📄️ Parameters overview
Measurement Point parameters control how data is named, converted, filtered, and displayed in charts and exports. Parameters can be applied globally or to specific channels, units, sensors, data types, and time periods.
📄️ Acceleration parameters
Parameters that affect acceleration charts (X, Y, Z axes).
📄️ Inclination parameters
Controls which inclination charts are generated and how values are converted to lengths, settlements, or deviations.
📄️ Raw data parameters
Configure processing for raw sensor outputs, including optional temperature compensation and specialized data handling.
📄️ Strain parameters
Configure formulas and filters for strain measurements, including classic and vendor-specific modes.
📄️ Unit data parameters
Parameters for processed unit data series.
📄️ Environment parameters
Parameters for environmental readings (temperature, humidity, etc.).
📄️ Voltage parameters
Voltage charts use generic parameters for naming, units, precision, scaling, and filtering. No additional voltage-specific parameters are required.
📄️ Coordinate parameters (JTSK & Local)
Coordinate charts display positions in both JTSK (national) and Local systems when available. These series rely on generic parameters; there are no coordinate-specific parameters.
📄️ Dilato parameters
Dilato charts convert tension-like measurements into displacement. Use generic parameters (multiplier, divider, offset, toFixed, useApiCalculation, hideData) to control conversions and display. No dilato-specific parameters are required.
📄️ Device parameters
Device operational data (e.g., internal temperature, humidity, battery) uses generic parameters. Commonly used:
📄️ Only Temps parameters
Build temperature-focused charts and derived series.