SunTracker_BLE

Dependencies:   BLE_API X_NUCLEO_6180XA1 X_NUCLEO_IDB0XA1 X_NUCLEO_IHM01A1 X_NUCLEO_IKS01A1 mbed

Fork of SunTracker_BLE by ST Expansion SW Team

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.

/media/uploads/fabiombed/suntracker_server-client.png

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 structure is 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 efficiency with 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

  • 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

MECHANICAL STRUCTURE

Find here the STL files to print with a 3D printer.

/media/uploads/fabiombed/assembly.png

/media/uploads/fabiombed/mechanical_structure_and_motor_legs.png

FLAT CABLE ASSEMBLY

/media/uploads/fabiombed/flat_cable.png

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

/media/uploads/fabiombed/arduino_pinout.png /media/uploads/fabiombed/morpho_pinout.png

main.cpp

Committer:
fabiombed
Date:
2016-02-10
Revision:
7:54984d031243
Parent:
6:4cbf7303b496
Child:
8:144855fe02bd

File content as of revision 7:54984d031243:

/**
 ******************************************************************************
 * @file    main.cpp
 * @author  Fabio Brembilla
 * @version V2.0.0
 * @date    February, 2016
 * @brief   SunTracker + RemoteControl Vertical Application
 *          This application use IHM01A1, 6180XA1, IKS01A1, IDB0XA1 expansion boards
 ******************************************************************************
 * @attention
 *
 * <h2><center>&copy; COPYRIGHT(c) 2016 STMicroelectronics</center></h2>
 *
 * 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 STMicroelectronics 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 AND CONTRIBUTORS "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 OR CONTRIBUTORS 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.
 *
 ******************************************************************************
 */

/* Includes ------------------------------------------------------------------*/

// Mbed specific header files
#include "mbed.h"

// Helper header files
#include "DevSPI.h"
#include "DevI2C.h"

// Component specific header files
#include "l6474_class.h"
#include "x_nucleo_6180xa1.h"
#include "x_nucleo_iks01a1.h"

// C header files
#include <string.h>
#include <stdlib.h>
#include <stdio.h>
#include <assert.h>

/* BlueTooth -----------------------------------------------------------------*/

#include "debug.h" // Need for PRINTF
#include "Utils.h" // Need for STORE_LE_16 and _32

typedef struct {
    int32_t AXIS_X;
    int32_t AXIS_Y;
    int32_t AXIS_Z;
} AxesRaw_TypeDef;

typedef enum ConnectionStatus_t {
    DISCONNECTED    =0,
    CONNECTED       =1
}cns_t;

const unsigned   LENGTH_OF_LONG_UUID = 16;
typedef uint16_t ShortUUIDBytes_t;
typedef uint8_t  LongUUIDBytes_t[LENGTH_OF_LONG_UUID];

#include "CustomControlService.h"
#include "CustomSensorsService.h"

static BLE *p_BLEdev = NULL;

#define BLE_DEV_NAME "SunTracker"
#define BLE_DEV_MAC 0xAA,0xBB,0xCC,0xDD,0xEE,0xFF
#define BLE_ADVERTISING_INTERVAL 1000

static CustomControlService *p_customcontrolservice = NULL;
static CustomSensorService  *p_customsensorservice = NULL;

/* Definitions ---------------------------------------------------------------*/

#define SET_ACC 400     // Set Motor Acceleration
#define SET_DEC 400     // Set Motor Deceleration
#define SET_MAX 200     // Set Motor MaxSpeed
#define SET_MIN 100     // Set Motor MinSpeed
#define STOP 1000       // Set Motor Stop Position
#define TOLLERANCE 100  // Tollerance between Left and Right before Start Movement
#define RANGE_1 200     // Range 1 for Motor Speed
#define RANGE_2 500     // Range 2 for Motor Speed

/* Variables -----------------------------------------------------------------*/

int16_t dir=0;          // Motor Rotation Direction: 0 = Stop, 1 = Anticlockwise, 2 = Clockwise
int16_t changedir=0;    // Change Direction: 0 = No, 1 = Yes
int16_t babybear=0;     // Difference (in Lux) between Left and Right
int acc_data[3];        // Difference of Accelerometer
int16_t diff=0;         // Abs of Babybear or Accelerometer difference
int16_t left=0;         // Left Command for Rotate Direction
int16_t right=0;        // Right Command for Rotate Direction
int16_t start=0;        // Waiting User Button Push
int32_t pos=0;          // Motor Position
char DisplayStr[5];     // Status Display
int16_t Display=0;      // Shown on Display: 0 = Motor Speed, 1 = Solar Panel Value, 2 = Manual Control
int16_t status, status_t, status_b, status_l, status_r; // Babybear Status

/* ---------------------------------------------------------------------------*/  

//void DISP_ExecLoopBody(void) {};

//AnalogIn analog_read(A1); // A1 Conflict with BLE SPI_CS --> Changed in A????


/* Bluetooth CallBack ---------------------------------------------------------*/

static void onUpdatesEnabledCallback(GattAttribute::Handle_t handle)
{
    
}

static void onUpdatesDisabledCallback(Gap::Handle_t handle)
{
    
}

static void onDataReadCallback(const GattReadCallbackParams *eventDataP)
{
    
}

static void myonDataWriteCallback(const GattWriteCallbackParams *eventDataP)
{
    
}

static void onConnectionCallback(const Gap::ConnectionCallbackParams_t * connectionParams)
{
    printf("onConnectionCallback (Line %d)\r\n", __LINE__);   
}

static void onDisconnectionCallback(const Gap::DisconnectionCallbackParams_t * disConnectionReason)
{
    printf("onDisconnectionCallback (Line %d)\r\n", __LINE__);
    p_BLEdev->gap().startAdvertising();
}

/* Main ----------------------------------------------------------------------*/

int main()
{

    // Printing to the console
    printf("SunTracker by Fabio Brembilla\r\n\n");
    
    // BLE Initialization
    p_BLEdev = new BLE;
    if (!p_BLEdev) { printf("\r\nBLE Device creation failed\r\n"); }
    const Gap::Address_t BLE_address_BE = {BLE_DEV_MAC};        
    p_BLEdev->gap().setAddress(BLEProtocol::AddressType::PUBLIC, BLE_address_BE);
    
    p_BLEdev->init();

    // BLE CallBack Functions
    p_BLEdev->gattServer().onUpdatesEnabled(onUpdatesEnabledCallback);
    p_BLEdev->gattServer().onUpdatesDisabled(onUpdatesDisabledCallback);
    p_BLEdev->gattServer().onDataRead(onDataReadCallback);
    p_BLEdev->gattServer().onDataWritten(myonDataWriteCallback);
    p_BLEdev->gap().onConnection(onConnectionCallback);
    p_BLEdev->gap().onDisconnection(onDisconnectionCallback);

    // BLE Services
    p_customcontrolservice =  new CustomControlService(*p_BLEdev);   
    p_customsensorservice = new CustomSensorService(*p_BLEdev);

    // BLE Advertising
    const static char DEVICE_NAME[] = BLE_DEV_NAME;
    p_BLEdev->gap().accumulateAdvertisingPayload(GapAdvertisingData::BREDR_NOT_SUPPORTED | GapAdvertisingData::LE_GENERAL_DISCOVERABLE);
    uint8_t dat[] = {0x01,0x80,0x00,0xFC,0x00,0x00};  
    p_BLEdev->gap().accumulateScanResponse(GapAdvertisingData::MANUFACTURER_SPECIFIC_DATA,dat,6);    
    p_BLEdev->gap().accumulateAdvertisingPayload(GapAdvertisingData::UNKNOWN);
    p_BLEdev->gap().accumulateAdvertisingPayload(GapAdvertisingData::COMPLETE_LOCAL_NAME, (uint8_t *)DEVICE_NAME, sizeof(DEVICE_NAME));
    p_BLEdev->gap().setAdvertisingType(GapAdvertisingParams::ADV_CONNECTABLE_UNDIRECTED);
    p_BLEdev->gap().setAdvertisingInterval(BLE_ADVERTISING_INTERVAL);
    p_BLEdev->gap().startAdvertising();
      
    printf("BLE_Initialization OK (Line %d)\r\n", __LINE__);

    // Initializing SPI bus
    DevSPI dev_spi(D11, D12, D13);
    
    // Initializing I2C bus
    DevI2C dev_i2c(D14, D15);  
    
    // Initializing Babybear Component 6180XA1
    static X_NUCLEO_6180XA1 *board;
    MeasureData_t data_sensor_left, data_sensor_right;
    
    // Initializing Babybear Component
    //board=X_NUCLEO_6180XA1::Instance(&dev_i2c); // Con questo comando non si blocca quando Connetto il BLE, ma comunque non fuonziona
    board=X_NUCLEO_6180XA1::Instance(&dev_i2c, NC, NC, NC, NC);
    //status=board->InitBoard();
    if(status) VL6180x_ErrLog("Failed to init the board!\n\r");

    // Put GPIO not used as Interrupt in Hi-Z
    status_t=board->sensor_top->SetGPIOxFunctionality(1, GPIOx_SELECT_OFF);
    //status_b=board->sensor_botton->SetGPIOxFunctionality(1, GPIOx_SELECT_OFF); No Present
    status_l=board->sensor_left->SetGPIOxFunctionality(1, GPIOx_SELECT_OFF);
    status_r=board->sensor_right->SetGPIOxFunctionality(1, GPIOx_SELECT_OFF);
    
    // Set Babybears
    status_l=board->sensor_left->AlsSetAnalogueGain(3);
    status_r=board->sensor_right->AlsSetAnalogueGain(3);
    status_l=board->sensor_left->StartMeasurement(als_continuous_polling, NULL, NULL, NULL);
    status_r=board->sensor_right->StartMeasurement(als_continuous_polling, NULL, NULL, NULL);

    printf("Initialization OK (Line %d)\r\n", __LINE__);

    printf("Start Main Loop\r\n");

    static int INTLOOP=0;

    // Main Loop
    while(true) {
        
        status_l=board->sensor_left->GetMeasurement(als_continuous_polling, &data_sensor_left);
        status_r=board->sensor_right->GetMeasurement(als_continuous_polling, &data_sensor_right);
    
        babybear = data_sensor_right.lux - data_sensor_left.lux;
    
        diff = abs(babybear);
        
        INTLOOP++;
        if (INTLOOP==100) { p_customsensorservice->sendEnvPosition(rand(),0); INTLOOP=0; }
          
        //printf("babybear %d\r\n", diff);
        
        sprintf(DisplayStr, "%d", diff);
        board->display->DisplayString(DisplayStr, 4);
            
        //strcpy(DisplayStr,"pusH");
        //board->display->DisplayString(DisplayStr, 4);
            
        p_BLEdev->waitForEvent();
        }
}

// Configuro prima BLE e poi Babybear funziona, ma quando mi collego con il BLE l'app va in crash con il commento.
// “mbed assertation failed: (hz > 0) && (hz <= 400000), file: C:\Code\git_repo\github\mbed-official\libraries\mbed\targets\hal\TARGET_STM\TARGET_STM32F4\i2c_api.c, line 119”

// Configuro prima Babybear e poi BLE non funziona.