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User Manual Smart Power Transducer PD1000

Contents

1. Vb max LR Year 35029 Word BCD 00 99 Vb max LR Month 35030 Word BCD 1 12 Vb max LR Date 35031 Word BCD 1 31 Vb max LR Hour 35032 Word BCD 0 23 Vb max LR Min 35033 Word BCD 0 59 Vb max LR Second 35034 Word BCD 0 59 Vb min LR DWord Float Vb min LR Year 35037 Word BCD 00 99 Vb LR Month 35038 Word BCD 1 12 Vb min LR Date 35039 Word BCD 1 31 Vb min LR Hour 35040 Word BCD 0 23 Vb min LR Min 35041 Word BCD 0 59 Vb min LR Second 35042 Word BCD 0 59 Vc max LR 33048 DWord Float EE 35044 Vc max LR Year 35045 Word BCD 00 99 Vc max LR Month 35046 Word BCD 1 12 Vc max LR Date 35047 Word BCD 1 31 Vc max LR Hour 35048 Word BCD 0 23 Vc max LR Min 35049 Word BCD 0 59 Vc max LR Second 35050 Word BCD 0 59 Vc min LR 2 DWord Float Vc min LR Year 35053 Word BCD 00 99 Vc min LR Month 35054 Word BCD 1 12 Vc min LR Date 35055 Word BCD 1 31 Vc min LR Hour 35056 Word BCD 0 23 Vc min LR Min 35057 Word BCD 0 59 Vc min LR Second 35058 Word BCD 0 59 Ia max LR 35059 DWord Float xi 35060 35061 Word BCD 00 99 Ia max LR Month 35062 Word BCD 1 12 Ia max LR Date 35063 Word BCD 1 31 Ia max LR Hour 35064 Word BCD 0 23 Ia max LR Min 35065 Word BCD 0 59 Ia max LR Second 35066 Word BCD 0 59 Ia min LR 23067 DWord Float qp 35068 Ia min LR Year 3506
2. Modbus Data Default Register Len Type Range alus Units Comment a bit O Digital Output 1 Digital Output 44097 Word UInt bit 1 Digital Output 2 0 Digital Output Reserve 44098 Word UInt Modbus Module 2 Holding Register Setup Parameter Modbus Data Default 4 Parameter name Register Len Type Range value Units Comment 0 1200 1 2400 2 4800 3 9600 Comm_485_BaudRate 44099 Word UInt 4 19200 5 38400 4 bps 6 57600 Comm_485_Address 44100 Word UInt 1 255 15 0 1 Stop bit Comm 485 StopBit 44101 Word UInt 1 2 Stop bit 0 Comm 485 Parity 44102 Word UInt 0 No 1 Even 2 044 0 Reserved 44103 Word UInt 0 0 Ethernet IP 0 44104 Hi B Byte 0 255 192 Ethernet IP 1 Lo B Byte 0 255 168 Ethernet IP 2 44105 Hi B Byte 0 255 1 Ethernet IP 3 Lo B Byte 0 255 210 Ethernet PortNo 44106 Word UInt 0 502 1 503 0 Subnet Mask 0 44107 Hi B Byte 0 255 255 Subnet Mask 1 Lo B Byte 0 255 255 Subnet Mask 2 44108 Hi B Byte 0 255 255 Subnet Mask 3 Lo B Byte 0 255 0 iS Gateway 0 44109 Hi B Byte 0 255 0 Gateway 1 Lo B Byte 0 255 0 Gateway 2 44110 Hi B Byte 0 255 0 Gateway 3 Lo B Byte 0 255 0 Mac Address 1 44111 Hi B Byte 0 ffh 00 Mac Address 2 Lo B Byte 0 ffh 18 Mac Address 3 44112 Hi B Byte 0 ffh D8 Mac Address 45 LoB Byte 0 ffh 0 Mac Address 54 44113 Hi B Byte 0 ffh 0 Mac Address 6 Lo B Byte 0 ffh 0 Hi B Byte Volts M
3. HD15 V a 36730 DWord Float HD16 2 DWord Float HD17 V a palag DWord Float HD18 V a 222 DWord Float HD19 V 22 DWord Float HD20 V a d DWord Float HD21 222 DWord Float HD22 V a 2 DWord Float HD23 V a 36745 DWord Float HD24 V a DWord Float HD25 a n DWord Float HD26 V a 2212 DWord Float HD27 V a 222 DWord Float HD28 V a 7 DWord Float HD29 V a 2 DWord Float HD30 V a a DWord Float HD31 DWord Float Modbus Module 25 Input Register Phase B Voltage Harmonics Parameter name iun Len bs Range 2 Units Comment Reserved 2 DWord Float HD1_V_b DWord Float HD2 V b DWord Float V b 36769 DWord Float HD4 V b 22 DWord Float HD5 V b 36775 DWord Float V b 36 72 DWord Float HD7 V b n DWord Float V b 2 DWord Float HD9 V b 3 DWord Float HD10 V b ae DWord Float HD11 V b 25785 DWord Float HD12 V b DWord Float HD13 V b 36785 DWord Float HD14 V b 5 DWord Float HD15 V b M DWord Float 62 36795 HD16 V b 36796 DWord Float HD17 V b DWord Float HD18 V b DWord Float HD19 V b DWord Float HD20 V b 36803 DWord Float HD21 V b 30805 DWord Float HD22 V b 36807 word Float
4. Item Setup Current Time Date Time Max Min Va Max Min Vb Max Min Max Max Min Ia Date Max Min Ib Time Max Min Ic KWa KWb Date Max Min KWc Time Max Min KVAa Max Min KVAb Max Min KVAc Min PFa Min Min PFb Date Min PFc Time Max VaTHD Max VbTHD Max Max VcTHD Date Max IaTHD Time Max IbTHD Max ICTHD Max Demand Last Reset Item Setup Current Time Date Time Max Min Va Max Min Vb Max Min Max Max Min Ia Date Max Min Ib Time Max Min Ic KWa Min Max Min KWb Date Max Min KWc Time Max Min KVAa Max Min KVAb Max Min KVAc Min PFa Min Min PFb Date Min PFc Time Max VaTHD Max VbTHD Max Max VcTHD Date Max IaTHD Time Max IbTHD Max ICTHD Max Demand Energy del rec tot 26 7 3 3 Harmonics Harmonics Harmonics Vb Harmonics Vc Harmonics la Harmonics Ib Harmonics Ic Harmonics Item Report Chart Va Harmonics 100x Vb Harmonics 80x Harmonics 0 Ia Harmonics us 4a Mar One 20 Harmonics 5 Harmonics Order 7 3 4 Current on alarm None If no current alarm is on none will be shown In this instrument up to eight items will be set to alarm as following V Unbal Alarm Unbal Alarm THD Alarm Over V Alarm Under V Alarm Over Alarm Loss Alarm V Loss
5. Date amp Month 1 12 Swell04 End time 35643 Word 6 Time Pate 1 31 35648 BCD Hour 0 23 Minute 0 59 Second 0 59 Swell05 Duration Cycles 35649 Word UINT Range Swell05 Data 35650 Word INT 327 68 327 67 0 A phase 1 B Swell05 Phase 35651 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp Swell05 Start time 35652 Word 6 Time Date 1 31 35657 BCD Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp Swell05_End_time 35658 6 Time Date 1 31 35663 BCD Hour 0 23 Minute 0 59 Second 0 59 Swell06_Duration_Cycles 35664 Word UINT Range Swell06_Data 35665 Word INT 327 68 327 67 0 A phase 1 B Swell06 Phase 35666 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp SwellO6 Start time 35667 Wordx6 Time Date 1 31 35672 BCD Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp SwellO6 End time 35673 wWordx6 Time 806 21 31 35678 BCD Hour 0 23 Minute 0 59 Second 0 59 Swell07 Duration Cycles 35679 Word UINT Range Swell07 Data 35680 Word INT 327 68 327 67 Swell07 Phase 35681 Word 0 A phase 1 B phase 2 C phase Year 00 99 Month 1 12 Date amp Swell07 Start time 35682 Word x 6 Time Pate 1 31 35687 BCD Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp 3 Swell07 End time 3568
6. 34783 Word BCD 00 99 Ia max TP Month 34784 Word BCD 1 12 Ia max TP Date 34785 Word BCD 1 31 Ia max TP Hour 34786 Word BCD 0 23 Ia max TP Min 34787 Word BCD 0 59 Ia max TP Second 34788 Word BCD 0 59 Ia min TP DWord Float Ia min TP Year 34791 Word BCD 00 99 Ia min TP Month 34792 Word BCD 1 12 Ia min TP Date 34793 Word BCD 1 31 Ia min TP Hour 34794 Word BCD 0 23 Ia min TP Min 34795 Word BCD 0 59 Ia min TP Second 34796 Word BCD 0 59 Ib max TP lak DWord Float Ib max TP Year 34799 Word BCD 00 99 Ib max TP Month 34800 Word BCD 1 12 Ib max Date 34801 Word BCD 1 31 Ib max TP Hour 34802 Word BCD 0 23 Ib max TP Min 34803 Word BCD 0 59 Ib max TP Second 34804 Word BCD 0 59 Ib min TP 2 DWord Float Ib min TP Year 34807 Word BCD 00 99 Ib min TP Month 34808 Word BCD 1 12 Ib min TP Date 34809 Word BCD 1 31 Ib min TP Hour 34810 Word BCD 0 23 Ib min TP Min 34811 Word BCD 0 59 Ib min TP Second 34812 Word BCD 0 59 Ic max TP 34813 DWord Float 34814 Ic_max_TP_Year 34815 Word BCD 00 99 Ic_max_TP_Month 34816 Word BCD 1 12 Ic_max_TP_Date 34817 Word BCD 1 31 Ic_max_TP_Hour 34818 Word BCD 0 23 Ic_max_TP_Min 34819 Word BCD 0 59 Ic_max_TP_Second 34820 Word BCD 0 59 39 34821 34822 DWord Float Ic
7. 2222222222222222222222222222222 22 MAN mu aan aan an aan sana ana LO 62110165 A A Daan ct E c ht E oues 16 6 2 Run Time Auto scroll esee eic AIT Man 16 Chapter 7 Set up mode operation eese enne 17 7 1 Display and Keyboard tete ye he Or det b tee ede 17 7 2 Setups m mbi dn pde ai dim e dt ire IB PETI NR RE 18 7 2 1 Clear F rictior stehe tee deroga te a 18 752 2 8851 c cueste rente re e rien nex T geb KN Aa yai EE 19 7 2 2 A COMMUNICATION 2 2 2 E 19 7 2 2 2 oce ee eee Let eae e etd seis 19 7 2 2 3 56 PEE 20 7 2 2 4 Alarm Set 21 1 18 08 8 801088 1080 1808800110100101 1 0 2 7 1 1 010131010131 101188145 20 7 2 2 5 ie e ditt oe bes BARE Mea ee 22 7 2 2 6 DigitalQUtpUt eue NE utet naa t aee dva Henna 22 7 2 2 7 Analog Output Setting bb an ere Ode det e GEO 22 7 2 2 8 Analog emen al diae Cm ceeding ina pe an 23 7 2 2 9 Demand SETUP ete etatem edt fen cn p eda 23 7 2 2 10 Period Reset oe iiss AA dt eua das 24 7 2 3 Display Setup 24 7583 TELE
8. 47 Year 00 99 Month 1 12 Date amp 35367 Date 1 31 Sag06 Start time 35372 Word x 6 Ee Hours 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp M Sag06 End time 35373 Word 6 Time Date 1 31 35378 BCD Hour 0 23 Minute 0 59 Second 0 59 Sag07 Duration Cycles 35379 Word UINT Range 327 68 Sag07 Data 35380 Word INT 327 67 Sag07 Phase 35381 Word UINT x s 00 99 Month 1 12 Date amp 35382 Date 1 31 Sag07 Start time 35387 Word x 6 Bab Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp 35388 5 Date 1 31 Sag07 End time 35393 Word x 6 280 Hour 0 23 Minute 0 59 Second 0 59 Sag08 Duration Cycles 35394 Word UINT Range 327 68 Sag08 Data 35385 Word INT 327 67 Sag08 Phase 35396 Word UINT PEB ere Year 00 99 Month 1 12 Date amp HEN Sag08 Start time 35397 Word 6 Time Date 1 31 35402 Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp NUS Sag08 End time 35403 Word 6 Time Pate 1 31 35408 BCD Hour 0 23 Minute 0 59 Second 0 59 Sag09 Duration Cycles 35409 Word UINT Range 327 68 Sag09 Data 35410 Word INT 327 67 Sag09 Phase 35411 Word UINT poe an Year 00 99 Month 1 12 Date amp 35412 Date 1 31 Sag09 Start time 35417 Word x 6 TS Hour 0 23 Minute
9. alarm For Phase Current Loss Limit 44138 Word UInt 0 5000 0 Amp Loss Current alarm 44139 For Phase Voltage_Loss_Limit 44140 DWord Float 0 600000 0 Volts Loss Voltage alarm For Voltage Voltage_Unbal_Clear 44141 Word UInt Range 0 10 1 unbalance alarm clear For Current Current_Unbal_ Clear 44142 Word UInt Range 0 10 1 unbalance alarm clear THD_ Clear 44143 Word UInt Range 0 50 1 por tne alarm clear For Over ere 44144 Word UInt 0 9999 0 Amp clear For Over ei Current Neutral 44145 word 0 9999 0 Amp NET alarm clear For Phase Current Loss Clear 44146 Word UInt 0 5000 0 Amp Loss Current alarm clear 44147 For Phase Voltage Loss Clear 44148 DWord Float 0 600000 0 Volts Loss Voltage alarm clear 0 None 1 Voltage unbalance alarm 2 Current unbalance alarm DO1 Select Item 44149 Word Uint 2 THD alarm 0 4 Over Voltage alarm 5 Under Voltage alarm 6 Over Current alarm 7 Current Loss alarm 8 Voltage Loss alarm 0 None 1 kWh 002 Select Item Hi B Byte 2 kvarh 3 kVAh 0 44150 pulse 002 Select Kh Lo B Byte 1 10Wh pulse 0 0 1 Aphase 1 Select Phase 44151 Hi B Byte 2 Bphase 3 0 phase 4 Total 32 0 V 1 1I 2 KW
10. 1 Select Item Lo B Byte 3 Kvar 4 KVA 0 0 None 1 Aphase 2 Select Phase Hi B Byte 2 Bphase 3 0 44152 4 Total O V 1 1 2 kw AO2 Select Item Lo B Byte 3 kvar 4 0 0 None 1 Aphase Select Phase Hi B Byte 2 Bphase 3 C 0 44153 phase 4 Total 0 V 1 I 2 kW AO3 Select Item Lo B Byte 3 kvar 4 0 0 None 1 Aphase 4 Select Phase Hi B Byte 2 Bphase 3 0 44154 phase 4 Total 0 V 1 I 2 kW 4 Select Item Lo B Byte 3 kvar 4 0 Reserved 44155 Word UInt 0 Display Auto Scroll 44156 Hi B Byte 0 6 sec 3 Display BK Timeout Lo B Byte 1 5 min 1 Bit 0 Disable Bit 1 Enable bit O Phase Voltage bit 1 Line Voltage bit 2 Line Current Runtime Screen Set 44157 Word UInt alba A Dann PONE 3ff bit 5 Reactive Power bit 6 Power Factor bit 7 Energy bit 8 Demand bit 9 Status Reset Mode 44158 Hi B Byte 0 Manual 1 Auto 0 Reset Date Lo B Byte 1531 1 Reserved 44159 Word UInt 0 Eng High 44160 Word UInt 0765535 65535 Eng Low 44161 Word UInt 0765535 0 AI2 Eng High 44162 Word UInt 0765535 65535 AI2 Eng Low 44163 Word UInt 0765535 0 AI3 Eng High 44164 Word UInt 0765535 65535 Eng Low 44165 Word UInt 0765535 0 14 Eng High 44166 Word UInt 0765535 65535 AI4 Eng Low 44167 Word UInt 0765535 0 Reserved 44168 Word UInt 0 Reserved 44169 Word UInt 0 AO1 Set Value 44170 Word UInt 0765535 0 2 Set Value 44171 Word UInt 0765535 0 AO3 Set Value 44172 Word UInt 076
11. 4 1 3 Digital Input 3 groups of 12 channel 15 pin digital inputs Com1 DI13 0112 DI11 0110 0120 0121 0122 DI23 2 gt 0130 0131 0132 0133 Com3 e 5 24Vdc 5 24Vdc 4 1 4 Analog Input 4 channel 8 pin analog inputs 10 AIO 11 AI1 2 AI2 AI3 13 4 20mA input 4 1 5 Aux Power Supply Before powering the instrument verify the pin position at L and N leave the middle pin blank Power standard is 86 242Vac 100 125Vdc An internal protection fuse 250V 1A is equipped The instrument power supply must not be earthed 4 1 6 Current Terminal The current input channels 6 terminals 3L 3S 2L 2S 1L 1S Input current range from 2mA to 5A CT secondary Warning The CT input current must not exceed 10A 4 1 7 Voltage Terminal There are 4 voltage terminals C B A N The instrument measure voltage from 0 to 120V up to a maximum 600V PT secondary Voltage must not exceed 600V In case of over 600V voltage transformer needs to be applied Note 3P3W 2CT and 3P3W 3CT wiring only connect C A N and leave B blank 11 4 2 Wiring diagram 4 2 1 1P2W 1CT 4 2 2 1P3W 2CT 4 2 3 3P3W 2CT 4 2 4 3P3W 3CT Chapter 5 Function Tree Select Manual Setup L Report Clear Function Daily Reset Energy Reset Sag Reset Swell Reset Sag Swell Reset Alarm Rcd Rese r Resetto Default Reset All Demand Reset L
12. 15 End time 35513 Word x 6 Bob Hour 0 23 Minute 0 59 Second 0 59 Sagi6 Duration Cycles 35514 Word UINT Range 327 68 Sag16 Data 35515 Word INT 327 67 0 A phase 1 B Sag16 Phase 35516 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp 35517 Date 1 31 Sag16 Start time 35522 Word 6 cb Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp mago Sag16 End time 35523 wWerdx6 Time Date 1 31 35528 BCD Hour 0 23 Minute 0 59 Second 0 59 Sag17 Duration Cycles 35529 Word UINT Range 327 68 Sag17 Data 35530 Word INT 1583226798 0 A phase 1 B Sag17 Phase 35531 werd UINT phase 2 C phase Year 00 99 Month 1 12 Date amp 35532 Date 1 31 Sag17 Start time 35537 Word x 6 ecb Hour 0 23 Minute 0 59 Second 0 59 50 Year 00 99 Month 1 12 Date amp 35538 Date 1 31 5 7 End time 35543 Word x 6 Hour 0 23 Minute 0 59 Second 0 59 5 8 Duration Cycles 35544 Word UINT Range 327 68 5 018 Data 35545 Word INT 327 67 0 A phase 1 B Sag18 Phase 35546 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp 35547 Date 1 31 Sag18 Start time 35552 Word x 6 Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp 35553 Date 1 31 Sagi8 End time 35558 Word x 6 eb Hour 0 23 Minu
13. KW tot min DT Date 34627 Word BCD 1 31 KW tot min DT Hour 34628 Word BCD 0 23 KW tot min DT Min 34629 Word BCD 0 59 KW tot min DT Second 34630 Word BCD 0 59 max DT DWord Float Vavg max DT Year 34633 Word BCD 00 99 Vavg max DT Month 34634 Word BCD 1 12 Vavg max DT Date 34635 Word BCD 1 31 Vavg max DT Hour 34636 Word BCD 0 23 Vavg max DT Min 34637 Word BCD 0 59 Vavg max DT Second 34638 Word BCD 0 59 min DT 2 DWord Float Vavg min DT Year 34641 Word BCD 00 99 Vavg min DT Month 34642 Word BCD 1 12 Vavg min DT Date 34643 Word BCD 1 31 Vavg min DT Hour 34644 Word BCD 0 23 Vavg min DT Min 34645 Word BCD 0 59 Vavg min DT Second 34646 Word BCD 0 59 Iavg max DT 2 DWord Float Iavg max DT Year 34649 Word BCD 00 99 Iavg max DT Month 34650 Word BCD 1 12 Iavg max DT Date 34651 Word BCD 1 31 Iavg max DT Hour 34652 Word BCD 0 23 Iavg max DT Min 34653 Word BCD 0 59 Iavg max DT Second 34654 Word BCD 0 59 Iavg min DT 22445 DWord Float Iavg min DT Year 34657 Word BCD 00 99 Iavg min DT Month 34658 Word BCD 1 12 Iavg min DT Date 34659 Word BCD 1 31 Iavg min DT Hour 34660 Word BCD 0 23 Iavg min DT Min 34661 Word BCD 0 59 Iavg min DT Second 34662 Word BCD 0 59 Demand max DT SA DWord Float Demand max DT Year 34665 Word BCD 00 99 Demand max DT Month 34666 Word BCD 1 12 Demand max DT Date 34667 Word BCD 1 31 Demand max DT Hour 34668 Word BCD 0 23 Demand max DT Min 34669 Word BCD 0 59 Demand max DT Second 34670
14. KWa max LR s DWord Float KWa max LR Year 35109 Word BCD 00 99 KWa max LR Month 35110 Word BCD 1 12 KWa max LR Date 35111 Word BCD 1 31 KWa max LR Hour 35112 Word BCD 0 23 KWa max LR Min 35113 Word BCD 0 59 KWa max LR Second 35114 Word BCD 0 59 KWa min LR 2 DWord Float KWa min LR Date 35117 Word BCD 00 99 KWa LR Month 35118 Word BCD 1 12 KWa min LR Date 35119 Word BCD 1 31 KWa min LR Hour 35120 Word BCD 0 23 KWa min LR Min 35121 Word BCD 0 59 KWa LR Second 35122 Word BCD 0 59 KWb LR 0 DWord Float KWb max LR Year 35125 Word BCD 00 99 KWb max LR Month 35126 Word BCD 1 12 KWb max LR Date 35127 Word BCD 1 31 KWb max LR Hour 35128 Word BCD 0 23 KWb max LR Min 35129 Word BCD 0 59 KWb max LR Second 35130 Word BCD 0 59 KWb min LR DWord Float KWb min LR Year 35133 Word BCD 00 99 KWb min LR Month 35134 Word BCD 1 12 KWb min LR Date 35135 Word BCD 1 31 KWb min LR Hour 35136 Word BCD 0 23 KWb min LR Min 35137 Word BCD 0 59 KWb min LR Second 35138 Word BCD 0 59 KWc max LR 20 DWord Float KWc max LR Year 35141 Word BCD 00 99 KWc max LR Month 35142 Word BCD 1 12 KWc max LR Date 35143 Word BCD 1 31 KWc max LR Hour 35144 Word BCD 0 23 KWc max LR Min 35145 Word BCD 0 59 KWc max LR Second 35146 Word BCD 0 59 KWc LR DWord Float KWc min LR Year 35149 Word BCD 00 99 KWc min LR Month 35150 Word BCD 1 12 KWc min LR Date 35151 Word BCD 1 31 KWc min LR Hour 35152 Word BCD 0 23 KW
15. Period Reset Basic Setup Communication r Modbus KA Ethernet OE ae Measurement Volts Mode PT Primary Secondary r CT Primary Secondary Frequency Security Modify PWord Alarm Set Point Enable Disable Sag Swell Limit px r Alarm Set Point Alarm Clear Point Setup Clock Setup Date Time L Digital Output Digital Output 1 Digital Output 2 Analog Output Analog Output 1 I Analog Output 2 1 Analog Output 3 Analog Output 4 Analog Input Analog Input Analog Input2 AnalogInput3 34 Analog Input4 Demand Setup I No of Subinterval _ Subinterval Length Period Reset Mode Date Display Setup Auto Scroll Backlight Timeout Runtime Voltage Line Current Power Power Factor Energy Demand Status 14 Baud Rate CM1 Unit ID Stop Bit Parity Bit IP Address Port No Subnet Mask Gateway Mac Address Sag Limit Swell Limit Ref Primary Voltage V Unbal Alarm Unbal Alarm THD Alarm Over Phase Alarm Over Neutral Alarm Loss Alarm V Loss Alarm V Unbal Alarm Unbal Alarm THD Alarm Over Phase Alarm Over I Neutral Alarm Loss Alarm V Loss Alarm Item Kh Phase Item High Value Low Value
16. Phase Voltage Line Voltage Active Power Apparent Power Reactive Power Report Daily Report Diagnostic Harmonics Alarm Event Log Analog Input Nameplate Info Today Yesterday This Period L Last Reset r Va Harmonics I Vb Harmonics Vc Harmonics la Harmonics lb Harmonics Harmonics r Sag Record I Swell Record L Alarm Record 15 Energy Max Min Total Power Max Min V Avg Max Min Avg Energy Max Min Total Power Max Min V Avg Max Min Chapter 6 Run Time In runtime mode the instrument is able to measure and store all real time electrical parameters Following is the table that this instrument can display 6 1 Display Display Items Average 2 Result Vavg Iavg ZLW gt ZLVAR Phase Voltage 112 5123 5131 V kV MV Line Voltage Li L2 L3 V kV MV Line Current L1 5412 L3 N A Active Power 11 12 13 21 kW MW Apparent Power 11 12 13 2L kVA kVA Reactive Power 11 12 13 2 kVAr kVAr MVAr Power Factor 11 12 13 2L Total Energy kWh del gt total Total Energy kVARh lagging leading total Demand kW Time Frequency Status Freq Hz Digital Output 1 2 ON OFF Digital Input 1 4 ON OFF Frequency Status Digital Input 5 12 ON OFF 6 2 Run Time Auto scroll Each screen except Average Result can be disable enable indiv
17. 0 23 Minute 0 59 Second 0 59 Swell17 Duration Cycles 35829 Word UINT Range Swell17 Data 35830 Word INT 327 68 327 67 Swell17 Phase 35831 Word Wine posee P phase 2 C phase Year 00 99 Month 1 12 Date amp Swell17 Start time 23835 Word 6 Time ste sel 35837 BCD Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp Swelli7 End time 35838 Word 6 Time Date 1 31 35843 BCD Hour 0 23 Minute 0 59 Second 0 59 Swell18 Duration Cycles 35844 Word UINT Range Swell18 Data 35845 Word INT 327 68 327 67 0 A phase 1 B Swell18 Phase 35846 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp NEN Swell18 Start time 22 6 Tie Pare RA 35852 BCD Hour 0 23 Minute 0 59 Second 0 59 56 00 99 Date amp Month 1 12 Swelli8 End time 35853 6 Time Date 1 31 35858 BCD Hour 0 23 Minute 0 59 Second 0 59 Swell19 Duration Cycles 35859 Word UINT Range Swell19 Data 35860 Word INT 327 68 327 67 0 A phase 1 B Swell19 Phase 35861 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp Swelli9 Start time 35862 Word x 6 Time Date 1 31 35867 BCD Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp NOR Swell19 End time 220007 Word x 6 Tine PaE 35873 BCD Hour 0 23 Minute 0 59 Second
18. 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp MON Sag09 End time 35418 Word x 6 Time Date 1 31 35423 Hour 0 23 Minute 0 59 Second 0 59 5 910 Duration Cycles 35424 Word UINT Range 327 68 Sag10 Data 35425 Word INT 327 67 Sag10_Phase 35426 Word A phase 1 B phase 2 C phase 48 Year 00 99 Date amp Month 1 12 35427 Date 1 31 Sag10 Start time 35432 Word x 6 Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp aM Sagi0 End time 35433 Word x6 Time Date 1 31 35438 BCD Hour 0 23 Minute 0 59 Second 0 59 Sagii Duration Cycles 35439 Word UINT Range 327 68 5 Data 35440 Word INT w 327 67 0 A phase 1 B 5 911 Phase 35441 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp 35442 Date 1 31 5 Start time 35447 Word x 6 Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp 35448 Date 1 31 Sagii End time 35453 Word x 6 ecb Hour 0 23 Minute 0 59 Second 0 59 Sag12_Duration_Cycles 35454 Word UINT Range 327 68 Sag12_Data 35455 Word INT 327 67 0 A phase 1 B Sag12_Phase 35456 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp Sag12 Start time 35457 Word x 6 Time Date 1 31 35462 BCD Hour 0 23 Minute 0 59 Second 0 59 Year 0
19. 25 7 371 Dally ei aee ando n ied m i ARE Lt vin dette en rdiet 25 7 3 2 DIAGNOStI Cha rece nette ie ee aie deed rae teret KN na ma 25 7 53 38 em 27 73 4 Current On alarms necne ent aNG Rene tcd NAG nitide na 27 EVEN nm 27 7 3 5 1 5 Record eiie n AA 27 72352 Swell record eto ernst na onerata mde 28 7 3 5 3 Alarm RECO no aee an ngan Ba aan t t e eeu 28 7 3 5 4 Analog Input nte dee t M pt v C E FR apertos 28 7 3 5 5 Nameplate LA NN ess 28 Chapter 8 Communication 29 8 1 RS485 aa e 29 8 1 1 RS485 standard oue vay sence eds e REEL IE RE eda a TR REX EROR NIU 29 8 1 2 Wiring for instruments 29 8 2 ten ce AA 30 8 2 1 Modbus Format8 3 Communication protocol 30 8 3 COMMUNICATION protocol mend cte NAA an ee ehe rete 30 8 4 tut n n ett te Re c exeunt ide ole REN 31 Chapter 1 Introduction 1 1 Product Introduction PD1000 is designed for continuous monitoring of 3 phase system All essential power parameters measure including current voltage power active and reactive energy are integrated in a single meter Its bi directional energy measurement and harmonic analysis
20. HD23 V b 368095 DWord Float HD24 V b 39813 DWord Float HD25 V b 2 DWord Float HD26 V b 5 27 DWord Float HD27 V b aa DWord Float HD28_V_b DWord Float HD29 V b DWord Float HD30 V b 36824 DWord Float V b 30828 DWord Float Modbus Module 26 Input Register Phase C Voltage Harmonics Parameter name ined Len m Range pah Units Comment Reserved 2 DWord Float HDi V 47 DWord Float HD2 V c 83 DWord Float HD3 V c 36833 DWord Float HD4 V 22 Es DWord Float HD5 Vc 2 DWord Float HD6 V c 2 DWord Float HD7 Vc 2 DWord Float HD8 V c 52 DWord Float HD9 V c 36842 DWord Float HD10 V c 36887 DWord Float 11 V c 22 DWord Float HD12 36853 DWord Float HD13 22 DWord Float 14 V c 5227 DWord Float HD15 V c aca DWord Float HD16_V_c 2 DWord Float HD17 Vc 36861 DWord Float 63 36862 36863 HD18 V c 36864 DWord Float HD19 30809 DWord Float HD20 V c 36807 DWord Float HD21 V c nea DWord Float HD22 220 DWord Float HD23 V c 7 DWord Float HD24 V c DWord Float HD25 V c x DWord Float HD26 V c 308795 DWord Float HD27 V c 30883 DWord Float HD28 V c 36885 DWord Float HD29 V c 30888 DWord Float HD30 36887 DWord Float HD3
21. I b 36665 DWord Float 60 36666 36667 TOT HD c 36668 DWord Float 36669 TOT HD I n 36670 DWord Float Modbus Module 23 Input Register Total Odd amp Even Harmonics Parameter name Units Comment EVEN HD 22 DWord Float TOT EVEN HD V b 22200 DWord Float TOT EVEN HD C 2 DWord Float TOT EVEN HD I a 536 DWord Float TOT EVEN HD I b oe DWord Float TOT EVEN HD I c 22002 DWord Float EVEN HD n DWord Float TOT ODD HD V a 2 DWord Float TOT ODD HD V b DWord Float TOT ODD HD V c paga DWord Float TOT ODD HD sinag DWord Float TOT ODD HD I b 2 DWord Float TOT ODD HD 1 8222 DWord Float TOT ODD HD In E DWord Float Modbus Module 24 Input Register Phase A Voltage Harmonics Parameter name ie Len he Range 28 Units Comment Reserved 7 DWord Float HD1 V a ala DWord Float HD2 4 DWord Float 7 DWord Float HD4 V a DWord Float HD5 V a xin DWord Float HD6 DWord Float HD7 V a M DWord Float HD8 36 12 DWord Float HD9 e DWord Float HD10 V a 20 DWord Float HD11 V a node DWord Float HD12 20 DWord Float HD13 DWord Float HD14 V a 36727 DWord Float 61 36728 36729
22. Over Current Phase A Condition Clear 0x21 Over Current Phase B Condition Clear 0x22 Over Current Phase C Condition Clear 0x23 Over Current Neutral Condition Clear 0x24 Current Unbalance Condition Clear 0x25 Current Loss Condition Clear 20 0 30 Over Voltage Phase A Alarm 0x31 Over Voltage Phase B Alarm 0x32 Over Voltage Phase C Alarm 0x33 Under Voltage Phase A Alarm 0x34 Under Voltage Phase B Alarm 0x35 Under Voltage Phase C Alarm 0x36 Voltage Unbalance Alarm 0x37 Voltage Loss Alarm 0x40 Over Voltage Phase A Condition Clear 0 41 Over Voltage Phase Condition Clear 0x42 Over Voltage Phase C Condition Clear 0x43 Under Voltage Phase A Condition Clear 0x44 Under Voltage Phase B Condition Clear 0x45 Under Voltage Phase C Condition Clear 0x46 Voltage Unbalance Condition Clear 0x47 Voltage Loss Condition Clear 0x50 THD Va Alarm 0x51 THD Vb Alarm 0x52 THD Vc Alarm 0x53 THD Ia Alarm 0x54 THD Ib Alarm 0x55 THD Ic Alarm 0x60 THD Va Alarm Condition Clear 0x61 THD Vb Alarm Condition Clear 0x62 THD Vc Alarm Condition Clear 0x63 THD Ia Alarm Condition Clear 0x64 THD Ib Alarm Condition Clear 0x65 THD Ic Alarm Condition Clear V Unbal Alarm The range of V unbal alarm limit can be set between 0 10 Comparing voltage of any phase with the average value of all three phase if the ratio of the different is greater than
23. TP Second 34988 Word BCD 0 59 TP 2 DWord Float ICTHD max TP Year 34991 Word BCD 00 99 ICTHD max TP Month 34992 Word BCD 1 12 ICTHD max TP Date 34993 Word BCD 1 31 ICTHD max TP Hour 34994 Word BCD 0 23 ICTHD max TP Min 34995 Word BCD 0 59 ICTHD max TP Second 34996 Word BCD 0 59 Demand max TP DWord Float Demand max TP Year 34999 Word BCD 2000 2099 Demand max TP Month 35000 Word BCD 1 12 Demand max TP Date 35001 Word BCD 1 31 Demand max TP Hour 35002 Word BCD 0 23 Demand max TP Min 35003 Word BCD 0 59 Demand max TP Second 35004 Word BCD 0 59 Modbus Module 18 Input Register Diagnostic Last Reset Parameter name Rs Len ro Range Units Comment LR Year 35005 Word BCD 00 99 LR Month 35006 Word BCD 1 12 LR Date 35007 Word BCD 1 31 LR Hour 35008 Word BCD 0 23 LR Min 3509 Word BCD 0 59 LR Second 35010 Word BCD 0 59 Va max LR DWord Float Va max LR Year 35013 Word BCD 00 99 Va max LR Month 35014 Word BCD 1 12 Va max LR Date 35015 Word BCD 1 31 Va max LR Hour 35016 Word BCD 0 23 Va max LR Min 35017 Word BCD 0 59 Va max LR Second 35018 Word BCD 0 59 Va min LR 200 DWord Float Va min LR Year 35021 Word BCD 00 99 Va min LR Month 35022 Word BCD 1 12 Va min LR Date 35023 Word BCD 1 31 Va min LR Hour 35024 Word BCD 0 23 Va min LR Min 35025 Word BCD 0 59 Va min LR Second 35026 Word BCD 0 59 Vb max LR 35027 Float 35028 42
24. VaTHD_max_TP_Month 34952 Word BCD 1 12 VaTHD_max_TP_Date 34953 Word BCD 1 31 VaTHD_max_TP_Hour 34954 Word BCD 0 23 VaTHD_max_TP_Min 34955 Word BCD 0 59 VaTHD max TP Second 34956 Word BCD 0 59 VbTHD max TP DWord Float VbTHD max TP Year 34959 Word BCD 00 99 VbTHD max TP Month 34960 Word BCD 1 12 VbTHD max TP Date 34961 Word BCD 1 31 VbTHD max TP Hour 34962 Word BCD 0 23 41 VbTHD max TP Min 34963 Word BCD 0 59 VbTHD max Second 34964 Word BCD 0 59 VCTHD max TP 22 DWord Float VcTHD max TP Year 34967 Word BCD 00 99 VcTHD max TP Month 34968 Word BCD 1 12 VcTHD max TP Date 34969 Word BCD 1 31 VcTHD max TP Hour 34970 Word BCD 0 23 VcTHD max TP Min 34971 Word BCD 0 59 VcTHD max TP Second 34972 Word BCD 0 59 IaTHD max TP eon DWord Float IaTHD_max_TP_Year 34975 Word BCD 00 99 IaTHD_max_TP_Month 34976 Word BCD 1 12 IaTHD_max_TP_Date 34977 Word BCD 1 31 IaTHD max TP Hour 34978 Word BCD 0 23 IaTHD max TP Min 34979 Word BCD 0 59 IaTHD max TP Second 34980 Word BCD 0 59 max TP DWord Float max TP Year 34983 Word BCD 00 99 IbTHD max TP Month 34984 Word BCD 1 12 IbTHD max TP Date 34985 Word BCD 1 31 max TP Hour 34986 Word BCD 0 23 max TP Min 34987 Word BCD 0 59 max
25. be no more than two wires connected to each terminal this ensures that a Daisy Chain or Straight Line configuration is used A star or a network with Stubs Tees is not recommended as reflections within the cable may result in data corruption 29 8 2 Modbus In the start of modus communication master will issue Query to the slave Every slaves will monitor the Query address so as to execute or give response when the address is right 8 2 1 Modbus Format The Query Response Cycle Slave 1 Slave 2 Slave 3 Slave n LITT Response Query message from un lt Device Address Device Address Function Code Function Code 8 bit Data Bytes 8 bit Data Bytes Error Check Error Check Response messages from Slave 8 3 Communication protocol PD1000 uses Modus RTU as the communication protocol The following shows Query and Response format Query Slave Function Start Start Number Number Error Error Address Code Address Address of Points of Points Check Check Hi Lo Hi Lo Lo Hi Response Slave Function Byte Data Data Error Error Address Code Count Hi Lo Check Check Lo Hi 30 8 4 Detail Parameters Modbus Module 1 Holding Register Digital Output
26. min TP Year 34823 Word BCD 00 99 Ic min TP Month 34824 Word BCD 1 12 Ic min TP Date 34825 Word BCD 1 31 Ic min TP Hour 34826 Word BCD 0 23 Ic min TP Min 34827 Word BCD 0 59 Ic min TP Second 34828 Word BCD 0 59 KWa max TP 3140297 DWord Float 34830 KWa_max_TP_Year 34831 Word BCD 00 99 KWa_max_TP_Month 34832 Word BCD 1 12 KWa_max_TP_Date 34833 Word BCD 1 31 KWa_max_TP_Hour 34834 Word BCD 0 23 KWa_max_TP_Min 34835 Word BCD 0 59 KWa_max_TP_Second 34836 Word BCD 0 59 KWa_min_TP 2 DWord Float KWa min TP Date 34839 Word BCD 00 99 KWa min TP Month 34840 Word BCD 1 12 KWa min TP Date 34841 Word BCD 1 31 KWa min TP Hour 34842 Word BCD 0 23 KWa min TP Min 34843 Word BCD 0 59 KWa min TP Second 34844 Word BCD 0 59 KWb max TP MERE DWord Float KWb max TP Year 34847 Word BCD 00 99 KWb max TP Month 34848 Word BCD 1 12 KWb max TP Date 34849 Word BCD 1 31 KWb max TP Hour 34850 Word BCD 0 23 KWb max TP Min 34851 Word BCD 0 59 KWb max TP Second 34852 Word BCD 0 59 KWb min TP 2 DWord Float KWb min TP Year 34855 Word BCD 00 99 KWb min TP Month 34856 Word BCD 1 12 KWb min TP Date 34857 Word BCD 1 31 KWb min TP Hour 34858 Word BCD 0 23 KWb min TP Min 34859 Word BCD 0 59 KWb min TP Second 34860 Word BCD 0 59 max 22 DWord Float KWc max TP Year 34863 Word BCD 00 99 KWc max TP Month 34864 Word BCD 1 12 KWc max TP Date 34865 Word BCD 1 31 KWc max TP Hour 34866 Word BCD 0 23 KWc max TP Min 34867 Word BCD
27. reset will executed at 1 00 00 00 next month 7 2 3 Display Setup Auto Scroll Backliaht Timeout untime Auto Scroll Can be set between 1 6 sec or disable Default is 3s Backlight Timeout Can set between 1 5 min Runtime This setting allows users to select what to display and not to display during the runtime mode Run time mode display setting is as following 24 Setup Voltage Phase Voltage Line Voltage Line Current e Disable e Enable Active Power Power Apparent Power Reactive Power Power Factor Energy Demand Status 7 3 Report Daily Report Diagnostic Harmonics Alarm Event Log Analog Input Nameplate Info 7 3 1 Daily Report Today Yesterday Every day at 00 00 00 date in today will move to yesterday and clear today s record except energy data will be accumulated Energy Total Power V Avg Max Min Avg Max Demand Energy Total Power Max Min V Avg Avg Demand 7 3 2 Diag nostic Diagnostic This Period Last Reset In this section only max min and when they happened in one month period has been stored The reset will then move this period data to last reset data and clear this period data except energy data 25 This Period
28. 0 59 KWc max TP Second 34868 Word BCD 0 59 KWc min SP DWord Float KWc min TP Year 34871 Word BCD 00 99 KWc min TP Month 34872 Word BCD 1 12 KWc min TP Date 34873 Word BCD 1 31 KWc min TP Hour 34874 Word BCD 0 23 KWc min TP Min 34875 Word BCD 0 59 KWc min TP Second 34876 Word BCD 0 59 KVAa max TP 2 DWord Float KVAa max TP Year 34879 Word BCD 00 99 KVAa max TP Month 34880 Word BCD 1 12 KVAa max TP Date 34881 Word BCD 1 31 KVAa max TP Hour 34882 Word BCD 0 23 KVAa max TP Min 34883 Word BCD 0 59 KVAa max TP Second 34884 Word BCD 0 59 KVAa min TP 24 DWord Float KVAa min TP Year 34887 Word BCD 00 99 KVAa min TP Month 34888 Word BCD 1 12 KVAa min TP Date 34889 Word BCD 1 31 KVAa min TP Hour 34890 Word BCD 0 23 KVAa min TP Min 34891 Word BCD 0 59 40 KVAa min TP Second 34892 Word BCD 0 59 KVAb max TP NA DWord Float KVAb max TP Year 34895 Word BCD 00 99 KVAb max TP Month 34896 Word BCD 1 12 KVAb max Date 34897 Word BCD 1 31 KVAb max TP Hour 34898 Word BCD 0 23 KVAb max TP Min 34899 Word BCD 0 59 KVAb max TP Second 34900 Word BCD 0 59 KVAb min TP 22 DWord Float KVAb min TP Year 34903 Word BCD 00 99 KVAb min TP Month 34904 Word BCD 1 12 KVAb min TP Date 34905 Word BCD 1 31 KVAb min TP Hour 34906 W
29. 0 59 ICTHD max LR Second 35274 Word BCD 0 59 35275 Demand max LR 35276 DWord Float Demand max LR Year 35277 Word BCD 2000 2099 Demand max LR Month 35278 Word BCD 1 12 Demand max LR Date 35279 Word BCD 1 31 Demand max LR Hour 35280 Word BCD 0 23 Demand max LR Min 35281 Word BCD 0 59 Demand max LR Second 35282 Word BCD 0 59 35283 KWH del LR 35284 DWord Float 35285 KWH rec LR 35286 DWord Float 35287 KWH tot LR 35288 DWord Float Modbus Module 19 Input Register Event Log Sag Record Parameter name Modbus Len Data Range Default Units Comment Register Type value Sag01 Duration Cycles 35289 Word UINT Range 327 68 Sag01 Data 35290 Word INT 327 67 01 Phase 35291 Word UINT M Bah ee Year 00 99 Month 1 12 Date amp 35292 Date 1 31 5 01 Start Time 35297 Word x 6 Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp 35298 Date 1 31 5 01 End Time 35303 Word x 6 Hour 0 23 Minute 0 59 Second 0 59 Sag02 Duration Cycles 35304 Word UINT Sag02 Data 35305 Word INT Range 327 68 46 327 67 1 2 C Sag02 Phase 35306 Word UINT Year 00 99 Month 1 12 Date amp 35307 Date 1 31 Sag02 Start time 35312 Word x 6 cb Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp 35313 Date 1 31
30. 0 59 Swell20_Duration_Cycles 35874 Word UINT Range Swell20_Data 35875 Word INT 327 68 327 67 0 A phase 1 B Swell20_ Phase 35876 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp Swell20 Start time 35877 Wordx6 Time Pate 1 31 35882 BCD Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp Swell20 End time 35883 Wordx6 Time 35888 BCD Hour 0 23 Minute 0 59 Second 0 59 Modbus Module 21 Input Register Event Log Alarm Record Parameter name R Len ee Range 212 Units Comment Alarm01 Item 35889 Word UINT Range Alarm01 Data 35890 Word INT 327 68 327 67 00 99 Month 1 12 Date amp Alarm01 Time 35891 Word x 6 Time Date 1 31 35896 BCD Hour 0 23 Minute 0 59 Second 0 59 Alarm02 Item 35897 Word UINT Range Alarm02 Data 35898 Word INT 327 68 327 67 57 Year 00 99 Date amp Month 1 12 02 Time 35899 Word x 6 Time Date 1 31 35904 BCD Hour 0 23 Minute 0 59 Second 0 59 Alarm03 Item 35905 Word UINT Range Alarm03 Data 35906 Word INT 327 68 327 67 Year 00 99 Month 1 12 Date amp Alarm03 Time 35907 Word x 6 Time Date 1 31 35912 BCD Hour 0 23 Minute 0 59 Second 0 59 Alarm04 Item 35913 Word UINT Range Alarm04 Data 3
31. 0 99 Month 1 12 Date amp No Sagi2 End time 35463 Word 6 Time Pate 1 31 35468 BCD Hour 0 23 Minute 0 59 Second 0 59 5 913 Duration Cycles 35469 Word UINT Range 327 68 Sagi3 Data 35470 Word INT 327 67 0 A phase 1 B Sag13_Phase 35471 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp 35472 Date 1 31 Sag13 Start time 35477 Word x 6 Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp 35478 5 Date 1 31 Sag13 End time 35483 Word x 6 ues Hour 0 23 Minute 0 59 Second 0 59 5 4 Duration Cycles 35484 Word UINT 0 Sagi4 Data 35485 Word Range 327 68 327 67 49 0 A phase 1 B Sag14 Phase 35486 Word SIM phase 2 C phase Year 00 99 Month 1 12 Date amp 35487 Date 1 31 Sag14 Start time 35492 Word x 6 BED Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp 1 35493 Date 1 31 Sagi4 End time 35498 Word x 6 BED Hour 0 23 Minute 0 59 Second 0 59 Sag15 Duration Cycles 35499 Word UINT Range 327 68 Sag15 Data 35500 Word INT 327 67 0 A phase 1 B Sagi5 Phase 35501 Werd UINT phase 2 C phase Year 00 99 Month 1 12 Date amp 35502 Date 1 31 Sag15 Start time 35507 Word x 6 Bb Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp 35508 Date 1 31 5
32. 1 V c tg DWord Float Modbus Module 27 Input Register Phase A Current Harmonics Parameter name ed Len top Range put Units Comment Reserved 2222 DWord Float HD1 4 DWord Float HD2 20 DWord Float 2 DWord Float HD4 22 DWord Float HD5 1 a 2 DWord Float HD6 la 36002 DWord Float HD7 2 DWord Float la 2 DWord Float HD9 36909 DWord Float HD101 a 22 il DWord Float 11 552 DWord Float HD12 2 4 DWord Float HD13 DWord Float HD14 2 DWord Float HDi5 22 DWord Float HD16 36923 DWord Float HD17 22 DWord Float HD18 la So DWord Float 64 36929 HD19 I a 36930 DWord Float HD20 2 DWord Float HD21 I a 2 DWord Float HD22 2 DWord Float HD23 DWord Float HD24 la 36939 DWord Float HD25 la 36941 DWord Float HD26 36945 DWord Float HD27 2 DWord Float HD28 5225 DWord Float HD29 2 DWord Float HD30 la 55 DWord Float HD31 la a DWord Float Modbus Module 28 Input Register Phase B Current Harmonics Parameter name Len Units Comment Reserved 52 DWord Fl
33. 15 minute interval 30 35 Block Mode Rollinc Calculation updates at the end of the subinterval 15 minute interval Rolling No of Subinterval No of Subinterval 10 The No of subinterval is only needed for Rolling mode can be 1 2 3 4 5 6 or 10 Subinterval Length Function for both Block and Rolling mode In block mode it stands for the total interval time No of subinterval is always 1 In rolling mode it stand for only length of the subinterval time the total interval time will be No of subinterval times the length subinterval 7 2 2 10 Period Reset Mode Date The function of period reset is designed to move the max min data happened in one current month to last period and clear all the max min data in this month period for the new coming max min data except the energy data Energy data will not be reset instead it will be accumulated Mode Manual Auto When manual is selected the reset action will be triggered only the reset all in clear function has been applied If auto is selected users will also be asked to enter the date The system will perform the move and clear action at the date assigned every month If date is 2 then at date 2 and 00 00 00 period reset will be executed If date is 1 then at date 1 and 00 00 00 period reset will be executed If date is 31 then only the month with 317 period reset will be executed at 31 00 00 00 However those months without 315 period
34. 5535 0 4 Set Value 44173 Word UInt 0765535 0 Modbus Module 3 Holding Register Realtime Clock Parameter name Range ponen Units Comment Year 44177 Word BCD Month 44178 Word BCD Date 44179 Word BCD Hour 44180 Word BCD Min 44181 Word BCD Second 44182 Word BCD Modbus Module 4 Holding Register Clear Function Parameter name Monus Len Dara Range perault Units Comment Register Type value Reset_ Daily 44193 Word UInt Ox5aa5 0 Ox5aa5 clear Reset Energy 44194 Word Uint 0x5aa5 0 Ox5aa5 clear Reset Sag Record 44195 Word Uint Ox5aa5 0 Ox5aa5 clear Reset Swell Record 44196 Word Uint Ox5aa5 0 Ox5aa5 clear Reset Sag Swell Record 44197 Word Uint Ox5aa5 0 Ox5aa5 clear 33 Reset Alarm Record 44198 Word Uint Ox5aa5 0 Ox5aa5 clear Reset to Default 44199 Word Uint Ox5aa5 0 Ox5aa5 clear Reset All 44200 Word Uint Ox5aa5 0 0x5aab clear Reset Demand 44201 Word Uint Ox5aa5 0 Ox5aa5 clear Period Reset 44202 Word Uint Ox5aa5 0 Ox5aa5 clear Modbus Module 55 Holding Register Alarm Counter Modbus Data Default Parameter name Register Len Type Range value Units Comment Counter number new after last Alarm New Counter 44209 Word Uint 0 20 reading up to 20 data Counter number new after last Sag
35. 5914 Word INT 327 68 327 67 Year 00 99 Month 1 12 Date amp Alarm04 Time 35915 6 Time Date 1 31 35920 BCD Hour 0 23 Minute 0 59 Second 0 59 Alarm05 Item 35921 Word UINT Range Alarm05 Data 35922 Word INT 327 6890 327 6790 Year 00 99 Month 1 12 Date amp Alarm05 Time 35923 Word x 6 Time Date 1 31 35928 BCD Hour 0 23 Minute 0 59 Second 0 59 06 Item 35929 Word UINT Range 06 Data 35930 Word INT 327 68 327 67 00 99 Month 1 12 Date amp Alarm06 Time 35931 Word 6 Time Pate 1 31 35936 BCD Hour 0 23 Minute 0 59 Second 0 59 Alarm07 Item 35937 Word UINT Range 07 Data 35938 Word INT 327 68 327 67 Year 00 99 Month 1 12 Date amp Alarm07 Time 35939 Word x 6 Time Date 1 31 35944 BCD Hour 0 23 Minute 0 59 Second 0 59 Alarm08 Item 35945 Word UINT Range Alarm08 Data 35946 Word INT 327 68 327 67 Year 2000 2099 Month 1 12 Date amp Alarm08 Time 399475 Word 6 Time Date 1 31 35952 BCD Hour 0 23 Minute 0 59 Second 0 59 Alarm09 Item 35953 Word UINT 58 Range 09 Data 35954 Word INT 327 68 327 67 Year 00 99 Month 1 12 Date amp Alarm09 Time 35955 Word 6 Time ia 35960 BCD Hour 0 23 Minute 0 59 Second 0 59 Alarm10 Item 35961 Wor
36. 7 Word BCD 00 99 VbTHD_max_LR_Month 35238 Word BCD 1 12 VbTHD_max_LR_Date 35239 Word BCD 1 31 VbTHD_max_LR_Hour 35240 Word BCD 0 23 VbTHD_max_LR_Min 35241 Word BCD 0 59 45 VbTHD max LR Second 35242 Word BCD 0 59 35243 VcTHD max LR 35244 DWord Float VcTHD max LR Year 35245 Word BCD 00 99 VcTHD max LR Month 35246 Word BCD 1 12 VcTHD max LR Date 35247 Word BCD 1 31 VcTHD max LR Hour 35248 Word BCD 0 23 VcTHD max LR Min 35249 Word BCD 0 59 VcTHD max LR Second 35250 Word BCD 0 59 35251 IaTHD max LR 35252 DWord Float IaTHD max LR Year 35253 Word BCD 00 99 IaTHD max LR Month 35254 Word BCD 1 12 IaTHD max LR Date 35255 Word BCD 1 31 IaTHD max LR Hour 35256 Word BCD 0 23 IaTHD max LR Min 35257 Word BCD 0 59 IaTHD max Second 35258 Word BCD 0 59 35259 max LR 35260 DWord Float IbTHD max LR Year 35261 Word BCD 00 99 max LR Month 35262 Word BCD 1 12 max LR Date 35263 Word BCD 1 31 max LR Hour 35264 Word BCD 0 23 max LR Min 35265 Word BCD 0 59 IbTHD max LR Second 35266 Word BCD 0 59 35267 ICTHD max LR 35268 DWord Float ICTHD max LR Year 35269 Word BCD 00 99 ICTHD max LR Month 35270 Word BCD 1 12 ICTHD max LR Date 35271 Word BCD 1 31 ICTHD max LR Hour 35272 Word BCD 0 23 ICTHD max LR Min 35273 Word BCD
37. 783 BCD Hour 0 23 Minute 0 59 Second 0 59 Swell14 Duration Cycles 35784 Word UINT Range Swell14 Data 35785 Word INT 327 68 327 67 0 A phase 1 B Swell14 Phase 35786 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp ERE Swell14 Start time PSr Word x 6 Time 35792 BCD Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp Swelli4 End time 35793 Word 6 Time Date 1 31 35798 BCD Hour 0 23 Minute 0 59 Second 0 59 Swelli5 Duration Cycles 35799 Word UINT Range Swell15 Data 35800 Word INT 327 68 327 67 Swell15 Phase 35801 Word UINT 0 A phase 1 B 55 phase 2 C phase Year 00 99 Month 1 12 Date amp Swelli5 Start time 35802 Word x 6 Time Date 1 31 35807 BCD Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp Swelli5 End time 35808 Word 6 Time Pate 1 31 35813 BCD Hour 0 23 Minute 0 59 Second 0 59 Swell16_Duration_Cycles 35814 Word UINT Range Swell16_Data 35815 Word INT 327 68 327 67 0 A phase 1 B Swell16 Phase 35816 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp Swelli6 Start time 35817 Word x 6 Time Date 1 31 35822 BCD Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp Swelli6 End time 33823 Word x 6 Time Pate 1 31 35828 BCD Hour
38. 8 Word x 6 Time Date 1 31 35693 BCD Hour 0 23 Minute 0 59 Second 0 59 Swell08 Duration Cycles 35694 Word UINT Range Swell08 Data 35695 Word INT 327 68 327 67 Swell08 Phase 35696 Word 0 phase 2 C phase 53 00 99 Month 1 12 Date amp IT Swell08 Start time 35697 Worax6 Time 1 31 35702 BCD Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp Swell08 End time 35703 Wordx6 Time 35708 BCD Hour 0 23 Minute 0 59 Second 0 59 Swell09_Duration_Cycles 35709 Word UINT Range Swell09_Data 35710 Word INT 327 68 327 67 Swell09_Phase 35711 Word Ding 2 A phase d phase 2 C phase Year 00 99 Month 1 12 Date amp Swell09 Start time 35712 Wordx6 Time pea 1 31 35717 BCD Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp Swell09 End time 35718 Wordx6 Time Bata 1 31 35723 BCD Hour 0 23 Minute 0 59 Second 0 59 Swell10 Duration Cycles 35724 Word UINT Range Swell10 Data 35725 Word INT 327 68 327 67 0 A phase 1 B Swell10 Phase 35726 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp Swell10 Start time 39727 Word x 6 Time Date 1 31 35732 BCD Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp Swell10 End time 35733 Word x 6 Time
39. 9 DWord Float 67 37130 37131 HD24 I n 37132 DWord Float HD25 I n 6 DWord Float HD26 I n 27122 DWord Float HD27 I n i DWord Float HD28 I n DWord Float HD29 I n DWord Float HD30 I n DWord Float HD31 In M DWord Float 68 BrainChild Brainchild Electronic Co Ltd No 209 Chung Yang Road Nan Kang Dist Taipei Tatwan Tel 886 2 27861299 Fax 886 2 27861395 E mail sales brainchild com tw Website http www brainchild com tw 69
40. 9 Word BCD 00 99 Ia min Month 35070 Word BCD 1 12 Ia min LR Date 35071 Word BCD 1 31 Ia min LR Hour 35072 Word BCD 0 23 Ia min LR Min 35073 Word BCD 0 59 Ia LR Second 35074 Word BCD 0 59 Ib max LR 35075 pword Float 35076 Ib_max_LR_Year 35077 Word BCD 00 99 Ib_max_LR_Month 35078 Word BCD 1 12 Ib_max_LR_Date 35079 Word BCD 1 31 Ib_max_LR_Hour 35080 Word BCD 0 23 Ib_max_LR_Min 35081 Word BCD 0 59 Ib_max_LR_Second 35082 Word BCD 0 59 Ib_min_LR d DWord Float Ib min LR Year 35085 Word BCD 00 99 Ib min LR Month 35086 Word BCD 1 12 Ib min LR Date 35087 Word BCD 1 31 Ib min LR Hour 35088 Word BCD 0 23 Ib min LR Min 35089 Word BCD 0 59 Ib min LR Second 35090 Word BCD 0 59 Ic max LR 330915 DWord Float 35092 35093 Word BCD 00 99 Ic max LR Month 35094 Word BCD 1 12 Ic max LR Date 35095 Word BCD 1 31 Ic max LR Hour 35096 Word BCD 0 23 Ic max LR Min 35097 Word BCD 0 59 Ic max LR Second 35098 Word BCD 0 59 Ic min LR 35099 DWord Float 43 35100 35101 Word BCD 00 99 Ic Month 35102 Word BCD 1 12 Ic min LR Date 35103 Word BCD 1 31 Ic min LR Hour 35104 Word BCD 0 23 Ic min LR Min 35105 Word BCD 0 59 Ic Second 35106 Word BCD 0 59
41. Alarm 7 3 5 Event log Sag Record Swell Record Alarm Record In this event log section up to 20 latest records has been recorded 7 3 5 1 Sad Record Sag Record No 01 Cycle 720 Data 227 68 Phase B Begin Date 07703720 Time 08 30 10 End Date 07703720 Time 08 30 22 No to select the sag record from 1 to 20 using 4Bkeys Cycle sag cycles between 0 65535 Data sag percentage between 327 67 327 67 Phase A B C phase voltage Begin begin date and time End end date and time 27 7 3 5 2 Swell record No Cycle 1980 Data 266 55 Phase B Begin Date 07 03 20 Time 21 55 22 End Date 07 03 20 Time 21 55 55 No to select the swell record from 1 to 20 using 4 keys Cycle swell cycles between 0 65535 Data swell percentage between 327 67 327 67 Phase A B C phase voltage Begin begin date and time End end date and time 7 3 5 3 Alarm Record No 01 Item Data 66 67 Date 07 03 20 21 55 22 No to select the alarm record from 1 to 20 using 4 keys Item items can be current voltage etc as listed in the table of page 27 Data percentage Date date of accruing Time time of accruing 7 3 5 4 Analog input 45500 45500 45600 45600 The AI option was originally setup by entering high value and low value to correspond 4 20mA input In this report reaction users can observe the input data for each channel 7 3 5 5 Nameplate Inf
42. DWord Float HD13 Ic DWord Float 14 is DWord Float 15 ang DWord Float HD16 Ic DWord Float 17 2 DWord Float HD18 c ee DWord Float HD19 Ic ha Ka DWord Float HD20 I c 2 DWord Float HD21 Ic 37061 DWord Float 66 37063 22 37064 DWord Float HD23 I c 2 DWord Float HD24 I c en DWord Float HD25 I c e DWord Float HD26 I c 370717 DWord Float HD27 37075 DWord Float HD28 I c 37072 DWord Float HD29 I c DWord Float HD30 I 2 DWord Float HD31 Ic DWord Float Modbus Module 30 Input Register Neutral Current Harmonics Parameter name Range Units Comment Reserved 2 DWord Float HDiIn rd DWord Float HD2 In DWord Float HD3 In xd DWord Float HD4 2 DWord Float HD5In a DWord Float HD6 In 37092 DWord Float HD7In PD DWord Float HD8 In 37098 DWord Float HD9 In La DWord Float HD10 I n DWord Float HD11 In 2 DWord Float HD12 In 1 DWord Float HD13 In 20 DWord Float HD14 I n DWord Float 15 In DWord Float HD16 In 2 DWord Float HD17_I_n 210 DWord Float HD18 In 37119 DWord Float HD19 In 21 DWord Float HD20 In DWord Float HD21 DWord Float HD22 1 4 DWord Float HD23 I n 3712
43. Default Reset All Demand Reset Period Reset Daily Reset Clear this Day Max Min amp Yesterday Max Min Record Energy Reset Reset kWh del kWh rec kWh tot kWh kVarh lagging kVarh leading kVArh tot kVArh Sag Reset Reset Sag Record Swell Reset Reset Swell Record Sag Swell Reset Reset Sag Swell Record Alarm Rcd Reset Reset Alarm Record Reset to Default Reset all the parameters to default value Reset All Clear This Day Yesterday Max Min gt Energy Sag Swell Alarm Demand and move This Period Max Min to Last Reset Max Min also recode reset time Clear This Period Max Min Demand Reset Clear Demand data restart Demand Interval Period Reset Move This Period Max Min data to Last Reset Max Min record reset time and clear This Period Max Min data 18 7 2 2 Basic Setup Communication Measurement Security Alarm Set Point Clock Setup Digital Output Analog Output Analog Input Demand Setup Period Reset 7 2 2 1 Communication Modbus Ethernet Modbus Baud Rate CM1 Unit ID Stop Bit Parity Bit Please refer to the modbus format and parameters in the appendix Baud Rate Default is 19200 CM1 Unit ID 12255 RS485 Modbus ID address default is 15 Stop Bit bit to signal the end of communication depending on PC side Default is 1 Parity Bit The total number of bit is always either odd or even therefore it can be checke
44. Month 34744 Word BCD 1 12 Va min TP Date 34745 Word BCD 1 31 Va min TP Hour 34746 Word BCD 0 23 Va min TP Min 34747 Word BCD 0 59 Va min TP Second 34748 Word BCD 0 59 Vb max TP 34749 DWord Float 38 34750 Vb max Year 34751 Word BCD 00 99 Vb max TP Month 34752 Word BCD 1 12 Vb max TP Date 34753 Word BCD 1 31 Vb max TP Hour 34754 Word BCD 0 23 Vb max TP Min 34755 Word BCD 0 59 Vb max TP Second 34756 Word BCD 0 59 Vb min TP 34757 Word Float cba du 34758 Vb min TP Year 34759 Word BCD 00 99 Vb min TP Month 34760 Word BCD 1 12 Vb min TP Date 34761 Word BCD 1 31 Vb min TP Hour 34762 Word BCD 0 23 Vb min TP Min 34763 Word BCD 0 59 Vb min TP Second 34764 Word BCD 0 59 Vc max TP 34765 DWord Float 34766 Vc_max_TP_Year 34767 Word BCD 00 99 Vc_max_TP_Month 34768 Word BCD 1 12 Vc_max_TP_Date 34769 Word BCD 1 31 Vc_max_TP_Hour 34770 Word BCD 0 23 Vc_max_TP_Min 34771 Word BCD 0 59 Vc_max_TP_Second 34772 Word BCD 0 59 Vc min 247737 DWord Float ue 34774 Vc min TP Year 34775 Word BCD 00 99 Vc min TP Month 34776 Word BCD 1 12 Vc min TP Date 34777 Word BCD 1 31 Vc min TP Hour 34778 Word BCD 0 23 Vc min TP Min 34779 Word BCD 0 59 Vc min TP Second 34780 Word BCD 0 59 Ia max TP 34781 DWord Float 34782
45. New Counter 44210 Word Uint 0 20 reading up to 20 data Swell New Counter 44211 Word Uint 0 20 reading up to 20 data Alarm Total Counter 44212 Word Uint 0 20 EOFS accu Witla Ro to 20 data 3 Current total accumulates up Sag Total Counter 44213 Word Uint 0 20 to 20 data E Current total accumulates up Swell Total Counter 44214 Word Uint 0 20 to 20 data Modbus Module 6 Input Register Digital Output Modbus Data Default 5 Parameter name Register Len Type Range Value Units Comment bit 0 Digital Output 1 Digital Output 34097 Word UInt bit 1 Digital Output 2 Digital Output Reserve 34098 Word UInt Modbus Module 7 Input Register Digital Intput Modbus Data Default Parameter name Register Len Type Range value Units Comment bit O Digital Input 1 bit 1 Digital Input 2 bit 2 Digital Input 3 bit 3 Digital Input 4 bit 4 Digital Input 5 bit 5 Digital Input 6 Digital Input 34099 Word UInt bit 6 Digital Input 7 bit 7 Digital Input 8 bit 8 Digital Input 9 bit 9 Digital Input 10 bit 10 Digital Input 11 bit 11 Digital Input 12 Digital Input Reserve 34100 Word UInt Modbus Module 8 Input Register Alarm Counter Modbus Data Default Parameter name Register Len Type Range value Units Comment Counter number new after last Alarm New Counter 34101 Word UInt 0 20 reading up to 20 data Counter number new after last Sag New Counter 34102 Word UInt 0 20 rea
46. Pate 1 31 35738 BCD Hour 0 23 Minute 0 59 Second 0 59 Swellii Duration Cycles 35739 Word UINT Range Swelll1 Data 35740 Word INT 327 68 327 67 0 A phase 1 B 5 11 Phase 35741 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp Swellii Start time 35742 Word x 6 Time Date 1 31 35747 BCD Hour 0 23 Minute 0 59 Second 0 59 54 Year 00 99 Date 8 Month 1 12 Swellii End time 397485 Word 6 Time Date 1 31 35753 BCD Hour 0 23 Minute 0 59 Second 0 59 Swell12 Duration Cycles 35754 Word UINT Range Swell12 Data 35755 Word INT 327 68 327 67 0 A phase 1 B Swell12 Phase 35756 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp Swell12 Start time 33757 Word x 6 Time Date 1 31 35762 BCD Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp Swell12 End time 35763 Word x 6 Time Date 1 31 35768 BCD Hour 0 23 Minute 0 59 Second 0 59 Swell13 Duration Cycles 35769 Word UINT Range Swell13 Data 35770 Word INT 327 68 327 67 0 A phase 1 B Swell13 Phase 35771 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp are Swell13 Start time 39772 Word 6 Time potesl 35777 BCD Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp Swelli3 End time 357785 Word 6 Time Date 1 31 35
47. Sag02 End time 35318 Word x 6 eb Hour 0 23 Minute 0 59 Second 0 59 Sag03 Duration Cycles 35319 Word UINT Range 327 68 Sag03 Data 35320 Word INT 327 67 Sag03 Phase 35321 Word UINT Hai 00 99 Month 1 12 Date amp 35322 Date 1 31 Sag03 Start time 35327 Word x 6 Bob Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp 35328 Date 1 31 Sag03 End time 35333 Word x 6 Bb Hour 0 23 Minute 0 59 Second 0 59 Sag04 Duration Cycles 35334 Word UINT Range 327 68 Sag04 Data 35335 Word INT 327 67 04 Phase 35336 Word UINT oe ened hers Year 00 99 Month 1 12 Date amp Sag04 Start time 35337 Word x 6 Time Pate 1 31 35342 BCD Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp 35343 Date 1 31 Sag04 End time 35348 Word x 6 Bob Hour 0 23 Minute 0 59 Second 0 59 Sag05_Duration_Cycles 35349 Word UINT Range 327 68 Sag05_Data 35350 Word INT w 327 67 Sag05_Phase 35351 Word UINT A 00 99 Month 1 12 Date amp 35352 Date 1 31 Sag05 Start time 35357 Word x 6 Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp 35358 Date 1 31 Sag05 End time 35363 Word x 6 BED Hour 0 23 Minute 0 59 Second 0 59 Sag06 Duration Cycles 35364 Word UINT Range 327 68 Sag06 Data 35365 Word INT 327 67 Sag06 Phase 35366 Word UINT 0 ATH 1 2
48. Second 0 59 Alarm16_Item 36009 Word UINT Range Alarm16_Data 36010 Word INT 327 68 327 67 Year 00 99 Month 1 12 Date amp Alarm16 Time 36011 Word x 6 Time Date 1 31 36016 BCD Hour 0 23 Minute 0 59 Second 0 59 Alarm17 Item 36017 Word UINT Range Alarm17 Data 36018 Word INT 327 68 327 67 Year 00 99 Month 1 12 Date amp 1 36019 Date 1 31 Alarm17 Time 36024 Word x 6 eb Hour 0 23 Minute 0 59 Second 0 59 Alarm18 Item 36025 Word UINT Range 18 Data 36026 Word INT 327 68 327 67 00 99 Month 1 12 Date amp Alarm18 Time 36027 Word x 6 Time Date 1 31 36032 BCD Hour 0 23 Minute 0 59 Second 0 59 Alarmi9 Item 36033 Word UINT Range 19 Data 36034 Word INT 327 68 327 67 Year 00 99 Month 1 12 Date amp 19 36035 Word 6 Time Pate 1 31 36040 BCD Hour 0 23 Minute 0 59 Second 0 59 Alarm20 Item 36041 Word UINT Range 20 Data 36042 Word INT 327 68 327 67 Year 00 99 Month 1 12 Date amp Alarm20 Time 36043 Word x 6 Time Pate 1 31 36048 BCD Hour 0 23 Minute 0 59 Second 0 59 Modbus Module 22 Input Register Total Harmonics Modbus Data Default Parameter name Register Len Type Range Value Units Comment 36657 TOT HD V a 36658 DWord Float 36659 TOT HD V b 36660 DWord Float 36661 TOT HD V c 36662 DWord Float 36663 TOT HD I a 36664 DWord Float TOT HD
49. User Manual Smart Power Transducer PD1000 BrainChild 1000 Brainchild Electronic Ltd V1 0 05 2007 Content Chapter 1 Introduction aa ka kana tel Product Introduction eee tem NALNG ULA 4 1 2 Ud ra cua desee Hd TR ed age DeL PE 5 1 2 1 Danger aaa keasaman in Naa aan alan 5 1 2 2 PRODUCT WARRANTY amp CUSTOMER SUPPORT oooooo oo oo oom 5 1 2 3 LIMITATION OF 0 484600000 0 en ana 5 Chapter 2 Detail SpecificatiOn ooo mo momen 6 2 1 Power parameters MEASUNG ierit DANA EN NN EN BN NN EN ban bata 6 2 2 Energy Measu re an fo melo ana anna 6 273 Demand measule AM NN I T 6 2 4 KAG Fee BN 6 2 5 Report and event 991 6 2 6 Display 22 6 2 7 GomnmnuniCatiOrn ier eite Ea re dere uate e Ee DEF e tested e a uuu 6 2 8 Environmental amp Physical oo Wo Wanna 6 2 9 Ordering Gode ade an NB Ba 7 Chapter 3 Installatioh ai iA daa ET 8 3 2 MOUNN Oera a lamad aa aa N
50. Word BCD 0 59 Modbus Module 16 Input Register Daily Report Yesterday Max Min Modbus Data Default Parameter name Register Len Type Range value Units Comment 34671 KWH del DY 34672 DWord Float 34673 KWH rec DY 34674 DWord Float 34675 KWH tot DY 34676 DWord Float 34677 KW tot max DY 34678 DWord Float KW tot max DY Year 34679 Word BCD 00 99 KW tot max DY Month 34680 Word BCD 1 12 KW tot max DY Date 34681 Word BCD 1 31 KW tot max DY Hour 34682 Word BCD 0 23 KW tot max DY Min 34683 Word BCD 0 59 37 KW tot max DY Second 34684 Word BCD 0 59 KW tot min DY 2 DWord Float KW tot min DY Year 34687 Word BCD 00 99 KW tot min DY Month 34688 Word BCD 1 12 KW tot min DY Date 34689 Word BCD 1 31 KW tot min DY Hour 34690 Word BCD 0 23 KW tot min DY Min 34691 Word BCD 0 59 KW tot min DY Second 34692 Word BCD 0 59 Vavg max DY DWord Float Vavg max DY Year 34695 Word BCD 00 99 Vavg max DY Month 34696 Word BCD 1 12 Vavg max DY Date 34697 Word BCD 1 31 Vavg max DY Hour 34698 Word BCD 0 23 Vavg max DY Min 34699 Word BCD 0 59 Vavg max DY Second 34700 Word BCD 0 59 Vavg min DY i DWord Float Vavg min DY Year 34703 Word BCD 00 99 Vavg min DY Month 34704 Word BCD 1 12 Vavg min DY Date 34705 Word BCD 1 31 Vavg
51. ata Power Result Parameter name RE Len pon Units Comment KW a DWord Float KW_b 2 DWord Float ab KW c 34139 DWord Float mS KW tot DWord Float Hd KVAR a 34143 DWord Float Tak b 34148 DWord Float fumme 222 DWord Float 5 KVAR tot 2 DWord Float roni d KVA a M DWord Float KVA b 32123 DWord Float KVA c 21 DWord Float Ha KVA tot DWord Float Modbus Module 11 Input Register Realtime Data Power Factor amp Phase Angle Parameter name PIGH Len Range perault Units Comment Register Type value PF_signed_a MAG DWord Float signed DWord Float ae PF_signed_c 21 DWord Float S PF signed avg 2 DWord Float Hana PhaseAngle a 7 DWord Float PhaseAngle V b prid DWord Float 35 PhaseAngle c oe DWord Float PhaseAngle_I_a 21 DWord Float PhaseAngle I b 2 DWord Float PhaseAngle I c 2 DWord Float Reserved 32112 DWord Float Reserved 7 DWord Float Reserved 2 1 DWord Float Modbus Module 12 Input Register Realtime Data Energy Parameter name Reda Len ee Range Units Comment KWH del 34185 DWord Float Ha KWH rec 12 DWord F
52. ate 35191 Word BCD 1 31 KVAc max LR Hour 35192 Word BCD 0 23 KVAc max LR Min 35193 Word BCD 0 59 KVAc max LR Second 35194 Word BCD 0 59 LR DWord Float KVAc min LR Year 35197 Word BCD 00 99 KVAc min LR Month 35198 Word BCD 1 12 KVAc min LR Date 35199 Word BCD 1 31 KVAc min LR Hour 35200 Word BCD 0 23 KVAc min LR Min 35201 Word BCD 0 59 KVAc min LR Second 35202 Word BCD 0 59 PFa min LR DWord Float PFa min LR Year 35205 Word BCD 00 99 PFa min LR Month 35206 Word BCD 1 12 PFa min LR Date 35207 Word BCD 1 31 PFa min LR Hour 35208 Word BCD 0 23 PFa min LR Min 35209 Word BCD 0 59 PFa min LR Second 35210 Word BCD 0 59 PFb min LR ds DWord Float PFb min LR Year 35213 Word BCD 00 99 PFb min LR Month 35214 Word BCD 1 12 PFb min LR Date 35215 Word BCD 1 31 PFb min LR Hour 35216 Word BCD 0 23 PFb min LR Min 35217 Word BCD 0 59 PFb min LR Second 35218 Word BCD 0 59 PFc min LR 15 DWord Float PFc min LR Year 35221 Word BCD 00 99 PFc min LR Month 35222 Word BCD 1 12 PFc min LR Date 35223 Word BCD 1 31 PFc min LR Hour 35224 Word BCD 0 23 PFc min LR Min 35225 Word BCD 0 59 PFc min LR Second 35226 Word BCD 0 59 VaTHD max LR 0 DWord Float VaTHD max LR Year 35229 Word BCD 00 99 VaTHD max LR Month 35230 Word BCD 1 12 VaTHD max LR Date 35231 Word BCD 1 31 VaTHD max LR Hour 35232 Word BCD 0 23 VaTHD max LR Min 35233 Word BCD 0 59 VaTHD max LR Second 35234 Word BCD 0 59 max LR 252 DWord Float VbTHD_max_LR_Year 3523
53. c min LR Min 35153 Word BCD 0 59 KWc min LR Second 35154 Word BCD 0 59 max LR 5 DWord Float KVAa max LR Year 35157 Word BCD 00 99 KVAa max LR Month 35158 Word BCD 1 12 KVAa max LR Date 35159 Word BCD 1 31 KVAa max LR Hour 35160 Word BCD 0 23 KVAa max LR Min 35161 Word BCD 0 59 KVAa max LR Second 35162 Word BCD 0 59 min LR Aid DWord Float KVAa min LR Year 35165 Word BCD 00 99 KVAa min LR Month 35166 Word BCD 1 12 KVAa min Date 35167 Word BCD 1 31 KVAa min LR Hour 35168 Word BCD 0 23 KVAa min LR Min 35169 Word BCD 0 59 KVAa min LR Second 35170 Word BCD 0 59 44 35171 KVAb max LR 35172 DWord Float KVAb max LR Year 35173 Word BCD 00 99 KVAb max LR Month 35174 Word BCD 1 12 KVAb max LR Date 35175 Word BCD 1 31 KVAb max LR Hour 35176 Word BCD 0 23 KVAb max LR Min 35177 Word BCD 0 59 KVAb max LR Second 35178 Word BCD 0 59 KVAb min LR DWord Float KVAb min LR Year 35181 Word BCD 00 99 KVAb min LR Month 35182 Word BCD 1 12 KVAb min LR Date 35183 Word BCD 1 31 KVAb min LR Hour 35184 Word BCD 0 23 KVAb min LR Min 35185 Word BCD 0 59 KVAb min LR Second 35186 Word BCD 0 59 KVAc max LR DWord Float KVAc max LR Year 35189 Word BCD 00 99 KVAc max LR Month 35190 Word BCD 1 12 KVAc max LR D
54. d during the communication Default is none Ethernet IP Address Port No Subnet Mask Gateway MAC Address IP Address The IP address of computer host is required here xxx is 0 255 Port No Port no Has been defined as 502 or 503 please select 502 or 503 Subnet Mask If subnet was used host and subnet IP address are required please use XXX XXX XXX Xxx to set Gateway Gateway is used to enter other internet xxx xxx xxx xxx is required Mac Address It is 6 fixed number can not be 0 7 2 2 2 Measurement Volts Mode PT Primar PT Secondary CT Primar CT Secondary Frequency Volts Mode If auto is selected the wiring method will be detected automatically Default is Auto PT Primary 60 6000000 primary voltage PT Secondary 1 600 secondary voltage CT Primary 1 5000 primary max current CT Secondary 1 5 secondary max current e Frequency Default is 60Hz 7 2 2 3 Security Modify PWord If password cannot be recalled please contact your local dealer You can press Enter and gt key at the same time to reset every parameter to default values including password The default value of password is 000000 7 digits Press 4 keys to move the desired position keys can change the numerical or alphabetic letters in the selected position 7 2 2 4 Alarm Set Point Enable Disable SAG SWELL L
55. d UINT Range 10 Data 35962 Word INT 327 68 327 67 Year 00 99 Month 1 12 Date amp Alarm10 Time 35963 Word x 6 Time Date 1 31 35968 BCD Hour 0 23 Minute 0 59 Second 0 59 Alarm11 Item 35969 Word UINT Range Alarm11 Data 35970 Word INT 327 68 327 67 00 99 Month 1 12 Date amp Alarm11 Time 35971 Wordx6 Time Pate 1 31 35976 BCD Hour 0 23 Minute 0 59 Second 0 59 Alarm12_Item 35977 Word UINT Range Alarm12_Data 35978 Word INT 327 68 327 67 Year 00 99 Month 1 12 Date amp Alarm12 Time 35979 Word x 6 Time Date 1 31 35984 BCD Hour 0 23 Minute 0 59 Second 0 59 Alarm13 Item 35985 Word UINT Range Alarm13 Data 35986 Word INT 327 68 327 67 Year 00 99 Month 1 12 Date amp Alarm13 Time 3598 4 Word 6 Time oe ee 35992 BCD Hour 0 23 Minute 0 59 Second 0 59 Alarmi4 Item 35993 Word UINT Range 14 Data 35994 Word INT 327 68 327 67 00 99 Month 1 12 Date amp Alarm14 Time 35995 Time Bates 1 31 36000 BCD Hour 0 23 Minute 0 59 Second 0 59 Alarm15 Item 36001 Word UINT Range Alarm15 Data 36002 Word INT 327 68 327 67 59 00 99 Date amp Month 1 12 Alarm15 Time 36003 Word ee Time 36008 BCD Hour 0 23 Minute 0 59
56. ding up to 20 data Counter number new after last Swell New Counter 34103 Word UInt 0 20 reading up to 20 data Current total accumulates up Alarm Total Counter 34104 Word UInt 0 20 to 20 data 7 Current total accumulates up Sag Total Counter 34105 Word UInt 0 20 to 20 data Swell Total Counter 34106 Word urt 0 20 Currente total a cumulates up to 20 data Modbus Module 9 Input Register Realtime Data Voltage Current Frequency Modbus Data Default Parameter name Register Len Type Range Value Units Comment 34107 with Runtime Vin 34108 DWord Float Primary Voltage Volts display 34 5 DWord Float Primary Voltage Volts Vin c M DWord Float Primary Voltage Volts 2 avg 2 DWord Float Primary Voltage Volts 7 VII ab d DWord Float Primary Voltage Volts bc DWord Float Primary Voltage Volts 2 DWord Float Primary Voltage Volts avg 22 DWord Float Primary Voltage Volts I a DWord Float Primary Current Amp Dir I b DWord Float Primary Current Amp HARA Ic c DWord Float Primary Current Amp I avg 1 DWord Float Primary Current Amp In DWord Float Primary Current Amp 22 Freq ud DWord Float Hz udis Modbus Module 10 Input Register Realtime D
57. e ai EN Nb AN en ni 8 Chapter 4 4 1 Back view of connect pOrt eem Ate e eise tet aca eat ol cedet nated na 9 41 1 Digital OUtDUt eret event ve ett 10 4 1 2 Analog man una nana b PUR etus 10 4 1 3 Digital In put i oii EN RH te e eds tud am 10 4 1 4 Analog Input tec e an NABAL nan ema 10 4 1 5 Aux Power 2220 0 11 4 16 Current retten ent eee hte e a 11 4 1 7 Voltage xi usi Kanal anta pete e kala nana feoda 11 4 2 Wiring etr anna asean ea aa FD La e RA RE de RE ed sse 12 4 21 BP2W TCT aa ee epe e Da RN e AR ANN UN AAN NN na Aa 12 4 2 2 d pru 12 4 2 3 3 2 edi ur arx 12 252 4 3P3W7 3C Toc eost Sepe tel tend ak don ees Ue easy GIANT ANA Unna FER PAASA 13 4 25 Mean t teet tet ct eet eot a 13 Chapter 5 Function Chapter 6 RunTime
58. function makes PD1000 suitable for modern industrial power management The built in Ethernet and rich communication abilities enable PD1000 to be easily connected with most modern third party SCADA systems Features Standard Model Advanced Model Power parameters measure Current 3 phase neutral accuracy 0 196 Voltage 3 phase phase phase phase neutral accuracy 0 196 Frequency 50 60 Hz Total power Active reactive apparent power accuracy 0 596 Power per phase Active reactive apparent power accuracy 0 5 Power factor Total per phase Auto wiring detection Energy measure Energy Active reactive apparent energy accuracy 0 5 Bi directional energy Deliver and receive kWh kVARh kVAh Display and input output Panel display Mono 128 x 128 STN LCD Digital input 12 channel dry contact inputs Digital output 2 channel relays for alarm or kWh pulse output Analog input 4 channel 4 20mA inputs option Analog output 4 channels 4 20 for V KW kVA option Voltage connection 1 600 Current connection 2mA 5A Power supply 86 242VAC or 100 125VDC Communication Primary port 5485 Modbus or DNP 3 0 protocol Secondary port Ethernet 10 100 Mbps Modbus over TCP IP protocol option Free topology twist pair LonTalks protocol option Demand measure Block R
59. idually in the setup mode and auto scroll time can be disabled or set from 1 to 6 second The cruise keys are used to move from one page to another one manually Use gt to next page Use to previous page Chapter 7 Set mode 7 1 Display and keyboard LCD graphic LED back lighted 128 x128 v112 8 v 1 15 46 5447 0 EL 0 289 Enter Esc S ago kWh light Pulse output Enter key Entering setup mode or confirm the selection Esc key Back to runtime mode or return to previous setup page Arrow Key Scroll select item or change the input number or shift input position 7 Enter PWord 0000000 2 Set up Clear Function Basic Setu Display Setup Press Enter to setup mode enter password ooooooc 7 digits default as 0000000 user can modify password Setup Basic Setup Security Modify PWord Clear Function Basic Setup Display Setup 7 2 1 Clear Function Clear Function Daily Reset Energy Reset Sag Reset Swell Reset Sag Swell Reset Alarm Rcd Reset Reset to Default Reset Demand Reset Clear function was designed to allow user to easily move and or reset different data stored in this instrument Nevertheless energy data will not be reset due to its accumulation characteristics expect using the function of energy reset Item Setup Daily Reset Energy Reset a No Sag Reset a Yes Swell Reset Sag Swell Reset Alarm Rcd Reset Reset to
60. imit Alarm Set Point e Enable Disable To enable or disable the alarm setting if enable is selected it will be recorded as an event when the alarm was triggered Sag Swell Limit SAG SWELL Limit Sag Limit Swell Limit Ref Primary Voltage Sag Limit Sag limit can be set between 80 to 100 90 is the unit used When measured voltage is lower than the sag limit setting but no longer than 1 min continuously it will be treated as Voltage Sag If longer than 1 min it will be recorded as Low Voltage Use keys to change the setting value Swell Limit Swell limit will be set between 100 120 When the measure voltage is high than the swell limit compared to primary voltage setting for less than 1 min it is treated as voltage swell If longer than 1 min it will be recorded as Over Voltage Use keys to change the setting value Ref Primary Voltage Reference Voltage for sag and swell to compare with 660 600000 e Alarm Set Point Alarm Set Point V Unbal Alarm Unbal Alarm THD Alarm Over Phase Alarm Over Neutral Alarm I Loss Alarm Loss Alarm Events due to alarm can be read through communication as defined in the following table Item Description 0x10 Over Current Phase A Alarm 0x11 Over Current Phase B Alarm 0x12 Over Current Phase C Alarm 0x13 Over Current Neutral Alarm 0x14 Current Unbalance Alarm 0x15 Current Loss Alarm 0x20
61. loat PAD EET KWH tot 24194 DWord Float dps KWH net 2 DWord Float KVARH lagging 21127 DWord Float FED KVARH rec leading DWord Float PRIN KVARH tot 02 DWord Float KVARH net 2 DWord Float KVAH 22 DWord Float Modbus Module 13 Input Register Realtime data Demand Parameter name im Len Range DAE Units Comment Demand KW 2 DWord Float Demand Remain Time 34205 Word UInt sec Modbus Module 14 Input Register AI Result Parameter name 1 Range t Units Comment Value 34206 Word UInt 0765535 AI2 Value 34207 Word UInt 0765535 AI3 Value 34208 Word UInt 0465535 14 Value 34209 Word UInt 0765535 Modbus Module 15 Input Register Daily Report This Day Max Min Parameter name E Len Tibe Range Basa Units Comment KWH del DT 32003 DWord Float KWH rec DT 22 DWord Float KWH tot DT sara Dword Float KW tot max DT DWord Float KW tot max DT Year 34617 Word BCD 00 99 36 KW tot max DT Month 34618 Word BCD 1 12 KW tot max DT Date 34619 Word BCD 1 31 KW tot max DT Hour 34620 Word BCD 0 23 KW tot max DT Min 34621 Word BCD 0 59 KW tot max DT Second 34622 Word BCD 0 59 KW tot min DT DWord Float KW tot min DT Year 34625 Word BCD 00 99 KW tot min DT Month 34626 Word BCD 1 12
62. min DY Hour 34706 Word BCD 0 23 Vavg min DY Min 34707 Word BCD 0 59 Vavg min DY Second 34708 Word BCD 0 59 Iavg max DY DWord Float Iavg max DY Year 34711 Word BCD 00 99 Iavg max DY Month 34712 Word BCD 1 12 Iavg max DY Date 34713 Word BCD 1 31 Iavg max DY Hour 34714 Word BCD 0 23 Iavg max DY Min 34715 Word BCD 0 59 Iavg max DY Second 34716 Word BCD 0 59 Iavg min DY 2 DWord Float Iavg min DY Year 34719 Word BCD 00 99 Iavg min DY Month 34720 Word BCD 1 12 Iavg min DY Date 34721 Word BCD 1 31 Iavg min DY Hour 34722 Word BCD 0 23 Iavg min DY Min 34723 Word BCD 0 59 Iavg min DY Second 34724 Word BCD 0 59 Demand max DY DWord Float Demand max DY Year 34727 Word BCD 00 99 Demand max DY Month 34728 Word BCD 1 12 Demand max DY Date 34729 Word BCD 1 31 Demand max DY Hour 34730 Word BCD 0 23 Demand max DY Min 34731 Word BCD 0 59 Demand max DY Second 34732 Word BCD 0 59 Modbus Module 17 Input Register Diagnostic This Period Max Min Parameter name Modaus Len Data Range Units Comment Register Type value Va max TP a DWord Float Va_max_TP_Year 34735 Word BCD 00 99 Va max TP Month 34736 Word BCD 1 12 Va max TP Date 34737 Word BCD 1 31 Va max TP Hour 34738 Word BCD 0 23 Va max TP Min 34739 Word BCD 0 59 Va max TP Second 34740 Word BCD 0 59 Va min TP DWord Float XE 34742 Va min TP Year 34743 Word BCD 00 99 Va min TP
63. n daily report and regular report and event logging They will be shown as yy mm dd and hh mm ss 7 2 2 6 Digital Output Digital Output Digital Output 1 Digital Output 2 2 channel of digital outputs for alarm output and pulse output Output 1 5 V Unbal Alarm I Unbal Alarm THD Alarm Over V Alarm Under V Alarm Over Alarm ILoss Alarm V Loss Alarm Alarm output can be selected from the list Digital Output 2 y Pulse output the output item can be none kWh kVARh kVAh output pulse unit can be either 1 wh pulse or 1 kwh pulse 7 2 2 7 Analog Output Analog Output 1 Analog Output 2 Analog Output 3 Analog Output 4 4 channels of 4 20mA setting can be assigned to V I kW kVA or kVAR Data measured from secondary V I kW kVA or kVAR 4 20mA corresponding to the value each items are 1 600 I 2mA 5A kW 3 kWatt kVAR 3 kVAr kVA 3 kVA For each analog output users can choose item like V I and phase like A B all 22 7 2 2 8 Analog input Analog Input 1 Analog Input 2 Analog Input 3 Analog Input 4 AI high value be from 0 65535 the corresponding external input is 20mA low value can be from 0 655535 and the corresponding external value is 4mA 7 2 2 9 Demand Setup Mode No of Subinterval Subinterval Length Mode Block Rolling e Block Calculation updates at the end of the interval 15 minute interval
64. o Version 1 10 Dig Inp 12 Out 2 Ang Inp 4 Ang Out 4 Protocol Modbus 2nd Pord None 28 Chapter 8 Communication format 8 1 5485 8 1 1 5485 standard PARAMETERS Mode of Operation Differential Number of Drivers and Receives 32 Drivers 32 Receivers Maximum cable length meters 1200 Maximum data rate baud 10M Maximum common mode voltage Volts 12 to 7 Maximum Driver Output Levels Loaded 1 5 Maximum Driver Output Levels Unloaded 6 Drive Load Ohms 60 min Driver Output short circuit Resistance kohms 150 to Gnd 250 to 7 or 12V Minimum receiver input Resistance kohms 12 Receiver sensitivity 200mv 8 1 2 Wiring for instruments communication RS485communication must use twisted paired wire as show in the following program D connect to one wire and D to the other one 120 ohm FC Power meter Power meter Power meter Slave Slave Slave Master D Dt D D D D D D IN KCN KON 171 2 4 14104 1 120 JL Pi Ng J N 12 J E J p C 7 7 7 7 3 Y d Pr 13 3 IN L j Li Ld 1 1 Nd V v Cautions There must
65. oat HDi Ib 2 DWord Float HD2 Ib 5 DWord Float HD3 I b 222 DWord Float HD4 I b Ax DWord Float HD5 I b DWord Float HD6 I b 22 DWord Float HD7 Ib 2 DWord Float HD8 I b DWord Float HD9 I b 5 DWord Float HD10 I b 522 DWord Float HDi11 I b 22 DWord Float HD12 I b DWord Float HD13 I b 525 DWord Float HD14 I b a DWord Float HD15 I b 5 DWord Float HD16 I b DWord Float HD17 I b Am DWord Float HD18 I b 5 DWord Float HD19 I b 2 DWord Float HD20 1 b 36995 DWord Float 65 36996 36997 HD21 I b 36998 DWord Float HD22 I b 36999 DWord Float HD23 I b 37001 DWord Float HD24 I b M nd DWord Float HD25 I b 2 DWord Float HD26 I b 22 DWord Float HD27 I b DWord Float HD28 I b mlang DWord Float HD29 I b 37012 DWord Float HD30 I b 37012 DWord Float HD31 I b 20 DWord Float Modbus Module 29 Input Register Phase C Current Harmonics Parameter name Range palala Units Comment Reserved ot DWord Float HDiIc liang DWord Float HD2 Ic 37025 DWord Float HD3 Ic 27520 DWord Float 4 Ic Dod DWord Float HD5 Ic d DWord Float HD6 Ic 2 DWord Float HD7_I_c 2 DWord Float HD8 Ic 2 DWord Float HD9 Ic al DWord Float HD10 Ic 37048 DWord Float 11 DWord Float HD12 Ic 37044
66. ode at present 0 1P2W Volts Mode 44114 SER eee LoB Byte 3 3p3W Delta 2 4 3PAW 5 Auto PT Primary 44112 DWord Float 60 600000 110 Volts PT Secondary 44117 Word UInt 1 600 110 Volts CT Primary 44118 Word UInt 1 5000 1 Amp Secondary 44119 Word UInt 1 5 1 Amp Frequency 44120 Word UInt 0 50Hz 1 60Hz 1 Demand Mode 44121 Word UInt 0 Block 1 Rolling 0 Number of Subinterval 44122 word umt 1 2 3 4 5 6 10 1 Demand Subinterval 1 2 3 4 5 6 10 12 15 2 Length 44123 Word UInt 0 30 60 15 Min 44124 Password DWord Uint32 Oxxxxxxxh 0000000 44125 44126 Reserved 44127 Word Alarm Enable 44128 Word UInt 0 disable 1 enable 0 For Sag amp Of 0 0 Limit 44129 Word UInt Range 80 100 100 Yo UnderVoltag 31 e alarm For Swell amp SWELL Limit 44130 Word UInt Range 100 120 100 OverVoltage alarm For gt dana Dword Float 60 600000 110 Volts 1 Oden Voltage For Voltage Voltage Unbal Limit 44133 Word UInt Range 0 10 10 unbalance alarm For Current Current Unbal Limit 44134 Word UInt Range 0 10 10 unbalance alarm THD Limit 44135 Word UInt Range 0 50 50 For Over S MERO 44136 Word UInt 0 9999 9999 Amp Current Phase alarm For Over Neutral 44137 Word UInt 0 9999 9999 Amp
67. olling demand Power Quality measure Harmonic V THD and individual harmonics Sag Swell Configurable setting points Report and event logging Report Daily report this day yesterday Regular report this period last reset Event logging Sag swell alarm logging 1 2 Caution 1 2 1 Danger PD1000 contains hazardous voltages The meter should never be disassembled Failure to observe this practice can result in serious injury or death Any work on or near energized meters meter Sockets or other metering equipment can present a danger of electrical shock It is strongly recommended that all work should be performed only by qualified industrial electricians and metering specialist We assume no responsibility if your electrical installer does not follow the appropriate national and local electrical codes 1 2 2 PRODUCT WARRANTY amp CUSTOMER SUPPORT Brainchild warrant all products free from defects in material and workmanship for a period of one year from the date of shipping During the warranty period Brainchild will at our position repair the product that proves to be defective Please have the model serial number and a detailed problem description available If the problem concerns a particular reading please have all meter readings available When returning any merchandise to us a return materials calibration number is required 1 2 3 LIMITATION OF WARRANTY This warranty does n
68. ord BCD 0 23 KVAb min TP Min 34907 Word BCD 0 59 KVAb min TP Second 34908 Word BCD 0 59 KVAc max TP S DWord Float KVAc max TP Year 34911 Word BCD 00 99 KVAc max TP Month 34912 Word BCD 1 12 KVAc max TP Date 34913 Word BCD 1 31 KVAc max TP Hour 34914 Word BCD 0 23 KVAc max TP Min 34915 Word BCD 0 59 KVAc max TP Second 34916 Word BCD 0 59 KVAc TP DWord Float KVAc min TP Year 34919 Word BCD 00 99 KVAc min TP Month 34920 Word BCD 1 12 KVAc min TP Date 34921 Word BCD 1 31 KVAc min TP Hour 34922 Word BCD 0 23 KVAc min TP Min 34923 Word BCD 0 59 KVAc min Second 34924 Word BCD 0 59 PFa min TP 2 DWord Float PFa min TP Year 34927 Word BCD 00 99 PFa min TP Month 34928 Word BCD 1 12 PFa min TP Date 34928 Word BCD 1 31 PFa min TP Hour 34930 Word BCD 0 23 PFa min TP Min 34931 Word BCD 0 59 PFa min TP Second 34932 Word BCD 0 59 PFb min TP 2 DWord Float UTERE 34934 PFb min TP Year 34935 Word BCD 00 99 PFb min TP Month 34935 Word BCD 1 12 PFb min TP Date 34937 Word BCD 1 31 PFb min TP Hour 34938 Word BCD 0 23 PFb min TP Min 34939 Word BCD 0 59 PFb min TP Second 34940 Word BCD 0 59 PFc min TP pai DWord Float 22143255 34942 PFc min TP Year 34943 Word BCD 00 99 PFc min TP Month 34944 Word BCD 1 12 PFc min TP Date 34945 Word BCD 1 31 PFc min TP Hour 34946 Word BCD 0 23 PFc min TP Min 34947 Word BCD 0 59 PFc min TP Second 34948 Word BCD 0 59 VaTHD max TP 22242 DWord Float 34950 VaTHD_max_TP_Year 34951 Word BCD 00 99
69. ot apply to defects resulting from unauthorized modification misuse or use for reasons other than electrical power monitoring The supplied meter is not a user serviceable product Chapter 2 General Features only in Advanced model 2 1 Power parameters measure and accuracy Current 3 phase neutral accuracy 0 1 Voltage 3 phase phase phase phase neutral accuracy 0 1 Frequency 47 63 Hz Total power Active reactive apparent power accuracy 0 5 Power per phase Active reactive apparent power accuracy 0 5 Power factor Total per phase 2 2 Energy measure Energy Active reactive apparent energy accuracy 0 5 Bi directional energy Deliver and receive kWh kVARh kVAh 2 3 Demand Bi directional Block Rolling demand 2 4 Power Quality measure Harmonic V I THD and individual harmonics up to 31 orders Sag Swell Configurable setting points 2 5 Report and event logging Report Daily report this day yesterday Regular report this period last reset Event logging Sag swell alarm logging 2 6 Display and input output Panel display Mono 128 x 128 STN LCD Digital input 12 channel dry contact inputs Digital output 2 channel relays for alarm and kWh pulse output Analog input 4 channel 4 20 inputs option Analog output 4 channels 4 20mA for I kW option Voltage connection 1 600 Current connection 2mA 5A Power suppl
70. r 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp 3 Swell01 End Time 23328 Word x 6 Time Potes ee 35603 BCD Hour 0 23 Minute 0 59 Second 0 59 Swell02 Duration Cycles 35604 Word UINT Range Swell02 Data 35605 Word INT 327 68 327 67 0 A phase 1 B Swell02 Phase 35606 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp Swell02 Start time 35607 Wordx6 Time 35612 BCD Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp Swell02 End time 35613 Wordx6 Time 35618 BCD Hour 0 23 Minute 0 59 Second 0 59 Swell03_Duration_Cycles 35619 Word UINT Range Swell03_Data 35620 Word INT 327 68 327 67 0 A phase 1 B Swell03_Phase 35621 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp Swell03 Start time 35622 Words Time hp 1 31 35627 BCD Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp Swello3 End time 35628 Wordx6 Time P ate 1 31 35633 BCD Hour 0 23 Minute 0 59 Second 0 59 Swell04_Duration_Cycles 35634 Word UINT Range Swell04_Data 35635 Word INT 327 68 327 67 Swell04_Phase 35636 Word WINE 2 phase LiB phase 2 C phase Year 00 99 Month 1 12 Date amp Swell04 Start time 33637 Word x 6 Time Bate 1 31 35642 BCD Hour 0 23 Minute 0 59 Second 0 59 52 Year 00 99
71. strument always disconnect this instrument from all power sources Only have qualified and authorized personnel to carry out installation maintenance and repair After mounting the instrument place all four supports latch in position Panel cutout area is 138x138mm or 0 5mm Chapter 4 Connection 4 1 Back view of connection port 10 35 2L 25 10 1S 11 AUX power Digital output Com1 DO1 0 DOO Analog output Comi AO3 AO2 AO1 0 Digital input 1 DI13 0112 DI11 0110 Digital input DI30 DI31 DI32 DI33 Com3 Digital input DI20 DI21 DI22 DI23 Com2 RS485 port D D Lon Talks port D D Ethernet port Analog input 10 AIO 1 AI1 12 AI2 AI3 AI3 Current terminal 3L 3S 2L 2S 1L 1S Voltage terminal C B A N e 4 1 1 Digital Output e 2 channel 4 pin digital outputs Comi DO1 DOO 12 230VAC DC 120mA DOO for digital output1 Com1 DO1 for digital output 2 Port 1 assign selection V I Alarm THD Alarm Over Alarm Under V Alarm V I Loss Alarm Port 2 assign selection Energy pulse kh pulse kWh 120 EN NG amp LOAD 12 240 VAC DC 4 1 2 Analog Output 4 channel 5 pin current outputs Com1 AO3 2 AO1 4 20mA current output 4 analog outputs selection phase voltage current power
72. te 0 59 Second 0 59 Sagi9 Duration Cycles 35559 Word UINT Range 327 68 Sag19 Data 35560 Wara INT 5 327 6796 0 A phase 1 B Sag19 Phase 35561 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp 35562 Date 1 31 Sag19 Start time 35567 Word x 6 Bab Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp 35568 Date 1 31 Sagi9 End time 35573 Word x 6 BED Hour 0 23 Minute 0 59 Second 0 59 Sag20 Duration Cycles 35574 Word UINT Range 327 68 5 920 Data 35575 Word INT 5327 6796 0 A phase 1 B 5 20 Phase 35576 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp 35577 Date 1 31 Sag20 Start time 35582 Word x 6 Hour 0 23 Minute 0 59 Second 0 59 Year 00 99 Month 1 12 Date amp 35583 Date 1 31 Sag20 End time 35588 Word x 6 Hour 0 23 Minute 0 59 Second 0 59 Modbus Module 20 Input Register Event Log Swell Record Modbus Data Default Register Len Type Range value Units Comment Swell01 Duration Cycles 35589 Word UINT Range Swell01 Data 35590 Word INT 327 68 51 327 67 0 A phase 1 B Swell01 Phase 35591 Word UINT phase 2 C phase Year 00 99 Month 1 12 Date amp Swell01 Start Time 35592 Word x 6 Time Date 1 31 35597 BCD Hou
73. the set limit the alarm will be triggered As the ratio become lower than the set limit alarm will be cleared I Unbal Alarm The range of I unbal alarm limit can be set between 021095 Comparing current of any phase with the average value of all three phase if the ratio is greater than the set limit the alarm will be triggered As the ratio become lower than the set limit alarm will be cleared THD Alarm Total harmonic distortion can be set between 0 59 6 Over I Phase Alarm The over I phase limit can be set between 09999 of primary current As the current of any phase is over the set limit alarm triggered When the over I is below the limit alarm cleared Over I Neutral Alarm The over I neutral alarm can be set between 0 9999 of primary current As the I neutral is over the set limit alarm triggered When the over I neutral is below the set limit alarm cleared I Loss Alarm Iloss alarm value can be set between 0 5000 of primary current As only one or two I phase is below the alarm setting value alarm triggered However when all three I phase is either greater or lower than the limit alarm cleared V Loss Alarm V loss alarm value can be set between 0 6000 of primary voltage As only one or two V phase is 21 below the alarm setting value alarm triggered However when all three V phase is either greater or lower than the limit alarm cleared 7 2 2 5 Clock Setup Date Time Date and time will be setup here for use i
74. y 86 242VAC 100 125VDC 2 7 Communication Primary port RS485 Modbus 3 0 protocol Secondary port Ethernet 10 100 Mbps Modbus over TCP IP protocol Free topology twist LonTalks protocol 2 8 Environmental amp Physical Operation temperature 10 Cto 55 C Storage temperature 25 C to 60 C Humidity 95 non condensing Dimensions 142mm L x 142mm W x 94mm H 2 9 Ordering Code PD1000 Model 0 Standard 1 Advance with in specification Secondary Port 0 None 1 Ethernet in advanced model only 2 Free topology twist pair Lontalks To be available in near future AI function 0 None 1 With AI function AO function 0 None 1 With AO function Note Standard model does not offer secondary port Chapter 3 Installation 3 1 Safety On receipt of the instrument and prior to installation makes sure it has not been damaged during shipment The instrument is no longer safe when a shows clear signs of damage b does not work C long storage under extreme conditions d damage during shipment 3 2 Mounting This instrument should install on vibration free switchboard and with environment temperature between 10C v55 C humility between 20 80XRH no condensing For the instrument is already equipped with an internal protection fuse a 1AmAT HBC fuse is recommended during installation Prior to maintain repair this in

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