Kenji Arai
Digital Humidity Sensor with Temperature Sensor by TI. Default address sets Akizuki kit module.
Dependents: AmbientExampleLPC1768 HumidifierController_LPC824 TYBLE16_mbedlized_Thermometer
HDC1000.cpp@0:927110422689, 2015-02-22 (annotated)
- Committer:
- kenjiArai
- Date:
- Sun Feb 22 01:04:44 2015 +0000
- Revision:
- 0:927110422689
- Child:
- 1:c8f2c01befe1
Digital Humidity Sensor with Temperature Sensor by TI. Default address sets Akizuki kit module.
Who changed what in which revision?
| User | Revision | Line number | New contents of line |
|---|---|---|---|
| kenjiArai | 0:927110422689 | 1 | /* |
| kenjiArai | 0:927110422689 | 2 | * mbed library program |
| kenjiArai | 0:927110422689 | 3 | * Low Power, High Accuracy Digital Humidity Sensor with Integrated Temperature Sensor |
| kenjiArai | 0:927110422689 | 4 | * HDC1000 Texas Instruments |
| kenjiArai | 0:927110422689 | 5 | * |
| kenjiArai | 0:927110422689 | 6 | * Copyright (c) 2015 Kenji Arai / JH1PJL |
| kenjiArai | 0:927110422689 | 7 | * http://www.page.sannet.ne.jp/kenjia/index.html |
| kenjiArai | 0:927110422689 | 8 | * http://mbed.org/users/kenjiArai/ |
| kenjiArai | 0:927110422689 | 9 | * Created: Feburary 9th, 2015 |
| kenjiArai | 0:927110422689 | 10 | * Revised: Feburary 22nd, 2015 |
| kenjiArai | 0:927110422689 | 11 | * |
| kenjiArai | 0:927110422689 | 12 | * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, |
| kenjiArai | 0:927110422689 | 13 | * INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE |
| kenjiArai | 0:927110422689 | 14 | * AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, |
| kenjiArai | 0:927110422689 | 15 | * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, |
| kenjiArai | 0:927110422689 | 16 | * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. |
| kenjiArai | 0:927110422689 | 17 | */ |
| kenjiArai | 0:927110422689 | 18 | |
| kenjiArai | 0:927110422689 | 19 | #include "HDC1000.h" |
| kenjiArai | 0:927110422689 | 20 | |
| kenjiArai | 0:927110422689 | 21 | HDC1000::HDC1000 (PinName p_sda, PinName p_scl) : _i2c(p_sda, p_scl) |
| kenjiArai | 0:927110422689 | 22 | { |
| kenjiArai | 0:927110422689 | 23 | HDC1000_addr = HDC1000ADDR; |
| kenjiArai | 0:927110422689 | 24 | init(); |
| kenjiArai | 0:927110422689 | 25 | } |
| kenjiArai | 0:927110422689 | 26 | |
| kenjiArai | 0:927110422689 | 27 | HDC1000::HDC1000 (PinName p_sda, PinName p_scl, uint8_t addr) : _i2c(p_sda, p_scl) |
| kenjiArai | 0:927110422689 | 28 | { |
| kenjiArai | 0:927110422689 | 29 | HDC1000_addr = addr; |
| kenjiArai | 0:927110422689 | 30 | init(); |
| kenjiArai | 0:927110422689 | 31 | } |
| kenjiArai | 0:927110422689 | 32 | |
| kenjiArai | 0:927110422689 | 33 | HDC1000::HDC1000 (I2C& p_i2c) : _i2c(p_i2c) |
| kenjiArai | 0:927110422689 | 34 | { |
| kenjiArai | 0:927110422689 | 35 | HDC1000_addr = HDC1000ADDR; |
| kenjiArai | 0:927110422689 | 36 | init(); |
| kenjiArai | 0:927110422689 | 37 | } |
| kenjiArai | 0:927110422689 | 38 | |
| kenjiArai | 0:927110422689 | 39 | HDC1000::HDC1000 (I2C& p_i2c, uint8_t addr) : _i2c(p_i2c) |
| kenjiArai | 0:927110422689 | 40 | { |
| kenjiArai | 0:927110422689 | 41 | HDC1000_addr = addr; |
| kenjiArai | 0:927110422689 | 42 | init(); |
| kenjiArai | 0:927110422689 | 43 | } |
| kenjiArai | 0:927110422689 | 44 | |
| kenjiArai | 0:927110422689 | 45 | /////////////// Start conv. and gwt all data ////////////// |
| kenjiArai | 0:927110422689 | 46 | void HDC1000::get() |
| kenjiArai | 0:927110422689 | 47 | { |
| kenjiArai | 0:927110422689 | 48 | |
| kenjiArai | 0:927110422689 | 49 | dt[0] = HDC1000_REG_TEMP; |
| kenjiArai | 0:927110422689 | 50 | _i2c.write((int)HDC1000_addr, (char *)dt, 1, true); |
| kenjiArai | 0:927110422689 | 51 | wait_ms(15); |
| kenjiArai | 0:927110422689 | 52 | _i2c.read((int)HDC1000_addr, (char *)dt, 4, false); |
| kenjiArai | 0:927110422689 | 53 | temp = dt[0] << 8 | dt[1]; |
| kenjiArai | 0:927110422689 | 54 | humi = dt[2] << 8 | dt[3]; |
| kenjiArai | 0:927110422689 | 55 | } |
| kenjiArai | 0:927110422689 | 56 | |
| kenjiArai | 0:927110422689 | 57 | /////////////// Read data from sensor ///////////////////// |
| kenjiArai | 0:927110422689 | 58 | float HDC1000::temperature() |
| kenjiArai | 0:927110422689 | 59 | { |
| kenjiArai | 0:927110422689 | 60 | return (float)temp * 165 / 65536 - 40; |
| kenjiArai | 0:927110422689 | 61 | } |
| kenjiArai | 0:927110422689 | 62 | |
| kenjiArai | 0:927110422689 | 63 | /////////////// Read data from sensor ///////////////////// |
| kenjiArai | 0:927110422689 | 64 | float HDC1000::humidity() |
| kenjiArai | 0:927110422689 | 65 | { |
| kenjiArai | 0:927110422689 | 66 | return (float)humi * 100 / 65536; |
| kenjiArai | 0:927110422689 | 67 | } |
| kenjiArai | 0:927110422689 | 68 | |
| kenjiArai | 0:927110422689 | 69 | /////////////// Initialize //////////////////////////////// |
| kenjiArai | 0:927110422689 | 70 | void HDC1000::init() |
| kenjiArai | 0:927110422689 | 71 | { |
| kenjiArai | 0:927110422689 | 72 | _i2c.frequency(100000); |
| kenjiArai | 0:927110422689 | 73 | get_IDs(); |
| kenjiArai | 0:927110422689 | 74 | set_config(BOTH_T_14_H_14); |
| kenjiArai | 0:927110422689 | 75 | } |
| kenjiArai | 0:927110422689 | 76 | |
| kenjiArai | 0:927110422689 | 77 | /////////////// ID //////////////////////////////////////// |
| kenjiArai | 0:927110422689 | 78 | uint16_t HDC1000::read_M_ID() |
| kenjiArai | 0:927110422689 | 79 | { |
| kenjiArai | 0:927110422689 | 80 | return manufacturer_id_number; |
| kenjiArai | 0:927110422689 | 81 | } |
| kenjiArai | 0:927110422689 | 82 | |
| kenjiArai | 0:927110422689 | 83 | uint16_t HDC1000::read_D_ID() |
| kenjiArai | 0:927110422689 | 84 | { |
| kenjiArai | 0:927110422689 | 85 | return device_id_number; |
| kenjiArai | 0:927110422689 | 86 | } |
| kenjiArai | 0:927110422689 | 87 | |
| kenjiArai | 0:927110422689 | 88 | uint8_t HDC1000::who_am_i() |
| kenjiArai | 0:927110422689 | 89 | { |
| kenjiArai | 0:927110422689 | 90 | if (device_id_number == I_AM_HDC1000) { |
| kenjiArai | 0:927110422689 | 91 | return 1; |
| kenjiArai | 0:927110422689 | 92 | } else { |
| kenjiArai | 0:927110422689 | 93 | return 0; |
| kenjiArai | 0:927110422689 | 94 | } |
| kenjiArai | 0:927110422689 | 95 | } |
| kenjiArai | 0:927110422689 | 96 | |
| kenjiArai | 0:927110422689 | 97 | /////////////// Configration ////////////////////////////// |
| kenjiArai | 0:927110422689 | 98 | uint16_t HDC1000::set_config(uint16_t cfg) |
| kenjiArai | 0:927110422689 | 99 | { |
| kenjiArai | 0:927110422689 | 100 | dt[0] = HDC1000_REG_CONFIG; |
| kenjiArai | 0:927110422689 | 101 | dt[1] = (uint8_t)(cfg >> 8); |
| kenjiArai | 0:927110422689 | 102 | dt[2] = (uint8_t)(cfg & 0xff); |
| kenjiArai | 0:927110422689 | 103 | _i2c.write((int)HDC1000_addr, (char *)dt, 3, false); |
| kenjiArai | 0:927110422689 | 104 | return read_config(); |
| kenjiArai | 0:927110422689 | 105 | } |
| kenjiArai | 0:927110422689 | 106 | |
| kenjiArai | 0:927110422689 | 107 | uint16_t HDC1000::read_config(void) |
| kenjiArai | 0:927110422689 | 108 | { |
| kenjiArai | 0:927110422689 | 109 | dt[0] = HDC1000_REG_CONFIG; |
| kenjiArai | 0:927110422689 | 110 | _i2c.write((int)HDC1000_addr, (char *)dt, 1, true); |
| kenjiArai | 0:927110422689 | 111 | _i2c.read(HDC1000_addr, (char *)dt, 2, false); |
| kenjiArai | 0:927110422689 | 112 | return (uint16_t)(dt[0] << 8 | dt[1]); |
| kenjiArai | 0:927110422689 | 113 | } |
| kenjiArai | 0:927110422689 | 114 | |
| kenjiArai | 0:927110422689 | 115 | /////////////// I2C Freq. ///////////////////////////////// |
| kenjiArai | 0:927110422689 | 116 | void HDC1000::frequency(int hz) |
| kenjiArai | 0:927110422689 | 117 | { |
| kenjiArai | 0:927110422689 | 118 | _i2c.frequency(hz); |
| kenjiArai | 0:927110422689 | 119 | } |
| kenjiArai | 0:927110422689 | 120 | |
| kenjiArai | 0:927110422689 | 121 | /////////////// Read ID /////////////////////////////////// |
| kenjiArai | 0:927110422689 | 122 | void HDC1000::get_IDs() |
| kenjiArai | 0:927110422689 | 123 | { |
| kenjiArai | 0:927110422689 | 124 | // Manufacturer ID |
| kenjiArai | 0:927110422689 | 125 | dt[0] = HDC1000_REG_M_ID; |
| kenjiArai | 0:927110422689 | 126 | _i2c.write((int)HDC1000_addr, (char *)dt, 1, true); |
| kenjiArai | 0:927110422689 | 127 | _i2c.read(HDC1000_addr, (char *)dt, 2, false); |
| kenjiArai | 0:927110422689 | 128 | manufacturer_id_number = dt[0] << 8 | dt[1]; |
| kenjiArai | 0:927110422689 | 129 | // Device ID |
| kenjiArai | 0:927110422689 | 130 | dt[0] = HDC1000_REG_D_ID; |
| kenjiArai | 0:927110422689 | 131 | _i2c.write((int)HDC1000_addr, (char *)dt, 1, true); |
| kenjiArai | 0:927110422689 | 132 | _i2c.read(HDC1000_addr, (char *)dt, 2, false); |
| kenjiArai | 0:927110422689 | 133 | device_id_number = dt[0] << 8 | dt[1]; |
| kenjiArai | 0:927110422689 | 134 | } |