Mark Underwood
Internal_Datalogger but with USB support removed (for MAX40108 Demo board), proof of concept that MAX32625 can be used successfully with VDDB(USB) left unpowered, as long as the USB library is not used.
Dependencies: max32625pico CmdLine
Board_Calibration_Data.cpp
- Committer:
- whismanoid
- Date:
- 2021-05-12
- Revision:
- 42:89607d5d4e6d
File content as of revision 42:89607d5d4e6d:
// /*******************************************************************************
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// *********************************************************************
// @file Board_Calibration_Data.cpp
// *********************************************************************
// data unique to certain boards based on serial number
#include "Board_Calibration_Data.h"
#ifdef BOARD_SERIAL_NUMBER
// data unique to certain boards based on serial number
//----------------------------------------------------------------------
# if (BOARD_SERIAL_NUMBER) == 0
#warning "(BOARD_SERIAL_NUMBER) == 0"
//
// Calibration is between two points for each channel, defined by
// a normalized value between 0% and 100%, and the corresponding voltage.
// nominal 5% fullscale point; normValue_0_1 < 0.5
// calibration_05_normValue_0_1, calibration_05_V should be around 5% or 25%
double calibration_05_normValue_0_1 [] = {
// TODO: calibrate BOARD_SERIAL_NUMBER 0 channels A0/A4(CSA*100/3.34=mA), A1/A5(1V0), A2(WE), A3(CE)
0.25, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.25, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.25, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.25, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
0.25, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
0.25, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
double calibration_05_V [] = {
// TODO: calibrate BOARD_SERIAL_NUMBER 0 channels A0/A4(CSA*100/3.34=mA), A1/A5(1V0), A2(WE), A3(CE)
0.300, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.300, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.300, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.300, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
1.500, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
1.500, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
// nominal 95% fullscale point; normValue_0_1 > 0.5
// calibration_95_normValue_0_1, calibration_95_V should be around 95% or 75%
double calibration_95_normValue_0_1 [] = {
// TODO: calibrate BOARD_SERIAL_NUMBER 0 channels A0/A4(CSA*100/3.34=mA), A1/A5(1V0), A2(WE), A3(CE)
0.75, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.75, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.75, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.75, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
0.75, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
0.75, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
double calibration_95_V [] = {
// TODO: calibrate BOARD_SERIAL_NUMBER 0 channels A0/A4(CSA*100/3.34=mA), A1/A5(1V0), A2(WE), A3(CE)
0.900, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.900, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.900, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.900, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
4.500, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
4.500, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
//
//----------------------------------------------------------------------
# elif (BOARD_SERIAL_NUMBER) == 1
#warning "(BOARD_SERIAL_NUMBER) == 1"
//
// Calibration is between two points for each channel, defined by
// a normalized value between 0% and 100%, and the corresponding voltage.
// nominal 5% fullscale point; normValue_0_1 < 0.5
// calibration_05_normValue_0_1, calibration_05_V should be around 5% or 25%
double calibration_05_normValue_0_1 [] = {
// TODO: calibrate BOARD_SERIAL_NUMBER 1 channels A0/A4(CSA*100/3.34=mA), A1/A5(1V0), A2(WE), A3(CE)
0.250000000, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.624736547, // %A cal1n=0.624736547 cal1v=0.748000026V cal1n=0.979754724 cal1v=1.167500019V
0.250000000, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.250000000, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
0.250000000, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
0.127252869, // %A cal5n=0.127252869 cal5v=0.748000026V cal5n=0.267205842 cal5v=1.578999996V
};
double calibration_05_V [] = {
// TODO: calibrate BOARD_SERIAL_NUMBER 1 channels A0/A4(CSA*100/3.34=mA), A1/A5(1V0), A2(WE), A3(CE)
0.300000000, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.748000026, // %A cal1n=0.624736547 cal1v=0.748000026V cal1n=0.979754724 cal1v=1.167500019V
0.300000000, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.300000000, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
1.500000000, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
0.748000026, // %A cal5n=0.127252869 cal5v=0.748000026V cal5n=0.267205842 cal5v=1.578999996V
};
// nominal 95% fullscale point; normValue_0_1 > 0.5
// calibration_95_normValue_0_1, calibration_95_V should be around 95% or 75%
double calibration_95_normValue_0_1 [] = {
// TODO: calibrate BOARD_SERIAL_NUMBER 1 channels A0/A4(CSA*100/3.34=mA), A1/A5(1V0), A2(WE), A3(CE)
0.750000000, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.979754724, // %A cal1n=0.624736547 cal1v=0.748000026V cal1n=0.979754724 cal1v=1.167500019V
0.750000000, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.750000000, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
0.750000000, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
0.267205842, // %A cal5n=0.127252869 cal5v=0.748000026V cal5n=0.267205842 cal5v=1.578999996V
};
double calibration_95_V [] = {
// TODO: calibrate BOARD_SERIAL_NUMBER 1 channels A0/A4(CSA*100/3.34=mA), A1/A5(1V0), A2(WE), A3(CE)
0.900000000, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
1.167500019, // %A cal1n=0.624736547 cal1v=0.748000026V cal1n=0.979754724 cal1v=1.167500019V
0.900000000, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.900000000, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
4.500000000, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
1.578999996, // %A cal5n=0.127252869 cal5v=0.748000026V cal5n=0.267205842 cal5v=1.578999996V
};
//
//----------------------------------------------------------------------
# elif (BOARD_SERIAL_NUMBER) == 2
#warning "(BOARD_SERIAL_NUMBER) == 2"
//
// Calibration is between two points for each channel, defined by
// a normalized value between 0% and 100%, and the corresponding voltage.
// nominal 5% fullscale point; normValue_0_1 < 0.5
// calibration_05_normValue_0_1, calibration_05_V should be around 5% or 25%
double calibration_05_normValue_0_1 [] = {
// TODO: calibrate BOARD_SERIAL_NUMBER 2 channels A1/A5(1V0)?
0.001955034, // %A cal0n=0.001955034 cal0v=0.000120000V cal0n=0.964797903 cal0v=1.149270058V
0.646371711, // %A cal1n=0.646371711 cal1v=0.761619985V cal1n=0.964797903 cal1v=1.149270058V
0.121437412, // %A cal2n=0.121437412 cal2v=0.146500006V cal2n=0.833466958 cal2v=1.004999995V
0.121437412, // %A cal3n=0.121437412 cal3v=0.146500006V cal3n=0.833466958 cal3v=1.004999995V
0.001955034, // %A cal4n=0.001955034 cal4v=0.000120000V cal4n=0.291349728 cal4v=1.735399961V
0.130005952, // %A cal5n=0.130005952 cal5v=0.761650026V cal5n=0.291349728 cal5v=1.735399961V
};
double calibration_05_V [] = {
// TODO: calibrate BOARD_SERIAL_NUMBER 2 channels A1/A5(1V0)?
0.000120000, // %A cal0n=0.001955034 cal0v=0.000120000V cal0n=0.964797903 cal0v=1.149270058V
0.761619985, // %A cal1n=0.646371711 cal1v=0.761619985V cal1n=0.964797903 cal1v=1.149270058V
0.146500006, // %A cal2n=0.121437412 cal2v=0.146500006V cal2n=0.833466958 cal2v=1.004999995V
0.146500006, // %A cal3n=0.121437412 cal3v=0.146500006V cal3n=0.833466958 cal3v=1.004999995V
0.000120000, // %A cal4n=0.001955034 cal4v=0.000120000V cal4n=0.291349728 cal4v=1.735399961V
0.761650026, // %A cal5n=0.130005952 cal5v=0.761650026V cal5n=0.291349728 cal5v=1.735399961V
};
// nominal 95% fullscale point; normValue_0_1 > 0.5
// calibration_95_normValue_0_1, calibration_95_V should be around 95% or 75%
double calibration_95_normValue_0_1 [] = {
// TODO: calibrate BOARD_SERIAL_NUMBER 2 channels A1/A5(1V0)?
0.964797903, // %A cal0n=0.001955034 cal0v=0.000120000V cal0n=0.964797903 cal0v=1.149270058V
0.964797903, // %A cal1n=0.646371711 cal1v=0.761619985V cal1n=0.964797903 cal1v=1.149270058V
0.833466958, // %A cal2n=0.121437412 cal2v=0.146500006V cal2n=0.833466958 cal2v=1.004999995V
0.833466958, // %A cal3n=0.121437412 cal3v=0.146500006V cal3n=0.833466958 cal3v=1.004999995V
0.291349728, // %A cal4n=0.001955034 cal4v=0.000120000V cal4n=0.291349728 cal4v=1.735399961V
0.291349728, // %A cal5n=0.130005952 cal5v=0.761650026V cal5n=0.291349728 cal5v=1.735399961V
};
double calibration_95_V [] = {
// TODO: calibrate BOARD_SERIAL_NUMBER 2 channels A1/A5(1V0)?
1.149270058, // %A cal0n=0.001955034 cal0v=0.000120000V cal0n=0.964797903 cal0v=1.149270058V
1.149270058, // %A cal1n=0.646371711 cal1v=0.761619985V cal1n=0.964797903 cal1v=1.149270058V
1.004999995, // %A cal2n=0.121437412 cal2v=0.146500006V cal2n=0.833466958 cal2v=1.004999995V
1.004999995, // %A cal3n=0.121437412 cal3v=0.146500006V cal3n=0.833466958 cal3v=1.004999995V
1.735399961, // %A cal4n=0.001955034 cal4v=0.000120000V cal4n=0.291349728 cal4v=1.735399961V
1.735399961, // %A cal5n=0.130005952 cal5v=0.761650026V cal5n=0.291349728 cal5v=1.735399961V
};
//
//----------------------------------------------------------------------
# elif (BOARD_SERIAL_NUMBER) == 3
#warning "(BOARD_SERIAL_NUMBER) == 3"
//
// Calibration is between two points for each channel, defined by
// a normalized value between 0% and 100%, and the corresponding voltage.
// nominal 5% fullscale point; normValue_0_1 < 0.5
// calibration_05_normValue_0_1, calibration_05_V should be around 5% or 25%
double calibration_05_normValue_0_1 [] = {
// TODO: calibrate BOARD_SERIAL_NUMBER 3 channels A2(WE), A3(CE) not quite right yet
0.002932551, // %A cal0n=0.002932551 cal0v=0.000130000V cal0n=0.966447462 cal0v=1.149999976V
0.643798094, // %A cal1n=0.643798094 cal1v=0.756900012V cal1n=0.966447462 cal1v=1.149999976V
0.151286051, // %A cal2n=0.151286051 cal2v=0.181050003V cal2n=0.786534725 cal2v=0.936999977V
0.151286051, // %A cal3n=0.151286051 cal3v=0.181050003V cal3n=0.786023080 cal3v=0.936999977V
0.002932551, // %A cal4n=0.002932551 cal4v=0.000130000V cal4n=0.286962360 cal4v=1.707499981V
0.130120505, // %A cal5n=0.130120505 cal5v=0.757099986V cal5n=0.286962360 cal5v=1.707499981V
};
double calibration_05_V [] = {
// TODO: calibrate BOARD_SERIAL_NUMBER 3 channels A2(WE), A3(CE) not quite right yet
0.000130000, // %A cal0n=0.002932551 cal0v=0.000130000V cal0n=0.966447462 cal0v=1.149999976V
0.756900012, // %A cal1n=0.643798094 cal1v=0.756900012V cal1n=0.966447462 cal1v=1.149999976V
0.181050003, // %A cal2n=0.151286051 cal2v=0.181050003V cal2n=0.786534725 cal2v=0.936999977V
0.181050003, // %A cal3n=0.151286051 cal3v=0.181050003V cal3n=0.786023080 cal3v=0.936999977V
0.000130000, // %A cal4n=0.002932551 cal4v=0.000130000V cal4n=0.286962360 cal4v=1.707499981V
0.757099986, // %A cal5n=0.130120505 cal5v=0.757099986V cal5n=0.286962360 cal5v=1.707499981V
};
// nominal 95% fullscale point; normValue_0_1 > 0.5
// calibration_95_normValue_0_1, calibration_95_V should be around 95% or 75%
double calibration_95_normValue_0_1 [] = {
// TODO: calibrate BOARD_SERIAL_NUMBER 3 channels A2(WE), A3(CE) not quite right yet
0.966447462, // %A cal0n=0.002932551 cal0v=0.000130000V cal0n=0.966447462 cal0v=1.149999976V
0.966447462, // %A cal1n=0.643798094 cal1v=0.756900012V cal1n=0.966447462 cal1v=1.149999976V
0.786534725, // %A cal2n=0.151286051 cal2v=0.181050003V cal2n=0.786534725 cal2v=0.936999977V
0.786023080, // %A cal3n=0.151286051 cal3v=0.181050003V cal3n=0.786023080 cal3v=0.936999977V
0.286962360, // %A cal4n=0.002932551 cal4v=0.000130000V cal4n=0.286962360 cal4v=1.707499981V
0.286962360, // %A cal5n=0.130120505 cal5v=0.757099986V cal5n=0.286962360 cal5v=1.707499981V
};
double calibration_95_V [] = {
// TODO: calibrate BOARD_SERIAL_NUMBER 3 channels A2(WE), A3(CE) not quite right yet
1.149999976, // %A cal0n=0.002932551 cal0v=0.000130000V cal0n=0.966447462 cal0v=1.149999976V
1.149999976, // %A cal1n=0.643798094 cal1v=0.756900012V cal1n=0.966447462 cal1v=1.149999976V
0.936999977, // %A cal2n=0.151286051 cal2v=0.181050003V cal2n=0.786534725 cal2v=0.936999977V
0.936999977, // %A cal3n=0.151286051 cal3v=0.181050003V cal3n=0.786023080 cal3v=0.936999977V
1.707499981, // %A cal4n=0.002932551 cal4v=0.000130000V cal4n=0.286962360 cal4v=1.707499981V
1.707499981, // %A cal5n=0.130120505 cal5v=0.757099986V cal5n=0.286962360 cal5v=1.707499981V
};
//
//----------------------------------------------------------------------
# elif (BOARD_SERIAL_NUMBER) == 4
#warning "(BOARD_SERIAL_NUMBER) == 4"
//
// Calibration is between two points for each channel, defined by
// a normalized value between 0% and 100%, and the corresponding voltage.
// nominal 5% fullscale point; normValue_0_1 < 0.5
// calibration_05_normValue_0_1, calibration_05_V should be around 5% or 25%
double calibration_05_normValue_0_1 [] = {
0.003910068, // %A cal0n=0.003910068 cal0v=0.000120000V cal0n=0.925441444 cal0v=1.107100010V
0.635619044, // %A cal1n=0.635619044 cal1v=0.759999990V cal1n=0.925441444 cal1v=1.107100010V
0.083768636, // %A cal2n=0.083768636 cal2v=0.100000001V cal2n=0.820740156 cal2v=0.980000019V
0.083768636, // %A cal3n=0.083768636 cal3v=0.100000001V cal3n=0.820740156 cal3v=0.980000019V
0.003910068, // %A cal4n=0.003910068 cal4v=0.000120000V cal4n=0.279630989 cal4v=1.651999950V
0.129257541, // %A cal5n=0.129257541 cal5v=0.759999990V cal5n=0.279630989 cal5v=1.651999950V
};
double calibration_05_V [] = {
0.000120000, // %A cal0n=0.003910068 cal0v=0.000120000V cal0n=0.925441444 cal0v=1.107100010V
0.759999990, // %A cal1n=0.635619044 cal1v=0.759999990V cal1n=0.925441444 cal1v=1.107100010V
0.100000001, // %A cal2n=0.083768636 cal2v=0.100000001V cal2n=0.820740156 cal2v=0.980000019V
0.100000001, // %A cal3n=0.083768636 cal3v=0.100000001V cal3n=0.820740156 cal3v=0.980000019V
0.000120000, // %A cal4n=0.003910068 cal4v=0.000120000V cal4n=0.279630989 cal4v=1.651999950V
0.759999990, // %A cal5n=0.129257541 cal5v=0.759999990V cal5n=0.279630989 cal5v=1.651999950V
};
// nominal 95% fullscale point; normValue_0_1 > 0.5
// calibration_95_normValue_0_1, calibration_95_V should be around 95% or 75%
double calibration_95_normValue_0_1 [] = {
0.925441444, // %A cal0n=0.003910068 cal0v=0.000120000V cal0n=0.925441444 cal0v=1.107100010V
0.925441444, // %A cal1n=0.635619044 cal1v=0.759999990V cal1n=0.925441444 cal1v=1.107100010V
0.820740156, // %A cal2n=0.083768636 cal2v=0.100000001V cal2n=0.820740156 cal2v=0.980000019V
0.820740156, // %A cal3n=0.083768636 cal3v=0.100000001V cal3n=0.820740156 cal3v=0.980000019V
0.279630989, // %A cal4n=0.003910068 cal4v=0.000120000V cal4n=0.279630989 cal4v=1.651999950V
0.279630989, // %A cal5n=0.129257541 cal5v=0.759999990V cal5n=0.279630989 cal5v=1.651999950V
};
double calibration_95_V [] = {
1.107100010, // %A cal0n=0.003910068 cal0v=0.000120000V cal0n=0.925441444 cal0v=1.107100010V
1.107100010, // %A cal1n=0.635619044 cal1v=0.759999990V cal1n=0.925441444 cal1v=1.107100010V
0.980000019, // %A cal2n=0.083768636 cal2v=0.100000001V cal2n=0.820740156 cal2v=0.980000019V
0.980000019, // %A cal3n=0.083768636 cal3v=0.100000001V cal3n=0.820740156 cal3v=0.980000019V
1.651999950, // %A cal4n=0.003910068 cal4v=0.000120000V cal4n=0.279630989 cal4v=1.651999950V
1.651999950, // %A cal5n=0.129257541 cal5v=0.759999990V cal5n=0.279630989 cal5v=1.651999950V
};
//
//----------------------------------------------------------------------
# elif (BOARD_SERIAL_NUMBER) == 5
#warning "(BOARD_SERIAL_NUMBER) == 5"
//
// Calibration is between two points for each channel, defined by
// a normalized value between 0% and 100%, and the corresponding voltage.
// nominal 5% fullscale point; normValue_0_1 < 0.5
// calibration_05_normValue_0_1, calibration_05_V should be around 5% or 25%
double calibration_05_normValue_0_1 [] = {
0.25, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.25, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.25, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.25, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
0.25, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
0.25, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
double calibration_05_V [] = {
0.300, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.300, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.300, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.300, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
1.500, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
1.500, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
// nominal 95% fullscale point; normValue_0_1 > 0.5
// calibration_95_normValue_0_1, calibration_95_V should be around 95% or 75%
double calibration_95_normValue_0_1 [] = {
0.75, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.75, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.75, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.75, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
0.75, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
0.75, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
double calibration_95_V [] = {
0.900, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.900, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.900, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.900, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
4.500, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
4.500, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
//
//----------------------------------------------------------------------
# elif (BOARD_SERIAL_NUMBER) == 6
#warning "(BOARD_SERIAL_NUMBER) == 6"
//
// Calibration is between two points for each channel, defined by
// a normalized value between 0% and 100%, and the corresponding voltage.
// nominal 5% fullscale point; normValue_0_1 < 0.5
// calibration_05_normValue_0_1, calibration_05_V should be around 5% or 25%
double calibration_05_normValue_0_1 [] = {
0.25, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.25, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.25, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.25, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
0.25, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
0.25, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
double calibration_05_V [] = {
0.300, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.300, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.300, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.300, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
1.500, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
1.500, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
// nominal 95% fullscale point; normValue_0_1 > 0.5
// calibration_95_normValue_0_1, calibration_95_V should be around 95% or 75%
double calibration_95_normValue_0_1 [] = {
0.75, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.75, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.75, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.75, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
0.75, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
0.75, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
double calibration_95_V [] = {
0.900, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.900, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.900, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.900, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
4.500, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
4.500, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
//
//----------------------------------------------------------------------
# else
#warning "BOARD_SERIAL_NUMBER defined but not recognized; using default values"
//
// Calibration is between two points for each channel, defined by
// a normalized value between 0% and 100%, and the corresponding voltage.
// nominal 5% fullscale point; normValue_0_1 < 0.5
// calibration_05_normValue_0_1, calibration_05_V should be around 5% or 25%
double calibration_05_normValue_0_1 [] = {
0.25, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.25, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.25, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.25, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
0.25, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
0.25, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
double calibration_05_V [] = {
0.300, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.300, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.300, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.300, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
1.500, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
1.500, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
// nominal 95% fullscale point; normValue_0_1 > 0.5
// calibration_95_normValue_0_1, calibration_95_V should be around 95% or 75%
double calibration_95_normValue_0_1 [] = {
0.75, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.75, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.75, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.75, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
0.75, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
0.75, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
double calibration_95_V [] = {
0.900, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.900, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.900, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.900, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
4.500, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
4.500, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
//
//----------------------------------------------------------------------
# endif
#else // BOARD_SERIAL_NUMBER data unique to certain boards based on serial number
#warning "BOARD_SERIAL_NUMBER not defined; using default values"
//
// Calibration is between two points for each channel, defined by
// a normalized value between 0% and 100%, and the corresponding voltage.
// nominal 5% fullscale point; normValue_0_1 < 0.5
// calibration_05_normValue_0_1, calibration_05_V should be around 5% or 25%
double calibration_05_normValue_0_1 [] = {
0.25, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.25, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.25, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.25, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
0.25, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
0.25, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
double calibration_05_V [] = {
0.300, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.300, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.300, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.300, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
1.500, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
1.500, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
// nominal 95% fullscale point; normValue_0_1 > 0.5
// calibration_95_normValue_0_1, calibration_95_V should be around 95% or 75%
double calibration_95_normValue_0_1 [] = {
0.75, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.75, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.75, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.75, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
0.75, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
0.75, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
double calibration_95_V [] = {
0.900, // %A cal0n=0.250000000 cal0v=0.300000000V cal0n=0.750000000 cal0v=0.900000000V
0.900, // %A cal1n=0.250000000 cal1v=0.300000000V cal1n=0.750000000 cal1v=0.900000000V
0.900, // %A cal2n=0.250000000 cal2v=0.300000000V cal2n=0.750000000 cal2v=0.900000000V
0.900, // %A cal3n=0.250000000 cal3v=0.300000000V cal3n=0.750000000 cal3v=0.900000000V
4.500, // %A cal4n=0.250000000 cal4v=1.500000000V cal4n=0.750000000 cal4v=4.500000000V
4.500, // %A cal5n=0.250000000 cal5v=1.500000000V cal5n=0.750000000 cal5v=4.500000000V
};
//
//----------------------------------------------------------------------
#endif // BOARD_SERIAL_NUMBER data unique to certain boards based on serial number
// End of file