This is example code that can get you started with building your own IR vision robot that communicates over LoRa
Dependencies: Adafruit-MotorShield Adafruit-PWM-Servo-Driver Adafruit_GFX BufferedSerial MAX17055_EZconfig NEO-6m-GPS SX1276GenericLib USBDeviceHT max32630fthr max77650_charger_sample
Fork of MAX326xxFTHR_LoRa_Example_test by
GridEye/GridEye.cpp@38:c10d2a04a0c2, 2018-08-01 (annotated)
- Committer:
- dev_alexander
- Date:
- Wed Aug 01 01:46:12 2018 +0000
- Revision:
- 38:c10d2a04a0c2
- Parent:
- 28:0ed92c590607
I added support for the OLED on the Master device, and support for the MAX17055 and MAX77650 on the slave devices.;
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
dev_alexander | 23:f74a50977593 | 1 | /********************************************************************** |
dev_alexander | 23:f74a50977593 | 2 | * Copyright (C) 2016 Maxim Integrated Products, Inc., All Rights Reserved. |
dev_alexander | 23:f74a50977593 | 3 | * |
dev_alexander | 23:f74a50977593 | 4 | * Permission is hereby granted, free of charge, to any person obtaining a |
dev_alexander | 23:f74a50977593 | 5 | * copy of this software and associated documentation files (the "Software"), |
dev_alexander | 23:f74a50977593 | 6 | * to deal in the Software without restriction, including without limitation |
dev_alexander | 23:f74a50977593 | 7 | * the rights to use, copy, modify, merge, publish, distribute, sublicense, |
dev_alexander | 23:f74a50977593 | 8 | * and/or sell copies of the Software, and to permit persons to whom the |
dev_alexander | 23:f74a50977593 | 9 | * Software is furnished to do so, subject to the following conditions: |
dev_alexander | 23:f74a50977593 | 10 | * |
dev_alexander | 23:f74a50977593 | 11 | * The above copyright notice and this permission notice shall be included |
dev_alexander | 23:f74a50977593 | 12 | * in all copies or substantial portions of the Software. |
dev_alexander | 23:f74a50977593 | 13 | * |
dev_alexander | 23:f74a50977593 | 14 | * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS |
dev_alexander | 23:f74a50977593 | 15 | * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF |
dev_alexander | 23:f74a50977593 | 16 | * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. |
dev_alexander | 23:f74a50977593 | 17 | * IN NO EVENT SHALL MAXIM INTEGRATED BE LIABLE FOR ANY CLAIM, DAMAGES |
dev_alexander | 23:f74a50977593 | 18 | * OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, |
dev_alexander | 23:f74a50977593 | 19 | * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR |
dev_alexander | 23:f74a50977593 | 20 | * OTHER DEALINGS IN THE SOFTWARE. |
dev_alexander | 23:f74a50977593 | 21 | * |
dev_alexander | 23:f74a50977593 | 22 | * Except as contained in this notice, the name of Maxim Integrated |
dev_alexander | 23:f74a50977593 | 23 | * Products, Inc. shall not be used except as stated in the Maxim Integrated |
dev_alexander | 23:f74a50977593 | 24 | * Products, Inc. Branding Policy. |
dev_alexander | 23:f74a50977593 | 25 | * |
dev_alexander | 23:f74a50977593 | 26 | * The mere transfer of this software does not imply any licenses |
dev_alexander | 23:f74a50977593 | 27 | * of trade secrets, proprietary technology, copyrights, patents, |
dev_alexander | 23:f74a50977593 | 28 | * trademarks, maskwork rights, or any other form of intellectual |
dev_alexander | 23:f74a50977593 | 29 | * property whatsoever. Maxim Integrated Products, Inc. retains all |
dev_alexander | 23:f74a50977593 | 30 | * ownership rights. |
dev_alexander | 23:f74a50977593 | 31 | **********************************************************************/ |
dev_alexander | 23:f74a50977593 | 32 | |
dev_alexander | 23:f74a50977593 | 33 | |
dev_alexander | 23:f74a50977593 | 34 | #include "GridEye/GridEye.h" |
dev_alexander | 23:f74a50977593 | 35 | |
dev_alexander | 23:f74a50977593 | 36 | |
dev_alexander | 23:f74a50977593 | 37 | |
dev_alexander | 23:f74a50977593 | 38 | GridEye::GridEye(I2C &i2c) |
dev_alexander | 23:f74a50977593 | 39 | : m_i2cBus(i2c) |
dev_alexander | 23:f74a50977593 | 40 | { |
dev_alexander | 28:0ed92c590607 | 41 | //Perform a software reset upon power on. |
dev_alexander | 28:0ed92c590607 | 42 | softwareReset(); |
dev_alexander | 23:f74a50977593 | 43 | } |
dev_alexander | 23:f74a50977593 | 44 | |
dev_alexander | 23:f74a50977593 | 45 | |
dev_alexander | 23:f74a50977593 | 46 | |
dev_alexander | 23:f74a50977593 | 47 | |
dev_alexander | 23:f74a50977593 | 48 | //********************************************************************* |
dev_alexander | 23:f74a50977593 | 49 | int8_t GridEye::gridEyeReadReg(GridEyeRegister reg_addr, int num_bytes, char * data_buf) |
dev_alexander | 23:f74a50977593 | 50 | { |
dev_alexander | 23:f74a50977593 | 51 | int8_t result; |
dev_alexander | 23:f74a50977593 | 52 | char read_pointer[1]; |
dev_alexander | 23:f74a50977593 | 53 | read_pointer[0] = reg_addr; |
dev_alexander | 23:f74a50977593 | 54 | |
dev_alexander | 38:c10d2a04a0c2 | 55 | result = GridEye::m_i2cBus.write(I2C_W_ADRS_GRIDEYE, read_pointer, 1); |
dev_alexander | 23:f74a50977593 | 56 | if (result == I2C_WR_SUCCESS) |
dev_alexander | 23:f74a50977593 | 57 | { |
dev_alexander | 38:c10d2a04a0c2 | 58 | result = GridEye::m_i2cBus.read(I2C_R_ADRS_GRIDEYE, data_buf , num_bytes, false); |
dev_alexander | 23:f74a50977593 | 59 | if (result == I2C_WR_SUCCESS) |
dev_alexander | 23:f74a50977593 | 60 | return result; |
dev_alexander | 23:f74a50977593 | 61 | } |
dev_alexander | 23:f74a50977593 | 62 | return I2C_WR_ERROR; |
dev_alexander | 23:f74a50977593 | 63 | } |
dev_alexander | 23:f74a50977593 | 64 | |
dev_alexander | 23:f74a50977593 | 65 | |
dev_alexander | 23:f74a50977593 | 66 | |
dev_alexander | 23:f74a50977593 | 67 | //********************************************************************* |
dev_alexander | 23:f74a50977593 | 68 | int8_t GridEye::gridEyeWriteReg(GridEyeRegister reg_addr, int num_bytes, char * data_buf) |
dev_alexander | 23:f74a50977593 | 69 | { |
dev_alexander | 23:f74a50977593 | 70 | int8_t result; |
dev_alexander | 23:f74a50977593 | 71 | int num_indices = num_bytes + 1; |
dev_alexander | 23:f74a50977593 | 72 | char write_buffer[num_indices]; |
dev_alexander | 23:f74a50977593 | 73 | |
dev_alexander | 23:f74a50977593 | 74 | //construct write buffer with the address followed by the data to be written |
dev_alexander | 23:f74a50977593 | 75 | write_buffer[0] = reg_addr; |
dev_alexander | 23:f74a50977593 | 76 | for (int idx=0; idx<num_bytes; idx++) |
dev_alexander | 23:f74a50977593 | 77 | write_buffer[idx+1] = data_buf[idx]; |
dev_alexander | 23:f74a50977593 | 78 | |
dev_alexander | 38:c10d2a04a0c2 | 79 | result = GridEye::m_i2cBus.write(I2C_W_ADRS_GRIDEYE, write_buffer, num_indices); |
dev_alexander | 23:f74a50977593 | 80 | if (result == I2C_WR_SUCCESS) |
dev_alexander | 23:f74a50977593 | 81 | return result; |
dev_alexander | 23:f74a50977593 | 82 | |
dev_alexander | 23:f74a50977593 | 83 | //else, return -1 |
dev_alexander | 23:f74a50977593 | 84 | return I2C_WR_ERROR; |
dev_alexander | 23:f74a50977593 | 85 | } |
dev_alexander | 23:f74a50977593 | 86 | |
dev_alexander | 23:f74a50977593 | 87 | |
dev_alexander | 23:f74a50977593 | 88 | //********************************************************************* |
dev_alexander | 23:f74a50977593 | 89 | int8_t GridEye::getThermistorTemperature(int16_t & therm_temp) |
dev_alexander | 23:f74a50977593 | 90 | { |
dev_alexander | 23:f74a50977593 | 91 | int8_t result; |
dev_alexander | 23:f74a50977593 | 92 | char data[2]; |
dev_alexander | 23:f74a50977593 | 93 | |
dev_alexander | 23:f74a50977593 | 94 | result = this->gridEyeReadReg(GridEye::THERMISTOR_LOW, 2, data); |
dev_alexander | 23:f74a50977593 | 95 | |
dev_alexander | 23:f74a50977593 | 96 | if(result == I2C_WR_SUCCESS) |
dev_alexander | 23:f74a50977593 | 97 | { |
dev_alexander | 23:f74a50977593 | 98 | convSingleRawTempData2Int(data, therm_temp); |
dev_alexander | 23:f74a50977593 | 99 | return therm_temp; |
dev_alexander | 23:f74a50977593 | 100 | } |
dev_alexander | 23:f74a50977593 | 101 | return I2C_WR_ERROR; |
dev_alexander | 23:f74a50977593 | 102 | } |
dev_alexander | 23:f74a50977593 | 103 | |
dev_alexander | 23:f74a50977593 | 104 | |
dev_alexander | 23:f74a50977593 | 105 | //********************************************************************* |
dev_alexander | 23:f74a50977593 | 106 | int8_t GridEye::getPixelTemperature(uint8_t pixel_addr, int16_t & pixel_temp) |
dev_alexander | 23:f74a50977593 | 107 | { |
dev_alexander | 23:f74a50977593 | 108 | int8_t result; |
dev_alexander | 23:f74a50977593 | 109 | char data[2]; |
dev_alexander | 23:f74a50977593 | 110 | |
dev_alexander | 23:f74a50977593 | 111 | result = this->gridEyeReadReg((GridEyeRegister) pixel_addr, 2, data); |
dev_alexander | 23:f74a50977593 | 112 | if(result == I2C_WR_SUCCESS) |
dev_alexander | 23:f74a50977593 | 113 | { |
dev_alexander | 23:f74a50977593 | 114 | convSingleRawTempData2Int(data, pixel_temp); |
dev_alexander | 23:f74a50977593 | 115 | return pixel_temp; |
dev_alexander | 23:f74a50977593 | 116 | } |
dev_alexander | 23:f74a50977593 | 117 | return I2C_WR_ERROR; |
dev_alexander | 23:f74a50977593 | 118 | } |
dev_alexander | 23:f74a50977593 | 119 | |
dev_alexander | 23:f74a50977593 | 120 | |
dev_alexander | 23:f74a50977593 | 121 | //********************************************************************* |
dev_alexander | 23:f74a50977593 | 122 | int8_t GridEye::getRaw8x8FrameData(char * raw_frame_data) |
dev_alexander | 23:f74a50977593 | 123 | { |
dev_alexander | 23:f74a50977593 | 124 | int8_t result; |
dev_alexander | 23:f74a50977593 | 125 | result = gridEyeReadReg((GridEyeRegister) GridEye::PIXEL_BASE_ADRS, 128, raw_frame_data); |
dev_alexander | 23:f74a50977593 | 126 | return result; |
dev_alexander | 23:f74a50977593 | 127 | } |
dev_alexander | 23:f74a50977593 | 128 | |
dev_alexander | 28:0ed92c590607 | 129 | //********************************************************************* |
dev_alexander | 28:0ed92c590607 | 130 | int8_t GridEye::softwareReset() |
dev_alexander | 28:0ed92c590607 | 131 | { |
dev_alexander | 28:0ed92c590607 | 132 | int8_t result; |
dev_alexander | 28:0ed92c590607 | 133 | char initial_reset[1]; |
dev_alexander | 28:0ed92c590607 | 134 | //This value when programmed to the Grid Eye's RESET reg will perform initial reset on device |
dev_alexander | 28:0ed92c590607 | 135 | initial_reset[0] = 0x3F; |
dev_alexander | 28:0ed92c590607 | 136 | result = this->gridEyeWriteReg(GridEye::RESET, 1, initial_reset); |
dev_alexander | 28:0ed92c590607 | 137 | if (result == I2C_WR_SUCCESS) |
dev_alexander | 28:0ed92c590607 | 138 | return result; |
dev_alexander | 28:0ed92c590607 | 139 | return I2C_WR_ERROR; |
dev_alexander | 28:0ed92c590607 | 140 | } |
dev_alexander | 23:f74a50977593 | 141 | |
dev_alexander | 23:f74a50977593 | 142 | //********************************************************************* |
dev_alexander | 23:f74a50977593 | 143 | int8_t GridEye::setOperatingMode(GridEye::OperatingMode mode) |
dev_alexander | 23:f74a50977593 | 144 | { |
dev_alexander | 23:f74a50977593 | 145 | int8_t result; |
dev_alexander | 23:f74a50977593 | 146 | char set_mode[1]; |
dev_alexander | 23:f74a50977593 | 147 | set_mode[0] = (char)mode; |
dev_alexander | 23:f74a50977593 | 148 | result = this->gridEyeWriteReg(GridEye::OPERATING_MODE, 1, set_mode); |
dev_alexander | 23:f74a50977593 | 149 | if (result == I2C_WR_SUCCESS) |
dev_alexander | 23:f74a50977593 | 150 | return result; |
dev_alexander | 23:f74a50977593 | 151 | return I2C_WR_ERROR; |
dev_alexander | 23:f74a50977593 | 152 | } |
dev_alexander | 23:f74a50977593 | 153 | |
dev_alexander | 23:f74a50977593 | 154 | //********************************************************************* |
dev_alexander | 23:f74a50977593 | 155 | int8_t GridEye::setFrameRate(GridEye::FrameRate rate) |
dev_alexander | 23:f74a50977593 | 156 | { |
dev_alexander | 23:f74a50977593 | 157 | int8_t result; |
dev_alexander | 23:f74a50977593 | 158 | char set_rate[1]; |
dev_alexander | 23:f74a50977593 | 159 | set_rate[0] = (char)rate; |
dev_alexander | 23:f74a50977593 | 160 | result = this->gridEyeWriteReg(GridEye::FRAME_RATE, 1, set_rate); |
dev_alexander | 23:f74a50977593 | 161 | if (result == I2C_WR_SUCCESS) |
dev_alexander | 23:f74a50977593 | 162 | return result; |
dev_alexander | 23:f74a50977593 | 163 | return I2C_WR_ERROR; |
dev_alexander | 23:f74a50977593 | 164 | } |
dev_alexander | 23:f74a50977593 | 165 | |
dev_alexander | 23:f74a50977593 | 166 | //********************************************************************* |
dev_alexander | 23:f74a50977593 | 167 | void convSingleRawTempData2Int(char * data, int16_t & pixel_temp) |
dev_alexander | 23:f74a50977593 | 168 | { |
dev_alexander | 23:f74a50977593 | 169 | int8_t upper_byte = data[1]; |
dev_alexander | 23:f74a50977593 | 170 | int8_t lower_byte = data[0]; |
dev_alexander | 23:f74a50977593 | 171 | int16_t upper_byte_mask = 0x0F00; |
dev_alexander | 28:0ed92c590607 | 172 | //int16_t sign_bit = 0x0400; |
dev_alexander | 23:f74a50977593 | 173 | int16_t sign_bit = 0x0200; |
dev_alexander | 23:f74a50977593 | 174 | int16_t finish_neg_val = 0xFC00; |
dev_alexander | 23:f74a50977593 | 175 | int16_t pixel; |
dev_alexander | 23:f74a50977593 | 176 | |
dev_alexander | 23:f74a50977593 | 177 | //construct the pixel based off the 12 bit signed data |
dev_alexander | 23:f74a50977593 | 178 | pixel = (upper_byte << 8); |
dev_alexander | 23:f74a50977593 | 179 | pixel &= upper_byte_mask; |
dev_alexander | 23:f74a50977593 | 180 | pixel |= lower_byte; |
dev_alexander | 23:f74a50977593 | 181 | |
dev_alexander | 23:f74a50977593 | 182 | //shift it over to gain integer value of the pixel |
dev_alexander | 23:f74a50977593 | 183 | pixel = pixel >> 2; |
dev_alexander | 23:f74a50977593 | 184 | |
dev_alexander | 23:f74a50977593 | 185 | //if negative, properly convert to 16 bit int format to represent 2's compliment |
dev_alexander | 23:f74a50977593 | 186 | if (pixel&sign_bit) |
dev_alexander | 23:f74a50977593 | 187 | pixel |= finish_neg_val; |
dev_alexander | 23:f74a50977593 | 188 | |
dev_alexander | 23:f74a50977593 | 189 | //set the coresponding pixel to be in the passed in array |
dev_alexander | 23:f74a50977593 | 190 | pixel_temp = pixel; |
dev_alexander | 23:f74a50977593 | 191 | } |
dev_alexander | 23:f74a50977593 | 192 | |
dev_alexander | 23:f74a50977593 | 193 | //********************************************************************* |
dev_alexander | 23:f74a50977593 | 194 | void convRaw8x8Data2Int(char * data, int16_t * frame_temp) { |
dev_alexander | 23:f74a50977593 | 195 | int idx = 0; |
dev_alexander | 23:f74a50977593 | 196 | int8_t upper_byte; |
dev_alexander | 23:f74a50977593 | 197 | int8_t lower_byte; |
dev_alexander | 23:f74a50977593 | 198 | int16_t upper_byte_mask = 0x0F00; |
dev_alexander | 28:0ed92c590607 | 199 | //int16_t sign_bit = 0x0400; |
dev_alexander | 23:f74a50977593 | 200 | int16_t sign_bit = 0x0200; |
dev_alexander | 23:f74a50977593 | 201 | int16_t finish_neg_val = 0xFC00; |
dev_alexander | 23:f74a50977593 | 202 | int16_t pixel; |
dev_alexander | 23:f74a50977593 | 203 | |
dev_alexander | 23:f74a50977593 | 204 | for (idx=0; idx<64; idx++) |
dev_alexander | 23:f74a50977593 | 205 | { |
dev_alexander | 23:f74a50977593 | 206 | //construct the pixel based off the 12 bit signed data |
dev_alexander | 23:f74a50977593 | 207 | upper_byte = data[idx*2+1]; |
dev_alexander | 23:f74a50977593 | 208 | lower_byte = data[idx*2+0]; |
dev_alexander | 23:f74a50977593 | 209 | pixel = (upper_byte << 8); |
dev_alexander | 23:f74a50977593 | 210 | pixel &= upper_byte_mask; |
dev_alexander | 23:f74a50977593 | 211 | pixel |= lower_byte; |
dev_alexander | 23:f74a50977593 | 212 | |
dev_alexander | 23:f74a50977593 | 213 | //shift it over to gain integer value of the pixel |
dev_alexander | 23:f74a50977593 | 214 | pixel = pixel >> 2; |
dev_alexander | 23:f74a50977593 | 215 | |
dev_alexander | 23:f74a50977593 | 216 | //if negative, properly convert to 16 bit int format to represent 2's compliment |
dev_alexander | 23:f74a50977593 | 217 | if (pixel&sign_bit) |
dev_alexander | 23:f74a50977593 | 218 | pixel |= finish_neg_val; |
dev_alexander | 23:f74a50977593 | 219 | |
dev_alexander | 23:f74a50977593 | 220 | //set the coresponding pixel to be in the passed in array |
dev_alexander | 23:f74a50977593 | 221 | frame_temp[idx] = pixel; |
dev_alexander | 23:f74a50977593 | 222 | } |
dev_alexander | 23:f74a50977593 | 223 | } |
dev_alexander | 23:f74a50977593 | 224 | |
dev_alexander | 23:f74a50977593 | 225 | //********************************************************************* |
dev_alexander | 23:f74a50977593 | 226 | void convRaw8x8Data2Point25degC(char * data, int16_t * frame_temp) |
dev_alexander | 23:f74a50977593 | 227 | { |
dev_alexander | 23:f74a50977593 | 228 | int idx = 0; |
dev_alexander | 23:f74a50977593 | 229 | int8_t upper_byte; |
dev_alexander | 23:f74a50977593 | 230 | int8_t lower_byte; |
dev_alexander | 23:f74a50977593 | 231 | int16_t upper_byte_mask = 0x0F00; |
dev_alexander | 28:0ed92c590607 | 232 | //int16_t sign_bit = 0x1000; |
dev_alexander | 23:f74a50977593 | 233 | int16_t sign_bit = 0x0800; |
dev_alexander | 23:f74a50977593 | 234 | int16_t finish_neg_val = 0xF000; |
dev_alexander | 23:f74a50977593 | 235 | int16_t pixel; |
dev_alexander | 23:f74a50977593 | 236 | |
dev_alexander | 23:f74a50977593 | 237 | for (idx=0; idx<64; idx++) |
dev_alexander | 23:f74a50977593 | 238 | { |
dev_alexander | 23:f74a50977593 | 239 | //construct the pixel based off the 12 bit signed data |
dev_alexander | 23:f74a50977593 | 240 | upper_byte = data[idx*2+1]; |
dev_alexander | 23:f74a50977593 | 241 | lower_byte = data[idx*2+0]; |
dev_alexander | 23:f74a50977593 | 242 | pixel = (upper_byte << 8); |
dev_alexander | 28:0ed92c590607 | 243 | //pixel &= upper_byte_mask; |
dev_alexander | 23:f74a50977593 | 244 | pixel |= lower_byte; |
dev_alexander | 23:f74a50977593 | 245 | //no shift needed since we would lose the two lsb that give 0.25*C precision |
dev_alexander | 23:f74a50977593 | 246 | |
dev_alexander | 23:f74a50977593 | 247 | //if negative, properly convert to 16 bit int format to represent 2's compliment |
dev_alexander | 23:f74a50977593 | 248 | if (pixel & sign_bit) |
dev_alexander | 23:f74a50977593 | 249 | pixel |= finish_neg_val; |
dev_alexander | 28:0ed92c590607 | 250 | else |
dev_alexander | 28:0ed92c590607 | 251 | pixel &= 0x0FFF; |
dev_alexander | 23:f74a50977593 | 252 | |
dev_alexander | 23:f74a50977593 | 253 | //set the coresponding pixel to be in the passed in array |
dev_alexander | 23:f74a50977593 | 254 | frame_temp[idx] = pixel; |
dev_alexander | 23:f74a50977593 | 255 | } |
dev_alexander | 23:f74a50977593 | 256 | } |