--X33F-LB08-0PZ4-66054639 Content-Disposition: form-data; name=""; filename="DIRIS-DIGIWARE-BCM-2119VM-HTML-CONFIG_COMMUNICATION-TABLE_2023-02_CMT_EN.html" Content-Type: application/octet-stream  MODBUS tables of DIRIS Digiware BCM-2119VM
logosocomec.png

Visualization


Master parameters


Electrical network


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
2960 0x0B90 Info persistant 10 NONE READ READ

Dec address Hex address Words count Description Unit Data type
2960 0x0B90 1 Network connection type
0 : Not defined
1 : 1P + N
2 : 2P
3 : 2P + N
4 : 3P
5 : 3P + N
8 : 3P HL
- U8
2961 0x0B91 2 Nominal Voltage V U32
2963 0x0B93 1 Nominal Frequency
0 : 50 Hz
1 : 60 Hz
2 : Custom
- U8
2964 0x0B94 1 Phase rotation
0 : V1 - V2 - V3
1 : V1 - V3 - V2
2 : Not defined
- U8
2965 0x0B95 1 Voltage transformer used
0 : No
1 : Yes
- U8
2966 0x0B96 2 Voltage transformer rate : primary V U32
2968 0x0B98 1 Voltage transformer rate : secondary V U16
2969 0x0B99 1 Reserved - -

RS485 slave connection


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
50097 0xC3B1 Info persistant 3 NONE READ READ

Dec address Hex address Words count Description Unit Data type
50097 0xC3B1 1 Baudrate :
0 : 1200
1 : 2400
2 : 4800
3 : 9600
4 : 19200
5 : 38400
6 : 57600
7 : 115200
8 : 500000
- U16
50098 0xC3B2 1 Stop bit :
0 : 1
1 : 2
- U16
50099 0xC3B3 1 Parity :
0 : None
1 : Odd
2 : Even
- U16


Measurement


Loads


Instantaneous #1


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
37752 0x9378 Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
37752 0x9378 1 Load status
0 : Disabled
1 : Enabled
- U8
37753 0x9379 2 Date of last instance s DATETIME
37755 0x937B 1 Integration time s / 5 U16
37756 0x937C 2 System Ph-N Voltage V 10⁻² U32
37758 0x937E 2 System Ph-Ph Voltage V 10⁻² U32
37760 0x9380 2 System Current mA U32
37762 0x9382 2 Frequency mHz U32
37764 0x9384 2 Ph-N Voltage : V1 V 10⁻² U32
37766 0x9386 2 Ph-N Voltage : V2 V 10⁻² U32
37768 0x9388 2 Ph-N Voltage : V3 V 10⁻² U32
37770 0x938A 2 Ph-N Voltage : Vn V 10⁻² U32
37772 0x938C 2 Ph-Ph Voltage : U12 V 10⁻² U32
37774 0x938E 2 Ph-Ph Voltage : U23 V 10⁻² U32
37776 0x9390 2 Ph-Ph Voltage : U31 V 10⁻² U32
37778 0x9392 2 Current : I1 mA U32
37780 0x9394 2 Current : I2 mA U32
37782 0x9396 2 Current : I3 mA U32
37784 0x9398 2 Current : In mA U32
37786 0x939A 1 Inba % / 100 U16
37787 0x939B 2 Idir mA U32
37789 0x939D 2 Iinv mA U32
37791 0x939F 2 Ihom mA U32
37793 0x93A1 1 Inb % / 100 U16
37794 0x93A2 2 Snom VA U32
37796 0x93A4 2 Total active power W S32
37798 0x93A6 2 Total reactive power var S32
37800 0x93A8 2 Total lagging reactive power var S32
37802 0x93AA 2 Total leading reactive power var S32
37804 0x93AC 2 Total apparent power VA U32
37806 0x93AE 1 Total power factor - / 1000 S16
37807 0x93AF 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
37808 0x93B0 2 Active power : P1 W S32
37810 0x93B2 2 Active power : P2 W S32
37812 0x93B4 2 Active power : P3 W S32
37814 0x93B6 2 Reactive power : Q1 var S32
37816 0x93B8 2 Reactive power : Q2 var S32
37818 0x93BA 2 Reactive power : Q3 var S32
37820 0x93BC 2 Lagging reactive power : Q1_lagg var S32
37822 0x93BE 2 Lagging reactive power : Q2_lagg var S32
37824 0x93C0 2 Lagging reactive power : Q3_lagg var S32
37826 0x93C2 2 Leading reactive power : Q1_lead var S32
37828 0x93C4 2 Leading reactive power : Q2_lead var S32
37830 0x93C6 2 Leading reactive power : Q3_lead var S32
37832 0x93C8 2 Apparent power : S1 VA U32
37834 0x93CA 2 Apparent power : S2 VA U32
37836 0x93CC 2 Apparent power : S3 VA U32
37838 0x93CE 1 Power factor : PF1 - / 1000 S16
37839 0x93CF 1 Power factor : PF2 - / 1000 S16
37840 0x93D0 1 Power factor : PF3 - / 1000 S16
37841 0x93D1 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
37842 0x93D2 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
37843 0x93D3 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
37844 0x93D4 2 Current : Idelta mA U32
37846 0x93D6 2 Current : Ipe mA U32

Instantaneous #2


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
37854 0x93DE Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
37854 0x93DE 1 Load status
0 : Disabled
1 : Enabled
- U8
37855 0x93DF 2 Date of last instance s DATETIME
37857 0x93E1 1 Integration time s / 5 U16
37858 0x93E2 2 System Ph-N Voltage V 10⁻² U32
37860 0x93E4 2 System Ph-Ph Voltage V 10⁻² U32
37862 0x93E6 2 System Current mA U32
37864 0x93E8 2 Frequency mHz U32
37866 0x93EA 2 Ph-N Voltage : V1 V 10⁻² U32
37868 0x93EC 2 Ph-N Voltage : V2 V 10⁻² U32
37870 0x93EE 2 Ph-N Voltage : V3 V 10⁻² U32
37872 0x93F0 2 Ph-N Voltage : Vn V 10⁻² U32
37874 0x93F2 2 Ph-Ph Voltage : U12 V 10⁻² U32
37876 0x93F4 2 Ph-Ph Voltage : U23 V 10⁻² U32
37878 0x93F6 2 Ph-Ph Voltage : U31 V 10⁻² U32
37880 0x93F8 2 Current : I1 mA U32
37882 0x93FA 2 Current : I2 mA U32
37884 0x93FC 2 Current : I3 mA U32
37886 0x93FE 2 Current : In mA U32
37888 0x9400 1 Inba % / 100 U16
37889 0x9401 2 Idir mA U32
37891 0x9403 2 Iinv mA U32
37893 0x9405 2 Ihom mA U32
37895 0x9407 1 Inb % / 100 U16
37896 0x9408 2 Snom VA U32
37898 0x940A 2 Total active power W S32
37900 0x940C 2 Total reactive power var S32
37902 0x940E 2 Total lagging reactive power var S32
37904 0x9410 2 Total leading reactive power var S32
37906 0x9412 2 Total apparent power VA U32
37908 0x9414 1 Total power factor - / 1000 S16
37909 0x9415 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
37910 0x9416 2 Active power : P1 W S32
37912 0x9418 2 Active power : P2 W S32
37914 0x941A 2 Active power : P3 W S32
37916 0x941C 2 Reactive power : Q1 var S32
37918 0x941E 2 Reactive power : Q2 var S32
37920 0x9420 2 Reactive power : Q3 var S32
37922 0x9422 2 Lagging reactive power : Q1_lagg var S32
37924 0x9424 2 Lagging reactive power : Q2_lagg var S32
37926 0x9426 2 Lagging reactive power : Q3_lagg var S32
37928 0x9428 2 Leading reactive power : Q1_lead var S32
37930 0x942A 2 Leading reactive power : Q2_lead var S32
37932 0x942C 2 Leading reactive power : Q3_lead var S32
37934 0x942E 2 Apparent power : S1 VA U32
37936 0x9430 2 Apparent power : S2 VA U32
37938 0x9432 2 Apparent power : S3 VA U32
37940 0x9434 1 Power factor : PF1 - / 1000 S16
37941 0x9435 1 Power factor : PF2 - / 1000 S16
37942 0x9436 1 Power factor : PF3 - / 1000 S16
37943 0x9437 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
37944 0x9438 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
37945 0x9439 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
37946 0x943A 2 Current : Idelta mA U32
37948 0x943C 2 Current : Ipe mA U32

Instantaneous #3


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
37956 0x9444 Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
37956 0x9444 1 Load status
0 : Disabled
1 : Enabled
- U8
37957 0x9445 2 Date of last instance s DATETIME
37959 0x9447 1 Integration time s / 5 U16
37960 0x9448 2 System Ph-N Voltage V 10⁻² U32
37962 0x944A 2 System Ph-Ph Voltage V 10⁻² U32
37964 0x944C 2 System Current mA U32
37966 0x944E 2 Frequency mHz U32
37968 0x9450 2 Ph-N Voltage : V1 V 10⁻² U32
37970 0x9452 2 Ph-N Voltage : V2 V 10⁻² U32
37972 0x9454 2 Ph-N Voltage : V3 V 10⁻² U32
37974 0x9456 2 Ph-N Voltage : Vn V 10⁻² U32
37976 0x9458 2 Ph-Ph Voltage : U12 V 10⁻² U32
37978 0x945A 2 Ph-Ph Voltage : U23 V 10⁻² U32
37980 0x945C 2 Ph-Ph Voltage : U31 V 10⁻² U32
37982 0x945E 2 Current : I1 mA U32
37984 0x9460 2 Current : I2 mA U32
37986 0x9462 2 Current : I3 mA U32
37988 0x9464 2 Current : In mA U32
37990 0x9466 1 Inba % / 100 U16
37991 0x9467 2 Idir mA U32
37993 0x9469 2 Iinv mA U32
37995 0x946B 2 Ihom mA U32
37997 0x946D 1 Inb % / 100 U16
37998 0x946E 2 Snom VA U32
38000 0x9470 2 Total active power W S32
38002 0x9472 2 Total reactive power var S32
38004 0x9474 2 Total lagging reactive power var S32
38006 0x9476 2 Total leading reactive power var S32
38008 0x9478 2 Total apparent power VA U32
38010 0x947A 1 Total power factor - / 1000 S16
38011 0x947B 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
38012 0x947C 2 Active power : P1 W S32
38014 0x947E 2 Active power : P2 W S32
38016 0x9480 2 Active power : P3 W S32
38018 0x9482 2 Reactive power : Q1 var S32
38020 0x9484 2 Reactive power : Q2 var S32
38022 0x9486 2 Reactive power : Q3 var S32
38024 0x9488 2 Lagging reactive power : Q1_lagg var S32
38026 0x948A 2 Lagging reactive power : Q2_lagg var S32
38028 0x948C 2 Lagging reactive power : Q3_lagg var S32
38030 0x948E 2 Leading reactive power : Q1_lead var S32
38032 0x9490 2 Leading reactive power : Q2_lead var S32
38034 0x9492 2 Leading reactive power : Q3_lead var S32
38036 0x9494 2 Apparent power : S1 VA U32
38038 0x9496 2 Apparent power : S2 VA U32
38040 0x9498 2 Apparent power : S3 VA U32
38042 0x949A 1 Power factor : PF1 - / 1000 S16
38043 0x949B 1 Power factor : PF2 - / 1000 S16
38044 0x949C 1 Power factor : PF3 - / 1000 S16
38045 0x949D 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
38046 0x949E 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
38047 0x949F 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
38048 0x94A0 2 Current : Idelta mA U32
38050 0x94A2 2 Current : Ipe mA U32

Instantaneous #4


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
38058 0x94AA Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
38058 0x94AA 1 Load status
0 : Disabled
1 : Enabled
- U8
38059 0x94AB 2 Date of last instance s DATETIME
38061 0x94AD 1 Integration time s / 5 U16
38062 0x94AE 2 System Ph-N Voltage V 10⁻² U32
38064 0x94B0 2 System Ph-Ph Voltage V 10⁻² U32
38066 0x94B2 2 System Current mA U32
38068 0x94B4 2 Frequency mHz U32
38070 0x94B6 2 Ph-N Voltage : V1 V 10⁻² U32
38072 0x94B8 2 Ph-N Voltage : V2 V 10⁻² U32
38074 0x94BA 2 Ph-N Voltage : V3 V 10⁻² U32
38076 0x94BC 2 Ph-N Voltage : Vn V 10⁻² U32
38078 0x94BE 2 Ph-Ph Voltage : U12 V 10⁻² U32
38080 0x94C0 2 Ph-Ph Voltage : U23 V 10⁻² U32
38082 0x94C2 2 Ph-Ph Voltage : U31 V 10⁻² U32
38084 0x94C4 2 Current : I1 mA U32
38086 0x94C6 2 Current : I2 mA U32
38088 0x94C8 2 Current : I3 mA U32
38090 0x94CA 2 Current : In mA U32
38092 0x94CC 1 Inba % / 100 U16
38093 0x94CD 2 Idir mA U32
38095 0x94CF 2 Iinv mA U32
38097 0x94D1 2 Ihom mA U32
38099 0x94D3 1 Inb % / 100 U16
38100 0x94D4 2 Snom VA U32
38102 0x94D6 2 Total active power W S32
38104 0x94D8 2 Total reactive power var S32
38106 0x94DA 2 Total lagging reactive power var S32
38108 0x94DC 2 Total leading reactive power var S32
38110 0x94DE 2 Total apparent power VA U32
38112 0x94E0 1 Total power factor - / 1000 S16
38113 0x94E1 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
38114 0x94E2 2 Active power : P1 W S32
38116 0x94E4 2 Active power : P2 W S32
38118 0x94E6 2 Active power : P3 W S32
38120 0x94E8 2 Reactive power : Q1 var S32
38122 0x94EA 2 Reactive power : Q2 var S32
38124 0x94EC 2 Reactive power : Q3 var S32
38126 0x94EE 2 Lagging reactive power : Q1_lagg var S32
38128 0x94F0 2 Lagging reactive power : Q2_lagg var S32
38130 0x94F2 2 Lagging reactive power : Q3_lagg var S32
38132 0x94F4 2 Leading reactive power : Q1_lead var S32
38134 0x94F6 2 Leading reactive power : Q2_lead var S32
38136 0x94F8 2 Leading reactive power : Q3_lead var S32
38138 0x94FA 2 Apparent power : S1 VA U32
38140 0x94FC 2 Apparent power : S2 VA U32
38142 0x94FE 2 Apparent power : S3 VA U32
38144 0x9500 1 Power factor : PF1 - / 1000 S16
38145 0x9501 1 Power factor : PF2 - / 1000 S16
38146 0x9502 1 Power factor : PF3 - / 1000 S16
38147 0x9503 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
38148 0x9504 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
38149 0x9505 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
38150 0x9506 2 Current : Idelta mA U32
38152 0x9508 2 Current : Ipe mA U32

Instantaneous #5


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
38160 0x9510 Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
38160 0x9510 1 Load status
0 : Disabled
1 : Enabled
- U8
38161 0x9511 2 Date of last instance s DATETIME
38163 0x9513 1 Integration time s / 5 U16
38164 0x9514 2 System Ph-N Voltage V 10⁻² U32
38166 0x9516 2 System Ph-Ph Voltage V 10⁻² U32
38168 0x9518 2 System Current mA U32
38170 0x951A 2 Frequency mHz U32
38172 0x951C 2 Ph-N Voltage : V1 V 10⁻² U32
38174 0x951E 2 Ph-N Voltage : V2 V 10⁻² U32
38176 0x9520 2 Ph-N Voltage : V3 V 10⁻² U32
38178 0x9522 2 Ph-N Voltage : Vn V 10⁻² U32
38180 0x9524 2 Ph-Ph Voltage : U12 V 10⁻² U32
38182 0x9526 2 Ph-Ph Voltage : U23 V 10⁻² U32
38184 0x9528 2 Ph-Ph Voltage : U31 V 10⁻² U32
38186 0x952A 2 Current : I1 mA U32
38188 0x952C 2 Current : I2 mA U32
38190 0x952E 2 Current : I3 mA U32
38192 0x9530 2 Current : In mA U32
38194 0x9532 1 Inba % / 100 U16
38195 0x9533 2 Idir mA U32
38197 0x9535 2 Iinv mA U32
38199 0x9537 2 Ihom mA U32
38201 0x9539 1 Inb % / 100 U16
38202 0x953A 2 Snom VA U32
38204 0x953C 2 Total active power W S32
38206 0x953E 2 Total reactive power var S32
38208 0x9540 2 Total lagging reactive power var S32
38210 0x9542 2 Total leading reactive power var S32
38212 0x9544 2 Total apparent power VA U32
38214 0x9546 1 Total power factor - / 1000 S16
38215 0x9547 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
38216 0x9548 2 Active power : P1 W S32
38218 0x954A 2 Active power : P2 W S32
38220 0x954C 2 Active power : P3 W S32
38222 0x954E 2 Reactive power : Q1 var S32
38224 0x9550 2 Reactive power : Q2 var S32
38226 0x9552 2 Reactive power : Q3 var S32
38228 0x9554 2 Lagging reactive power : Q1_lagg var S32
38230 0x9556 2 Lagging reactive power : Q2_lagg var S32
38232 0x9558 2 Lagging reactive power : Q3_lagg var S32
38234 0x955A 2 Leading reactive power : Q1_lead var S32
38236 0x955C 2 Leading reactive power : Q2_lead var S32
38238 0x955E 2 Leading reactive power : Q3_lead var S32
38240 0x9560 2 Apparent power : S1 VA U32
38242 0x9562 2 Apparent power : S2 VA U32
38244 0x9564 2 Apparent power : S3 VA U32
38246 0x9566 1 Power factor : PF1 - / 1000 S16
38247 0x9567 1 Power factor : PF2 - / 1000 S16
38248 0x9568 1 Power factor : PF3 - / 1000 S16
38249 0x9569 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
38250 0x956A 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
38251 0x956B 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
38252 0x956C 2 Current : Idelta mA U32
38254 0x956E 2 Current : Ipe mA U32

Instantaneous #6


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
38262 0x9576 Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
38262 0x9576 1 Load status
0 : Disabled
1 : Enabled
- U8
38263 0x9577 2 Date of last instance s DATETIME
38265 0x9579 1 Integration time s / 5 U16
38266 0x957A 2 System Ph-N Voltage V 10⁻² U32
38268 0x957C 2 System Ph-Ph Voltage V 10⁻² U32
38270 0x957E 2 System Current mA U32
38272 0x9580 2 Frequency mHz U32
38274 0x9582 2 Ph-N Voltage : V1 V 10⁻² U32
38276 0x9584 2 Ph-N Voltage : V2 V 10⁻² U32
38278 0x9586 2 Ph-N Voltage : V3 V 10⁻² U32
38280 0x9588 2 Ph-N Voltage : Vn V 10⁻² U32
38282 0x958A 2 Ph-Ph Voltage : U12 V 10⁻² U32
38284 0x958C 2 Ph-Ph Voltage : U23 V 10⁻² U32
38286 0x958E 2 Ph-Ph Voltage : U31 V 10⁻² U32
38288 0x9590 2 Current : I1 mA U32
38290 0x9592 2 Current : I2 mA U32
38292 0x9594 2 Current : I3 mA U32
38294 0x9596 2 Current : In mA U32
38296 0x9598 1 Inba % / 100 U16
38297 0x9599 2 Idir mA U32
38299 0x959B 2 Iinv mA U32
38301 0x959D 2 Ihom mA U32
38303 0x959F 1 Inb % / 100 U16
38304 0x95A0 2 Snom VA U32
38306 0x95A2 2 Total active power W S32
38308 0x95A4 2 Total reactive power var S32
38310 0x95A6 2 Total lagging reactive power var S32
38312 0x95A8 2 Total leading reactive power var S32
38314 0x95AA 2 Total apparent power VA U32
38316 0x95AC 1 Total power factor - / 1000 S16
38317 0x95AD 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
38318 0x95AE 2 Active power : P1 W S32
38320 0x95B0 2 Active power : P2 W S32
38322 0x95B2 2 Active power : P3 W S32
38324 0x95B4 2 Reactive power : Q1 var S32
38326 0x95B6 2 Reactive power : Q2 var S32
38328 0x95B8 2 Reactive power : Q3 var S32
38330 0x95BA 2 Lagging reactive power : Q1_lagg var S32
38332 0x95BC 2 Lagging reactive power : Q2_lagg var S32
38334 0x95BE 2 Lagging reactive power : Q3_lagg var S32
38336 0x95C0 2 Leading reactive power : Q1_lead var S32
38338 0x95C2 2 Leading reactive power : Q2_lead var S32
38340 0x95C4 2 Leading reactive power : Q3_lead var S32
38342 0x95C6 2 Apparent power : S1 VA U32
38344 0x95C8 2 Apparent power : S2 VA U32
38346 0x95CA 2 Apparent power : S3 VA U32
38348 0x95CC 1 Power factor : PF1 - / 1000 S16
38349 0x95CD 1 Power factor : PF2 - / 1000 S16
38350 0x95CE 1 Power factor : PF3 - / 1000 S16
38351 0x95CF 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
38352 0x95D0 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
38353 0x95D1 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
38354 0x95D2 2 Current : Idelta mA U32
38356 0x95D4 2 Current : Ipe mA U32

Instantaneous #7


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
38364 0x95DC Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
38364 0x95DC 1 Load status
0 : Disabled
1 : Enabled
- U8
38365 0x95DD 2 Date of last instance s DATETIME
38367 0x95DF 1 Integration time s / 5 U16
38368 0x95E0 2 System Ph-N Voltage V 10⁻² U32
38370 0x95E2 2 System Ph-Ph Voltage V 10⁻² U32
38372 0x95E4 2 System Current mA U32
38374 0x95E6 2 Frequency mHz U32
38376 0x95E8 2 Ph-N Voltage : V1 V 10⁻² U32
38378 0x95EA 2 Ph-N Voltage : V2 V 10⁻² U32
38380 0x95EC 2 Ph-N Voltage : V3 V 10⁻² U32
38382 0x95EE 2 Ph-N Voltage : Vn V 10⁻² U32
38384 0x95F0 2 Ph-Ph Voltage : U12 V 10⁻² U32
38386 0x95F2 2 Ph-Ph Voltage : U23 V 10⁻² U32
38388 0x95F4 2 Ph-Ph Voltage : U31 V 10⁻² U32
38390 0x95F6 2 Current : I1 mA U32
38392 0x95F8 2 Current : I2 mA U32
38394 0x95FA 2 Current : I3 mA U32
38396 0x95FC 2 Current : In mA U32
38398 0x95FE 1 Inba % / 100 U16
38399 0x95FF 2 Idir mA U32
38401 0x9601 2 Iinv mA U32
38403 0x9603 2 Ihom mA U32
38405 0x9605 1 Inb % / 100 U16
38406 0x9606 2 Snom VA U32
38408 0x9608 2 Total active power W S32
38410 0x960A 2 Total reactive power var S32
38412 0x960C 2 Total lagging reactive power var S32
38414 0x960E 2 Total leading reactive power var S32
38416 0x9610 2 Total apparent power VA U32
38418 0x9612 1 Total power factor - / 1000 S16
38419 0x9613 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
38420 0x9614 2 Active power : P1 W S32
38422 0x9616 2 Active power : P2 W S32
38424 0x9618 2 Active power : P3 W S32
38426 0x961A 2 Reactive power : Q1 var S32
38428 0x961C 2 Reactive power : Q2 var S32
38430 0x961E 2 Reactive power : Q3 var S32
38432 0x9620 2 Lagging reactive power : Q1_lagg var S32
38434 0x9622 2 Lagging reactive power : Q2_lagg var S32
38436 0x9624 2 Lagging reactive power : Q3_lagg var S32
38438 0x9626 2 Leading reactive power : Q1_lead var S32
38440 0x9628 2 Leading reactive power : Q2_lead var S32
38442 0x962A 2 Leading reactive power : Q3_lead var S32
38444 0x962C 2 Apparent power : S1 VA U32
38446 0x962E 2 Apparent power : S2 VA U32
38448 0x9630 2 Apparent power : S3 VA U32
38450 0x9632 1 Power factor : PF1 - / 1000 S16
38451 0x9633 1 Power factor : PF2 - / 1000 S16
38452 0x9634 1 Power factor : PF3 - / 1000 S16
38453 0x9635 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
38454 0x9636 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
38455 0x9637 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
38456 0x9638 2 Current : Idelta mA U32
38458 0x963A 2 Current : Ipe mA U32

Instantaneous #8


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
38466 0x9642 Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
38466 0x9642 1 Load status
0 : Disabled
1 : Enabled
- U8
38467 0x9643 2 Date of last instance s DATETIME
38469 0x9645 1 Integration time s / 5 U16
38470 0x9646 2 System Ph-N Voltage V 10⁻² U32
38472 0x9648 2 System Ph-Ph Voltage V 10⁻² U32
38474 0x964A 2 System Current mA U32
38476 0x964C 2 Frequency mHz U32
38478 0x964E 2 Ph-N Voltage : V1 V 10⁻² U32
38480 0x9650 2 Ph-N Voltage : V2 V 10⁻² U32
38482 0x9652 2 Ph-N Voltage : V3 V 10⁻² U32
38484 0x9654 2 Ph-N Voltage : Vn V 10⁻² U32
38486 0x9656 2 Ph-Ph Voltage : U12 V 10⁻² U32
38488 0x9658 2 Ph-Ph Voltage : U23 V 10⁻² U32
38490 0x965A 2 Ph-Ph Voltage : U31 V 10⁻² U32
38492 0x965C 2 Current : I1 mA U32
38494 0x965E 2 Current : I2 mA U32
38496 0x9660 2 Current : I3 mA U32
38498 0x9662 2 Current : In mA U32
38500 0x9664 1 Inba % / 100 U16
38501 0x9665 2 Idir mA U32
38503 0x9667 2 Iinv mA U32
38505 0x9669 2 Ihom mA U32
38507 0x966B 1 Inb % / 100 U16
38508 0x966C 2 Snom VA U32
38510 0x966E 2 Total active power W S32
38512 0x9670 2 Total reactive power var S32
38514 0x9672 2 Total lagging reactive power var S32
38516 0x9674 2 Total leading reactive power var S32
38518 0x9676 2 Total apparent power VA U32
38520 0x9678 1 Total power factor - / 1000 S16
38521 0x9679 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
38522 0x967A 2 Active power : P1 W S32
38524 0x967C 2 Active power : P2 W S32
38526 0x967E 2 Active power : P3 W S32
38528 0x9680 2 Reactive power : Q1 var S32
38530 0x9682 2 Reactive power : Q2 var S32
38532 0x9684 2 Reactive power : Q3 var S32
38534 0x9686 2 Lagging reactive power : Q1_lagg var S32
38536 0x9688 2 Lagging reactive power : Q2_lagg var S32
38538 0x968A 2 Lagging reactive power : Q3_lagg var S32
38540 0x968C 2 Leading reactive power : Q1_lead var S32
38542 0x968E 2 Leading reactive power : Q2_lead var S32
38544 0x9690 2 Leading reactive power : Q3_lead var S32
38546 0x9692 2 Apparent power : S1 VA U32
38548 0x9694 2 Apparent power : S2 VA U32
38550 0x9696 2 Apparent power : S3 VA U32
38552 0x9698 1 Power factor : PF1 - / 1000 S16
38553 0x9699 1 Power factor : PF2 - / 1000 S16
38554 0x969A 1 Power factor : PF3 - / 1000 S16
38555 0x969B 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
38556 0x969C 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
38557 0x969D 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
38558 0x969E 2 Current : Idelta mA U32
38560 0x96A0 2 Current : Ipe mA U32

Instantaneous #9


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
38568 0x96A8 Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
38568 0x96A8 1 Load status
0 : Disabled
1 : Enabled
- U8
38569 0x96A9 2 Date of last instance s DATETIME
38571 0x96AB 1 Integration time s / 5 U16
38572 0x96AC 2 System Ph-N Voltage V 10⁻² U32
38574 0x96AE 2 System Ph-Ph Voltage V 10⁻² U32
38576 0x96B0 2 System Current mA U32
38578 0x96B2 2 Frequency mHz U32
38580 0x96B4 2 Ph-N Voltage : V1 V 10⁻² U32
38582 0x96B6 2 Ph-N Voltage : V2 V 10⁻² U32
38584 0x96B8 2 Ph-N Voltage : V3 V 10⁻² U32
38586 0x96BA 2 Ph-N Voltage : Vn V 10⁻² U32
38588 0x96BC 2 Ph-Ph Voltage : U12 V 10⁻² U32
38590 0x96BE 2 Ph-Ph Voltage : U23 V 10⁻² U32
38592 0x96C0 2 Ph-Ph Voltage : U31 V 10⁻² U32
38594 0x96C2 2 Current : I1 mA U32
38596 0x96C4 2 Current : I2 mA U32
38598 0x96C6 2 Current : I3 mA U32
38600 0x96C8 2 Current : In mA U32
38602 0x96CA 1 Inba % / 100 U16
38603 0x96CB 2 Idir mA U32
38605 0x96CD 2 Iinv mA U32
38607 0x96CF 2 Ihom mA U32
38609 0x96D1 1 Inb % / 100 U16
38610 0x96D2 2 Snom VA U32
38612 0x96D4 2 Total active power W S32
38614 0x96D6 2 Total reactive power var S32
38616 0x96D8 2 Total lagging reactive power var S32
38618 0x96DA 2 Total leading reactive power var S32
38620 0x96DC 2 Total apparent power VA U32
38622 0x96DE 1 Total power factor - / 1000 S16
38623 0x96DF 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
38624 0x96E0 2 Active power : P1 W S32
38626 0x96E2 2 Active power : P2 W S32
38628 0x96E4 2 Active power : P3 W S32
38630 0x96E6 2 Reactive power : Q1 var S32
38632 0x96E8 2 Reactive power : Q2 var S32
38634 0x96EA 2 Reactive power : Q3 var S32
38636 0x96EC 2 Lagging reactive power : Q1_lagg var S32
38638 0x96EE 2 Lagging reactive power : Q2_lagg var S32
38640 0x96F0 2 Lagging reactive power : Q3_lagg var S32
38642 0x96F2 2 Leading reactive power : Q1_lead var S32
38644 0x96F4 2 Leading reactive power : Q2_lead var S32
38646 0x96F6 2 Leading reactive power : Q3_lead var S32
38648 0x96F8 2 Apparent power : S1 VA U32
38650 0x96FA 2 Apparent power : S2 VA U32
38652 0x96FC 2 Apparent power : S3 VA U32
38654 0x96FE 1 Power factor : PF1 - / 1000 S16
38655 0x96FF 1 Power factor : PF2 - / 1000 S16
38656 0x9700 1 Power factor : PF3 - / 1000 S16
38657 0x9701 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
38658 0x9702 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
38659 0x9703 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
38660 0x9704 2 Current : Idelta mA U32
38662 0x9706 2 Current : Ipe mA U32

Instantaneous #10


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
38670 0x970E Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
38670 0x970E 1 Load status
0 : Disabled
1 : Enabled
- U8
38671 0x970F 2 Date of last instance s DATETIME
38673 0x9711 1 Integration time s / 5 U16
38674 0x9712 2 System Ph-N Voltage V 10⁻² U32
38676 0x9714 2 System Ph-Ph Voltage V 10⁻² U32
38678 0x9716 2 System Current mA U32
38680 0x9718 2 Frequency mHz U32
38682 0x971A 2 Ph-N Voltage : V1 V 10⁻² U32
38684 0x971C 2 Ph-N Voltage : V2 V 10⁻² U32
38686 0x971E 2 Ph-N Voltage : V3 V 10⁻² U32
38688 0x9720 2 Ph-N Voltage : Vn V 10⁻² U32
38690 0x9722 2 Ph-Ph Voltage : U12 V 10⁻² U32
38692 0x9724 2 Ph-Ph Voltage : U23 V 10⁻² U32
38694 0x9726 2 Ph-Ph Voltage : U31 V 10⁻² U32
38696 0x9728 2 Current : I1 mA U32
38698 0x972A 2 Current : I2 mA U32
38700 0x972C 2 Current : I3 mA U32
38702 0x972E 2 Current : In mA U32
38704 0x9730 1 Inba % / 100 U16
38705 0x9731 2 Idir mA U32
38707 0x9733 2 Iinv mA U32
38709 0x9735 2 Ihom mA U32
38711 0x9737 1 Inb % / 100 U16
38712 0x9738 2 Snom VA U32
38714 0x973A 2 Total active power W S32
38716 0x973C 2 Total reactive power var S32
38718 0x973E 2 Total lagging reactive power var S32
38720 0x9740 2 Total leading reactive power var S32
38722 0x9742 2 Total apparent power VA U32
38724 0x9744 1 Total power factor - / 1000 S16
38725 0x9745 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
38726 0x9746 2 Active power : P1 W S32
38728 0x9748 2 Active power : P2 W S32
38730 0x974A 2 Active power : P3 W S32
38732 0x974C 2 Reactive power : Q1 var S32
38734 0x974E 2 Reactive power : Q2 var S32
38736 0x9750 2 Reactive power : Q3 var S32
38738 0x9752 2 Lagging reactive power : Q1_lagg var S32
38740 0x9754 2 Lagging reactive power : Q2_lagg var S32
38742 0x9756 2 Lagging reactive power : Q3_lagg var S32
38744 0x9758 2 Leading reactive power : Q1_lead var S32
38746 0x975A 2 Leading reactive power : Q2_lead var S32
38748 0x975C 2 Leading reactive power : Q3_lead var S32
38750 0x975E 2 Apparent power : S1 VA U32
38752 0x9760 2 Apparent power : S2 VA U32
38754 0x9762 2 Apparent power : S3 VA U32
38756 0x9764 1 Power factor : PF1 - / 1000 S16
38757 0x9765 1 Power factor : PF2 - / 1000 S16
38758 0x9766 1 Power factor : PF3 - / 1000 S16
38759 0x9767 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
38760 0x9768 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
38761 0x9769 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
38762 0x976A 2 Current : Idelta mA U32
38764 0x976C 2 Current : Ipe mA U32

Instantaneous #11


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
38772 0x9774 Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
38772 0x9774 1 Load status
0 : Disabled
1 : Enabled
- U8
38773 0x9775 2 Date of last instance s DATETIME
38775 0x9777 1 Integration time s / 5 U16
38776 0x9778 2 System Ph-N Voltage V 10⁻² U32
38778 0x977A 2 System Ph-Ph Voltage V 10⁻² U32
38780 0x977C 2 System Current mA U32
38782 0x977E 2 Frequency mHz U32
38784 0x9780 2 Ph-N Voltage : V1 V 10⁻² U32
38786 0x9782 2 Ph-N Voltage : V2 V 10⁻² U32
38788 0x9784 2 Ph-N Voltage : V3 V 10⁻² U32
38790 0x9786 2 Ph-N Voltage : Vn V 10⁻² U32
38792 0x9788 2 Ph-Ph Voltage : U12 V 10⁻² U32
38794 0x978A 2 Ph-Ph Voltage : U23 V 10⁻² U32
38796 0x978C 2 Ph-Ph Voltage : U31 V 10⁻² U32
38798 0x978E 2 Current : I1 mA U32
38800 0x9790 2 Current : I2 mA U32
38802 0x9792 2 Current : I3 mA U32
38804 0x9794 2 Current : In mA U32
38806 0x9796 1 Inba % / 100 U16
38807 0x9797 2 Idir mA U32
38809 0x9799 2 Iinv mA U32
38811 0x979B 2 Ihom mA U32
38813 0x979D 1 Inb % / 100 U16
38814 0x979E 2 Snom VA U32
38816 0x97A0 2 Total active power W S32
38818 0x97A2 2 Total reactive power var S32
38820 0x97A4 2 Total lagging reactive power var S32
38822 0x97A6 2 Total leading reactive power var S32
38824 0x97A8 2 Total apparent power VA U32
38826 0x97AA 1 Total power factor - / 1000 S16
38827 0x97AB 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
38828 0x97AC 2 Active power : P1 W S32
38830 0x97AE 2 Active power : P2 W S32
38832 0x97B0 2 Active power : P3 W S32
38834 0x97B2 2 Reactive power : Q1 var S32
38836 0x97B4 2 Reactive power : Q2 var S32
38838 0x97B6 2 Reactive power : Q3 var S32
38840 0x97B8 2 Lagging reactive power : Q1_lagg var S32
38842 0x97BA 2 Lagging reactive power : Q2_lagg var S32
38844 0x97BC 2 Lagging reactive power : Q3_lagg var S32
38846 0x97BE 2 Leading reactive power : Q1_lead var S32
38848 0x97C0 2 Leading reactive power : Q2_lead var S32
38850 0x97C2 2 Leading reactive power : Q3_lead var S32
38852 0x97C4 2 Apparent power : S1 VA U32
38854 0x97C6 2 Apparent power : S2 VA U32
38856 0x97C8 2 Apparent power : S3 VA U32
38858 0x97CA 1 Power factor : PF1 - / 1000 S16
38859 0x97CB 1 Power factor : PF2 - / 1000 S16
38860 0x97CC 1 Power factor : PF3 - / 1000 S16
38861 0x97CD 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
38862 0x97CE 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
38863 0x97CF 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
38864 0x97D0 2 Current : Idelta mA U32
38866 0x97D2 2 Current : Ipe mA U32

Instantaneous #12


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
38874 0x97DA Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
38874 0x97DA 1 Load status
0 : Disabled
1 : Enabled
- U8
38875 0x97DB 2 Date of last instance s DATETIME
38877 0x97DD 1 Integration time s / 5 U16
38878 0x97DE 2 System Ph-N Voltage V 10⁻² U32
38880 0x97E0 2 System Ph-Ph Voltage V 10⁻² U32
38882 0x97E2 2 System Current mA U32
38884 0x97E4 2 Frequency mHz U32
38886 0x97E6 2 Ph-N Voltage : V1 V 10⁻² U32
38888 0x97E8 2 Ph-N Voltage : V2 V 10⁻² U32
38890 0x97EA 2 Ph-N Voltage : V3 V 10⁻² U32
38892 0x97EC 2 Ph-N Voltage : Vn V 10⁻² U32
38894 0x97EE 2 Ph-Ph Voltage : U12 V 10⁻² U32
38896 0x97F0 2 Ph-Ph Voltage : U23 V 10⁻² U32
38898 0x97F2 2 Ph-Ph Voltage : U31 V 10⁻² U32
38900 0x97F4 2 Current : I1 mA U32
38902 0x97F6 2 Current : I2 mA U32
38904 0x97F8 2 Current : I3 mA U32
38906 0x97FA 2 Current : In mA U32
38908 0x97FC 1 Inba % / 100 U16
38909 0x97FD 2 Idir mA U32
38911 0x97FF 2 Iinv mA U32
38913 0x9801 2 Ihom mA U32
38915 0x9803 1 Inb % / 100 U16
38916 0x9804 2 Snom VA U32
38918 0x9806 2 Total active power W S32
38920 0x9808 2 Total reactive power var S32
38922 0x980A 2 Total lagging reactive power var S32
38924 0x980C 2 Total leading reactive power var S32
38926 0x980E 2 Total apparent power VA U32
38928 0x9810 1 Total power factor - / 1000 S16
38929 0x9811 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
38930 0x9812 2 Active power : P1 W S32
38932 0x9814 2 Active power : P2 W S32
38934 0x9816 2 Active power : P3 W S32
38936 0x9818 2 Reactive power : Q1 var S32
38938 0x981A 2 Reactive power : Q2 var S32
38940 0x981C 2 Reactive power : Q3 var S32
38942 0x981E 2 Lagging reactive power : Q1_lagg var S32
38944 0x9820 2 Lagging reactive power : Q2_lagg var S32
38946 0x9822 2 Lagging reactive power : Q3_lagg var S32
38948 0x9824 2 Leading reactive power : Q1_lead var S32
38950 0x9826 2 Leading reactive power : Q2_lead var S32
38952 0x9828 2 Leading reactive power : Q3_lead var S32
38954 0x982A 2 Apparent power : S1 VA U32
38956 0x982C 2 Apparent power : S2 VA U32
38958 0x982E 2 Apparent power : S3 VA U32
38960 0x9830 1 Power factor : PF1 - / 1000 S16
38961 0x9831 1 Power factor : PF2 - / 1000 S16
38962 0x9832 1 Power factor : PF3 - / 1000 S16
38963 0x9833 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
38964 0x9834 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
38965 0x9835 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
38966 0x9836 2 Current : Idelta mA U32
38968 0x9838 2 Current : Ipe mA U32

Instantaneous #13


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
38976 0x9840 Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
38976 0x9840 1 Load status
0 : Disabled
1 : Enabled
- U8
38977 0x9841 2 Date of last instance s DATETIME
38979 0x9843 1 Integration time s / 5 U16
38980 0x9844 2 System Ph-N Voltage V 10⁻² U32
38982 0x9846 2 System Ph-Ph Voltage V 10⁻² U32
38984 0x9848 2 System Current mA U32
38986 0x984A 2 Frequency mHz U32
38988 0x984C 2 Ph-N Voltage : V1 V 10⁻² U32
38990 0x984E 2 Ph-N Voltage : V2 V 10⁻² U32
38992 0x9850 2 Ph-N Voltage : V3 V 10⁻² U32
38994 0x9852 2 Ph-N Voltage : Vn V 10⁻² U32
38996 0x9854 2 Ph-Ph Voltage : U12 V 10⁻² U32
38998 0x9856 2 Ph-Ph Voltage : U23 V 10⁻² U32
39000 0x9858 2 Ph-Ph Voltage : U31 V 10⁻² U32
39002 0x985A 2 Current : I1 mA U32
39004 0x985C 2 Current : I2 mA U32
39006 0x985E 2 Current : I3 mA U32
39008 0x9860 2 Current : In mA U32
39010 0x9862 1 Inba % / 100 U16
39011 0x9863 2 Idir mA U32
39013 0x9865 2 Iinv mA U32
39015 0x9867 2 Ihom mA U32
39017 0x9869 1 Inb % / 100 U16
39018 0x986A 2 Snom VA U32
39020 0x986C 2 Total active power W S32
39022 0x986E 2 Total reactive power var S32
39024 0x9870 2 Total lagging reactive power var S32
39026 0x9872 2 Total leading reactive power var S32
39028 0x9874 2 Total apparent power VA U32
39030 0x9876 1 Total power factor - / 1000 S16
39031 0x9877 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
39032 0x9878 2 Active power : P1 W S32
39034 0x987A 2 Active power : P2 W S32
39036 0x987C 2 Active power : P3 W S32
39038 0x987E 2 Reactive power : Q1 var S32
39040 0x9880 2 Reactive power : Q2 var S32
39042 0x9882 2 Reactive power : Q3 var S32
39044 0x9884 2 Lagging reactive power : Q1_lagg var S32
39046 0x9886 2 Lagging reactive power : Q2_lagg var S32
39048 0x9888 2 Lagging reactive power : Q3_lagg var S32
39050 0x988A 2 Leading reactive power : Q1_lead var S32
39052 0x988C 2 Leading reactive power : Q2_lead var S32
39054 0x988E 2 Leading reactive power : Q3_lead var S32
39056 0x9890 2 Apparent power : S1 VA U32
39058 0x9892 2 Apparent power : S2 VA U32
39060 0x9894 2 Apparent power : S3 VA U32
39062 0x9896 1 Power factor : PF1 - / 1000 S16
39063 0x9897 1 Power factor : PF2 - / 1000 S16
39064 0x9898 1 Power factor : PF3 - / 1000 S16
39065 0x9899 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
39066 0x989A 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
39067 0x989B 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
39068 0x989C 2 Current : Idelta mA U32
39070 0x989E 2 Current : Ipe mA U32

Instantaneous #14


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
39078 0x98A6 Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
39078 0x98A6 1 Load status
0 : Disabled
1 : Enabled
- U8
39079 0x98A7 2 Date of last instance s DATETIME
39081 0x98A9 1 Integration time s / 5 U16
39082 0x98AA 2 System Ph-N Voltage V 10⁻² U32
39084 0x98AC 2 System Ph-Ph Voltage V 10⁻² U32
39086 0x98AE 2 System Current mA U32
39088 0x98B0 2 Frequency mHz U32
39090 0x98B2 2 Ph-N Voltage : V1 V 10⁻² U32
39092 0x98B4 2 Ph-N Voltage : V2 V 10⁻² U32
39094 0x98B6 2 Ph-N Voltage : V3 V 10⁻² U32
39096 0x98B8 2 Ph-N Voltage : Vn V 10⁻² U32
39098 0x98BA 2 Ph-Ph Voltage : U12 V 10⁻² U32
39100 0x98BC 2 Ph-Ph Voltage : U23 V 10⁻² U32
39102 0x98BE 2 Ph-Ph Voltage : U31 V 10⁻² U32
39104 0x98C0 2 Current : I1 mA U32
39106 0x98C2 2 Current : I2 mA U32
39108 0x98C4 2 Current : I3 mA U32
39110 0x98C6 2 Current : In mA U32
39112 0x98C8 1 Inba % / 100 U16
39113 0x98C9 2 Idir mA U32
39115 0x98CB 2 Iinv mA U32
39117 0x98CD 2 Ihom mA U32
39119 0x98CF 1 Inb % / 100 U16
39120 0x98D0 2 Snom VA U32
39122 0x98D2 2 Total active power W S32
39124 0x98D4 2 Total reactive power var S32
39126 0x98D6 2 Total lagging reactive power var S32
39128 0x98D8 2 Total leading reactive power var S32
39130 0x98DA 2 Total apparent power VA U32
39132 0x98DC 1 Total power factor - / 1000 S16
39133 0x98DD 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
39134 0x98DE 2 Active power : P1 W S32
39136 0x98E0 2 Active power : P2 W S32
39138 0x98E2 2 Active power : P3 W S32
39140 0x98E4 2 Reactive power : Q1 var S32
39142 0x98E6 2 Reactive power : Q2 var S32
39144 0x98E8 2 Reactive power : Q3 var S32
39146 0x98EA 2 Lagging reactive power : Q1_lagg var S32
39148 0x98EC 2 Lagging reactive power : Q2_lagg var S32
39150 0x98EE 2 Lagging reactive power : Q3_lagg var S32
39152 0x98F0 2 Leading reactive power : Q1_lead var S32
39154 0x98F2 2 Leading reactive power : Q2_lead var S32
39156 0x98F4 2 Leading reactive power : Q3_lead var S32
39158 0x98F6 2 Apparent power : S1 VA U32
39160 0x98F8 2 Apparent power : S2 VA U32
39162 0x98FA 2 Apparent power : S3 VA U32
39164 0x98FC 1 Power factor : PF1 - / 1000 S16
39165 0x98FD 1 Power factor : PF2 - / 1000 S16
39166 0x98FE 1 Power factor : PF3 - / 1000 S16
39167 0x98FF 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
39168 0x9900 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
39169 0x9901 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
39170 0x9902 2 Current : Idelta mA U32
39172 0x9904 2 Current : Ipe mA U32

Instantaneous #15


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
39180 0x990C Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
39180 0x990C 1 Load status
0 : Disabled
1 : Enabled
- U8
39181 0x990D 2 Date of last instance s DATETIME
39183 0x990F 1 Integration time s / 5 U16
39184 0x9910 2 System Ph-N Voltage V 10⁻² U32
39186 0x9912 2 System Ph-Ph Voltage V 10⁻² U32
39188 0x9914 2 System Current mA U32
39190 0x9916 2 Frequency mHz U32
39192 0x9918 2 Ph-N Voltage : V1 V 10⁻² U32
39194 0x991A 2 Ph-N Voltage : V2 V 10⁻² U32
39196 0x991C 2 Ph-N Voltage : V3 V 10⁻² U32
39198 0x991E 2 Ph-N Voltage : Vn V 10⁻² U32
39200 0x9920 2 Ph-Ph Voltage : U12 V 10⁻² U32
39202 0x9922 2 Ph-Ph Voltage : U23 V 10⁻² U32
39204 0x9924 2 Ph-Ph Voltage : U31 V 10⁻² U32
39206 0x9926 2 Current : I1 mA U32
39208 0x9928 2 Current : I2 mA U32
39210 0x992A 2 Current : I3 mA U32
39212 0x992C 2 Current : In mA U32
39214 0x992E 1 Inba % / 100 U16
39215 0x992F 2 Idir mA U32
39217 0x9931 2 Iinv mA U32
39219 0x9933 2 Ihom mA U32
39221 0x9935 1 Inb % / 100 U16
39222 0x9936 2 Snom VA U32
39224 0x9938 2 Total active power W S32
39226 0x993A 2 Total reactive power var S32
39228 0x993C 2 Total lagging reactive power var S32
39230 0x993E 2 Total leading reactive power var S32
39232 0x9940 2 Total apparent power VA U32
39234 0x9942 1 Total power factor - / 1000 S16
39235 0x9943 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
39236 0x9944 2 Active power : P1 W S32
39238 0x9946 2 Active power : P2 W S32
39240 0x9948 2 Active power : P3 W S32
39242 0x994A 2 Reactive power : Q1 var S32
39244 0x994C 2 Reactive power : Q2 var S32
39246 0x994E 2 Reactive power : Q3 var S32
39248 0x9950 2 Lagging reactive power : Q1_lagg var S32
39250 0x9952 2 Lagging reactive power : Q2_lagg var S32
39252 0x9954 2 Lagging reactive power : Q3_lagg var S32
39254 0x9956 2 Leading reactive power : Q1_lead var S32
39256 0x9958 2 Leading reactive power : Q2_lead var S32
39258 0x995A 2 Leading reactive power : Q3_lead var S32
39260 0x995C 2 Apparent power : S1 VA U32
39262 0x995E 2 Apparent power : S2 VA U32
39264 0x9960 2 Apparent power : S3 VA U32
39266 0x9962 1 Power factor : PF1 - / 1000 S16
39267 0x9963 1 Power factor : PF2 - / 1000 S16
39268 0x9964 1 Power factor : PF3 - / 1000 S16
39269 0x9965 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
39270 0x9966 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
39271 0x9967 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
39272 0x9968 2 Current : Idelta mA U32
39274 0x996A 2 Current : Ipe mA U32

Instantaneous #16


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
39282 0x9972 Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
39282 0x9972 1 Load status
0 : Disabled
1 : Enabled
- U8
39283 0x9973 2 Date of last instance s DATETIME
39285 0x9975 1 Integration time s / 5 U16
39286 0x9976 2 System Ph-N Voltage V 10⁻² U32
39288 0x9978 2 System Ph-Ph Voltage V 10⁻² U32
39290 0x997A 2 System Current mA U32
39292 0x997C 2 Frequency mHz U32
39294 0x997E 2 Ph-N Voltage : V1 V 10⁻² U32
39296 0x9980 2 Ph-N Voltage : V2 V 10⁻² U32
39298 0x9982 2 Ph-N Voltage : V3 V 10⁻² U32
39300 0x9984 2 Ph-N Voltage : Vn V 10⁻² U32
39302 0x9986 2 Ph-Ph Voltage : U12 V 10⁻² U32
39304 0x9988 2 Ph-Ph Voltage : U23 V 10⁻² U32
39306 0x998A 2 Ph-Ph Voltage : U31 V 10⁻² U32
39308 0x998C 2 Current : I1 mA U32
39310 0x998E 2 Current : I2 mA U32
39312 0x9990 2 Current : I3 mA U32
39314 0x9992 2 Current : In mA U32
39316 0x9994 1 Inba % / 100 U16
39317 0x9995 2 Idir mA U32
39319 0x9997 2 Iinv mA U32
39321 0x9999 2 Ihom mA U32
39323 0x999B 1 Inb % / 100 U16
39324 0x999C 2 Snom VA U32
39326 0x999E 2 Total active power W S32
39328 0x99A0 2 Total reactive power var S32
39330 0x99A2 2 Total lagging reactive power var S32
39332 0x99A4 2 Total leading reactive power var S32
39334 0x99A6 2 Total apparent power VA U32
39336 0x99A8 1 Total power factor - / 1000 S16
39337 0x99A9 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
39338 0x99AA 2 Active power : P1 W S32
39340 0x99AC 2 Active power : P2 W S32
39342 0x99AE 2 Active power : P3 W S32
39344 0x99B0 2 Reactive power : Q1 var S32
39346 0x99B2 2 Reactive power : Q2 var S32
39348 0x99B4 2 Reactive power : Q3 var S32
39350 0x99B6 2 Lagging reactive power : Q1_lagg var S32
39352 0x99B8 2 Lagging reactive power : Q2_lagg var S32
39354 0x99BA 2 Lagging reactive power : Q3_lagg var S32
39356 0x99BC 2 Leading reactive power : Q1_lead var S32
39358 0x99BE 2 Leading reactive power : Q2_lead var S32
39360 0x99C0 2 Leading reactive power : Q3_lead var S32
39362 0x99C2 2 Apparent power : S1 VA U32
39364 0x99C4 2 Apparent power : S2 VA U32
39366 0x99C6 2 Apparent power : S3 VA U32
39368 0x99C8 1 Power factor : PF1 - / 1000 S16
39369 0x99C9 1 Power factor : PF2 - / 1000 S16
39370 0x99CA 1 Power factor : PF3 - / 1000 S16
39371 0x99CB 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
39372 0x99CC 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
39373 0x99CD 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
39374 0x99CE 2 Current : Idelta mA U32
39376 0x99D0 2 Current : Ipe mA U32

Instantaneous #17


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
39384 0x99D8 Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
39384 0x99D8 1 Load status
0 : Disabled
1 : Enabled
- U8
39385 0x99D9 2 Date of last instance s DATETIME
39387 0x99DB 1 Integration time s / 5 U16
39388 0x99DC 2 System Ph-N Voltage V 10⁻² U32
39390 0x99DE 2 System Ph-Ph Voltage V 10⁻² U32
39392 0x99E0 2 System Current mA U32
39394 0x99E2 2 Frequency mHz U32
39396 0x99E4 2 Ph-N Voltage : V1 V 10⁻² U32
39398 0x99E6 2 Ph-N Voltage : V2 V 10⁻² U32
39400 0x99E8 2 Ph-N Voltage : V3 V 10⁻² U32
39402 0x99EA 2 Ph-N Voltage : Vn V 10⁻² U32
39404 0x99EC 2 Ph-Ph Voltage : U12 V 10⁻² U32
39406 0x99EE 2 Ph-Ph Voltage : U23 V 10⁻² U32
39408 0x99F0 2 Ph-Ph Voltage : U31 V 10⁻² U32
39410 0x99F2 2 Current : I1 mA U32
39412 0x99F4 2 Current : I2 mA U32
39414 0x99F6 2 Current : I3 mA U32
39416 0x99F8 2 Current : In mA U32
39418 0x99FA 1 Inba % / 100 U16
39419 0x99FB 2 Idir mA U32
39421 0x99FD 2 Iinv mA U32
39423 0x99FF 2 Ihom mA U32
39425 0x9A01 1 Inb % / 100 U16
39426 0x9A02 2 Snom VA U32
39428 0x9A04 2 Total active power W S32
39430 0x9A06 2 Total reactive power var S32
39432 0x9A08 2 Total lagging reactive power var S32
39434 0x9A0A 2 Total leading reactive power var S32
39436 0x9A0C 2 Total apparent power VA U32
39438 0x9A0E 1 Total power factor - / 1000 S16
39439 0x9A0F 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
39440 0x9A10 2 Active power : P1 W S32
39442 0x9A12 2 Active power : P2 W S32
39444 0x9A14 2 Active power : P3 W S32
39446 0x9A16 2 Reactive power : Q1 var S32
39448 0x9A18 2 Reactive power : Q2 var S32
39450 0x9A1A 2 Reactive power : Q3 var S32
39452 0x9A1C 2 Lagging reactive power : Q1_lagg var S32
39454 0x9A1E 2 Lagging reactive power : Q2_lagg var S32
39456 0x9A20 2 Lagging reactive power : Q3_lagg var S32
39458 0x9A22 2 Leading reactive power : Q1_lead var S32
39460 0x9A24 2 Leading reactive power : Q2_lead var S32
39462 0x9A26 2 Leading reactive power : Q3_lead var S32
39464 0x9A28 2 Apparent power : S1 VA U32
39466 0x9A2A 2 Apparent power : S2 VA U32
39468 0x9A2C 2 Apparent power : S3 VA U32
39470 0x9A2E 1 Power factor : PF1 - / 1000 S16
39471 0x9A2F 1 Power factor : PF2 - / 1000 S16
39472 0x9A30 1 Power factor : PF3 - / 1000 S16
39473 0x9A31 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
39474 0x9A32 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
39475 0x9A33 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
39476 0x9A34 2 Current : Idelta mA U32
39478 0x9A36 2 Current : Ipe mA U32

Instantaneous #18


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
39486 0x9A3E Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
39486 0x9A3E 1 Load status
0 : Disabled
1 : Enabled
- U8
39487 0x9A3F 2 Date of last instance s DATETIME
39489 0x9A41 1 Integration time s / 5 U16
39490 0x9A42 2 System Ph-N Voltage V 10⁻² U32
39492 0x9A44 2 System Ph-Ph Voltage V 10⁻² U32
39494 0x9A46 2 System Current mA U32
39496 0x9A48 2 Frequency mHz U32
39498 0x9A4A 2 Ph-N Voltage : V1 V 10⁻² U32
39500 0x9A4C 2 Ph-N Voltage : V2 V 10⁻² U32
39502 0x9A4E 2 Ph-N Voltage : V3 V 10⁻² U32
39504 0x9A50 2 Ph-N Voltage : Vn V 10⁻² U32
39506 0x9A52 2 Ph-Ph Voltage : U12 V 10⁻² U32
39508 0x9A54 2 Ph-Ph Voltage : U23 V 10⁻² U32
39510 0x9A56 2 Ph-Ph Voltage : U31 V 10⁻² U32
39512 0x9A58 2 Current : I1 mA U32
39514 0x9A5A 2 Current : I2 mA U32
39516 0x9A5C 2 Current : I3 mA U32
39518 0x9A5E 2 Current : In mA U32
39520 0x9A60 1 Inba % / 100 U16
39521 0x9A61 2 Idir mA U32
39523 0x9A63 2 Iinv mA U32
39525 0x9A65 2 Ihom mA U32
39527 0x9A67 1 Inb % / 100 U16
39528 0x9A68 2 Snom VA U32
39530 0x9A6A 2 Total active power W S32
39532 0x9A6C 2 Total reactive power var S32
39534 0x9A6E 2 Total lagging reactive power var S32
39536 0x9A70 2 Total leading reactive power var S32
39538 0x9A72 2 Total apparent power VA U32
39540 0x9A74 1 Total power factor - / 1000 S16
39541 0x9A75 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
39542 0x9A76 2 Active power : P1 W S32
39544 0x9A78 2 Active power : P2 W S32
39546 0x9A7A 2 Active power : P3 W S32
39548 0x9A7C 2 Reactive power : Q1 var S32
39550 0x9A7E 2 Reactive power : Q2 var S32
39552 0x9A80 2 Reactive power : Q3 var S32
39554 0x9A82 2 Lagging reactive power : Q1_lagg var S32
39556 0x9A84 2 Lagging reactive power : Q2_lagg var S32
39558 0x9A86 2 Lagging reactive power : Q3_lagg var S32
39560 0x9A88 2 Leading reactive power : Q1_lead var S32
39562 0x9A8A 2 Leading reactive power : Q2_lead var S32
39564 0x9A8C 2 Leading reactive power : Q3_lead var S32
39566 0x9A8E 2 Apparent power : S1 VA U32
39568 0x9A90 2 Apparent power : S2 VA U32
39570 0x9A92 2 Apparent power : S3 VA U32
39572 0x9A94 1 Power factor : PF1 - / 1000 S16
39573 0x9A95 1 Power factor : PF2 - / 1000 S16
39574 0x9A96 1 Power factor : PF3 - / 1000 S16
39575 0x9A97 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
39576 0x9A98 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
39577 0x9A99 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
39578 0x9A9A 2 Current : Idelta mA U32
39580 0x9A9C 2 Current : Ipe mA U32

Instantaneous #19


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
39588 0x9AA4 Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
39588 0x9AA4 1 Load status
0 : Disabled
1 : Enabled
- U8
39589 0x9AA5 2 Date of last instance s DATETIME
39591 0x9AA7 1 Integration time s / 5 U16
39592 0x9AA8 2 System Ph-N Voltage V 10⁻² U32
39594 0x9AAA 2 System Ph-Ph Voltage V 10⁻² U32
39596 0x9AAC 2 System Current mA U32
39598 0x9AAE 2 Frequency mHz U32
39600 0x9AB0 2 Ph-N Voltage : V1 V 10⁻² U32
39602 0x9AB2 2 Ph-N Voltage : V2 V 10⁻² U32
39604 0x9AB4 2 Ph-N Voltage : V3 V 10⁻² U32
39606 0x9AB6 2 Ph-N Voltage : Vn V 10⁻² U32
39608 0x9AB8 2 Ph-Ph Voltage : U12 V 10⁻² U32
39610 0x9ABA 2 Ph-Ph Voltage : U23 V 10⁻² U32
39612 0x9ABC 2 Ph-Ph Voltage : U31 V 10⁻² U32
39614 0x9ABE 2 Current : I1 mA U32
39616 0x9AC0 2 Current : I2 mA U32
39618 0x9AC2 2 Current : I3 mA U32
39620 0x9AC4 2 Current : In mA U32
39622 0x9AC6 1 Inba % / 100 U16
39623 0x9AC7 2 Idir mA U32
39625 0x9AC9 2 Iinv mA U32
39627 0x9ACB 2 Ihom mA U32
39629 0x9ACD 1 Inb % / 100 U16
39630 0x9ACE 2 Snom VA U32
39632 0x9AD0 2 Total active power W S32
39634 0x9AD2 2 Total reactive power var S32
39636 0x9AD4 2 Total lagging reactive power var S32
39638 0x9AD6 2 Total leading reactive power var S32
39640 0x9AD8 2 Total apparent power VA U32
39642 0x9ADA 1 Total power factor - / 1000 S16
39643 0x9ADB 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
39644 0x9ADC 2 Active power : P1 W S32
39646 0x9ADE 2 Active power : P2 W S32
39648 0x9AE0 2 Active power : P3 W S32
39650 0x9AE2 2 Reactive power : Q1 var S32
39652 0x9AE4 2 Reactive power : Q2 var S32
39654 0x9AE6 2 Reactive power : Q3 var S32
39656 0x9AE8 2 Lagging reactive power : Q1_lagg var S32
39658 0x9AEA 2 Lagging reactive power : Q2_lagg var S32
39660 0x9AEC 2 Lagging reactive power : Q3_lagg var S32
39662 0x9AEE 2 Leading reactive power : Q1_lead var S32
39664 0x9AF0 2 Leading reactive power : Q2_lead var S32
39666 0x9AF2 2 Leading reactive power : Q3_lead var S32
39668 0x9AF4 2 Apparent power : S1 VA U32
39670 0x9AF6 2 Apparent power : S2 VA U32
39672 0x9AF8 2 Apparent power : S3 VA U32
39674 0x9AFA 1 Power factor : PF1 - / 1000 S16
39675 0x9AFB 1 Power factor : PF2 - / 1000 S16
39676 0x9AFC 1 Power factor : PF3 - / 1000 S16
39677 0x9AFD 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
39678 0x9AFE 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
39679 0x9AFF 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
39680 0x9B00 2 Current : Idelta mA U32
39682 0x9B02 2 Current : Ipe mA U32

Instantaneous #20


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
39690 0x9B0A Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
39690 0x9B0A 1 Load status
0 : Disabled
1 : Enabled
- U8
39691 0x9B0B 2 Date of last instance s DATETIME
39693 0x9B0D 1 Integration time s / 5 U16
39694 0x9B0E 2 System Ph-N Voltage V 10⁻² U32
39696 0x9B10 2 System Ph-Ph Voltage V 10⁻² U32
39698 0x9B12 2 System Current mA U32
39700 0x9B14 2 Frequency mHz U32
39702 0x9B16 2 Ph-N Voltage : V1 V 10⁻² U32
39704 0x9B18 2 Ph-N Voltage : V2 V 10⁻² U32
39706 0x9B1A 2 Ph-N Voltage : V3 V 10⁻² U32
39708 0x9B1C 2 Ph-N Voltage : Vn V 10⁻² U32
39710 0x9B1E 2 Ph-Ph Voltage : U12 V 10⁻² U32
39712 0x9B20 2 Ph-Ph Voltage : U23 V 10⁻² U32
39714 0x9B22 2 Ph-Ph Voltage : U31 V 10⁻² U32
39716 0x9B24 2 Current : I1 mA U32
39718 0x9B26 2 Current : I2 mA U32
39720 0x9B28 2 Current : I3 mA U32
39722 0x9B2A 2 Current : In mA U32
39724 0x9B2C 1 Inba % / 100 U16
39725 0x9B2D 2 Idir mA U32
39727 0x9B2F 2 Iinv mA U32
39729 0x9B31 2 Ihom mA U32
39731 0x9B33 1 Inb % / 100 U16
39732 0x9B34 2 Snom VA U32
39734 0x9B36 2 Total active power W S32
39736 0x9B38 2 Total reactive power var S32
39738 0x9B3A 2 Total lagging reactive power var S32
39740 0x9B3C 2 Total leading reactive power var S32
39742 0x9B3E 2 Total apparent power VA U32
39744 0x9B40 1 Total power factor - / 1000 S16
39745 0x9B41 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
39746 0x9B42 2 Active power : P1 W S32
39748 0x9B44 2 Active power : P2 W S32
39750 0x9B46 2 Active power : P3 W S32
39752 0x9B48 2 Reactive power : Q1 var S32
39754 0x9B4A 2 Reactive power : Q2 var S32
39756 0x9B4C 2 Reactive power : Q3 var S32
39758 0x9B4E 2 Lagging reactive power : Q1_lagg var S32
39760 0x9B50 2 Lagging reactive power : Q2_lagg var S32
39762 0x9B52 2 Lagging reactive power : Q3_lagg var S32
39764 0x9B54 2 Leading reactive power : Q1_lead var S32
39766 0x9B56 2 Leading reactive power : Q2_lead var S32
39768 0x9B58 2 Leading reactive power : Q3_lead var S32
39770 0x9B5A 2 Apparent power : S1 VA U32
39772 0x9B5C 2 Apparent power : S2 VA U32
39774 0x9B5E 2 Apparent power : S3 VA U32
39776 0x9B60 1 Power factor : PF1 - / 1000 S16
39777 0x9B61 1 Power factor : PF2 - / 1000 S16
39778 0x9B62 1 Power factor : PF3 - / 1000 S16
39779 0x9B63 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
39780 0x9B64 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
39781 0x9B65 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
39782 0x9B66 2 Current : Idelta mA U32
39784 0x9B68 2 Current : Ipe mA U32

Instantaneous #21


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
39792 0x9B70 Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
39792 0x9B70 1 Load status
0 : Disabled
1 : Enabled
- U8
39793 0x9B71 2 Date of last instance s DATETIME
39795 0x9B73 1 Integration time s / 5 U16
39796 0x9B74 2 System Ph-N Voltage V 10⁻² U32
39798 0x9B76 2 System Ph-Ph Voltage V 10⁻² U32
39800 0x9B78 2 System Current mA U32
39802 0x9B7A 2 Frequency mHz U32
39804 0x9B7C 2 Ph-N Voltage : V1 V 10⁻² U32
39806 0x9B7E 2 Ph-N Voltage : V2 V 10⁻² U32
39808 0x9B80 2 Ph-N Voltage : V3 V 10⁻² U32
39810 0x9B82 2 Ph-N Voltage : Vn V 10⁻² U32
39812 0x9B84 2 Ph-Ph Voltage : U12 V 10⁻² U32
39814 0x9B86 2 Ph-Ph Voltage : U23 V 10⁻² U32
39816 0x9B88 2 Ph-Ph Voltage : U31 V 10⁻² U32
39818 0x9B8A 2 Current : I1 mA U32
39820 0x9B8C 2 Current : I2 mA U32
39822 0x9B8E 2 Current : I3 mA U32
39824 0x9B90 2 Current : In mA U32
39826 0x9B92 1 Inba % / 100 U16
39827 0x9B93 2 Idir mA U32
39829 0x9B95 2 Iinv mA U32
39831 0x9B97 2 Ihom mA U32
39833 0x9B99 1 Inb % / 100 U16
39834 0x9B9A 2 Snom VA U32
39836 0x9B9C 2 Total active power W S32
39838 0x9B9E 2 Total reactive power var S32
39840 0x9BA0 2 Total lagging reactive power var S32
39842 0x9BA2 2 Total leading reactive power var S32
39844 0x9BA4 2 Total apparent power VA U32
39846 0x9BA6 1 Total power factor - / 1000 S16
39847 0x9BA7 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
39848 0x9BA8 2 Active power : P1 W S32
39850 0x9BAA 2 Active power : P2 W S32
39852 0x9BAC 2 Active power : P3 W S32
39854 0x9BAE 2 Reactive power : Q1 var S32
39856 0x9BB0 2 Reactive power : Q2 var S32
39858 0x9BB2 2 Reactive power : Q3 var S32
39860 0x9BB4 2 Lagging reactive power : Q1_lagg var S32
39862 0x9BB6 2 Lagging reactive power : Q2_lagg var S32
39864 0x9BB8 2 Lagging reactive power : Q3_lagg var S32
39866 0x9BBA 2 Leading reactive power : Q1_lead var S32
39868 0x9BBC 2 Leading reactive power : Q2_lead var S32
39870 0x9BBE 2 Leading reactive power : Q3_lead var S32
39872 0x9BC0 2 Apparent power : S1 VA U32
39874 0x9BC2 2 Apparent power : S2 VA U32
39876 0x9BC4 2 Apparent power : S3 VA U32
39878 0x9BC6 1 Power factor : PF1 - / 1000 S16
39879 0x9BC7 1 Power factor : PF2 - / 1000 S16
39880 0x9BC8 1 Power factor : PF3 - / 1000 S16
39881 0x9BC9 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
39882 0x9BCA 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
39883 0x9BCB 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
39884 0x9BCC 2 Current : Idelta mA U32
39886 0x9BCE 2 Current : Ipe mA U32

Instantaneous #22


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
39894 0x9BD6 Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
39894 0x9BD6 1 Load status
0 : Disabled
1 : Enabled
- U8
39895 0x9BD7 2 Date of last instance s DATETIME
39897 0x9BD9 1 Integration time s / 5 U16
39898 0x9BDA 2 System Ph-N Voltage V 10⁻² U32
39900 0x9BDC 2 System Ph-Ph Voltage V 10⁻² U32
39902 0x9BDE 2 System Current mA U32
39904 0x9BE0 2 Frequency mHz U32
39906 0x9BE2 2 Ph-N Voltage : V1 V 10⁻² U32
39908 0x9BE4 2 Ph-N Voltage : V2 V 10⁻² U32
39910 0x9BE6 2 Ph-N Voltage : V3 V 10⁻² U32
39912 0x9BE8 2 Ph-N Voltage : Vn V 10⁻² U32
39914 0x9BEA 2 Ph-Ph Voltage : U12 V 10⁻² U32
39916 0x9BEC 2 Ph-Ph Voltage : U23 V 10⁻² U32
39918 0x9BEE 2 Ph-Ph Voltage : U31 V 10⁻² U32
39920 0x9BF0 2 Current : I1 mA U32
39922 0x9BF2 2 Current : I2 mA U32
39924 0x9BF4 2 Current : I3 mA U32
39926 0x9BF6 2 Current : In mA U32
39928 0x9BF8 1 Inba % / 100 U16
39929 0x9BF9 2 Idir mA U32
39931 0x9BFB 2 Iinv mA U32
39933 0x9BFD 2 Ihom mA U32
39935 0x9BFF 1 Inb % / 100 U16
39936 0x9C00 2 Snom VA U32
39938 0x9C02 2 Total active power W S32
39940 0x9C04 2 Total reactive power var S32
39942 0x9C06 2 Total lagging reactive power var S32
39944 0x9C08 2 Total leading reactive power var S32
39946 0x9C0A 2 Total apparent power VA U32
39948 0x9C0C 1 Total power factor - / 1000 S16
39949 0x9C0D 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
39950 0x9C0E 2 Active power : P1 W S32
39952 0x9C10 2 Active power : P2 W S32
39954 0x9C12 2 Active power : P3 W S32
39956 0x9C14 2 Reactive power : Q1 var S32
39958 0x9C16 2 Reactive power : Q2 var S32
39960 0x9C18 2 Reactive power : Q3 var S32
39962 0x9C1A 2 Lagging reactive power : Q1_lagg var S32
39964 0x9C1C 2 Lagging reactive power : Q2_lagg var S32
39966 0x9C1E 2 Lagging reactive power : Q3_lagg var S32
39968 0x9C20 2 Leading reactive power : Q1_lead var S32
39970 0x9C22 2 Leading reactive power : Q2_lead var S32
39972 0x9C24 2 Leading reactive power : Q3_lead var S32
39974 0x9C26 2 Apparent power : S1 VA U32
39976 0x9C28 2 Apparent power : S2 VA U32
39978 0x9C2A 2 Apparent power : S3 VA U32
39980 0x9C2C 1 Power factor : PF1 - / 1000 S16
39981 0x9C2D 1 Power factor : PF2 - / 1000 S16
39982 0x9C2E 1 Power factor : PF3 - / 1000 S16
39983 0x9C2F 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
39984 0x9C30 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
39985 0x9C31 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
39986 0x9C32 2 Current : Idelta mA U32
39988 0x9C34 2 Current : Ipe mA U32

Instantaneous #23


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
39996 0x9C3C Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
39996 0x9C3C 1 Load status
0 : Disabled
1 : Enabled
- U8
39997 0x9C3D 2 Date of last instance s DATETIME
39999 0x9C3F 1 Integration time s / 5 U16
40000 0x9C40 2 System Ph-N Voltage V 10⁻² U32
40002 0x9C42 2 System Ph-Ph Voltage V 10⁻² U32
40004 0x9C44 2 System Current mA U32
40006 0x9C46 2 Frequency mHz U32
40008 0x9C48 2 Ph-N Voltage : V1 V 10⁻² U32
40010 0x9C4A 2 Ph-N Voltage : V2 V 10⁻² U32
40012 0x9C4C 2 Ph-N Voltage : V3 V 10⁻² U32
40014 0x9C4E 2 Ph-N Voltage : Vn V 10⁻² U32
40016 0x9C50 2 Ph-Ph Voltage : U12 V 10⁻² U32
40018 0x9C52 2 Ph-Ph Voltage : U23 V 10⁻² U32
40020 0x9C54 2 Ph-Ph Voltage : U31 V 10⁻² U32
40022 0x9C56 2 Current : I1 mA U32
40024 0x9C58 2 Current : I2 mA U32
40026 0x9C5A 2 Current : I3 mA U32
40028 0x9C5C 2 Current : In mA U32
40030 0x9C5E 1 Inba % / 100 U16
40031 0x9C5F 2 Idir mA U32
40033 0x9C61 2 Iinv mA U32
40035 0x9C63 2 Ihom mA U32
40037 0x9C65 1 Inb % / 100 U16
40038 0x9C66 2 Snom VA U32
40040 0x9C68 2 Total active power W S32
40042 0x9C6A 2 Total reactive power var S32
40044 0x9C6C 2 Total lagging reactive power var S32
40046 0x9C6E 2 Total leading reactive power var S32
40048 0x9C70 2 Total apparent power VA U32
40050 0x9C72 1 Total power factor - / 1000 S16
40051 0x9C73 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
40052 0x9C74 2 Active power : P1 W S32
40054 0x9C76 2 Active power : P2 W S32
40056 0x9C78 2 Active power : P3 W S32
40058 0x9C7A 2 Reactive power : Q1 var S32
40060 0x9C7C 2 Reactive power : Q2 var S32
40062 0x9C7E 2 Reactive power : Q3 var S32
40064 0x9C80 2 Lagging reactive power : Q1_lagg var S32
40066 0x9C82 2 Lagging reactive power : Q2_lagg var S32
40068 0x9C84 2 Lagging reactive power : Q3_lagg var S32
40070 0x9C86 2 Leading reactive power : Q1_lead var S32
40072 0x9C88 2 Leading reactive power : Q2_lead var S32
40074 0x9C8A 2 Leading reactive power : Q3_lead var S32
40076 0x9C8C 2 Apparent power : S1 VA U32
40078 0x9C8E 2 Apparent power : S2 VA U32
40080 0x9C90 2 Apparent power : S3 VA U32
40082 0x9C92 1 Power factor : PF1 - / 1000 S16
40083 0x9C93 1 Power factor : PF2 - / 1000 S16
40084 0x9C94 1 Power factor : PF3 - / 1000 S16
40085 0x9C95 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
40086 0x9C96 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
40087 0x9C97 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
40088 0x9C98 2 Current : Idelta mA U32
40090 0x9C9A 2 Current : Ipe mA U32

Instantaneous #24


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
40098 0x9CA2 Info 96 NONE READ READ

Dec address Hex address Words count Description Unit Data type
40098 0x9CA2 1 Load status
0 : Disabled
1 : Enabled
- U8
40099 0x9CA3 2 Date of last instance s DATETIME
40101 0x9CA5 1 Integration time s / 5 U16
40102 0x9CA6 2 System Ph-N Voltage V 10⁻² U32
40104 0x9CA8 2 System Ph-Ph Voltage V 10⁻² U32
40106 0x9CAA 2 System Current mA U32
40108 0x9CAC 2 Frequency mHz U32
40110 0x9CAE 2 Ph-N Voltage : V1 V 10⁻² U32
40112 0x9CB0 2 Ph-N Voltage : V2 V 10⁻² U32
40114 0x9CB2 2 Ph-N Voltage : V3 V 10⁻² U32
40116 0x9CB4 2 Ph-N Voltage : Vn V 10⁻² U32
40118 0x9CB6 2 Ph-Ph Voltage : U12 V 10⁻² U32
40120 0x9CB8 2 Ph-Ph Voltage : U23 V 10⁻² U32
40122 0x9CBA 2 Ph-Ph Voltage : U31 V 10⁻² U32
40124 0x9CBC 2 Current : I1 mA U32
40126 0x9CBE 2 Current : I2 mA U32
40128 0x9CC0 2 Current : I3 mA U32
40130 0x9CC2 2 Current : In mA U32
40132 0x9CC4 1 Inba % / 100 U16
40133 0x9CC5 2 Idir mA U32
40135 0x9CC7 2 Iinv mA U32
40137 0x9CC9 2 Ihom mA U32
40139 0x9CCB 1 Inb % / 100 U16
40140 0x9CCC 2 Snom VA U32
40142 0x9CCE 2 Total active power W S32
40144 0x9CD0 2 Total reactive power var S32
40146 0x9CD2 2 Total lagging reactive power var S32
40148 0x9CD4 2 Total leading reactive power var S32
40150 0x9CD6 2 Total apparent power VA U32
40152 0x9CD8 1 Total power factor - / 1000 S16
40153 0x9CD9 1 Total Power factor type :
0 : undefined
1 : leading
2 : lagging
- U8
40154 0x9CDA 2 Active power : P1 W S32
40156 0x9CDC 2 Active power : P2 W S32
40158 0x9CDE 2 Active power : P3 W S32
40160 0x9CE0 2 Reactive power : Q1 var S32
40162 0x9CE2 2 Reactive power : Q2 var S32
40164 0x9CE4 2 Reactive power : Q3 var S32
40166 0x9CE6 2 Lagging reactive power : Q1_lagg var S32
40168 0x9CE8 2 Lagging reactive power : Q2_lagg var S32
40170 0x9CEA 2 Lagging reactive power : Q3_lagg var S32
40172 0x9CEC 2 Leading reactive power : Q1_lead var S32
40174 0x9CEE 2 Leading reactive power : Q2_lead var S32
40176 0x9CF0 2 Leading reactive power : Q3_lead var S32
40178 0x9CF2 2 Apparent power : S1 VA U32
40180 0x9CF4 2 Apparent power : S2 VA U32
40182 0x9CF6 2 Apparent power : S3 VA U32
40184 0x9CF8 1 Power factor : PF1 - / 1000 S16
40185 0x9CF9 1 Power factor : PF2 - / 1000 S16
40186 0x9CFA 1 Power factor : PF3 - / 1000 S16
40187 0x9CFB 1 Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
40188 0x9CFC 1 Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
40189 0x9CFD 1 Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
40190 0x9CFE 2 Current : Idelta mA U32
40192 0x9D00 2 Current : Ipe mA U32

Instantaneous fundamental #1


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
512 0x0200 Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
512 0x0200 1 Load status
0 : Disabled
1 : Enabled
- U8
513 0x0201 2 Date of last instance s DATETIME
515 0x0203 1 Integration time s / 5 U16
516 0x0204 2 Ph-N voltage: V1h1 V 10⁻² U32
518 0x0206 2 Ph-N voltage: V2h1 V 10⁻² U32
520 0x0208 2 Ph-N voltage: V3h1 V 10⁻² U32
522 0x020A 2 Ph-N voltage: Vnh1 V 10⁻² U32
524 0x020C 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
525 0x020D 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
526 0x020E 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
527 0x020F 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
528 0x0210 2 Ph-Ph voltage: U12h1 V 10⁻² U32
530 0x0212 2 Ph-Ph voltage: U23h1 V 10⁻² U32
532 0x0214 2 Ph-Ph voltage: U31h1 V 10⁻² U32
534 0x0216 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
535 0x0217 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
536 0x0218 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
537 0x0219 2 Current: I1h1 mA U32
539 0x021B 2 Current: I2h1 mA U32
541 0x021D 2 Current: I3h1 mA U32
543 0x021F 2 Current: Inh1 mA U32
545 0x0221 1 Current phase: phI1h1 ° 10⁻¹ S16
546 0x0222 1 Current phase: phI2h1 ° 10⁻¹ S16
547 0x0223 1 Current phase: phI3h1 ° 10⁻¹ S16
548 0x0224 1 Current phase: phInh1 ° 10⁻¹ S16
549 0x0225 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
550 0x0226 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
551 0x0227 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
552 0x0228 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
553 0x0229 2 P1h1 W S32
555 0x022B 2 P2h1 W S32
557 0x022D 2 P3h1 W S32
559 0x022F 2 Reserved - -
561 0x0231 2 Q1h1 var S32
563 0x0233 2 Q2h1 var S32
565 0x0235 2 Q3h1 var S32
567 0x0237 2 Reserved - -
569 0x0239 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
570 0x023A 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
571 0x023B 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
572 0x023C 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
573 0x023D 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
574 0x023E 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
575 0x023F 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
576 0x0240 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
577 0x0241 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
578 0x0242 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
579 0x0243 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
580 0x0244 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
581 0x0245 1 Curent total harmonic distortion : THD I1 % / 100 U16
582 0x0246 1 Curent total harmonic distortion : THD I2 % / 100 U16
583 0x0247 1 Curent total harmonic distortion : THD I3 % / 100 U16
584 0x0248 1 Curent total harmonic distortion : THD In % / 100 U16
585 0x0249 1 K-Factor I1 - / 100 U16
586 0x024A 1 K-Factor I2 - / 100 U16
587 0x024B 1 K-Factor I3 - / 100 U16
588 0x024C 1 K-Factor In - / 100 U16
589 0x024D 1 System THD V % / 100 U16
590 0x024E 1 System THD U % / 100 U16
591 0x024F 1 System THD I % / 100 U16
592 0x0250 1 Crest factor : I1 - / 1000 U16
593 0x0251 1 Crest factor : I2 - / 1000 U16
594 0x0252 1 Crest factor : I3 - / 1000 U16
595 0x0253 1 Crest factor : In - / 1000 U16
596 0x0254 1 Total demand distortion : TDD I1 % / 100 U16
597 0x0255 1 Total demand distortion : TDD I2 % / 100 U16
598 0x0256 1 Total demand distortion : TDD I3 % / 100 U16
599 0x0257 1 Total demand distortion : TDD In % / 100 U16
600 0x0258 1 System TDD I % / 100 U16
601 0x0259 2 S1h1 VA U32
603 0x025B 2 S2h1 VA U32
605 0x025D 2 S3h1 VA U32
607 0x025F 2 Reserved - -

Instantaneous fundamental #2


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
614 0x0266 Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
614 0x0266 1 Load status
0 : Disabled
1 : Enabled
- U8
615 0x0267 2 Date of last instance s DATETIME
617 0x0269 1 Integration time s / 5 U16
618 0x026A 2 Ph-N voltage: V1h1 V 10⁻² U32
620 0x026C 2 Ph-N voltage: V2h1 V 10⁻² U32
622 0x026E 2 Ph-N voltage: V3h1 V 10⁻² U32
624 0x0270 2 Ph-N voltage: Vnh1 V 10⁻² U32
626 0x0272 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
627 0x0273 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
628 0x0274 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
629 0x0275 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
630 0x0276 2 Ph-Ph voltage: U12h1 V 10⁻² U32
632 0x0278 2 Ph-Ph voltage: U23h1 V 10⁻² U32
634 0x027A 2 Ph-Ph voltage: U31h1 V 10⁻² U32
636 0x027C 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
637 0x027D 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
638 0x027E 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
639 0x027F 2 Current: I1h1 mA U32
641 0x0281 2 Current: I2h1 mA U32
643 0x0283 2 Current: I3h1 mA U32
645 0x0285 2 Current: Inh1 mA U32
647 0x0287 1 Current phase: phI1h1 ° 10⁻¹ S16
648 0x0288 1 Current phase: phI2h1 ° 10⁻¹ S16
649 0x0289 1 Current phase: phI3h1 ° 10⁻¹ S16
650 0x028A 1 Current phase: phInh1 ° 10⁻¹ S16
651 0x028B 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
652 0x028C 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
653 0x028D 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
654 0x028E 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
655 0x028F 2 P1h1 W S32
657 0x0291 2 P2h1 W S32
659 0x0293 2 P3h1 W S32
661 0x0295 2 Reserved - -
663 0x0297 2 Q1h1 var S32
665 0x0299 2 Q2h1 var S32
667 0x029B 2 Q3h1 var S32
669 0x029D 2 Reserved - -
671 0x029F 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
672 0x02A0 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
673 0x02A1 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
674 0x02A2 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
675 0x02A3 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
676 0x02A4 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
677 0x02A5 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
678 0x02A6 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
679 0x02A7 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
680 0x02A8 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
681 0x02A9 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
682 0x02AA 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
683 0x02AB 1 Curent total harmonic distortion : THD I1 % / 100 U16
684 0x02AC 1 Curent total harmonic distortion : THD I2 % / 100 U16
685 0x02AD 1 Curent total harmonic distortion : THD I3 % / 100 U16
686 0x02AE 1 Curent total harmonic distortion : THD In % / 100 U16
687 0x02AF 1 K-Factor I1 - / 100 U16
688 0x02B0 1 K-Factor I2 - / 100 U16
689 0x02B1 1 K-Factor I3 - / 100 U16
690 0x02B2 1 K-Factor In - / 100 U16
691 0x02B3 1 System THD V % / 100 U16
692 0x02B4 1 System THD U % / 100 U16
693 0x02B5 1 System THD I % / 100 U16
694 0x02B6 1 Crest factor : I1 - / 1000 U16
695 0x02B7 1 Crest factor : I2 - / 1000 U16
696 0x02B8 1 Crest factor : I3 - / 1000 U16
697 0x02B9 1 Crest factor : In - / 1000 U16
698 0x02BA 1 Total demand distortion : TDD I1 % / 100 U16
699 0x02BB 1 Total demand distortion : TDD I2 % / 100 U16
700 0x02BC 1 Total demand distortion : TDD I3 % / 100 U16
701 0x02BD 1 Total demand distortion : TDD In % / 100 U16
702 0x02BE 1 System TDD I % / 100 U16
703 0x02BF 2 S1h1 VA U32
705 0x02C1 2 S2h1 VA U32
707 0x02C3 2 S3h1 VA U32
709 0x02C5 2 Reserved - -

Instantaneous fundamental #3


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
716 0x02CC Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
716 0x02CC 1 Load status
0 : Disabled
1 : Enabled
- U8
717 0x02CD 2 Date of last instance s DATETIME
719 0x02CF 1 Integration time s / 5 U16
720 0x02D0 2 Ph-N voltage: V1h1 V 10⁻² U32
722 0x02D2 2 Ph-N voltage: V2h1 V 10⁻² U32
724 0x02D4 2 Ph-N voltage: V3h1 V 10⁻² U32
726 0x02D6 2 Ph-N voltage: Vnh1 V 10⁻² U32
728 0x02D8 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
729 0x02D9 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
730 0x02DA 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
731 0x02DB 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
732 0x02DC 2 Ph-Ph voltage: U12h1 V 10⁻² U32
734 0x02DE 2 Ph-Ph voltage: U23h1 V 10⁻² U32
736 0x02E0 2 Ph-Ph voltage: U31h1 V 10⁻² U32
738 0x02E2 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
739 0x02E3 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
740 0x02E4 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
741 0x02E5 2 Current: I1h1 mA U32
743 0x02E7 2 Current: I2h1 mA U32
745 0x02E9 2 Current: I3h1 mA U32
747 0x02EB 2 Current: Inh1 mA U32
749 0x02ED 1 Current phase: phI1h1 ° 10⁻¹ S16
750 0x02EE 1 Current phase: phI2h1 ° 10⁻¹ S16
751 0x02EF 1 Current phase: phI3h1 ° 10⁻¹ S16
752 0x02F0 1 Current phase: phInh1 ° 10⁻¹ S16
753 0x02F1 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
754 0x02F2 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
755 0x02F3 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
756 0x02F4 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
757 0x02F5 2 P1h1 W S32
759 0x02F7 2 P2h1 W S32
761 0x02F9 2 P3h1 W S32
763 0x02FB 2 Reserved - -
765 0x02FD 2 Q1h1 var S32
767 0x02FF 2 Q2h1 var S32
769 0x0301 2 Q3h1 var S32
771 0x0303 2 Reserved - -
773 0x0305 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
774 0x0306 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
775 0x0307 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
776 0x0308 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
777 0x0309 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
778 0x030A 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
779 0x030B 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
780 0x030C 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
781 0x030D 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
782 0x030E 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
783 0x030F 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
784 0x0310 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
785 0x0311 1 Curent total harmonic distortion : THD I1 % / 100 U16
786 0x0312 1 Curent total harmonic distortion : THD I2 % / 100 U16
787 0x0313 1 Curent total harmonic distortion : THD I3 % / 100 U16
788 0x0314 1 Curent total harmonic distortion : THD In % / 100 U16
789 0x0315 1 K-Factor I1 - / 100 U16
790 0x0316 1 K-Factor I2 - / 100 U16
791 0x0317 1 K-Factor I3 - / 100 U16
792 0x0318 1 K-Factor In - / 100 U16
793 0x0319 1 System THD V % / 100 U16
794 0x031A 1 System THD U % / 100 U16
795 0x031B 1 System THD I % / 100 U16
796 0x031C 1 Crest factor : I1 - / 1000 U16
797 0x031D 1 Crest factor : I2 - / 1000 U16
798 0x031E 1 Crest factor : I3 - / 1000 U16
799 0x031F 1 Crest factor : In - / 1000 U16
800 0x0320 1 Total demand distortion : TDD I1 % / 100 U16
801 0x0321 1 Total demand distortion : TDD I2 % / 100 U16
802 0x0322 1 Total demand distortion : TDD I3 % / 100 U16
803 0x0323 1 Total demand distortion : TDD In % / 100 U16
804 0x0324 1 System TDD I % / 100 U16
805 0x0325 2 S1h1 VA U32
807 0x0327 2 S2h1 VA U32
809 0x0329 2 S3h1 VA U32
811 0x032B 2 Reserved - -

Instantaneous fundamental #4


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
818 0x0332 Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
818 0x0332 1 Load status
0 : Disabled
1 : Enabled
- U8
819 0x0333 2 Date of last instance s DATETIME
821 0x0335 1 Integration time s / 5 U16
822 0x0336 2 Ph-N voltage: V1h1 V 10⁻² U32
824 0x0338 2 Ph-N voltage: V2h1 V 10⁻² U32
826 0x033A 2 Ph-N voltage: V3h1 V 10⁻² U32
828 0x033C 2 Ph-N voltage: Vnh1 V 10⁻² U32
830 0x033E 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
831 0x033F 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
832 0x0340 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
833 0x0341 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
834 0x0342 2 Ph-Ph voltage: U12h1 V 10⁻² U32
836 0x0344 2 Ph-Ph voltage: U23h1 V 10⁻² U32
838 0x0346 2 Ph-Ph voltage: U31h1 V 10⁻² U32
840 0x0348 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
841 0x0349 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
842 0x034A 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
843 0x034B 2 Current: I1h1 mA U32
845 0x034D 2 Current: I2h1 mA U32
847 0x034F 2 Current: I3h1 mA U32
849 0x0351 2 Current: Inh1 mA U32
851 0x0353 1 Current phase: phI1h1 ° 10⁻¹ S16
852 0x0354 1 Current phase: phI2h1 ° 10⁻¹ S16
853 0x0355 1 Current phase: phI3h1 ° 10⁻¹ S16
854 0x0356 1 Current phase: phInh1 ° 10⁻¹ S16
855 0x0357 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
856 0x0358 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
857 0x0359 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
858 0x035A 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
859 0x035B 2 P1h1 W S32
861 0x035D 2 P2h1 W S32
863 0x035F 2 P3h1 W S32
865 0x0361 2 Reserved - -
867 0x0363 2 Q1h1 var S32
869 0x0365 2 Q2h1 var S32
871 0x0367 2 Q3h1 var S32
873 0x0369 2 Reserved - -
875 0x036B 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
876 0x036C 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
877 0x036D 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
878 0x036E 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
879 0x036F 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
880 0x0370 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
881 0x0371 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
882 0x0372 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
883 0x0373 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
884 0x0374 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
885 0x0375 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
886 0x0376 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
887 0x0377 1 Curent total harmonic distortion : THD I1 % / 100 U16
888 0x0378 1 Curent total harmonic distortion : THD I2 % / 100 U16
889 0x0379 1 Curent total harmonic distortion : THD I3 % / 100 U16
890 0x037A 1 Curent total harmonic distortion : THD In % / 100 U16
891 0x037B 1 K-Factor I1 - / 100 U16
892 0x037C 1 K-Factor I2 - / 100 U16
893 0x037D 1 K-Factor I3 - / 100 U16
894 0x037E 1 K-Factor In - / 100 U16
895 0x037F 1 System THD V % / 100 U16
896 0x0380 1 System THD U % / 100 U16
897 0x0381 1 System THD I % / 100 U16
898 0x0382 1 Crest factor : I1 - / 1000 U16
899 0x0383 1 Crest factor : I2 - / 1000 U16
900 0x0384 1 Crest factor : I3 - / 1000 U16
901 0x0385 1 Crest factor : In - / 1000 U16
902 0x0386 1 Total demand distortion : TDD I1 % / 100 U16
903 0x0387 1 Total demand distortion : TDD I2 % / 100 U16
904 0x0388 1 Total demand distortion : TDD I3 % / 100 U16
905 0x0389 1 Total demand distortion : TDD In % / 100 U16
906 0x038A 1 System TDD I % / 100 U16
907 0x038B 2 S1h1 VA U32
909 0x038D 2 S2h1 VA U32
911 0x038F 2 S3h1 VA U32
913 0x0391 2 Reserved - -

Instantaneous fundamental #5


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
920 0x0398 Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
920 0x0398 1 Load status
0 : Disabled
1 : Enabled
- U8
921 0x0399 2 Date of last instance s DATETIME
923 0x039B 1 Integration time s / 5 U16
924 0x039C 2 Ph-N voltage: V1h1 V 10⁻² U32
926 0x039E 2 Ph-N voltage: V2h1 V 10⁻² U32
928 0x03A0 2 Ph-N voltage: V3h1 V 10⁻² U32
930 0x03A2 2 Ph-N voltage: Vnh1 V 10⁻² U32
932 0x03A4 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
933 0x03A5 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
934 0x03A6 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
935 0x03A7 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
936 0x03A8 2 Ph-Ph voltage: U12h1 V 10⁻² U32
938 0x03AA 2 Ph-Ph voltage: U23h1 V 10⁻² U32
940 0x03AC 2 Ph-Ph voltage: U31h1 V 10⁻² U32
942 0x03AE 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
943 0x03AF 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
944 0x03B0 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
945 0x03B1 2 Current: I1h1 mA U32
947 0x03B3 2 Current: I2h1 mA U32
949 0x03B5 2 Current: I3h1 mA U32
951 0x03B7 2 Current: Inh1 mA U32
953 0x03B9 1 Current phase: phI1h1 ° 10⁻¹ S16
954 0x03BA 1 Current phase: phI2h1 ° 10⁻¹ S16
955 0x03BB 1 Current phase: phI3h1 ° 10⁻¹ S16
956 0x03BC 1 Current phase: phInh1 ° 10⁻¹ S16
957 0x03BD 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
958 0x03BE 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
959 0x03BF 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
960 0x03C0 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
961 0x03C1 2 P1h1 W S32
963 0x03C3 2 P2h1 W S32
965 0x03C5 2 P3h1 W S32
967 0x03C7 2 Reserved - -
969 0x03C9 2 Q1h1 var S32
971 0x03CB 2 Q2h1 var S32
973 0x03CD 2 Q3h1 var S32
975 0x03CF 2 Reserved - -
977 0x03D1 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
978 0x03D2 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
979 0x03D3 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
980 0x03D4 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
981 0x03D5 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
982 0x03D6 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
983 0x03D7 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
984 0x03D8 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
985 0x03D9 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
986 0x03DA 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
987 0x03DB 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
988 0x03DC 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
989 0x03DD 1 Curent total harmonic distortion : THD I1 % / 100 U16
990 0x03DE 1 Curent total harmonic distortion : THD I2 % / 100 U16
991 0x03DF 1 Curent total harmonic distortion : THD I3 % / 100 U16
992 0x03E0 1 Curent total harmonic distortion : THD In % / 100 U16
993 0x03E1 1 K-Factor I1 - / 100 U16
994 0x03E2 1 K-Factor I2 - / 100 U16
995 0x03E3 1 K-Factor I3 - / 100 U16
996 0x03E4 1 K-Factor In - / 100 U16
997 0x03E5 1 System THD V % / 100 U16
998 0x03E6 1 System THD U % / 100 U16
999 0x03E7 1 System THD I % / 100 U16
1000 0x03E8 1 Crest factor : I1 - / 1000 U16
1001 0x03E9 1 Crest factor : I2 - / 1000 U16
1002 0x03EA 1 Crest factor : I3 - / 1000 U16
1003 0x03EB 1 Crest factor : In - / 1000 U16
1004 0x03EC 1 Total demand distortion : TDD I1 % / 100 U16
1005 0x03ED 1 Total demand distortion : TDD I2 % / 100 U16
1006 0x03EE 1 Total demand distortion : TDD I3 % / 100 U16
1007 0x03EF 1 Total demand distortion : TDD In % / 100 U16
1008 0x03F0 1 System TDD I % / 100 U16
1009 0x03F1 2 S1h1 VA U32
1011 0x03F3 2 S2h1 VA U32
1013 0x03F5 2 S3h1 VA U32
1015 0x03F7 2 Reserved - -

Instantaneous fundamental #6


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
1022 0x03FE Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
1022 0x03FE 1 Load status
0 : Disabled
1 : Enabled
- U8
1023 0x03FF 2 Date of last instance s DATETIME
1025 0x0401 1 Integration time s / 5 U16
1026 0x0402 2 Ph-N voltage: V1h1 V 10⁻² U32
1028 0x0404 2 Ph-N voltage: V2h1 V 10⁻² U32
1030 0x0406 2 Ph-N voltage: V3h1 V 10⁻² U32
1032 0x0408 2 Ph-N voltage: Vnh1 V 10⁻² U32
1034 0x040A 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
1035 0x040B 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
1036 0x040C 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
1037 0x040D 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
1038 0x040E 2 Ph-Ph voltage: U12h1 V 10⁻² U32
1040 0x0410 2 Ph-Ph voltage: U23h1 V 10⁻² U32
1042 0x0412 2 Ph-Ph voltage: U31h1 V 10⁻² U32
1044 0x0414 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
1045 0x0415 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
1046 0x0416 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
1047 0x0417 2 Current: I1h1 mA U32
1049 0x0419 2 Current: I2h1 mA U32
1051 0x041B 2 Current: I3h1 mA U32
1053 0x041D 2 Current: Inh1 mA U32
1055 0x041F 1 Current phase: phI1h1 ° 10⁻¹ S16
1056 0x0420 1 Current phase: phI2h1 ° 10⁻¹ S16
1057 0x0421 1 Current phase: phI3h1 ° 10⁻¹ S16
1058 0x0422 1 Current phase: phInh1 ° 10⁻¹ S16
1059 0x0423 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
1060 0x0424 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
1061 0x0425 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
1062 0x0426 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
1063 0x0427 2 P1h1 W S32
1065 0x0429 2 P2h1 W S32
1067 0x042B 2 P3h1 W S32
1069 0x042D 2 Reserved - -
1071 0x042F 2 Q1h1 var S32
1073 0x0431 2 Q2h1 var S32
1075 0x0433 2 Q3h1 var S32
1077 0x0435 2 Reserved - -
1079 0x0437 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
1080 0x0438 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
1081 0x0439 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
1082 0x043A 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
1083 0x043B 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
1084 0x043C 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
1085 0x043D 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
1086 0x043E 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
1087 0x043F 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
1088 0x0440 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
1089 0x0441 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
1090 0x0442 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
1091 0x0443 1 Curent total harmonic distortion : THD I1 % / 100 U16
1092 0x0444 1 Curent total harmonic distortion : THD I2 % / 100 U16
1093 0x0445 1 Curent total harmonic distortion : THD I3 % / 100 U16
1094 0x0446 1 Curent total harmonic distortion : THD In % / 100 U16
1095 0x0447 1 K-Factor I1 - / 100 U16
1096 0x0448 1 K-Factor I2 - / 100 U16
1097 0x0449 1 K-Factor I3 - / 100 U16
1098 0x044A 1 K-Factor In - / 100 U16
1099 0x044B 1 System THD V % / 100 U16
1100 0x044C 1 System THD U % / 100 U16
1101 0x044D 1 System THD I % / 100 U16
1102 0x044E 1 Crest factor : I1 - / 1000 U16
1103 0x044F 1 Crest factor : I2 - / 1000 U16
1104 0x0450 1 Crest factor : I3 - / 1000 U16
1105 0x0451 1 Crest factor : In - / 1000 U16
1106 0x0452 1 Total demand distortion : TDD I1 % / 100 U16
1107 0x0453 1 Total demand distortion : TDD I2 % / 100 U16
1108 0x0454 1 Total demand distortion : TDD I3 % / 100 U16
1109 0x0455 1 Total demand distortion : TDD In % / 100 U16
1110 0x0456 1 System TDD I % / 100 U16
1111 0x0457 2 S1h1 VA U32
1113 0x0459 2 S2h1 VA U32
1115 0x045B 2 S3h1 VA U32
1117 0x045D 2 Reserved - -

Instantaneous fundamental #7


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
1124 0x0464 Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
1124 0x0464 1 Load status
0 : Disabled
1 : Enabled
- U8
1125 0x0465 2 Date of last instance s DATETIME
1127 0x0467 1 Integration time s / 5 U16
1128 0x0468 2 Ph-N voltage: V1h1 V 10⁻² U32
1130 0x046A 2 Ph-N voltage: V2h1 V 10⁻² U32
1132 0x046C 2 Ph-N voltage: V3h1 V 10⁻² U32
1134 0x046E 2 Ph-N voltage: Vnh1 V 10⁻² U32
1136 0x0470 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
1137 0x0471 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
1138 0x0472 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
1139 0x0473 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
1140 0x0474 2 Ph-Ph voltage: U12h1 V 10⁻² U32
1142 0x0476 2 Ph-Ph voltage: U23h1 V 10⁻² U32
1144 0x0478 2 Ph-Ph voltage: U31h1 V 10⁻² U32
1146 0x047A 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
1147 0x047B 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
1148 0x047C 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
1149 0x047D 2 Current: I1h1 mA U32
1151 0x047F 2 Current: I2h1 mA U32
1153 0x0481 2 Current: I3h1 mA U32
1155 0x0483 2 Current: Inh1 mA U32
1157 0x0485 1 Current phase: phI1h1 ° 10⁻¹ S16
1158 0x0486 1 Current phase: phI2h1 ° 10⁻¹ S16
1159 0x0487 1 Current phase: phI3h1 ° 10⁻¹ S16
1160 0x0488 1 Current phase: phInh1 ° 10⁻¹ S16
1161 0x0489 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
1162 0x048A 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
1163 0x048B 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
1164 0x048C 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
1165 0x048D 2 P1h1 W S32
1167 0x048F 2 P2h1 W S32
1169 0x0491 2 P3h1 W S32
1171 0x0493 2 Reserved - -
1173 0x0495 2 Q1h1 var S32
1175 0x0497 2 Q2h1 var S32
1177 0x0499 2 Q3h1 var S32
1179 0x049B 2 Reserved - -
1181 0x049D 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
1182 0x049E 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
1183 0x049F 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
1184 0x04A0 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
1185 0x04A1 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
1186 0x04A2 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
1187 0x04A3 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
1188 0x04A4 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
1189 0x04A5 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
1190 0x04A6 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
1191 0x04A7 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
1192 0x04A8 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
1193 0x04A9 1 Curent total harmonic distortion : THD I1 % / 100 U16
1194 0x04AA 1 Curent total harmonic distortion : THD I2 % / 100 U16
1195 0x04AB 1 Curent total harmonic distortion : THD I3 % / 100 U16
1196 0x04AC 1 Curent total harmonic distortion : THD In % / 100 U16
1197 0x04AD 1 K-Factor I1 - / 100 U16
1198 0x04AE 1 K-Factor I2 - / 100 U16
1199 0x04AF 1 K-Factor I3 - / 100 U16
1200 0x04B0 1 K-Factor In - / 100 U16
1201 0x04B1 1 System THD V % / 100 U16
1202 0x04B2 1 System THD U % / 100 U16
1203 0x04B3 1 System THD I % / 100 U16
1204 0x04B4 1 Crest factor : I1 - / 1000 U16
1205 0x04B5 1 Crest factor : I2 - / 1000 U16
1206 0x04B6 1 Crest factor : I3 - / 1000 U16
1207 0x04B7 1 Crest factor : In - / 1000 U16
1208 0x04B8 1 Total demand distortion : TDD I1 % / 100 U16
1209 0x04B9 1 Total demand distortion : TDD I2 % / 100 U16
1210 0x04BA 1 Total demand distortion : TDD I3 % / 100 U16
1211 0x04BB 1 Total demand distortion : TDD In % / 100 U16
1212 0x04BC 1 System TDD I % / 100 U16
1213 0x04BD 2 S1h1 VA U32
1215 0x04BF 2 S2h1 VA U32
1217 0x04C1 2 S3h1 VA U32
1219 0x04C3 2 Reserved - -

Instantaneous fundamental #8


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
1226 0x04CA Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
1226 0x04CA 1 Load status
0 : Disabled
1 : Enabled
- U8
1227 0x04CB 2 Date of last instance s DATETIME
1229 0x04CD 1 Integration time s / 5 U16
1230 0x04CE 2 Ph-N voltage: V1h1 V 10⁻² U32
1232 0x04D0 2 Ph-N voltage: V2h1 V 10⁻² U32
1234 0x04D2 2 Ph-N voltage: V3h1 V 10⁻² U32
1236 0x04D4 2 Ph-N voltage: Vnh1 V 10⁻² U32
1238 0x04D6 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
1239 0x04D7 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
1240 0x04D8 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
1241 0x04D9 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
1242 0x04DA 2 Ph-Ph voltage: U12h1 V 10⁻² U32
1244 0x04DC 2 Ph-Ph voltage: U23h1 V 10⁻² U32
1246 0x04DE 2 Ph-Ph voltage: U31h1 V 10⁻² U32
1248 0x04E0 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
1249 0x04E1 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
1250 0x04E2 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
1251 0x04E3 2 Current: I1h1 mA U32
1253 0x04E5 2 Current: I2h1 mA U32
1255 0x04E7 2 Current: I3h1 mA U32
1257 0x04E9 2 Current: Inh1 mA U32
1259 0x04EB 1 Current phase: phI1h1 ° 10⁻¹ S16
1260 0x04EC 1 Current phase: phI2h1 ° 10⁻¹ S16
1261 0x04ED 1 Current phase: phI3h1 ° 10⁻¹ S16
1262 0x04EE 1 Current phase: phInh1 ° 10⁻¹ S16
1263 0x04EF 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
1264 0x04F0 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
1265 0x04F1 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
1266 0x04F2 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
1267 0x04F3 2 P1h1 W S32
1269 0x04F5 2 P2h1 W S32
1271 0x04F7 2 P3h1 W S32
1273 0x04F9 2 Reserved - -
1275 0x04FB 2 Q1h1 var S32
1277 0x04FD 2 Q2h1 var S32
1279 0x04FF 2 Q3h1 var S32
1281 0x0501 2 Reserved - -
1283 0x0503 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
1284 0x0504 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
1285 0x0505 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
1286 0x0506 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
1287 0x0507 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
1288 0x0508 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
1289 0x0509 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
1290 0x050A 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
1291 0x050B 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
1292 0x050C 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
1293 0x050D 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
1294 0x050E 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
1295 0x050F 1 Curent total harmonic distortion : THD I1 % / 100 U16
1296 0x0510 1 Curent total harmonic distortion : THD I2 % / 100 U16
1297 0x0511 1 Curent total harmonic distortion : THD I3 % / 100 U16
1298 0x0512 1 Curent total harmonic distortion : THD In % / 100 U16
1299 0x0513 1 K-Factor I1 - / 100 U16
1300 0x0514 1 K-Factor I2 - / 100 U16
1301 0x0515 1 K-Factor I3 - / 100 U16
1302 0x0516 1 K-Factor In - / 100 U16
1303 0x0517 1 System THD V % / 100 U16
1304 0x0518 1 System THD U % / 100 U16
1305 0x0519 1 System THD I % / 100 U16
1306 0x051A 1 Crest factor : I1 - / 1000 U16
1307 0x051B 1 Crest factor : I2 - / 1000 U16
1308 0x051C 1 Crest factor : I3 - / 1000 U16
1309 0x051D 1 Crest factor : In - / 1000 U16
1310 0x051E 1 Total demand distortion : TDD I1 % / 100 U16
1311 0x051F 1 Total demand distortion : TDD I2 % / 100 U16
1312 0x0520 1 Total demand distortion : TDD I3 % / 100 U16
1313 0x0521 1 Total demand distortion : TDD In % / 100 U16
1314 0x0522 1 System TDD I % / 100 U16
1315 0x0523 2 S1h1 VA U32
1317 0x0525 2 S2h1 VA U32
1319 0x0527 2 S3h1 VA U32
1321 0x0529 2 Reserved - -

Instantaneous fundamental #9


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
1328 0x0530 Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
1328 0x0530 1 Load status
0 : Disabled
1 : Enabled
- U8
1329 0x0531 2 Date of last instance s DATETIME
1331 0x0533 1 Integration time s / 5 U16
1332 0x0534 2 Ph-N voltage: V1h1 V 10⁻² U32
1334 0x0536 2 Ph-N voltage: V2h1 V 10⁻² U32
1336 0x0538 2 Ph-N voltage: V3h1 V 10⁻² U32
1338 0x053A 2 Ph-N voltage: Vnh1 V 10⁻² U32
1340 0x053C 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
1341 0x053D 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
1342 0x053E 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
1343 0x053F 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
1344 0x0540 2 Ph-Ph voltage: U12h1 V 10⁻² U32
1346 0x0542 2 Ph-Ph voltage: U23h1 V 10⁻² U32
1348 0x0544 2 Ph-Ph voltage: U31h1 V 10⁻² U32
1350 0x0546 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
1351 0x0547 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
1352 0x0548 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
1353 0x0549 2 Current: I1h1 mA U32
1355 0x054B 2 Current: I2h1 mA U32
1357 0x054D 2 Current: I3h1 mA U32
1359 0x054F 2 Current: Inh1 mA U32
1361 0x0551 1 Current phase: phI1h1 ° 10⁻¹ S16
1362 0x0552 1 Current phase: phI2h1 ° 10⁻¹ S16
1363 0x0553 1 Current phase: phI3h1 ° 10⁻¹ S16
1364 0x0554 1 Current phase: phInh1 ° 10⁻¹ S16
1365 0x0555 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
1366 0x0556 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
1367 0x0557 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
1368 0x0558 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
1369 0x0559 2 P1h1 W S32
1371 0x055B 2 P2h1 W S32
1373 0x055D 2 P3h1 W S32
1375 0x055F 2 Reserved - -
1377 0x0561 2 Q1h1 var S32
1379 0x0563 2 Q2h1 var S32
1381 0x0565 2 Q3h1 var S32
1383 0x0567 2 Reserved - -
1385 0x0569 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
1386 0x056A 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
1387 0x056B 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
1388 0x056C 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
1389 0x056D 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
1390 0x056E 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
1391 0x056F 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
1392 0x0570 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
1393 0x0571 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
1394 0x0572 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
1395 0x0573 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
1396 0x0574 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
1397 0x0575 1 Curent total harmonic distortion : THD I1 % / 100 U16
1398 0x0576 1 Curent total harmonic distortion : THD I2 % / 100 U16
1399 0x0577 1 Curent total harmonic distortion : THD I3 % / 100 U16
1400 0x0578 1 Curent total harmonic distortion : THD In % / 100 U16
1401 0x0579 1 K-Factor I1 - / 100 U16
1402 0x057A 1 K-Factor I2 - / 100 U16
1403 0x057B 1 K-Factor I3 - / 100 U16
1404 0x057C 1 K-Factor In - / 100 U16
1405 0x057D 1 System THD V % / 100 U16
1406 0x057E 1 System THD U % / 100 U16
1407 0x057F 1 System THD I % / 100 U16
1408 0x0580 1 Crest factor : I1 - / 1000 U16
1409 0x0581 1 Crest factor : I2 - / 1000 U16
1410 0x0582 1 Crest factor : I3 - / 1000 U16
1411 0x0583 1 Crest factor : In - / 1000 U16
1412 0x0584 1 Total demand distortion : TDD I1 % / 100 U16
1413 0x0585 1 Total demand distortion : TDD I2 % / 100 U16
1414 0x0586 1 Total demand distortion : TDD I3 % / 100 U16
1415 0x0587 1 Total demand distortion : TDD In % / 100 U16
1416 0x0588 1 System TDD I % / 100 U16
1417 0x0589 2 S1h1 VA U32
1419 0x058B 2 S2h1 VA U32
1421 0x058D 2 S3h1 VA U32
1423 0x058F 2 Reserved - -

Instantaneous fundamental #10


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
1430 0x0596 Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
1430 0x0596 1 Load status
0 : Disabled
1 : Enabled
- U8
1431 0x0597 2 Date of last instance s DATETIME
1433 0x0599 1 Integration time s / 5 U16
1434 0x059A 2 Ph-N voltage: V1h1 V 10⁻² U32
1436 0x059C 2 Ph-N voltage: V2h1 V 10⁻² U32
1438 0x059E 2 Ph-N voltage: V3h1 V 10⁻² U32
1440 0x05A0 2 Ph-N voltage: Vnh1 V 10⁻² U32
1442 0x05A2 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
1443 0x05A3 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
1444 0x05A4 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
1445 0x05A5 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
1446 0x05A6 2 Ph-Ph voltage: U12h1 V 10⁻² U32
1448 0x05A8 2 Ph-Ph voltage: U23h1 V 10⁻² U32
1450 0x05AA 2 Ph-Ph voltage: U31h1 V 10⁻² U32
1452 0x05AC 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
1453 0x05AD 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
1454 0x05AE 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
1455 0x05AF 2 Current: I1h1 mA U32
1457 0x05B1 2 Current: I2h1 mA U32
1459 0x05B3 2 Current: I3h1 mA U32
1461 0x05B5 2 Current: Inh1 mA U32
1463 0x05B7 1 Current phase: phI1h1 ° 10⁻¹ S16
1464 0x05B8 1 Current phase: phI2h1 ° 10⁻¹ S16
1465 0x05B9 1 Current phase: phI3h1 ° 10⁻¹ S16
1466 0x05BA 1 Current phase: phInh1 ° 10⁻¹ S16
1467 0x05BB 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
1468 0x05BC 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
1469 0x05BD 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
1470 0x05BE 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
1471 0x05BF 2 P1h1 W S32
1473 0x05C1 2 P2h1 W S32
1475 0x05C3 2 P3h1 W S32
1477 0x05C5 2 Reserved - -
1479 0x05C7 2 Q1h1 var S32
1481 0x05C9 2 Q2h1 var S32
1483 0x05CB 2 Q3h1 var S32
1485 0x05CD 2 Reserved - -
1487 0x05CF 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
1488 0x05D0 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
1489 0x05D1 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
1490 0x05D2 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
1491 0x05D3 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
1492 0x05D4 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
1493 0x05D5 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
1494 0x05D6 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
1495 0x05D7 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
1496 0x05D8 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
1497 0x05D9 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
1498 0x05DA 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
1499 0x05DB 1 Curent total harmonic distortion : THD I1 % / 100 U16
1500 0x05DC 1 Curent total harmonic distortion : THD I2 % / 100 U16
1501 0x05DD 1 Curent total harmonic distortion : THD I3 % / 100 U16
1502 0x05DE 1 Curent total harmonic distortion : THD In % / 100 U16
1503 0x05DF 1 K-Factor I1 - / 100 U16
1504 0x05E0 1 K-Factor I2 - / 100 U16
1505 0x05E1 1 K-Factor I3 - / 100 U16
1506 0x05E2 1 K-Factor In - / 100 U16
1507 0x05E3 1 System THD V % / 100 U16
1508 0x05E4 1 System THD U % / 100 U16
1509 0x05E5 1 System THD I % / 100 U16
1510 0x05E6 1 Crest factor : I1 - / 1000 U16
1511 0x05E7 1 Crest factor : I2 - / 1000 U16
1512 0x05E8 1 Crest factor : I3 - / 1000 U16
1513 0x05E9 1 Crest factor : In - / 1000 U16
1514 0x05EA 1 Total demand distortion : TDD I1 % / 100 U16
1515 0x05EB 1 Total demand distortion : TDD I2 % / 100 U16
1516 0x05EC 1 Total demand distortion : TDD I3 % / 100 U16
1517 0x05ED 1 Total demand distortion : TDD In % / 100 U16
1518 0x05EE 1 System TDD I % / 100 U16
1519 0x05EF 2 S1h1 VA U32
1521 0x05F1 2 S2h1 VA U32
1523 0x05F3 2 S3h1 VA U32
1525 0x05F5 2 Reserved - -

Instantaneous fundamental #11


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
1532 0x05FC Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
1532 0x05FC 1 Load status
0 : Disabled
1 : Enabled
- U8
1533 0x05FD 2 Date of last instance s DATETIME
1535 0x05FF 1 Integration time s / 5 U16
1536 0x0600 2 Ph-N voltage: V1h1 V 10⁻² U32
1538 0x0602 2 Ph-N voltage: V2h1 V 10⁻² U32
1540 0x0604 2 Ph-N voltage: V3h1 V 10⁻² U32
1542 0x0606 2 Ph-N voltage: Vnh1 V 10⁻² U32
1544 0x0608 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
1545 0x0609 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
1546 0x060A 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
1547 0x060B 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
1548 0x060C 2 Ph-Ph voltage: U12h1 V 10⁻² U32
1550 0x060E 2 Ph-Ph voltage: U23h1 V 10⁻² U32
1552 0x0610 2 Ph-Ph voltage: U31h1 V 10⁻² U32
1554 0x0612 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
1555 0x0613 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
1556 0x0614 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
1557 0x0615 2 Current: I1h1 mA U32
1559 0x0617 2 Current: I2h1 mA U32
1561 0x0619 2 Current: I3h1 mA U32
1563 0x061B 2 Current: Inh1 mA U32
1565 0x061D 1 Current phase: phI1h1 ° 10⁻¹ S16
1566 0x061E 1 Current phase: phI2h1 ° 10⁻¹ S16
1567 0x061F 1 Current phase: phI3h1 ° 10⁻¹ S16
1568 0x0620 1 Current phase: phInh1 ° 10⁻¹ S16
1569 0x0621 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
1570 0x0622 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
1571 0x0623 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
1572 0x0624 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
1573 0x0625 2 P1h1 W S32
1575 0x0627 2 P2h1 W S32
1577 0x0629 2 P3h1 W S32
1579 0x062B 2 Reserved - -
1581 0x062D 2 Q1h1 var S32
1583 0x062F 2 Q2h1 var S32
1585 0x0631 2 Q3h1 var S32
1587 0x0633 2 Reserved - -
1589 0x0635 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
1590 0x0636 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
1591 0x0637 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
1592 0x0638 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
1593 0x0639 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
1594 0x063A 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
1595 0x063B 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
1596 0x063C 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
1597 0x063D 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
1598 0x063E 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
1599 0x063F 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
1600 0x0640 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
1601 0x0641 1 Curent total harmonic distortion : THD I1 % / 100 U16
1602 0x0642 1 Curent total harmonic distortion : THD I2 % / 100 U16
1603 0x0643 1 Curent total harmonic distortion : THD I3 % / 100 U16
1604 0x0644 1 Curent total harmonic distortion : THD In % / 100 U16
1605 0x0645 1 K-Factor I1 - / 100 U16
1606 0x0646 1 K-Factor I2 - / 100 U16
1607 0x0647 1 K-Factor I3 - / 100 U16
1608 0x0648 1 K-Factor In - / 100 U16
1609 0x0649 1 System THD V % / 100 U16
1610 0x064A 1 System THD U % / 100 U16
1611 0x064B 1 System THD I % / 100 U16
1612 0x064C 1 Crest factor : I1 - / 1000 U16
1613 0x064D 1 Crest factor : I2 - / 1000 U16
1614 0x064E 1 Crest factor : I3 - / 1000 U16
1615 0x064F 1 Crest factor : In - / 1000 U16
1616 0x0650 1 Total demand distortion : TDD I1 % / 100 U16
1617 0x0651 1 Total demand distortion : TDD I2 % / 100 U16
1618 0x0652 1 Total demand distortion : TDD I3 % / 100 U16
1619 0x0653 1 Total demand distortion : TDD In % / 100 U16
1620 0x0654 1 System TDD I % / 100 U16
1621 0x0655 2 S1h1 VA U32
1623 0x0657 2 S2h1 VA U32
1625 0x0659 2 S3h1 VA U32
1627 0x065B 2 Reserved - -

Instantaneous fundamental #12


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
1634 0x0662 Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
1634 0x0662 1 Load status
0 : Disabled
1 : Enabled
- U8
1635 0x0663 2 Date of last instance s DATETIME
1637 0x0665 1 Integration time s / 5 U16
1638 0x0666 2 Ph-N voltage: V1h1 V 10⁻² U32
1640 0x0668 2 Ph-N voltage: V2h1 V 10⁻² U32
1642 0x066A 2 Ph-N voltage: V3h1 V 10⁻² U32
1644 0x066C 2 Ph-N voltage: Vnh1 V 10⁻² U32
1646 0x066E 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
1647 0x066F 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
1648 0x0670 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
1649 0x0671 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
1650 0x0672 2 Ph-Ph voltage: U12h1 V 10⁻² U32
1652 0x0674 2 Ph-Ph voltage: U23h1 V 10⁻² U32
1654 0x0676 2 Ph-Ph voltage: U31h1 V 10⁻² U32
1656 0x0678 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
1657 0x0679 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
1658 0x067A 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
1659 0x067B 2 Current: I1h1 mA U32
1661 0x067D 2 Current: I2h1 mA U32
1663 0x067F 2 Current: I3h1 mA U32
1665 0x0681 2 Current: Inh1 mA U32
1667 0x0683 1 Current phase: phI1h1 ° 10⁻¹ S16
1668 0x0684 1 Current phase: phI2h1 ° 10⁻¹ S16
1669 0x0685 1 Current phase: phI3h1 ° 10⁻¹ S16
1670 0x0686 1 Current phase: phInh1 ° 10⁻¹ S16
1671 0x0687 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
1672 0x0688 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
1673 0x0689 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
1674 0x068A 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
1675 0x068B 2 P1h1 W S32
1677 0x068D 2 P2h1 W S32
1679 0x068F 2 P3h1 W S32
1681 0x0691 2 Reserved - -
1683 0x0693 2 Q1h1 var S32
1685 0x0695 2 Q2h1 var S32
1687 0x0697 2 Q3h1 var S32
1689 0x0699 2 Reserved - -
1691 0x069B 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
1692 0x069C 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
1693 0x069D 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
1694 0x069E 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
1695 0x069F 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
1696 0x06A0 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
1697 0x06A1 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
1698 0x06A2 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
1699 0x06A3 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
1700 0x06A4 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
1701 0x06A5 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
1702 0x06A6 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
1703 0x06A7 1 Curent total harmonic distortion : THD I1 % / 100 U16
1704 0x06A8 1 Curent total harmonic distortion : THD I2 % / 100 U16
1705 0x06A9 1 Curent total harmonic distortion : THD I3 % / 100 U16
1706 0x06AA 1 Curent total harmonic distortion : THD In % / 100 U16
1707 0x06AB 1 K-Factor I1 - / 100 U16
1708 0x06AC 1 K-Factor I2 - / 100 U16
1709 0x06AD 1 K-Factor I3 - / 100 U16
1710 0x06AE 1 K-Factor In - / 100 U16
1711 0x06AF 1 System THD V % / 100 U16
1712 0x06B0 1 System THD U % / 100 U16
1713 0x06B1 1 System THD I % / 100 U16
1714 0x06B2 1 Crest factor : I1 - / 1000 U16
1715 0x06B3 1 Crest factor : I2 - / 1000 U16
1716 0x06B4 1 Crest factor : I3 - / 1000 U16
1717 0x06B5 1 Crest factor : In - / 1000 U16
1718 0x06B6 1 Total demand distortion : TDD I1 % / 100 U16
1719 0x06B7 1 Total demand distortion : TDD I2 % / 100 U16
1720 0x06B8 1 Total demand distortion : TDD I3 % / 100 U16
1721 0x06B9 1 Total demand distortion : TDD In % / 100 U16
1722 0x06BA 1 System TDD I % / 100 U16
1723 0x06BB 2 S1h1 VA U32
1725 0x06BD 2 S2h1 VA U32
1727 0x06BF 2 S3h1 VA U32
1729 0x06C1 2 Reserved - -

Instantaneous fundamental #13


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
1736 0x06C8 Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
1736 0x06C8 1 Load status
0 : Disabled
1 : Enabled
- U8
1737 0x06C9 2 Date of last instance s DATETIME
1739 0x06CB 1 Integration time s / 5 U16
1740 0x06CC 2 Ph-N voltage: V1h1 V 10⁻² U32
1742 0x06CE 2 Ph-N voltage: V2h1 V 10⁻² U32
1744 0x06D0 2 Ph-N voltage: V3h1 V 10⁻² U32
1746 0x06D2 2 Ph-N voltage: Vnh1 V 10⁻² U32
1748 0x06D4 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
1749 0x06D5 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
1750 0x06D6 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
1751 0x06D7 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
1752 0x06D8 2 Ph-Ph voltage: U12h1 V 10⁻² U32
1754 0x06DA 2 Ph-Ph voltage: U23h1 V 10⁻² U32
1756 0x06DC 2 Ph-Ph voltage: U31h1 V 10⁻² U32
1758 0x06DE 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
1759 0x06DF 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
1760 0x06E0 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
1761 0x06E1 2 Current: I1h1 mA U32
1763 0x06E3 2 Current: I2h1 mA U32
1765 0x06E5 2 Current: I3h1 mA U32
1767 0x06E7 2 Current: Inh1 mA U32
1769 0x06E9 1 Current phase: phI1h1 ° 10⁻¹ S16
1770 0x06EA 1 Current phase: phI2h1 ° 10⁻¹ S16
1771 0x06EB 1 Current phase: phI3h1 ° 10⁻¹ S16
1772 0x06EC 1 Current phase: phInh1 ° 10⁻¹ S16
1773 0x06ED 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
1774 0x06EE 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
1775 0x06EF 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
1776 0x06F0 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
1777 0x06F1 2 P1h1 W S32
1779 0x06F3 2 P2h1 W S32
1781 0x06F5 2 P3h1 W S32
1783 0x06F7 2 Reserved - -
1785 0x06F9 2 Q1h1 var S32
1787 0x06FB 2 Q2h1 var S32
1789 0x06FD 2 Q3h1 var S32
1791 0x06FF 2 Reserved - -
1793 0x0701 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
1794 0x0702 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
1795 0x0703 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
1796 0x0704 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
1797 0x0705 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
1798 0x0706 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
1799 0x0707 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
1800 0x0708 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
1801 0x0709 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
1802 0x070A 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
1803 0x070B 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
1804 0x070C 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
1805 0x070D 1 Curent total harmonic distortion : THD I1 % / 100 U16
1806 0x070E 1 Curent total harmonic distortion : THD I2 % / 100 U16
1807 0x070F 1 Curent total harmonic distortion : THD I3 % / 100 U16
1808 0x0710 1 Curent total harmonic distortion : THD In % / 100 U16
1809 0x0711 1 K-Factor I1 - / 100 U16
1810 0x0712 1 K-Factor I2 - / 100 U16
1811 0x0713 1 K-Factor I3 - / 100 U16
1812 0x0714 1 K-Factor In - / 100 U16
1813 0x0715 1 System THD V % / 100 U16
1814 0x0716 1 System THD U % / 100 U16
1815 0x0717 1 System THD I % / 100 U16
1816 0x0718 1 Crest factor : I1 - / 1000 U16
1817 0x0719 1 Crest factor : I2 - / 1000 U16
1818 0x071A 1 Crest factor : I3 - / 1000 U16
1819 0x071B 1 Crest factor : In - / 1000 U16
1820 0x071C 1 Total demand distortion : TDD I1 % / 100 U16
1821 0x071D 1 Total demand distortion : TDD I2 % / 100 U16
1822 0x071E 1 Total demand distortion : TDD I3 % / 100 U16
1823 0x071F 1 Total demand distortion : TDD In % / 100 U16
1824 0x0720 1 System TDD I % / 100 U16
1825 0x0721 2 S1h1 VA U32
1827 0x0723 2 S2h1 VA U32
1829 0x0725 2 S3h1 VA U32
1831 0x0727 2 Reserved - -

Instantaneous fundamental #14


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
1838 0x072E Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
1838 0x072E 1 Load status
0 : Disabled
1 : Enabled
- U8
1839 0x072F 2 Date of last instance s DATETIME
1841 0x0731 1 Integration time s / 5 U16
1842 0x0732 2 Ph-N voltage: V1h1 V 10⁻² U32
1844 0x0734 2 Ph-N voltage: V2h1 V 10⁻² U32
1846 0x0736 2 Ph-N voltage: V3h1 V 10⁻² U32
1848 0x0738 2 Ph-N voltage: Vnh1 V 10⁻² U32
1850 0x073A 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
1851 0x073B 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
1852 0x073C 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
1853 0x073D 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
1854 0x073E 2 Ph-Ph voltage: U12h1 V 10⁻² U32
1856 0x0740 2 Ph-Ph voltage: U23h1 V 10⁻² U32
1858 0x0742 2 Ph-Ph voltage: U31h1 V 10⁻² U32
1860 0x0744 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
1861 0x0745 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
1862 0x0746 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
1863 0x0747 2 Current: I1h1 mA U32
1865 0x0749 2 Current: I2h1 mA U32
1867 0x074B 2 Current: I3h1 mA U32
1869 0x074D 2 Current: Inh1 mA U32
1871 0x074F 1 Current phase: phI1h1 ° 10⁻¹ S16
1872 0x0750 1 Current phase: phI2h1 ° 10⁻¹ S16
1873 0x0751 1 Current phase: phI3h1 ° 10⁻¹ S16
1874 0x0752 1 Current phase: phInh1 ° 10⁻¹ S16
1875 0x0753 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
1876 0x0754 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
1877 0x0755 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
1878 0x0756 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
1879 0x0757 2 P1h1 W S32
1881 0x0759 2 P2h1 W S32
1883 0x075B 2 P3h1 W S32
1885 0x075D 2 Reserved - -
1887 0x075F 2 Q1h1 var S32
1889 0x0761 2 Q2h1 var S32
1891 0x0763 2 Q3h1 var S32
1893 0x0765 2 Reserved - -
1895 0x0767 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
1896 0x0768 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
1897 0x0769 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
1898 0x076A 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
1899 0x076B 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
1900 0x076C 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
1901 0x076D 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
1902 0x076E 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
1903 0x076F 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
1904 0x0770 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
1905 0x0771 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
1906 0x0772 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
1907 0x0773 1 Curent total harmonic distortion : THD I1 % / 100 U16
1908 0x0774 1 Curent total harmonic distortion : THD I2 % / 100 U16
1909 0x0775 1 Curent total harmonic distortion : THD I3 % / 100 U16
1910 0x0776 1 Curent total harmonic distortion : THD In % / 100 U16
1911 0x0777 1 K-Factor I1 - / 100 U16
1912 0x0778 1 K-Factor I2 - / 100 U16
1913 0x0779 1 K-Factor I3 - / 100 U16
1914 0x077A 1 K-Factor In - / 100 U16
1915 0x077B 1 System THD V % / 100 U16
1916 0x077C 1 System THD U % / 100 U16
1917 0x077D 1 System THD I % / 100 U16
1918 0x077E 1 Crest factor : I1 - / 1000 U16
1919 0x077F 1 Crest factor : I2 - / 1000 U16
1920 0x0780 1 Crest factor : I3 - / 1000 U16
1921 0x0781 1 Crest factor : In - / 1000 U16
1922 0x0782 1 Total demand distortion : TDD I1 % / 100 U16
1923 0x0783 1 Total demand distortion : TDD I2 % / 100 U16
1924 0x0784 1 Total demand distortion : TDD I3 % / 100 U16
1925 0x0785 1 Total demand distortion : TDD In % / 100 U16
1926 0x0786 1 System TDD I % / 100 U16
1927 0x0787 2 S1h1 VA U32
1929 0x0789 2 S2h1 VA U32
1931 0x078B 2 S3h1 VA U32
1933 0x078D 2 Reserved - -

Instantaneous fundamental #15


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
1940 0x0794 Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
1940 0x0794 1 Load status
0 : Disabled
1 : Enabled
- U8
1941 0x0795 2 Date of last instance s DATETIME
1943 0x0797 1 Integration time s / 5 U16
1944 0x0798 2 Ph-N voltage: V1h1 V 10⁻² U32
1946 0x079A 2 Ph-N voltage: V2h1 V 10⁻² U32
1948 0x079C 2 Ph-N voltage: V3h1 V 10⁻² U32
1950 0x079E 2 Ph-N voltage: Vnh1 V 10⁻² U32
1952 0x07A0 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
1953 0x07A1 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
1954 0x07A2 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
1955 0x07A3 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
1956 0x07A4 2 Ph-Ph voltage: U12h1 V 10⁻² U32
1958 0x07A6 2 Ph-Ph voltage: U23h1 V 10⁻² U32
1960 0x07A8 2 Ph-Ph voltage: U31h1 V 10⁻² U32
1962 0x07AA 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
1963 0x07AB 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
1964 0x07AC 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
1965 0x07AD 2 Current: I1h1 mA U32
1967 0x07AF 2 Current: I2h1 mA U32
1969 0x07B1 2 Current: I3h1 mA U32
1971 0x07B3 2 Current: Inh1 mA U32
1973 0x07B5 1 Current phase: phI1h1 ° 10⁻¹ S16
1974 0x07B6 1 Current phase: phI2h1 ° 10⁻¹ S16
1975 0x07B7 1 Current phase: phI3h1 ° 10⁻¹ S16
1976 0x07B8 1 Current phase: phInh1 ° 10⁻¹ S16
1977 0x07B9 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
1978 0x07BA 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
1979 0x07BB 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
1980 0x07BC 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
1981 0x07BD 2 P1h1 W S32
1983 0x07BF 2 P2h1 W S32
1985 0x07C1 2 P3h1 W S32
1987 0x07C3 2 Reserved - -
1989 0x07C5 2 Q1h1 var S32
1991 0x07C7 2 Q2h1 var S32
1993 0x07C9 2 Q3h1 var S32
1995 0x07CB 2 Reserved - -
1997 0x07CD 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
1998 0x07CE 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
1999 0x07CF 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
2000 0x07D0 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
2001 0x07D1 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
2002 0x07D2 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
2003 0x07D3 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
2004 0x07D4 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
2005 0x07D5 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
2006 0x07D6 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
2007 0x07D7 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
2008 0x07D8 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
2009 0x07D9 1 Curent total harmonic distortion : THD I1 % / 100 U16
2010 0x07DA 1 Curent total harmonic distortion : THD I2 % / 100 U16
2011 0x07DB 1 Curent total harmonic distortion : THD I3 % / 100 U16
2012 0x07DC 1 Curent total harmonic distortion : THD In % / 100 U16
2013 0x07DD 1 K-Factor I1 - / 100 U16
2014 0x07DE 1 K-Factor I2 - / 100 U16
2015 0x07DF 1 K-Factor I3 - / 100 U16
2016 0x07E0 1 K-Factor In - / 100 U16
2017 0x07E1 1 System THD V % / 100 U16
2018 0x07E2 1 System THD U % / 100 U16
2019 0x07E3 1 System THD I % / 100 U16
2020 0x07E4 1 Crest factor : I1 - / 1000 U16
2021 0x07E5 1 Crest factor : I2 - / 1000 U16
2022 0x07E6 1 Crest factor : I3 - / 1000 U16
2023 0x07E7 1 Crest factor : In - / 1000 U16
2024 0x07E8 1 Total demand distortion : TDD I1 % / 100 U16
2025 0x07E9 1 Total demand distortion : TDD I2 % / 100 U16
2026 0x07EA 1 Total demand distortion : TDD I3 % / 100 U16
2027 0x07EB 1 Total demand distortion : TDD In % / 100 U16
2028 0x07EC 1 System TDD I % / 100 U16
2029 0x07ED 2 S1h1 VA U32
2031 0x07EF 2 S2h1 VA U32
2033 0x07F1 2 S3h1 VA U32
2035 0x07F3 2 Reserved - -

Instantaneous fundamental #16


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
2042 0x07FA Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
2042 0x07FA 1 Load status
0 : Disabled
1 : Enabled
- U8
2043 0x07FB 2 Date of last instance s DATETIME
2045 0x07FD 1 Integration time s / 5 U16
2046 0x07FE 2 Ph-N voltage: V1h1 V 10⁻² U32
2048 0x0800 2 Ph-N voltage: V2h1 V 10⁻² U32
2050 0x0802 2 Ph-N voltage: V3h1 V 10⁻² U32
2052 0x0804 2 Ph-N voltage: Vnh1 V 10⁻² U32
2054 0x0806 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
2055 0x0807 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
2056 0x0808 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
2057 0x0809 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
2058 0x080A 2 Ph-Ph voltage: U12h1 V 10⁻² U32
2060 0x080C 2 Ph-Ph voltage: U23h1 V 10⁻² U32
2062 0x080E 2 Ph-Ph voltage: U31h1 V 10⁻² U32
2064 0x0810 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
2065 0x0811 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
2066 0x0812 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
2067 0x0813 2 Current: I1h1 mA U32
2069 0x0815 2 Current: I2h1 mA U32
2071 0x0817 2 Current: I3h1 mA U32
2073 0x0819 2 Current: Inh1 mA U32
2075 0x081B 1 Current phase: phI1h1 ° 10⁻¹ S16
2076 0x081C 1 Current phase: phI2h1 ° 10⁻¹ S16
2077 0x081D 1 Current phase: phI3h1 ° 10⁻¹ S16
2078 0x081E 1 Current phase: phInh1 ° 10⁻¹ S16
2079 0x081F 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
2080 0x0820 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
2081 0x0821 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
2082 0x0822 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
2083 0x0823 2 P1h1 W S32
2085 0x0825 2 P2h1 W S32
2087 0x0827 2 P3h1 W S32
2089 0x0829 2 Reserved - -
2091 0x082B 2 Q1h1 var S32
2093 0x082D 2 Q2h1 var S32
2095 0x082F 2 Q3h1 var S32
2097 0x0831 2 Reserved - -
2099 0x0833 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
2100 0x0834 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
2101 0x0835 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
2102 0x0836 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
2103 0x0837 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
2104 0x0838 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
2105 0x0839 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
2106 0x083A 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
2107 0x083B 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
2108 0x083C 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
2109 0x083D 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
2110 0x083E 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
2111 0x083F 1 Curent total harmonic distortion : THD I1 % / 100 U16
2112 0x0840 1 Curent total harmonic distortion : THD I2 % / 100 U16
2113 0x0841 1 Curent total harmonic distortion : THD I3 % / 100 U16
2114 0x0842 1 Curent total harmonic distortion : THD In % / 100 U16
2115 0x0843 1 K-Factor I1 - / 100 U16
2116 0x0844 1 K-Factor I2 - / 100 U16
2117 0x0845 1 K-Factor I3 - / 100 U16
2118 0x0846 1 K-Factor In - / 100 U16
2119 0x0847 1 System THD V % / 100 U16
2120 0x0848 1 System THD U % / 100 U16
2121 0x0849 1 System THD I % / 100 U16
2122 0x084A 1 Crest factor : I1 - / 1000 U16
2123 0x084B 1 Crest factor : I2 - / 1000 U16
2124 0x084C 1 Crest factor : I3 - / 1000 U16
2125 0x084D 1 Crest factor : In - / 1000 U16
2126 0x084E 1 Total demand distortion : TDD I1 % / 100 U16
2127 0x084F 1 Total demand distortion : TDD I2 % / 100 U16
2128 0x0850 1 Total demand distortion : TDD I3 % / 100 U16
2129 0x0851 1 Total demand distortion : TDD In % / 100 U16
2130 0x0852 1 System TDD I % / 100 U16
2131 0x0853 2 S1h1 VA U32
2133 0x0855 2 S2h1 VA U32
2135 0x0857 2 S3h1 VA U32
2137 0x0859 2 Reserved - -

Instantaneous fundamental #17


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
2144 0x0860 Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
2144 0x0860 1 Load status
0 : Disabled
1 : Enabled
- U8
2145 0x0861 2 Date of last instance s DATETIME
2147 0x0863 1 Integration time s / 5 U16
2148 0x0864 2 Ph-N voltage: V1h1 V 10⁻² U32
2150 0x0866 2 Ph-N voltage: V2h1 V 10⁻² U32
2152 0x0868 2 Ph-N voltage: V3h1 V 10⁻² U32
2154 0x086A 2 Ph-N voltage: Vnh1 V 10⁻² U32
2156 0x086C 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
2157 0x086D 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
2158 0x086E 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
2159 0x086F 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
2160 0x0870 2 Ph-Ph voltage: U12h1 V 10⁻² U32
2162 0x0872 2 Ph-Ph voltage: U23h1 V 10⁻² U32
2164 0x0874 2 Ph-Ph voltage: U31h1 V 10⁻² U32
2166 0x0876 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
2167 0x0877 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
2168 0x0878 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
2169 0x0879 2 Current: I1h1 mA U32
2171 0x087B 2 Current: I2h1 mA U32
2173 0x087D 2 Current: I3h1 mA U32
2175 0x087F 2 Current: Inh1 mA U32
2177 0x0881 1 Current phase: phI1h1 ° 10⁻¹ S16
2178 0x0882 1 Current phase: phI2h1 ° 10⁻¹ S16
2179 0x0883 1 Current phase: phI3h1 ° 10⁻¹ S16
2180 0x0884 1 Current phase: phInh1 ° 10⁻¹ S16
2181 0x0885 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
2182 0x0886 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
2183 0x0887 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
2184 0x0888 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
2185 0x0889 2 P1h1 W S32
2187 0x088B 2 P2h1 W S32
2189 0x088D 2 P3h1 W S32
2191 0x088F 2 Reserved - -
2193 0x0891 2 Q1h1 var S32
2195 0x0893 2 Q2h1 var S32
2197 0x0895 2 Q3h1 var S32
2199 0x0897 2 Reserved - -
2201 0x0899 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
2202 0x089A 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
2203 0x089B 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
2204 0x089C 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
2205 0x089D 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
2206 0x089E 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
2207 0x089F 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
2208 0x08A0 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
2209 0x08A1 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
2210 0x08A2 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
2211 0x08A3 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
2212 0x08A4 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
2213 0x08A5 1 Curent total harmonic distortion : THD I1 % / 100 U16
2214 0x08A6 1 Curent total harmonic distortion : THD I2 % / 100 U16
2215 0x08A7 1 Curent total harmonic distortion : THD I3 % / 100 U16
2216 0x08A8 1 Curent total harmonic distortion : THD In % / 100 U16
2217 0x08A9 1 K-Factor I1 - / 100 U16
2218 0x08AA 1 K-Factor I2 - / 100 U16
2219 0x08AB 1 K-Factor I3 - / 100 U16
2220 0x08AC 1 K-Factor In - / 100 U16
2221 0x08AD 1 System THD V % / 100 U16
2222 0x08AE 1 System THD U % / 100 U16
2223 0x08AF 1 System THD I % / 100 U16
2224 0x08B0 1 Crest factor : I1 - / 1000 U16
2225 0x08B1 1 Crest factor : I2 - / 1000 U16
2226 0x08B2 1 Crest factor : I3 - / 1000 U16
2227 0x08B3 1 Crest factor : In - / 1000 U16
2228 0x08B4 1 Total demand distortion : TDD I1 % / 100 U16
2229 0x08B5 1 Total demand distortion : TDD I2 % / 100 U16
2230 0x08B6 1 Total demand distortion : TDD I3 % / 100 U16
2231 0x08B7 1 Total demand distortion : TDD In % / 100 U16
2232 0x08B8 1 System TDD I % / 100 U16
2233 0x08B9 2 S1h1 VA U32
2235 0x08BB 2 S2h1 VA U32
2237 0x08BD 2 S3h1 VA U32
2239 0x08BF 2 Reserved - -

Instantaneous fundamental #18


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
2246 0x08C6 Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
2246 0x08C6 1 Load status
0 : Disabled
1 : Enabled
- U8
2247 0x08C7 2 Date of last instance s DATETIME
2249 0x08C9 1 Integration time s / 5 U16
2250 0x08CA 2 Ph-N voltage: V1h1 V 10⁻² U32
2252 0x08CC 2 Ph-N voltage: V2h1 V 10⁻² U32
2254 0x08CE 2 Ph-N voltage: V3h1 V 10⁻² U32
2256 0x08D0 2 Ph-N voltage: Vnh1 V 10⁻² U32
2258 0x08D2 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
2259 0x08D3 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
2260 0x08D4 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
2261 0x08D5 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
2262 0x08D6 2 Ph-Ph voltage: U12h1 V 10⁻² U32
2264 0x08D8 2 Ph-Ph voltage: U23h1 V 10⁻² U32
2266 0x08DA 2 Ph-Ph voltage: U31h1 V 10⁻² U32
2268 0x08DC 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
2269 0x08DD 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
2270 0x08DE 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
2271 0x08DF 2 Current: I1h1 mA U32
2273 0x08E1 2 Current: I2h1 mA U32
2275 0x08E3 2 Current: I3h1 mA U32
2277 0x08E5 2 Current: Inh1 mA U32
2279 0x08E7 1 Current phase: phI1h1 ° 10⁻¹ S16
2280 0x08E8 1 Current phase: phI2h1 ° 10⁻¹ S16
2281 0x08E9 1 Current phase: phI3h1 ° 10⁻¹ S16
2282 0x08EA 1 Current phase: phInh1 ° 10⁻¹ S16
2283 0x08EB 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
2284 0x08EC 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
2285 0x08ED 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
2286 0x08EE 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
2287 0x08EF 2 P1h1 W S32
2289 0x08F1 2 P2h1 W S32
2291 0x08F3 2 P3h1 W S32
2293 0x08F5 2 Reserved - -
2295 0x08F7 2 Q1h1 var S32
2297 0x08F9 2 Q2h1 var S32
2299 0x08FB 2 Q3h1 var S32
2301 0x08FD 2 Reserved - -
2303 0x08FF 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
2304 0x0900 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
2305 0x0901 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
2306 0x0902 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
2307 0x0903 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
2308 0x0904 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
2309 0x0905 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
2310 0x0906 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
2311 0x0907 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
2312 0x0908 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
2313 0x0909 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
2314 0x090A 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
2315 0x090B 1 Curent total harmonic distortion : THD I1 % / 100 U16
2316 0x090C 1 Curent total harmonic distortion : THD I2 % / 100 U16
2317 0x090D 1 Curent total harmonic distortion : THD I3 % / 100 U16
2318 0x090E 1 Curent total harmonic distortion : THD In % / 100 U16
2319 0x090F 1 K-Factor I1 - / 100 U16
2320 0x0910 1 K-Factor I2 - / 100 U16
2321 0x0911 1 K-Factor I3 - / 100 U16
2322 0x0912 1 K-Factor In - / 100 U16
2323 0x0913 1 System THD V % / 100 U16
2324 0x0914 1 System THD U % / 100 U16
2325 0x0915 1 System THD I % / 100 U16
2326 0x0916 1 Crest factor : I1 - / 1000 U16
2327 0x0917 1 Crest factor : I2 - / 1000 U16
2328 0x0918 1 Crest factor : I3 - / 1000 U16
2329 0x0919 1 Crest factor : In - / 1000 U16
2330 0x091A 1 Total demand distortion : TDD I1 % / 100 U16
2331 0x091B 1 Total demand distortion : TDD I2 % / 100 U16
2332 0x091C 1 Total demand distortion : TDD I3 % / 100 U16
2333 0x091D 1 Total demand distortion : TDD In % / 100 U16
2334 0x091E 1 System TDD I % / 100 U16
2335 0x091F 2 S1h1 VA U32
2337 0x0921 2 S2h1 VA U32
2339 0x0923 2 S3h1 VA U32
2341 0x0925 2 Reserved - -

Instantaneous fundamental #19


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
2348 0x092C Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
2348 0x092C 1 Load status
0 : Disabled
1 : Enabled
- U8
2349 0x092D 2 Date of last instance s DATETIME
2351 0x092F 1 Integration time s / 5 U16
2352 0x0930 2 Ph-N voltage: V1h1 V 10⁻² U32
2354 0x0932 2 Ph-N voltage: V2h1 V 10⁻² U32
2356 0x0934 2 Ph-N voltage: V3h1 V 10⁻² U32
2358 0x0936 2 Ph-N voltage: Vnh1 V 10⁻² U32
2360 0x0938 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
2361 0x0939 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
2362 0x093A 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
2363 0x093B 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
2364 0x093C 2 Ph-Ph voltage: U12h1 V 10⁻² U32
2366 0x093E 2 Ph-Ph voltage: U23h1 V 10⁻² U32
2368 0x0940 2 Ph-Ph voltage: U31h1 V 10⁻² U32
2370 0x0942 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
2371 0x0943 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
2372 0x0944 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
2373 0x0945 2 Current: I1h1 mA U32
2375 0x0947 2 Current: I2h1 mA U32
2377 0x0949 2 Current: I3h1 mA U32
2379 0x094B 2 Current: Inh1 mA U32
2381 0x094D 1 Current phase: phI1h1 ° 10⁻¹ S16
2382 0x094E 1 Current phase: phI2h1 ° 10⁻¹ S16
2383 0x094F 1 Current phase: phI3h1 ° 10⁻¹ S16
2384 0x0950 1 Current phase: phInh1 ° 10⁻¹ S16
2385 0x0951 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
2386 0x0952 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
2387 0x0953 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
2388 0x0954 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
2389 0x0955 2 P1h1 W S32
2391 0x0957 2 P2h1 W S32
2393 0x0959 2 P3h1 W S32
2395 0x095B 2 Reserved - -
2397 0x095D 2 Q1h1 var S32
2399 0x095F 2 Q2h1 var S32
2401 0x0961 2 Q3h1 var S32
2403 0x0963 2 Reserved - -
2405 0x0965 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
2406 0x0966 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
2407 0x0967 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
2408 0x0968 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
2409 0x0969 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
2410 0x096A 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
2411 0x096B 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
2412 0x096C 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
2413 0x096D 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
2414 0x096E 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
2415 0x096F 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
2416 0x0970 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
2417 0x0971 1 Curent total harmonic distortion : THD I1 % / 100 U16
2418 0x0972 1 Curent total harmonic distortion : THD I2 % / 100 U16
2419 0x0973 1 Curent total harmonic distortion : THD I3 % / 100 U16
2420 0x0974 1 Curent total harmonic distortion : THD In % / 100 U16
2421 0x0975 1 K-Factor I1 - / 100 U16
2422 0x0976 1 K-Factor I2 - / 100 U16
2423 0x0977 1 K-Factor I3 - / 100 U16
2424 0x0978 1 K-Factor In - / 100 U16
2425 0x0979 1 System THD V % / 100 U16
2426 0x097A 1 System THD U % / 100 U16
2427 0x097B 1 System THD I % / 100 U16
2428 0x097C 1 Crest factor : I1 - / 1000 U16
2429 0x097D 1 Crest factor : I2 - / 1000 U16
2430 0x097E 1 Crest factor : I3 - / 1000 U16
2431 0x097F 1 Crest factor : In - / 1000 U16
2432 0x0980 1 Total demand distortion : TDD I1 % / 100 U16
2433 0x0981 1 Total demand distortion : TDD I2 % / 100 U16
2434 0x0982 1 Total demand distortion : TDD I3 % / 100 U16
2435 0x0983 1 Total demand distortion : TDD In % / 100 U16
2436 0x0984 1 System TDD I % / 100 U16
2437 0x0985 2 S1h1 VA U32
2439 0x0987 2 S2h1 VA U32
2441 0x0989 2 S3h1 VA U32
2443 0x098B 2 Reserved - -

Instantaneous fundamental #20


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
2450 0x0992 Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
2450 0x0992 1 Load status
0 : Disabled
1 : Enabled
- U8
2451 0x0993 2 Date of last instance s DATETIME
2453 0x0995 1 Integration time s / 5 U16
2454 0x0996 2 Ph-N voltage: V1h1 V 10⁻² U32
2456 0x0998 2 Ph-N voltage: V2h1 V 10⁻² U32
2458 0x099A 2 Ph-N voltage: V3h1 V 10⁻² U32
2460 0x099C 2 Ph-N voltage: Vnh1 V 10⁻² U32
2462 0x099E 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
2463 0x099F 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
2464 0x09A0 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
2465 0x09A1 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
2466 0x09A2 2 Ph-Ph voltage: U12h1 V 10⁻² U32
2468 0x09A4 2 Ph-Ph voltage: U23h1 V 10⁻² U32
2470 0x09A6 2 Ph-Ph voltage: U31h1 V 10⁻² U32
2472 0x09A8 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
2473 0x09A9 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
2474 0x09AA 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
2475 0x09AB 2 Current: I1h1 mA U32
2477 0x09AD 2 Current: I2h1 mA U32
2479 0x09AF 2 Current: I3h1 mA U32
2481 0x09B1 2 Current: Inh1 mA U32
2483 0x09B3 1 Current phase: phI1h1 ° 10⁻¹ S16
2484 0x09B4 1 Current phase: phI2h1 ° 10⁻¹ S16
2485 0x09B5 1 Current phase: phI3h1 ° 10⁻¹ S16
2486 0x09B6 1 Current phase: phInh1 ° 10⁻¹ S16
2487 0x09B7 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
2488 0x09B8 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
2489 0x09B9 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
2490 0x09BA 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
2491 0x09BB 2 P1h1 W S32
2493 0x09BD 2 P2h1 W S32
2495 0x09BF 2 P3h1 W S32
2497 0x09C1 2 Reserved - -
2499 0x09C3 2 Q1h1 var S32
2501 0x09C5 2 Q2h1 var S32
2503 0x09C7 2 Q3h1 var S32
2505 0x09C9 2 Reserved - -
2507 0x09CB 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
2508 0x09CC 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
2509 0x09CD 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
2510 0x09CE 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
2511 0x09CF 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
2512 0x09D0 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
2513 0x09D1 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
2514 0x09D2 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
2515 0x09D3 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
2516 0x09D4 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
2517 0x09D5 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
2518 0x09D6 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
2519 0x09D7 1 Curent total harmonic distortion : THD I1 % / 100 U16
2520 0x09D8 1 Curent total harmonic distortion : THD I2 % / 100 U16
2521 0x09D9 1 Curent total harmonic distortion : THD I3 % / 100 U16
2522 0x09DA 1 Curent total harmonic distortion : THD In % / 100 U16
2523 0x09DB 1 K-Factor I1 - / 100 U16
2524 0x09DC 1 K-Factor I2 - / 100 U16
2525 0x09DD 1 K-Factor I3 - / 100 U16
2526 0x09DE 1 K-Factor In - / 100 U16
2527 0x09DF 1 System THD V % / 100 U16
2528 0x09E0 1 System THD U % / 100 U16
2529 0x09E1 1 System THD I % / 100 U16
2530 0x09E2 1 Crest factor : I1 - / 1000 U16
2531 0x09E3 1 Crest factor : I2 - / 1000 U16
2532 0x09E4 1 Crest factor : I3 - / 1000 U16
2533 0x09E5 1 Crest factor : In - / 1000 U16
2534 0x09E6 1 Total demand distortion : TDD I1 % / 100 U16
2535 0x09E7 1 Total demand distortion : TDD I2 % / 100 U16
2536 0x09E8 1 Total demand distortion : TDD I3 % / 100 U16
2537 0x09E9 1 Total demand distortion : TDD In % / 100 U16
2538 0x09EA 1 System TDD I % / 100 U16
2539 0x09EB 2 S1h1 VA U32
2541 0x09ED 2 S2h1 VA U32
2543 0x09EF 2 S3h1 VA U32
2545 0x09F1 2 Reserved - -

Instantaneous fundamental #21


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
2552 0x09F8 Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
2552 0x09F8 1 Load status
0 : Disabled
1 : Enabled
- U8
2553 0x09F9 2 Date of last instance s DATETIME
2555 0x09FB 1 Integration time s / 5 U16
2556 0x09FC 2 Ph-N voltage: V1h1 V 10⁻² U32
2558 0x09FE 2 Ph-N voltage: V2h1 V 10⁻² U32
2560 0x0A00 2 Ph-N voltage: V3h1 V 10⁻² U32
2562 0x0A02 2 Ph-N voltage: Vnh1 V 10⁻² U32
2564 0x0A04 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
2565 0x0A05 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
2566 0x0A06 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
2567 0x0A07 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
2568 0x0A08 2 Ph-Ph voltage: U12h1 V 10⁻² U32
2570 0x0A0A 2 Ph-Ph voltage: U23h1 V 10⁻² U32
2572 0x0A0C 2 Ph-Ph voltage: U31h1 V 10⁻² U32
2574 0x0A0E 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
2575 0x0A0F 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
2576 0x0A10 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
2577 0x0A11 2 Current: I1h1 mA U32
2579 0x0A13 2 Current: I2h1 mA U32
2581 0x0A15 2 Current: I3h1 mA U32
2583 0x0A17 2 Current: Inh1 mA U32
2585 0x0A19 1 Current phase: phI1h1 ° 10⁻¹ S16
2586 0x0A1A 1 Current phase: phI2h1 ° 10⁻¹ S16
2587 0x0A1B 1 Current phase: phI3h1 ° 10⁻¹ S16
2588 0x0A1C 1 Current phase: phInh1 ° 10⁻¹ S16
2589 0x0A1D 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
2590 0x0A1E 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
2591 0x0A1F 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
2592 0x0A20 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
2593 0x0A21 2 P1h1 W S32
2595 0x0A23 2 P2h1 W S32
2597 0x0A25 2 P3h1 W S32
2599 0x0A27 2 Reserved - -
2601 0x0A29 2 Q1h1 var S32
2603 0x0A2B 2 Q2h1 var S32
2605 0x0A2D 2 Q3h1 var S32
2607 0x0A2F 2 Reserved - -
2609 0x0A31 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
2610 0x0A32 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
2611 0x0A33 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
2612 0x0A34 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
2613 0x0A35 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
2614 0x0A36 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
2615 0x0A37 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
2616 0x0A38 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
2617 0x0A39 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
2618 0x0A3A 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
2619 0x0A3B 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
2620 0x0A3C 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
2621 0x0A3D 1 Curent total harmonic distortion : THD I1 % / 100 U16
2622 0x0A3E 1 Curent total harmonic distortion : THD I2 % / 100 U16
2623 0x0A3F 1 Curent total harmonic distortion : THD I3 % / 100 U16
2624 0x0A40 1 Curent total harmonic distortion : THD In % / 100 U16
2625 0x0A41 1 K-Factor I1 - / 100 U16
2626 0x0A42 1 K-Factor I2 - / 100 U16
2627 0x0A43 1 K-Factor I3 - / 100 U16
2628 0x0A44 1 K-Factor In - / 100 U16
2629 0x0A45 1 System THD V % / 100 U16
2630 0x0A46 1 System THD U % / 100 U16
2631 0x0A47 1 System THD I % / 100 U16
2632 0x0A48 1 Crest factor : I1 - / 1000 U16
2633 0x0A49 1 Crest factor : I2 - / 1000 U16
2634 0x0A4A 1 Crest factor : I3 - / 1000 U16
2635 0x0A4B 1 Crest factor : In - / 1000 U16
2636 0x0A4C 1 Total demand distortion : TDD I1 % / 100 U16
2637 0x0A4D 1 Total demand distortion : TDD I2 % / 100 U16
2638 0x0A4E 1 Total demand distortion : TDD I3 % / 100 U16
2639 0x0A4F 1 Total demand distortion : TDD In % / 100 U16
2640 0x0A50 1 System TDD I % / 100 U16
2641 0x0A51 2 S1h1 VA U32
2643 0x0A53 2 S2h1 VA U32
2645 0x0A55 2 S3h1 VA U32
2647 0x0A57 2 Reserved - -

Instantaneous fundamental #22


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
2654 0x0A5E Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
2654 0x0A5E 1 Load status
0 : Disabled
1 : Enabled
- U8
2655 0x0A5F 2 Date of last instance s DATETIME
2657 0x0A61 1 Integration time s / 5 U16
2658 0x0A62 2 Ph-N voltage: V1h1 V 10⁻² U32
2660 0x0A64 2 Ph-N voltage: V2h1 V 10⁻² U32
2662 0x0A66 2 Ph-N voltage: V3h1 V 10⁻² U32
2664 0x0A68 2 Ph-N voltage: Vnh1 V 10⁻² U32
2666 0x0A6A 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
2667 0x0A6B 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
2668 0x0A6C 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
2669 0x0A6D 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
2670 0x0A6E 2 Ph-Ph voltage: U12h1 V 10⁻² U32
2672 0x0A70 2 Ph-Ph voltage: U23h1 V 10⁻² U32
2674 0x0A72 2 Ph-Ph voltage: U31h1 V 10⁻² U32
2676 0x0A74 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
2677 0x0A75 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
2678 0x0A76 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
2679 0x0A77 2 Current: I1h1 mA U32
2681 0x0A79 2 Current: I2h1 mA U32
2683 0x0A7B 2 Current: I3h1 mA U32
2685 0x0A7D 2 Current: Inh1 mA U32
2687 0x0A7F 1 Current phase: phI1h1 ° 10⁻¹ S16
2688 0x0A80 1 Current phase: phI2h1 ° 10⁻¹ S16
2689 0x0A81 1 Current phase: phI3h1 ° 10⁻¹ S16
2690 0x0A82 1 Current phase: phInh1 ° 10⁻¹ S16
2691 0x0A83 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
2692 0x0A84 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
2693 0x0A85 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
2694 0x0A86 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
2695 0x0A87 2 P1h1 W S32
2697 0x0A89 2 P2h1 W S32
2699 0x0A8B 2 P3h1 W S32
2701 0x0A8D 2 Reserved - -
2703 0x0A8F 2 Q1h1 var S32
2705 0x0A91 2 Q2h1 var S32
2707 0x0A93 2 Q3h1 var S32
2709 0x0A95 2 Reserved - -
2711 0x0A97 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
2712 0x0A98 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
2713 0x0A99 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
2714 0x0A9A 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
2715 0x0A9B 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
2716 0x0A9C 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
2717 0x0A9D 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
2718 0x0A9E 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
2719 0x0A9F 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
2720 0x0AA0 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
2721 0x0AA1 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
2722 0x0AA2 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
2723 0x0AA3 1 Curent total harmonic distortion : THD I1 % / 100 U16
2724 0x0AA4 1 Curent total harmonic distortion : THD I2 % / 100 U16
2725 0x0AA5 1 Curent total harmonic distortion : THD I3 % / 100 U16
2726 0x0AA6 1 Curent total harmonic distortion : THD In % / 100 U16
2727 0x0AA7 1 K-Factor I1 - / 100 U16
2728 0x0AA8 1 K-Factor I2 - / 100 U16
2729 0x0AA9 1 K-Factor I3 - / 100 U16
2730 0x0AAA 1 K-Factor In - / 100 U16
2731 0x0AAB 1 System THD V % / 100 U16
2732 0x0AAC 1 System THD U % / 100 U16
2733 0x0AAD 1 System THD I % / 100 U16
2734 0x0AAE 1 Crest factor : I1 - / 1000 U16
2735 0x0AAF 1 Crest factor : I2 - / 1000 U16
2736 0x0AB0 1 Crest factor : I3 - / 1000 U16
2737 0x0AB1 1 Crest factor : In - / 1000 U16
2738 0x0AB2 1 Total demand distortion : TDD I1 % / 100 U16
2739 0x0AB3 1 Total demand distortion : TDD I2 % / 100 U16
2740 0x0AB4 1 Total demand distortion : TDD I3 % / 100 U16
2741 0x0AB5 1 Total demand distortion : TDD In % / 100 U16
2742 0x0AB6 1 System TDD I % / 100 U16
2743 0x0AB7 2 S1h1 VA U32
2745 0x0AB9 2 S2h1 VA U32
2747 0x0ABB 2 S3h1 VA U32
2749 0x0ABD 2 Reserved - -

Instantaneous fundamental #23


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
2756 0x0AC4 Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
2756 0x0AC4 1 Load status
0 : Disabled
1 : Enabled
- U8
2757 0x0AC5 2 Date of last instance s DATETIME
2759 0x0AC7 1 Integration time s / 5 U16
2760 0x0AC8 2 Ph-N voltage: V1h1 V 10⁻² U32
2762 0x0ACA 2 Ph-N voltage: V2h1 V 10⁻² U32
2764 0x0ACC 2 Ph-N voltage: V3h1 V 10⁻² U32
2766 0x0ACE 2 Ph-N voltage: Vnh1 V 10⁻² U32
2768 0x0AD0 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
2769 0x0AD1 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
2770 0x0AD2 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
2771 0x0AD3 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
2772 0x0AD4 2 Ph-Ph voltage: U12h1 V 10⁻² U32
2774 0x0AD6 2 Ph-Ph voltage: U23h1 V 10⁻² U32
2776 0x0AD8 2 Ph-Ph voltage: U31h1 V 10⁻² U32
2778 0x0ADA 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
2779 0x0ADB 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
2780 0x0ADC 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
2781 0x0ADD 2 Current: I1h1 mA U32
2783 0x0ADF 2 Current: I2h1 mA U32
2785 0x0AE1 2 Current: I3h1 mA U32
2787 0x0AE3 2 Current: Inh1 mA U32
2789 0x0AE5 1 Current phase: phI1h1 ° 10⁻¹ S16
2790 0x0AE6 1 Current phase: phI2h1 ° 10⁻¹ S16
2791 0x0AE7 1 Current phase: phI3h1 ° 10⁻¹ S16
2792 0x0AE8 1 Current phase: phInh1 ° 10⁻¹ S16
2793 0x0AE9 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
2794 0x0AEA 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
2795 0x0AEB 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
2796 0x0AEC 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
2797 0x0AED 2 P1h1 W S32
2799 0x0AEF 2 P2h1 W S32
2801 0x0AF1 2 P3h1 W S32
2803 0x0AF3 2 Reserved - -
2805 0x0AF5 2 Q1h1 var S32
2807 0x0AF7 2 Q2h1 var S32
2809 0x0AF9 2 Q3h1 var S32
2811 0x0AFB 2 Reserved - -
2813 0x0AFD 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
2814 0x0AFE 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
2815 0x0AFF 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
2816 0x0B00 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
2817 0x0B01 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
2818 0x0B02 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
2819 0x0B03 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
2820 0x0B04 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
2821 0x0B05 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
2822 0x0B06 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
2823 0x0B07 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
2824 0x0B08 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
2825 0x0B09 1 Curent total harmonic distortion : THD I1 % / 100 U16
2826 0x0B0A 1 Curent total harmonic distortion : THD I2 % / 100 U16
2827 0x0B0B 1 Curent total harmonic distortion : THD I3 % / 100 U16
2828 0x0B0C 1 Curent total harmonic distortion : THD In % / 100 U16
2829 0x0B0D 1 K-Factor I1 - / 100 U16
2830 0x0B0E 1 K-Factor I2 - / 100 U16
2831 0x0B0F 1 K-Factor I3 - / 100 U16
2832 0x0B10 1 K-Factor In - / 100 U16
2833 0x0B11 1 System THD V % / 100 U16
2834 0x0B12 1 System THD U % / 100 U16
2835 0x0B13 1 System THD I % / 100 U16
2836 0x0B14 1 Crest factor : I1 - / 1000 U16
2837 0x0B15 1 Crest factor : I2 - / 1000 U16
2838 0x0B16 1 Crest factor : I3 - / 1000 U16
2839 0x0B17 1 Crest factor : In - / 1000 U16
2840 0x0B18 1 Total demand distortion : TDD I1 % / 100 U16
2841 0x0B19 1 Total demand distortion : TDD I2 % / 100 U16
2842 0x0B1A 1 Total demand distortion : TDD I3 % / 100 U16
2843 0x0B1B 1 Total demand distortion : TDD In % / 100 U16
2844 0x0B1C 1 System TDD I % / 100 U16
2845 0x0B1D 2 S1h1 VA U32
2847 0x0B1F 2 S2h1 VA U32
2849 0x0B21 2 S3h1 VA U32
2851 0x0B23 2 Reserved - -

Instantaneous fundamental #24


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
2858 0x0B2A Info 97 NONE READ READ

Dec address Hex address Words count Description Unit Data type
2858 0x0B2A 1 Load status
0 : Disabled
1 : Enabled
- U8
2859 0x0B2B 2 Date of last instance s DATETIME
2861 0x0B2D 1 Integration time s / 5 U16
2862 0x0B2E 2 Ph-N voltage: V1h1 V 10⁻² U32
2864 0x0B30 2 Ph-N voltage: V2h1 V 10⁻² U32
2866 0x0B32 2 Ph-N voltage: V3h1 V 10⁻² U32
2868 0x0B34 2 Ph-N voltage: Vnh1 V 10⁻² U32
2870 0x0B36 1 Ph-N voltage phase: phV1h1 ° 10⁻¹ S16
2871 0x0B37 1 Ph-N voltage phase: phV2h1 ° 10⁻¹ S16
2872 0x0B38 1 Ph-N voltage phase: phV3h1 ° 10⁻¹ S16
2873 0x0B39 1 Ph-N voltage phase: phVnh1 ° 10⁻¹ S16
2874 0x0B3A 2 Ph-Ph voltage: U12h1 V 10⁻² U32
2876 0x0B3C 2 Ph-Ph voltage: U23h1 V 10⁻² U32
2878 0x0B3E 2 Ph-Ph voltage: U31h1 V 10⁻² U32
2880 0x0B40 1 Ph-Ph voltage phase: phU12h1 ° 10⁻¹ S16
2881 0x0B41 1 Ph-Ph voltage phase: phU23h1 ° 10⁻¹ S16
2882 0x0B42 1 Ph-Ph voltage phase: phU31h1 ° 10⁻¹ S16
2883 0x0B43 2 Current: I1h1 mA U32
2885 0x0B45 2 Current: I2h1 mA U32
2887 0x0B47 2 Current: I3h1 mA U32
2889 0x0B49 2 Current: Inh1 mA U32
2891 0x0B4B 1 Current phase: phI1h1 ° 10⁻¹ S16
2892 0x0B4C 1 Current phase: phI2h1 ° 10⁻¹ S16
2893 0x0B4D 1 Current phase: phI3h1 ° 10⁻¹ S16
2894 0x0B4E 1 Current phase: phInh1 ° 10⁻¹ S16
2895 0x0B4F 1 phi current voltage: phiI1h1V1h1 ° 10⁻¹ S16
2896 0x0B50 1 phi current voltage: phiI2h1V2h1 ° 10⁻¹ S16
2897 0x0B51 1 phi current voltage: phiI3h1V3h1 ° 10⁻¹ S16
2898 0x0B52 1 phi current voltage: phiInh1Vnh1 ° 10⁻¹ S16
2899 0x0B53 2 P1h1 W S32
2901 0x0B55 2 P2h1 W S32
2903 0x0B57 2 P3h1 W S32
2905 0x0B59 2 Reserved - -
2907 0x0B5B 2 Q1h1 var S32
2909 0x0B5D 2 Q2h1 var S32
2911 0x0B5F 2 Q3h1 var S32
2913 0x0B61 2 Reserved - -
2915 0x0B63 1 Cos(phi) : phiI1h1V1h1 - / 1000 S16
2916 0x0B64 1 Cos(phi) : phiI2h1V2h1 - / 1000 S16
2917 0x0B65 1 Cos(phi) : phiI3h1V3h1 - / 1000 S16
2918 0x0B66 1 Tan(phi) : phiI1h1V1h1 - / 1000 S16
2919 0x0B67 1 Tan(phi) : phiI2h1V2h1 - / 1000 S16
2920 0x0B68 1 Tan(phi) : phiI3h1V3h1 - / 1000 S16
2921 0x0B69 1 Ph-N Voltage total harmonic distortion : THD V1 % / 100 U16
2922 0x0B6A 1 Ph-N Voltage total harmonic distortion : THD V2 % / 100 U16
2923 0x0B6B 1 Ph-N Voltage total harmonic distortion : THD V3 % / 100 U16
2924 0x0B6C 1 Ph-Ph Voltage total harmonic distortion : THD U12 % / 100 U16
2925 0x0B6D 1 Ph-Ph Voltage total harmonic distortion : THD U23 % / 100 U16
2926 0x0B6E 1 Ph-Ph Voltage total harmonic distortion : THD U31 % / 100 U16
2927 0x0B6F 1 Curent total harmonic distortion : THD I1 % / 100 U16
2928 0x0B70 1 Curent total harmonic distortion : THD I2 % / 100 U16
2929 0x0B71 1 Curent total harmonic distortion : THD I3 % / 100 U16
2930 0x0B72 1 Curent total harmonic distortion : THD In % / 100 U16
2931 0x0B73 1 K-Factor I1 - / 100 U16
2932 0x0B74 1 K-Factor I2 - / 100 U16
2933 0x0B75 1 K-Factor I3 - / 100 U16
2934 0x0B76 1 K-Factor In - / 100 U16
2935 0x0B77 1 System THD V % / 100 U16
2936 0x0B78 1 System THD U % / 100 U16
2937 0x0B79 1 System THD I % / 100 U16
2938 0x0B7A 1 Crest factor : I1 - / 1000 U16
2939 0x0B7B 1 Crest factor : I2 - / 1000 U16
2940 0x0B7C 1 Crest factor : I3 - / 1000 U16
2941 0x0B7D 1 Crest factor : In - / 1000 U16
2942 0x0B7E 1 Total demand distortion : TDD I1 % / 100 U16
2943 0x0B7F 1 Total demand distortion : TDD I2 % / 100 U16
2944 0x0B80 1 Total demand distortion : TDD I3 % / 100 U16
2945 0x0B81 1 Total demand distortion : TDD In % / 100 U16
2946 0x0B82 1 System TDD I % / 100 U16
2947 0x0B83 2 S1h1 VA U32
2949 0x0B85 2 S2h1 VA U32
2951 0x0B87 2 S3h1 VA U32
2953 0x0B89 2 Reserved - -

Instantaneous min #1


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
29352 0x72A8 Info 121 NONE READ READ

Dec address Hex address Words count Description Unit Data type
29352 0x72A8 1 Load status :
0 : Disabled
1 : Enabled
- U8
29353 0x72A9 2 Minimum Frequency mHz U32
29355 0x72AB 2 Date of minimum F - DATETIME
29357 0x72AD 2 Minimum Ph-N Voltage : V1 V 10⁻² U32
29359 0x72AF 2 Date of minimum V1 - DATETIME
29361 0x72B1 2 Minimum Ph-N Voltage : V2 V 10⁻² U32
29363 0x72B3 2 Date of minimum V2 - DATETIME
29365 0x72B5 2 Minimum Ph-N Voltage : V3 V 10⁻² U32
29367 0x72B7 2 Date of minimum V3 - DATETIME
29369 0x72B9 2 Minimum Ph-N Voltage : Vn V 10⁻² U32
29371 0x72BB 2 Date of minimum Vn - DATETIME
29373 0x72BD 2 Minimum Ph-Ph Voltage : U12 V 10⁻² U32
29375 0x72BF 2 Date of minimum U12 - DATETIME
29377 0x72C1 2 Minimum Ph-Ph Voltage : U23 V 10⁻² U32
29379 0x72C3 2 Date of minimum U23 - DATETIME
29381 0x72C5 2 Minimum Ph-Ph Voltage : U31 V 10⁻² U32
29383 0x72C7 2 Date of minimum U31 - DATETIME
29385 0x72C9 2 Minimum Current : I1 mA U32
29387 0x72CB 2 Date of minimum I1 - DATETIME
29389 0x72CD 2 Minimum Current : I2 mA U32
29391 0x72CF 2 Date of minimum I2 - DATETIME
29393 0x72D1 2 Minimum Current : I3 mA U32
29395 0x72D3 2 Date of minimum I3 - DATETIME
29397 0x72D5 2 Minimum Current : In mA U32
29399 0x72D7 2 Date of minimum In - DATETIME
29401 0x72D9 2 Minimum Total active power W S32
29403 0x72DB 2 Date of minimum Ptot - DATETIME
29405 0x72DD 2 Minimum Total reactive power var S32
29407 0x72DF 2 Date of minimum Qtot - DATETIME
29409 0x72E1 2 Minimum Total apparent power VA U32
29411 0x72E3 2 Date of minimum Stot - DATETIME
29413 0x72E5 1 Minimum Total power factor - / 1000 S16
29414 0x72E6 1 Minimum Total Power factor type
0 : undefined
1 : leading
2 : lagging
- U8
29415 0x72E7 2 Date of minimum Total power factor - DATETIME
29417 0x72E9 2 Minimum Active power : P1 W S32
29419 0x72EB 2 Date of minimum P1 - DATETIME
29421 0x72ED 2 Minimum Active power : P2 W S32
29423 0x72EF 2 Date of minimum P2 - DATETIME
29425 0x72F1 2 Minimum Active power : P3 W S32
29427 0x72F3 2 Date of minimum P3 - DATETIME
29429 0x72F5 2 Minimum Reactive power : Q1 var S32
29431 0x72F7 2 Date of minimum Q1 - DATETIME
29433 0x72F9 2 Minimum Reactive power : Q2 var S32
29435 0x72FB 2 Date of minimum Q2 - DATETIME
29437 0x72FD 2 Minimum Reactive power : Q3 var S32
29439 0x72FF 2 Date of minimum Q3 - DATETIME
29441 0x7301 2 Minimum Apparent power : S1 VA U32
29443 0x7303 2 Date of minimum S1 - DATETIME
29445 0x7305 2 Minimum Apparent power : S2 VA U32
29447 0x7307 2 Date of minimum S2 - DATETIME
29449 0x7309 2 Minimum Apparent power : S3 VA U32
29451 0x730B 2 Date of minimum S3 - DATETIME
29453 0x730D 1 Minimum Power factor : PF1 - / 1000 S16
29454 0x730E 1 Minimum Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
29455 0x730F 2 Date of minimum PF1 - DATETIME
29457 0x7311 1 Minimum Power factor : PF2 - / 1000 S16
29458 0x7312 1 Minimum Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
29459 0x7313 2 Date of minimum PF2 - DATETIME
29461 0x7315 1 Minimum Power factor : PF3 - / 1000 S16
29462 0x7316 1 Minimum Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
29463 0x7317 2 Date of minimum PF3 - DATETIME
29465 0x7319 2 Minimum Current : Idelta mA U32
29467 0x731B 2 Date of minimum Idelta - DATETIME
29469 0x731D 2 Minimum Current : Ipe mA U32
29471 0x731F 2 Date of minimum Ipe - DATETIME

Instantaneous min #2


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
29476 0x7324 Info 121 NONE READ READ

Dec address Hex address Words count Description Unit Data type
29476 0x7324 1 Load status :
0 : Disabled
1 : Enabled
- U8
29477 0x7325 2 Minimum Frequency mHz U32
29479 0x7327 2 Date of minimum F - DATETIME
29481 0x7329 2 Minimum Ph-N Voltage : V1 V 10⁻² U32
29483 0x732B 2 Date of minimum V1 - DATETIME
29485 0x732D 2 Minimum Ph-N Voltage : V2 V 10⁻² U32
29487 0x732F 2 Date of minimum V2 - DATETIME
29489 0x7331 2 Minimum Ph-N Voltage : V3 V 10⁻² U32
29491 0x7333 2 Date of minimum V3 - DATETIME
29493 0x7335 2 Minimum Ph-N Voltage : Vn V 10⁻² U32
29495 0x7337 2 Date of minimum Vn - DATETIME
29497 0x7339 2 Minimum Ph-Ph Voltage : U12 V 10⁻² U32
29499 0x733B 2 Date of minimum U12 - DATETIME
29501 0x733D 2 Minimum Ph-Ph Voltage : U23 V 10⁻² U32
29503 0x733F 2 Date of minimum U23 - DATETIME
29505 0x7341 2 Minimum Ph-Ph Voltage : U31 V 10⁻² U32
29507 0x7343 2 Date of minimum U31 - DATETIME
29509 0x7345 2 Minimum Current : I1 mA U32
29511 0x7347 2 Date of minimum I1 - DATETIME
29513 0x7349 2 Minimum Current : I2 mA U32
29515 0x734B 2 Date of minimum I2 - DATETIME
29517 0x734D 2 Minimum Current : I3 mA U32
29519 0x734F 2 Date of minimum I3 - DATETIME
29521 0x7351 2 Minimum Current : In mA U32
29523 0x7353 2 Date of minimum In - DATETIME
29525 0x7355 2 Minimum Total active power W S32
29527 0x7357 2 Date of minimum Ptot - DATETIME
29529 0x7359 2 Minimum Total reactive power var S32
29531 0x735B 2 Date of minimum Qtot - DATETIME
29533 0x735D 2 Minimum Total apparent power VA U32
29535 0x735F 2 Date of minimum Stot - DATETIME
29537 0x7361 1 Minimum Total power factor - / 1000 S16
29538 0x7362 1 Minimum Total Power factor type
0 : undefined
1 : leading
2 : lagging
- U8
29539 0x7363 2 Date of minimum Total power factor - DATETIME
29541 0x7365 2 Minimum Active power : P1 W S32
29543 0x7367 2 Date of minimum P1 - DATETIME
29545 0x7369 2 Minimum Active power : P2 W S32
29547 0x736B 2 Date of minimum P2 - DATETIME
29549 0x736D 2 Minimum Active power : P3 W S32
29551 0x736F 2 Date of minimum P3 - DATETIME
29553 0x7371 2 Minimum Reactive power : Q1 var S32
29555 0x7373 2 Date of minimum Q1 - DATETIME
29557 0x7375 2 Minimum Reactive power : Q2 var S32
29559 0x7377 2 Date of minimum Q2 - DATETIME
29561 0x7379 2 Minimum Reactive power : Q3 var S32
29563 0x737B 2 Date of minimum Q3 - DATETIME
29565 0x737D 2 Minimum Apparent power : S1 VA U32
29567 0x737F 2 Date of minimum S1 - DATETIME
29569 0x7381 2 Minimum Apparent power : S2 VA U32
29571 0x7383 2 Date of minimum S2 - DATETIME
29573 0x7385 2 Minimum Apparent power : S3 VA U32
29575 0x7387 2 Date of minimum S3 - DATETIME
29577 0x7389 1 Minimum Power factor : PF1 - / 1000 S16
29578 0x738A 1 Minimum Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
29579 0x738B 2 Date of minimum PF1 - DATETIME
29581 0x738D 1 Minimum Power factor : PF2 - / 1000 S16
29582 0x738E 1 Minimum Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
29583 0x738F 2 Date of minimum PF2 - DATETIME
29585 0x7391 1 Minimum Power factor : PF3 - / 1000 S16
29586 0x7392 1 Minimum Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
29587 0x7393 2 Date of minimum PF3 - DATETIME
29589 0x7395 2 Minimum Current : Idelta mA U32
29591 0x7397 2 Date of minimum Idelta - DATETIME
29593 0x7399 2 Minimum Current : Ipe mA U32
29595 0x739B 2 Date of minimum Ipe - DATETIME

Instantaneous min #3


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
29600 0x73A0 Info 121 NONE READ READ

Dec address Hex address Words count Description Unit Data type
29600 0x73A0 1 Load status :
0 : Disabled
1 : Enabled
- U8
29601 0x73A1 2 Minimum Frequency mHz U32
29603 0x73A3 2 Date of minimum F - DATETIME
29605 0x73A5 2 Minimum Ph-N Voltage : V1 V 10⁻² U32
29607 0x73A7 2 Date of minimum V1 - DATETIME
29609 0x73A9 2 Minimum Ph-N Voltage : V2 V 10⁻² U32
29611 0x73AB 2 Date of minimum V2 - DATETIME
29613 0x73AD 2 Minimum Ph-N Voltage : V3 V 10⁻² U32
29615 0x73AF 2 Date of minimum V3 - DATETIME
29617 0x73B1 2 Minimum Ph-N Voltage : Vn V 10⁻² U32
29619 0x73B3 2 Date of minimum Vn - DATETIME
29621 0x73B5 2 Minimum Ph-Ph Voltage : U12 V 10⁻² U32
29623 0x73B7 2 Date of minimum U12 - DATETIME
29625 0x73B9 2 Minimum Ph-Ph Voltage : U23 V 10⁻² U32
29627 0x73BB 2 Date of minimum U23 - DATETIME
29629 0x73BD 2 Minimum Ph-Ph Voltage : U31 V 10⁻² U32
29631 0x73BF 2 Date of minimum U31 - DATETIME
29633 0x73C1 2 Minimum Current : I1 mA U32
29635 0x73C3 2 Date of minimum I1 - DATETIME
29637 0x73C5 2 Minimum Current : I2 mA U32
29639 0x73C7 2 Date of minimum I2 - DATETIME
29641 0x73C9 2 Minimum Current : I3 mA U32
29643 0x73CB 2 Date of minimum I3 - DATETIME
29645 0x73CD 2 Minimum Current : In mA U32
29647 0x73CF 2 Date of minimum In - DATETIME
29649 0x73D1 2 Minimum Total active power W S32
29651 0x73D3 2 Date of minimum Ptot - DATETIME
29653 0x73D5 2 Minimum Total reactive power var S32
29655 0x73D7 2 Date of minimum Qtot - DATETIME
29657 0x73D9 2 Minimum Total apparent power VA U32
29659 0x73DB 2 Date of minimum Stot - DATETIME
29661 0x73DD 1 Minimum Total power factor - / 1000 S16
29662 0x73DE 1 Minimum Total Power factor type
0 : undefined
1 : leading
2 : lagging
- U8
29663 0x73DF 2 Date of minimum Total power factor - DATETIME
29665 0x73E1 2 Minimum Active power : P1 W S32
29667 0x73E3 2 Date of minimum P1 - DATETIME
29669 0x73E5 2 Minimum Active power : P2 W S32
29671 0x73E7 2 Date of minimum P2 - DATETIME
29673 0x73E9 2 Minimum Active power : P3 W S32
29675 0x73EB 2 Date of minimum P3 - DATETIME
29677 0x73ED 2 Minimum Reactive power : Q1 var S32
29679 0x73EF 2 Date of minimum Q1 - DATETIME
29681 0x73F1 2 Minimum Reactive power : Q2 var S32
29683 0x73F3 2 Date of minimum Q2 - DATETIME
29685 0x73F5 2 Minimum Reactive power : Q3 var S32
29687 0x73F7 2 Date of minimum Q3 - DATETIME
29689 0x73F9 2 Minimum Apparent power : S1 VA U32
29691 0x73FB 2 Date of minimum S1 - DATETIME
29693 0x73FD 2 Minimum Apparent power : S2 VA U32
29695 0x73FF 2 Date of minimum S2 - DATETIME
29697 0x7401 2 Minimum Apparent power : S3 VA U32
29699 0x7403 2 Date of minimum S3 - DATETIME
29701 0x7405 1 Minimum Power factor : PF1 - / 1000 S16
29702 0x7406 1 Minimum Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
29703 0x7407 2 Date of minimum PF1 - DATETIME
29705 0x7409 1 Minimum Power factor : PF2 - / 1000 S16
29706 0x740A 1 Minimum Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
29707 0x740B 2 Date of minimum PF2 - DATETIME
29709 0x740D 1 Minimum Power factor : PF3 - / 1000 S16
29710 0x740E 1 Minimum Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
29711 0x740F 2 Date of minimum PF3 - DATETIME
29713 0x7411 2 Minimum Current : Idelta mA U32
29715 0x7413 2 Date of minimum Idelta - DATETIME
29717 0x7415 2 Minimum Current : Ipe mA U32
29719 0x7417 2 Date of minimum Ipe - DATETIME

Instantaneous min #4


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
29724 0x741C Info 121 NONE READ READ

Dec address Hex address Words count Description Unit Data type
29724 0x741C 1 Load status :
0 : Disabled
1 : Enabled
- U8
29725 0x741D 2 Minimum Frequency mHz U32
29727 0x741F 2 Date of minimum F - DATETIME
29729 0x7421 2 Minimum Ph-N Voltage : V1 V 10⁻² U32
29731 0x7423 2 Date of minimum V1 - DATETIME
29733 0x7425 2 Minimum Ph-N Voltage : V2 V 10⁻² U32
29735 0x7427 2 Date of minimum V2 - DATETIME
29737 0x7429 2 Minimum Ph-N Voltage : V3 V 10⁻² U32
29739 0x742B 2 Date of minimum V3 - DATETIME
29741 0x742D 2 Minimum Ph-N Voltage : Vn V 10⁻² U32
29743 0x742F 2 Date of minimum Vn - DATETIME
29745 0x7431 2 Minimum Ph-Ph Voltage : U12 V 10⁻² U32
29747 0x7433 2 Date of minimum U12 - DATETIME
29749 0x7435 2 Minimum Ph-Ph Voltage : U23 V 10⁻² U32
29751 0x7437 2 Date of minimum U23 - DATETIME
29753 0x7439 2 Minimum Ph-Ph Voltage : U31 V 10⁻² U32
29755 0x743B 2 Date of minimum U31 - DATETIME
29757 0x743D 2 Minimum Current : I1 mA U32
29759 0x743F 2 Date of minimum I1 - DATETIME
29761 0x7441 2 Minimum Current : I2 mA U32
29763 0x7443 2 Date of minimum I2 - DATETIME
29765 0x7445 2 Minimum Current : I3 mA U32
29767 0x7447 2 Date of minimum I3 - DATETIME
29769 0x7449 2 Minimum Current : In mA U32
29771 0x744B 2 Date of minimum In - DATETIME
29773 0x744D 2 Minimum Total active power W S32
29775 0x744F 2 Date of minimum Ptot - DATETIME
29777 0x7451 2 Minimum Total reactive power var S32
29779 0x7453 2 Date of minimum Qtot - DATETIME
29781 0x7455 2 Minimum Total apparent power VA U32
29783 0x7457 2 Date of minimum Stot - DATETIME
29785 0x7459 1 Minimum Total power factor - / 1000 S16
29786 0x745A 1 Minimum Total Power factor type
0 : undefined
1 : leading
2 : lagging
- U8
29787 0x745B 2 Date of minimum Total power factor - DATETIME
29789 0x745D 2 Minimum Active power : P1 W S32
29791 0x745F 2 Date of minimum P1 - DATETIME
29793 0x7461 2 Minimum Active power : P2 W S32
29795 0x7463 2 Date of minimum P2 - DATETIME
29797 0x7465 2 Minimum Active power : P3 W S32
29799 0x7467 2 Date of minimum P3 - DATETIME
29801 0x7469 2 Minimum Reactive power : Q1 var S32
29803 0x746B 2 Date of minimum Q1 - DATETIME
29805 0x746D 2 Minimum Reactive power : Q2 var S32
29807 0x746F 2 Date of minimum Q2 - DATETIME
29809 0x7471 2 Minimum Reactive power : Q3 var S32
29811 0x7473 2 Date of minimum Q3 - DATETIME
29813 0x7475 2 Minimum Apparent power : S1 VA U32
29815 0x7477 2 Date of minimum S1 - DATETIME
29817 0x7479 2 Minimum Apparent power : S2 VA U32
29819 0x747B 2 Date of minimum S2 - DATETIME
29821 0x747D 2 Minimum Apparent power : S3 VA U32
29823 0x747F 2 Date of minimum S3 - DATETIME
29825 0x7481 1 Minimum Power factor : PF1 - / 1000 S16
29826 0x7482 1 Minimum Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
29827 0x7483 2 Date of minimum PF1 - DATETIME
29829 0x7485 1 Minimum Power factor : PF2 - / 1000 S16
29830 0x7486 1 Minimum Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
29831 0x7487 2 Date of minimum PF2 - DATETIME
29833 0x7489 1 Minimum Power factor : PF3 - / 1000 S16
29834 0x748A 1 Minimum Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
29835 0x748B 2 Date of minimum PF3 - DATETIME
29837 0x748D 2 Minimum Current : Idelta mA U32
29839 0x748F 2 Date of minimum Idelta - DATETIME
29841 0x7491 2 Minimum Current : Ipe mA U32
29843 0x7493 2 Date of minimum Ipe - DATETIME

Instantaneous min #5


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
29848 0x7498 Info 121 NONE READ READ

Dec address Hex address Words count Description Unit Data type
29848 0x7498 1 Load status :
0 : Disabled
1 : Enabled
- U8
29849 0x7499 2 Minimum Frequency mHz U32
29851 0x749B 2 Date of minimum F - DATETIME
29853 0x749D 2 Minimum Ph-N Voltage : V1 V 10⁻² U32
29855 0x749F 2 Date of minimum V1 - DATETIME
29857 0x74A1 2 Minimum Ph-N Voltage : V2 V 10⁻² U32
29859 0x74A3 2 Date of minimum V2 - DATETIME
29861 0x74A5 2 Minimum Ph-N Voltage : V3 V 10⁻² U32
29863 0x74A7 2 Date of minimum V3 - DATETIME
29865 0x74A9 2 Minimum Ph-N Voltage : Vn V 10⁻² U32
29867 0x74AB 2 Date of minimum Vn - DATETIME
29869 0x74AD 2 Minimum Ph-Ph Voltage : U12 V 10⁻² U32
29871 0x74AF 2 Date of minimum U12 - DATETIME
29873 0x74B1 2 Minimum Ph-Ph Voltage : U23 V 10⁻² U32
29875 0x74B3 2 Date of minimum U23 - DATETIME
29877 0x74B5 2 Minimum Ph-Ph Voltage : U31 V 10⁻² U32
29879 0x74B7 2 Date of minimum U31 - DATETIME
29881 0x74B9 2 Minimum Current : I1 mA U32
29883 0x74BB 2 Date of minimum I1 - DATETIME
29885 0x74BD 2 Minimum Current : I2 mA U32
29887 0x74BF 2 Date of minimum I2 - DATETIME
29889 0x74C1 2 Minimum Current : I3 mA U32
29891 0x74C3 2 Date of minimum I3 - DATETIME
29893 0x74C5 2 Minimum Current : In mA U32
29895 0x74C7 2 Date of minimum In - DATETIME
29897 0x74C9 2 Minimum Total active power W S32
29899 0x74CB 2 Date of minimum Ptot - DATETIME
29901 0x74CD 2 Minimum Total reactive power var S32
29903 0x74CF 2 Date of minimum Qtot - DATETIME
29905 0x74D1 2 Minimum Total apparent power VA U32
29907 0x74D3 2 Date of minimum Stot - DATETIME
29909 0x74D5 1 Minimum Total power factor - / 1000 S16
29910 0x74D6 1 Minimum Total Power factor type
0 : undefined
1 : leading
2 : lagging
- U8
29911 0x74D7 2 Date of minimum Total power factor - DATETIME
29913 0x74D9 2 Minimum Active power : P1 W S32
29915 0x74DB 2 Date of minimum P1 - DATETIME
29917 0x74DD 2 Minimum Active power : P2 W S32
29919 0x74DF 2 Date of minimum P2 - DATETIME
29921 0x74E1 2 Minimum Active power : P3 W S32
29923 0x74E3 2 Date of minimum P3 - DATETIME
29925 0x74E5 2 Minimum Reactive power : Q1 var S32
29927 0x74E7 2 Date of minimum Q1 - DATETIME
29929 0x74E9 2 Minimum Reactive power : Q2 var S32
29931 0x74EB 2 Date of minimum Q2 - DATETIME
29933 0x74ED 2 Minimum Reactive power : Q3 var S32
29935 0x74EF 2 Date of minimum Q3 - DATETIME
29937 0x74F1 2 Minimum Apparent power : S1 VA U32
29939 0x74F3 2 Date of minimum S1 - DATETIME
29941 0x74F5 2 Minimum Apparent power : S2 VA U32
29943 0x74F7 2 Date of minimum S2 - DATETIME
29945 0x74F9 2 Minimum Apparent power : S3 VA U32
29947 0x74FB 2 Date of minimum S3 - DATETIME
29949 0x74FD 1 Minimum Power factor : PF1 - / 1000 S16
29950 0x74FE 1 Minimum Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
29951 0x74FF 2 Date of minimum PF1 - DATETIME
29953 0x7501 1 Minimum Power factor : PF2 - / 1000 S16
29954 0x7502 1 Minimum Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
29955 0x7503 2 Date of minimum PF2 - DATETIME
29957 0x7505 1 Minimum Power factor : PF3 - / 1000 S16
29958 0x7506 1 Minimum Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
29959 0x7507 2 Date of minimum PF3 - DATETIME
29961 0x7509 2 Minimum Current : Idelta mA U32
29963 0x750B 2 Date of minimum Idelta - DATETIME
29965 0x750D 2 Minimum Current : Ipe mA U32
29967 0x750F 2 Date of minimum Ipe - DATETIME

Instantaneous min #6


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
29972 0x7514 Info 121 NONE READ READ

Dec address Hex address Words count Description Unit Data type
29972 0x7514 1 Load status :
0 : Disabled
1 : Enabled
- U8
29973 0x7515 2 Minimum Frequency mHz U32
29975 0x7517 2 Date of minimum F - DATETIME
29977 0x7519 2 Minimum Ph-N Voltage : V1 V 10⁻² U32
29979 0x751B 2 Date of minimum V1 - DATETIME
29981 0x751D 2 Minimum Ph-N Voltage : V2 V 10⁻² U32
29983 0x751F 2 Date of minimum V2 - DATETIME
29985 0x7521 2 Minimum Ph-N Voltage : V3 V 10⁻² U32
29987 0x7523 2 Date of minimum V3 - DATETIME
29989 0x7525 2 Minimum Ph-N Voltage : Vn V 10⁻² U32
29991 0x7527 2 Date of minimum Vn - DATETIME
29993 0x7529 2 Minimum Ph-Ph Voltage : U12 V 10⁻² U32
29995 0x752B 2 Date of minimum U12 - DATETIME
29997 0x752D 2 Minimum Ph-Ph Voltage : U23 V 10⁻² U32
29999 0x752F 2 Date of minimum U23 - DATETIME
30001 0x7531 2 Minimum Ph-Ph Voltage : U31 V 10⁻² U32
30003 0x7533 2 Date of minimum U31 - DATETIME
30005 0x7535 2 Minimum Current : I1 mA U32
30007 0x7537 2 Date of minimum I1 - DATETIME
30009 0x7539 2 Minimum Current : I2 mA U32
30011 0x753B 2 Date of minimum I2 - DATETIME
30013 0x753D 2 Minimum Current : I3 mA U32
30015 0x753F 2 Date of minimum I3 - DATETIME
30017 0x7541 2 Minimum Current : In mA U32
30019 0x7543 2 Date of minimum In - DATETIME
30021 0x7545 2 Minimum Total active power W S32
30023 0x7547 2 Date of minimum Ptot - DATETIME
30025 0x7549 2 Minimum Total reactive power var S32
30027 0x754B 2 Date of minimum Qtot - DATETIME
30029 0x754D 2 Minimum Total apparent power VA U32
30031 0x754F 2 Date of minimum Stot - DATETIME
30033 0x7551 1 Minimum Total power factor - / 1000 S16
30034 0x7552 1 Minimum Total Power factor type
0 : undefined
1 : leading
2 : lagging
- U8
30035 0x7553 2 Date of minimum Total power factor - DATETIME
30037 0x7555 2 Minimum Active power : P1 W S32
30039 0x7557 2 Date of minimum P1 - DATETIME
30041 0x7559 2 Minimum Active power : P2 W S32
30043 0x755B 2 Date of minimum P2 - DATETIME
30045 0x755D 2 Minimum Active power : P3 W S32
30047 0x755F 2 Date of minimum P3 - DATETIME
30049 0x7561 2 Minimum Reactive power : Q1 var S32
30051 0x7563 2 Date of minimum Q1 - DATETIME
30053 0x7565 2 Minimum Reactive power : Q2 var S32
30055 0x7567 2 Date of minimum Q2 - DATETIME
30057 0x7569 2 Minimum Reactive power : Q3 var S32
30059 0x756B 2 Date of minimum Q3 - DATETIME
30061 0x756D 2 Minimum Apparent power : S1 VA U32
30063 0x756F 2 Date of minimum S1 - DATETIME
30065 0x7571 2 Minimum Apparent power : S2 VA U32
30067 0x7573 2 Date of minimum S2 - DATETIME
30069 0x7575 2 Minimum Apparent power : S3 VA U32
30071 0x7577 2 Date of minimum S3 - DATETIME
30073 0x7579 1 Minimum Power factor : PF1 - / 1000 S16
30074 0x757A 1 Minimum Power factor type : sPF1
0 : undefined
1 : leading
2 : lagging
- U8
30075 0x757B 2 Date of minimum PF1 - DATETIME
30077 0x757D 1 Minimum Power factor : PF2 - / 1000 S16
30078 0x757E 1 Minimum Power factor type : sPF2
0 : undefined
1 : leading
2 : lagging
- U8
30079 0x757F 2 Date of minimum PF2 - DATETIME
30081 0x7581 1 Minimum Power factor : PF3 - / 1000 S16
30082 0x7582 1 Minimum Power factor type : sPF3
0 : undefined
1 : leading
2 : lagging
- U8
30083 0x7583 2 Date of minimum PF3 - DATETIME
30085 0x7585 2 Minimum Current : Idelta mA U32
30087 0x7587 2 Date of minimum Idelta - DATETIME
30089 0x7589 2 Minimum Current : Ipe mA U32
30091 0x758B 2 Date of minimum Ipe - DATETIME

Instantaneous min #7


Dec start address Hex start address Type Size Lock level Locked fcts Unlocked fcts
30096 0x7590 Info 121 NONE READ READ

<
Dec address Hex address Words count Description Unit Data type
30096 0x7590 1 Load status :
0 : Disabled
1 : Enabled
- U8
30097 0x7591 2 Minimum Frequency mHz U32
30099 0x7593 2 Date of minimum F - DATETIME
30101 0x7595 2 Minimum Ph-N Voltage : V1 V 10⁻² U32
30103 0x7597 2 Date of minimum V1 - DATETIME
30105 0x7599 2 Minimum Ph-N Voltage : V2 V 10⁻² U32
30107 0x759B 2 Date of minimum V2 - DATETIME
30109 0x759D 2 Minimum Ph-N Voltage : V3 V 10⁻² U32
30111 0x759F 2 Date of minimum V3 - DATETIME
30113 0x75A1 2 Minimum Ph-N Voltage : Vn V 10⁻² U32
30115 0x75A3 2 Date of minimum Vn - DATETIME
30117 0x75A5 2 Minimum Ph-Ph Voltage : U12 V 10⁻² U32
30119 0x75A7 2 Date of minimum U12 - DATETIME
30121 0x75A9 2 Minimum Ph-Ph Voltage : U23 V 10⁻² U32
30123 0x75AB 2 Date of minimum U23 - DATETIME
30125 0x75AD 2 Minimum Ph-Ph Voltage : U31 V 10⁻² U32
30127 0x75AF 2 Date of minimum U31 - DATETIME
30129 0x75B1 2 Minimum Current : I1 mA U32
30131 0x75B3 2 Date of minimum I1 - DATETIME
30133 0x75B5 2 Minimum Current : I2 mA U32
30135 0x75B7 2 Date of minimum I2 - DATETIME
30137 0x75B9 2 Minimum Current : I3 mA U32
30139 0x75BB 2 Date of minimum I3 - DATETIME
30141 0x75BD 2 Minimum Current : In mA U32
30143 0x75BF 2 Date of minimum In - DATETIME
30145 0x75C1 2 Minimum Total active power W S32
30147 0x75C3 2 Date of minimum Ptot - DATETIME
30149 0x75C5 2 Minimum Total reactive power var S32
30151 0x75C7