Strength of Irradiance and the UV Index chart page added
Dependencies: TFT_fonts UniGraphic VEML6075 mbed vt100
Fork of quattro_vishay_6075 by
This is a forked version of quattro_vishay_6075.
An additional Strength of Irradiance and the UV Index page added.
NOTE: Please update the VEML6075.lib before compile.
main.cpp
- Committer:
- shockey
- Date:
- 2016-02-05
- Revision:
- 0:11b872c2badc
- Child:
- 1:6b82f17ff8e0
File content as of revision 0:11b872c2badc:
#include "mbed.h" #include "vt100.h" #include "quattro.h" #include "SEPS225.h" #include "Arial12x12.h" #include "Arial24x23.h" #include "Arial28x28.h" #include "font_big.h" #include "VEML6075.h" #include "kinetis_raw128x128.h" // dummy assign for RESET PIN #define PIN_RESET_TFT PTC5 #define VEML6075_I2C_ADDRESS (0x10) VEML6075 *veml6075 = 0 ; SEPS225 TFT(SPI_8, 10000000, PIN_OLED_MOSI, PIN_OLED_MISO, PIN_OLED_SCLK, PIN_OLED_CS, PIN_RESET_TFT, PIN_OLED_RS, "OLED SEPS225") ; Serial pc(PTE0, PTE1) ; vt100 *tty = 0 ; int page = 0 ; int prevPage = 0 ; int numPages = 6 ; void enableSW(void) { int3_r->enable_irq() ; int4_g->enable_irq() ; int5_b->enable_irq() ; } void disableSW(void) { int3_r->disable_irq() ; int4_g->disable_irq() ; int5_b->disable_irq() ; } void swRPressed(void) { int3_r->disable_irq() ; *led3_org = !(*led3_org) ; page++ ; page %= numPages ; wait(0.25) ; int3_r->enable_irq() ; } void swGPressed(void) { int4_g->disable_irq() ; *led4_org = !(*led4_org) ; page = 0 ; wait(0.25) ; int4_g->enable_irq() ; } void swBPressed(void) { int5_b->disable_irq() ; *led5_org = !(*led5_org) ; page-- ; if (page < 0) { page = numPages - 1 ; } wait(0.25) ; int5_b->enable_irq() ; } void doLines(unsigned short color) { TFT.cls() ; for (int i = 0 ; i < 128 ; i += 8) { TFT.line(i, 0, 127-i, 127, color) ; } } void doCircles(unsigned short color) { TFT.cls() ; for (int i = 0 ; i < 64 ; i+= 4) { TFT.circle(64, 64, i, color) ; } } void doRects(unsigned short color) { *oled_cs = 0 ; TFT.cls() ; TFT.line(32, 32, 100, 100, color) ; TFT.rect(32, 32, 100, 100, color) ; /* for (i = 0 ; i < 64 ; i += 4) { x0 = 64 - i ; x1 = 64 + i ; y0 = 64 - i ; y1 = 64 + i ; TFT.rect(x0, y0, x1, y1, color) ; } */ *oled_cs = 1 ; } void doText(void) { TFT.cls() ; // *oled_cs = 0 ; // TFT.line(0, 64, 127, 64, 0xFF00) ; TFT.set_font((unsigned char*) Arial12x12); TFT.foreground(0xFFFF) ; TFT.background(0x0000) ; TFT.locate(10, 20) ; TFT.printf("MBED") ; TFT.foreground(0xFFFF); TFT.locate(20, 60) ; TFT.printf("2.8\"TFT") ; TFT.locate(20, 80) ; TFT.printf("ABCDEF") ; // *oled_cs = 1 ; } void doSplash(void) { TFT.cls() ; TFT.foreground(0xFFFF) ; TFT.background(0x0000) ; TFT.set_font((unsigned char*) Arial28x28); TFT.locate(5, 5) ; TFT.printf("Marubun") ; TFT.set_font((unsigned char*) Arial12x12); TFT.locate(35, 40) ; TFT.printf("quattro-II") ; TFT.locate(50, 60) ; TFT.printf("&") ; TFT.locate(40, 80) ; TFT.printf("shaft-II") ; TFT.foreground(0xFD20) ; TFT.set_font((unsigned char*) Arial24x23); TFT.locate(10, 100) ; TFT.printf("Kinetis") ; TFT.foreground(0xFFFF) ; TFT.set_font((unsigned char*) Arial12x12); } void doPict(unsigned short pict[]) { int x, y ; TFT.display(0) ; // TFT.window(0, 0, 127, 127) ; TFT.cls() ; for (y = 0 ; y < 128 ; y++ ) { for (x = 0 ; x < 128 ; x++ ) { TFT.pixel(x, y, pict[128*y + x]) ; } } // TFT.window_pushpixelbuf(pict, 128*128) ; TFT.display(1) ; } void init_sensors(void) { veml6075 = new VEML6075(PTB3, PTB2, VEML6075_I2C_ADDRESS) ; // for FRDM-K22F veml6075->setUVConf(0x00) ; // veml6040 = new VEML6040(PTB3, PTB2, VEML6040_I2C_ADDRESS) ; // for FRDM-K22F // veml6040->setCOLORConf(0x00) ; } void reportVEML6075(VEML6075 *veml,int x, int y) { uint8_t uvconf = 0x00 ; uint16_t id = 0 ; uint16_t uvadata = 0 ; uint16_t uvbdata = 0 ; uint16_t uvcomp1data = 0 ; uint16_t uvcomp2data = 0 ; float fUVA = 0.0 ; float fUVA_CIE = 0.0 ; float fUVB = 0.0 ; float fUVB_CIE = 0.0 ; float uvi = 0 ; veml->setUVConf(uvconf) ; veml->getUVConf(&uvconf) ; veml->getID(&id) ; veml->getUVAData(&uvadata) ; veml->getUVBData(&uvbdata) ; veml->getUVCOMP1Data(&uvcomp1data) ; veml->getUVCOMP2Data(&uvcomp2data) ; fUVA = veml->getUVA() ; fUVA_CIE = veml->getUVA_CIE() ; fUVB = veml->getUVB() ; fUVB_CIE = veml->getUVB_CIE() ; uvi = veml->UVI() ; TFT.foreground(White); TFT.locate(x+30, y) ; TFT.printf("VEML6075\n") ; TFT.locate(x, y+10) ; TFT.printf("ID = 0x%04X\n", id) ; TFT.locate(x, y+20) ; TFT.printf("uvconf = 0x%02X\n", uvconf) ; TFT.locate(x, y+40) ; TFT.printf("UVLED:NCSU033X\n") ; TFT.locate(x, y+50) ; TFT.printf("UVA [%08.2f uW/cm2]\n", fUVA ) ; // TFT.locate(x, y+50) ; // TFT.printf("UVA [%.7f W/m2]\n", fUVA_CIE ) ; TFT.locate(x, y+70) ; TFT.printf("UVLED:UVTOP310TO39HS\n") ; TFT.locate(x, y+80) ; TFT.printf("UVB [%08.2f uW/cm2]\n", fUVB ) ; // TFT.locate(x, y+80) ; // TFT.printf("UVB [%.7f W/m2]\n", fUVB_CIE ) ; TFT.locate(x, y+100) ; if (uvi >= 8.0 ) TFT.foreground(Red); else if (uvi < 8.0 && uvi > 3.0 ) TFT.foreground(Yellow); else TFT.foreground(White); // TFT.printf("UVI [ %.1f ] for Demo\n", uvi ) ; // For demo TFT.printf("UVI [ %.1f ] \n", uvi ) ; // TFT.printf("comp1 [ %6d ]", uvcomp1data) ; // TFT.printf("comp2 [ %6d ]", uvcomp2data) ; } void doReportVeml(void) { if (prevPage != page) { TFT.cls() ; wait(0.5) ; } TFT.set_font((unsigned char*) Terminal6x8); reportVEML6075(veml6075, 5, 10) ; // reportVEML6040(veml6040, 5, 10) ; } double clip(double src) { double value ; value = src ; if (value < 0.0) { value = 0.0 ; } else if (value > 2.0) { value = 2.0 ; } return( value ) ; } void updatePage(void) { switch(page) { case 0: // splash if (page != prevPage) { doSplash() ; } break ; case 1: if (page != prevPage) { doPict(kinetis_logo) ; } break ; case 2: doReportVeml() ; // if (page != prevPage) { // doPict(ojizo) ; // } break ; default: page = 0 ; doPict(kinetis_logo) ; break ; } prevPage = page ; } int main() { oled_cs = new DigitalOut(PIN_OLED_CS, 1) ; oled_rs = new DigitalOut(PIN_OLED_RS, 1) ; tty = new vt100() ; tty->cls() ; init_quattro() ; int3_r->fall(swRPressed) ; int4_g->fall(swGPressed) ; int5_b->fall(swBPressed) ; init_sensors() ; printf("quattro (%s)\n\r", __DATE__) ; TFT.set_font((unsigned char*) Arial12x12); TFT.window(0,0,128,128) ; doSplash() ; page = 0 ; prevPage = 0 ; TFT.display(1) ; wait(1) ; while(1) { disableSW() ; updatePage() ; enableSW() ; wait(0.1) ; } }