Gas Pressure Display Updated Power control for Pressure sensor added
Dependencies: UniGraphic mbed vt100
edge_sensor/edge_pressure.cpp
- Committer:
- Rhyme
- Date:
- 2018-02-16
- Revision:
- 0:37c8ecde13c2
File content as of revision 0:37c8ecde13c2:
#include "mbed.h" #include "edge_sensor.h" #include "edge_time.h" #include "edge_reset_mgr.h" #include "PSE530.h" #include "edge_pressure.h" #include <ILI9341.h> #include "edge_chart.h" // #include "SO1602A.h" // extern SO1602A *display ; /* OLED display on I2C */ extern ILI9341 *display ; #define LOW_THR 0.2 #define HIGH_THR 0.3 #define MIN_TEMP 12.0 #define MAX_TEMP 30.0 /** * SMC PSE530 pressure sensor * analog output 1.0V - 5.0V * 1.0V : 0 * 5.0V : 1MPa * (at 0.6V : -0.1MPa) * Our sensor I/F converts 0-5V to 0-1 * So we suppose V = Analog Float Value : Pressure * 0.2 = 0 * 1.0 = 1MPa */ float temp2expected(float temp) { const float coef_A = 0.089 ; const float coef_B = 0.831 ; float pressure ; pressure = temp * coef_A + coef_B ; return( pressure ) ; } edge_pressure::edge_pressure(PSE530 *pse, DigitalOut *en) { _pse = pse ; _en = en ; _value = 0.0 ; _interval = 30 ; _thr_mode = 0 ; _thr_high = HIGH_THR ; _thr_low = LOW_THR ; } edge_pressure::~edge_pressure(void) { if (_pse) { delete _pse ; } _value = 0.0 ; } float edge_pressure::get_value(void) { float value = 0.0 ; value = _pse->getPressure() ; return( value ) ; } void edge_pressure::reset(void) { _value = 0.0 ; _sampled_time = 0 ; } void edge_pressure::prepare(void) { } int edge_pressure::sample(void) { int result = 0 ; *_en = 1 ; /* enable pressure sensor */ wait_ms(40) ; _value = get_value() ; *_en = 0 ; /* disable pressure sensor */ _sampled_time = edge_time ; return( result ) ; /* this always success */ } void edge_pressure::set_thr_high(int16_t thr_high) { switch(_thr_mode) { case 0: /* absolute value */ _thr_high = (float)thr_high/100.0 ; break ; case 1: /* persentage */ _thr_high = (float)(thr_high/100.0) ; break ; default: printf("Unknown Threshold mode %d\n", _thr_mode) ; _thr_high = (float)thr_high/100.0 ; break ; } // printf("thr_high = %.3f\n", _thr_high) ; } float edge_pressure::get_thr_high(float expected) { float thr_high ; switch(_thr_mode) { case 0: /* absolute value */ thr_high = expected + _thr_high ; break ; case 1: /* persentage */ thr_high = expected * (1.0 + _thr_high) ; break ; default: printf("Unknown Threshold mode %d\n", _thr_mode) ; thr_high = expected + _thr_high ; /* use this as default */ break ; } return (thr_high) ; } void edge_pressure::set_thr_low(int16_t thr_low) { switch(_thr_mode) { case 0: /* absolute value */ _thr_low = (float)thr_low/100.0 ; break ; case 1: /* persentage */ _thr_low = (float)(thr_low/100.0) ; break ; default: printf("Unknown Threshold mode %d\n", _thr_mode) ; _thr_low = (float)thr_low/100.0 ; break ; } //printf("thr_low = %.3f\n", _thr_low) ; } float edge_pressure::get_thr_low(float expected) { float thr_low ; switch(_thr_mode) { case 0: /* absolute value */ thr_low = expected - _thr_low ; break ; case 1: /* persentage */ thr_low = expected * (1.0 - _thr_low) ; break ; default: printf("Unknown Threshold mode %d\n", _thr_mode) ; thr_low = expected + _thr_low ; /* use this as default */ break ; } return (thr_low) ; } int edge_pressure::deliver(void) { char str_buf[32] ; char timestr[16] ; int result ; reset_watch_dog() ; print_time(_sampled_time) ; if (current_temp != 0) { sprintf(str_buf, "GAS: %.3f kgf/cm2 @ %.1fC", _value, *current_temp ) ; } else { sprintf(str_buf, "GAS: %.3f kgf/cm2", _value ) ; } printf(" ") ; printf(str_buf) ; if (current_temp != 0) { reset_watch_dog() ; _expected = temp2expected(*current_temp) ; _higher = get_thr_high(_expected) ; _lower = get_thr_low(_expected) ; printf(" (%.3f, %.3f) ", _higher, _lower) ; } reset_watch_dog() ; printf(" %s\n", str_buf) ; time2seq(_sampled_time, timestr) ; // printf(str_buf) ; // printf("\n") ; sprintf(_str_buf, "{\"DEVICE\":\"PRESS\",\"PN\":\"PSE530\",\"VAL\":\"%.3f\",\"UNIT\":\"kgf/cm2\",\"T\":\"%s\",\"E\":\"%d\"}", _value, timestr, _error_count) ; reset_watch_dog() ; result = afero->setAttribute(1, _str_buf) ; return( result == afSUCCESS ) ; } int v2x(float value) { int result ; if (value < 0) { result = 20 ; } else if (value > 4) { result = 300 ; } else { result = 20 + (int)(70 * value + 0.5) ; } return( result ) ; } int press_v2y(float value, edge_chart_type *p) { int y ; if (value < p->min) { value = p->min ; } else if (value > p->max) { value = p->max ; } y = p->top + p->height - 2 - (int)((p->height - 2) * value /(p->max - p->min)) ; return( y ) ; } void edge_pressure::show(void) { edge_chart_type *p = &edge_chart[ _id ] ; uint16_t color = White ; char str_buf[32] ; int i, x, y, l, r, c ; if (display) { reset_watch_dog() ; /* for debug */ // _value = _lower - 0.5 ; /* LOW */ // _value = (_higher + _lower) / 2 ; /* GOOD */ // _value = _higher + 0.2 ; /* HIGH */ if (_value > _higher) { sprintf(str_buf, "HIGH") ; color = Red ; } else if (_value < _lower) { sprintf(str_buf, "LOW") ; color = Yellow ; } else { sprintf(str_buf, "GOOD") ; color = Green ; } switch(display_mode) { case DISPLAY_MODE_GAS: display->BusEnable(true) ; display->cls() ; /* printf frame */ display->foreground(White) ; display->line(20, 75, 300, 75, White) ; for (i = 0 ; i <= 8 ; i++ ) { x = 20 + i * 35 ; if (i & 0x01) { /* odd */ display->line(x, 55, x, 95, White) ; } else { /* even */ display->line(x, 45, x, 105, White) ; } } display->set_font((unsigned char*) Arial28x28); for (i = 0 ; i <= 4 ; i++ ) { x = 12 + i * 70 ; display->locate(x, 10) ; display->printf("%d", i) ; } /* print expected area and current pressure */ l = v2x(_lower) ; r = v2x(_higher) ; c = v2x(_value) ; display->fillrect(l, 70, r, 80, Red) ; display->fillcircle(c, 75, 10, White) ; /* print status */ display->locate(30, 140) ; display->set_font_zoom(3, 3) ; display->foreground(color) ; display->printf(str_buf) ; display->set_font_zoom(1, 1) ; display->BusEnable(false) ; break ; case DISPLAY_MODE_SUMMARY: display->BusEnable(true) ; display->set_font((unsigned char*) Arial12x12); display->set_font_zoom(2, 2) ; display->foreground(White) ; display->locate(10, EDGE_SUMMARY_TIME_Y) ; displayTime(_sampled_time) ; // display->locate(10,50) ; // display->printf(timestr) ; display->locate(10, EDGE_SUMMARY_PRESS_Y) ; display->printf("Press: ") ; display->foreground(color) ; display->locate(90, EDGE_SUMMARY_PRESS_Y) ; display->printf("%.3f ", _value) ; display->foreground(White) ; display->printf("kgf/cm2") ; display->BusEnable(false) ; break ; case DISPLAY_MODE_CHART: x = p->left + p->index + 1; y = press_v2y(_value, p) ; display->BusEnable(true) ; if (p->index == 0) { draw_chart_frame(p) ; } display->foreground(color) ; display->pixel(x, y, color) ; display->set_font((unsigned char*) Arial12x12); display->locate(p->left + 40, p->top + 5) ; display->printf("%5s", str_buf) ; display->foreground(White) ; display->BusEnable(false) ; p->index = (p->index + 1) % (p->width - 2) ; break ; } } reset_watch_dog() ; }