nexpaq / Mbed OS ALS_Prox_Demo

Proximity / Ambient Light Sensor LED Demo

Dependencies:   MAX44000 nexpaq_mdk

Fork of ALS_Prox_Demo by Maxim nexpaq

ALS Prox Demo

MAX32625NEXPAQ development module

This project is a demonstration application for the MAX32625NEXPAQ development module. You will need the nexpaq application and a compatible phone to run this demo, along with the MAX44000PMB1# peripheral module. This project demonstrates polling the proximity sensor to use it like a button and also polling the ambient light sensor and sending the information back to the application running on the phone, and the phone controlling the threshold for the proximity sensor and controlling the on board RGB LED to create different colors.

Go to the nexpaq developers hub for details on how to load the code for the tile into the application.

Resources

main.cpp

Committer:
nexpaq
Date:
2016-09-23
Revision:
7:bf6283d600a0
Parent:
6:eb5c0139e5db
Child:
8:123fe6112b7a

File content as of revision 7:bf6283d600a0:

#include "mbed.h"
#include "nexpaq_mdk.h"
#include "MAX44000.h"

MAX44000 max44000(P1_6, P1_7);
DigitalOut ledR(P2_4, LED_OFF);
DigitalOut ledG(P2_5, LED_OFF);
DigitalOut ledB(P2_6, LED_OFF);
DigitalIn button(P0_1, PullUp);

/***** Definitions *****/
#define		FUNCTION_TABLE_NUM					2
#define		UUID_NUM							16			// UUID number is 16, don't change it
#define     LOOP_DELAY                          100
#define     PROX_THRESHOLD                      50
#define     ALS_INTERVAL                        10          // about once per second

/***** Globals *****/
void my_function_CMD_2700(unsigned char *pData, unsigned char len);
void my_function_CMD_2702(unsigned char *pData, unsigned char len);
const MDK_REGISTER_CMD my_cmd_func_table[FUNCTION_TABLE_NUM] = {
    {0x2700, my_function_CMD_2700},		// Command -> function
    {0x2702, my_function_CMD_2702},		// Command -> function
};

int alsCnt = 0;
int prxThrsh = PROX_THRESHOLD ;
int lastPrx = 0;
unsigned char prxPress = 0x02;
int lastBtn = 1;
unsigned char btnPress = 0x01;

/***** Functions *****/
void my_function_CMD_2700(unsigned char *pData, unsigned char len)
{
    unsigned char response = 0x00;
    ledR = (pData[0]>0) ? LED_ON : LED_OFF ;
    ledG = (pData[1]>0) ? LED_ON : LED_OFF ;
    ledB = (pData[2]>0) ? LED_ON : LED_OFF ;
    np_api_upload(0x2701, &response, 1);
}

void my_function_CMD_2702(unsigned char *pData, unsigned char len)
{
    unsigned char response = 0x00;
    prxThrsh = pData[0] ;
    np_api_upload(0x2703, &response, 1);
}

void sendALS()
{
    unsigned char pData[3];
 	max44000.writeReg(MAX44000::REG_MAIN_CONFIG, 0x20);
    pData[0] = 10;
    pData[1] = max44000.readReg(MAX44000::REG_ALS_DATA_HIGH);
    pData[2] = max44000.readReg(MAX44000::REG_ALS_DATA_LOW);
    np_api_upload(0x2800, pData, 3);
 	max44000.writeReg(MAX44000::REG_MAIN_CONFIG, 0x30);
}

/******************************************************************************/
void app_setup()
{
//	np_api_set_app_version(0, 0, 3);
    if ( np_api_register((MDK_REGISTER_CMD*)my_cmd_func_table, FUNCTION_TABLE_NUM) == MDK_REGISTER_FAILD ) {
        // Register failed handle code
    }
    max44000.init(MAX44000::MODE_ALS_PROX, MAX44000::ALSTIM_64X, MAX44000::ALSPGA_1X, MAX44000::DRV_110);
}

void app_loop()
{
    int proxData = max44000.readReg(MAX44000::REG_PRX_DATA);
    if (proxData > prxThrsh) {
    	if (!lastPrx) {
            np_api_upload(0x2800, &prxPress, 1);
        }
        lastPrx = 1;
    } else {
    	lastPrx = 0;
    }

	if (!button && lastBtn) {
        np_api_upload(0x2800, &btnPress, 1);
	}	
	lastBtn = button;

    alsCnt += 1;
    if (alsCnt > ALS_INTERVAL) {
        sendALS();
        alsCnt = 0;
    }
}

int main(void)
{
    np_api_init();
    app_setup();
    np_api_start();
    while(1) {
        app_loop();
        np_api_bsl_chk();
        Thread::wait(LOOP_DELAY);
    }
    return 0;
}