Sensors: TSL2591
TSL2591 library conversion
Procedure
- Stared with Adafruit's Adafruit_TSL2591_Library
- Replaced the Adrino's reads and writes with call to the wiringPi library
- Sanity checked the code against this JS program:
Code
To compile the program:
gcc 2591_pi_2.cpp 2591a.cpp -lwiringPi -o 2591
2591_pi_2.cpp
//http://www.raspberrypi.org/forums/viewtopic.php?t=67979&p=496252 // ALL COMMAND TSL2561 // Default I2C RPI address in (0x39) = FLOAT ADDR (Slave) Other [(0x49) = VCC ADDR / (0x29) = GROUND ADDR] #define TSL2561_ADDR_LOW (0x29) #define TSL2561_ADDR_FLOAT (0x39) #define TSL2561_ADDR_HIGH (0x49) #include "2591a.h" #include <unistd.h> int main(){ Adafruit_TSL2591 tsl = Adafruit_TSL2591(2591); // pass in a number for the sensor identifier (for your use later) int fd = 0; fd = wiringPiI2CSetup(0x29); uint16_t ch0,ch1; uint32_t visible_and_ir, lux; visible_and_ir = tsl.Adafruit_TSL2591::getFullLuminosity (fd); sleep(1); visible_and_ir = tsl.Adafruit_TSL2591::getFullLuminosity (fd); // Reads two byte value from channel 0 (visible + infrared) ch0 = (visible_and_ir & 0xFFFF); // Reads two byte value from channel 1 (infrared) ch1 = (visible_and_ir >> 16); lux = tsl.Adafruit_TSL2591::calculateLux(ch0, ch1); printf("TSL2591 Full Spectrum: %zu\n",ch0); printf("TSL2591 Infrared: %zu\n",ch1); if ( ch0 >= ch1 ) printf("TSL2591 Visible: %zu\n",ch0-ch1); printf("TSL2591 Lux: %zu\n", lux); } /* NOTE: To compile programs with wiringPi, you need to add: -lwiringPi to your compile line(s) To use the Gertboard, MaxDetect, etc. code (the devLib), you need to also add: -lwiringPiDev to your compile line(s). gcc 2591_pi_2.cpp 2591a.cpp -lwiringPi -o 2591 */
2591a.cpp
/**************************************************************************/ /*! @file Adafruit_TSL2591.cpp @author KT0WN (adafruit.com) This is a library for the Adafruit TSL2591 breakout board This library works with the Adafruit TSL2591 breakout ----> https://www.adafruit.com/products/1980 Check out the links above for our tutorials and wiring diagrams These chips use I2C to communicate Adafruit invests time and resources providing this open source code, please support Adafruit and open-source hardware by purchasing products from Adafruit! @section LICENSE Software License Agreement (BSD License) Copyright (c) 2014 Adafruit Industries All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the copyright holders nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ''AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /**************************************************************************/ #include "2591a.h" Adafruit_TSL2591::Adafruit_TSL2591(int32_t sensorID) { _initialized = false; _integration = TSL2591_INTEGRATIONTIME_100MS; // _gain = TSL2591_GAIN_MED; _gain = TSL2591_GAIN_LOW; _sensorID = sensorID; // we cant do wire initialization till later, because we havent loaded Wire yet } bool Adafruit_TSL2591::begin(int fd) { // Wire.begin(); uint8_t d; // for (uint8_t i=0; i<0x20; i++) // { // wiringPiI2CReadReg8(fd,012); // uint8_t id = read8(0x12); // Serial.print("$"); Serial.print(i, HEX); // Serial.print(" = 0x"); Serial.println(read8(i), HEX); // d = read8(i); // printf ("%x=%x\n",i,d); // } wiringPiI2CWriteReg8(fd, TSL2591_COMMAND_BIT | TSL2591_REGISTER_ENABLE, TSL2591_ENABLE_POWERON | TSL2591_ENABLE_AEN | TSL2591_ENABLE_AIEN); // TSL2591_CONFIG_RW, [TSL2591_DEVICE_RESET_VALUE], // uint8_t id = read8(0x12); uint8_t id = wiringPiI2CReadReg8(fd,0x80 | 0x20 | 0x12); // printf("id=%x\n",id); if (id == 0x50 ) { //Serial.println("Found Adafruit_TSL2591"); // printf("Found Adafruit_TSL2591\n"); } else { printf("ERROR: Could not find Adafruit_TSL2591 (id 0x50). Found: %x\n", id); return false; } _initialized = true; // Set default integration time and gain setTiming(fd, _integration); setGain(fd, _gain); // Note: by default, the device is in power down mode on bootup disable(fd); return true; } void Adafruit_TSL2591::enable(int fd) { if (!_initialized) { if (!begin(fd)) { return; } } // Enable the device by setting the control bit to 0x01 // write8(TSL2591_COMMAND_BIT | TSL2591_REGISTER_ENABLE, TSL2591_ENABLE_POWERON | TSL2591_ENABLE_AEN | TSL2591_ENABLE_AIEN); // wiringPiI2CWriteReg8(fd, TSL2561_COMMAND_BIT, TSL2561_CONTROL_POWERON); //enable the device wiringPiI2CWriteReg8(fd, TSL2591_COMMAND_BIT | TSL2591_REGISTER_ENABLE, TSL2591_ENABLE_POWERON | TSL2591_ENABLE_AEN | TSL2591_ENABLE_AIEN); } void Adafruit_TSL2591::disable(int fd) { if (!_initialized) { if (!begin(fd)) { return; } } // Disable the device by setting the control bit to 0x00 // write8(TSL2591_COMMAND_BIT | TSL2591_REGISTER_ENABLE, TSL2591_ENABLE_POWEROFF); // wiringPiI2CWriteReg8(fd, TSL2561_COMMAND_BIT, TSL2561_CONTROL_POWEROFF); //disable the device wiringPiI2CWriteReg8(fd, TSL2591_COMMAND_BIT | TSL2591_REGISTER_ENABLE, TSL2591_ENABLE_POWEROFF); } void Adafruit_TSL2591::setGain(int fd, tsl2591Gain_t gain) { if (!_initialized) { if (!begin(fd)) { return; } } enable(fd); _gain = gain; // write8(TSL2591_COMMAND_BIT | TSL2591_REGISTER_CONTROL, _integration | _gain); wiringPiI2CWriteReg8(fd, TSL2591_COMMAND_BIT | TSL2591_REGISTER_CONTROL, _integration | _gain); disable(fd); } tsl2591Gain_t Adafruit_TSL2591::getGain() { return _gain; } void Adafruit_TSL2591::setTiming(int fd, tsl2591IntegrationTime_t integration) { if (!_initialized) { if (!begin(fd)) { return; } } enable(fd); _integration = integration; // write8(TSL2591_COMMAND_BIT | TSL2591_REGISTER_CONTROL, _integration | _gain); wiringPiI2CWriteReg8(fd, TSL2591_COMMAND_BIT | TSL2591_REGISTER_CONTROL, _integration | _gain); disable(fd); } tsl2591IntegrationTime_t Adafruit_TSL2591::getTiming() { return _integration; } uint32_t Adafruit_TSL2591::calculateLux(uint16_t ch0, uint16_t ch1) { uint16_t atime, again; float cpl, lux1, lux2, lux; uint32_t chan0, chan1; // Check for overflow conditions first if ((ch0 == 0xFFFF) | (ch1 == 0xFFFF)) { // Signal an overflow return 0; } // Note: This algorithm is based on preliminary coefficients // provided by AMS and may need to be updated in the future switch (_integration) { case TSL2591_INTEGRATIONTIME_100MS : atime = 100.0F; break; case TSL2591_INTEGRATIONTIME_200MS : atime = 200.0F; break; case TSL2591_INTEGRATIONTIME_300MS : atime = 300.0F; break; case TSL2591_INTEGRATIONTIME_400MS : atime = 400.0F; break; case TSL2591_INTEGRATIONTIME_500MS : atime = 500.0F; break; case TSL2591_INTEGRATIONTIME_600MS : atime = 600.0F; break; default: // 100ms atime = 100.0F; break; } switch (_gain) { case TSL2591_GAIN_LOW : again = 1.0F; break; case TSL2591_GAIN_MED : again = 25.0F; break; case TSL2591_GAIN_HIGH : again = 428.0F; break; case TSL2591_GAIN_MAX : again = 9876.0F; break; default: again = 1.0F; break; } // cpl = (ATIME * AGAIN) / DF cpl = (atime * again) / TSL2591_LUX_DF; //printf("ch0= %zu ch1=%zu\n",ch0,ch1); lux1 = ( (float)ch0 - (TSL2591_LUX_COEFB * (float)ch1) ) / cpl; lux2 = ( ( TSL2591_LUX_COEFC * (float)ch0 ) - ( TSL2591_LUX_COEFD * (float)ch1 ) ) / cpl; // printf("Lux1= %f Lux2=%f\n",lux1,lux2); // The highest value is the approximate lux equivalent lux = lux1 > lux2 ? lux1 : lux2; // Signal I2C had no errors return (uint32_t)lux; } uint32_t Adafruit_TSL2591::getFullLuminosity (int fd) { //printf("getFullLuminosity\n"); if (!_initialized) { if (!begin(fd)) { return 0; } } // Enable the device enable(fd); //printf ("getFullLuminosity: device enabled\n"); // Wait x ms for ADC to complete for (uint8_t d=0; d<=_integration; d++) { delay(120); } uint32_t x,y; // x = read16(TSL2591_COMMAND_BIT | TSL2591_REGISTER_CHAN1_LOW); x = wiringPiI2CReadReg16(fd, TSL2591_COMMAND_BIT | TSL2591_REGISTER_CHAN1_LOW); // printf("Chan1=%u\n",x); x <<= 16; // x |= read16(TSL2591_COMMAND_BIT | TSL2591_REGISTER_CHAN0_LOW); y = wiringPiI2CReadReg16(fd, TSL2591_COMMAND_BIT | TSL2591_REGISTER_CHAN0_LOW); // printf("Chan0=%u\n",y); x |= y; disable(fd); return x; } uint16_t Adafruit_TSL2591::getLuminosity (int fd, uint8_t channel) { uint32_t x = getFullLuminosity(fd); if (channel == TSL2591_FULLSPECTRUM) { // Reads two byte value from channel 0 (visible + infrared) return (x & 0xFFFF); } else if (channel == TSL2591_INFRARED) { // Reads two byte value from channel 1 (infrared) return (x >> 16); } else if (channel == TSL2591_VISIBLE) { // Reads all and subtracts out just the visible! return ( (x & 0xFFFF) - (x >> 16)); } // unknown channel! return 0; } /**************************************************************************/ /*! @brief Gets the most recent sensor event */ /**************************************************************************/ //bool Adafruit_TSL2591::getEvent(sensors_event_t *event) //{ // uint16_t ir, full; // uint32_t lum = getFullLuminosity(); /* Early silicon seems to have issues when there is a sudden jump in */ /* light levels. :( To work around this for now sample the sensor 2x */ // lum = getFullLuminosity(); // ir = lum >> 16; // full = lum & 0xFFFF; /* Clear the event */ // memset(event, 0, sizeof(sensors_event_t)); // event->version = sizeof(sensors_event_t); // event->sensor_id = _sensorID; // event->type = SENSOR_TYPE_LIGHT; // event->timestamp = millis(); /* Calculate the actual lux value */ /* 0 = sensor overflow (too much light) */ // event->light = calculateLux(full, ir); // return true; //} /**************************************************************************/ /*! @brief Gets the sensor_t data */ /**************************************************************************/ /* void Adafruit_TSL2591::getSensor(sensor_t *sensor) { // Clear the sensor_t object memset(sensor, 0, sizeof(sensor_t)); // Insert the sensor name in the fixed length char array strncpy (sensor->name, "TSL2591", sizeof(sensor->name) - 1); sensor->name[sizeof(sensor->name)- 1] = 0; sensor->version = 1; sensor->sensor_id = _sensorID; sensor->type = SENSOR_TYPE_LIGHT; sensor->min_delay = 0; sensor->max_value = 88000.0; sensor->min_value = 0.0; sensor->resolution = 1.0; } */