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modes.h
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modes.h
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/*! \addtogroup AFE_Library AFE Library
* @{
*/
#ifndef __MODES_H__
#define __MODES_H__
/* C++ linkage */
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
/***************************************************************************/
/* Defines for Mode Tetrapolar Imaging */
/***************************************************************************/
/* Excitation frequency in Hz */
#define FREQ (25000)
/* Peak voltage in mV */
#define VPEAK (599)
/* RCAL value in Ohms */
#define RCAL (1000)
/* RTIA value in Ohms */
#define RTIA (33000)
/* Instrumentation Amplifier Gain */
#define INST_AMP_GAIN (1.494)
/* FCW = FREQ * 2^26 / 16e6 */
#define FCW ((uint32_t)(((uint64_t)FREQ << 26) / 16000000 + 0.5))
/* DAC LSB size in mV = (1.6V / (2^12 - 1)) */
#define DAC_LSB_SIZE (0.39072)
/* Sine amplitude in DAC codes */
#define SINE_AMPLITUDE ((uint16_t)((VPEAK) / DAC_LSB_SIZE + 0.5))
/* If both real and imaginary result are within the interval (DFT_RESULTS_OPEN_MIN_THR, DFT_RESULTS_OPEN_MAX_THR), */
/* it is considered an open circuit and results for both magnitude and phase will be 0. */
#define DFT_RESULTS_OPEN_MAX_THR (1)
#define DFT_RESULTS_OPEN_MIN_THR (-1)
/* The number of results expected from the DFT; each result has 4 numbers associated. */
/* 2 current, 2 voltage */
#define DFT_RESULTS_COUNT (4)
/* this number DFT RESULTS COUNT will have to change */
/* Fractional LSB size for the fixed32_t type defined below, used for printing only. */
#define FIXED32_LSB_SIZE (625)
#define MSG_MAXLEN_M3 (400)
#define NUMBEROFMEASURES (960)
#define NO_MEASURES_32_OPPOSITION (960)
#define NO_MEASURES_16_OPPOSITION (224)
#define NO_MEASURES_8_OPPOSITION (48)
/***************************************************************************/
/* Defines for Mode Timeseries */
/***************************************************************************/
#define MSG_MAXLEN_M1 (50)
#define CLOCKS_PER_SECOND (16000) /* how many clocks per second */
/***************************************************************************/
/* Defines for Mode BIOIMPEDANCE SPECTROSCOPY */
/***************************************************************************/
#define MULTIFREQUENCY_ARRAY_SIZE (15)
#define MSG_MAXLEN_M2 (50)
const uint64_t multifrequency[] = {200,500,800,1000,2000,5000,8000,10000,15000,20000,30000,40000,50000,60000,70000};
const char *stringfreqs[MULTIFREQUENCY_ARRAY_SIZE] = {"200","500","800","1000","2000","5000","8000","10000","15000","20000","30000","40000","50000","60000","70000"};
/***************************************************************************/
/* Defines for Bipolar */
/***************************************************************************/
/* Peak voltage in mV */
#define VPEAK_BIPOLAR (12.73)
/* Sine amplitude in DAC codes */
#define SINE_AMPLITUDE_BIPOLAR ((uint16_t)((VPEAK * 40) / DAC_LSB_SIZE + 0.5))
/* If both real and imaginary result are within the interval (DFT_RESULTS_OPEN_MIN_THR, DFT_RESULTS_OPEN_MAX_THR), */
/* it is considered an open circuit and results for both magnitude and phase will be 0. */
#define DFT_RESULTS_OPEN_MAX_THR_BIPOLAR (10)
#define DFT_RESULTS_OPEN_MIN_THR_BIPOLAR (-10)
/* C++ linkage */
#ifdef __cplusplus
}
#endif
#endif /* include guard */
/*
** EOF
*/
/*@}*/