Volckens Group Sensors / UPAS_BLE_SD_iOS

Code supports writing to the SD card as well as working with the Volckens group smartphone apps for the mbed HRM1017

Dependencies:   ADS1115 BLE_API BME280 Calibration CronoDot EEPROM LSM303 MCP40D17 NCP5623BMUTBG SDFileSystem SI1145 STC3100 mbed nRF51822

Fork of UPAS_BLE_and_USB by Volckens Group Sensors

main.cpp@121:6631364325df, 2016-02-23 (annotated)

Committer:
caseyquinn
Date:
Tue Feb 23 19:51:09 2016 +0000
Revision:
121:6631364325df
Parent:
120:c7818e89e3da
Child:
122:f26474cc223a
Changed the minimum digital pot value from 2 to 5 to try and eliminate the issue with power cut out that appears to happen sometimes. Need to check to make sure this works.

Who changed what in which revision?

UserRevisionLine numberNew contents of line
caseyquinn 0:14d46ef4b6cb 1 #include "mbed.h"
caseyquinn 0:14d46ef4b6cb 2 #include "SDFileSystem.h"
caseyquinn 0:14d46ef4b6cb 3 #include "Adafruit_ADS1015.h"
caseyquinn 1:37babeb68ab9 4 #include "MCP40D17.h"
caseyquinn 7:a24d7156bc02 5 #include "STC3100.h"
caseyquinn 115:fb25810c1fab 6 #include "LSM303.h"
caseyquinn 12:8c00a7f5d483 7 #include "BME280.h"
caseyquinn 14:ad550174db8b 8 #include "SI1145.h"
joshuasmth04 40:ef7e1dcb3780 9 #include "NCP5623BMUTBG.h"
joshuasmth04 41:1fb3e0ac6f87 10 #include "CronoDot.h"
caseyquinn 56:c4d6bdd7c3fb 11 #include "EEPROM.h"
joshuasmth04 77:24fbeb2bfe05 12 #include "BLEDevice.h"
joshuasmth04 77:24fbeb2bfe05 13 #include "Calibration.h"
jelord 94:c57720890e76 14 #include "UPAS_Service.h"
joshuasmth04 71:78edbceff4fc 15
caseyquinn 1:37babeb68ab9 16 #define SERIAL_BAUD_RATE 9600
joshuasmth04 41:1fb3e0ac6f87 17 #define SCL 20
caseyquinn 7:a24d7156bc02 18 #define SDA 22
caseyquinn 81:480f0310ef9a 19
caseyquinn 0:14d46ef4b6cb 20
joshuasmth04 71:78edbceff4fc 21
jelord 94:c57720890e76 22
joshuasmth04 71:78edbceff4fc 23
jelord 97:c596f8ed4562 24 uint8_t startAndEndTime[12] = {0,};
jelord 97:c596f8ed4562 25 uint8_t logIntervalReadOut[1] = {0,};
jelord 94:c57720890e76 26 static const uint16_t uuid16_list[] = {UPAS_Service::UPAS_SERVICE_UUID}; //Currently a custom 16-bit representation of 128-bit UUID
joshuasmth04 71:78edbceff4fc 27 BLEDevice ble;
jelord 94:c57720890e76 28 UPAS_Service *upasServicePtr;
jelord 94:c57720890e76 29 //BLE_Menu bleMenu(ble, txPayload, rxPayload, uart_base_uuid_rev, uart_base_uuid, uartService);
joshuasmth04 71:78edbceff4fc 30
joshuasmth04 72:0b36575ab00d 31 I2C i2c(p22, p20);
joshuasmth04 72:0b36575ab00d 32 Adafruit_ADS1115 ads(&i2c);
joshuasmth04 72:0b36575ab00d 33 MCP40D17 DigPot(&i2c);
joshuasmth04 72:0b36575ab00d 34 BME280 bmesensor(p22, p20);
joshuasmth04 72:0b36575ab00d 35 STC3100 gasG(p22, p20);
joshuasmth04 72:0b36575ab00d 36 Serial pc(USBTX, USBRX);
joshuasmth04 72:0b36575ab00d 37 DigitalOut blower(p29, 0);
joshuasmth04 72:0b36575ab00d 38 DigitalOut pbKill(p18, 1);
caseyquinn 115:fb25810c1fab 39 LSM303 movementsensor(p22, p20);
joshuasmth04 72:0b36575ab00d 40 SI1145 lightsensor(p22, p20);
joshuasmth04 72:0b36575ab00d 41 NCP5623BMUTBG RGB_LED(p22, p20);
joshuasmth04 72:0b36575ab00d 42 CronoDot RTC(p22, p20);
joshuasmth04 72:0b36575ab00d 43 EEPROM E2PROM(p22, p20);
joshuasmth04 77:24fbeb2bfe05 44 DigitalOut GPS_EN(p4,0); //pin 4 is used to enable and disable the GPS, in order to recive serial communications
joshuasmth04 77:24fbeb2bfe05 45 Calibration calibrations(1); //Default serial/calibration if there are no values for the selected option
caseyquinn 57:0b554f7aa9a3 46
caseyquinn 114:84e759e07948 47 //Timeout stop; //This is the stop call back object
caseyquinn 114:84e759e07948 48 //Timeout logg; //This is the logging call back object
caseyquinn 111:5f2ba5f1a468 49
caseyquinn 110:67980ebdebf6 50
caseyquinn 67:300418575137 51
joshuasmth04 77:24fbeb2bfe05 52 uint16_t serial_num = 1; // Default serial/calibration number
joshuasmth04 77:24fbeb2bfe05 53 int RunReady =0;
caseyquinn 70:81f04e69e08a 54
caseyquinn 70:81f04e69e08a 55
caseyquinn 20:ad9883973d86 56 float press;
caseyquinn 20:ad9883973d86 57 float temp;
caseyquinn 20:ad9883973d86 58 float rh;
caseyquinn 4:69bd7e8a994c 59
caseyquinn 20:ad9883973d86 60 int uv;
caseyquinn 20:ad9883973d86 61 int vis;
caseyquinn 20:ad9883973d86 62 int ir;
caseyquinn 8:204c21adf693 63
caseyquinn 115:fb25810c1fab 64
caseyquinn 67:300418575137 65 float compass;
caseyquinn 10:f9cb61b29340 66 float accel_x;
caseyquinn 10:f9cb61b29340 67 float accel_y;
caseyquinn 10:f9cb61b29340 68 float accel_z;
lionberg 52:80480b2fafba 69 float accel_comp;
caseyquinn 105:f3be9e0314f7 70 float angle_x;
caseyquinn 105:f3be9e0314f7 71 float angle_y;
caseyquinn 105:f3be9e0314f7 72 float angle_z;
caseyquinn 10:f9cb61b29340 73 float mag_x;
caseyquinn 10:f9cb61b29340 74 float mag_y;
caseyquinn 10:f9cb61b29340 75 float mag_z;
caseyquinn 115:fb25810c1fab 76
caseyquinn 10:f9cb61b29340 77
caseyquinn 0:14d46ef4b6cb 78 int vInReading;
caseyquinn 0:14d46ef4b6cb 79 int vBlowerReading;
caseyquinn 0:14d46ef4b6cb 80 int omronDiff;
lionberg 52:80480b2fafba 81 float omronVolt; //V
caseyquinn 20:ad9883973d86 82 int omronReading;
lionberg 52:80480b2fafba 83 float atmoRho; //g/L
caseyquinn 49:19e828650618 84
caseyquinn 20:ad9883973d86 85 float massflow; //g/min
caseyquinn 20:ad9883973d86 86 float volflow; //L/min
caseyquinn 67:300418575137 87 float volflowSet = 1.0; //L/min
caseyquinn 81:480f0310ef9a 88 int logInerval = 10; //seconds
caseyquinn 57:0b554f7aa9a3 89 double secondsD = 0;
caseyquinn 105:f3be9e0314f7 90 double lastsecondD = 0;
joshuasmth04 41:1fb3e0ac6f87 91 float massflowSet;
caseyquinn 42:fc2f2b9f07ae 92 float deltaVflow = 0.0;
caseyquinn 42:fc2f2b9f07ae 93 float deltaMflow = 0.0;
caseyquinn 47:3146e8c949a9 94 float gainFlow;
lionberg 52:80480b2fafba 95 float sampledVol; //L, total sampled volume
caseyquinn 20:ad9883973d86 96
caseyquinn 55:f24d70f519cd 97 int digital_pot_setpoint; //min = 0x7F, max = 0x00
caseyquinn 55:f24d70f519cd 98 int digital_pot_set;
caseyquinn 55:f24d70f519cd 99 int digital_pot_change;
caseyquinn 55:f24d70f519cd 100 int digitalpotMax = 127;
caseyquinn 121:6631364325df 101 int digitalpotMin = 5;
caseyquinn 55:f24d70f519cd 102
joshuasmth04 59:a9b21b3d9afc 103 int dutyUp;
joshuasmth04 59:a9b21b3d9afc 104 int dutyDown;
joshuasmth04 59:a9b21b3d9afc 105
joshuasmth04 72:0b36575ab00d 106 // variables are only place holders for the US_Menu //
joshuasmth04 72:0b36575ab00d 107 int refreshtime;
joshuasmth04 72:0b36575ab00d 108 float home_lat, home_lon, work_lat, work_lon;
joshuasmth04 77:24fbeb2bfe05 109 //*************************************************//
joshuasmth04 72:0b36575ab00d 110
caseyquinn 67:300418575137 111 //int refresh_Time = 10; // refresh time in s, note calling read_GPS()(or similar) will still take how ever long it needs(hopefully < 1s)
caseyquinn 42:fc2f2b9f07ae 112
caseyquinn 81:480f0310ef9a 113 char filename[] = "/sd/XXXX0000LOG000000000000---------------.txt";
caseyquinn 7:a24d7156bc02 114 SDFileSystem sd(SPIS_PSELMOSI, SPIS_PSELMISO, SPIS_PSELSCK, SPIS_PSELSS, "sd"); // I believe this matches Todd's pinout, let me know if this doesn't work. (p12, p13, p15, p14)
caseyquinn 7:a24d7156bc02 115
caseyquinn 7:a24d7156bc02 116
joshuasmth04 71:78edbceff4fc 117 void disconnectionCallback(Gap::Handle_t handle, Gap::DisconnectionReason_t reason)
joshuasmth04 71:78edbceff4fc 118 {
jelord 94:c57720890e76 119 ble.startAdvertising();
joshuasmth04 71:78edbceff4fc 120 }
joshuasmth04 71:78edbceff4fc 121
joshuasmth04 71:78edbceff4fc 122 void WrittenHandler(const GattCharacteristicWriteCBParams *Handler) // called any time the phone sends a message
joshuasmth04 71:78edbceff4fc 123 {
jelord 94:c57720890e76 124 uint8_t *writeData = const_cast<uint8_t*>(Handler->data);
jelord 94:c57720890e76 125 // check to see what characteristic was written, by handle
jelord 94:c57720890e76 126 if(Handler->charHandle == upasServicePtr->rtcCharacteristic.getValueAttribute().getHandle()) {
jelord 94:c57720890e76 127
jelord 94:c57720890e76 128
jelord 94:c57720890e76 129
jelord 94:c57720890e76 130 E2PROM.write(0x00015, writeData+6, 12);
jelord 94:c57720890e76 131 RTC.set_time(writeData[0],writeData[1],writeData[2],writeData[3],writeData[3],writeData[4],writeData[5]);
jelord 94:c57720890e76 132
jelord 94:c57720890e76 133 }else if(Handler->charHandle == upasServicePtr->sampleTimeCharacteristic.getValueAttribute().getHandle()){
jelord 94:c57720890e76 134
jelord 94:c57720890e76 135 E2PROM.write(0x00015, writeData, 12);
jelord 94:c57720890e76 136
jelord 94:c57720890e76 137 }else if(Handler->charHandle == upasServicePtr->subjectLabelCharacteristic.getValueAttribute().getHandle()){
jelord 94:c57720890e76 138 E2PROM.write(0x00001,writeData,15);
jelord 94:c57720890e76 139
jelord 94:c57720890e76 140 }else if(Handler->charHandle == upasServicePtr->runReadyCharacteristic.getValueAttribute().getHandle()){
jelord 100:da71436aa52a 141
jelord 94:c57720890e76 142 uint8_t runData = writeData[0];
jelord 100:da71436aa52a 143 E2PROM.write(0x00033,writeData,1);
jelord 94:c57720890e76 144
jelord 100:da71436aa52a 145 if(runData == 0x0A){
jelord 100:da71436aa52a 146 RunReady = 10;
jelord 100:da71436aa52a 147 }else{
jelord 100:da71436aa52a 148 RunReady = 12;
jelord 100:da71436aa52a 149 }
jelord 94:c57720890e76 150
jelord 96:03106adb45c9 151 }else if(Handler->charHandle == upasServicePtr->logIntevalCharacteristic.getValueAttribute().getHandle()){
jelord 94:c57720890e76 152 /* Trigger demo mode*/
jelord 96:03106adb45c9 153 //RGB_LED.set_led(3,1,0);
jelord 96:03106adb45c9 154 E2PROM.write(0x00014,writeData,1);
jelord 96:03106adb45c9 155
jelord 96:03106adb45c9 156 }else if(Handler->charHandle == upasServicePtr->flowRateCharacteristic.getValueAttribute().getHandle()){
jelord 96:03106adb45c9 157 //RGB_LED.set_led(3,1,0);
jelord 98:d70ff5a0b2e6 158 E2PROM.write(0x00010,writeData,4);
jelord 98:d70ff5a0b2e6 159
jelord 98:d70ff5a0b2e6 160 //float volFlowTester = 0.0;
jelord 98:d70ff5a0b2e6 161 //uint8_t flowRateTestBytes[4] = {0,};
jelord 98:d70ff5a0b2e6 162 //E2PROM.read(0x00010,flowRateTestBytes,4);
jelord 98:d70ff5a0b2e6 163 //E2PROM.byteToFloat(flowRateTestBytes, &volFlowTester);
jelord 98:d70ff5a0b2e6 164
jelord 104:c57913399e79 165 }else if(Handler->charHandle == upasServicePtr->serialNumCharacteristic.getValueAttribute().getHandle()){
jelord 104:c57913399e79 166 E2PROM.write(0x00034,writeData,2);
jelord 94:c57720890e76 167 }
jelord 104:c57913399e79 168
joshuasmth04 71:78edbceff4fc 169 }
joshuasmth04 71:78edbceff4fc 170
caseyquinn 58:7239c2ab2b65 171
caseyquinn 113:846f67efaa80 172
jelord 96:03106adb45c9 173 /*EEPROM ADDRESSING:
jelord 96:03106adb45c9 174 0:Status bit-Unused
jelord 96:03106adb45c9 175 1-15:Device Name
jelord 96:03106adb45c9 176 16-19:Flow Rate
jelord 96:03106adb45c9 177 20: Data Log Interval
jelord 96:03106adb45c9 178 21-26: Start Time: ssmmHHddMMyy
jelord 96:03106adb45c9 179 27-32: Stop Time: ssmmHHddMMyy
jelord 96:03106adb45c9 180 33: Duty Up
jelord 96:03106adb45c9 181 34: Duty Down
jelord 96:03106adb45c9 182 35-38: Home Latitude
jelord 96:03106adb45c9 183 39-42: Home Longitude
jelord 96:03106adb45c9 184 43-46: Work Latitude
jelord 96:03106adb45c9 185 47-50: Work Longitude
jelord 96:03106adb45c9 186 51: Runready: Currently useless, should be 0
jelord 96:03106adb45c9 187 52-53: Device Calibration
jelord 96:03106adb45c9 188 54: Consider RunReady
jelord 96:03106adb45c9 189 55-56: Menu Options
jelord 96:03106adb45c9 190 57+ Nothing*/
caseyquinn 57:0b554f7aa9a3 191 int main()
caseyquinn 57:0b554f7aa9a3 192 {
joshuasmth04 91:f838d9a5b596 193 RGB_LED.set_led(1,1,1);
caseyquinn 57:0b554f7aa9a3 194 // Setup and Initialization
caseyquinn 57:0b554f7aa9a3 195 //---------------------------------------------------------------------------------------------//
joshuasmth04 71:78edbceff4fc 196 //**************//BLE initialization//**************//
jelord 94:c57720890e76 197 RTC.get_time();
jelord 94:c57720890e76 198 uint8_t rtcPassValues[6] = {RTC.seconds, RTC.minutes,RTC.hour,RTC.date,RTC.month,RTC.year};
jelord 104:c57913399e79 199
jelord 104:c57913399e79 200 uint8_t sampleTimePassValues[12] = {0x00,0x00,0x0A,0x01,0x01,0x10,0x00,0x00,0x0A,0x01,0x01,0x10}; //Start 1/1/16 12:00:00 End 1/1/16 12:00:00
jelord 104:c57913399e79 201 uint8_t subjectLabelOriginal[8] = {0x52,0x45,0x53,0x45,0x54,0x5F,0x5F,0x5f}; // RESET___
jelord 104:c57913399e79 202 uint8_t dataLogOriginal[1] = {0x0A,}; //10 seconds
jelord 104:c57913399e79 203 uint8_t flowRateOriginal[4] = {0x00,0x00,0x80,0x3F}; //1.0 LPM
jelord 104:c57913399e79 204
jelord 104:c57913399e79 205 uint8_t serialNumberAndType[6] = {0x50,0x53};
jelord 104:c57913399e79 206
jelord 104:c57913399e79 207 //Code/conditional set up to prevent bad values in the EEPROM. Does not set serial number currently
jelord 104:c57913399e79 208 uint8_t eepromFlag[1] = {0,};
jelord 104:c57913399e79 209 E2PROM.read(0x00071,eepromFlag,1);
jelord 109:33d7fc6c1b9b 210 if(eepromFlag[0]!= 0x0B){
jelord 104:c57913399e79 211 E2PROM.write(0x00015, sampleTimePassValues, 12);
jelord 104:c57913399e79 212 E2PROM.write(0x00001, subjectLabelOriginal,8);
jelord 104:c57913399e79 213 E2PROM.write(0x00014,dataLogOriginal,1);
jelord 104:c57913399e79 214 E2PROM.write(0x00010,flowRateOriginal,4);
jelord 104:c57913399e79 215
jelord 109:33d7fc6c1b9b 216 eepromFlag[0] = 0x0B;
jelord 104:c57913399e79 217 E2PROM.write(0x00071,eepromFlag,1);
jelord 104:c57913399e79 218 }
jelord 104:c57913399e79 219
jelord 104:c57913399e79 220
jelord 104:c57913399e79 221 //Retrieve current eeprom values
jelord 94:c57720890e76 222 E2PROM.read(0x00015, sampleTimePassValues, 12);
jelord 99:229435dd4cfb 223 E2PROM.read(0x00001, subjectLabelOriginal,8);
jelord 96:03106adb45c9 224 E2PROM.read(0x00014,dataLogOriginal,1);
jelord 96:03106adb45c9 225 E2PROM.read(0x00010,flowRateOriginal,4);
jelord 104:c57913399e79 226
jelord 104:c57913399e79 227
jelord 104:c57913399e79 228 //Following 12 lines of code parses the serial number from a byte id to a readable set of characters for the app user to see
jelord 104:c57913399e79 229 E2PROM.read(0x00034,serialNumberAndType+2,2);
jelord 104:c57913399e79 230 int tempSerialNum = serialNumberAndType[2]+serialNumberAndType[3];
jelord 104:c57913399e79 231 int serialNumDigits[4];
jelord 104:c57913399e79 232 serialNumDigits[0] = tempSerialNum / 1000 % 10;
jelord 104:c57913399e79 233 serialNumDigits[1] = tempSerialNum / 100 % 10;
jelord 104:c57913399e79 234 serialNumDigits[2] = tempSerialNum / 10 % 10;
jelord 104:c57913399e79 235 serialNumDigits[3] = tempSerialNum % 10;
jelord 104:c57913399e79 236
jelord 104:c57913399e79 237 serialNumberAndType[2] = serialNumDigits[0]+48;
jelord 104:c57913399e79 238 serialNumberAndType[3] = serialNumDigits[1]+48;
jelord 104:c57913399e79 239 serialNumberAndType[4] = serialNumDigits[2]+48;
jelord 104:c57913399e79 240 serialNumberAndType[5] = serialNumDigits[3]+48;
jelord 104:c57913399e79 241
jelord 118:9cf0a67fb581 242 uint8_t bleControlByte[1] = {0,};
jelord 118:9cf0a67fb581 243 E2PROM.read(0x00072,bleControlByte,1);
jelord 118:9cf0a67fb581 244 if(bleControlByte[0] == 0x01){
jelord 118:9cf0a67fb581 245 bleControlByte[0] = 0x02;
jelord 118:9cf0a67fb581 246 ble.init();
jelord 118:9cf0a67fb581 247 ble.onDisconnection(disconnectionCallback);
jelord 118:9cf0a67fb581 248 ble.onDataWritten(WrittenHandler); //add writeCharCallback (custom function) to whenever data is being written to device
jelord 118:9cf0a67fb581 249 UPAS_Service upasService(ble, false,rtcPassValues,sampleTimePassValues,subjectLabelOriginal,dataLogOriginal,flowRateOriginal); //Create a GattService that is defined in UPAS_Service.h
jelord 118:9cf0a67fb581 250 upasServicePtr = &upasService; //Create a pointer to the service (Allows advertisement without specifically adding the service
jelord 104:c57913399e79 251
jelord 118:9cf0a67fb581 252 /* setup advertising
jelord 118:9cf0a67fb581 253 Following lines do the follow:
jelord 118:9cf0a67fb581 254 1:Declare the device as Bluetooth Smart(Low-Energy)
jelord 118:9cf0a67fb581 255 2.Advertise the UPAS service that will send and receive the 113+ bits of settable values in the UPAS EEPROM
jelord 118:9cf0a67fb581 256 3.Advertise the name that will be associated with the UPAS
jelord 118:9cf0a67fb581 257 4.Allow the UPAS to advertise unrestricted (this might change) */
jelord 118:9cf0a67fb581 258
jelord 118:9cf0a67fb581 259 ble.accumulateAdvertisingPayload(GapAdvertisingData::BREDR_NOT_SUPPORTED | GapAdvertisingData::LE_GENERAL_DISCOVERABLE);
jelord 118:9cf0a67fb581 260 ble.accumulateAdvertisingPayload(GapAdvertisingData::COMPLETE_LIST_16BIT_SERVICE_IDS, (uint8_t *)uuid16_list, sizeof(uuid16_list));
jelord 118:9cf0a67fb581 261 ble.accumulateAdvertisingPayload(GapAdvertisingData::COMPLETE_LOCAL_NAME, (uint8_t *)serialNumberAndType, sizeof(serialNumberAndType));
jelord 118:9cf0a67fb581 262 ble.setAdvertisingType(GapAdvertisingParams::ADV_CONNECTABLE_UNDIRECTED);
jelord 118:9cf0a67fb581 263 ble.setAdvertisingInterval(160); /* 160ms. */
jelord 118:9cf0a67fb581 264 ble.startAdvertising();
jelord 118:9cf0a67fb581 265
jelord 118:9cf0a67fb581 266 //**************//BLE initialization//**************//
jelord 118:9cf0a67fb581 267
jelord 118:9cf0a67fb581 268 //Logic Loop waiting for responses from the BLE iPhone App.
jelord 118:9cf0a67fb581 269 //Will not break loop without response from the app
jelord 94:c57720890e76 270
jelord 118:9cf0a67fb581 271
jelord 118:9cf0a67fb581 272 //Loop waits for response from app. When set to start, UPAS is turned off, but BLE is disabled once UPAS is turned on
jelord 100:da71436aa52a 273 while (1) {
jelord 100:da71436aa52a 274 ble.waitForEvent();
jelord 100:da71436aa52a 275
jelord 100:da71436aa52a 276 if(RunReady==10){ //Check to see if app is done with configurations
jelord 100:da71436aa52a 277 ble.stopAdvertising();
jelord 118:9cf0a67fb581 278 E2PROM.write(0x00072,bleControlByte,1);
jelord 118:9cf0a67fb581 279 pbKill = 0;
jelord 100:da71436aa52a 280 }
jelord 98:d70ff5a0b2e6 281
jelord 100:da71436aa52a 282 }
jelord 118:9cf0a67fb581 283 }
jelord 118:9cf0a67fb581 284 bleControlByte[0] = 0x01;
jelord 118:9cf0a67fb581 285 E2PROM.write(0x00072,bleControlByte,1);
jelord 100:da71436aa52a 286
jelord 94:c57720890e76 287 E2PROM.read(0x00015, startAndEndTime, 12); //Grab start and end times from EEPROM
caseyquinn 113:846f67efaa80 288 RGB_LED.set_led(1,0,1);
jelord 94:c57720890e76 289 while(!RTC.compare(startAndEndTime[0], startAndEndTime[1], startAndEndTime[2], startAndEndTime[3], startAndEndTime[4], startAndEndTime[5])) { // this while waits for the start time by looping until the start time
jelord 94:c57720890e76 290 wait(0.5);
jelord 98:d70ff5a0b2e6 291
jelord 94:c57720890e76 292 RTC.get_time();
jelord 94:c57720890e76 293
jelord 100:da71436aa52a 294 }
caseyquinn 106:3911b3c7a24e 295
caseyquinn 106:3911b3c7a24e 296
jelord 98:d70ff5a0b2e6 297 RGB_LED.set_led(0,1,0);
jelord 102:d25eab697fe0 298
jelord 102:d25eab697fe0 299 //Get the proper serial number
jelord 102:d25eab697fe0 300 E2PROM.read(0x00034, flowRateOriginal,2);
jelord 102:d25eab697fe0 301 serial_num = ((uint16_t)flowRateOriginal[1] << 8) | flowRateOriginal[0];
caseyquinn 107:5e3364e42214 302 //----------------------------------------------
jelord 109:33d7fc6c1b9b 303 calibrations.initialize(serial_num);
jelord 109:33d7fc6c1b9b 304 pc.printf("%f\n",calibrations.MF4);
caseyquinn 107:5e3364e42214 305 //----------------------------------------------
caseyquinn 106:3911b3c7a24e 306 wait(1);
jelord 94:c57720890e76 307 blower=1;
jelord 97:c596f8ed4562 308 E2PROM.read(0x00014,logIntervalReadOut,1);
jelord 97:c596f8ed4562 309 logInerval = logIntervalReadOut[0];
jelord 100:da71436aa52a 310
joshuasmth04 89:047e8558fd09 311 pc.printf("You're done, you can now disconect the USB cable.\r\n");
caseyquinn 84:85d11d422da3 312 RunReady = 0;
joshuasmth04 85:a95dd5f03818 313
jelord 94:c57720890e76 314
caseyquinn 114:84e759e07948 315 //stop.attach(&check_stop, 30); // check if we should shut down every 30 seconds, starting 60s after the start.
joshuasmth04 85:a95dd5f03818 316
jelord 102:d25eab697fe0 317 //Use the flow rate value stored in eeprom
jelord 102:d25eab697fe0 318 E2PROM.read(0x00010,flowRateOriginal,4);
jelord 102:d25eab697fe0 319 E2PROM.byteToFloat(flowRateOriginal, &volflowSet);
jelord 98:d70ff5a0b2e6 320
caseyquinn 81:480f0310ef9a 321 if(volflowSet<=1.0) {
joshuasmth04 59:a9b21b3d9afc 322 gainFlow = 100;
caseyquinn 81:480f0310ef9a 323 } else if(volflowSet>=2.0) {
joshuasmth04 59:a9b21b3d9afc 324 gainFlow = 25;
joshuasmth04 59:a9b21b3d9afc 325 } else {
caseyquinn 88:9142f21a4715 326 gainFlow = 25;
joshuasmth04 59:a9b21b3d9afc 327 }
joshuasmth04 59:a9b21b3d9afc 328
caseyquinn 57:0b554f7aa9a3 329 RGB_LED.set_led(1,0,0);
caseyquinn 57:0b554f7aa9a3 330 press = bmesensor.getPressure();
caseyquinn 57:0b554f7aa9a3 331 temp = bmesensor.getTemperature();
caseyquinn 57:0b554f7aa9a3 332 rh = bmesensor.getHumidity();
caseyquinn 57:0b554f7aa9a3 333
caseyquinn 57:0b554f7aa9a3 334 atmoRho = ((press-((6.1078*pow((float)10,(float)((7.5*temp)/(237.3+temp))))*(rh/100)))*100)/(287.0531*(temp+273.15))+((6.1078*pow((float)10,(float)((7.5*temp)/(237.3+temp))))*(rh/100)*100)/(461.4964*(temp+273.15));
caseyquinn 57:0b554f7aa9a3 335 massflowSet = volflowSet*atmoRho;
caseyquinn 57:0b554f7aa9a3 336 //Digtal pot tf from file: UPAS v2 OSU-PrimaryFlowData FullSet 2015-05-29 CQ mods.xlsx
joshuasmth04 85:a95dd5f03818 337
joshuasmth04 85:a95dd5f03818 338
joshuasmth04 77:24fbeb2bfe05 339 digital_pot_setpoint = (int)floor(calibrations.DP4*pow(massflowSet,4)+calibrations.DP3*pow(massflowSet,3)+calibrations.DP2*pow(massflowSet,2)+calibrations.DP1*massflowSet+calibrations.DP0); //min = 0x7F, max = 0x00
joshuasmth04 85:a95dd5f03818 340
joshuasmth04 59:a9b21b3d9afc 341 if(digital_pot_setpoint>=digitalpotMax) {
caseyquinn 57:0b554f7aa9a3 342 digital_pot_setpoint = digitalpotMax;
joshuasmth04 59:a9b21b3d9afc 343 } else if(digital_pot_setpoint<=digitalpotMin) {
caseyquinn 57:0b554f7aa9a3 344 digital_pot_setpoint = digitalpotMin;
joshuasmth04 59:a9b21b3d9afc 345 }
joshuasmth04 59:a9b21b3d9afc 346
caseyquinn 57:0b554f7aa9a3 347 DigPot.writeRegister(digital_pot_setpoint);
caseyquinn 57:0b554f7aa9a3 348 wait(1);
caseyquinn 57:0b554f7aa9a3 349 blower = 1;
jelord 102:d25eab697fe0 350
jelord 97:c596f8ed4562 351
jelord 102:d25eab697fe0 352 E2PROM.read(0x00001, subjectLabelOriginal,8);
jelord 102:d25eab697fe0 353 //sprintf(filename, "/sd/%c%c%c%c%c%c%c%cLOG_%02d-%02d-%02d_%02d=%02d=%02d.txt",subjectLabelOriginal[0],subjectLabelOriginal[1],subjectLabelOriginal[2],subjectLabelOriginal[3],subjectLabelOriginal[4],subjectLabelOriginal[5],subjectLabelOriginal[6],subjectLabelOriginal[7],RTC.year,RTC.month,RTC.date,RTC.hour,RTC.minutes,RTC.seconds);
jelord 102:d25eab697fe0 354 sprintf(filename, "/sd/UPAS%04dLOG_%02d-%02d-%02d_%02d=%02d=%02d_%c%c%c%c%c%c%c%c.txt",serial_num,RTC.year,RTC.month,RTC.date,RTC.hour,RTC.minutes,RTC.seconds,subjectLabelOriginal[0],subjectLabelOriginal[1],subjectLabelOriginal[2],subjectLabelOriginal[3],subjectLabelOriginal[4],subjectLabelOriginal[5],subjectLabelOriginal[6],subjectLabelOriginal[7]);
caseyquinn 57:0b554f7aa9a3 355 FILE *fp = fopen(filename, "w");
caseyquinn 57:0b554f7aa9a3 356 fclose(fp);
joshuasmth04 59:a9b21b3d9afc 357
joshuasmth04 59:a9b21b3d9afc 358 //---------------------------------------------------------------------------------------------//
joshuasmth04 59:a9b21b3d9afc 359 //Following lines are needed to enter into the initiallization flow control loop
joshuasmth04 59:a9b21b3d9afc 360
caseyquinn 57:0b554f7aa9a3 361 wait(10);
joshuasmth04 59:a9b21b3d9afc 362
caseyquinn 57:0b554f7aa9a3 363 omronReading = ads.readADC_SingleEnded(0, 0xC583); // read channel 0 PGA = 2 : Full Scale Range = 2.048V
caseyquinn 57:0b554f7aa9a3 364 omronVolt = (omronReading*4.096)/(32768*2);
joshuasmth04 77:24fbeb2bfe05 365 if(omronVolt<=calibrations.omronVMin) {
joshuasmth04 77:24fbeb2bfe05 366 massflow = calibrations.omronMFMin;
joshuasmth04 77:24fbeb2bfe05 367 } else if(omronVolt>=calibrations.omronVMax) {
joshuasmth04 77:24fbeb2bfe05 368 massflow = calibrations.omronMFMax;
joshuasmth04 59:a9b21b3d9afc 369 } else {
joshuasmth04 77:24fbeb2bfe05 370 massflow = calibrations.MF4*pow(omronVolt,(float)4)+calibrations.MF3*pow(omronVolt,(float)3)+calibrations.MF2*pow(omronVolt,(float)2)+calibrations.MF1*omronVolt+calibrations.MF0;
joshuasmth04 59:a9b21b3d9afc 371 }
joshuasmth04 59:a9b21b3d9afc 372 deltaMflow = massflow-massflowSet;
joshuasmth04 59:a9b21b3d9afc 373 digital_pot_set = digital_pot_setpoint;
joshuasmth04 59:a9b21b3d9afc 374 wait(5);
joshuasmth04 59:a9b21b3d9afc 375
joshuasmth04 59:a9b21b3d9afc 376 //---------------------------------------------------------------------------------------------//
joshuasmth04 59:a9b21b3d9afc 377 //Sets the flow withen +-1.5% of the desired flow rate based on mass flow
joshuasmth04 59:a9b21b3d9afc 378
joshuasmth04 59:a9b21b3d9afc 379 while(abs(deltaMflow)>.015) {
joshuasmth04 77:24fbeb2bfe05 380
joshuasmth04 59:a9b21b3d9afc 381 omronReading = ads.readADC_SingleEnded(0, 0xC583); // read channel 0 PGA = 2 : Full Scale Range = 2.048V
joshuasmth04 59:a9b21b3d9afc 382 omronVolt = (omronReading*4.096)/(32768*2);
joshuasmth04 59:a9b21b3d9afc 383 //Mass Flow tf from file: UPAS v2 OSU-PrimaryFlowData FullSet 2015-05-29 CQ mods.xlsx
joshuasmth04 77:24fbeb2bfe05 384 if(omronVolt<=calibrations.omronVMin) {
joshuasmth04 77:24fbeb2bfe05 385 massflow = calibrations.omronMFMin;
joshuasmth04 77:24fbeb2bfe05 386 } else if(omronVolt>=calibrations.omronVMax) {
joshuasmth04 77:24fbeb2bfe05 387 massflow = calibrations.omronMFMax;
joshuasmth04 59:a9b21b3d9afc 388 } else {
joshuasmth04 77:24fbeb2bfe05 389 massflow = calibrations.MF4*pow(omronVolt,(float)4)+calibrations.MF3*pow(omronVolt,(float)3)+calibrations.MF2*pow(omronVolt,(float)2)+calibrations.MF1*omronVolt+calibrations.MF0;
joshuasmth04 59:a9b21b3d9afc 390 }
caseyquinn 57:0b554f7aa9a3 391
joshuasmth04 59:a9b21b3d9afc 392 atmoRho = ((press-((6.1078*pow((float)10,(float)((7.5*temp)/(237.3+temp))))*(rh/100)))*100)/(287.0531*(temp+273.15))+((6.1078*pow((float)10,(float)((7.5*temp)/(237.3+temp))))*(rh/100)*100)/(461.4964*(temp+273.15));
joshuasmth04 59:a9b21b3d9afc 393 volflow = massflow/atmoRho;
joshuasmth04 59:a9b21b3d9afc 394 massflowSet = volflowSet*atmoRho;
joshuasmth04 59:a9b21b3d9afc 395 deltaMflow = massflow-massflowSet;
jelord 94:c57720890e76 396
joshuasmth04 59:a9b21b3d9afc 397 digital_pot_set = (int)(digital_pot_set+(int)((gainFlow*deltaMflow)));
joshuasmth04 59:a9b21b3d9afc 398 if(digital_pot_set>=digitalpotMax) {
joshuasmth04 59:a9b21b3d9afc 399 digital_pot_set = digitalpotMax;
joshuasmth04 59:a9b21b3d9afc 400 } else if(digital_pot_set<=digitalpotMin) {
joshuasmth04 59:a9b21b3d9afc 401 digital_pot_set = digitalpotMin;
joshuasmth04 59:a9b21b3d9afc 402 }
joshuasmth04 59:a9b21b3d9afc 403
joshuasmth04 59:a9b21b3d9afc 404 wait(2);
joshuasmth04 59:a9b21b3d9afc 405 DigPot.writeRegister(digital_pot_set);
joshuasmth04 59:a9b21b3d9afc 406 wait(1);
joshuasmth04 59:a9b21b3d9afc 407
joshuasmth04 59:a9b21b3d9afc 408
joshuasmth04 59:a9b21b3d9afc 409 }
joshuasmth04 59:a9b21b3d9afc 410
joshuasmth04 59:a9b21b3d9afc 411 sampledVol = 0.0;
joshuasmth04 59:a9b21b3d9afc 412 RGB_LED.set_led(0,1,0);
caseyquinn 114:84e759e07948 413
caseyquinn 114:84e759e07948 414 // logg.attach(&log_data, logInerval); // uses callbacks or block Interrupts for anything that uses i2c
joshuasmth04 77:24fbeb2bfe05 415
caseyquinn 67:300418575137 416
jelord 112:fd14d51e3493 417 while(1){
jelord 112:fd14d51e3493 418 if(RTC.compare(startAndEndTime[6], startAndEndTime[7], startAndEndTime[8], startAndEndTime[9], startAndEndTime[10], startAndEndTime[11]))
jelord 112:fd14d51e3493 419 pbKill = 0; // this is were we shut everything down
jelord 112:fd14d51e3493 420
caseyquinn 120:c7818e89e3da 421 wait(logInerval);
jelord 112:fd14d51e3493 422 // if(r==0) r=1;
jelord 112:fd14d51e3493 423 // else r=0;
jelord 112:fd14d51e3493 424 // RGB_LED.set_led(r,g,b);
jelord 112:fd14d51e3493 425 // wait(0.5);
jelord 112:fd14d51e3493 426
jelord 112:fd14d51e3493 427 RTC.get_time();
jelord 112:fd14d51e3493 428
caseyquinn 117:074ebef2dc12 429 secondsD = RTC.seconds;
caseyquinn 117:074ebef2dc12 430
caseyquinn 117:074ebef2dc12 431 while(fmod(secondsD,logInerval)!=0 || floor(secondsD)==floor(lastsecondD)) {
caseyquinn 117:074ebef2dc12 432 //pc.printf("%f, %f\r\n", floor(secondsD), floor(lastsecondD));
caseyquinn 117:074ebef2dc12 433 RTC.get_time();
caseyquinn 117:074ebef2dc12 434 secondsD = RTC.seconds;
caseyquinn 117:074ebef2dc12 435 wait_ms(100);
caseyquinn 117:074ebef2dc12 436 }
caseyquinn 117:074ebef2dc12 437 lastsecondD = secondsD;
caseyquinn 117:074ebef2dc12 438
jelord 112:fd14d51e3493 439 omronReading = ads.readADC_SingleEnded(0, 0xC583); // read channel 0 PGA = 2 : Full Scale Range = 2.048V
jelord 112:fd14d51e3493 440 omronVolt = (omronReading*4.096)/(32768*2);
jelord 112:fd14d51e3493 441
jelord 112:fd14d51e3493 442 if(omronVolt<=calibrations.omronVMin) {
jelord 112:fd14d51e3493 443 massflow = calibrations.omronMFMin;
jelord 112:fd14d51e3493 444 } else if(omronVolt>=calibrations.omronVMax) {
jelord 112:fd14d51e3493 445 massflow = calibrations.omronMFMax;
jelord 112:fd14d51e3493 446 } else {
jelord 112:fd14d51e3493 447 massflow = calibrations.MF4*pow(omronVolt,(float)4)+calibrations.MF3*pow(omronVolt,(float)3)+calibrations.MF2*pow(omronVolt,(float)2)+calibrations.MF1*omronVolt+calibrations.MF0;
jelord 112:fd14d51e3493 448 }
jelord 112:fd14d51e3493 449
jelord 112:fd14d51e3493 450 atmoRho = ((press-((6.1078*pow((float)10,(float)((7.5*temp)/(237.3+temp))))*(rh/100)))*100)/(287.0531*(temp+273.15))+((6.1078*pow((float)10,(float)((7.5*temp)/(237.3+temp))))*(rh/100)*100)/(461.4964*(temp+273.15));
jelord 112:fd14d51e3493 451 volflow = massflow/atmoRho;
jelord 112:fd14d51e3493 452 sampledVol = sampledVol + ((((float)logInerval)/60.0)*volflow);
jelord 112:fd14d51e3493 453 deltaVflow = volflow-volflowSet;
jelord 112:fd14d51e3493 454 massflowSet = volflowSet*atmoRho;
jelord 112:fd14d51e3493 455 deltaMflow = massflow-massflowSet;
jelord 112:fd14d51e3493 456 if(abs(deltaMflow)>.025) {
jelord 112:fd14d51e3493 457 digital_pot_change = (int)(gainFlow*deltaMflow);
jelord 112:fd14d51e3493 458
jelord 112:fd14d51e3493 459
jelord 112:fd14d51e3493 460 if(abs(digital_pot_change)>=50) {
jelord 112:fd14d51e3493 461 digital_pot_set = (int)(digital_pot_set+(int)((10.0*deltaMflow)));
jelord 112:fd14d51e3493 462 RGB_LED.set_led(1,0,0);
jelord 112:fd14d51e3493 463 } else {
jelord 112:fd14d51e3493 464 digital_pot_set = (digital_pot_set+ digital_pot_change);
jelord 112:fd14d51e3493 465 RGB_LED.set_led(1,1,0);
jelord 112:fd14d51e3493 466 }
jelord 112:fd14d51e3493 467
jelord 112:fd14d51e3493 468 if(digital_pot_set>=digitalpotMax) {
jelord 112:fd14d51e3493 469 digital_pot_set = digitalpotMax;
jelord 112:fd14d51e3493 470 RGB_LED.set_led(1,0,0);
jelord 112:fd14d51e3493 471 } else if(digital_pot_set<=digitalpotMin) {
jelord 112:fd14d51e3493 472 digital_pot_set = digitalpotMin;
jelord 112:fd14d51e3493 473 RGB_LED.set_led(1,0,0);
jelord 112:fd14d51e3493 474 }
jelord 112:fd14d51e3493 475
jelord 112:fd14d51e3493 476
jelord 112:fd14d51e3493 477 DigPot.writeRegister(digital_pot_set);
jelord 112:fd14d51e3493 478
jelord 112:fd14d51e3493 479 } else {
jelord 112:fd14d51e3493 480 RGB_LED.set_led(0,1,0);
jelord 112:fd14d51e3493 481 }
jelord 112:fd14d51e3493 482
caseyquinn 115:fb25810c1fab 483
jelord 112:fd14d51e3493 484 movementsensor.getACCEL();
jelord 112:fd14d51e3493 485 movementsensor.getCOMPASS();
jelord 112:fd14d51e3493 486 compass = movementsensor.getCOMPASS_HEADING();
jelord 112:fd14d51e3493 487 accel_x = movementsensor.AccelData.x;
jelord 112:fd14d51e3493 488 accel_y = movementsensor.AccelData.y;
jelord 112:fd14d51e3493 489 accel_z = movementsensor.AccelData.z;
jelord 112:fd14d51e3493 490 accel_comp = pow(accel_x,(float)2)+pow(accel_y,(float)2)+pow(accel_z,(float)2)-1.0;
jelord 112:fd14d51e3493 491 mag_x = movementsensor.MagData.x;
jelord 112:fd14d51e3493 492 mag_y = movementsensor.MagData.y;
jelord 112:fd14d51e3493 493 mag_z = movementsensor.MagData.z;
caseyquinn 115:fb25810c1fab 494
jelord 112:fd14d51e3493 495 vInReading = ads.readADC_SingleEnded(1, 0xD583); // read channel 0
jelord 112:fd14d51e3493 496 vBlowerReading = ads.readADC_SingleEnded(2, 0xE783); // read channel 0
jelord 112:fd14d51e3493 497 omronDiff = ads.readADC_Differential(0x8583); // differential channel 2-3
jelord 112:fd14d51e3493 498 press = bmesensor.getPressure();
jelord 112:fd14d51e3493 499 temp = bmesensor.getTemperature()-5.0;
jelord 112:fd14d51e3493 500 rh = bmesensor.getHumidity();
jelord 112:fd14d51e3493 501 uv = lightsensor.getUV();
jelord 112:fd14d51e3493 502 vis = lightsensor.getVIS();
jelord 112:fd14d51e3493 503 ir = lightsensor.getIR();
jelord 112:fd14d51e3493 504
jelord 112:fd14d51e3493 505
jelord 112:fd14d51e3493 506 FILE *fp = fopen(filename, "a");
jelord 112:fd14d51e3493 507 fprintf(fp, "%02d,%02d,%02d,%02d,%02d,%02d,",RTC.year, RTC.month,RTC.date,RTC.hour,RTC.minutes,RTC.seconds);
jelord 112:fd14d51e3493 508 fprintf(fp, "%1.3f,%1.3f,%2.2f,%4.2f,%2.1f,%1.3f,", omronVolt,massflow,temp,press,rh,atmoRho);
caseyquinn 115:fb25810c1fab 509 fprintf(fp, "%1.3f,%5.1f,%1.1f,%1.1f,%1.1f,%1.1f,", volflow, sampledVol, accel_x, accel_y, accel_z, accel_comp);
caseyquinn 115:fb25810c1fab 510 fprintf(fp, "%.1f,%.1f,%.1f,%.3f,%.3f,%.3f,%.1f,", angle_x,angle_y,angle_z,mag_x, mag_y, mag_z,compass);
jelord 112:fd14d51e3493 511 fprintf(fp, "%d,%d,%d,%d,%d,%d," ,uv,omronReading, vInReading, vBlowerReading, omronDiff,gasG.getAmps());
jelord 112:fd14d51e3493 512 fprintf(fp, "%d,%d,%d,%1.3f,%1.3f\r\n", gasG.getVolts(), gasG.getCharge(),digital_pot_set, deltaMflow, deltaVflow);
jelord 112:fd14d51e3493 513 fclose(fp);
caseyquinn 114:84e759e07948 514 //free(fp);
jelord 112:fd14d51e3493 515
jelord 112:fd14d51e3493 516 }
caseyquinn 111:5f2ba5f1a468 517
caseyquinn 110:67980ebdebf6 518
joshuasmth04 59:a9b21b3d9afc 519
caseyquinn 0:14d46ef4b6cb 520 }
caseyquinn 0:14d46ef4b6cb 521