configuration of the M 7000 modules must be completed via DCON Utility in advance so that the PMC 5151 can accurately connect to M 7000 module The procedures for M 7000 module parameter settings are as follow 1 Connect the M 7000 modules to the PC with DCON Utility installed via RS 485 cable make sure the RS 485 cable is properly connected For PC to receive RS 485 signals a RS 232 to RS 485 or a USB to RS 485 converter is required For more converter information please refer to ICP DAS converter product page http www icpdas com root product solutions industrial_ communication converte r converter selection html 2 You can download DCON Utility from the link below and Install the DCON Utility on PC http
196. on Copy a new group in sequence will be added to the list and the settings of the old group will be copied to this newly added group Remove Click the radio button in front of the group and click on Remove to remove the selected group Close Click the Close button to return to group setting page 65 ICP DAS PMC 5151 User Manual 6 8 4 Setup the loops phases of the subgroup 1 Click the Set up button of subgroup to open the setting window Power Meter Group Setting Z Gt Taipei Figure6 28 Loops Phases of subroup Setting 1 Select the loop phase of the power meter Figure 6 29 and click to add this loop phase to the lists Figure 6 30 Click Close button to return to group setting page Power Meter Loop Setting Power Meter Group Setting gt Location Group gt Taipei Subgroup ee ne eo ee ne EL PM 3114 PM 3114 NS Move Up Move Down Remove Close Figure6 29 Choose Loops Phased of Subgroup 66 ICP DAS PMC 5151 User Manual Power Meter Loop Setting Power Meter Group Setting gt Location Group gt Taipei Subgroup Power Meter Name PM 3114 PM 3114 PM 3114 PM 3114 Move Up Move Down Remove Figure6 30 6 8 5 Loop Phase of group configuration Power Meter Loop Setting Power Meter Group Setting gt Location Group gt Taipei Subgroup Power Meter Name PM 3114 PM 3114 PM 3114 PM
197. one 148 ICP DAS PMC 5151 User Manual 9 6 day after the start date Click Remove to remove a pre set Time Range iv Click on OK to confirm the setting and leave the setting page v Repeat steps 1 1v to complete settings of all Schedule vi To modify the settings of a pre set Schedule please click on the radio button in front of the Schedule and then click on Setting to modify the settings vil To copy the settings of a pre set Schedule to the new Schedule please click the radio button in front of the pre set Schedule and then click Copy a new Schedule in sequence will be added to the list and the settings of the old Schedule will be copied to this newly added Schedule vill To remove a pre set Schedule please click the radio button in front of the pre set Schedule and then click Remove ix After all schedule settings are completed click Save button to save the changes PUE Setting PMC 5151 provides 10 PUEs The configuration is shown as below PUE Power Usage Effectiveness Setting Page No Nickname Data Classification Add new PUE 1 PUE 1 kWh 4 PUE 4 kWh T PUE 7 kWh 10 PUE 10 kWh Setting Copy Remove Save Figure9 26 PUE Setting Page 1 The settings steps are as below 1 Click on Add new PUE to add a new PUE option ii After clicking the Add new PUE a setting page will appear select the number of the PUE from the dropdown list input name in the Nam
198. p 1 Meeting Room M lo Figure10 10 Power Meter condition setting page Select which power data of the Power Meter is going to be used and then continue the following steps taking option V as an example 1 Specify the power meter and loop phase from the dropdown list of the Module amp Address section that you are going to include its value in the IF condition statements 11 Set up the expression statement for this power data value of the Power Meter Select an operator from gt lt gt or lt 111 And then specify the evaluation value If this power data value of the Power Meter match the evaluation criteria the result of this condition evaluation will be true iv PMC 5151 provides 7 value options you can compare them with the power data value of the Power Meter for condition evaluation Please refer to 10 1 1 3 section for more detailed information for comparison value settings of these 7 options v Click OK button to confirm the settings and return to the Rule settings page 10 1 4 Connection Status Connection Status can be included in the IF condition statements the editing page for Connection Status Condition Setting is shown as below 163 ICP DAS PMC 5151 User Manual Module Connection Status Condition Setting Module W O Interface COM2 Module Air Conditioner Control 4 Status Offline Online Figure10 11 Connection Status condition setti
199. page Follow the steps below 1 Specify the module and address of the Modbus TCP RTU Slave module from the dropdown list of the Module amp Address section that you are going to include its value in the IF condition statements 11 Set up the expression statement for this Holding Register address value Select an operator from gt lt gt or cu 111 And then specify the evaluation value If this Holding Register value match the evaluation criteria the result of this condition evaluation will be true iv PMC S151 provides 7 value options you can compare them with the Holding Register value for condition evaluation Please refer to 10 1 1 3 section for more detailed information for comparison value settings of these 7 options v Click OK button to confirm the settings and return to the Rule settings page 162 ICP DAS PMC 5151 User Manual 10 1 3 Power Meter The power data of the Power Meter could be used as evaluation criteria the power data options are as follow V I kW kvar kVA PF kWh kvarh kVAh Actual Demand Forecast Demand Hourly Maximum Demand Daily Maximum Demand Monthly Maximum Demand Daily Total Electricity Monthly Total Electricity and Yearly Total Electricity The setting page for Power Meter Condition Setting is shown as below Power Meter V Condition Setting Power Meter amp Loop Phase Operator Value User Defiend COM2 PM 2134 1 PM 2134 Loo
200. r You can change the Timer status to Start or to Reset the Timer in the THEN ELSE Action statement the editing page for Timer Action Setting 1s shown as below Timer Action Setting Timer Timer1 Action Reset Y OK Cancel Figure10 24 Timer action setting page Follow the following steps i Select the pre defined Timer from the dropdown list of the Timer field Please note the Timer you select has to be created in Advanced Setting 11 Specify you want to Reset or Start this Timer when this THEN ELSE Action statement is executed The Start Action will start to run the Timer and if the Start Action is triggered one more time when the Timer is running the Timer will restart again The Reset action will reset the Timer and stop running the Timer ii Click OK button to save the settings The popup window will be closed and return to the Rule settings page 10 2 5 Email You can send a Email message to an Email group when executing a THEN ELSE Action statement the editing page is as below 174 ICP DAS PMC 5151 User Manual Email Action Setting Email Test Email M Action Send Email Information Receiver Email ae a Addrees Test Yahoo com Subject Test rare SXdiO Content C2M1ri4352 Figure10 25 Email action setting page Follow the steps below i Select a pre set Email group from the dropdown list of the Index field Please note the Email you select has to be enabled
201. r 5 300205 Uint16 0 65535 DI Counter 6 300206 Uint16 0 65535 DI Counter 7 300207 Uint16 0 65535 xXWw110i Modbus Data 1x Discrete Input Unit Coil 8 Bits Dia iowm 1 Bye 00FR ION Dias iowm 1 Bye 0S0FR ION DI Ch 4 100204 0 OFF 1 ON DI Ch 5 100205 0 OFF 1 ON DI Ch 6 100206 0 0FF 1 0N DI Ch 7 100207 0 0FF 1 0N DI Ch 8 100208 0 0FF 1 0N DI Ch 9 100209 0 OFF 1 ON DI Ch 10 100210 0 OFF 1 ON DI Ch 11 100211 0 OFF 1 ON DI Ch 12 100212 0 OFF 1 ON DI Ch 13 100213 0 OFF 1 ON DI Ch 14 100214 0 OFF 1 ON DI Ch 15 100215 0 OFF 1 ON 3x Input Register Unit Register 16 Bits DI Counter 0 300200 0 65535 UIntl6 0 65535 U a DI Counter 1 300201 DI Counter 2 300202 0 65535 0 65535 U as DI Counter 3 300203 0 65535 _ p pt pd DI Counter 4 300204 DI Counter 5 UIntl6 0 65535 DI Counter 6 DI Counter 7 300205 300206 300207 UIntl6 0 65535 UIntl6 0 65535 189 ICP DAS PMC 5151 User Manual icones 300208 1 Unto 0 6555 HDi Coumer 2000 1 Unie o 6ssas Di Counter 10 300210 1 Unie 0765535 HDi Cour 11 300211 1 Unie 0765535 p nt pt pt pd HDi Counter 12 30012 1 Umm 0765535 HDi Counter 2001 1 Ute 0765535 HDi Counter 14 300 1 umi 0765535 Di Goumer15 20015 1 Unie o ossas XW304 Modbus Data Ox Coil Output Unit Coil 8 Bits ocho oomoo 1 Byte 0 OFR ION DOI 000 1 Bye
202. r I O channel data to the Data Format content User can select the Edit tab or click on any blank area in the Data Format field and then the Real time variable editor will be shown as below User Defined Data Logger Setting Function Status MEnable View Edit C2M3ri4352 Data Format Source COM v Module PM 3112 3 Channel Loop 1 v Info Y v Select the Source Module and Channel from the dropdown list and click Insert to add channel value encoded string into the Data Format content The system will record the data the user pre set in the Data Format and will save the real data values in the data log file When editing the content the user can select the View tab and then 117 ICP DAS PMC 5151 User Manual VI Vil Vill the channel encoded string will be displayed in the real index format of the channel for user to check the settings in an easy way The figure above shows an example of the encoded strings the variable C2M3ri4352 indicates the V value of PM 3112 Loop 1 on the module 3 connected to COM2 When user select the View tab the channel value encoded string will de displayed as PM 3112 Loop V for user to check if the setting is appropriate please refer to the figure as below User Defined Data Logger Setting Function Status MEnable View Edit PM 3112 Loop 1 Data Format In the Log Interval field se
203. r Modbus TCP Slave to connect HMI or SCADA User can also select the Modbus TCP Master Checkbox to enable the Modbus TCP Mater function for connecting to Modbus TCP Slave devices through Ethernet 61 ICP DAS PMC 5151 User Manual 6 7 Other Setting In the Other Setting section it allows to set up Contract Capacity Setting Demand Interval Setting and Carbon Footprint Setting The setting interface is shown as below Contract Capacity Setting Function Status MEnable Contract Capacity no LR Demand Interval Setting Calculation Interval Every minutes Carbon Footprint Setting Factor 0 41 Figure6 21 Other setting page Contract Capacity Setting In this section it allows to enable and set Contract Capacity To enable the Contract Capacity function click on Enable and input the Contract Capacity Click Save button to save the settings The Contract Capacity being set will be displayed on the System Setting main page Demand Interval Setting In this section it allows to set Demand Interval Setting The system will calculate the demand according to this demand interval The default interval is 15 minutes the user could set the interval to be 15 30 60 minutes Click Save button to save the settings Carbon Footprint Setting In this section it allows to set Carbon Footprint Setting Please input the Carbon Footprint factor based on the Carbon Footprint factors for countries worldwide tha
204. r meters connected to the system This easy to use solution will dramatically reduce the labor and cost spent on power monitoring and management system PMC S151 allows connections to ICP DAS power meters via RS 485 or Ethernet interface to read the power data of the devices measured by the power meters and then real time record the power data in the data file PMC 5151 also provides data logger file auto send back function together with PMC Data Server software or SCADA software it allows collection and analysis of the power data P SMS N CN XW Boar PMC 5151 naison GTM 201 USB USB A HMI ViewPAC TouchPAD RS 485 Ethernet for Remote 1 0 amp Power Meters Mobile Device mr Monitor s PMC Data Server Ethernet Power Meter RS 485 Power Meter Flash HMI Tools Analog I O Digital O Relay Output Temp amp Humidity tM series tET series Module Module Module Figurel 1 PMC 5151 System Architecture With the built in Web Server it allows connection to PMC 5151 for power meter parameters and system settings via browser and allows viewing the real time or historical power data of the power meters In addition to power data monitoring function the PMC 5151 also could connect to ICP DAS XW Board M 7000 I O modules and standard Modbus RTU TCP Slave modules By working with the I O ICP DAS PMC 5151 User Manual modules and functions such as IF THEN ELSE logic rule execution and Email SMS Alarm
205. r would like to upload The data log type could be Power Data Log or User Defined Data Log And then select the Frequency from the dropdown list of the Frequency field The Frequency can be set as 5 mins 15 mins hour 3 hours 6 hours 12 hours or 24 hours The default setting will be 1 hour v In the Event Log Upload Function section if the user would like to enable the Upload Event Log function check Upload Event Log field And then select the Frequency from the dropdown list of the Frequency field The Frequency can be set as once a day once a week or once a month vi After all settings are completed click Save button to save the changes Please Note 1 All data logger files of PMC 5151 will be saved in the microSD card Before enable the Data Logger function please make sure the microSD card you use for PMC 5151 is FAT32 format 2 The microSD card given with the PMC 5151 is in FAT32 format already before delivery 120 ICP DAS PMC 5151 User Manual 8 4 The Path of Data Log File The data logger files of PMC 5151 will all be saved in the microSD card The following section will explain the path of the data logger files saved in the microSD card The power data files will be saved in the Log file folder each power meter will create a specific file folder with the name of its ID the data file architecture is shown as below Modbus RTU Power Meter Power Meter Data File Log
206. rd messaage will be displayed under the password field Click the Forget password messaage then the system will send the both passwords of the Administrator and the General User to the Email account of the administrator that was previously set by the user in 6 3 Security Setting section Nickname PMC 5151 Password Language English M CO Remember me Ne Power Monitor amp Management System CP DAS Co The following figure illustrate an example of the Email the PMC 5151 sends to the Email account of the Administrator The Email content will include the password of the Administrator the password of the General User and the password of the FTP Server of PMC 5151 Administrator password is Admin Guest password is User Local FTP password is Admin 3 Switch the Rotary Switch to position 0 252 ICP DAS PMC 5151 User Manual Delete the data logger files and reset the accumulated values of the power meter 1 Switch the Rotary Switch to position 8 2 Connect to PMC 5151 login webpage via Web browser and login as the Administrator 3 After login into the system the message box of Delete the data logger files and reset the accumulated values of the power meter will be displayed in the PMC 5151 Main page Click the Execute button for the reset and files delete operation System Setting Meter Module Setting Logger Setting Advanced Setting Rules Setting 4 Main Page Power
207. rent demand 15 30 60 mins Voltage Current kW kvar kVA PF kWh kvarh kVAh Daily tot Electricity kWh Current demand 15 30 60 mins Voltage Current kW kvar kVA PF kWh kvarh kVAh Daily tot Electricity kWh Current demand 15 30 60 mins Reserved Field PM 2134 PM 3112 MTCP PM 3114 MTCP Data Logger Field Date Time Power meter ID Voltage Current kW kvar kVA PF kWh kvarh kVAh Daily tot Electricity kWh Current demand 15 30 60 mins Voltage Current kW kvar kVA PF kWh kvarh kVAh Daily tot Electricity kWh Current demand 15 30 60 mins sesse Voltage Current kW kvar kVA PF kWh kvarh kVAh Daily tot Electricity kWh Current demand 15 30 60 mins Reserved Field PM 4324 Data Logger Field Date Time Power meter ID Submeter 1 Phase A CT1 Voltage Current kW kvar kVA PF kWh kvarh kVAh Daily tot Electricity kWh Current demand 15 30 60 mins Phase B CT2 Voltage Current kW kvar kVA PF kWh kvarh kVAh Daily tot Electricity kWh Current demand 15 30 60 mins Voltage Current kW kvar kVA PF kWh kvarh kVAh Daily tot Electricity kWh Current demand 15 30 60 mins Voltage Current kW kvar kVA PF kWh kvarh kVAh Daily tot Electricity kWh Current demand 15 30 60 mins Voltage Current kW kvar kVA PF kWh kvarh kVAh Daily tot Electricity kWh Current demand 15 30 60 mins Voltage Curr
208. reviously displayed chart will be closed automatically The user could choose desired power data classification to view the corresponding Realtime Chart The chart refreshes every 5 seconds Real Time Chart Power Meter Group Inquiry Topic Power Meter List PM 2133 Data Classification Y Inquiry OG Connection status 2015 01 06 PM 2133 E Phase A Ml Phase B M Phase C M Average 18 500 So 00 00 0 14 800 11 100 7 400 3 700 15 22 00 15 22 30 15 23 00 15 23 30 15 24 00 Figure5 13 Realtime Chart Power Meter Mode There are three function icons on the upper area of the Power Meter Realtime Chart e The M icon allows to pause the update of the chart only the data within the 25 minutes will be displayed The user could click and drag on the chart and move forward or backward to show desired time zone Click EJ to resume the update of the chart To view the data on a specific marker move the mouse over the marker to display the data value icon allows to hide the markers on the chart click on button to show the markers on the chart 23 ICP DAS PMC 5151 User Manual Connection Status will reveal the connection status of the power meter the graphic indicators are shown as follow Online Offline Connecting 5 3 2 Group Mode Select the option from the dropdown lists of the Group Subgroup and the Data Classification field and then click on Inquiry butto
209. rithm tcpRtoMin tcpRtoMax tcpMaxConn tcpActiveOpens tcpPassiveOpens tcpAttempFails tcpEstabResets tcpCurrEstab TCP tcpInSegs tcpOutSegs tcpRetransSegs tcpConnState tcpConnLocalAddress tcpConnLocalPort tcpConnRemAddress tcpConnRemPort tcpInErrs tcpOutRsts UdpInDatagrams UdpNoPorts UdpInErrors UdpOutDatagrams UdpLocalAddress UdpLocalPort SnmpInPkts snmpOutPkts snmpInBad Versions snmpInBadCommunityNames snmpInBadCommunityUses snmpInASNParseErrs snmpInTooBigs snmpInNoSuchNames snmpInBadValues snmpInReadOnlys snmpInGenErrs snmpInTotalReg Vars snmpInTotalSetVars snmpInGetRequests snmpInGetNexts SNMP snmpInSetRequests snmpInGetResponses snmpInTraps snmpOutTooBigs snmpOutNoSuchNames snmpOutBad Values snmpOutGenErrs snmpOutGetRequests snmpOutGetNexts snmpOutSetRequests snmpOutGetResponses snmpOutTraps snmpEnableAuthenTraps 264 ICP DAS PMC 5151 User Manual Private MIB File and SNMP Variables PMC 5151 provides the SNMP Agent can be used to monitor the system status power meter status and I O module status with the SNMP Network Management software You can find the PMC 5151 SNMP MIB file on the Software CD or from the ICP DAS PMMS Web site PMC 5151 com2pm1 Index com2pm1 Interface Power Meter1 On Com2 com2pm1ChKVAh 265 ICP DAS PMC 5151 User Manual The SNMP Variables naming rule of the Power Meter connected with PMC 5151 Every power meter that is connected to PMC 5151 provides the SNM
210. ropdown list and then set the Value to be modified you can also leave the Value field blank and input the value later according to requirement in real time when send back the SMS Command Take Figure 9 10 as an example you can leave the Value field blank and input the SMS Command AI 2 3 to modify the AI channel value to be 2 3 SMS Command Setting Command DATA View Edit Command String ditor Source Internal Register v No Internal Register 1 Figure9 9 SMS Command Setting for GET Command 136 ICP DAS PMC 5151 User Manual SMS Command Setting Command AO SET Xao00 2 3 Command String Source XVV Board v Editor Module XVV310C M AO M Ch 0 m Value 2 3 Figure9 10 SMS Command Setting for SET Command vii Click on OK to confirm the setting and leave the setting page vill Repeat steps v vii to complete settings of all SMS Command setting The SMS Command and its original corresponding command will be listed in the SMS Command List on the SMS Command setting page SMS Command List Command Command String Add new SMS command DATA GET xXdi0 Xdi1 Xdi2 C2M2ri4410 11 AO SET Xa00 2 3 DO SET xXdob 1 Figure9 11 SMS Command list On Figure 9 11 taking the first SMS Command on the list as an example when user send SMS message DATA to PMC 5151 PMC 5151 will send back the data of DIO DIT amp DI of the XW310C XW Board
211. ropdown list and click Insert to add channel value encoded string into the User Defined Data content The system will record the data the user pre set in the User Defined Data and save the real data values in the SNMP Trap Variable Binding When editing the content the user can select the View tab and then the channel encoded string will be displayed in the real index format of the channel for user to check the settings in an easy way The figure above Figure9 17 shows an example of the encoded strings the variable C2M1ri4352 indicates the voltage value of PM 3114 Loop 1 on the module that is connected to COM the variable C2M 1114356 indicates the kW value of PM 3114 Loop 1 on the module 1 that is connected to COM2 When users select the View tab the channel value encoded string will be displayed as PM 3114 Loop V and PM 3114 Loop kW for user to check if the setting is appropriate Figure9 18 142 ICP DAS PMC 5151 User Manual SNMP Trap Variable Binding Setting Page Type Channel Data User Defined Data View Edit The device is down the current is PM 3114 Loop 1 V the kW is PM 3114 Loop 1 KW User Defined Data Figure9 18 User Defined Data Interface in View Mode After completing the setting click the OK button to save the parameters and variable bindings setting and return to the SNMP Trap Setting Page SNMP Trap SNMP Trap 1 Setting Nickname SN
212. rule settings and encoded function for the content to avoid unauthorized access to the system This document is intended to give you a full range instruction to PMC 5151 You will be able to learn how to connect to power meters and I O modules how to display and log the power data how to edit logic of the rules and how to download the rules to the PMC 5151 for conditional execution ICP DAS PMC 5151 User Manual 2 Before Installation Modify PMC 5151 s network settings to fit current network environment settings and the default network settings of PMC 5151 is as follow E IP 192 168 255 1 E Subnet mask 255 255 0 0 E Gateway address 192 168 0 1 E DNS Server address 8 8 8 8 default Google DNS Server 1 Modify the network settings of the PC or Notebook to be the same network segment as PMC 5151 For example Mm IP 192 168 255 10 E Subnet mask 255 255 0 0 M Gateway address 192 168 0 1 2 Connect PMC 5151 LANI to PC by network cable PMC 5151 is capable of auto crossover 3 Start the browser and input http 192 168 255 1 in the address bar 4 Input default administrator password Admin to login into the page 5 After login in PMC 5151 web page go to System Setting Network Setting modify the network setting to fit current network environment More detailed setting information please refer to 6 2 Network Setting 6 Save the settings and connect PMC 5151 to the network Please Note 1 Before in
213. s SA 301088 Float SA 301090 Float SA 301092 Float SA 301094 Float SA 301096 Float SA 301098 Float SA 301100 Float SA 301102 Float SA 301104 Float SA 301106 Float SA 301108 Float SA 301110 Float SA 301112 Float Submeter 1 VTHD Submeter 1 ITHD Submeter 2 VTHD Submeter 2 ITHD Submeter 3 VTHD Submeter 3 ITHD Submeter 4 VTHD Submeter 4 ITHD Submeter 5 VTHD Submeter 5 ITHD Submeter 6 VTHD Submeter 6 ITHD Submeter 7 VTHD Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point 247 ICP DAS PMC 5151 User Manual Submeter 7 SA 301114 Float Floating Point ITHD Submeter 8 SA 301116 2 Float Floating Point VTHD Submeter 8 SA 301118 2 ITHD 3x Input Register Unit Register 16 Bits Float Floating Point I T Resened a PM_SA 300004 Uint16 1 247 U F F Initializing Error Code PM_SA 300005 1 Intl6 O Failed 1 Success frere 248 ICP DAS PMC 5151 User Manual Modbus Module This block stores the Modbus TCP RTU module I O channel data in PMC 5151 The start address of the block is from the SA value The allocation of the Modbus address of I O channel for each Modbus TCP RTU module is in sequence arrangement from the module starting address SA Please ref
214. s the operations will be executed during weekdays only On the contrary the Weekend button is for you to set all Saturdays and Sundays to be In Range and all Mondays to Fridays to be Out of Range that is the operations will be executed during weekends only Repeat a In the Day s of week section click on the day s in a week that is going to execute the schedule shown as below Schedule Schedule 1 Setting Nickname Schedule 1 Description Schedule Content Setting Mode OCalendar Repeat Day s of Week CJSun MMon MTue MWed MThu MFri Sat Exception Date s Add 08 30 wl 00 12 00 00 Remove Time Range s 13 00 00 w 17 30 00 Remove Add Figure9 25 Repeat mode of Schedule setting b In the Exception Date s selection click on Add to add the date s that is are not going to execute the schedule Click Remove to remove a pre set Exception Date c In the Time Range s section click Add to add new Time Range to execute this schedule Select the start time and the end time from the dropdown list Each Schedule is required to set at least one Time Range click on Add to add more Time Range Please note the time zones you specified can t be overlapped If you specify an end time that is earlier than the start time such as 20 00 00 06 00 00 it indicates the end time will be set
215. s as follow Administrator Password Setting Current Password Nevy Password Retype New Password Administrator Profile Setting Email Address Guest Password Setting Current Password New Password Retype New Password Local FTP Server Setting Server Status MEnable ID admin Password Change password Idle Time Setting Idle Time 60 minute s Figure6 13 Security Setting Page Password Setting PMC 5151 provides two passwords sets one for Administrator the other for Guest The default password for Administrator 1s Admin and User for Guest The user can modify the password in the Password Setting section the Password length is limited to 16 characters After all settings are completed click Save button to save the changes In addition if login as the Administrator in the Administrator Profile Setting section the users could input an email address once the password is forgotten or lost the PMC 5151 could send an email with the passwords administrator and guest to this email address for more detailed 57 ICP DAS PMC 5151 User Manual information please refer to Appendix II Administrator Password Setting Current Password fs o SE Password Administrator Profile Setting Guest Password Setting Current Password fs RSS SE Password Figure6 14 Password Setting Page Local FTP Server Setting In th
216. se to the marker the value will be displayed 32 ICP DAS PMC 5151 User Manual Statistic Chart HA Electricity Usage Analysis of Trend Electricity Usage kWh EE PM 31714 Loop 1 IBM PM 31714 Loop 2 IBM PM 3174 Loop 3 IBM PM 3174 Loop 4 5500 000 201310 2074 10 Figure5 24 PM 3114 Electricity Usage Analysis Trend Chart On the upper left of the Electricity Usage Analysis of Trend Chart there are 4 function icons m Set the Electricity Usage Analysis of Trend Chart to be default status m amp Zoom in the Y axis of the Electricity Usage Analysis of Trend Chart E amp Zoom out the Y axis of the Electricity Usage Analysis of Trend Chart E Hide the markers on the Electricity Usage Analysis of Trend Chart Show the markers on the Electricity Usage Analysis of Trend Chart 5 6 2 Electricity Usage Analysis of Time The users could specify the data classification and the time range under this section and then select the loop s phase s to be inquired the corresponding Electricity Usage Analysis of Time will be displayed in histogram chart to show the annual quarterly or monthly electricity usage comparison for each year 33 ICP DAS PMC 5151 User Manual Inquiry Topic Option Settings Function Type Electricity Usage Analysis of Time Select Loop Phase PM 2134 Loop 1 Data Classification Electricity Usage kWh Chart Type Yearly Chart Y 2014 2014 Recorded Data File Range 2014 7 17
217. seeseeneeaes 40 PUE information HistOry 2 ccccccecceeseceeceeceeseeseeeeeeeeeeseeaeeaes 40 I O Information login as Administrator 41 I O Information login as General User 41 Event Log information display VU 42 User Detiend HM Pa Cirrius een ae a asie dns 43 Polline Time MIO MANON LES een 44 The User Interface of Modbus Table Information 45 Inquiry result of Modbus Table Information 45 System Setting Overview Page Re 47 Time SOUS PAS Se a ee ti eat 48 Lime SY NCHLOMIZAU OM Sets n ee nent a sie 49 Neiwork SENS PAG Ciieessassocesmausetvasansvivemeunnd vedawiedveseniei veered vedeuias 50 Setting interlace GE VPN TUNCUON i ccctedecenedeserenctarenecteverendesenenctens 51 Setting interface of VPN function ss 52 Security setting interface of VPN function ccccseeseeeeeeeeeeees 53 SNMP Settna Pace weuinio acne acts aera 54 SNMP Manager ist nan naine 55 The Address Setting for SNMP Manager 55 The Working Model Setting for SNMP Manager 55 Save the SNMP Manager Setting cccccceeeseeeeeeeeeteeeeeeeeeseeeneees 56 SECUNILY SCMIMG PAR annee seen cet em ni 57 Password Se tune Pass sense eseme estate 58 Local ELP Server Sete Pabe ni nine 58 ICP DAS PMC 5151 User Manual Figure6 16 Figure6 17 F
218. shing the Start Address Data Number and Type setting click on Add button A new Input Register address block will be added to the Modbus address mapping table shown as below All added address blocks will be located in sequences staring from the Starting Address The address number on the first column of the Local Address indecates the local Modbus address of PMC 5151 to keep the Input Register data Figure 7 48 shows an example about Input Register setting for a Modbus RTU module The starting Modbus address of the Input Register block is 30010 30000 10 it requires to set 3 continuous Input Register data in the setting and the data type is 32 bit Floating Point So that these retrieved Input Register data will be kept in PMC 5151 Address 30300 30302 and 108 ICP DAS PMC 5151 User Manual 30304 Modbus Mapping Table Address Setting Nickname Setting Local Coil Output Discrete Input Input Register Holding Register Address Ox 1x 3x 300 Data Address 10 301 Data Number 3 302 303 304 305 Remove All Setting Expand All Collapse All OK Cancel Figure7 48 Input Register Setting Example for Modbus RTU Module To modify the starting address or quantity setting please click on the setting block to perform the modification The user could also modify Type Scale Ratio Offset and Deadband on this interface The Scale Ratio setting and Offset setting allows user
219. sification field it will list the requested data from various power meters for easy comparison The page refreshes every 20 seconds the user could also click Refresh button to refresh the data immediately Power Data Information eee RME LE KVAN T Power Meter List Loop 1 Phase A Loop 2 Phase B Loop 3 Phase C Loop 4 Total Overview Group Overview PM 2133 0 783 0 677 0 391 2 390 PM 3112 1 557 1 254 N A N A PM 3114 0 926 0 637 1 209 0 353 PM 3133 0 508 0 405 0 607 1 516 Refresh Figure5 9 Power Data Overview Mode The graphic indicators next to the power meter will reveal the connection status of the power meter the indicators are as follow Online Offline Connecting Click on Change display list Si Figure 5 11 to bring up the Power Meter List window Figure 5 12 Select the power meter to be displayed in the power meter list click OK to complete the settings 20 ICP DAS PMC 5151 User Manual Change display list ee eee KVAh v Power Meter List Loop 1 Phase A Loop 2 Phase B Loop 3 Phase C Loop 4 Total ata Information Overview Group Overview PM 2133 0 842 0 728 0 958 2 526 PM 3112 1 675 1 350 N A N A is PM 3114 0 997 0 685 1 302 0 380 PM 3133 0 546 0 436 0 653 1 633 Refresh Figure5 10 Change Display List Button E Power Meter List F PNL2133 2 PM 3112 PM 3114 PM 3133 Figure5 11 The Power Meter List 5 2 2 Group Overview Power Data Infor
220. sm_modem gtm 201_ mo dem software usb wince_driver winpac n ftp icpdas com pub c x C D http ftp icpdas com pub cd usbcd napdos gprs_gsm_modem gtm 201_modem software usb wince_driver w i ftp icpdas com pub cd usbcd napdos gprs_gsm_modem gtm 201 modem software usb wince driver winpac 6 8 2011 3 16 PM 6 8 2011 3 16 PM 2 Copy the driver installation file to PMC 5151 and double click it to install the driver File Edit View Go x A ey usb_winpac_ comS_v100 Tac JL 5 24 PM Ae 255 ICP DAS PMC 5151 User Manual 3 Click OK button and waiting for the installation process be completed Fie Edt view Go E AKILA AESI HEN icpdas gtm 201 usb_ Installing ICPDAS WinPac GTM 201 USB Tae JL 5 25 PM A E 4 Launch WINPAC_ Utility r My Device iy Yy Ji MN _U t j ity i Re g View nS TaskMgr Ea Microsoft wer iy Windows CE ay Tae de gt 5 30 PM Ae 256 ICP DAS PMC 5151 User Manual 5 Select Save and Reboot of the File menu WinPAC Utility 2 1 0 4 E m CA Help Configuration sme andret A Ethernet Settings Network Settings System Information auto Et Reboo out Save Welcome to use WinPAC Utility Restore Default Settings This tool will help you to set up the WinPAC 8000 Exit NI Display Resolution 800 600 v p CPHL Frequency 55 8 v coh Industrial C
221. ss 164 Schedule condition setting page 165 FTP Upload Status condition setting page 165 SD Card Status condition setting page 166 Rule Status condition setting page 166 Internal register condition setting page cscceeeseeeeeeeeeeeeeeeeeeees 167 DI Counter action setting page ccccceccecceeeceeeeeeneeeeeeeeeeeeeaeenees 169 DO ACUON SENS DAS ae ee ut 169 AOPACHON setine DAS E 170 Coil Output action setting page 172 Holding Register action setting page cecseeeeeeneeeeeeeeeeeeeeeeeeees 173 Power Meter Relay Action setting page sccseeseeneeeeeneeeeeeeeeees 174 Timer action setting paieras a a 174 Emakacuon Se MIM OPA OC See ne 175 SMS Alarm action setting page sisi 175 SNMP Trap Acton Setting PAS nissan lune 177 Data Logger action setting page 178 Rule Status action setting pac Gsicccccscctcetienttuntiesituviincdteiiendtieieeses 178 Internal Register action setting page 179 ICP DAS PMC 5151 User Manual 1 PMC 5151 Introduction The PMC S151 is an intelligent Power Meter Concentrator developed by ICP DAS It features various functions such as power data management logic control data logger and alarm notification functions By using PMC 5151 solution it is no longer required to write programming for power management system It takes only a few clicks on the specific Web HMI Interface provided by PMC 5151 to complete power management and logic control settings for monitoring the powe
222. ss of the AO channel 2 of the module is 23400 04 23404 The M 7000 module Modbus Address Table is shown as below 195 ICP DAS PMC 5151 User Manual M 7002 5 DI 4 DO 4 AI channel Ox Coil Output Unit Coil 8 Bits DO Ch 0 0 OFF 1 ON DO Ch 1 0 OFF 1 ON DO Ch 2 0 OFF 1 ON DO Ch 3 0 OFF 1 ON DO Ch 4 0 OFF 1 ON 1x Discrete Input Unit Coil 8 Bits DI Ch 0 0 OFF 1 ON DI Ch 1 0 OFF 1 ON DI Ch 2 0 OFF 1 ON DI Ch 3 0 0FF 1 ON DI Ch 4 0 0FF 1 ON 3x Input Register Unit Register 16 Bits AI Ch 0 Floating Point AI Ch 1 Floating Point AI Ch 2 Floating Point AI Ch 3 Floating Point DI Counter 0 0 65535 DI Counter 1 0 65535 DI Counter 2 0 65535 DI Counter 3 0 65535 DI Counter 4 0 65535 M 7005 6 DO gt 8 AI channel Ox Coils Output Unit Coil 8 Bits DO Ch 0 SA 000000 0 OFF 1 ON 196 ICP DAS PMC 5151 User Manual 3x Input Register Unit Register 16 Bits M 7011 1 DI 2 DO 1 AI channel DO Ch 0 0 OFF 1 ON DO Ch 1 0 OFF 1 ON DI Ch 0 0 OFF 1 ON 3x Input Register Unit Register 16 Bits M 7015 M 7015P 6 AI channel AI Ch 5 SA 300010 197 ICP DAS PMC 5151 User Manual M 7016 1 DI 4 DO 2 AI 1 AO channel Ox Coils Output Unit Coil 8 Bits DO Ch 0 0 OFF 1 ON DO Ch 1 0 OFF 1 ON DO Ch 2 0 OFF 1 ON DO Ch 3 0 OFF 1 ON 1x Discrete Input Unit Coil 8 Bits DI Ch 0 0 OFF 1 ON 3x Inp
223. stalling PMC 5151 please finish the hardware installation of the ICP DAS Power meter modules and make sure all wiring connections are accurate 2 If there are the M 7000 modules or Modbus TCP RTU Slave modules which will connect with PMC 5151 please also finish the hardware installation of the M 7000 modules or Modbus TCP RTU Slave modules and make sure all wiring connections are accurate 3 One PMC 5151 allows connections to at most 24 ICP DAS Modbus power meters including Modbus RTU and Modbus TCP power meters 4 One PMC 5151 allows connections to at most 8 Modbus TCP RTU Slave I O modules 5 A single I O interface COM2 COM3 or LAN allows connections to at most 16 devices Power meters and I O modules ICP DAS PMC 5151 User Manual 3 System Login When connect to PMC 5151 webpage server via Web browser IE 8 Firefox 3 6 Chrome 14 0 8 version or above are recommended in order to get a better operation experience 1280x1024 resolution is recommended The Login page of PMC 5151 is shown as below Nickname PMC 5151 Password is Power Monitor amp Management System Language English v d Remember me Figure3 1 PMC 5151 Login page By inputing different passwards two levels of authority are granted as follow Administrator Default password Admin Login as an administrator allows performing settings and reviewing of system information power meter information and I O modules information it
224. stics Information Overview On the Power Meter Statistics Information Overview page the Demand Information section will display the Actual Demand Forecast Demand Contract Capacity Hourly Maximum Demand Daily Maximum Demand and Monthly Maximum Demand etc In the Statistics Information section the Daily Monthly Yearly Accumulated Electricity and Daily Monthly Yearly Carbon Emissions for each loop will be displayed Power Meter Information A Matera Corer Overview Statistics Overview Demand Information Loop 1 Loop 2 Loop 3 Loop 4 15Minutes Actual 1 00 0 3 Penns 0 00 0 00 0 00 0 03 15Minutes Forecast AC 3 o 3 Demand kw 0 00 0 00 0 00 0 0 Contract Capacity kvV MAS N A NA N A Hourly Maximum 4 Demandi ks 0 00 0 00 0 00 0 03 Daily Maximum Demand kw 0 00 0 00 0 00 0 03 Monthly Maximum J 3 E 3 D in 0 00 0 00 0 00 0 03 Statistics Information S Reset Loop 1 Loop 2 Loop 3 Loop 4 Daily Cumulative 2 a Electricity kvh 0 00 0 00 0 00 Be Monthly Cumulative oc 29 Electricity k vh 000 0 00 0 00 0 32 Yearly Cumulative 29 Electricity kV h 0 00 0 00 0 00 0 32 Dami apon 0 00 0 00 0 00 0 07 Emissions kG Monthly Carbon 0 00 0 00 o 00 0 20 Emissions KG j i a a Yearly Carbon 0 00 0 00 0 00 0 20 Emissions KG Figure5 8 Power Meter Statistics Information Reset Power Meter Statistics information When login as an administrator the user could click on Reset button to set the values such as Daily Monthly
225. t Floating Point Floating Point 2 Float Floating Point Max Demand SA 300128 Monthly Daily Accumulated SA 300130 Electricity Monthly Accumulated SA 300132 2 Float Floating Point Electricity 2 Float Floating Point Yearly Accumulated SA 300134 2 Float Floating Point Electricity 3x Input Register Unit Register 16 Bits PM_SA 300000 Int16 PM_SA 300001 PM_SA 300002 PM_SA 300003 BCD PM_SA 300004 Uint16 3114 Reserved Power Meter Type Reserved Reserved OxO100 1 247 Initializing Error Code PM_SA 300005 l UIntl6 O Failed Reserved Firmware Version Address NetID 1 Success IPI PM_SA 300006 Intl6 0 255 IP2 PM_SA 300007 Intl6 0 255 IP3 PM_SA 300008 Intl6 0 255 IP4 PM_SA 300009 Intl6 0 255 PM_SA 300010 Uint16 PM_SA 300011 PM_SA 300012 2 Float PM_SA 300014 2 Float 1 65535 Reserved 0 01 655 35 1 65535 Port Number Reserved PT Ratio CT Ratio i NO 221 ICP DAS PMC 5151 User Manual PM 4324 0x Coils Output Unit Coil 8 Bits DO Ch 0 SA 000000 DO Ch 1 SA 000001 4x Holding Register Unit Register 16 Bits 0 OFF 1 ON 0 OFF 1 ON Harmonic Selector Submeter 1 Harmonic Selector Submeter 2 Harmonic Selector Submeter 3 Harmonic Selector Submeter 4 Harmonic Selector Submeter 5 Harmonic Selector Submeter 6 Harmonic Selector S
226. t mean ere 46 OS STE S EE a EEE OEE EE E eee D ne ie dense 0 47 6 1 Tae ER ee ee tie 48 62 NCINWOER Sene saraaa 50 6 3 PS CPS 51 OL SNMP Sete sun dd nd cie titi initier 54 6 5 DECULIEY SCD se ananas rate leds na et Nate it rs 57 6 6 WOMnMernace Seti siio 59 6 7 LA RES Se A A LUS 62 68 Power Meter Group Sctune susecvssiesoavesiwreivesensod veeerand vessie 63 6 8 1 Group and Subgroup Viewing ccceccsseceeeeeeeeeeeeeeeeseeeeeenees 63 6 8 2 Group and Subgroup Setting ccceeeseeeeeeeeeeeeeeseeseeeeeeeeeees 64 6 8 3 Group and Subgroup configuration ccccceeeseeeeeeseeseeeeeenees 65 6 8 4 Setup the loops phases of the subgroup ccecseeeeeeeeeeeeeeees 66 6 8 5 Loop Phase of group configuration 67 6 9 Firmware WG ale arenon a a 68 7 Powe Meters VO Mod le Seting serren a a E AEEA 71 7 1 PO Wer Mer SEUNG ocsescunstansssusiasemenstonwiosesaxtoavsinaveeudsionsvonsinavsnessees te 72 Tell Scan to add Modbus RTU Power Meters ccccceeeeeeeeeeeeees 73 Tel 2 Add Modbus RTU Power Meter manually 74 7 1 3 Add Modbus TCP Power Meter manually 76 7 1 4 Power Meter List InterfdC e i2essevsetie ses evict ate actatin wes aii 17 7 1 5 Modbus RTU Powe Meter Setting ccceseseeeeeeeeeeeeeeeeeees 18 7 1 6 Modbus TCP Powe Meter Setting c ccceeeceeeeeeeeeeeeeeeeeees 81 Te NE DO AUS RS tase pote ate ed En 83 7 2 1 XW Board DI Channel Se
227. t the International Energy Agency IEA published 62 ICP DAS PMC 5151 User Manual 6 8 Power Meter Group Setting The power meter group setting function allows user to create groups that contain specific loops phases of power meters for easy group classification These pre set groups can be inquired in Power Data Information and Historical Electricity Analysis pages for power data analysis The power meter group setting page is shown as below Power Meter Group Setting a EE 3 No group is set please click here to add new group Figure6 22 Power Meter Group Setting Please refer to the following chapters to setup the group subgroup and click the Save button to save the chages 6 8 1 Group and Subgroup Viewing Click the group or subgroup bar to expand hide the lists Power Meter Group Setting Save 1 1 Taipei 1 PM 2133 2 PM 2133 3 PM 2133 4 PM 2133 Phase A Phase B Phase C Total Average 8 2 System Figure6 23 Group and Subgroup Viewing 63 ICP DAS PMC 5151 User Manual 6 8 2 Group and Subgroup Setting 1 Click the Set up button of group or subgroup to open the setting window Power Meter Group Setting Save No group is set please click here to add new group Figure6 24 Group Setting Power Meter Group Setting Save 1 1 Taipei 1 on 1 PM 2133 2 PM 2133 3 PM 2133 4 PM 2133 Phase A Phase B Phase C Total Average
228. terface COM2 Module Air Conditioner Control 4 M Channel 0 Status OFF M Figure10 21 Coil Output action setting page Follow the steps below 1 Select the module and address of the Coil Output from the dropdown list of the Module amp Address section 11 Specify the output value of Coil Output from the dropdown list of the Status field The output value can be OFF or ON iii Specify the Frequency to be One Time or Repeat iv Click OK button to confirm the settings and return to the Rule settings page 10 2 2 2 Holding Register You can execute an action to change the value of Holding Register in the THEN ELSE Action statement the editing page for Holding Register Action is shown as follow 172 ICP DAS PMC 5151 User Manual Holding Register Action Setting Frequency One Time ORepeat Module amp Address Operator Value User Defiend v 0 Address ov Figure10 22 Holding Register action setting page Follow the steps below 1 Select the module and address of the Holding Register from the dropdown list of the Module amp Address section ii Specify the Operator in the Operator field The 3 operators are as follow Indicate assign the new Holding Register value as the value in Value field Indicate assign the new Holding Register value as the original Holding Register value plus the value in Va
229. that would be retrieved from the Start Address After finishing the Start Address and Data Number setting click on Add button A new Discrete Input address block will be added to the Modbus address mapping table All added address blocks will be located in sequences staring from the Starting Address The address number on the first column of the Local Address indecates the local Modbus address of PMC 5151 to keep the Discrete Input data Figure7 46 shows an example about Discrete Input setting for a Modbus RTU module The starting Modbus address of the Discrete Input block is 10020 10000 20 it requires to set 6 105 ICP DAS PMC 5151 User Manual continuous Discrete Input data in the setting So that the PMC 5151 can access the 10020 10021 10022 10023 10024 and 10025 Discrete Input address of the module and these retrieved Discrete Input data will be kept in PMC 5151 Modbus Address 10300 10301 10302 10303 10304 and 10305 Modbus Mapping Table Setting Data Model Discrete Input 1x Start Address 20 Data Number 6 Add Modbus Mapping Table Address Setting Nickname Setting Local Coil Output Discrete Input Input Register Holding Register Address Ox 1x 3x 4x 300 Data Address 20 301 Data Number 6 302 303 304 305 Figure7 46 Discrete Input Setting Example for Modbus RTU Module To modify the starting address or quantity setting please click on
230. the dropdown list in the Add a new Condition field under the IF Condition setting section a window will pop up for you to edit detailed information The setting options of IF Condition are as follow 10 1 1 ICP DAS Module Click on ICP DAS Module XW Board M 7000 3 options will appear as the following DI DI Counter and AI 10 1 1 1 DI DI channel value from XW Board or M 7000 module can be used as evaluation criteria for IF condition statement the setting page for DI Condition Setting is shown as below DI Condition Setting Module amp Channel I O Interface XW Board Module XW310C Channel 0 M Status OFF Figure10 3 DI condition setting page Follow the steps below 1 Specify the module and channel from the dropdown list of the Module amp Channel section that you are going to include its value in the IF condition statements 11 Define the evaluation criteria of the status in IF statement to be OFF ON ON to OFF OFF to ON or Change Once the DI channel value matches the evaluation criteria the result of this condition evaluation will be true Please note If the statement involves state transitions ON to OFF OFF to ON and Change the action will be executed only once and only at the moment when the state transition occurs iii Click OK button to confirm the settings and return to the Rule settings page 156 ICP DAS PMC 5151
231. the module and address from the dropdown list to specify which channel value will be used AO Action Setting Frequency One Time ORepeat Module amp Channel Operator Value XW Board XW310C v QE v Channel oy o Power Meter using the power data of the Power Meter select the power data from the dropdown list V I kW kvar kVA PF kWh kvarh kVAh Actual Demand Forecast Demand Hourly Maximum Demand Daily Maximum Demand Monthly Maximum Demand Daily Total Electricity Monthly Total Electricity and Yearly Total Electricity And then select the power meter and loop or phase from the dropdown list to specify which power meter and loop or phase value will be used 171 ICP DAS PMC 5151 User Manual AO Action Setting Frequency One Time ORepeat Module amp Channel Operator Value XW Board XW310C v M Channel 0 M iv Specify the Frequency to be One Time or Repeat v Click OK button to confirm the settings and return to the Rule settings page 10 2 2 Modbus Module Click on Modbus Module 2 options will appear as the following Coil Output and Holding Register 10 2 2 1 Coil Output You can execute an action to change the status of Coil Output of Modbus TCP RTU module in the THEN ELSE Action statement the editing page for Coil Output Action is shown as follow Coil Output Action Setting Frequency One Time ORepeat Module amp Address I O In
232. the setting block and input the setting Click OK for modification or click Remove to remove the setting Data Address 20 Data Number 6 If the user wants to assign a Nickname for the address blocks the user can click on the Nickname Setting tab and then input the Nickname for each address block The Nickname will be shown in the I O Information and Rule Setting pages 106 ICP DAS PMC 5151 User Manual Data Address 0020 Nickname After all Discrete Input settings of the Modbus RTU module are completed click OK button to save the changes The Input Register Setting of Modbus RTU Module The Modbus RTU module Input Register Setting page is shown as follow Modbus Mapping Table Setting Data Model Input Register 3x i Start Address 0 Data Number 1 Type 16 bit Signed Integer Add Modbus Mapping Table Address Setting Nickname Setting Local Coil Output Discrete Input Input Register Holding Register Address 0x 1x 3x 4x No mapping table configuration Figure7 47 Input Register Setting Page The settings are as below Data Model WISE 580x offers 4 Data Model selections to match the Modbus RTU Slave module configuration Please refer to the section The Coil Output Setting of Modbus RTU Module for detailed information In this case please select Input Register 3x Start Address Allows to set up
233. the user can modify the Web Server Port Modbus TCP Port Modbus NetID After all settings are completed click Save button to save the changes 50 ICP DAS PMC 5151 User Manual Please note 1 PMC 5151 adopts Google DNS server as system default DNS server the default IP is 8 8 8 8 the IP can be modified to other DNS server IP if required 2 If you make any modification to the network configuration the system will logout automatically and re connect to the web page automatically based on the new setting 6 3 VPN Setting PMC 5151 supports VPN Virtual Private Network function to connect with the virtual private network With this function it enhances the flexibility of the maintenance and management of the PMC 5151 The setting interface is as below VPN Setting Page Function Status Enable Server Setting Connection Type PPTP OL TP IPSec Hostname or IP Address Username Password TCP IP Setting Specify the IP Address oO O O O Specify the DNS Address DNS O Jlo 0 0 Security Setting Data Encryption Enable Authentication i Auto iest Save Figure6 5 Setting interface of VPN function 51 ICP DAS PMC 5151 User Manual When setting up the parameters of the VPN connection please setup correct and suitable settings of the VPN server TCP IP and security according to the parameters of the remote VPN server Please click Test or Save button to test
234. ting page for Schedule Condition Setting is shown as follow Schedule Condition Setting Schedule Schedule 1 Status In Range Figure10 13 Schedule condition setting page Follow the steps below 1 Select the Schedule that you are going to use for IF condition statement from the dropdown list of Schedule field ii The Status field must be In Range If the system time of the PMC is in the range of date time setting of the schedule the result of this condition evaluation will be true ii Click OK button to confirm the settings and return to the Rule settings page 10 1 7 FTP Upload Status The status of FTP Upload Status can be used as evaluation criteria for IF condition statement the editing page for FIP Upload Status Condition Setting is shown as follow FTP Upload Status Condition Setting Status Upload Failed Continuing 1 Hour s Figure10 14 FTP Upload Status condition setting page Follow the steps below ii In the Status field set up the maximum allowable idle time period when fails to upload files via FTP once the time period reaches the maximum allowable idle time period the result of this condition evaluation will be true ii Click OK button to confirm the settings and return to the Rule settings page 165 ICP DAS PMC 5151 User Manual 10 1 8 SD Card Status The status of SD Card can be used as evaluation criteria for IF condition statement the ed
235. tion Module Name According to the selected Module Type option the corresponding module name or information of Module Name will be listed Click on Inquiry to display the Modbus table information of the selected module Figure 5 39 The users can click on the Print button to print this Modbus address table Module Type Module Name Other Information v System Information Hi Inquiry Print No Port Address Module Name PT Ratio CT Ratio h COM ft fe Parameter Name Modbus Address _ Length Range M 30300 2 Float Floating Point l 30302 2 Float _ Floating Point kw 30304 2 Float _ Floating Point kvar 30306 JB Float Floating Point kVA 30308 2 Float Floating Point PF 30310 2 Float _ Floating Point kWh 30312 2 Float _ Floating Point kvarh 30314 2 Float Floating Point kVAh 30316 2 Float Floating Point lv 30318 2 Float _ Floating Point 30320 2 Float Floating Point kw 30322 2 Float Floating Point kvar 30324 2 Float _ Floating Point kVA 30326 Je Float Floating Point e Figure5 40 Inquiry result of Modbus Table Information 45 ICP DAS PMC 5151 User Manual 5 13 UID Information Users can check the UID information of each power meters which are connected with PMC 5151 currently The UID Infomation page is as below UID Information Page COM2 Modbus
236. tion and Rule Setting pages E Power On Value Set up the initial value for the DO channels when the power meter is powered on After all settings are completed click OK button to return to the Power Meter List 80 ICP DAS PMC 5151 User Manual 7 1 6 Modbus TCP Powe Meter Setting PMC 5151 support ICP DAS Single phase Modbus TCP Powe Meters the following section will give more detailed settings of the power meter setting page Using PM 3144 MTCP as an example Power Meter PM 3114 MTCP Setting Nickname PM 3114 MTCP Description IP 192 168 100 55 Port 502 NetID 1 Scan Rate 5 second s Polling Timeout 1000 millisecond s Retry Interval 5 second s Power Meter Setting Main Power Meter Set as main power meter CT1 CT2 Nickname CT3 CT4 DO Attribute Channel Nickname Power On Value Ch 0 OFF Ch 1 OFF Figure7 17 PM 3114 MTCP Setting Page The settings are as follow Nickname For user to define nicknames for each power meter this nickname will be displayed on the Power Meter Information and Rule Setting pages Description The Description field provides a space for the user to make a brief description of this power meter IP The address will be the IP address of this power meter please make sure the IP address setting is the same as the settings of the module if the setting is not accurate the connection for PMC 5151 to the power meter will b
237. tions of THEN ELSE Action are as follow 10 2 1 ICP DAS Module Click on ICP DAS Module X W Board M 7000 3 options will appear as the following DI Counter DO and AO 10 2 1 1 DI Counter You can reset DI counter of the XW Board M 7000 modules in the THEN ELSE Action statement the editing page for DI counter Action 1s shown as follow 168 ICP DAS PMC 5151 User Manual DI Counter Action Setting Module amp Channel W O Interface COM2 M Module M 7060 3 M Channel ov Action Reset Figure10 18 DI Counter action setting page Follow the steps below 1 Select the DI channel to reset DI counter from the dropdown list of channel field in the Module amp Channel section ii Click OK button to confirm the settings and return to the Rule settings page 10 2 1 2 DO You can execute an action in DO channel of XW Board or M 7000 module in the THEN ELSE Action statement the editing page for DO Action is shown as follow DO Action Setting Frequency One Time ORepeat Module amp Channel IO Interface XW Board Module XW310C Channel 0 Status OFF M Figure10 19 DO action setting page Follow the steps below 1 Specify the module and channel from the dropdown list of the Module amp Channel section 11 Specify the output value of DO Channel from the dropdown list of the Status field The output value can be OFF ON or Pulse Output Pulse Output applies to
238. to authorize to send SMS commands to PMC 5151 Keep on clicking Add to add all phone numbers to send the SMS commands to PMC 5151 click Remove to remove the phone numbers you want to delete Please note the Authorized Phone Number has to be input in the format Country code area code and number For example if the Authorized Phone Number is a cell phone number 0987654321 in Taiwan area please input the Authorized Phone Number as 886987654321 Authorized Phone 886987654321 Numbers Add 135 ICP DAS PMC 5151 User Manual v Click Add new SMS command the SMS Command Setting page V pd o will appear Input a command string in the Command field as the nickname for the original corresponding command in the Command String Editor section In the Command String Editor section select the command type to be GET retrieve real time channel data or SET modify channel data from the dropdown list For GET command shown as Figure 9 9 It provides an encoded string for you to add current I O channel data power data or Internal Register data into SMS command To make it easy to add the encoded string PMC provides Real time variable editor Please refer to 8 1 Data Logger Setting for more detailed information of the Real time variable editor For SET command shown as Figure 9 10 select Source Module and Channel from the d
239. to define nickname for each I O channel this nickname will be displayed on the I O Information and Rule Setting pages Description The Description field provides a space for the user to 101 ICP DAS PMC 5151 User Manual make a brief description of this module Address The address will be the Modbus address of this Modbus RTU module please make sure the address is the same as the settings of the module if the setting is not accurate the connection for PMC 5151 to the Modbus RTU module will be failed Scan Rate Input the time interval for PMC 5151 to periodically retrieve the I O channel data of this Modbus RTU module the setting range will be 0 65535 seconds Polling Timeout The time interval for PMC 5151 to send command to the Modbus RTU module and wait for the response the unit will be ms The setting range will be 1 10000 ms Retry Interval The time interval to wait for PMC 5151 to repeatedly send command again when PMC 5151 sends command to the Modbus RTU module and get no response The unit will be second The setting range will be 3 65535 seconds After all settings are completed click Save button to save the changes Please refer to the following sections for more detailed information of Coil Output Discrete Input Input Register and Holding Register configurations on Modbus RTU Slave module Please Note The number of Modbus address setting blocks will affect the data update rat
240. to define nicknames for each CT or phase this nickname will be displayed on the Power Meter Information and Rule Setting pages For three phase power meter the user could give nicknames to the Phase A B C After all settings are completed click OK button to return to the Power Meter List 79 ICP DAS PMC 5151 User Manual The Single Phase Modbus RTU Powe Meter Setting page is shown as follow using PM 3114 as an example Power Meter PM 3114 Setting Nickname PM 3114 Description Address 1 ScanRate 5 second s Polling Timeout 1000 millisec ond s Retry Interval 5 second s Power Meter Setting Main Power Meter Set as main power meter CT1 CT2 Nickname CT3 CT4 DO Attribute Channel Nickname Power On Value Ch 0 OFF Ch 1 OFF OK Cancel Figure7 16 PM 3114 Setting Page The settings are as follow For the settings of Nickname Description Address Scan Rate Polling Timeout Retry Interval and Main Power Meter please refer to Three Phase Modbus RTU Powe Meter Setting section CT Phase Nickname For user to define nicknames for each CT or phase this nickname will be displayed on the Power Meter Information and Rule Setting pages For single phase power meter the user could give nicknames to the CT1 CT2 CT3 CT4 DO Attribute E Nickname For user to define nicknames for each DO channel this nickname will be displayed on the Power Meter Informa
241. tting Chapter 7 Power Meter I O Module Setting Chapter 8 Data Logger Setting Chapter 9 Advanced Setting Chapter 10 Rule Setting If login as a general user they are allowed to view Main Page only they are allowed to view real time information on Main Page however they do not have permission to edit the settings of the parameters and the rules 10 ICP DAS PMC 5151 User Manual 4 2 Sub function area 4 3 Sub function area will display detailed functions under the selected System function The user could edit or review detailed function options in the Sub function area On the upper Sub function area the path of current function will be displayed to show the current function path Main Page Power Data Information Advanced Setting Schedule Setting Schedule Schedule 1 Setting Power Meter Information Email Setting Schedule Schedule Fower Data Information SMS Setting Mickname Real Time Chart Schedule Setting Description Historical Chart Internal Register Setting Historical Data Report Flash HMI Setting Schedule Content Historical Electricity Analysis Mode VO Information Event Log Date User Defined HMI Time Range s Figure4 13 Current function path Data review System setting area Data review System setting area allows to set system parameters and data review of PMC 5151 the content of this area will be varied according to the sub function selected When the user login
242. tting 1s not accurate the connection for PMC 5151 to the module will be failed Port Allows modification of the Port number of this Modbus TCP Slave module make sure the Port number is the same as the settings of the module If the setting is not accurate the connection for PMC 5151 to the module will be failed 113 ICP DAS PMC 5151 User Manual NetID Allows modification of the NetID of this Modbus TCP Slave module make sure the NetID is the same as the settings of the module If the setting is not accurate the connection for PMC 5151 to the module will be failed Scan Rate Input the time interval for PMC 5151 to periodically retrieve the I O channel data of this Modbus TCP module the setting range will be 0 65535 seconds Polling Timeout The time interval for PMC 5151 to send command to the Modbus TCP module and wait for the response the unit will be ms The setting range will be 1 10000 ms Retry Interval The time interval to wait for PMC 5151 to repeatedly send command again when PMC 5151 sends command to the Modbus TCP module and get no response The unit will be second The setting range will be 3 65535 seconds Modbus Mapping Table Setting Data Model Coil Output 0x v Start Address 0 Data Number h1 Add Modbus Mapping Table Address Setting Nickname Setting Local Coil Output Discrete Input Input Register Holding Register Address 0x 1x 3x 4x No mapping table configuration Figure
243. ttings 83 1 22 XW Board DO Channel Settings cceceeeeseeeeeeeeeeseeeeeeees 84 1 23 XW Board AI Channel Settings 86 7 2 4 XW Board AO Channel Settings cccccceeeseeceeeeeeeeeeeenees 89 13 WO Module Sen sans anaes 90 7 3 1 Scan to Add ICP DAS M 7000 Modules 90 132 Add Modbus RTU Module or M 7000 Module manually 93 T33 Add Modbus TCP Module manually ccceeeeeeeeeeeeeeees 94 7 3 4 I O Module List Interface VV 95 7 3 5 M 7000 Mod le SOLIS sta nada Lie ain 96 7 3 6 Modbus RTU Module Settings 101 7 3 7 Modbus TCP Module Seve crci 113 ICP DAS PMC 5151 User Manual 10 Logoer SC IND sen ni ions 115 8 1 DA LOS Cr SUS ah dd el ees ese 116 S2 Even Lorger SUNS vessserstesssecensvonssmavroimsensvedsweyvoatanseesesaearseiteney 119 So PP UIBIO AS SERA oreen aea es ee eee 119 4 The Path of Data Log Filename 121 8 5 The format of the Power Data Logger file ccseeceeeeeeeeneeeeeeees 123 8 6 The format of the Power Report file svsecssessrievecsesecsasseswideordureaceetess 125 8 7 The Format of User Defined Data File 128 PNGV ANCES CLUS EE SR nn nn ne dieu dede nent etienne 129 9 1 ES ne E dt 129 I2 SNS So E oE 132 9 2 1 SIMS Allan St gerie 133 9 2 2 SMS Command Sete ara 135 D3 SNMP Trap Se tin SES ne eo nent 139 OA Timer Semine tna nani 144 9 5 Schedule Semin rsh acuta scucnnc octet atecdat ena na 146 DO UTE SCANS SR ed iii ea oi dea 149 OF Hiternal Resistor SCO Smet t
244. ual SMS Alarm SNMP Trap Data Logger Rule Status Internal Register If the PMC 5151 is connected to ICP DAS XW Board M 7000 I O modules ICP DAS power meters or Modbus TCP RTU modules the setting options for I O channel information AO DO Coil Output 7 Holding Register will be automatically displayed on the dropdown list To include subjects other than modules mentioned above in the THEN ELSE Action statement they have to be pre defined in Advanced Setting first The setting options of the subjects that already being defined in Advanced Setting will appear on the dropdown list of THEN ELSE Action Select the Action option from the dropdown list in the Add a new Action field under the THEN ELSE Action setting section a window will pop up for you to edit detailed information The THEN Action statement will be executed only when the result of IF condition statement is found true otherwise the ELSE Action statement will be executed In order to meet application requirement for some Actions PMC 5151 offers options to execute the Action one time or repeatedly The setting options of THEN ELSE Action are as follow One Time when the IF Condition is TRUE this Action will be executed once and only once This Action will not be executed again until the IF Condition turns to be TRUE again Repeat when the IF Condition is TRUE this Action will be executed repeatedly until the IF Condition turns to be FALSE The setting op
245. ubmeter 7 SA 400000 SA 400001 SA 400002 SA 400003 SA 400004 SA 400005 SA 400006 UInt16 Ulnt16 Ulnt16 Ulnt16 Ulnt16 Ulnt16 Ulnt16 Disable Phase A CTI Phase B CT2 Phase C CT3 Disable Phase A CT4 Phase B CTS Phase C CT6 Disable Phase A CT7 Phase B CT8 Phase C CT9 Disable Phase A CT10 Phase B CT11 Phase C CT12 Disable Phase A CT13 Phase B CT14 Phase C CT15 Disable Phase A CT16 Phase B CT17 Phase C CT18 Disable Phase A CT19 Phase B CT20 Phase C CT21 222 ICP DAS PMC 5151 User Manual 0 Disable 1 Phase A CT22 Harmonic Selector SA 400007 l UInt1l6 Submeter 8 2 Phase B CT23 3 Phase C CT24 3x Input Register Unit Register 16 Bits Submeter 1 Phase B CT2 Phase A CTI Phase C CT3 223 ICP DAS PMC 5151 User Manual SA 300054 SA 300056 SA 300058 SA 300060 SA 300062 SA 300064 SA 300066 Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point Floating Point SA 300068 Floating Point SA 300070 Floating Point V SA 300072 Floating Point SA 300074 Floating Point SA 300076 Floating Point SA 300078 Floating Point kVA SA 300080 Floating Point SA 300082 Floating Point SA 300084 Floating Point SA 300086 Floating Point SA 300088 Floating Point
246. ure7 37 Figure7 38 Figure7 39 Figure7 40 Figure7 41 Figure7 42 Figure7 43 Figure7 44 Figure7 45 Figure7 46 Figure7 47 Figure7 48 Figure7 49 Figure7 50 Figure7 51 Figure7 52 Figure8 1 Figure8 2 PM 3114 MTCP Setting Page enra a S 81 XW Board Se tine Paces zc gece see meet ate gence ex ee nena dl 83 XW Board DI attribute setting page ccceeeseeneeeeeeeeeeeseeeeeeeeeees 84 XW Board DO attribute setting page 85 XW Board AI attribute setting page ccceccseeceeeseeeeeeeeeneeeeeeeeenes 86 AI Deadband Operation gt or gt a numerical value 8 AI Deadband Operation lt or lt a numerical value 88 AI Deadband Operation a numerical value 88 XW Board AO attribute setting page 89 VO MOQUISS CHR Pape SDS den en do 90 The Scan button to search M 7000 module 91 Set up the Scanning Range for the M 7000 module 91 Scanins the M 7000 modules 92 The M 7000 List after Scan operation c ecceeeeeeeeeeeeseeseeeeeeeeees 92 Select the actual M 7000 modules connected to PMC 5151 92 Set up the No and Address of the Modbus RTU module 93 Select the model of the Modbus RTU Module 93 Add the Modbus RTU Module mannually eneen 94 Add Modbus TCP MO dUlesxicsscescuvssseesesesensenseorveaeuanenersearoasasextss 94 Ad
247. us RTU power meter manually one by one the steps are as below 74 ICP DAS PMC 5151 User Manual 1 No The number will be the order that the power data of the Modbus RTU power meter being stored in the PMC 5151 Modbus Table The range is 1 16 1 Address The address will be the Modbus address of this Modbus RTU power meter please make sure the address setting is the same as the settings of the module if the setting is not accurate the connection for PMC 5151 to the power meter will be failed Power Meter List Modbus RTU COM2 COM3 LAN Q No Address Power Meter Nickname Izm 2 4 Search B PM 3114 PM 3114 Figure7 8 Set up the No and Address of the power meter 111 Select the Power meter model Power Meter List Modbus RTU COM2 COM3 LAN Q No Address Power Meter Nickname ca CE PM 2133 PM 2134 PM 3112 PM 3114 1 1 PM 3114 Figure7 9 Select Modbus RTU Power Meter model iv Nickname For user to define a nickname for this power meter this nickname will be displayed on the Power meter Information and Rule Setting pages Default setting will be the model of the power meter v Click to add the meter to the list Figure 7 10 After adding the power meter click Save button to save the changes 75 ICP DAS PMC 5151 User Manual Power Meter List Modbus RTU COM2 COM3 LAN Q No Address Power Meter Nickname 2 M 2 M P
248. user defined mode Group In group mode the user can select group and subgroup to inquire the electricity usage analysis of loops phases of the power meters in the format of trend chart If no group is pre set the user will not be able to perform inquiry operation 31 ICP DAS PMC 5151 User Manual Inquiry Mode Group v Group Location Y Subgroup Taipei v Inquiry Figure5 22 Inquiry by Group Mode User defined In user defined mode all power meters connected to the PMC 5151 will be listed If no power meter is connected the user will not be able to perform inquiry operation The minimum loop phase to be queried is loop phase Inquiry Mode User defined v Power Meter Setting 0 loops are selected Select Loop Phase PM 2133 Phase A Phase B Phase C Average PM 3112 Loop 1 Loop 2 PM 3114 Loop 1 Loop 2 Loop 3 Loop 4 PM 3133 Phase A Phase B Phase G Average Inquiry Figure5 23 Inquiry by User defined Mode Click on Inquiry button to display the trend of Electricity Usage Analysis for the specified date range If the selected date does not contain the file or exceeds the date of the file storage range a message No file exists will be displayed The trend of Electricity Usage Analysis data of specified classification will be displayed in historical chart The user could select the range on the below region or drag and move on the chart to adjust the viewing range Move the mouse cursor clo
249. ut Register Unit Register 16 Bits AI Ch 0 Floating Point AI Ch 1 Floating Point DI Counter 0 065535 4x Holding Register Unit Register 16 Bits AO Ch 0 SA 400000 Floating Point M 7017 M 7017R M 7017C M 7017RC M 7017R A5 M 7018 M 7018R gt M 7019R 8 AI channel 3x Input Register Unit Register 16 Bits AI Ch 0 SA 300000 AI Ch 1 SA 300002 AI Ch 2 SA 300004 Floating Point AI Ch 3 SA 300006 Floating Point AI Ch 4 SA 300008 Floating Point AI Ch 5 SA 300010 Floating Point AI Ch 6 SA 300012 Floating Point AI Ch 7 SA 300014 Floating Point 198 ICP DAS PMC 5151 User Manual M 7017Z 10 Differential AI channel M 7017Z 20 Single Ended AI channel 3x Input Register Unit Register 16 Bits ng Poi ng Poi Floating Point Floating Point AI Ch 16 SA 300032 Floating Point 199 ICP DAS PMC 5151 User Manual AI Ch 17 SA 300034 Floating Point AI Ch 18 SA 300036 Floating Point AI Ch 19 SA 300038 Floating Point E AI Ch 0 AI Ch 1 AI Ch 2 AI Ch 3 AI Ch 4 AI Ch 5 AI Ch 6 AI Ch 7 AI Ch 8 AI Ch 9 M 7018Z M 7019Z 10 AI channel M 7022 2 AO channel 3x Input Register Unit Register 16 Bits 4x Holding Register Unit Register 16 Bits AO Ch 0 SA 400000 AO Ch 1 SA 400002 M 7024 4 AO channel 4x Holding Register Unit Register 16 Bits AO Ch 0 AO Ch 1 AO Ch 2 AO Ch 3 Floating Point Floatin
250. ut Register settings of the Modbus RTU module are completed click OK button to save the changes The Holding Register Setting of Modbus RTU Module The Modbus RTU Slave module Holding Register Setting page is shown as follow Modbus Mapping Table Setting Data Model Holding Register 4x Start Address 0 Data Number 1 Type 16 bit Signed Integer Add Modbus Mapping Table Address Setting Nickname Setting Local Coil Output Discrete Input Input Register Holding Register Address Ox 1x 3x 4x No mapping table configuration Figure7 49 Holding Register Setting Page The settings are as below Data Model WISE 580x offers 4 Data Model selections to match the Modbus RTU Slave module configuration Please refer to the section The Coil Output Setting of Modbus RTU Module for detailed information In this case please select Holding Register 4x Start Address Allows to set up the starting address of Holding 110 ICP DAS PMC 5151 User Manual Register 4x on the Modbus RTU Slave module you would like to retrieve Data Number After finishing the Start Address setting specify the Data Number it is the number of Holding Register data you would like to retrieve from the Start Address Type The system support 6 kinds of data type setting for Holding Register of Modbus RTU module The 6 Data Type options are 16 bit Signed Integer 16 bit Unsigned Integer 16 bit

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