tweaked detection to use photoresistor through an opamp
Fork of rgb_sensor by
rgb_sensor.cpp@8:88acb970df76, 2014-07-03 (annotated)
- Committer:
- meriac
- Date:
- Thu Jul 03 16:52:12 2014 +0000
- Revision:
- 8:88acb970df76
- Parent:
- 6:fc64a14a2f4a
- Child:
- 9:7bd80f4a965e
Positive ADC reading, adjusted speed to 732/s
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
meriac | 0:576e43bd193d | 1 | /* Discrete RGB color sensor |
meriac | 0:576e43bd193d | 2 | * |
meriac | 0:576e43bd193d | 3 | * - uses single-channel light-dependent resistor (via ADC) |
meriac | 0:576e43bd193d | 4 | * and a RGB LED. |
meriac | 0:576e43bd193d | 5 | * - compensates background light |
meriac | 0:576e43bd193d | 6 | * |
meriac | 0:576e43bd193d | 7 | * Copyright (c) 2014 ARM Limited |
meriac | 0:576e43bd193d | 8 | * |
meriac | 0:576e43bd193d | 9 | * Licensed under the Apache License, Version 2.0 (the "License"); |
meriac | 0:576e43bd193d | 10 | * you may not use this file except in compliance with the License. |
meriac | 0:576e43bd193d | 11 | * You may obtain a copy of the License at |
meriac | 0:576e43bd193d | 12 | * |
meriac | 0:576e43bd193d | 13 | * http://www.apache.org/licenses/LICENSE-2.0 |
meriac | 0:576e43bd193d | 14 | * |
meriac | 0:576e43bd193d | 15 | * Unless required by applicable law or agreed to in writing, software |
meriac | 0:576e43bd193d | 16 | * distributed under the License is distributed on an "AS IS" BASIS, |
meriac | 0:576e43bd193d | 17 | * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
meriac | 0:576e43bd193d | 18 | * See the License for the specific language governing permissions and |
meriac | 0:576e43bd193d | 19 | * limitations under the License. |
meriac | 0:576e43bd193d | 20 | */ |
meriac | 0:576e43bd193d | 21 | |
meriac | 0:576e43bd193d | 22 | #include <mbed.h> |
meriac | 0:576e43bd193d | 23 | #include <pinmap.h> |
meriac | 0:576e43bd193d | 24 | #include "rgb_sensor.h" |
meriac | 0:576e43bd193d | 25 | |
meriac | 0:576e43bd193d | 26 | static const PinMap RGB_Sensor__PinMap_ADC[] = { |
meriac | 0:576e43bd193d | 27 | {P0_23, ADC0_0, 1}, |
meriac | 0:576e43bd193d | 28 | {P0_24, ADC0_1, 1}, |
meriac | 0:576e43bd193d | 29 | {P0_25, ADC0_2, 1}, |
meriac | 0:576e43bd193d | 30 | {P0_26, ADC0_3, 1}, |
meriac | 0:576e43bd193d | 31 | {P1_30, ADC0_4, 3}, |
meriac | 0:576e43bd193d | 32 | {P1_31, ADC0_5, 3}, |
meriac | 0:576e43bd193d | 33 | {P0_2, ADC0_7, 2}, |
meriac | 0:576e43bd193d | 34 | {P0_3, ADC0_6, 2}, |
meriac | 0:576e43bd193d | 35 | {NC, NC, 0} |
meriac | 0:576e43bd193d | 36 | }; |
meriac | 0:576e43bd193d | 37 | |
meriac | 0:576e43bd193d | 38 | DigitalOut g_dbg(LED1); |
meriac | 0:576e43bd193d | 39 | |
meriac | 0:576e43bd193d | 40 | /* initialize globally */ |
meriac | 0:576e43bd193d | 41 | RGB_Sensor* RGB_Sensor::m_global = NULL; |
meriac | 0:576e43bd193d | 42 | |
meriac | 0:576e43bd193d | 43 | RGB_Sensor::RGB_Sensor(PinName red, PinName green, PinName blue, PinName adc) |
meriac | 0:576e43bd193d | 44 | :m_red(red), m_green(green), m_blue(blue) |
meriac | 0:576e43bd193d | 45 | { |
meriac | 0:576e43bd193d | 46 | uint32_t clkdiv; |
meriac | 0:576e43bd193d | 47 | |
meriac | 0:576e43bd193d | 48 | m_done=true; |
meriac | 0:576e43bd193d | 49 | |
meriac | 0:576e43bd193d | 50 | /* allow only one instance */ |
meriac | 0:576e43bd193d | 51 | if(m_global) |
meriac | 0:576e43bd193d | 52 | { |
meriac | 0:576e43bd193d | 53 | m_adc_channel = (ADCName)NC; |
meriac | 0:576e43bd193d | 54 | return; |
meriac | 0:576e43bd193d | 55 | } |
meriac | 0:576e43bd193d | 56 | |
meriac | 0:576e43bd193d | 57 | /* disable LED's */ |
meriac | 2:4545984e62b6 | 58 | m_red = !RGB_LED_ON; |
meriac | 2:4545984e62b6 | 59 | m_green = !RGB_LED_ON; |
meriac | 2:4545984e62b6 | 60 | m_blue = !RGB_LED_ON; |
meriac | 0:576e43bd193d | 61 | |
meriac | 0:576e43bd193d | 62 | // enable ADC power |
meriac | 0:576e43bd193d | 63 | LPC_SC->PCONP |= (1<<12); |
meriac | 0:576e43bd193d | 64 | // set ADC clock to PCLK |
meriac | 0:576e43bd193d | 65 | LPC_SC->PCLKSEL0 = (LPC_SC->PCLKSEL0 & ~(0x3UL<<24)) | (0x1UL<<24); |
meriac | 0:576e43bd193d | 66 | |
meriac | 0:576e43bd193d | 67 | // determine mapping |
meriac | 0:576e43bd193d | 68 | m_adc_channel = (ADCName)pinmap_peripheral(adc, RGB_Sensor__PinMap_ADC); |
meriac | 0:576e43bd193d | 69 | if (m_adc_channel == (ADCName)NC) |
meriac | 0:576e43bd193d | 70 | return; |
meriac | 0:576e43bd193d | 71 | |
meriac | 0:576e43bd193d | 72 | // initialize ADC |
meriac | 0:576e43bd193d | 73 | clkdiv = ((SystemCoreClock+RGB_MAX_ADC_CLK-1)/RGB_MAX_ADC_CLK)-1; |
meriac | 0:576e43bd193d | 74 | LPC_ADC->ADCR = (1UL<<m_adc_channel) | (clkdiv<<8) | (1UL<<21); |
meriac | 0:576e43bd193d | 75 | |
meriac | 0:576e43bd193d | 76 | // set up ADC IRQ |
meriac | 0:576e43bd193d | 77 | NVIC_SetVector(ADC_IRQn, (uint32_t)&__adc_irq); |
meriac | 0:576e43bd193d | 78 | LPC_ADC->ADINTEN = (1UL<<m_adc_channel); |
meriac | 0:576e43bd193d | 79 | NVIC_EnableIRQ(ADC_IRQn); |
meriac | 0:576e43bd193d | 80 | |
meriac | 0:576e43bd193d | 81 | // propagate pin setting |
meriac | 0:576e43bd193d | 82 | pinmap_pinout(adc, RGB_Sensor__PinMap_ADC); |
meriac | 0:576e43bd193d | 83 | |
meriac | 0:576e43bd193d | 84 | // remember this instance |
meriac | 0:576e43bd193d | 85 | m_global = this; |
meriac | 0:576e43bd193d | 86 | } |
meriac | 0:576e43bd193d | 87 | |
meriac | 0:576e43bd193d | 88 | RGB_Sensor::~RGB_Sensor(void) |
meriac | 0:576e43bd193d | 89 | { |
meriac | 0:576e43bd193d | 90 | /* only deal with fully initialized objects */ |
meriac | 0:576e43bd193d | 91 | if(m_adc_channel == (ADCName)NC) |
meriac | 0:576e43bd193d | 92 | return; |
meriac | 0:576e43bd193d | 93 | /* wait for completion */ |
meriac | 0:576e43bd193d | 94 | wait(); |
meriac | 0:576e43bd193d | 95 | /* reset global reference */ |
meriac | 0:576e43bd193d | 96 | m_global = NULL; |
meriac | 0:576e43bd193d | 97 | /* turn off ADC */ |
meriac | 0:576e43bd193d | 98 | LPC_ADC->ADINTEN = 0; |
meriac | 0:576e43bd193d | 99 | LPC_ADC->ADCR = 0; |
meriac | 0:576e43bd193d | 100 | LPC_SC->PCONP &= ~(1UL<<12); |
meriac | 0:576e43bd193d | 101 | } |
meriac | 0:576e43bd193d | 102 | |
meriac | 0:576e43bd193d | 103 | void RGB_Sensor::__adc_irq(void) |
meriac | 0:576e43bd193d | 104 | { |
meriac | 0:576e43bd193d | 105 | if(m_global) |
meriac | 0:576e43bd193d | 106 | m_global->adc_irq(); |
meriac | 0:576e43bd193d | 107 | } |
meriac | 0:576e43bd193d | 108 | |
meriac | 5:1fed2b68e661 | 109 | int RGB_Sensor::filter(int sample) |
meriac | 5:1fed2b68e661 | 110 | { |
meriac | 5:1fed2b68e661 | 111 | int a,b,x,y,z; |
meriac | 6:fc64a14a2f4a | 112 | |
meriac | 5:1fed2b68e661 | 113 | /* get the two previous samples */ |
meriac | 5:1fed2b68e661 | 114 | a = m_adc_filter[m_rgb_channel][0]; |
meriac | 5:1fed2b68e661 | 115 | b = m_adc_filter[m_rgb_channel][1]; |
meriac | 5:1fed2b68e661 | 116 | |
meriac | 5:1fed2b68e661 | 117 | /* calculate node distances in triplet */ |
meriac | 5:1fed2b68e661 | 118 | x = abs(a-sample); |
meriac | 5:1fed2b68e661 | 119 | y = abs(b-sample); |
meriac | 5:1fed2b68e661 | 120 | z = abs(a-b); |
meriac | 5:1fed2b68e661 | 121 | |
meriac | 5:1fed2b68e661 | 122 | /* remember current sample */ |
meriac | 5:1fed2b68e661 | 123 | m_adc_filter[m_rgb_channel][m_adc_filter_pos] = sample; |
meriac | 5:1fed2b68e661 | 124 | |
meriac | 5:1fed2b68e661 | 125 | /* choose edge with shortest distance and |
meriac | 5:1fed2b68e661 | 126 | * return average of the two edge nodes */ |
meriac | 5:1fed2b68e661 | 127 | if((x<=y) && (x<=z)) |
meriac | 5:1fed2b68e661 | 128 | return (a+sample)/2; |
meriac | 5:1fed2b68e661 | 129 | if((y<=x) && (y<=z)) |
meriac | 5:1fed2b68e661 | 130 | return (b+sample)/2; |
meriac | 5:1fed2b68e661 | 131 | return (a+b)/2; |
meriac | 5:1fed2b68e661 | 132 | } |
meriac | 5:1fed2b68e661 | 133 | |
meriac | 0:576e43bd193d | 134 | void RGB_Sensor::adc_irq(void) |
meriac | 0:576e43bd193d | 135 | { |
meriac | 6:fc64a14a2f4a | 136 | int sample; |
meriac | 6:fc64a14a2f4a | 137 | uint32_t status; |
meriac | 0:576e43bd193d | 138 | |
meriac | 0:576e43bd193d | 139 | status = LPC_ADC->ADSTAT; |
meriac | 0:576e43bd193d | 140 | if(status & (1UL<<m_adc_channel)) |
meriac | 0:576e43bd193d | 141 | { |
meriac | 0:576e43bd193d | 142 | /* always read sample to acknowledge IRQ */ |
meriac | 0:576e43bd193d | 143 | sample = (((&LPC_ADC->ADDR0)[m_adc_channel])>>4) & 0xFFF; |
meriac | 0:576e43bd193d | 144 | |
meriac | 0:576e43bd193d | 145 | if(!m_done) |
meriac | 0:576e43bd193d | 146 | { |
meriac | 5:1fed2b68e661 | 147 | /* filter value to remove ADC noise/conversion errors */ |
meriac | 5:1fed2b68e661 | 148 | m_adc_aggregation[m_rgb_channel] += filter(sample); |
meriac | 0:576e43bd193d | 149 | |
meriac | 0:576e43bd193d | 150 | m_adc_count++; |
meriac | 0:576e43bd193d | 151 | if(m_adc_count>=RGB_OVERSAMPLING) |
meriac | 0:576e43bd193d | 152 | { |
meriac | 0:576e43bd193d | 153 | m_adc_count=0; |
meriac | 0:576e43bd193d | 154 | m_rgb_channel++; |
meriac | 0:576e43bd193d | 155 | |
meriac | 0:576e43bd193d | 156 | /* prepare LEDs for upcoming channel */ |
meriac | 0:576e43bd193d | 157 | switch(m_rgb_channel) |
meriac | 0:576e43bd193d | 158 | { |
meriac | 0:576e43bd193d | 159 | case 1: |
meriac | 2:4545984e62b6 | 160 | m_red = RGB_LED_ON; |
meriac | 0:576e43bd193d | 161 | break; |
meriac | 0:576e43bd193d | 162 | |
meriac | 0:576e43bd193d | 163 | case 2: |
meriac | 2:4545984e62b6 | 164 | m_red = !RGB_LED_ON; |
meriac | 2:4545984e62b6 | 165 | m_green = RGB_LED_ON; |
meriac | 0:576e43bd193d | 166 | break; |
meriac | 0:576e43bd193d | 167 | |
meriac | 0:576e43bd193d | 168 | case 3: |
meriac | 2:4545984e62b6 | 169 | m_green = !RGB_LED_ON; |
meriac | 6:fc64a14a2f4a | 170 | m_blue = RGB_LED_ON; |
meriac | 0:576e43bd193d | 171 | break; |
meriac | 0:576e43bd193d | 172 | |
meriac | 0:576e43bd193d | 173 | default: |
meriac | 6:fc64a14a2f4a | 174 | m_blue = !RGB_LED_ON; |
meriac | 6:fc64a14a2f4a | 175 | m_rgb_channel = 0; |
meriac | 6:fc64a14a2f4a | 176 | |
meriac | 3:50e1ac3c56db | 177 | if(!m_callback) |
meriac | 3:50e1ac3c56db | 178 | m_done = true; |
meriac | 3:50e1ac3c56db | 179 | else |
meriac | 3:50e1ac3c56db | 180 | { |
meriac | 3:50e1ac3c56db | 181 | TRGB rgb; |
meriac | 3:50e1ac3c56db | 182 | convert(rgb); |
meriac | 3:50e1ac3c56db | 183 | m_done = !m_callback(rgb); |
meriac | 3:50e1ac3c56db | 184 | } |
meriac | 0:576e43bd193d | 185 | /* stop data aquisition */ |
meriac | 3:50e1ac3c56db | 186 | if(m_done) |
meriac | 3:50e1ac3c56db | 187 | LPC_ADC->ADCR &= ~(1UL<<16); |
meriac | 4:0ffadc2caaf6 | 188 | else |
meriac | 6:fc64a14a2f4a | 189 | { |
meriac | 6:fc64a14a2f4a | 190 | m_adc_filter_pos ^= 1; |
meriac | 4:0ffadc2caaf6 | 191 | memset(&m_adc_aggregation, 0, sizeof(m_adc_aggregation)); |
meriac | 6:fc64a14a2f4a | 192 | } |
meriac | 0:576e43bd193d | 193 | } |
meriac | 0:576e43bd193d | 194 | } |
meriac | 0:576e43bd193d | 195 | } |
meriac | 0:576e43bd193d | 196 | } |
meriac | 0:576e43bd193d | 197 | LPC_ADC->ADSTAT = status; |
meriac | 0:576e43bd193d | 198 | } |
meriac | 0:576e43bd193d | 199 | |
meriac | 3:50e1ac3c56db | 200 | bool RGB_Sensor::capture(TRGB_Callback callback) |
meriac | 0:576e43bd193d | 201 | { |
meriac | 0:576e43bd193d | 202 | /* ignore mis-configurations */ |
meriac | 0:576e43bd193d | 203 | if(m_adc_channel==(ADCName)NC) |
meriac | 0:576e43bd193d | 204 | return false; |
meriac | 0:576e43bd193d | 205 | |
meriac | 3:50e1ac3c56db | 206 | m_callback = callback; |
meriac | 0:576e43bd193d | 207 | m_done = false; |
meriac | 6:fc64a14a2f4a | 208 | m_adc_filter_pos = m_adc_count = m_rgb_channel = 0; |
meriac | 0:576e43bd193d | 209 | memset((void*)&m_adc_aggregation, 0, sizeof(m_adc_aggregation)); |
meriac | 5:1fed2b68e661 | 210 | memset(&m_adc_filter, 0, sizeof(m_adc_filter)); |
meriac | 5:1fed2b68e661 | 211 | |
meriac | 0:576e43bd193d | 212 | /* start ADC burst mode */ |
meriac | 0:576e43bd193d | 213 | LPC_ADC->ADCR |= (1UL<<16); |
meriac | 0:576e43bd193d | 214 | |
meriac | 0:576e43bd193d | 215 | return true; |
meriac | 0:576e43bd193d | 216 | } |
meriac | 0:576e43bd193d | 217 | |
meriac | 0:576e43bd193d | 218 | bool RGB_Sensor::wait(void) |
meriac | 0:576e43bd193d | 219 | { |
meriac | 0:576e43bd193d | 220 | /* ignore mis-configurations */ |
meriac | 0:576e43bd193d | 221 | if(m_adc_channel==(ADCName)NC) |
meriac | 0:576e43bd193d | 222 | return false; |
meriac | 0:576e43bd193d | 223 | |
meriac | 0:576e43bd193d | 224 | while(!m_done) |
meriac | 0:576e43bd193d | 225 | __WFE(); |
meriac | 0:576e43bd193d | 226 | |
meriac | 0:576e43bd193d | 227 | return true; |
meriac | 0:576e43bd193d | 228 | } |
meriac | 0:576e43bd193d | 229 | |
meriac | 3:50e1ac3c56db | 230 | void RGB_Sensor::convert(TRGB &rgb) |
meriac | 0:576e43bd193d | 231 | { |
meriac | 8:88acb970df76 | 232 | int i, sample; |
meriac | 8:88acb970df76 | 233 | |
meriac | 0:576e43bd193d | 234 | /* correct "DC" offset by subdstracting |
meriac | 0:576e43bd193d | 235 | * environment light |
meriac | 0:576e43bd193d | 236 | */ |
meriac | 8:88acb970df76 | 237 | for(i=0; i<3; i++) |
meriac | 8:88acb970df76 | 238 | { |
meriac | 8:88acb970df76 | 239 | sample = m_adc_aggregation[0] - m_adc_aggregation[i+1]; |
meriac | 8:88acb970df76 | 240 | rgb.data[i] = (sample<0) ? 0 : sample; |
meriac | 8:88acb970df76 | 241 | } |
meriac | 3:50e1ac3c56db | 242 | } |
meriac | 0:576e43bd193d | 243 | |
meriac | 3:50e1ac3c56db | 244 | bool RGB_Sensor::capture(TRGB &rgb) |
meriac | 3:50e1ac3c56db | 245 | { |
meriac | 3:50e1ac3c56db | 246 | if(!(capture(NULL) && wait())) |
meriac | 3:50e1ac3c56db | 247 | return false; |
meriac | 3:50e1ac3c56db | 248 | |
meriac | 3:50e1ac3c56db | 249 | convert(rgb); |
meriac | 0:576e43bd193d | 250 | return true; |
meriac | 0:576e43bd193d | 251 | } |