Changed hts221 into Class.
Dependents: WeatherSensor-Joe PAG-CourseWork-NicksEdits SOFT253_Assignment SOFT253_Assignment_V2 ... more
Fork of hts221 by
hts221.cpp@2:6d7166d49741, 2016-02-10 (annotated)
- Committer:
- kholland
- Date:
- Wed Feb 10 19:13:37 2016 +0000
- Revision:
- 2:6d7166d49741
- Parent:
- 1:da79e74eadd1
Added powerMode function to put it in shutdown
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
gillwei7 | 0:030da9425166 | 1 | /* Copyright (c) 2009 Nordic Semiconductor. All Rights Reserved. |
gillwei7 | 0:030da9425166 | 2 | * |
gillwei7 | 0:030da9425166 | 3 | * The information contained herein is property of Nordic Semiconductor ASA. |
gillwei7 | 0:030da9425166 | 4 | * Terms and conditions of usage are described in detail in NORDIC |
gillwei7 | 0:030da9425166 | 5 | * SEMICONDUCTOR STANDARD SOFTWARE LICENSE AGREEMENT. |
gillwei7 | 0:030da9425166 | 6 | * |
gillwei7 | 0:030da9425166 | 7 | * Licensees are granted free, non-transferable use of the information. NO |
gillwei7 | 0:030da9425166 | 8 | * WARRANTY of ANY KIND is provided. This heading must NOT be removed from |
gillwei7 | 0:030da9425166 | 9 | * the file. |
gillwei7 | 0:030da9425166 | 10 | *df |
gillwei7 | 0:030da9425166 | 11 | */ |
gillwei7 | 0:030da9425166 | 12 | |
gillwei7 | 0:030da9425166 | 13 | #include <stdbool.h> |
gillwei7 | 0:030da9425166 | 14 | #include <stdint.h> |
gillwei7 | 0:030da9425166 | 15 | |
gillwei7 | 0:030da9425166 | 16 | #include <mbed.h> |
gillwei7 | 0:030da9425166 | 17 | #include "hts221.h" |
gillwei7 | 0:030da9425166 | 18 | |
kylerodgers | 1:da79e74eadd1 | 19 | HTS221::HTS221 (PinName sda, PinName scl) : _i2c(sda, scl) |
kylerodgers | 1:da79e74eadd1 | 20 | { |
kylerodgers | 1:da79e74eadd1 | 21 | init(); |
kylerodgers | 1:da79e74eadd1 | 22 | calib(); |
kylerodgers | 1:da79e74eadd1 | 23 | } |
gillwei7 | 0:030da9425166 | 24 | |
kylerodgers | 1:da79e74eadd1 | 25 | bool HTS221::init(void) |
gillwei7 | 0:030da9425166 | 26 | { |
gillwei7 | 0:030da9425166 | 27 | bool transfer_succeeded = true; |
gillwei7 | 0:030da9425166 | 28 | |
kylerodgers | 1:da79e74eadd1 | 29 | _i2c.frequency(400000); |
kylerodgers | 1:da79e74eadd1 | 30 | register_write(0x10 , TRes_4 << 3 | HRes_5); |
kylerodgers | 1:da79e74eadd1 | 31 | register_write(0x20 , PD_On | BDU_On | ODR_1Hz); // Control register 1 |
kylerodgers | 1:da79e74eadd1 | 32 | register_write(0x21 , NoBoot | HeaterOff | No_OS); // Control register 2 |
kylerodgers | 1:da79e74eadd1 | 33 | register_write(0x22 , DRDY_H | PP_OD_PP | DRDY_NON); // Control register 3 |
gillwei7 | 0:030da9425166 | 34 | |
gillwei7 | 0:030da9425166 | 35 | // Read and verify product ID |
kylerodgers | 1:da79e74eadd1 | 36 | transfer_succeeded &= verify_product_id(); |
gillwei7 | 0:030da9425166 | 37 | |
gillwei7 | 0:030da9425166 | 38 | return transfer_succeeded; |
gillwei7 | 0:030da9425166 | 39 | } |
gillwei7 | 0:030da9425166 | 40 | |
kylerodgers | 1:da79e74eadd1 | 41 | bool HTS221::verify_product_id(void) |
gillwei7 | 0:030da9425166 | 42 | { |
gillwei7 | 0:030da9425166 | 43 | char who_am_i[1]; |
kylerodgers | 1:da79e74eadd1 | 44 | register_read(ADDRESS_WHO_AM_I, &who_am_i[0], 1); |
gillwei7 | 0:030da9425166 | 45 | if (who_am_i[0] != expected_who_am_i) return false; |
gillwei7 | 0:030da9425166 | 46 | else return true; |
gillwei7 | 0:030da9425166 | 47 | } |
gillwei7 | 0:030da9425166 | 48 | |
kylerodgers | 1:da79e74eadd1 | 49 | void HTS221::register_write(uint8_t register_address, uint8_t value) |
gillwei7 | 0:030da9425166 | 50 | { |
gillwei7 | 0:030da9425166 | 51 | char w2_data[2]; |
gillwei7 | 0:030da9425166 | 52 | |
gillwei7 | 0:030da9425166 | 53 | w2_data[0] = register_address; |
gillwei7 | 0:030da9425166 | 54 | w2_data[1] = value; |
kylerodgers | 1:da79e74eadd1 | 55 | _i2c.write(HTS221_WriteADDE, w2_data, 2); |
gillwei7 | 0:030da9425166 | 56 | |
gillwei7 | 0:030da9425166 | 57 | } |
gillwei7 | 0:030da9425166 | 58 | |
kylerodgers | 1:da79e74eadd1 | 59 | void HTS221::register_read(char register_address, char *destination, uint8_t number_of_bytes) |
gillwei7 | 0:030da9425166 | 60 | { |
kylerodgers | 1:da79e74eadd1 | 61 | _i2c.write(HTS221_WriteADDE, ®ister_address, 1, 1); |
kylerodgers | 1:da79e74eadd1 | 62 | _i2c.read(HTS221_WriteADDE, destination, number_of_bytes); //Note by Tsungta, API may have a bug |
gillwei7 | 0:030da9425166 | 63 | |
gillwei7 | 0:030da9425166 | 64 | //runaboud read function added by Tsungta |
gillwei7 | 0:030da9425166 | 65 | /* if (number_of_bytes == 1) { |
gillwei7 | 0:030da9425166 | 66 | i2c.write(HTS221_WriteADDE, ®ister_address, 1, 1); |
gillwei7 | 0:030da9425166 | 67 | i2c.write(HTS221_ReadADDE); |
gillwei7 | 0:030da9425166 | 68 | *destination = i2c.read(0); |
gillwei7 | 0:030da9425166 | 69 | i2c.stop(); |
gillwei7 | 0:030da9425166 | 70 | } else { |
gillwei7 | 0:030da9425166 | 71 | register_address |= 0x80; |
gillwei7 | 0:030da9425166 | 72 | i2c.write(HTS221_WriteADDE, ®ister_address, 1, 1); |
gillwei7 | 0:030da9425166 | 73 | i2c.write(HTS221_ReadADDE); |
gillwei7 | 0:030da9425166 | 74 | while (number_of_bytes-- > 0) |
gillwei7 | 0:030da9425166 | 75 | *destination++ = i2c.read(0); |
gillwei7 | 0:030da9425166 | 76 | i2c.stop(); |
gillwei7 | 0:030da9425166 | 77 | }*/ |
gillwei7 | 0:030da9425166 | 78 | } |
gillwei7 | 0:030da9425166 | 79 | |
kylerodgers | 1:da79e74eadd1 | 80 | void HTS221::calib(void) |
gillwei7 | 0:030da9425166 | 81 | { |
gillwei7 | 0:030da9425166 | 82 | char cal_data[16]; |
gillwei7 | 0:030da9425166 | 83 | |
kylerodgers | 1:da79e74eadd1 | 84 | register_read(0xB0, cal_data, 16); |
gillwei7 | 0:030da9425166 | 85 | |
gillwei7 | 0:030da9425166 | 86 | H0_rH_x2 = cal_data[0]; |
gillwei7 | 0:030da9425166 | 87 | H1_rH_x2 = cal_data[1]; |
gillwei7 | 0:030da9425166 | 88 | T0_degC_x8 = ((cal_data[5] & 0x03) << 8) + cal_data[2]; //MSB + LSB in |
gillwei7 | 0:030da9425166 | 89 | T1_degC_x8 = ((cal_data[5] & 0x0C) << 6) + cal_data[3]; // MSB |
gillwei7 | 0:030da9425166 | 90 | |
gillwei7 | 0:030da9425166 | 91 | H0_T0_OUT = (cal_data[7] << 8) + cal_data[6]; |
gillwei7 | 0:030da9425166 | 92 | H1_T0_OUT = (cal_data[11] << 8) + cal_data[10]; |
gillwei7 | 0:030da9425166 | 93 | T0_OUT = (cal_data[13] << 8) + cal_data[12]; |
gillwei7 | 0:030da9425166 | 94 | T1_OUT = (cal_data[15] << 8) + cal_data[14]; |
gillwei7 | 0:030da9425166 | 95 | |
gillwei7 | 0:030da9425166 | 96 | // convert negative 2's complement values to native negative value |
gillwei7 | 0:030da9425166 | 97 | if (H0_T0_OUT&0x8000) H0_T0_OUT = -(0x8000-(0x7fff&H0_T0_OUT)); |
gillwei7 | 0:030da9425166 | 98 | if (H1_T0_OUT&0x8000) H1_T0_OUT = -(0x8000-(0x7fff&H1_T0_OUT)); //((~H1_T0_OUT)+1);// |
gillwei7 | 0:030da9425166 | 99 | if (T0_OUT&0x8000) T0_OUT = -(0x8000-(0x7fff&T0_OUT)); |
gillwei7 | 0:030da9425166 | 100 | if (T1_OUT&0x8000) T1_OUT = -(0x8000-(0x7fff&T1_OUT)); |
gillwei7 | 0:030da9425166 | 101 | |
gillwei7 | 0:030da9425166 | 102 | T0_DegC_cal = (float) T0_degC_x8/8; |
gillwei7 | 0:030da9425166 | 103 | T1_DegC_cal = (float) T1_degC_x8/8; |
gillwei7 | 0:030da9425166 | 104 | H0_RH_cal = (float) H0_rH_x2/2; |
gillwei7 | 0:030da9425166 | 105 | H1_RH_cal = (float) H1_rH_x2/2; |
gillwei7 | 0:030da9425166 | 106 | |
gillwei7 | 0:030da9425166 | 107 | } |
gillwei7 | 0:030da9425166 | 108 | |
kylerodgers | 1:da79e74eadd1 | 109 | void HTS221::ReadTempHumi( float *pTemp , float *pHumi) |
gillwei7 | 0:030da9425166 | 110 | { |
gillwei7 | 0:030da9425166 | 111 | char sensor_data[4]; |
gillwei7 | 0:030da9425166 | 112 | int16_t H_OUT; |
gillwei7 | 0:030da9425166 | 113 | int16_t T_OUT; |
gillwei7 | 0:030da9425166 | 114 | |
kylerodgers | 1:da79e74eadd1 | 115 | register_read(0xA8, sensor_data, 4); |
gillwei7 | 0:030da9425166 | 116 | |
gillwei7 | 0:030da9425166 | 117 | H_OUT = (sensor_data[1] << 8) + sensor_data[0]; |
gillwei7 | 0:030da9425166 | 118 | T_OUT = (sensor_data[3] << 8) + sensor_data[2]; |
gillwei7 | 0:030da9425166 | 119 | |
gillwei7 | 0:030da9425166 | 120 | // convert negative 2's complement values to native negative value |
gillwei7 | 0:030da9425166 | 121 | if (H_OUT&0x8000) H_OUT = -(0x8000-(0x7fff&H_OUT)); //((~H_OUT)+1);; |
gillwei7 | 0:030da9425166 | 122 | if (T_OUT&0x8000) T_OUT = -(0x8000-(0x7fff&T_OUT)); |
gillwei7 | 0:030da9425166 | 123 | |
gillwei7 | 0:030da9425166 | 124 | *pTemp = linear_interpolation(T0_OUT, T0_DegC_cal, T1_OUT, T1_DegC_cal, T_OUT); |
gillwei7 | 0:030da9425166 | 125 | *pHumi = linear_interpolation(H0_T0_OUT, H0_RH_cal, H1_T0_OUT, H1_RH_cal, H_OUT); |
gillwei7 | 0:030da9425166 | 126 | // Constraint for measurement after calibration |
gillwei7 | 0:030da9425166 | 127 | if ((int)*pHumi>MaxHumi-1 | (int)*pHumi==-72) *pHumi = MaxHumi; |
gillwei7 | 0:030da9425166 | 128 | if ((int)*pHumi<MinHumi ) *pHumi = MinHumi; |
gillwei7 | 0:030da9425166 | 129 | if ((int)*pTemp>MaxTemp-1) *pHumi = MaxTemp; |
gillwei7 | 0:030da9425166 | 130 | if ((int)*pHumi<MinTemp ) *pHumi = MinTemp ; |
gillwei7 | 0:030da9425166 | 131 | } |
gillwei7 | 0:030da9425166 | 132 | |
kylerodgers | 1:da79e74eadd1 | 133 | float HTS221::linear_interpolation(int16_t x0, float y0, int16_t x1, float y1, float mes) |
gillwei7 | 0:030da9425166 | 134 | { |
gillwei7 | 0:030da9425166 | 135 | float a = (float) ((y1 - y0) / (x1 - x0)); |
gillwei7 | 0:030da9425166 | 136 | float b = (float) -a*x0 + y0; |
gillwei7 | 0:030da9425166 | 137 | float cal = (float) a * mes + b; |
gillwei7 | 0:030da9425166 | 138 | return cal; |
kholland | 2:6d7166d49741 | 139 | } |
kholland | 2:6d7166d49741 | 140 | void HTS221::powerMode(PowerMode mode) |
kholland | 2:6d7166d49741 | 141 | { |
kholland | 2:6d7166d49741 | 142 | char reg; |
kholland | 2:6d7166d49741 | 143 | |
kholland | 2:6d7166d49741 | 144 | register_read(0x20, ®, 1); |
kholland | 2:6d7166d49741 | 145 | |
kholland | 2:6d7166d49741 | 146 | //Set or clear the SHUTDOWN bit |
kholland | 2:6d7166d49741 | 147 | if (mode == POWER_SHUTDOWN) |
kholland | 2:6d7166d49741 | 148 | reg &= ~(PD_On); |
kholland | 2:6d7166d49741 | 149 | else |
kholland | 2:6d7166d49741 | 150 | reg |= PD_On; |
kholland | 2:6d7166d49741 | 151 | |
kholland | 2:6d7166d49741 | 152 | register_write(0x20 , reg); // Control register 1); |
kholland | 2:6d7166d49741 | 153 | |
kylerodgers | 1:da79e74eadd1 | 154 | } |