eive-obsw/mission/devices/devicedefinitions/IMTQHandlerDefinitions.h

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#ifndef MISSION_DEVICES_DEVICEDEFINITIONS_IMTQDEFINITIONS_H_
#define MISSION_DEVICES_DEVICEDEFINITIONS_IMTQDEFINITIONS_H_
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#include <fsfw/datapoollocal/StaticLocalDataSet.h>
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namespace IMTQ {
static const DeviceCommandId_t NONE = 0x0;
static const DeviceCommandId_t GET_ENG_HK_DATA = 0x1;
static const DeviceCommandId_t START_ACTUATION_DIPOLE = 0x2;
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static const DeviceCommandId_t GET_COMMANDED_DIPOLE = 0x3;
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/** Generates new measurement of the magnetic field */
static const DeviceCommandId_t START_MTM_MEASUREMENT = 0x4;
/** Requests the calibrated magnetometer measurement */
static const DeviceCommandId_t GET_CAL_MTM_MEASUREMENT = 0x5;
/** Requests the raw values measured by the built-in MTM XEN1210 */
static const DeviceCommandId_t GET_RAW_MTM_MEASUREMENT = 0x6;
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static const DeviceCommandId_t POS_X_SELF_TEST = 0x7;
static const DeviceCommandId_t NEG_X_SELF_TEST = 0x8;
static const DeviceCommandId_t POS_Y_SELF_TEST = 0x9;
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static const DeviceCommandId_t NEG_Y_SELF_TEST = 0xA;
static const DeviceCommandId_t POS_Z_SELF_TEST = 0xB;
static const DeviceCommandId_t NEG_Z_SELF_TEST = 0xC;
static const DeviceCommandId_t GET_SELF_TEST_RESULT = 0xD;
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static const uint8_t GET_TEMP_REPLY_SIZE = 2;
static const uint8_t CFGR_CMD_SIZE = 3;
static const uint8_t POINTER_REG_SIZE = 1;
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static const uint32_t ENG_HK_DATA_SET_ID = 1;
static const uint32_t CAL_MTM_SET = 2;
static const uint32_t POS_X_TEST_DATASET = 3;
static const uint32_t NEG_X_TEST_DATASET = 4;
static const uint32_t POS_Y_TEST_DATASET = 5;
static const uint32_t NEG_Y_TEST_DATASET = 6;
static const uint32_t POS_Z_TEST_DATASET = 7;
static const uint32_t NEG_Z_TEST_DATASET = 8;
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static const uint8_t SIZE_ENG_HK_COMMAND = 1;
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static const uint8_t SIZE_STATUS_REPLY = 2;
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static const uint8_t SIZE_ENG_HK_DATA_REPLY = 24;
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static const uint8_t SIZE_GET_COMMANDED_DIPOLE_REPLY = 8;
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static const uint8_t SIZE_GET_CAL_MTM_MEASUREMENT = 15;
static const uint8_t SIZE_GET_RAW_MTM_MEASUREMENT = 15;
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static const uint16_t SIZE_SELF_TEST_RESULTS = 120;
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static const uint16_t MAX_REPLY_SIZE = SIZE_SELF_TEST_RESULTS;
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static const uint8_t MAX_COMMAND_SIZE = 9;
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/** Define entries in IMTQ specific dataset */
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static const uint8_t ENG_HK_SET_POOL_ENTRIES = 11;
static const uint8_t CAL_MTM_POOL_ENTRIES = 4;
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static const uint8_t SELF_TEST_DATASET_ENTRIES = 104;
/** Error codes for interpreting the self test error byte */
static const uint8_t I2C_FAILURE_MASK = 0x1;
static const uint8_t SPI_FAILURE_MASK = 0x2; // MTM connectivity
static const uint8_t ADC_FAILURE_MASK = 0x4; // Current/Temp measurement
static const uint8_t PWM_FAILURE_MASK = 0x8; // Coil actuation
static const uint8_t TC_FAILURE_MASK = 0x10; // System failure
static const uint8_t MTM_RANGE_FAILURE_MASK = 0x20; // MTM values outside of expected range
static const uint8_t COIL_CURRENT_FAILURE_MASK = 0x40; // Coil currents outside of expected range
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static const uint8_t INVALID_ERROR_BYTE = 0x80; // This is an invalid error byte and should be never replied by the IMTQ
static const uint8_t MAIN_STEP_OFFSET = 43;
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/**
* Command code definitions. Each command or reply of an IMTQ request will begin with one of
* the following command codes.
*/
namespace CC {
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static const uint8_t START_MTM_MEASUREMENT = 0x4;
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static const uint8_t START_ACTUATION_DIPOLE = 0x6;
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static const uint8_t SELF_TEST_CMD = 0x8;
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static const uint8_t SOFTWARE_RESET = 0xAA;
static const uint8_t GET_ENG_HK_DATA = 0x4A;
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static const uint8_t GET_COMMANDED_DIPOLE = 0x46;
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static const uint8_t GET_RAW_MTM_MEASUREMENT = 0x42;
static const uint8_t GET_CAL_MTM_MEASUREMENT = 0x43;
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static const uint8_t GET_SELF_TEST_RESULT = 0x47;
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};
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namespace SELF_TEST_AXIS {
static const uint8_t ALL = 0x0;
static const uint8_t X_POSITIVE = 0x1;
static const uint8_t X_NEGATIVE = 0x2;
static const uint8_t Y_POSITIVE = 0x3;
static const uint8_t Y_NEGATIVE = 0x4;
static const uint8_t Z_POSITIVE = 0x5;
static const uint8_t Z_NEGATIVE = 0x6;
}
namespace SELF_TEST_STEPS {
static const uint8_t INIT = 0x0;
static const uint8_t X_POSITIVE = 0x1;
static const uint8_t X_NEGATIVE = 0x2;
static const uint8_t Y_POSITIVE = 0x3;
static const uint8_t Y_NEGATIVE = 0x4;
static const uint8_t Z_POSITIVE = 0x5;
static const uint8_t Z_NEGATIVE = 0x6;
static const uint8_t FINA = 0x7;
}
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enum IMTQPoolIds: lp_id_t {
DIGITAL_VOLTAGE_MV,
ANALOG_VOLTAGE_MV,
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DIGITAL_CURRENT,
ANALOG_CURRENT,
COIL_X_CURRENT,
COIL_Y_CURRENT,
COIL_Z_CURRENT,
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COIL_X_TEMPERATURE,
COIL_Y_TEMPERATURE,
COIL_Z_TEMPERATURE,
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MCU_TEMPERATURE,
MTM_CAL_X,
MTM_CAL_Y,
MTM_CAL_Z,
ACTUATION_CAL_STATUS,
MTM_RAW_X,
MTM_RAW_Y,
MTM_RAW_Z,
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ACTUATION_RAW_STATUS,
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INIT_POS_X_ERR,
INIT_POS_X_RAW_MAG_X,
INIT_POS_X_RAW_MAG_Y,
INIT_POS_X_RAW_MAG_Z,
INIT_POS_X_CAL_MAG_X,
INIT_POS_X_CAL_MAG_Y,
INIT_POS_X_CAL_MAG_Z,
INIT_POS_X_COIL_X_CURRENT,
INIT_POS_X_COIL_Y_CURRENT,
INIT_POS_X_COIL_Z_CURRENT,
INIT_POS_X_COIL_X_TEMPERATURE,
INIT_POS_X_COIL_Y_TEMPERATURE,
INIT_POS_X_COIL_Z_TEMPERATURE,
INIT_NEG_X_ERR,
INIT_NEG_X_RAW_MAG_X,
INIT_NEG_X_RAW_MAG_Y,
INIT_NEG_X_RAW_MAG_Z,
INIT_NEG_X_CAL_MAG_X,
INIT_NEG_X_CAL_MAG_Y,
INIT_NEG_X_CAL_MAG_Z,
INIT_NEG_X_COIL_X_CURRENT,
INIT_NEG_X_COIL_Y_CURRENT,
INIT_NEG_X_COIL_Z_CURRENT,
INIT_NEG_X_COIL_X_TEMPERATURE,
INIT_NEG_X_COIL_Y_TEMPERATURE,
INIT_NEG_X_COIL_Z_TEMPERATURE,
INIT_POS_Y_ERR,
INIT_POS_Y_RAW_MAG_X,
INIT_POS_Y_RAW_MAG_Y,
INIT_POS_Y_RAW_MAG_Z,
INIT_POS_Y_CAL_MAG_X,
INIT_POS_Y_CAL_MAG_Y,
INIT_POS_Y_CAL_MAG_Z,
INIT_POS_Y_COIL_X_CURRENT,
INIT_POS_Y_COIL_Y_CURRENT,
INIT_POS_Y_COIL_Z_CURRENT,
INIT_POS_Y_COIL_X_TEMPERATURE,
INIT_POS_Y_COIL_Y_TEMPERATURE,
INIT_POS_Y_COIL_Z_TEMPERATURE,
INIT_NEG_Y_ERR,
INIT_NEG_Y_RAW_MAG_X,
INIT_NEG_Y_RAW_MAG_Y,
INIT_NEG_Y_RAW_MAG_Z,
INIT_NEG_Y_CAL_MAG_X,
INIT_NEG_Y_CAL_MAG_Y,
INIT_NEG_Y_CAL_MAG_Z,
INIT_NEG_Y_COIL_X_CURRENT,
INIT_NEG_Y_COIL_Y_CURRENT,
INIT_NEG_Y_COIL_Z_CURRENT,
INIT_NEG_Y_COIL_X_TEMPERATURE,
INIT_NEG_Y_COIL_Y_TEMPERATURE,
INIT_NEG_Y_COIL_Z_TEMPERATURE,
INIT_POS_Z_ERR,
INIT_POS_Z_RAW_MAG_X,
INIT_POS_Z_RAW_MAG_Y,
INIT_POS_Z_RAW_MAG_Z,
INIT_POS_Z_CAL_MAG_X,
INIT_POS_Z_CAL_MAG_Y,
INIT_POS_Z_CAL_MAG_Z,
INIT_POS_Z_COIL_X_CURRENT,
INIT_POS_Z_COIL_Y_CURRENT,
INIT_POS_Z_COIL_Z_CURRENT,
INIT_POS_Z_COIL_X_TEMPERATURE,
INIT_POS_Z_COIL_Y_TEMPERATURE,
INIT_POS_Z_COIL_Z_TEMPERATURE,
INIT_NEG_Z_ERR,
INIT_NEG_Z_RAW_MAG_X,
INIT_NEG_Z_RAW_MAG_Y,
INIT_NEG_Z_RAW_MAG_Z,
INIT_NEG_Z_CAL_MAG_X,
INIT_NEG_Z_CAL_MAG_Y,
INIT_NEG_Z_CAL_MAG_Z,
INIT_NEG_Z_COIL_X_CURRENT,
INIT_NEG_Z_COIL_Y_CURRENT,
INIT_NEG_Z_COIL_Z_CURRENT,
INIT_NEG_Z_COIL_X_TEMPERATURE,
INIT_NEG_Z_COIL_Y_TEMPERATURE,
INIT_NEG_Z_COIL_Z_TEMPERATURE,
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POS_X_ERR,
POS_X_RAW_MAG_X,
POS_X_RAW_MAG_Y,
POS_X_RAW_MAG_Z,
POS_X_CAL_MAG_X,
POS_X_CAL_MAG_Y,
POS_X_CAL_MAG_Z,
POS_X_COIL_X_CURRENT,
POS_X_COIL_Y_CURRENT,
POS_X_COIL_Z_CURRENT,
POS_X_COIL_X_TEMPERATURE,
POS_X_COIL_Y_TEMPERATURE,
POS_X_COIL_Z_TEMPERATURE,
NEG_X_ERR,
NEG_X_RAW_MAG_X,
NEG_X_RAW_MAG_Y,
NEG_X_RAW_MAG_Z,
NEG_X_CAL_MAG_X,
NEG_X_CAL_MAG_Y,
NEG_X_CAL_MAG_Z,
NEG_X_COIL_X_CURRENT,
NEG_X_COIL_Y_CURRENT,
NEG_X_COIL_Z_CURRENT,
NEG_X_COIL_X_TEMPERATURE,
NEG_X_COIL_Y_TEMPERATURE,
NEG_X_COIL_Z_TEMPERATURE,
POS_Y_ERR,
POS_Y_RAW_MAG_X,
POS_Y_RAW_MAG_Y,
POS_Y_RAW_MAG_Z,
POS_Y_CAL_MAG_X,
POS_Y_CAL_MAG_Y,
POS_Y_CAL_MAG_Z,
POS_Y_COIL_X_CURRENT,
POS_Y_COIL_Y_CURRENT,
POS_Y_COIL_Z_CURRENT,
POS_Y_COIL_X_TEMPERATURE,
POS_Y_COIL_Y_TEMPERATURE,
POS_Y_COIL_Z_TEMPERATURE,
NEG_Y_ERR,
NEG_Y_RAW_MAG_X,
NEG_Y_RAW_MAG_Y,
NEG_Y_RAW_MAG_Z,
NEG_Y_CAL_MAG_X,
NEG_Y_CAL_MAG_Y,
NEG_Y_CAL_MAG_Z,
NEG_Y_COIL_X_CURRENT,
NEG_Y_COIL_Y_CURRENT,
NEG_Y_COIL_Z_CURRENT,
NEG_Y_COIL_X_TEMPERATURE,
NEG_Y_COIL_Y_TEMPERATURE,
NEG_Y_COIL_Z_TEMPERATURE,
POS_Z_ERR,
POS_Z_RAW_MAG_X,
POS_Z_RAW_MAG_Y,
POS_Z_RAW_MAG_Z,
POS_Z_CAL_MAG_X,
POS_Z_CAL_MAG_Y,
POS_Z_CAL_MAG_Z,
POS_Z_COIL_X_CURRENT,
POS_Z_COIL_Y_CURRENT,
POS_Z_COIL_Z_CURRENT,
POS_Z_COIL_X_TEMPERATURE,
POS_Z_COIL_Y_TEMPERATURE,
POS_Z_COIL_Z_TEMPERATURE,
NEG_Z_ERR,
NEG_Z_RAW_MAG_X,
NEG_Z_RAW_MAG_Y,
NEG_Z_RAW_MAG_Z,
NEG_Z_CAL_MAG_X,
NEG_Z_CAL_MAG_Y,
NEG_Z_CAL_MAG_Z,
NEG_Z_COIL_X_CURRENT,
NEG_Z_COIL_Y_CURRENT,
NEG_Z_COIL_Z_CURRENT,
NEG_Z_COIL_X_TEMPERATURE,
NEG_Z_COIL_Y_TEMPERATURE,
NEG_Z_COIL_Z_TEMPERATURE,
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FINA_POS_X_ERR,
FINA_POS_X_RAW_MAG_X,
FINA_POS_X_RAW_MAG_Y,
FINA_POS_X_RAW_MAG_Z,
FINA_POS_X_CAL_MAG_X,
FINA_POS_X_CAL_MAG_Y,
FINA_POS_X_CAL_MAG_Z,
FINA_POS_X_COIL_X_CURRENT,
FINA_POS_X_COIL_Y_CURRENT,
FINA_POS_X_COIL_Z_CURRENT,
FINA_POS_X_COIL_X_TEMPERATURE,
FINA_POS_X_COIL_Y_TEMPERATURE,
FINA_POS_X_COIL_Z_TEMPERATURE,
FINA_NEG_X_ERR,
FINA_NEG_X_RAW_MAG_X,
FINA_NEG_X_RAW_MAG_Y,
FINA_NEG_X_RAW_MAG_Z,
FINA_NEG_X_CAL_MAG_X,
FINA_NEG_X_CAL_MAG_Y,
FINA_NEG_X_CAL_MAG_Z,
FINA_NEG_X_COIL_X_CURRENT,
FINA_NEG_X_COIL_Y_CURRENT,
FINA_NEG_X_COIL_Z_CURRENT,
FINA_NEG_X_COIL_X_TEMPERATURE,
FINA_NEG_X_COIL_Y_TEMPERATURE,
FINA_NEG_X_COIL_Z_TEMPERATURE,
FINA_POS_Y_ERR,
FINA_POS_Y_RAW_MAG_X,
FINA_POS_Y_RAW_MAG_Y,
FINA_POS_Y_RAW_MAG_Z,
FINA_POS_Y_CAL_MAG_X,
FINA_POS_Y_CAL_MAG_Y,
FINA_POS_Y_CAL_MAG_Z,
FINA_POS_Y_COIL_X_CURRENT,
FINA_POS_Y_COIL_Y_CURRENT,
FINA_POS_Y_COIL_Z_CURRENT,
FINA_POS_Y_COIL_X_TEMPERATURE,
FINA_POS_Y_COIL_Y_TEMPERATURE,
FINA_POS_Y_COIL_Z_TEMPERATURE,
FINA_NEG_Y_ERR,
FINA_NEG_Y_RAW_MAG_X,
FINA_NEG_Y_RAW_MAG_Y,
FINA_NEG_Y_RAW_MAG_Z,
FINA_NEG_Y_CAL_MAG_X,
FINA_NEG_Y_CAL_MAG_Y,
FINA_NEG_Y_CAL_MAG_Z,
FINA_NEG_Y_COIL_X_CURRENT,
FINA_NEG_Y_COIL_Y_CURRENT,
FINA_NEG_Y_COIL_Z_CURRENT,
FINA_NEG_Y_COIL_X_TEMPERATURE,
FINA_NEG_Y_COIL_Y_TEMPERATURE,
FINA_NEG_Y_COIL_Z_TEMPERATURE,
FINA_POS_Z_ERR,
FINA_POS_Z_RAW_MAG_X,
FINA_POS_Z_RAW_MAG_Y,
FINA_POS_Z_RAW_MAG_Z,
FINA_POS_Z_CAL_MAG_X,
FINA_POS_Z_CAL_MAG_Y,
FINA_POS_Z_CAL_MAG_Z,
FINA_POS_Z_COIL_X_CURRENT,
FINA_POS_Z_COIL_Y_CURRENT,
FINA_POS_Z_COIL_Z_CURRENT,
FINA_POS_Z_COIL_X_TEMPERATURE,
FINA_POS_Z_COIL_Y_TEMPERATURE,
FINA_POS_Z_COIL_Z_TEMPERATURE,
FINA_NEG_Z_ERR,
FINA_NEG_Z_RAW_MAG_X,
FINA_NEG_Z_RAW_MAG_Y,
FINA_NEG_Z_RAW_MAG_Z,
FINA_NEG_Z_CAL_MAG_X,
FINA_NEG_Z_CAL_MAG_Y,
FINA_NEG_Z_CAL_MAG_Z,
FINA_NEG_Z_COIL_X_CURRENT,
FINA_NEG_Z_COIL_Y_CURRENT,
FINA_NEG_Z_COIL_Z_CURRENT,
FINA_NEG_Z_COIL_X_TEMPERATURE,
FINA_NEG_Z_COIL_Y_TEMPERATURE,
FINA_NEG_Z_COIL_Z_TEMPERATURE,
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};
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class EngHkDataset: public StaticLocalDataSet<ENG_HK_SET_POOL_ENTRIES> {
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public:
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EngHkDataset(HasLocalDataPoolIF* owner) :
StaticLocalDataSet(owner, ENG_HK_DATA_SET_ID) {
}
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EngHkDataset(object_id_t objectId) :
StaticLocalDataSet(sid_t(objectId, ENG_HK_DATA_SET_ID)) {
}
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lp_var_t<uint16_t> digitalVoltageMv = lp_var_t<uint16_t>(sid.objectId, DIGITAL_VOLTAGE_MV,
this);
lp_var_t<uint16_t> analogVoltageMv = lp_var_t<uint16_t>(sid.objectId, ANALOG_VOLTAGE_MV, this);
lp_var_t<float> digitalCurrentmA = lp_var_t<float>(sid.objectId, DIGITAL_CURRENT, this);
lp_var_t<float> analogCurrentmA = lp_var_t<float>(sid.objectId, ANALOG_CURRENT, this);
lp_var_t<float> coilXCurrentmA = lp_var_t<float>(sid.objectId, COIL_X_CURRENT, this);
lp_var_t<float> coilYCurrentmA = lp_var_t<float>(sid.objectId, COIL_Y_CURRENT, this);
lp_var_t<float> coilZCurrentmA = lp_var_t<float>(sid.objectId, COIL_Z_CURRENT, this);
/** All temperatures in [<5B>C] */
lp_var_t<uint16_t> coilXTemperature = lp_var_t<uint16_t>(sid.objectId, COIL_X_TEMPERATURE,
this);
lp_var_t<uint16_t> coilYTemperature = lp_var_t<uint16_t>(sid.objectId, COIL_Y_TEMPERATURE,
this);
lp_var_t<uint16_t> coilZTemperature = lp_var_t<uint16_t>(sid.objectId, COIL_Z_TEMPERATURE,
this);
lp_var_t<uint16_t> mcuTemperature = lp_var_t<uint16_t>(sid.objectId, MCU_TEMPERATURE, this);
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};
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/**
* @brief This dataset holds the raw MTM measurements.
*/
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class CalibratedMtmMeasurementSet: public StaticLocalDataSet<CAL_MTM_POOL_ENTRIES> {
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public:
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CalibratedMtmMeasurementSet(HasLocalDataPoolIF* owner) :
StaticLocalDataSet(owner, CAL_MTM_SET) {
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}
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CalibratedMtmMeasurementSet(object_id_t objectId) :
StaticLocalDataSet(sid_t(objectId, CAL_MTM_SET)) {
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}
/** The unit of all measurements is nT */
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lp_var_t<int32_t> mtmXnT = lp_var_t<int32_t>(sid.objectId, MTM_CAL_X, this);
lp_var_t<int32_t> mtmYnT = lp_var_t<int32_t>(sid.objectId, MTM_CAL_Y, this);
lp_var_t<int32_t> mtmZnT = lp_var_t<int32_t>(sid.objectId, MTM_CAL_Z, this);
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/** 1 if coils were actuating during measurement otherwise 0 */
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lp_var_t<uint8_t> coilActuationStatus = lp_var_t<uint8_t>(sid.objectId, ACTUATION_CAL_STATUS,
this);
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};
/**
* @brief This dataset holds the last calibrated MTM measurement.
*/
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class RawMtmMeasurementSet: public StaticLocalDataSet<CAL_MTM_POOL_ENTRIES> {
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public:
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RawMtmMeasurementSet(HasLocalDataPoolIF* owner) :
StaticLocalDataSet(owner, CAL_MTM_SET) {
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}
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RawMtmMeasurementSet(object_id_t objectId) :
StaticLocalDataSet(sid_t(objectId, CAL_MTM_SET)) {
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}
/** The unit of all measurements is nT */
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lp_var_t<float> mtmXnT = lp_var_t<float>(sid.objectId, MTM_RAW_X, this);
lp_var_t<float> mtmYnT = lp_var_t<float>(sid.objectId, MTM_RAW_Y, this);
lp_var_t<float> mtmZnT = lp_var_t<float>(sid.objectId, MTM_RAW_Z, this);
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/** 1 if coils were actuating during measurement otherwise 0 */
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lp_var_t<uint8_t> coilActuationStatus = lp_var_t<uint8_t>(sid.objectId, ACTUATION_RAW_STATUS,
this);
};
/**
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* @brief This dataset can be used to store the self test results of the positve X axis test.
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*
* @details Units of measurements:
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* Raw magnetic field: [nT]
* Calibrated magnetic field: [nT]
* Coil currents: [mA]
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* Temperature: [<EFBFBD>C]
* The self test generates for each axis the positive and negative dipole and measures
* the magnetic field with the built-in MTM. The procedure of the test is as follows:
* 1. All coils off (INIT step)
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* 2. +X (apply current to generate dipole in positive X direction)
* 3. All coils off (FINA step)
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*/
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class PosXselfTestSet: public StaticLocalDataSet<SELF_TEST_DATASET_ENTRIES> {
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public:
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PosXselfTestSet(HasLocalDataPoolIF* owner) :
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StaticLocalDataSet(owner, POS_X_TEST_DATASET) {
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}
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PosXselfTestSet(object_id_t objectId) :
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StaticLocalDataSet(sid_t(objectId, POS_X_TEST_DATASET)) {
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}
/** INIT block */
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lp_var_t<uint8_t> initErr = lp_var_t<uint8_t>(sid.objectId, INIT_POS_X_ERR, this);
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lp_var_t<float> initRawMagX = lp_var_t<float>(sid.objectId, INIT_POS_X_RAW_MAG_X, this);
lp_var_t<float> initRawMagY = lp_var_t<float>(sid.objectId, INIT_POS_X_RAW_MAG_Y, this);
lp_var_t<float> initRawMagZ = lp_var_t<float>(sid.objectId, INIT_POS_X_RAW_MAG_Z, this);
lp_var_t<float> initCalMagX = lp_var_t<float>(sid.objectId, INIT_POS_X_CAL_MAG_X, this);
lp_var_t<float> initCalMagY = lp_var_t<float>(sid.objectId, INIT_POS_X_CAL_MAG_Y, this);
lp_var_t<float> initCalMagZ = lp_var_t<float>(sid.objectId, INIT_POS_X_CAL_MAG_Z, this);
lp_var_t<float> initCoilXCurrent = lp_var_t<float>(sid.objectId, INIT_POS_X_COIL_X_CURRENT,
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this);
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lp_var_t<float> initCoilYCurrent = lp_var_t<float>(sid.objectId, INIT_POS_X_COIL_Y_CURRENT,
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this);
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lp_var_t<float> initCoilZCurrent = lp_var_t<float>(sid.objectId, INIT_POS_X_COIL_Z_CURRENT,
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this);
lp_var_t<uint16_t> initCoilXTemperature = lp_var_t<uint16_t>(sid.objectId,
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INIT_POS_X_COIL_X_TEMPERATURE, this);
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lp_var_t<uint16_t> initCoilYTemperature = lp_var_t<uint16_t>(sid.objectId,
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INIT_POS_X_COIL_Y_TEMPERATURE, this);
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lp_var_t<uint16_t> initCoilZTemperature = lp_var_t<uint16_t>(sid.objectId,
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INIT_POS_X_COIL_Z_TEMPERATURE, this);
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/** +X block */
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lp_var_t<uint8_t> err = lp_var_t<uint8_t>(sid.objectId, POS_X_ERR, this);
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lp_var_t<float> rawMagX = lp_var_t<float>(sid.objectId, POS_X_RAW_MAG_X, this);
lp_var_t<float> rawMagY = lp_var_t<float>(sid.objectId, POS_X_RAW_MAG_Y, this);
lp_var_t<float> rawMagZ = lp_var_t<float>(sid.objectId, POS_X_RAW_MAG_Z, this);
lp_var_t<float> calMagX = lp_var_t<float>(sid.objectId, POS_X_CAL_MAG_X, this);
lp_var_t<float> calMagY = lp_var_t<float>(sid.objectId, POS_X_CAL_MAG_Y, this);
lp_var_t<float> calMagZ = lp_var_t<float>(sid.objectId, POS_X_CAL_MAG_Z, this);
lp_var_t<float> coilXCurrent = lp_var_t<float>(sid.objectId, POS_X_COIL_X_CURRENT,
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this);
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lp_var_t<float> coilYCurrent = lp_var_t<float>(sid.objectId, POS_X_COIL_Y_CURRENT,
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this);
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lp_var_t<float> coilZCurrent = lp_var_t<float>(sid.objectId, POS_X_COIL_Z_CURRENT,
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this);
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lp_var_t<uint16_t> coilXTemperature = lp_var_t<uint16_t>(sid.objectId,
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POS_X_COIL_X_TEMPERATURE, this);
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lp_var_t<uint16_t> coilYTemperature = lp_var_t<uint16_t>(sid.objectId,
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POS_X_COIL_Y_TEMPERATURE, this);
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lp_var_t<uint16_t> coilZTemperature = lp_var_t<uint16_t>(sid.objectId,
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POS_X_COIL_Z_TEMPERATURE, this);
/** FINA block */
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lp_var_t<uint8_t> finaErr = lp_var_t<uint8_t>(sid.objectId, FINA_POS_X_ERR, this);
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lp_var_t<float> finaRawMagX = lp_var_t<float>(sid.objectId, FINA_POS_X_RAW_MAG_X, this);
lp_var_t<float> finaRawMagY = lp_var_t<float>(sid.objectId, FINA_POS_X_RAW_MAG_Y, this);
lp_var_t<float> finaRawMagZ = lp_var_t<float>(sid.objectId, FINA_POS_X_RAW_MAG_Z, this);
lp_var_t<float> finaCalMagX = lp_var_t<float>(sid.objectId, FINA_POS_X_CAL_MAG_X, this);
lp_var_t<float> finaCalMagY = lp_var_t<float>(sid.objectId, FINA_POS_X_CAL_MAG_Y, this);
lp_var_t<float> finaCalMagZ = lp_var_t<float>(sid.objectId, FINA_POS_X_CAL_MAG_Z, this);
lp_var_t<float> finaCoilXCurrent = lp_var_t<float>(sid.objectId, FINA_POS_X_COIL_X_CURRENT,
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this);
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lp_var_t<float> finaCoilYCurrent = lp_var_t<float>(sid.objectId, FINA_POS_X_COIL_Y_CURRENT,
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this);
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lp_var_t<float> finaCoilZCurrent = lp_var_t<float>(sid.objectId, FINA_POS_X_COIL_Z_CURRENT,
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this);
lp_var_t<uint16_t> finaCoilXTemperature = lp_var_t<uint16_t>(sid.objectId,
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FINA_POS_X_COIL_X_TEMPERATURE, this);
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lp_var_t<uint16_t> finaCoilYTemperature = lp_var_t<uint16_t>(sid.objectId,
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FINA_POS_X_COIL_Y_TEMPERATURE, this);
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lp_var_t<uint16_t> finaCoilZTemperature = lp_var_t<uint16_t>(sid.objectId,
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FINA_POS_X_COIL_Z_TEMPERATURE, this);
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};
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/**
* @brief This class can be used to ease the generation of an action message commanding the
* IMTQHandler to configure the magnettorquer with the desired dipoles.
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*
* @details Deserialize the packet, write the deserialized data to the ipc store and store the
* the ipc store address in the action message.
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*/
class CommandDipolePacket : public SerialLinkedListAdapter<SerializeIF> {
public:
CommandDipolePacket() {
setLinks();
}
private:
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/**
* @brief Constructor
*
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* @param xDipole The dipole of the x coil in 10 ^ -4 * Am^2
* @param yDipole The dipole of the y coil in 10 ^ -4 * Am^2
* @param zDipole The dipole of the z coil in 10 ^ -4 * Am^2
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* @param duration The duration in milliseconds the dipole will be generated by the coils.
* When set to 0, the dipole will be generated until a new dipole actuation
* command is sent.
*/
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CommandDipolePacket(uint16_t xDipole, uint16_t yDipole, uint16_t zDipole, uint16_t duration) :
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xDipole(xDipole), yDipole(yDipole), zDipole(zDipole), duration(duration) {
}
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void setLinks() {
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setStart(&xDipole);
xDipole.setNext(&yDipole);
yDipole.setNext(&zDipole);
zDipole.setNext(&duration);
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}
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SerializeElement<uint16_t> xDipole;
SerializeElement<uint16_t> yDipole;
SerializeElement<uint16_t> zDipole;
SerializeElement<uint16_t> duration;
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};
}
#endif /* MISSION_DEVICES_DEVICEDEFINITIONS_IMTQDEFINITIONS_H_ */