/*
* Author: Jon Trulson <jtrulson@ics.com>
* Copyright (c) 2015 Intel Corporation.
*
* Thanks to Adafruit for some important clues
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sublicense, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
* LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
* OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
* WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
#pragma once
#include <string>
#include <mraa/i2c.h>
#include <mraa/gpio.h>
#define SI114X_I2C_BUS 0
#define SI114X_DEFAULT_I2C_ADDR 0x60
#define SI114X_HW_KEY 0x17
namespace upm {
/**
* @brief SI1145 UV Light Sensor library
* @defgroup si114x libupm-si114x
* @ingroup adafruit i2c light
*/
/**
* @library si114x
* @sensor si114x
* @comname SI1145 UV Light Sensor
* @altname SI1146, SI1147
* @type light
* @man adafruit
* @web https://www.adafruit.com/products/1777
* @con i2c
*
* @brief API for the SI1145 UV Light Sensor
*
* This module was tested with the Adafruit* UV Light Sensor
*
* This device is capable of measuring IR and visible ambient
* light as well. It also supports the ability to use externally
* attached LEDs to perform proximity detection on 3 separate
* channels.
*
* Currently, this class only supports the retrieving of the
* calculated UV index measured by the device, but enough
* infrastructure is provided to make it easy to enhance this driver
* in the future to support additional capabilities, including
* interrupt support.
*
* @image html si114x.jpg
* @snippet si114x.cxx Interesting
*/
class SI114X {
public:
/**
* SI114X registers
*/
typedef enum { REG_PART_ID = 0x00,
REG_REV_ID = 0x01,
REG_SEQ_ID = 0x02,
REG_INT_CFG = 0x03,
REG_IRQ_ENABLE = 0x04,
// these two are not documented in the datasheet,
// but are mentioned there, as well as in the
// Adafruit example
REG_IRQ_MODE1 = 0x05,
REG_IRQ_MODE2 = 0x06,
REG_HW_KEY = 0x07,
REG_MEAS_RATE0 = 0x08,
REG_MEAS_RATE1 = 0x09,
REG_PS_LED21 = 0x0f,
REG_PS_LED3 = 0x10,
REG_UCOEF0 = 0x13,
REG_UCOEF1 = 0x14,
REG_UCOEF2 = 0x15,
REG_UCOEF3 = 0x16,
REG_PARAM_WR = 0x17,
REG_COMMAND = 0x18,
REG_RESPONSE = 0x20,
REG_IRQ_STATUS = 0x21,
REG_ALS_VIS_DATA0 = 0x22,
REG_ALS_VIS_DATA1 = 0x23,
REG_ALS_IR_DATA0 = 0x24,
REG_ALS_IR_DATA1 = 0x25,
REG_PS1_DATA0 = 0x26,
REG_PS1_DATA1 = 0x27,
REG_PS2_DATA0 = 0x28,
REG_PS2_DATA1 = 0x29,
REG_PS3_DATA0 = 0x2a,
REG_PS3_DATA1 = 0x2b,
REG_AUX_UVINDEX0 = 0x2c,
REG_AUX_UVINDEX1 = 0x2d,
REG_PARAM_READ = 0x2e,
REG_CHIP_STAT = 0x30,
REG_ANA_IN_KEY0 = 0x3b,
REG_ANA_IN_KEY1 = 0x3c,
REG_ANA_IN_KEY2 = 0x3d,
REG_ANA_IN_KEY3 = 0x3e
} SI114X_REG_T;
/**
* Parameter memory (PARAM)
*/
typedef enum { PARAM_I2C_ADDDR = 0x00,
PARAM_CHLIST = 0x01,
PARAM_PSLED12_SEL = 0x02,
PARAM_PSLED3_SEL = 0x03,
PARAM_PS_ENCODING = 0x05,
PARAM_ALS_ENCODING = 0x06,
PARAM_PS1_ADCMUX = 0x07,
PARAM_PS2_ADCMUX = 0x08,
PARAM_PS3_ADCMUX = 0x09,
PARAM_PS_ADC_COUNT = 0x0a,
PARAM_PS_ADC_GAIN = 0x0b,
PARAM_PS_ADC_MISC = 0x0c,
PARAM_ALS_IR_ADCMUX = 0x0e,
PARAM_AUX_ADCMUX = 0x0f,
PARAM_ALS_VIS_ADC_COUNT = 0x10,
PARAM_ALS_VIS_ADC_GAIN = 0x11,
PARAM_ALS_VIS_ADC_MISC = 0x12,
PARAM_LED_REC = 0x1c,
PARAM_ALS_IR_ADC_COUNT = 0x1d,
PARAM_ALS_IR_ADX_GAIN = 0x1e,
PARAM_ALS_IR_ADC_MISC = 0x1f
} SI114X_PARAM_T;
/**
* Commands (written to the REG_COMMAND register)
*/
typedef enum { CMD_NOOP = 0x00, // clear RESPONSE reg
CMD_RESET = 0x01,
CMD_BUSADDR = 0x02,
CMD_PS_FORCE = 0x05,
CMD_GET_CAL = 0x12,
CMD_ALS_FORCE = 0x06,
CMD_PSALS_FORCE = 0x07,
CMD_PS_PAUSE = 0x09,
CMD_ALS_PAUSE = 0x0a,
CMD_PSALS_PAUSE = 0x0b,
CMD_PS_AUTO = 0x0d,
CMD_ALS_AUTO = 0x0e,
CMD_PSALS_AUTO = 0x0f,
CMD_PARAM_QUERY = 0x80, // OR'd with PARAM_T value
CMD_PARAM_SET = 0xa0 // OR'd with PARAM_T value
} SI114X_CMD_T;
/**
* Channel list enable bits
*/
typedef enum { CHLIST_EN_PS1 = 0x01, // proximity sense 1-3
CHLIST_EN_PS2 = 0x02,
CHLIST_EN_PS3 = 0x04,
CHLIST_EN_ALS_VIS = 0x10, // ambient light sense
CHLIST_EN_ALS_IR = 0x20,
CHLIST_EN_AUX = 0x40, // AUX sense
CHLIST_EN_UV = 0x80 // UV sense
} SI114X_CHLIST_BITS_T;
/**
* Error codes from the RESPONSE register
*/
typedef enum { ERR_NONE = 0x00, // no error if high nibble is 0
// lower nibble is a counter
ERR_INVALID_SET = 0x80, // invalid setting
ERR_PS1_ADC_OVER = 0x88, // overflows
ERR_PS2_ADC_OVER = 0x89,
ERR_PS3_ADC_OVER = 0x8a,
ERR_ALS_VIS_ADC_OVER = 0x8c,
ERR_ALS_IR_ADC_OVER = 0x8d,
ERR_AUX_ADC_OVER = 0x8e
} SI114X_ERR_T;
/**
* Interrupt enable bits
*/
typedef enum { IRQEN_ALS_IE = 0x01,
IRQEN_PS1_IE = 0x04,
IRQEN_PS2_IE = 0x08,
IRQEN_PS3_IE = 0x10
} SI114X_IRQEN_BITS_T;
/**
* SI114X constructor
*
* @param bus I2C bus to use
* @param address Address for this device
*/
SI114X(int bus, uint8_t address = SI114X_DEFAULT_I2C_ADDR);
/**
* SI114X destructor
*/
~SI114X();
/**
* Writes a byte value into a register
*
* @param reg Register location to write into
* @param byte Byte to write
* @return True if successful
*/
bool writeByte(uint8_t reg, uint8_t byte);
/**
* Reads a byte value from a register
*
* @param reg Register location to read from
* @return Value in a specified register
*/
uint8_t readByte(uint8_t reg);
/**
* Reads a word value from a register
*
* @param reg Register location to read from
* @return Value in a specified register
*/
uint16_t readWord(uint8_t reg);
/**
* Disables interrupts and auto-measuring, issues a device reset,
* and then sets the hardware key.
*/
void reset();
/**
* Sets UV calibration values. The constructor sets default
* values for you, so you only need this function if you need
* different values for your device and situation. If you set new
* values here, be sure to do so before calling initialize().
*
* @param uvcoeff0 Coefficient for REG_UCOEF0
* @param uvcoeff1 Coefficient for REG_UCOEF1
* @param uvcoeff2 Coefficient for REG_UCOEF2
* @param uvcoeff3 Coefficient for REG_UCOEF3
*
*/
void setUVCalibration(uint8_t uvcoeff0, uint8_t uvcoeff1, uint8_t uvcoeff2,
uint8_t uvcoeff3);
/**
* Writes a value to the parameter memory.
*
* @param param SI114X_PARAM_T register to write
* @param value Value to write
*/
void writeParam(SI114X_PARAM_T param, uint8_t value);
/**
* Reads a value from the parameter memory
*
* @param param SI114X_PARAM_T register to read
* @return Value
*/
uint8_t readParam(SI114X_PARAM_T param);
/**
* Resets and initializes the device and starts auto-sampling
*/
void initialize();
/**
* Updates stored values. You should call this before calling
* getUVIndex()
*/
void update();
/**
* Reads the currently measured UV index value
*
* @return UV index value
*/
float getUVIndex() { return m_uvIndex; };
private:
mraa_i2c_context m_i2c;
uint8_t m_addr;
// UV calibration values
uint8_t m_uv_cal[4];
// updated by update()
float m_uvIndex;
};
}