SunTracker_BLE
Dependencies: BLE_API X_NUCLEO_6180XA1 X_NUCLEO_IDB0XA1 X_NUCLEO_IHM01A1 X_NUCLEO_IKS01A1 mbed
Fork of SunTracker_BLE by
Overview
The SunTracker is a demo application running on ST Nucleo-F401RE stacking a set of ST X-NUCLEO expansion boards.
Main features provided are:
- A solar panel follows the light source, orienting the panel in order to achieve the best panel efficiency.
- Orientation is controlled thanks to a couple of VL6180X FlightSense light sensors mounted on a X-NUCLEO-6180XA1 expansion board and driven by X-NUCLEO-IHM01A1 controlled stepper motor acting as actuator to orientate the panel.
- The system features a progressive control on the stepper motor in order to modulate the panel rotation speed according to the light angle.
- The application is also able to control the panel productivity reading the panel voltage through an ADC and proving feedback on the local display.
- A manual orientation is possible by using the accelerometer on a X-NUCLEO-IKS01A1 expansion board that, according on board tilt, controls the speed and the rotate direction.
- A remote control is available using a X-NUCLEO-IDB04A1 or a X-NUCLEO-IDB05A1 Bluetooth Low Energy expansion board. Remote control software is here.
Working Status
- SunTracker has 3 working status visible on FlightSense display and switchable by pressing the User Button:
Status 0 (Idle)
- Motor: Free Turning
- Display: Waiting for User Button
Status 1
- Motor: Driven by Light
- Display: Direction and Light Intensity = Direction and Motor Speed
Status 2
- Motor: Driven by Light
- Display: Solar Panel Efficiency
Status 3
- Motor: Driven by Accelerometer
- Display: Direction and Accelerometer Intensity
Server Startup
- When you plug the power supply, the word ‘PUSH’ is shown on display.
- You can manually rotate the structure to assign the ‘Zero Point’. Then press the User Button to launch the application.
- The display will show this status, which means that the structureis oriented to maximize the efficiency of the solar panel.
- If there is a light displacement, the structure will rotate, left or right,to follow the light source and on display is shown the direction and the speed.
- You can press the User Button to show the panel efficiencywith 4 digits that represent the range from 0v (0000) to 3,3v (3300).
- Further pressing the User Button you will manual rotate the panel by tilt the Server or Client accelerometer depending by BLE connection.
Client Startup
- The Client application can remotely control the User Button and the Accelerometer functions.
- Power on the Client AFTER the Server, it will automatically search for the SunTracker and will establish a BLE connection.
- The Green Led on Nucleo Client board will be powered on.
Rotation Features
- It has been implemented a block of rotation to avoid cables twist.
- The blocking point can be set in the firmware by changing a constant.
- You can manually rotate the structure to assign the ‘Zero Point’ before press the User Button to launch the application.
- The system features a progressive control on the stepper motor in order to modulate the rotation speed according to the light or accelerometer angle.
List of Components
SERVER SunTracker_BLE
- Nucleo-F401RE platform using a STM32F401RET6 microcontroller.
- X-NUCLEO-IHM01A1 - Stepper motor driver board based on the EasySPIN L6474.
- X-NUCLEO-6180XA1 - 3-in-1 proximity and ambient light sensor board based on ST FlightSense technology.
- VL6180X-SATEL - Satellite boards compatible with X-NUCLEO-6180XA1 board.
- X-NUCLEO-IKS01A1 - Motion MEMS and environmental sensor board.
- X-NUCLEO-IDB04A1 or X-NUCLEO-IDB05A1 - Bluetooth Low Energy Bluetooth low energy evaluation board.
- Stepper Motor 400’’ (Part Number 5350401) - To orientate the Mechanical Structure.
- Solar Panel 0.446w (Part Number 0194127) - To capture sunlight and generate electrical current.
- Power Supply 12v (Part Number 7262993) - To provide power supply at the Stepper Motor.
- Flat Cable 6 ways (Part Number 1807010) - To plug VL6180X-SATEL with X-NUCLEO-6180XA1 (60cm length each x2).
- Cable Connector (Part Number 6737694) - To plug the Flat Cable (x4).
- Power Connector (Part Number 0487842) - To provide Power Supply to X-NUCLEO-IHM01A1.
CLIENT SunTracker_BLE_Remote
- Nucleo-F401RE platform using a STM32F401RET6 microcontroller.
- X-NUCLEO-IKS01A1 - Motion MEMS and environmental sensor board.
- X-NUCLEO-IDB04A1 or X-NUCLEO-IDB05A1- Bluetooth Low Energy Bluetooth low energy evaluation board.
MECHANICAL STRUCTURE
Find here the STL files to print with a 3D printer.
FLAT CABLE ASSEMBLY
HARDWARE SETUP
Nucleo ADC + Solar Panel
Connect Solar Panel cables to Nucleo Morpho PC_3 (white) and Nucleo Morpho GND (black). Connect a capacitor 10uF between PC_3 and GND to stabilize its voltage value shown on display.
EasySpin (L6474) + BLE
Hardware conflict between EasySpin DIR1 and BLE Reset, both on same Arduino Pin PA_8. Disconnect PA_8 between EasySpin and Nucleo by fold EasySpin Pin. PB_2 has been configured as EasySpin DIR1 in the firmware .Connect Nucleo Morpho PB_2 to FlightSense Arduino PA_8 by a wire.
FlightSense Satellites
In case of instability with I2C due to long flat cables, solder 4 SMD capacitors 47pF on FlightSense board in parallel between R15, R16, R17, R18 and plug 2 capacitors 15pF between FlightSense Arduino PB_8 and PB_9 to GND pin to cut-off noises over 720 KHz.
Arduino & Morpho Pinout
CustomSunTrackerService.h@4:1d3d071a4c2c, 2016-01-26 (annotated)
- Committer:
- fabiombed
- Date:
- Tue Jan 26 13:29:53 2016 +0000
- Revision:
- 4:1d3d071a4c2c
fixed compile error and all libraries updated at last release
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
fabiombed | 4:1d3d071a4c2c | 1 | /****************************************************************************** |
fabiombed | 4:1d3d071a4c2c | 2 | * @file CustomSunTrackerService.h |
fabiombed | 4:1d3d071a4c2c | 3 | * @author Fabio Brembilla |
fabiombed | 4:1d3d071a4c2c | 4 | * @version V1.0.0 |
fabiombed | 4:1d3d071a4c2c | 5 | * @date January 22th, 2016 |
fabiombed | 4:1d3d071a4c2c | 6 | * @brief SunTracker Custom Service for BlueTooth (IDB0XA1 expansion board) |
fabiombed | 4:1d3d071a4c2c | 7 | ****************************************************************************** |
fabiombed | 4:1d3d071a4c2c | 8 | |
fabiombed | 4:1d3d071a4c2c | 9 | * mbed Microcontroller Library |
fabiombed | 4:1d3d071a4c2c | 10 | * Copyright (c) 2006-2013 ARM Limited |
fabiombed | 4:1d3d071a4c2c | 11 | * |
fabiombed | 4:1d3d071a4c2c | 12 | * Licensed under the Apache License, Version 2.0 (the "License"); |
fabiombed | 4:1d3d071a4c2c | 13 | * you may not use this file except in compliance with the License. |
fabiombed | 4:1d3d071a4c2c | 14 | * You may obtain a copy of the License at |
fabiombed | 4:1d3d071a4c2c | 15 | * |
fabiombed | 4:1d3d071a4c2c | 16 | * http://www.apache.org/licenses/LICENSE-2.0 |
fabiombed | 4:1d3d071a4c2c | 17 | * |
fabiombed | 4:1d3d071a4c2c | 18 | * Unless required by applicable law or agreed to in writing, software |
fabiombed | 4:1d3d071a4c2c | 19 | * distributed under the License is distributed on an "AS IS" BASIS, |
fabiombed | 4:1d3d071a4c2c | 20 | * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
fabiombed | 4:1d3d071a4c2c | 21 | * See the License for the specific language governing permissions and |
fabiombed | 4:1d3d071a4c2c | 22 | * limitations under the License. |
fabiombed | 4:1d3d071a4c2c | 23 | */ |
fabiombed | 4:1d3d071a4c2c | 24 | |
fabiombed | 4:1d3d071a4c2c | 25 | #ifndef __CUSTOM_BLE_SENSORS_SERVICE_H__ |
fabiombed | 4:1d3d071a4c2c | 26 | #define __CUSTOM_BLE_SENSORS_SERVICE_H__ |
fabiombed | 4:1d3d071a4c2c | 27 | |
fabiombed | 4:1d3d071a4c2c | 28 | #include "BLE.h" |
fabiombed | 4:1d3d071a4c2c | 29 | #include "debug.h" // Need for PRINTF |
fabiombed | 4:1d3d071a4c2c | 30 | #include "Utils.h" // Need for STORE_LE_16 and _32 |
fabiombed | 4:1d3d071a4c2c | 31 | |
fabiombed | 4:1d3d071a4c2c | 32 | typedef struct { |
fabiombed | 4:1d3d071a4c2c | 33 | int32_t AXIS_X; |
fabiombed | 4:1d3d071a4c2c | 34 | int32_t AXIS_Y; |
fabiombed | 4:1d3d071a4c2c | 35 | int32_t AXIS_Z; |
fabiombed | 4:1d3d071a4c2c | 36 | } AxesRaw_TypeDef; |
fabiombed | 4:1d3d071a4c2c | 37 | |
fabiombed | 4:1d3d071a4c2c | 38 | typedef enum ConnectionStatus_t { |
fabiombed | 4:1d3d071a4c2c | 39 | DISCONNECTED =0, |
fabiombed | 4:1d3d071a4c2c | 40 | CONNECTED =1 |
fabiombed | 4:1d3d071a4c2c | 41 | }cns_t; |
fabiombed | 4:1d3d071a4c2c | 42 | |
fabiombed | 4:1d3d071a4c2c | 43 | const unsigned LENGTH_OF_LONG_UUID = 16; |
fabiombed | 4:1d3d071a4c2c | 44 | typedef uint16_t ShortUUIDBytes_t; |
fabiombed | 4:1d3d071a4c2c | 45 | typedef uint8_t LongUUIDBytes_t[LENGTH_OF_LONG_UUID]; |
fabiombed | 4:1d3d071a4c2c | 46 | |
fabiombed | 4:1d3d071a4c2c | 47 | |
fabiombed | 4:1d3d071a4c2c | 48 | const LongUUIDBytes_t SENS_SERVICE_UUID_128 = { 0x1b,0xc5,0xa5,0xd5,0x02,0x00,0xb4,0x9a,0xe1,0x11,0x01,0x00,0x00,0x00,0x00,0x00}; // temp, pressure, humidity, |
fabiombed | 4:1d3d071a4c2c | 49 | |
fabiombed | 4:1d3d071a4c2c | 50 | const LongUUIDBytes_t SENS_TEMP_CHAR_UUID_128 = { 0x1b,0xc5,0xa5,0xd5,0x02,0x00,0x36,0xac,0xe1,0x11,0x01,0x00,0x00,0x00,0x04,0x00}; |
fabiombed | 4:1d3d071a4c2c | 51 | const LongUUIDBytes_t SENS_HUMI_CHAR_UUID_128 = { 0x1b,0xc5,0xa5,0xd5,0x02,0x00,0x36,0xac,0xe1,0x11,0x01,0x00,0x00,0x00,0x08,0x00}; |
fabiombed | 4:1d3d071a4c2c | 52 | const LongUUIDBytes_t SENS_PRES_CHAR_UUID_128 = { 0x1b,0xc5,0xa5,0xd5,0x02,0x00,0x36,0xac,0xe1,0x11,0x01,0x00,0x00,0x00,0x10,0x00}; |
fabiombed | 4:1d3d071a4c2c | 53 | const LongUUIDBytes_t SENS_MAGN_CHAR_UUID_128 = { 0x1b,0xc5,0xa5,0xd5,0x02,0x00,0x36,0xac,0xe1,0x11,0x01,0x00,0x00,0x00,0x20,0x00}; |
fabiombed | 4:1d3d071a4c2c | 54 | const LongUUIDBytes_t SENS_GYRO_CHAR_UUID_128 = { 0x1b,0xc5,0xa5,0xd5,0x02,0x00,0x36,0xac,0xe1,0x11,0x01,0x00,0x00,0x00,0x40,0x00}; |
fabiombed | 4:1d3d071a4c2c | 55 | const LongUUIDBytes_t SENS_ACCE_CHAR_UUID_128 = { 0x1b,0xc5,0xa5,0xd5,0x02,0x00,0x36,0xac,0xe1,0x11,0x01,0x00,0x00,0x00,0x80,0x00}; |
fabiombed | 4:1d3d071a4c2c | 56 | const LongUUIDBytes_t SENS_ACC_GYRO_MAG_CHAR_UUID_128 = { 0x1b,0xc5,0xa5,0xd5,0x02,0x00,0x36,0xac,0xe1,0x11,0x01,0x00,0x00,0x00,0xE0,0x00}; |
fabiombed | 4:1d3d071a4c2c | 57 | |
fabiombed | 4:1d3d071a4c2c | 58 | |
fabiombed | 4:1d3d071a4c2c | 59 | #define TEMP_DATA_LEN 2+2 |
fabiombed | 4:1d3d071a4c2c | 60 | #define HUM_DATA_LEN 2+2 |
fabiombed | 4:1d3d071a4c2c | 61 | #define PRES_DATA_LEN 2+4 |
fabiombed | 4:1d3d071a4c2c | 62 | #define ACC_DATA_LEN 6+2 |
fabiombed | 4:1d3d071a4c2c | 63 | #define MAG_DATA_LEN 6+2 |
fabiombed | 4:1d3d071a4c2c | 64 | #define GYRO_DATA_LEN 6+2 |
fabiombed | 4:1d3d071a4c2c | 65 | #define ACCGYROMAG_DATA_LEN 2+3*3*2 |
fabiombed | 4:1d3d071a4c2c | 66 | |
fabiombed | 4:1d3d071a4c2c | 67 | |
fabiombed | 4:1d3d071a4c2c | 68 | /* Custom Sensors Service */ |
fabiombed | 4:1d3d071a4c2c | 69 | class CustomSensorService { |
fabiombed | 4:1d3d071a4c2c | 70 | public: |
fabiombed | 4:1d3d071a4c2c | 71 | CustomSensorService(BLEDevice &_ble) : |
fabiombed | 4:1d3d071a4c2c | 72 | ble(_ble), |
fabiombed | 4:1d3d071a4c2c | 73 | envTemperatureCharacteristic(SENS_TEMP_CHAR_UUID_128,envTemperature, TEMP_DATA_LEN, TEMP_DATA_LEN, |
fabiombed | 4:1d3d071a4c2c | 74 | GattCharacteristic::BLE_GATT_CHAR_PROPERTIES_READ | GattCharacteristic::BLE_GATT_CHAR_PROPERTIES_NOTIFY), |
fabiombed | 4:1d3d071a4c2c | 75 | envHumidityCharacteristic(SENS_HUMI_CHAR_UUID_128, envHumidity, HUM_DATA_LEN, HUM_DATA_LEN, |
fabiombed | 4:1d3d071a4c2c | 76 | GattCharacteristic::BLE_GATT_CHAR_PROPERTIES_READ | GattCharacteristic::BLE_GATT_CHAR_PROPERTIES_NOTIFY), |
fabiombed | 4:1d3d071a4c2c | 77 | envPressureCharacteristic(SENS_PRES_CHAR_UUID_128, envPressure, PRES_DATA_LEN, PRES_DATA_LEN, |
fabiombed | 4:1d3d071a4c2c | 78 | GattCharacteristic::BLE_GATT_CHAR_PROPERTIES_READ | GattCharacteristic::BLE_GATT_CHAR_PROPERTIES_NOTIFY), |
fabiombed | 4:1d3d071a4c2c | 79 | envMagnetometerCharacteristic(SENS_MAGN_CHAR_UUID_128,envMagn, MAG_DATA_LEN, MAG_DATA_LEN, |
fabiombed | 4:1d3d071a4c2c | 80 | GattCharacteristic::BLE_GATT_CHAR_PROPERTIES_READ | GattCharacteristic::BLE_GATT_CHAR_PROPERTIES_NOTIFY), |
fabiombed | 4:1d3d071a4c2c | 81 | envAccelerometerCharacteristic(SENS_ACCE_CHAR_UUID_128,envAcce, ACC_DATA_LEN, ACC_DATA_LEN, |
fabiombed | 4:1d3d071a4c2c | 82 | GattCharacteristic::BLE_GATT_CHAR_PROPERTIES_READ | GattCharacteristic::BLE_GATT_CHAR_PROPERTIES_NOTIFY), |
fabiombed | 4:1d3d071a4c2c | 83 | envGyroCharacteristic(SENS_GYRO_CHAR_UUID_128,envGyro, GYRO_DATA_LEN, GYRO_DATA_LEN, |
fabiombed | 4:1d3d071a4c2c | 84 | GattCharacteristic::BLE_GATT_CHAR_PROPERTIES_READ | GattCharacteristic::BLE_GATT_CHAR_PROPERTIES_NOTIFY), |
fabiombed | 4:1d3d071a4c2c | 85 | envAccGyroMagCharacteristic(SENS_ACC_GYRO_MAG_CHAR_UUID_128,envAccGyroMag, ACCGYROMAG_DATA_LEN, ACCGYROMAG_DATA_LEN, |
fabiombed | 4:1d3d071a4c2c | 86 | GattCharacteristic::BLE_GATT_CHAR_PROPERTIES_READ | GattCharacteristic::BLE_GATT_CHAR_PROPERTIES_NOTIFY) |
fabiombed | 4:1d3d071a4c2c | 87 | { |
fabiombed | 4:1d3d071a4c2c | 88 | |
fabiombed | 4:1d3d071a4c2c | 89 | |
fabiombed | 4:1d3d071a4c2c | 90 | |
fabiombed | 4:1d3d071a4c2c | 91 | static bool serviceAdded = false; /* We should only ever need to add the env service once. */ |
fabiombed | 4:1d3d071a4c2c | 92 | if (serviceAdded) { |
fabiombed | 4:1d3d071a4c2c | 93 | return; |
fabiombed | 4:1d3d071a4c2c | 94 | } |
fabiombed | 4:1d3d071a4c2c | 95 | |
fabiombed | 4:1d3d071a4c2c | 96 | GattCharacteristic *charTable[] = {&envTemperatureCharacteristic, &envHumidityCharacteristic, &envPressureCharacteristic, &envMagnetometerCharacteristic, |
fabiombed | 4:1d3d071a4c2c | 97 | &envAccelerometerCharacteristic, &envGyroCharacteristic, &envAccGyroMagCharacteristic}; |
fabiombed | 4:1d3d071a4c2c | 98 | |
fabiombed | 4:1d3d071a4c2c | 99 | GattService envService(SENS_SERVICE_UUID_128, charTable, sizeof(charTable) / sizeof(GattCharacteristic *)); |
fabiombed | 4:1d3d071a4c2c | 100 | |
fabiombed | 4:1d3d071a4c2c | 101 | ble.gattServer().addService(envService); |
fabiombed | 4:1d3d071a4c2c | 102 | |
fabiombed | 4:1d3d071a4c2c | 103 | isEnabledTempNotify = false; |
fabiombed | 4:1d3d071a4c2c | 104 | isEnabledHumNotify = false; |
fabiombed | 4:1d3d071a4c2c | 105 | isEnabledPresNotify = false; |
fabiombed | 4:1d3d071a4c2c | 106 | isEnabledGyroNotify = false; |
fabiombed | 4:1d3d071a4c2c | 107 | isEnabledAccNotify = false; |
fabiombed | 4:1d3d071a4c2c | 108 | isEnabledMagNotify = false; |
fabiombed | 4:1d3d071a4c2c | 109 | isEnabledAccGyroMagNotify = false; |
fabiombed | 4:1d3d071a4c2c | 110 | |
fabiombed | 4:1d3d071a4c2c | 111 | isTempCalibrated = false; |
fabiombed | 4:1d3d071a4c2c | 112 | isHumCalibrated = false; |
fabiombed | 4:1d3d071a4c2c | 113 | isPresCalibrated = false; |
fabiombed | 4:1d3d071a4c2c | 114 | isMagCalibrated = false; |
fabiombed | 4:1d3d071a4c2c | 115 | isAccCalibrated = false; |
fabiombed | 4:1d3d071a4c2c | 116 | isAGyroCalibrated = false; |
fabiombed | 4:1d3d071a4c2c | 117 | |
fabiombed | 4:1d3d071a4c2c | 118 | memset (pastenvTemperature, 0, TEMP_DATA_LEN); |
fabiombed | 4:1d3d071a4c2c | 119 | memset (pastenvHumidity, 0, HUM_DATA_LEN); |
fabiombed | 4:1d3d071a4c2c | 120 | memset (pastenvPressure, 0, PRES_DATA_LEN); |
fabiombed | 4:1d3d071a4c2c | 121 | |
fabiombed | 4:1d3d071a4c2c | 122 | isBTLEConnected = DISCONNECTED; |
fabiombed | 4:1d3d071a4c2c | 123 | serviceAdded = true; |
fabiombed | 4:1d3d071a4c2c | 124 | } |
fabiombed | 4:1d3d071a4c2c | 125 | |
fabiombed | 4:1d3d071a4c2c | 126 | void sendEnvTemperature (int16_t Temp, uint16_t TimeStamp) { |
fabiombed | 4:1d3d071a4c2c | 127 | STORE_LE_16(envTemperature,TimeStamp); |
fabiombed | 4:1d3d071a4c2c | 128 | STORE_LE_16(envTemperature+2,Temp); |
fabiombed | 4:1d3d071a4c2c | 129 | PRINTF("sendEnvTemperature!! handle: %d\n\r", envTemperatureCharacteristic.getValueAttribute().getHandle()); |
fabiombed | 4:1d3d071a4c2c | 130 | memcpy (pastenvTemperature, envTemperature, TEMP_DATA_LEN); |
fabiombed | 4:1d3d071a4c2c | 131 | ble.gattServer().write(envTemperatureCharacteristic.getValueAttribute().getHandle(), envTemperature, TEMP_DATA_LEN, 0); |
fabiombed | 4:1d3d071a4c2c | 132 | } |
fabiombed | 4:1d3d071a4c2c | 133 | |
fabiombed | 4:1d3d071a4c2c | 134 | /** |
fabiombed | 4:1d3d071a4c2c | 135 | * Update the temperature with a new value. Valid values range from |
fabiombed | 4:1d3d071a4c2c | 136 | * 0..100. Anything outside this range will be ignored. |
fabiombed | 4:1d3d071a4c2c | 137 | * @param newLevel New level. */ |
fabiombed | 4:1d3d071a4c2c | 138 | void updateEnvTemperature (int16_t Temp, uint16_t TimeStamp) { |
fabiombed | 4:1d3d071a4c2c | 139 | if (memcmp (&pastenvTemperature[2], &Temp, 2) != 0) { |
fabiombed | 4:1d3d071a4c2c | 140 | sendEnvTemperature (Temp, TimeStamp); |
fabiombed | 4:1d3d071a4c2c | 141 | } |
fabiombed | 4:1d3d071a4c2c | 142 | } |
fabiombed | 4:1d3d071a4c2c | 143 | |
fabiombed | 4:1d3d071a4c2c | 144 | void sendEnvHumidity(uint16_t Hum, uint16_t TimeStamp) { |
fabiombed | 4:1d3d071a4c2c | 145 | STORE_LE_16(envHumidity,TimeStamp); |
fabiombed | 4:1d3d071a4c2c | 146 | STORE_LE_16(envHumidity+2,Hum); |
fabiombed | 4:1d3d071a4c2c | 147 | memcpy (pastenvHumidity, envHumidity, HUM_DATA_LEN); |
fabiombed | 4:1d3d071a4c2c | 148 | ble.gattServer().write(envHumidityCharacteristic.getValueAttribute().getHandle(), envHumidity, HUM_DATA_LEN, 0); |
fabiombed | 4:1d3d071a4c2c | 149 | |
fabiombed | 4:1d3d071a4c2c | 150 | } |
fabiombed | 4:1d3d071a4c2c | 151 | |
fabiombed | 4:1d3d071a4c2c | 152 | void updateEnvHumidity(uint16_t Hum, uint16_t TimeStamp) { |
fabiombed | 4:1d3d071a4c2c | 153 | if (memcmp (&pastenvHumidity[2], &Hum, 2) != 0) { |
fabiombed | 4:1d3d071a4c2c | 154 | sendEnvHumidity(Hum, TimeStamp); |
fabiombed | 4:1d3d071a4c2c | 155 | } |
fabiombed | 4:1d3d071a4c2c | 156 | } |
fabiombed | 4:1d3d071a4c2c | 157 | |
fabiombed | 4:1d3d071a4c2c | 158 | void sendEnvPressure(uint32_t Press, uint16_t TimeStamp) { |
fabiombed | 4:1d3d071a4c2c | 159 | STORE_LE_16(envPressure,TimeStamp); |
fabiombed | 4:1d3d071a4c2c | 160 | STORE_LE_32(envPressure+2,Press); |
fabiombed | 4:1d3d071a4c2c | 161 | memcpy (pastenvPressure, envPressure, PRES_DATA_LEN); |
fabiombed | 4:1d3d071a4c2c | 162 | ble.gattServer().write(envPressureCharacteristic.getValueAttribute().getHandle(), envPressure, PRES_DATA_LEN, 0); |
fabiombed | 4:1d3d071a4c2c | 163 | } |
fabiombed | 4:1d3d071a4c2c | 164 | |
fabiombed | 4:1d3d071a4c2c | 165 | void updateEnvPressure(uint32_t Press, uint16_t TimeStamp) { |
fabiombed | 4:1d3d071a4c2c | 166 | if (memcmp (&pastenvPressure[2], &Press, 2) != 0) { |
fabiombed | 4:1d3d071a4c2c | 167 | sendEnvPressure(Press, TimeStamp); |
fabiombed | 4:1d3d071a4c2c | 168 | } |
fabiombed | 4:1d3d071a4c2c | 169 | } |
fabiombed | 4:1d3d071a4c2c | 170 | |
fabiombed | 4:1d3d071a4c2c | 171 | void sendEnvMagnetometer(AxesRaw_TypeDef *Magn, uint16_t TimeStamp, osxMFX_calibFactor magOffset) { |
fabiombed | 4:1d3d071a4c2c | 172 | STORE_LE_16(envMagn,TimeStamp); |
fabiombed | 4:1d3d071a4c2c | 173 | STORE_LE_16(envMagn+2,(Magn->AXIS_X - magOffset.magOffX)); |
fabiombed | 4:1d3d071a4c2c | 174 | STORE_LE_16(envMagn+4,(Magn->AXIS_Y - magOffset.magOffY)); |
fabiombed | 4:1d3d071a4c2c | 175 | STORE_LE_16(envMagn+6,(Magn->AXIS_Z - magOffset.magOffZ)); |
fabiombed | 4:1d3d071a4c2c | 176 | ble.gattServer().write(envMagnetometerCharacteristic.getValueAttribute().getHandle(), envMagn, MAG_DATA_LEN, 0); |
fabiombed | 4:1d3d071a4c2c | 177 | } |
fabiombed | 4:1d3d071a4c2c | 178 | |
fabiombed | 4:1d3d071a4c2c | 179 | void updateEnvMagnetometer(AxesRaw_TypeDef *Magn, uint16_t TimeStamp, osxMFX_calibFactor magOffset) { |
fabiombed | 4:1d3d071a4c2c | 180 | if (isMagNotificationEn()) sendEnvMagnetometer(Magn, TimeStamp, magOffset); |
fabiombed | 4:1d3d071a4c2c | 181 | } |
fabiombed | 4:1d3d071a4c2c | 182 | |
fabiombed | 4:1d3d071a4c2c | 183 | void sendEnvAccelerometer (AxesRaw_TypeDef *Acc, uint16_t TimeStamp) { |
fabiombed | 4:1d3d071a4c2c | 184 | STORE_LE_16(envAcce,TimeStamp); |
fabiombed | 4:1d3d071a4c2c | 185 | STORE_LE_16(envAcce+2,Acc->AXIS_X); |
fabiombed | 4:1d3d071a4c2c | 186 | STORE_LE_16(envAcce+4,Acc->AXIS_Y); |
fabiombed | 4:1d3d071a4c2c | 187 | STORE_LE_16(envAcce+6,Acc->AXIS_Z); |
fabiombed | 4:1d3d071a4c2c | 188 | ble.gattServer().write(envAccelerometerCharacteristic.getValueAttribute().getHandle(), envAcce, ACC_DATA_LEN, 0); |
fabiombed | 4:1d3d071a4c2c | 189 | } |
fabiombed | 4:1d3d071a4c2c | 190 | |
fabiombed | 4:1d3d071a4c2c | 191 | void updateEnvAccelerometer (AxesRaw_TypeDef *Acc, uint16_t TimeStamp) { |
fabiombed | 4:1d3d071a4c2c | 192 | if (isAccNotificationEn()) sendEnvAccelerometer (Acc, TimeStamp); |
fabiombed | 4:1d3d071a4c2c | 193 | } |
fabiombed | 4:1d3d071a4c2c | 194 | |
fabiombed | 4:1d3d071a4c2c | 195 | void sendEnvGyroscope (AxesRaw_TypeDef *Gyro, uint16_t TimeStamp) { |
fabiombed | 4:1d3d071a4c2c | 196 | STORE_LE_16(envGyro,TimeStamp); |
fabiombed | 4:1d3d071a4c2c | 197 | STORE_LE_16(envGyro+2,Gyro->AXIS_X); |
fabiombed | 4:1d3d071a4c2c | 198 | STORE_LE_16(envGyro+4,Gyro->AXIS_Y); |
fabiombed | 4:1d3d071a4c2c | 199 | STORE_LE_16(envGyro+6,Gyro->AXIS_Z); |
fabiombed | 4:1d3d071a4c2c | 200 | ble.gattServer().write(envGyroCharacteristic.getValueAttribute().getHandle(), envGyro, GYRO_DATA_LEN, 0); |
fabiombed | 4:1d3d071a4c2c | 201 | } |
fabiombed | 4:1d3d071a4c2c | 202 | |
fabiombed | 4:1d3d071a4c2c | 203 | void updateEnvGyroscope (AxesRaw_TypeDef *Gyro, uint16_t TimeStamp) { |
fabiombed | 4:1d3d071a4c2c | 204 | if (isGyroNotificationEn()) sendEnvGyroscope (Gyro, TimeStamp); |
fabiombed | 4:1d3d071a4c2c | 205 | } |
fabiombed | 4:1d3d071a4c2c | 206 | |
fabiombed | 4:1d3d071a4c2c | 207 | void sendEnvAccGyroMag (AxesRaw_TypeDef *Acc, AxesRaw_TypeDef *Gyro, AxesRaw_TypeDef *Magn, uint16_t TimeStamp, osxMFX_calibFactor magOffset) { |
fabiombed | 4:1d3d071a4c2c | 208 | STORE_LE_16(envAccGyroMag,TimeStamp); |
fabiombed | 4:1d3d071a4c2c | 209 | STORE_LE_16(envAccGyroMag+2,Acc->AXIS_X); |
fabiombed | 4:1d3d071a4c2c | 210 | STORE_LE_16(envAccGyroMag+4,Acc->AXIS_Y); |
fabiombed | 4:1d3d071a4c2c | 211 | STORE_LE_16(envAccGyroMag+6,Acc->AXIS_Z); |
fabiombed | 4:1d3d071a4c2c | 212 | |
fabiombed | 4:1d3d071a4c2c | 213 | STORE_LE_16(envAccGyroMag+8,Gyro->AXIS_X); |
fabiombed | 4:1d3d071a4c2c | 214 | STORE_LE_16(envAccGyroMag+10,Gyro->AXIS_Y); |
fabiombed | 4:1d3d071a4c2c | 215 | STORE_LE_16(envAccGyroMag+12,Gyro->AXIS_Z); |
fabiombed | 4:1d3d071a4c2c | 216 | |
fabiombed | 4:1d3d071a4c2c | 217 | STORE_LE_16(envAccGyroMag+14,(Magn->AXIS_X - magOffset.magOffX)); |
fabiombed | 4:1d3d071a4c2c | 218 | STORE_LE_16(envAccGyroMag+16,(Magn->AXIS_Y - magOffset.magOffY)); |
fabiombed | 4:1d3d071a4c2c | 219 | STORE_LE_16(envAccGyroMag+18,(Magn->AXIS_Z - magOffset.magOffZ)); |
fabiombed | 4:1d3d071a4c2c | 220 | ble.gattServer().write(envAccGyroMagCharacteristic.getValueAttribute().getHandle(), envAccGyroMag, ACCGYROMAG_DATA_LEN, 0); |
fabiombed | 4:1d3d071a4c2c | 221 | } |
fabiombed | 4:1d3d071a4c2c | 222 | |
fabiombed | 4:1d3d071a4c2c | 223 | void updateEnvAccGyroMag (AxesRaw_TypeDef *Acc, AxesRaw_TypeDef *Gyro, AxesRaw_TypeDef *Magn, uint16_t TimeStamp, osxMFX_calibFactor magOffset) { |
fabiombed | 4:1d3d071a4c2c | 224 | if (isAccGyroMagNotificationEn())sendEnvAccGyroMag (Acc, Gyro, Magn, TimeStamp, magOffset); |
fabiombed | 4:1d3d071a4c2c | 225 | } |
fabiombed | 4:1d3d071a4c2c | 226 | |
fabiombed | 4:1d3d071a4c2c | 227 | void enNotify (Gap::Handle_t handle) { |
fabiombed | 4:1d3d071a4c2c | 228 | if (isTempHandle(handle)) { isEnabledTempNotify = true; memset(pastenvTemperature,0,TEMP_DATA_LEN); return; } |
fabiombed | 4:1d3d071a4c2c | 229 | if (isHumHandle(handle)) { isEnabledHumNotify = true; memset(pastenvHumidity,0,HUM_DATA_LEN); return; } |
fabiombed | 4:1d3d071a4c2c | 230 | if (isPresHandle(handle)) { isEnabledPresNotify = true; memset(pastenvPressure,0,PRES_DATA_LEN); return; } |
fabiombed | 4:1d3d071a4c2c | 231 | if (isGyroHandle(handle)) { isEnabledGyroNotify = true; return; } |
fabiombed | 4:1d3d071a4c2c | 232 | if (isAccHandle(handle)) { isEnabledAccNotify = true; return; } |
fabiombed | 4:1d3d071a4c2c | 233 | if (isMagHandle(handle)) { isEnabledMagNotify = true; return; } |
fabiombed | 4:1d3d071a4c2c | 234 | if (isAccGyroMagHandle(handle)) { isEnabledAccGyroMagNotify = true; return; } |
fabiombed | 4:1d3d071a4c2c | 235 | } |
fabiombed | 4:1d3d071a4c2c | 236 | |
fabiombed | 4:1d3d071a4c2c | 237 | void disNotify (Gap::Handle_t handle) { |
fabiombed | 4:1d3d071a4c2c | 238 | if (isTempHandle(handle)) { isEnabledTempNotify = false; memset(pastenvTemperature,0,TEMP_DATA_LEN); return; } |
fabiombed | 4:1d3d071a4c2c | 239 | if (isHumHandle(handle)) { isEnabledHumNotify = false; memset(pastenvHumidity,0,HUM_DATA_LEN); return; } |
fabiombed | 4:1d3d071a4c2c | 240 | if (isPresHandle(handle)) { isEnabledPresNotify = false; memset(pastenvPressure,0,PRES_DATA_LEN); return; } |
fabiombed | 4:1d3d071a4c2c | 241 | if (isGyroHandle(handle)) { isEnabledGyroNotify = false; return; } |
fabiombed | 4:1d3d071a4c2c | 242 | if (isAccHandle(handle)) { isEnabledAccNotify = false; return; } |
fabiombed | 4:1d3d071a4c2c | 243 | if (isMagHandle(handle)) { isEnabledMagNotify = false; return; } |
fabiombed | 4:1d3d071a4c2c | 244 | if (isAccGyroMagHandle(handle)) { isEnabledAccGyroMagNotify = false; return; } |
fabiombed | 4:1d3d071a4c2c | 245 | } |
fabiombed | 4:1d3d071a4c2c | 246 | |
fabiombed | 4:1d3d071a4c2c | 247 | bool isTempNotificationEn (void) { |
fabiombed | 4:1d3d071a4c2c | 248 | return isEnabledTempNotify; |
fabiombed | 4:1d3d071a4c2c | 249 | } |
fabiombed | 4:1d3d071a4c2c | 250 | |
fabiombed | 4:1d3d071a4c2c | 251 | bool isHumNotificationEn (void) { |
fabiombed | 4:1d3d071a4c2c | 252 | return isEnabledHumNotify; |
fabiombed | 4:1d3d071a4c2c | 253 | } |
fabiombed | 4:1d3d071a4c2c | 254 | |
fabiombed | 4:1d3d071a4c2c | 255 | bool isPresNotificationEn (void) { |
fabiombed | 4:1d3d071a4c2c | 256 | return isEnabledPresNotify; |
fabiombed | 4:1d3d071a4c2c | 257 | } |
fabiombed | 4:1d3d071a4c2c | 258 | |
fabiombed | 4:1d3d071a4c2c | 259 | bool isGyroNotificationEn (void) { |
fabiombed | 4:1d3d071a4c2c | 260 | return isEnabledGyroNotify; |
fabiombed | 4:1d3d071a4c2c | 261 | } |
fabiombed | 4:1d3d071a4c2c | 262 | |
fabiombed | 4:1d3d071a4c2c | 263 | bool isAccNotificationEn (void) { |
fabiombed | 4:1d3d071a4c2c | 264 | return isEnabledAccNotify; |
fabiombed | 4:1d3d071a4c2c | 265 | } |
fabiombed | 4:1d3d071a4c2c | 266 | |
fabiombed | 4:1d3d071a4c2c | 267 | bool isMagNotificationEn (void) { |
fabiombed | 4:1d3d071a4c2c | 268 | return isEnabledMagNotify; |
fabiombed | 4:1d3d071a4c2c | 269 | } |
fabiombed | 4:1d3d071a4c2c | 270 | |
fabiombed | 4:1d3d071a4c2c | 271 | bool isAccGyroMagNotificationEn (void) { |
fabiombed | 4:1d3d071a4c2c | 272 | return isEnabledAccGyroMagNotify; |
fabiombed | 4:1d3d071a4c2c | 273 | } |
fabiombed | 4:1d3d071a4c2c | 274 | |
fabiombed | 4:1d3d071a4c2c | 275 | bool isTempHandle (Gap::Handle_t handle) { |
fabiombed | 4:1d3d071a4c2c | 276 | if (handle == envTemperatureCharacteristic.getValueAttribute().getHandle()) return true; |
fabiombed | 4:1d3d071a4c2c | 277 | return false; |
fabiombed | 4:1d3d071a4c2c | 278 | } |
fabiombed | 4:1d3d071a4c2c | 279 | |
fabiombed | 4:1d3d071a4c2c | 280 | bool isHumHandle (Gap::Handle_t handle) { |
fabiombed | 4:1d3d071a4c2c | 281 | if (handle == envHumidityCharacteristic.getValueAttribute().getHandle()) return true; |
fabiombed | 4:1d3d071a4c2c | 282 | return false; |
fabiombed | 4:1d3d071a4c2c | 283 | } |
fabiombed | 4:1d3d071a4c2c | 284 | |
fabiombed | 4:1d3d071a4c2c | 285 | bool isPresHandle (Gap::Handle_t handle) { |
fabiombed | 4:1d3d071a4c2c | 286 | if (handle == envPressureCharacteristic.getValueAttribute().getHandle()) return true; |
fabiombed | 4:1d3d071a4c2c | 287 | return false; |
fabiombed | 4:1d3d071a4c2c | 288 | } |
fabiombed | 4:1d3d071a4c2c | 289 | |
fabiombed | 4:1d3d071a4c2c | 290 | bool isMagHandle (Gap::Handle_t handle) { |
fabiombed | 4:1d3d071a4c2c | 291 | if (handle == envMagnetometerCharacteristic.getValueAttribute().getHandle()) return true; |
fabiombed | 4:1d3d071a4c2c | 292 | return false; |
fabiombed | 4:1d3d071a4c2c | 293 | } |
fabiombed | 4:1d3d071a4c2c | 294 | bool isAccHandle (Gap::Handle_t handle) { |
fabiombed | 4:1d3d071a4c2c | 295 | if (handle == envAccelerometerCharacteristic.getValueAttribute().getHandle()) return true; |
fabiombed | 4:1d3d071a4c2c | 296 | return false; |
fabiombed | 4:1d3d071a4c2c | 297 | } |
fabiombed | 4:1d3d071a4c2c | 298 | bool isGyroHandle (Gap::Handle_t handle) { |
fabiombed | 4:1d3d071a4c2c | 299 | if (handle == envGyroCharacteristic.getValueAttribute().getHandle()) return true; |
fabiombed | 4:1d3d071a4c2c | 300 | return false; |
fabiombed | 4:1d3d071a4c2c | 301 | } |
fabiombed | 4:1d3d071a4c2c | 302 | bool isAccGyroMagHandle (Gap::Handle_t handle) { |
fabiombed | 4:1d3d071a4c2c | 303 | if (handle == envAccGyroMagCharacteristic.getValueAttribute().getHandle()) return true; |
fabiombed | 4:1d3d071a4c2c | 304 | return false; |
fabiombed | 4:1d3d071a4c2c | 305 | } |
fabiombed | 4:1d3d071a4c2c | 306 | |
fabiombed | 4:1d3d071a4c2c | 307 | void updateConnectionStatus(ConnectionStatus_t status) { |
fabiombed | 4:1d3d071a4c2c | 308 | isEnabledTempNotify = false; |
fabiombed | 4:1d3d071a4c2c | 309 | isEnabledHumNotify = false; |
fabiombed | 4:1d3d071a4c2c | 310 | isEnabledPresNotify = false; |
fabiombed | 4:1d3d071a4c2c | 311 | isEnabledGyroNotify = false; |
fabiombed | 4:1d3d071a4c2c | 312 | isEnabledAccNotify = false; |
fabiombed | 4:1d3d071a4c2c | 313 | isEnabledMagNotify = false; |
fabiombed | 4:1d3d071a4c2c | 314 | isEnabledAccGyroMagNotify = false; |
fabiombed | 4:1d3d071a4c2c | 315 | |
fabiombed | 4:1d3d071a4c2c | 316 | isTempCalibrated = false; |
fabiombed | 4:1d3d071a4c2c | 317 | isHumCalibrated = false; |
fabiombed | 4:1d3d071a4c2c | 318 | isPresCalibrated = false; |
fabiombed | 4:1d3d071a4c2c | 319 | isMagCalibrated = false; |
fabiombed | 4:1d3d071a4c2c | 320 | isAccCalibrated = false; |
fabiombed | 4:1d3d071a4c2c | 321 | isAGyroCalibrated = false; |
fabiombed | 4:1d3d071a4c2c | 322 | |
fabiombed | 4:1d3d071a4c2c | 323 | memset (pastenvTemperature, 0, TEMP_DATA_LEN); |
fabiombed | 4:1d3d071a4c2c | 324 | memset (pastenvHumidity, 0, HUM_DATA_LEN); |
fabiombed | 4:1d3d071a4c2c | 325 | memset (pastenvPressure, 0, PRES_DATA_LEN); |
fabiombed | 4:1d3d071a4c2c | 326 | isBTLEConnected = status; |
fabiombed | 4:1d3d071a4c2c | 327 | } |
fabiombed | 4:1d3d071a4c2c | 328 | |
fabiombed | 4:1d3d071a4c2c | 329 | |
fabiombed | 4:1d3d071a4c2c | 330 | private: |
fabiombed | 4:1d3d071a4c2c | 331 | |
fabiombed | 4:1d3d071a4c2c | 332 | BLEDevice &ble; |
fabiombed | 4:1d3d071a4c2c | 333 | uint8_t envTemperature [TEMP_DATA_LEN]; /* in C */ |
fabiombed | 4:1d3d071a4c2c | 334 | uint8_t pastenvTemperature [TEMP_DATA_LEN]; |
fabiombed | 4:1d3d071a4c2c | 335 | uint8_t envHumidity [HUM_DATA_LEN]; /* in % */ |
fabiombed | 4:1d3d071a4c2c | 336 | uint8_t pastenvHumidity [HUM_DATA_LEN]; |
fabiombed | 4:1d3d071a4c2c | 337 | uint8_t envPressure [PRES_DATA_LEN]; /* in mBar */ |
fabiombed | 4:1d3d071a4c2c | 338 | uint8_t pastenvPressure [PRES_DATA_LEN]; |
fabiombed | 4:1d3d071a4c2c | 339 | uint8_t envMagn [MAG_DATA_LEN]; |
fabiombed | 4:1d3d071a4c2c | 340 | uint8_t envGyro [GYRO_DATA_LEN]; |
fabiombed | 4:1d3d071a4c2c | 341 | uint8_t envAcce [ACC_DATA_LEN]; |
fabiombed | 4:1d3d071a4c2c | 342 | uint8_t envAccGyroMag [ACCGYROMAG_DATA_LEN]; |
fabiombed | 4:1d3d071a4c2c | 343 | |
fabiombed | 4:1d3d071a4c2c | 344 | GattCharacteristic envTemperatureCharacteristic; |
fabiombed | 4:1d3d071a4c2c | 345 | GattCharacteristic envHumidityCharacteristic; |
fabiombed | 4:1d3d071a4c2c | 346 | GattCharacteristic envPressureCharacteristic; |
fabiombed | 4:1d3d071a4c2c | 347 | |
fabiombed | 4:1d3d071a4c2c | 348 | GattCharacteristic envMagnetometerCharacteristic; |
fabiombed | 4:1d3d071a4c2c | 349 | GattCharacteristic envAccelerometerCharacteristic; |
fabiombed | 4:1d3d071a4c2c | 350 | GattCharacteristic envGyroCharacteristic; |
fabiombed | 4:1d3d071a4c2c | 351 | GattCharacteristic envAccGyroMagCharacteristic; |
fabiombed | 4:1d3d071a4c2c | 352 | |
fabiombed | 4:1d3d071a4c2c | 353 | ConnectionStatus_t isBTLEConnected; |
fabiombed | 4:1d3d071a4c2c | 354 | |
fabiombed | 4:1d3d071a4c2c | 355 | bool isEnabledTempNotify; |
fabiombed | 4:1d3d071a4c2c | 356 | bool isEnabledHumNotify; |
fabiombed | 4:1d3d071a4c2c | 357 | bool isEnabledPresNotify; |
fabiombed | 4:1d3d071a4c2c | 358 | bool isEnabledGyroNotify; |
fabiombed | 4:1d3d071a4c2c | 359 | bool isEnabledAccNotify; |
fabiombed | 4:1d3d071a4c2c | 360 | bool isEnabledMagNotify; |
fabiombed | 4:1d3d071a4c2c | 361 | bool isEnabledAccGyroMagNotify; |
fabiombed | 4:1d3d071a4c2c | 362 | |
fabiombed | 4:1d3d071a4c2c | 363 | bool isTempCalibrated; |
fabiombed | 4:1d3d071a4c2c | 364 | bool isHumCalibrated; |
fabiombed | 4:1d3d071a4c2c | 365 | bool isPresCalibrated; |
fabiombed | 4:1d3d071a4c2c | 366 | bool isMagCalibrated; |
fabiombed | 4:1d3d071a4c2c | 367 | bool isAccCalibrated; |
fabiombed | 4:1d3d071a4c2c | 368 | bool isAGyroCalibrated; |
fabiombed | 4:1d3d071a4c2c | 369 | |
fabiombed | 4:1d3d071a4c2c | 370 | }; |
fabiombed | 4:1d3d071a4c2c | 371 | |
fabiombed | 4:1d3d071a4c2c | 372 | #endif /* #ifndef __CUSTOM_BLE_SENSORS_SERVICE_H__*/ |