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Site_Database_Name

Site_Name

Calibration_Info

WATER_SLOPEUsed for RADAR to indicate the slope [degrees] of the pipe e.g. -0.5 indicates a slope of 0.5degrees downstream assuming the sensor points upstream

INSTALL_DEPTHUsed for RADAR to indicate the vertical distance [mm] between the radar lens and the invert of the pipe e.g. 2000

MAX_DEPTHUsed for RADAR to indicate the maximum depth [mm] of water that the radar can measure, set equal to INSTALL_DEPTH minus the blanking distance of the sensor e.g. 500

DEPTH_THRES_FOR_VELUsed for RADAR to set a minimum depth [mm] for a reliable velocity measurement below which the velocity is set to zero e.g. 10

SLOPE_DEPTHUsed for the in water pressure sensor on the DT and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_DEPTHUsed for the in water pressure sensor on the DT and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

TURB_WUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement with LED. This is used to subtract the TURB_WO to determine correc the TURB_W value in the adjusted dataset e.g. Turbw

TURB_WOUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement without LED e.g. Turbwo

TURB_ECUsed for the Turbidity sensor when an EC sensor is also present on the same logger and is used to determine whether water is present When used, this value is an array which in the first spot is the threshold below which there is no water and the second spot tells which column to look at EC separated by a semicolon e.g. 0;EC

SLOPE_TURBUsed for the in TURBIDITY sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TURBUsed for the in TURBIDITY sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_ECUsed for the in EC sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_ECUsed for the in EC sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_TEMPUsed for the in TEMP sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TEMPUsed for the in TEMP sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

WATER_SLOPEUsed for RADAR to indicate the slope [degrees] of the pipe e.g. -0.5 indicates a slope of 0.5degrees downstream assuming the sensor points upstream

INSTALL_DEPTHUsed for RADAR to indicate the vertical distance [mm] between the radar lens and the invert of the pipe e.g. 2000

MAX_DEPTHUsed for RADAR to indicate the maximum depth [mm] of water that the radar can measure, set equal to INSTALL_DEPTH minus the blanking distance of the sensor e.g. 500

DEPTH_THRES_FOR_VELUsed for RADAR to set a minimum depth [mm] for a reliable velocity measurement below which the velocity is set to zero e.g. 10

SLOPE_DEPTHUsed for the in water pressure sensor on the DT and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_DEPTHUsed for the in water pressure sensor on the DT and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

TURB_WUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement with LED. This is used to subtract the TURB_WO to determine correc the TURB_W value in the adjusted dataset e.g. Turbw

TURB_WOUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement without LED e.g. Turbwo

TURB_ECUsed for the Turbidity sensor when an EC sensor is also present on the same logger and is used to determine whether water is present When used, this value is an array which in the first spot is the threshold below which there is no water and the second spot tells which column to look at EC separated by a semicolon e.g. 0;EC

SLOPE_TURBUsed for the in TURBIDITY sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TURBUsed for the in TURBIDITY sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_ECUsed for the in EC sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_ECUsed for the in EC sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_TEMPUsed for the in TEMP sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TEMPUsed for the in TEMP sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

WATER_SLOPEUsed for RADAR to indicate the slope [degrees] of the pipe e.g. -0.5 indicates a slope of 0.5degrees downstream assuming the sensor points upstream

INSTALL_DEPTHUsed for RADAR to indicate the vertical distance [mm] between the radar lens and the invert of the pipe e.g. 2000

MAX_DEPTHUsed for RADAR to indicate the maximum depth [mm] of water that the radar can measure, set equal to INSTALL_DEPTH minus the blanking distance of the sensor e.g. 500

DEPTH_THRES_FOR_VELUsed for RADAR to set a minimum depth [mm] for a reliable velocity measurement below which the velocity is set to zero e.g. 10

SLOPE_DEPTHUsed for the in water pressure sensor on the DT and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_DEPTHUsed for the in water pressure sensor on the DT and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

TURB_WUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement with LED. This is used to subtract the TURB_WO to determine correc the TURB_W value in the adjusted dataset e.g. Turbw

TURB_WOUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement without LED e.g. Turbwo

TURB_ECUsed for the Turbidity sensor when an EC sensor is also present on the same logger and is used to determine whether water is present When used, this value is an array which in the first spot is the threshold below which there is no water and the second spot tells which column to look at EC separated by a semicolon e.g. 0;EC

SLOPE_TURBUsed for the in TURBIDITY sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TURBUsed for the in TURBIDITY sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_ECUsed for the in EC sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_ECUsed for the in EC sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_TEMPUsed for the in TEMP sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TEMPUsed for the in TEMP sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

WATER_SLOPEUsed for RADAR to indicate the slope [degrees] of the pipe e.g. -0.5 indicates a slope of 0.5degrees downstream assuming the sensor points upstream

INSTALL_DEPTHUsed for RADAR to indicate the vertical distance [mm] between the radar lens and the invert of the pipe e.g. 2000

MAX_DEPTHUsed for RADAR to indicate the maximum depth [mm] of water that the radar can measure, set equal to INSTALL_DEPTH minus the blanking distance of the sensor e.g. 500

DEPTH_THRES_FOR_VELUsed for RADAR to set a minimum depth [mm] for a reliable velocity measurement below which the velocity is set to zero e.g. 10

SLOPE_DEPTHUsed for the in water pressure sensor on the DT and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_DEPTHUsed for the in water pressure sensor on the DT and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

TURB_WUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement with LED. This is used to subtract the TURB_WO to determine correc the TURB_W value in the adjusted dataset e.g. Turbw

TURB_WOUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement without LED e.g. Turbwo

TURB_ECUsed for the Turbidity sensor when an EC sensor is also present on the same logger and is used to determine whether water is present When used, this value is an array which in the first spot is the threshold below which there is no water and the second spot tells which column to look at EC separated by a semicolon e.g. 0;EC

SLOPE_TURBUsed for the in TURBIDITY sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TURBUsed for the in TURBIDITY sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_ECUsed for the in EC sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_ECUsed for the in EC sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_TEMPUsed for the in TEMP sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TEMPUsed for the in TEMP sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

WATER_SLOPEUsed for RADAR to indicate the slope [degrees] of the pipe e.g. -0.5 indicates a slope of 0.5degrees downstream assuming the sensor points upstream

INSTALL_DEPTHUsed for RADAR to indicate the vertical distance [mm] between the radar lens and the invert of the pipe e.g. 2000

MAX_DEPTHUsed for RADAR to indicate the maximum depth [mm] of water that the radar can measure, set equal to INSTALL_DEPTH minus the blanking distance of the sensor e.g. 500

DEPTH_THRES_FOR_VELUsed for RADAR to set a minimum depth [mm] for a reliable velocity measurement below which the velocity is set to zero e.g. 10

SLOPE_DEPTHUsed for the in water pressure sensor on the DT and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_DEPTHUsed for the in water pressure sensor on the DT and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

TURB_WUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement with LED. This is used to subtract the TURB_WO to determine correc the TURB_W value in the adjusted dataset e.g. Turbw

TURB_WOUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement without LED e.g. Turbwo

TURB_ECUsed for the Turbidity sensor when an EC sensor is also present on the same logger and is used to determine whether water is present When used, this value is an array which in the first spot is the threshold below which there is no water and the second spot tells which column to look at EC separated by a semicolon e.g. 0;EC

SLOPE_TURBUsed for the in TURBIDITY sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TURBUsed for the in TURBIDITY sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_ECUsed for the in EC sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_ECUsed for the in EC sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_TEMPUsed for the in TEMP sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TEMPUsed for the in TEMP sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

WATER_SLOPEUsed for RADAR to indicate the slope [degrees] of the pipe e.g. -0.5 indicates a slope of 0.5degrees downstream assuming the sensor points upstream

INSTALL_DEPTHUsed for RADAR to indicate the vertical distance [mm] between the radar lens and the invert of the pipe e.g. 2000

MAX_DEPTHUsed for RADAR to indicate the maximum depth [mm] of water that the radar can measure, set equal to INSTALL_DEPTH minus the blanking distance of the sensor e.g. 500

DEPTH_THRES_FOR_VELUsed for RADAR to set a minimum depth [mm] for a reliable velocity measurement below which the velocity is set to zero e.g. 10

SLOPE_DEPTHUsed for the in water pressure sensor on the DT and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_DEPTHUsed for the in water pressure sensor on the DT and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

TURB_WUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement with LED. This is used to subtract the TURB_WO to determine correc the TURB_W value in the adjusted dataset e.g. Turbw

TURB_WOUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement without LED e.g. Turbwo

TURB_ECUsed for the Turbidity sensor when an EC sensor is also present on the same logger and is used to determine whether water is present When used, this value is an array which in the first spot is the threshold below which there is no water and the second spot tells which column to look at EC separated by a semicolon e.g. 0;EC

SLOPE_TURBUsed for the in TURBIDITY sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TURBUsed for the in TURBIDITY sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_ECUsed for the in EC sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_ECUsed for the in EC sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_TEMPUsed for the in TEMP sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TEMPUsed for the in TEMP sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

WATER_SLOPEUsed for RADAR to indicate the slope [degrees] of the pipe e.g. -0.5 indicates a slope of 0.5degrees downstream assuming the sensor points upstream

INSTALL_DEPTHUsed for RADAR to indicate the vertical distance [mm] between the radar lens and the invert of the pipe e.g. 2000

MAX_DEPTHUsed for RADAR to indicate the maximum depth [mm] of water that the radar can measure, set equal to INSTALL_DEPTH minus the blanking distance of the sensor e.g. 500

DEPTH_THRES_FOR_VELUsed for RADAR to set a minimum depth [mm] for a reliable velocity measurement below which the velocity is set to zero e.g. 10

SLOPE_DEPTHUsed for the in water pressure sensor on the DT and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_DEPTHUsed for the in water pressure sensor on the DT and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

TURB_WUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement with LED. This is used to subtract the TURB_WO to determine correc the TURB_W value in the adjusted dataset e.g. Turbw

TURB_WOUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement without LED e.g. Turbwo

TURB_ECUsed for the Turbidity sensor when an EC sensor is also present on the same logger and is used to determine whether water is present When used, this value is an array which in the first spot is the threshold below which there is no water and the second spot tells which column to look at EC separated by a semicolon e.g. 0;EC

SLOPE_TURBUsed for the in TURBIDITY sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TURBUsed for the in TURBIDITY sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_ECUsed for the in EC sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_ECUsed for the in EC sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_TEMPUsed for the in TEMP sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TEMPUsed for the in TEMP sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

WATER_SLOPEUsed for RADAR to indicate the slope [degrees] of the pipe e.g. -0.5 indicates a slope of 0.5degrees downstream assuming the sensor points upstream

INSTALL_DEPTHUsed for RADAR to indicate the vertical distance [mm] between the radar lens and the invert of the pipe e.g. 2000

MAX_DEPTHUsed for RADAR to indicate the maximum depth [mm] of water that the radar can measure, set equal to INSTALL_DEPTH minus the blanking distance of the sensor e.g. 500

DEPTH_THRES_FOR_VELUsed for RADAR to set a minimum depth [mm] for a reliable velocity measurement below which the velocity is set to zero e.g. 10

SLOPE_DEPTHUsed for the in water pressure sensor on the DT and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_DEPTHUsed for the in water pressure sensor on the DT and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

TURB_WUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement with LED. This is used to subtract the TURB_WO to determine correc the TURB_W value in the adjusted dataset e.g. Turbw

TURB_WOUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement without LED e.g. Turbwo

TURB_ECUsed for the Turbidity sensor when an EC sensor is also present on the same logger and is used to determine whether water is present When used, this value is an array which in the first spot is the threshold below which there is no water and the second spot tells which column to look at EC separated by a semicolon e.g. 0;EC

SLOPE_TURBUsed for the in TURBIDITY sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TURBUsed for the in TURBIDITY sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_ECUsed for the in EC sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_ECUsed for the in EC sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_TEMPUsed for the in TEMP sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TEMPUsed for the in TEMP sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

WATER_SLOPEUsed for RADAR to indicate the slope [degrees] of the pipe e.g. -0.5 indicates a slope of 0.5degrees downstream assuming the sensor points upstream

INSTALL_DEPTHUsed for RADAR to indicate the vertical distance [mm] between the radar lens and the invert of the pipe e.g. 2000

MAX_DEPTHUsed for RADAR to indicate the maximum depth [mm] of water that the radar can measure, set equal to INSTALL_DEPTH minus the blanking distance of the sensor e.g. 500

DEPTH_THRES_FOR_VELUsed for RADAR to set a minimum depth [mm] for a reliable velocity measurement below which the velocity is set to zero e.g. 10

SLOPE_DEPTHUsed for the in water pressure sensor on the DT and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_DEPTHUsed for the in water pressure sensor on the DT and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

TURB_WUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement with LED. This is used to subtract the TURB_WO to determine correc the TURB_W value in the adjusted dataset e.g. Turbw

TURB_WOUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement without LED e.g. Turbwo

TURB_ECUsed for the Turbidity sensor when an EC sensor is also present on the same logger and is used to determine whether water is present When used, this value is an array which in the first spot is the threshold below which there is no water and the second spot tells which column to look at EC separated by a semicolon e.g. 0;EC

SLOPE_TURBUsed for the in TURBIDITY sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TURBUsed for the in TURBIDITY sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_ECUsed for the in EC sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_ECUsed for the in EC sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_TEMPUsed for the in TEMP sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TEMPUsed for the in TEMP sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

WATER_SLOPEUsed for RADAR to indicate the slope [degrees] of the pipe e.g. -0.5 indicates a slope of 0.5degrees downstream assuming the sensor points upstream

INSTALL_DEPTHUsed for RADAR to indicate the vertical distance [mm] between the radar lens and the invert of the pipe e.g. 2000

MAX_DEPTHUsed for RADAR to indicate the maximum depth [mm] of water that the radar can measure, set equal to INSTALL_DEPTH minus the blanking distance of the sensor e.g. 500

DEPTH_THRES_FOR_VELUsed for RADAR to set a minimum depth [mm] for a reliable velocity measurement below which the velocity is set to zero e.g. 10

SLOPE_DEPTHUsed for the in water pressure sensor on the DT and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_DEPTHUsed for the in water pressure sensor on the DT and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

TURB_WUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement with LED. This is used to subtract the TURB_WO to determine correc the TURB_W value in the adjusted dataset e.g. Turbw

TURB_WOUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement without LED e.g. Turbwo

TURB_ECUsed for the Turbidity sensor when an EC sensor is also present on the same logger and is used to determine whether water is present When used, this value is an array which in the first spot is the threshold below which there is no water and the second spot tells which column to look at EC separated by a semicolon e.g. 0;EC

SLOPE_TURBUsed for the in TURBIDITY sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TURBUsed for the in TURBIDITY sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_ECUsed for the in EC sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_ECUsed for the in EC sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_TEMPUsed for the in TEMP sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TEMPUsed for the in TEMP sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

WATER_SLOPEUsed for RADAR to indicate the slope [degrees] of the pipe e.g. -0.5 indicates a slope of 0.5degrees downstream assuming the sensor points upstream

INSTALL_DEPTHUsed for RADAR to indicate the vertical distance [mm] between the radar lens and the invert of the pipe e.g. 2000

MAX_DEPTHUsed for RADAR to indicate the maximum depth [mm] of water that the radar can measure, set equal to INSTALL_DEPTH minus the blanking distance of the sensor e.g. 500

DEPTH_THRES_FOR_VELUsed for RADAR to set a minimum depth [mm] for a reliable velocity measurement below which the velocity is set to zero e.g. 10

SLOPE_DEPTHUsed for the in water pressure sensor on the DT and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_DEPTHUsed for the in water pressure sensor on the DT and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

TURB_WUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement with LED. This is used to subtract the TURB_WO to determine correc the TURB_W value in the adjusted dataset e.g. Turbw

TURB_WOUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement without LED e.g. Turbwo

TURB_ECUsed for the Turbidity sensor when an EC sensor is also present on the same logger and is used to determine whether water is present When used, this value is an array which in the first spot is the threshold below which there is no water and the second spot tells which column to look at EC separated by a semicolon e.g. 0;EC

SLOPE_TURBUsed for the in TURBIDITY sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TURBUsed for the in TURBIDITY sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_ECUsed for the in EC sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_ECUsed for the in EC sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_TEMPUsed for the in TEMP sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TEMPUsed for the in TEMP sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

WATER_SLOPEUsed for RADAR to indicate the slope [degrees] of the pipe e.g. -0.5 indicates a slope of 0.5degrees downstream assuming the sensor points upstream

INSTALL_DEPTHUsed for RADAR to indicate the vertical distance [mm] between the radar lens and the invert of the pipe e.g. 2000

MAX_DEPTHUsed for RADAR to indicate the maximum depth [mm] of water that the radar can measure, set equal to INSTALL_DEPTH minus the blanking distance of the sensor e.g. 500

DEPTH_THRES_FOR_VELUsed for RADAR to set a minimum depth [mm] for a reliable velocity measurement below which the velocity is set to zero e.g. 10

SLOPE_DEPTHUsed for the in water pressure sensor on the DT and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_DEPTHUsed for the in water pressure sensor on the DT and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

TURB_WUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement with LED. This is used to subtract the TURB_WO to determine correc the TURB_W value in the adjusted dataset e.g. Turbw

TURB_WOUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement without LED e.g. Turbwo

TURB_ECUsed for the Turbidity sensor when an EC sensor is also present on the same logger and is used to determine whether water is present When used, this value is an array which in the first spot is the threshold below which there is no water and the second spot tells which column to look at EC separated by a semicolon e.g. 0;EC

SLOPE_TURBUsed for the in TURBIDITY sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TURBUsed for the in TURBIDITY sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_ECUsed for the in EC sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_ECUsed for the in EC sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_TEMPUsed for the in TEMP sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TEMPUsed for the in TEMP sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

WATER_SLOPEUsed for RADAR to indicate the slope [degrees] of the pipe e.g. -0.5 indicates a slope of 0.5degrees downstream assuming the sensor points upstream

INSTALL_DEPTHUsed for RADAR to indicate the vertical distance [mm] between the radar lens and the invert of the pipe e.g. 2000

MAX_DEPTHUsed for RADAR to indicate the maximum depth [mm] of water that the radar can measure, set equal to INSTALL_DEPTH minus the blanking distance of the sensor e.g. 500

DEPTH_THRES_FOR_VELUsed for RADAR to set a minimum depth [mm] for a reliable velocity measurement below which the velocity is set to zero e.g. 10

SLOPE_DEPTHUsed for the in water pressure sensor on the DT and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_DEPTHUsed for the in water pressure sensor on the DT and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

TURB_WUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement with LED. This is used to subtract the TURB_WO to determine correc the TURB_W value in the adjusted dataset e.g. Turbw

TURB_WOUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement without LED e.g. Turbwo

TURB_ECUsed for the Turbidity sensor when an EC sensor is also present on the same logger and is used to determine whether water is present When used, this value is an array which in the first spot is the threshold below which there is no water and the second spot tells which column to look at EC separated by a semicolon e.g. 0;EC

SLOPE_TURBUsed for the in TURBIDITY sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TURBUsed for the in TURBIDITY sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_ECUsed for the in EC sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_ECUsed for the in EC sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_TEMPUsed for the in TEMP sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TEMPUsed for the in TEMP sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

WATER_SLOPEUsed for RADAR to indicate the slope [degrees] of the pipe e.g. -0.5 indicates a slope of 0.5degrees downstream assuming the sensor points upstream

INSTALL_DEPTHUsed for RADAR to indicate the vertical distance [mm] between the radar lens and the invert of the pipe e.g. 2000

MAX_DEPTHUsed for RADAR to indicate the maximum depth [mm] of water that the radar can measure, set equal to INSTALL_DEPTH minus the blanking distance of the sensor e.g. 500

DEPTH_THRES_FOR_VELUsed for RADAR to set a minimum depth [mm] for a reliable velocity measurement below which the velocity is set to zero e.g. 10

SLOPE_DEPTHUsed for the in water pressure sensor on the DT and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_DEPTHUsed for the in water pressure sensor on the DT and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

TURB_WUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement with LED. This is used to subtract the TURB_WO to determine correc the TURB_W value in the adjusted dataset e.g. Turbw

TURB_WOUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement without LED e.g. Turbwo

TURB_ECUsed for the Turbidity sensor when an EC sensor is also present on the same logger and is used to determine whether water is present When used, this value is an array which in the first spot is the threshold below which there is no water and the second spot tells which column to look at EC separated by a semicolon e.g. 0;EC

SLOPE_TURBUsed for the in TURBIDITY sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TURBUsed for the in TURBIDITY sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_ECUsed for the in EC sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_ECUsed for the in EC sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_TEMPUsed for the in TEMP sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TEMPUsed for the in TEMP sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

WATER_SLOPEUsed for RADAR to indicate the slope [degrees] of the pipe e.g. -0.5 indicates a slope of 0.5degrees downstream assuming the sensor points upstream

INSTALL_DEPTHUsed for RADAR to indicate the vertical distance [mm] between the radar lens and the invert of the pipe e.g. 2000

MAX_DEPTHUsed for RADAR to indicate the maximum depth [mm] of water that the radar can measure, set equal to INSTALL_DEPTH minus the blanking distance of the sensor e.g. 500

DEPTH_THRES_FOR_VELUsed for RADAR to set a minimum depth [mm] for a reliable velocity measurement below which the velocity is set to zero e.g. 10

SLOPE_DEPTHUsed for the in water pressure sensor on the DT and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_DEPTHUsed for the in water pressure sensor on the DT and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

TURB_WUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement with LED. This is used to subtract the TURB_WO to determine correc the TURB_W value in the adjusted dataset e.g. Turbw

TURB_WOUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement without LED e.g. Turbwo

TURB_ECUsed for the Turbidity sensor when an EC sensor is also present on the same logger and is used to determine whether water is present When used, this value is an array which in the first spot is the threshold below which there is no water and the second spot tells which column to look at EC separated by a semicolon e.g. 0;EC

SLOPE_TURBUsed for the in TURBIDITY sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TURBUsed for the in TURBIDITY sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_ECUsed for the in EC sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_ECUsed for the in EC sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_TEMPUsed for the in TEMP sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TEMPUsed for the in TEMP sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

WATER_SLOPEUsed for RADAR to indicate the slope [degrees] of the pipe e.g. -0.5 indicates a slope of 0.5degrees downstream assuming the sensor points upstream

INSTALL_DEPTHUsed for RADAR to indicate the vertical distance [mm] between the radar lens and the invert of the pipe e.g. 2000

MAX_DEPTHUsed for RADAR to indicate the maximum depth [mm] of water that the radar can measure, set equal to INSTALL_DEPTH minus the blanking distance of the sensor e.g. 500

DEPTH_THRES_FOR_VELUsed for RADAR to set a minimum depth [mm] for a reliable velocity measurement below which the velocity is set to zero e.g. 10

SLOPE_DEPTHUsed for the in water pressure sensor on the DT and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_DEPTHUsed for the in water pressure sensor on the DT and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

TURB_WUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement with LED. This is used to subtract the TURB_WO to determine correc the TURB_W value in the adjusted dataset e.g. Turbw

TURB_WOUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement without LED e.g. Turbwo

TURB_ECUsed for the Turbidity sensor when an EC sensor is also present on the same logger and is used to determine whether water is present When used, this value is an array which in the first spot is the threshold below which there is no water and the second spot tells which column to look at EC separated by a semicolon e.g. 0;EC

SLOPE_TURBUsed for the in TURBIDITY sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TURBUsed for the in TURBIDITY sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_ECUsed for the in EC sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_ECUsed for the in EC sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_TEMPUsed for the in TEMP sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TEMPUsed for the in TEMP sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

WATER_SLOPEUsed for RADAR to indicate the slope [degrees] of the pipe e.g. -0.5 indicates a slope of 0.5degrees downstream assuming the sensor points upstream

INSTALL_DEPTHUsed for RADAR to indicate the vertical distance [mm] between the radar lens and the invert of the pipe e.g. 2000

MAX_DEPTHUsed for RADAR to indicate the maximum depth [mm] of water that the radar can measure, set equal to INSTALL_DEPTH minus the blanking distance of the sensor e.g. 500

DEPTH_THRES_FOR_VELUsed for RADAR to set a minimum depth [mm] for a reliable velocity measurement below which the velocity is set to zero e.g. 10

SLOPE_DEPTHUsed for the in water pressure sensor on the DT and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_DEPTHUsed for the in water pressure sensor on the DT and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

TURB_WUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement with LED. This is used to subtract the TURB_WO to determine correc the TURB_W value in the adjusted dataset e.g. Turbw

TURB_WOUsed for the Turbidity sensor and is used to denote the name of the column in the datafile which is the measurement without LED e.g. Turbwo

TURB_ECUsed for the Turbidity sensor when an EC sensor is also present on the same logger and is used to determine whether water is present When used, this value is an array which in the first spot is the threshold below which there is no water and the second spot tells which column to look at EC separated by a semicolon e.g. 0;EC

SLOPE_TURBUsed for the in TURBIDITY sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TURBUsed for the in TURBIDITY sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_ECUsed for the in EC sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_ECUsed for the in EC sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0

SLOPE_TEMPUsed for the in TEMP sensor and is the m of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 1

OFFSET_TEMPUsed for the in TEMP sensor and is the c of a y=mx+c line of best fit where x is the sensor output and y is the actual output required e.g. 0