{ includeZero: true });
- heading(3, "AC Power from each inverter (W)");
+ heading(3, "AC Power from each inverter (W) [Pac]");
graph_csv_files("AC Power",
days_csv_files(),
"Pac",
{ includeZero: true });
- heading(3, "DC Voltage for each inverter (V)");
+ heading(3, "DC Voltage for each inverter (V) [UpvSoll]");
graph_csv_files("DC Voltage",
days_csv_files(),
{ includeZero: false,
missingValue: 666 });
- heading(3, "Target DC Voltage for each inverter (V)");
+ heading(3, "Target DC Voltage for each inverter (V) [UpvIst]");
graph_csv_files("Target DC Voltage",
days_csv_files(),
"Ipv",
{ includeZero: true });
- heading(3, "DC Current for each inverter (A)");
+ heading(3, "DC Current for each inverter (A) [Ipv]");
- graph_csv_files("DC Current",
+ graph_csv_files("DC Current [Ipv]",
days_csv_files(),
"Ipv",
{ includeZero: false });
- heading(3, "DC Power for each inverter (W)");
+ heading(3, "DC Power for each inverter (W) [Ipv*UpvSoll]");
graph_csv_files_func("DC Power",
{ includeZero: true });
- heading(3, "Inverter efficiencies (%)");
+ heading(3, "Inverter efficiencies (%) [(Ipv*UpvSoll)/Pac]");
function efficiency(v) {
var dc_pow = v[1] * v[2];
{ includeZero: false,
valueRange: [0, 100]});
- heading(3, "AC Voltage for each inverter (V)");
+ heading(3, "AC Voltage for each inverter (V) [Uac]");
graph_csv_files("AC Voltage",
days_csv_files(),
"Uac",
{ includeZero: false });
- heading(3, "Lifetime Power for each inverter (kWh)");
+ heading(3, "Lifetime Power for each inverter (kWh) [E-total]");
graph_csv_files("Lifetime Power",
days_csv_files(),
"E-Total",
{ includeZero: false });
- heading(3, "Fan voltage for each inverter (V)");
+ heading(3, "Fan voltage for each inverter (V) [UFan]");
graph_csv_files("Fan Voltage",
days_csv_files(),