Ville Skyttä 2024-11-08 15:15:03 -01:00 committed by GitHub
parent 5fac24a5f6
commit 2f3808adc9
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36 changed files with 76 additions and 76 deletions

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@ -90,8 +90,8 @@
D - Number of decimals for floating point presentation (0 to 20) or a code correspondig to Tasmota resolution command settings: D - Number of decimals for floating point presentation (0 to 20) or a code correspondig to Tasmota resolution command settings:
21 - VoltRes (V) 21 - VoltRes (V)
22 - AmpRes (A) 22 - AmpRes (A)
23 - WattRes (W, VA, VAr) 23 - WattRes (W, VA, var)
24 - EnergyRes (kWh, kVAh, kVArh) 24 - EnergyRes (kWh, kVAh, kvarh)
25 - FreqRes (Hz) 25 - FreqRes (Hz)
26 - TempRes (C, F) 26 - TempRes (C, F)
27 - HumRes (%) 27 - HumRes (%)

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "sec" #define D_UNIT_SECOND "sec"
#define D_UNIT_SECTORS "sectors" #define D_UNIT_SECTORS "sectors"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Import reaktief" #define D_IMPORT_REACTIVE "Import reaktief"
#define D_EXPORT_REACTIVE "Uitvoer reaktief" #define D_EXPORT_REACTIVE "Uitvoer reaktief"
#define D_TOTAL_REACTIVE "Totaal reaktief" #define D_TOTAL_REACTIVE "Totaal reaktief"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Deg" #define D_UNIT_ANGLE "Deg"
#define D_TOTAL_ACTIVE "Totaal aktief" #define D_TOTAL_ACTIVE "Totaal aktief"
#define D_RESETTABLE_TOTAL_ACTIVE "Totaal aktief (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Totaal aktief (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "sec" #define D_UNIT_SECOND "sec"
#define D_UNIT_SECTORS "sectors" #define D_UNIT_SECTORS "sectors"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Importat Reactiva" #define D_IMPORT_REACTIVE "Importat Reactiva"
#define D_EXPORT_REACTIVE "Exportat Reactiva" #define D_EXPORT_REACTIVE "Exportat Reactiva"
#define D_TOTAL_REACTIVE "Total Reactiva" #define D_TOTAL_REACTIVE "Total Reactiva"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Graus" #define D_UNIT_ANGLE "Graus"
#define D_TOTAL_ACTIVE "Total Activa" #define D_TOTAL_ACTIVE "Total Activa"
#define D_RESETTABLE_TOTAL_ACTIVE "Total Activa (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Total Activa (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "sec" #define D_UNIT_SECOND "sec"
#define D_UNIT_SECTORS "sektory" #define D_UNIT_SECTORS "sektory"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Import Reactive" #define D_IMPORT_REACTIVE "Import Reactive"
#define D_EXPORT_REACTIVE "Export Reactive" #define D_EXPORT_REACTIVE "Export Reactive"
#define D_TOTAL_REACTIVE "Total Reactive" #define D_TOTAL_REACTIVE "Total Reactive"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Deg" #define D_UNIT_ANGLE "Deg"
#define D_TOTAL_ACTIVE "Total Active" #define D_TOTAL_ACTIVE "Total Active"
#define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "s" #define D_UNIT_SECOND "s"
#define D_UNIT_SECTORS "Sektoren" #define D_UNIT_SECTORS "Sektoren"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Importiere Blind" #define D_IMPORT_REACTIVE "Importiere Blind"
#define D_EXPORT_REACTIVE "Exportiere Blind" #define D_EXPORT_REACTIVE "Exportiere Blind"
#define D_TOTAL_REACTIVE "Total Blind" #define D_TOTAL_REACTIVE "Total Blind"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Grad" #define D_UNIT_ANGLE "Grad"
#define D_TOTAL_ACTIVE "Total Wirk" #define D_TOTAL_ACTIVE "Total Wirk"
#define D_RESETTABLE_TOTAL_ACTIVE "Total Wirk (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Total Wirk (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "sec" #define D_UNIT_SECOND "sec"
#define D_UNIT_SECTORS "sectors" #define D_UNIT_SECTORS "sectors"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Import Reactive" #define D_IMPORT_REACTIVE "Import Reactive"
#define D_EXPORT_REACTIVE "Export Reactive" #define D_EXPORT_REACTIVE "Export Reactive"
#define D_TOTAL_REACTIVE "Total Reactive" #define D_TOTAL_REACTIVE "Total Reactive"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Deg" #define D_UNIT_ANGLE "Deg"
#define D_TOTAL_ACTIVE "Total Active" #define D_TOTAL_ACTIVE "Total Active"
#define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "sec" #define D_UNIT_SECOND "sec"
#define D_UNIT_SECTORS "sectors" #define D_UNIT_SECTORS "sectors"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Import Reactive" #define D_IMPORT_REACTIVE "Import Reactive"
#define D_EXPORT_REACTIVE "Export Reactive" #define D_EXPORT_REACTIVE "Export Reactive"
#define D_TOTAL_REACTIVE "Total Reactive" #define D_TOTAL_REACTIVE "Total Reactive"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Deg" #define D_UNIT_ANGLE "Deg"
#define D_TOTAL_ACTIVE "Total Active" #define D_TOTAL_ACTIVE "Total Active"
#define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "seg" #define D_UNIT_SECOND "seg"
#define D_UNIT_SECTORS "sectores" #define D_UNIT_SECTORS "sectores"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "P. Reactiva Entrante" #define D_IMPORT_REACTIVE "P. Reactiva Entrante"
#define D_EXPORT_REACTIVE "P. Reactiva Saliente" #define D_EXPORT_REACTIVE "P. Reactiva Saliente"
#define D_TOTAL_REACTIVE "P. Reactiva Total" #define D_TOTAL_REACTIVE "P. Reactiva Total"
#define D_UNIT_KWARH "kVArH" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Grados" #define D_UNIT_ANGLE "Grados"
#define D_TOTAL_ACTIVE "P. Total Activa" #define D_TOTAL_ACTIVE "P. Total Activa"
#define D_RESETTABLE_TOTAL_ACTIVE "P. Total Activa (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "P. Total Activa (RST)"

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@ -1060,7 +1060,7 @@
#define D_UNIT_SECOND "s" #define D_UNIT_SECOND "s"
#define D_UNIT_SECTORS "secteurs" #define D_UNIT_SECTORS "secteurs"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1082,7 +1082,7 @@
#define D_IMPORT_REACTIVE "Énergie réa conso" #define D_IMPORT_REACTIVE "Énergie réa conso"
#define D_EXPORT_REACTIVE "Énergie réa fournie" #define D_EXPORT_REACTIVE "Énergie réa fournie"
#define D_TOTAL_REACTIVE "Énergie réa totale" #define D_TOTAL_REACTIVE "Énergie réa totale"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "°" #define D_UNIT_ANGLE "°"
#define D_TOTAL_ACTIVE "Total Active" #define D_TOTAL_ACTIVE "Total Active"
#define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "sec" #define D_UNIT_SECOND "sec"
#define D_UNIT_SECTORS "sectoren" #define D_UNIT_SECTORS "sectoren"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Blind ymportearje" #define D_IMPORT_REACTIVE "Blind ymportearje"
#define D_EXPORT_REACTIVE "Blind eksportearje" #define D_EXPORT_REACTIVE "Blind eksportearje"
#define D_TOTAL_REACTIVE "Hielendal blyn" #define D_TOTAL_REACTIVE "Hielendal blyn"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Deg" #define D_UNIT_ANGLE "Deg"
#define D_TOTAL_ACTIVE "Hielendal wier" #define D_TOTAL_ACTIVE "Hielendal wier"
#define D_RESETTABLE_TOTAL_ACTIVE "Hielendal wier (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Hielendal wier (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "sec" #define D_UNIT_SECOND "sec"
#define D_UNIT_SECTORS "sectors" #define D_UNIT_SECTORS "sectors"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Import Reactive" #define D_IMPORT_REACTIVE "Import Reactive"
#define D_EXPORT_REACTIVE "Export Reactive" #define D_EXPORT_REACTIVE "Export Reactive"
#define D_TOTAL_REACTIVE "Total Reactive" #define D_TOTAL_REACTIVE "Total Reactive"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Deg" #define D_UNIT_ANGLE "Deg"
#define D_TOTAL_ACTIVE "Total Active" #define D_TOTAL_ACTIVE "Total Active"
#define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)"

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@ -1062,7 +1062,7 @@
#define D_UNIT_SECOND "s" #define D_UNIT_SECOND "s"
#define D_UNIT_SECTORS "szektorok" #define D_UNIT_SECTORS "szektorok"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1084,7 +1084,7 @@
#define D_IMPORT_REACTIVE "Bejövő reaktív" #define D_IMPORT_REACTIVE "Bejövő reaktív"
#define D_EXPORT_REACTIVE "Kimenő reaktív" #define D_EXPORT_REACTIVE "Kimenő reaktív"
#define D_TOTAL_REACTIVE "Összes reaktív" #define D_TOTAL_REACTIVE "Összes reaktív"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "fok" #define D_UNIT_ANGLE "fok"
#define D_TOTAL_ACTIVE "Összes aktív" #define D_TOTAL_ACTIVE "Összes aktív"
#define D_RESETTABLE_TOTAL_ACTIVE "Összes aktív (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Összes aktív (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "sec" #define D_UNIT_SECOND "sec"
#define D_UNIT_SECTORS "settori" #define D_UNIT_SECTORS "settori"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Potenza reattiva importata" #define D_IMPORT_REACTIVE "Potenza reattiva importata"
#define D_EXPORT_REACTIVE "Potenza reattiva esportata" #define D_EXPORT_REACTIVE "Potenza reattiva esportata"
#define D_TOTAL_REACTIVE "Potenza reattiva totale" #define D_TOTAL_REACTIVE "Potenza reattiva totale"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "°" #define D_UNIT_ANGLE "°"
#define D_TOTAL_ACTIVE "Potenza attiva totale" #define D_TOTAL_ACTIVE "Potenza attiva totale"
#define D_RESETTABLE_TOTAL_ACTIVE "Potenza attiva totale (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Potenza attiva totale (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "초" #define D_UNIT_SECOND "초"
#define D_UNIT_SECTORS "섹터" #define D_UNIT_SECTORS "섹터"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Import Reactive" #define D_IMPORT_REACTIVE "Import Reactive"
#define D_EXPORT_REACTIVE "Export Reactive" #define D_EXPORT_REACTIVE "Export Reactive"
#define D_TOTAL_REACTIVE "Total Reactive" #define D_TOTAL_REACTIVE "Total Reactive"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Deg" #define D_UNIT_ANGLE "Deg"
#define D_TOTAL_ACTIVE "Total Active" #define D_TOTAL_ACTIVE "Total Active"
#define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "sec" #define D_UNIT_SECOND "sec"
#define D_UNIT_SECTORS "sectoren" #define D_UNIT_SECTORS "sectoren"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Import blind" #define D_IMPORT_REACTIVE "Import blind"
#define D_EXPORT_REACTIVE "Export blind" #define D_EXPORT_REACTIVE "Export blind"
#define D_TOTAL_REACTIVE "Totaal blind" #define D_TOTAL_REACTIVE "Totaal blind"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Deg" #define D_UNIT_ANGLE "Deg"
#define D_TOTAL_ACTIVE "Totaal werkelijk" #define D_TOTAL_ACTIVE "Totaal werkelijk"
#define D_RESETTABLE_TOTAL_ACTIVE "Totaal werkelijk (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Totaal werkelijk (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "sec" #define D_UNIT_SECOND "sec"
#define D_UNIT_SECTORS "sektory" #define D_UNIT_SECTORS "sektory"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Bierna pobrana" #define D_IMPORT_REACTIVE "Bierna pobrana"
#define D_EXPORT_REACTIVE "Bierna oddana" #define D_EXPORT_REACTIVE "Bierna oddana"
#define D_TOTAL_REACTIVE "Bierna całkowita" #define D_TOTAL_REACTIVE "Bierna całkowita"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Stopni" #define D_UNIT_ANGLE "Stopni"
#define D_TOTAL_ACTIVE "Całkowita czynna" #define D_TOTAL_ACTIVE "Całkowita czynna"
#define D_RESETTABLE_TOTAL_ACTIVE "Całkowita czynna (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Całkowita czynna (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "s" #define D_UNIT_SECOND "s"
#define D_UNIT_SECTORS "setores" #define D_UNIT_SECTORS "setores"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "W/h" #define D_UNIT_WATTHOUR "W/h"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Importar Reativo" #define D_IMPORT_REACTIVE "Importar Reativo"
#define D_EXPORT_REACTIVE "Exportar Reativo" #define D_EXPORT_REACTIVE "Exportar Reativo"
#define D_TOTAL_REACTIVE "Reativo total" #define D_TOTAL_REACTIVE "Reativo total"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Deg" #define D_UNIT_ANGLE "Deg"
#define D_TOTAL_ACTIVE "Total Ativo" #define D_TOTAL_ACTIVE "Total Ativo"
#define D_RESETTABLE_TOTAL_ACTIVE "Total Activo (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Total Activo (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "sec" #define D_UNIT_SECOND "sec"
#define D_UNIT_SECTORS "setores" #define D_UNIT_SECTORS "setores"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Reativo importado" #define D_IMPORT_REACTIVE "Reativo importado"
#define D_EXPORT_REACTIVE "Reativo exportado" #define D_EXPORT_REACTIVE "Reativo exportado"
#define D_TOTAL_REACTIVE "Reactivo total" #define D_TOTAL_REACTIVE "Reactivo total"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Deg" #define D_UNIT_ANGLE "Deg"
#define D_TOTAL_ACTIVE "Total Ativo" #define D_TOTAL_ACTIVE "Total Ativo"
#define D_RESETTABLE_TOTAL_ACTIVE "Total Ativo (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Total Ativo (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "sec" #define D_UNIT_SECOND "sec"
#define D_UNIT_SECTORS "sectors" #define D_UNIT_SECTORS "sectors"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Import Reactiv" #define D_IMPORT_REACTIVE "Import Reactiv"
#define D_EXPORT_REACTIVE "Export Reactiv" #define D_EXPORT_REACTIVE "Export Reactiv"
#define D_TOTAL_REACTIVE "Total Reactiv" #define D_TOTAL_REACTIVE "Total Reactiv"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Deg" #define D_UNIT_ANGLE "Deg"
#define D_TOTAL_ACTIVE "Total Activ" #define D_TOTAL_ACTIVE "Total Activ"
#define D_RESETTABLE_TOTAL_ACTIVE "Total Activ (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Total Activ (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "sek" #define D_UNIT_SECOND "sek"
#define D_UNIT_SECTORS "sektory" #define D_UNIT_SECTORS "sektory"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Import Reactive" #define D_IMPORT_REACTIVE "Import Reactive"
#define D_EXPORT_REACTIVE "Export Reactive" #define D_EXPORT_REACTIVE "Export Reactive"
#define D_TOTAL_REACTIVE "Total Reactive" #define D_TOTAL_REACTIVE "Total Reactive"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Deg" #define D_UNIT_ANGLE "Deg"
#define D_TOTAL_ACTIVE "Total Active" #define D_TOTAL_ACTIVE "Total Active"
#define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "sek" #define D_UNIT_SECOND "sek"
#define D_UNIT_SECTORS "sektorer" #define D_UNIT_SECTORS "sektorer"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Import reaktiv" #define D_IMPORT_REACTIVE "Import reaktiv"
#define D_EXPORT_REACTIVE "Export reaktiv" #define D_EXPORT_REACTIVE "Export reaktiv"
#define D_TOTAL_REACTIVE "Total reaktiv" #define D_TOTAL_REACTIVE "Total reaktiv"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Deg" #define D_UNIT_ANGLE "Deg"
#define D_TOTAL_ACTIVE "Total aktiv" #define D_TOTAL_ACTIVE "Total aktiv"
#define D_RESETTABLE_TOTAL_ACTIVE "Total aktiv (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Total aktiv (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "sec" #define D_UNIT_SECOND "sec"
#define D_UNIT_SECTORS "sectors" #define D_UNIT_SECTORS "sectors"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Import Reactive" #define D_IMPORT_REACTIVE "Import Reactive"
#define D_EXPORT_REACTIVE "Export Reactive" #define D_EXPORT_REACTIVE "Export Reactive"
#define D_TOTAL_REACTIVE "Total Reactive" #define D_TOTAL_REACTIVE "Total Reactive"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Deg" #define D_UNIT_ANGLE "Deg"
#define D_TOTAL_ACTIVE "Total Active" #define D_TOTAL_ACTIVE "Total Active"
#define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "sec" #define D_UNIT_SECOND "sec"
#define D_UNIT_SECTORS "sectors" #define D_UNIT_SECTORS "sectors"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Import Reactive" #define D_IMPORT_REACTIVE "Import Reactive"
#define D_EXPORT_REACTIVE "Export Reactive" #define D_EXPORT_REACTIVE "Export Reactive"
#define D_TOTAL_REACTIVE "Total Reactive" #define D_TOTAL_REACTIVE "Total Reactive"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Deg" #define D_UNIT_ANGLE "Deg"
#define D_TOTAL_ACTIVE "Total Active" #define D_TOTAL_ACTIVE "Total Active"
#define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "秒" #define D_UNIT_SECOND "秒"
#define D_UNIT_SECTORS "扇区" #define D_UNIT_SECTORS "扇区"
#define D_UNIT_VA "VA" #define D_UNIT_VA "VA"
#define D_UNIT_VAR "VAr" #define D_UNIT_VAR "var"
#define D_UNIT_VOLT "V" #define D_UNIT_VOLT "V"
#define D_UNIT_WATT "W" #define D_UNIT_WATT "W"
#define D_UNIT_WATTHOUR "Wh" #define D_UNIT_WATTHOUR "Wh"

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@ -1059,7 +1059,7 @@
#define D_UNIT_SECOND "秒" #define D_UNIT_SECOND "秒"
#define D_UNIT_SECTORS "磁區" #define D_UNIT_SECTORS "磁區"
#define D_UNIT_VA "伏安(VA)" #define D_UNIT_VA "伏安(VA)"
#define D_UNIT_VAR "乏爾(VAr)" #define D_UNIT_VAR "乏爾(var)"
#define D_UNIT_VOLT "伏特" #define D_UNIT_VOLT "伏特"
#define D_UNIT_WATT "瓦特" #define D_UNIT_WATT "瓦特"
#define D_UNIT_WATTHOUR "瓦小時" #define D_UNIT_WATTHOUR "瓦小時"
@ -1081,7 +1081,7 @@
#define D_IMPORT_REACTIVE "Import Reactive" #define D_IMPORT_REACTIVE "Import Reactive"
#define D_EXPORT_REACTIVE "Export Reactive" #define D_EXPORT_REACTIVE "Export Reactive"
#define D_TOTAL_REACTIVE "Total Reactive" #define D_TOTAL_REACTIVE "Total Reactive"
#define D_UNIT_KWARH "kVArh" #define D_UNIT_KWARH "kvarh"
#define D_UNIT_ANGLE "Deg" #define D_UNIT_ANGLE "Deg"
#define D_TOTAL_ACTIVE "Total Active" #define D_TOTAL_ACTIVE "Total Active"
#define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)" #define D_RESETTABLE_TOTAL_ACTIVE "Total Active (RST)"

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@ -80,7 +80,7 @@ typedef struct {
float current[ENERGY_MAX_PHASES]; // 123.123 A float current[ENERGY_MAX_PHASES]; // 123.123 A
float active_power[ENERGY_MAX_PHASES]; // 123.1 W float active_power[ENERGY_MAX_PHASES]; // 123.1 W
float apparent_power[ENERGY_MAX_PHASES]; // 123.1 VA float apparent_power[ENERGY_MAX_PHASES]; // 123.1 VA
float reactive_power[ENERGY_MAX_PHASES]; // 123.1 VAr float reactive_power[ENERGY_MAX_PHASES]; // 123.1 var
float power_factor[ENERGY_MAX_PHASES]; // 0.12 float power_factor[ENERGY_MAX_PHASES]; // 0.12
float frequency[ENERGY_MAX_PHASES]; // 123.1 Hz float frequency[ENERGY_MAX_PHASES]; // 123.1 Hz
float import_active[ENERGY_MAX_PHASES]; // 123.123 kWh float import_active[ENERGY_MAX_PHASES]; // 123.123 kWh

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@ -157,7 +157,7 @@ typedef struct {
float current[ENERGY_MAX_PHASES]; // 123.123 A float current[ENERGY_MAX_PHASES]; // 123.123 A
float active_power[ENERGY_MAX_PHASES]; // 123.1 W float active_power[ENERGY_MAX_PHASES]; // 123.1 W
float apparent_power[ENERGY_MAX_PHASES]; // 123.1 VA float apparent_power[ENERGY_MAX_PHASES]; // 123.1 VA
float reactive_power[ENERGY_MAX_PHASES]; // 123.1 VAr float reactive_power[ENERGY_MAX_PHASES]; // 123.1 var
float power_factor[ENERGY_MAX_PHASES]; // 0.12 float power_factor[ENERGY_MAX_PHASES]; // 0.12
float frequency[ENERGY_MAX_PHASES]; // 123.1 Hz float frequency[ENERGY_MAX_PHASES]; // 123.1 Hz
float import_active[ENERGY_MAX_PHASES]; // 123.123 kWh float import_active[ENERGY_MAX_PHASES]; // 123.123 kWh

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@ -48,7 +48,7 @@ const char kHAssJsonSensorUnits[] PROGMEM =
"||||" "||||"
"VA|%|A|cm|Hz|%|lux|" "VA|%|A|cm|Hz|%|lux|"
"%|ppd|ppd|ppd|ppd|ppd|ppd|µg/m³|µg/m³|µg/m³|Cos φ|W| |" "%|ppd|ppd|ppd|ppd|ppd|ppd|µg/m³|µg/m³|µg/m³|Cos φ|W| |"
"VAr|kWh|kWh|V|kg|kWh|" "var|kWh|kWh|V|kg|kWh|"
"ppm|ppm|ppb|R|G|B|" D_UNIT_KELVIN "| |"; "ppm|ppm|ppb|R|G|B|" D_UNIT_KELVIN "| |";
const char kHAssJsonSensorDevCla[] PROGMEM = const char kHAssJsonSensorDevCla[] PROGMEM =

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@ -247,7 +247,7 @@ typedef struct {
float current[SSPM_MAX_MODULES][4]; // 123.12 A float current[SSPM_MAX_MODULES][4]; // 123.12 A
float active_power[SSPM_MAX_MODULES][4]; // 123.12 W float active_power[SSPM_MAX_MODULES][4]; // 123.12 W
float apparent_power[SSPM_MAX_MODULES][4]; // 123.12 VA float apparent_power[SSPM_MAX_MODULES][4]; // 123.12 VA
float reactive_power[SSPM_MAX_MODULES][4]; // 123.12 VAr float reactive_power[SSPM_MAX_MODULES][4]; // 123.12 var
float power_factor[SSPM_MAX_MODULES][4]; // 0.12 float power_factor[SSPM_MAX_MODULES][4]; // 0.12
float energy_today[SSPM_MAX_MODULES][4]; // 12345 kWh float energy_today[SSPM_MAX_MODULES][4]; // 12345 kWh
float energy_total[SSPM_MAX_MODULES][4]; // 12345 kWh total energy since last 6 month!!! float energy_total[SSPM_MAX_MODULES][4]; // 12345 kWh total energy since last 6 month!!!
@ -1561,7 +1561,7 @@ void SSPMHandleReceivedData(void) {
Sspm->current[module][channel] = SspmBuffer[offset] + (float)SspmBuffer[offset +1] / 100; // x.xxA Sspm->current[module][channel] = SspmBuffer[offset] + (float)SspmBuffer[offset +1] / 100; // x.xxA
Sspm->voltage[module][channel] = SSPMGetValue(&SspmBuffer[offset +2]); // x.xxV Sspm->voltage[module][channel] = SSPMGetValue(&SspmBuffer[offset +2]); // x.xxV
Sspm->active_power[module][channel] = SSPMGetValue(&SspmBuffer[offset +5]); // x.xxW Sspm->active_power[module][channel] = SSPMGetValue(&SspmBuffer[offset +5]); // x.xxW
Sspm->reactive_power[module][channel] = SSPMGetValue(&SspmBuffer[offset +8]); // x.xxVAr Sspm->reactive_power[module][channel] = SSPMGetValue(&SspmBuffer[offset +8]); // x.xxvar
Sspm->apparent_power[module][channel] = SSPMGetValue(&SspmBuffer[offset +11]); // x.xxVA Sspm->apparent_power[module][channel] = SSPMGetValue(&SspmBuffer[offset +11]); // x.xxVA
float power_factor = (Sspm->active_power[module][channel] && Sspm->apparent_power[module][channel]) ? Sspm->active_power[module][channel] / Sspm->apparent_power[module][channel] : 0; float power_factor = (Sspm->active_power[module][channel] && Sspm->apparent_power[module][channel]) ? Sspm->active_power[module][channel] / Sspm->apparent_power[module][channel] : 0;
if (power_factor > 1) { power_factor = 1; } if (power_factor > 1) { power_factor = 1; }

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@ -599,7 +599,7 @@ void CmndDspLine(void) {
// Example 2: PZEM016 serial connected (GPIO25 = PZEM0XX Tx, GPIO26 = PZEM016 Rx) // Example 2: PZEM016 serial connected (GPIO25 = PZEM0XX Tx, GPIO26 = PZEM016 Rx)
// {"ENERGY":{"TotalStartTime":"2022-07-05T16:01:39","Total":0.000,"Yesterday":0.000,"Today":0.000,"Power":0.00,"ApparentPower":0.00,"ReactivePower":0.00,"Factor":0.00,"Frequency":50,"Voltage":231.7,"Current":0.000}} // {"ENERGY":{"TotalStartTime":"2022-07-05T16:01:39","Total":0.000,"Yesterday":0.000,"Today":0.000,"Power":0.00,"ApparentPower":0.00,"ReactivePower":0.00,"Factor":0.00,"Frequency":50,"Voltage":231.7,"Current":0.000}}
// index: 1 2 3 4 5 6 7 8 9 10 11 12 // index: 1 2 3 4 5 6 7 8 9 10 11 12
// unit: 0 0 4 (kWh) 4 (kWh) 4 (kWh) 4 (W) 0 (VA) 0 (VAr) 0 0 3 (V) 3 (A) // unit: 0 0 4 (kWh) 4 (kWh) 4 (kWh) 4 (W) 0 (VA) 0 (var) 0 0 3 (V) 3 (A)
TM1621GetSensors(1); TM1621GetSensors(1);
} }
} }

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@ -462,10 +462,10 @@ void Ade7953Init(void) {
} }
} }
#ifdef USE_ESP32_SPI #ifdef USE_ESP32_SPI
AddLog(LOG_LEVEL_DEBUG_MORE, PSTR("ADE: Chip%d CalibRegs%c V %d, I %d, W %d, VA %d, VAr %d, Ph %d"), AddLog(LOG_LEVEL_DEBUG_MORE, PSTR("ADE: Chip%d CalibRegs%c V %d, I %d, W %d, VA %d, var %d, Ph %d"),
chip +1, 'A'+channel, regs[0], regs[1], regs[2], regs[3], regs[4], regs[5]); chip +1, 'A'+channel, regs[0], regs[1], regs[2], regs[3], regs[4], regs[5]);
#else #else
AddLog(LOG_LEVEL_DEBUG_MORE, PSTR("ADE: CalibRegs%c V %d, I %d, W %d, VA %d, VAr %d, Ph %d"), AddLog(LOG_LEVEL_DEBUG_MORE, PSTR("ADE: CalibRegs%c V %d, I %d, W %d, VA %d, var %d, Ph %d"),
'A'+channel, regs[0], regs[1], regs[2], regs[3], regs[4], regs[5]); 'A'+channel, regs[0], regs[1], regs[2], regs[3], regs[4], regs[5]);
#endif // USE_ESP32_SPI #endif // USE_ESP32_SPI
} }

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@ -54,8 +54,8 @@ const uint16_t sdm120_start_addresses[] {
0X0048, // SDM220_IMPORT_ACTIVE [kWh] 0X0048, // SDM220_IMPORT_ACTIVE [kWh]
0X004A, // SDM220_EXPORT_ACTIVE [kWh] 0X004A, // SDM220_EXPORT_ACTIVE [kWh]
0X004C, // SDM220_IMPORT_REACTIVE [kVArh] 0X004C, // SDM220_IMPORT_REACTIVE [kvarh]
0X004E, // SDM220_EXPORT_REACTIVE [kVArh] 0X004E, // SDM220_EXPORT_REACTIVE [kvarh]
0X0024 // SDM220_PHASE_ANGLE [Degree] 0X0024 // SDM220_PHASE_ANGLE [Degree]
}; };
@ -138,11 +138,11 @@ void SDM120Every250ms(void)
break; break;
case 10: case 10:
Sdm120.import_reactive = value; // 172.750 kVArh Sdm120.import_reactive = value; // 172.750 kvarh
break; break;
case 11: case 11:
Sdm120.export_reactive = value; // 2.844 kVArh Sdm120.export_reactive = value; // 2.844 kvarh
break; break;
case 12: case 12:

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@ -80,9 +80,9 @@ const uint16_t sdm630_start_addresses[] {
0x000C, // + - + W Phase 1 power 0x000C, // + - + W Phase 1 power
0x000E, // + - + W Phase 2 power 0x000E, // + - + W Phase 2 power
0x0010, // + - - W Phase 3 power 0x0010, // + - - W Phase 3 power
0x0018, // + - + VAr Phase 1 volt amps reactive 0x0018, // + - + var Phase 1 volt amps reactive
0x001A, // + - - VAr Phase 2 volt amps reactive 0x001A, // + - - var Phase 2 volt amps reactive
0x001C, // + - - VAr Phase 3 volt amps reactive 0x001C, // + - - var Phase 3 volt amps reactive
0x001E, // + - + Phase 1 power factor 0x001E, // + - + Phase 1 power factor
0x0020, // + - - Phase 2 power factor 0x0020, // + - - Phase 2 power factor
0x0022, // + - - Phase 3 power factor 0x0022, // + - - Phase 3 power factor
@ -165,9 +165,9 @@ void SDM630Every250ms(void)
Energy->apparent_power[2] = convBufToFloat(&buffer[47]); // + - - VA Phase 3 volt amps Energy->apparent_power[2] = convBufToFloat(&buffer[47]); // + - - VA Phase 3 volt amps
//0x0018 //0x0018
Energy->reactive_power[0] = convBufToFloat(&buffer[51]); // + - + VAr Phase 1 volt amps reactive Energy->reactive_power[0] = convBufToFloat(&buffer[51]); // + - + var Phase 1 volt amps reactive
Energy->reactive_power[1] = convBufToFloat(&buffer[55]); // + - - VAr Phase 2 volt amps reactive Energy->reactive_power[1] = convBufToFloat(&buffer[55]); // + - - var Phase 2 volt amps reactive
Energy->reactive_power[2] = convBufToFloat(&buffer[59]); // + - - VAr Phase 3 volt amps reactive Energy->reactive_power[2] = convBufToFloat(&buffer[59]); // + - - var Phase 3 volt amps reactive
//0x001E //0x001E
Energy->power_factor[0] = convBufToFloat(&buffer[63]); // + - + Phase 1 power factor Energy->power_factor[0] = convBufToFloat(&buffer[63]); // + - + Phase 1 power factor

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@ -24,7 +24,7 @@
* (and bidirectional energy counting - enabled by RS485). * (and bidirectional energy counting - enabled by RS485).
* It measure: Active energy imported AE+ [kWh] , Reactive energy imported RE+ [kvarh], * It measure: Active energy imported AE+ [kWh] , Reactive energy imported RE+ [kvarh],
* Voltage V [V], Current I [A], Frequency F [Hz], power factor (aka "cos-phi"), * Voltage V [V], Current I [A], Frequency F [Hz], power factor (aka "cos-phi"),
* Active power P [kW], Reactive power Q [kVAr], Apparent power S [kVA], * Active power P [kW], Reactive power Q [kvar], Apparent power S [kVA],
* *Active energy exported AE- [kWh] (when meter is switched to bi-directional counting then * *Active energy exported AE- [kWh] (when meter is switched to bi-directional counting then
* reactive energy imported register contains value of Active energy exported). * reactive energy imported register contains value of Active energy exported).
* *

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@ -54,9 +54,9 @@ const uint16_t we517_start_addresses[] {
/* 6 */ 0x001E, // + - + kW Phase 1 power /* 6 */ 0x001E, // + - + kW Phase 1 power
/* 7 */ 0x0020, // + - + kW Phase 2 power /* 7 */ 0x0020, // + - + kW Phase 2 power
/* 8 */ 0x0022, // + - - kW Phase 3 power /* 8 */ 0x0022, // + - - kW Phase 3 power
/* 9 */ 0x0026, // + - + VAr Phase 1 volt amps reactive /* 9 */ 0x0026, // + - + var Phase 1 volt amps reactive
/* 10 */ 0x0028, // + - - VAr Phase 2 volt amps reactive /* 10 */ 0x0028, // + - - var Phase 2 volt amps reactive
/* 11 */ 0x002A, // + - - VAr Phase 3 volt amps reactive /* 11 */ 0x002A, // + - - var Phase 3 volt amps reactive
/* 12 */ 0x0036, // + - + Phase 1 power factor /* 12 */ 0x0036, // + - + Phase 1 power factor
/* 13 */ 0x0038, // + - - Phase 2 power factor /* 13 */ 0x0038, // + - - Phase 2 power factor
/* 14 */ 0x003A, // + - - Phase 3 power factor /* 14 */ 0x003A, // + - - Phase 3 power factor

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@ -53,7 +53,7 @@ const uint16_t sdm230_start_addresses[] {
0x0006, // SDM230_CURRENT [A] 0x0006, // SDM230_CURRENT [A]
0x000C, // SDM230_POWER (Active) [W] 0x000C, // SDM230_POWER (Active) [W]
0x0012, // SDM230_POWER (Apparent) G [VA] 0x0012, // SDM230_POWER (Apparent) G [VA]
0x0018, // SDM230_POWER (Reactive) [VAr] 0x0018, // SDM230_POWER (Reactive) [var]
0x001E, // SDM230_POWER_FACTOR 0x001E, // SDM230_POWER_FACTOR
0x0046, // SDM230_FREQUENCY [Hz] 0x0046, // SDM230_FREQUENCY [Hz]
0X0048, // SDM230_IMPORT_ACTIVE [kWh] 0X0048, // SDM230_IMPORT_ACTIVE [kWh]
@ -68,10 +68,10 @@ const uint16_t sdm230_start_addresses[] {
#endif // SDM230_MORE_REGS #endif // SDM230_MORE_REGS
// for documentation / further use or implementation // for documentation / further use or implementation
// 0X0158, // SDM230_TOTAL_ENERGY_REACTIVE [kVArh] // 0X0158, // SDM230_TOTAL_ENERGY_REACTIVE [kvarh]
// 0X0182, // SDM230_RESETTABLE_TOTAL_ENERGY_REACTIVE [kVArh] // 0X0182, // SDM230_RESETTABLE_TOTAL_ENERGY_REACTIVE [kvarh]
// 0X004C, // SDM230_IMPORT_REACTIVE [kVArh] // 0X004C, // SDM230_IMPORT_REACTIVE [kvarh]
// 0X004E, // SDM230_EXPORT_REACTIVE [kVArh] // 0X004E, // SDM230_EXPORT_REACTIVE [kvarh]
// 0X0054, // SDM230_TOTAL_DEMAND_POWER_ACTIVE [W] // 0X0054, // SDM230_TOTAL_DEMAND_POWER_ACTIVE [W]
// 0X0058, // SDM230_IMPORT_DEMAND_POWER_ACTIVE [W] // 0X0058, // SDM230_IMPORT_DEMAND_POWER_ACTIVE [W]
// 0X005A, // SDM230_MAXIMUM_IMPORT_DEMAND_POWER_ACTIVE [W] // 0X005A, // SDM230_MAXIMUM_IMPORT_DEMAND_POWER_ACTIVE [W]