Rick McConney
GSMA version
Fork of
AvnetATT_shape_hackathon
by 
Rick McConney
Diff: main.cpp
- Revision:
- 35:2e864bae3af0
- Parent:
- 34:029e07b67a41
- Child:
- 36:f8d96ff1dd1b
--- a/main.cpp Sat Jul 23 01:10:53 2016 +0000
+++ b/main.cpp Mon Sep 19 16:16:17 2016 +0000
@@ -9,7 +9,7 @@
#include "hardware.h"
I2C i2c(PTC11, PTC10); //SDA, SCL -- define the I2C pins being used
-
+I2C proximityi2c(PTE25, PTE24);
// comment out the following line if color is not supported on the terminal
#define USE_COLOR
#ifdef USE_COLOR
@@ -63,6 +63,149 @@
#define MAX_AT_RSP_LEN 255
+short proximity = 0;
+
+void prox_write_reg(char address,char reg, char cmd)
+{
+ char txbuffer [2];
+ txbuffer[0] = reg;
+ txbuffer[1] = cmd;
+ proximityi2c.write(address<<1, txbuffer, 2,false );
+}
+
+void prox_write(char address, char cmd)
+{
+ char txbuffer [1];
+ txbuffer[0] = cmd;
+ proximityi2c.write(address<<1, txbuffer, 1,false );
+}
+
+unsigned char prox_read_reg(char address,char reg)
+{
+ char txbuffer [1];
+ char rxbuffer [1];
+ rxbuffer[0] = 0;
+ txbuffer[0] = reg;
+ proximityi2c.write(address<<1, txbuffer, 1,false );
+ proximityi2c.read(address<<1, rxbuffer, 1 );
+ return (unsigned char)rxbuffer[0];
+}
+
+void init_proximity_sensor(int sensor)
+{
+ char C25ma = 0x00;
+ char C50ma = 0x01;
+ char C100m1 = 0x02;
+ char C200ma = 0x03;
+
+ char GainAls1Ir1 = 0x00<<2;
+ char GainAls2Ir1 = 0x04<<2;
+ char GainAls2Ir2 = 0x05<<2;
+ char GainAls64Ir64 = 0x0A<<2;
+ char GainAls128Ir64 = 0x0D<<2;
+ char GainAls128Ir128 = 0x0F<<2;
+
+ char Als0Ps0 = 0x00;
+ char Als0Ps10 = 0x01;
+ char Als0Ps40 = 0x02;
+ char Als0Ps100 = 0x03;
+ char Als0Ps400 = 0x04;
+
+ char Als100Ps0 = 0x05;
+ char Als100Ps100 = 0x06;
+ char Als100Ps400 = 0x07;
+
+ char Als401Ps0 = 0x08;
+ char Als401Ps100 = 0x09;
+ char Als400Ps0 = 0x0A;
+ char Als400Ps400 = 0x0B;
+
+ char Als50Ps50 = 0x0C;
+
+ char muxaddress = 0x70;
+ char proxaddress = 0x39;
+ prox_write(muxaddress,sensor); // sensor 2
+ prox_write_reg(proxaddress,0x41,Als0Ps400); // initiate ALS: and PS
+ prox_write_reg(proxaddress,0x42,GainAls64Ir64|C25ma); // set ALS_VIS=ALS_IR GAIN = 64 current 25ma
+}
+
+short read_proximity(int sensor)
+{
+
+ char muxaddress = 0x70;
+ char proxaddress = 0x39;
+ prox_write(muxaddress,sensor); // sensor 2
+ unsigned char prox_lsb = prox_read_reg(proxaddress,0x44);
+ unsigned char prox_msb = prox_read_reg(proxaddress,0x45);
+ unsigned char ALS_lsb = prox_read_reg(proxaddress,0x46);
+ unsigned char ALS_msb = prox_read_reg(proxaddress,0x47);
+ unsigned char IR_lsb = prox_read_reg(proxaddress,0x48);
+ unsigned char IR_msb = prox_read_reg(proxaddress,0x49);
+
+ short proximity = prox_msb*256+prox_lsb;
+ short ALS = ALS_msb*256+ALS_lsb;
+ short IR = IR_msb*256+IR_lsb;
+ pc.printf(GRN "Sensor %d\n\r",sensor);
+ pc.printf(GRN "Prox %d\n\r",proximity);
+ pc.printf(GRN "ALS %d\n\r",ALS);
+ pc.printf(GRN "IR %d\n\r",IR);
+ return proximity;
+}
+
+
+ /*
+I2C_w_3 (sfh_address*2, 0x41, 0x08); // initiate ALS: 400ms rep rate, T_int=100ms
+I2C_w_3 (sfh_address*2, 0x42, 0x28); // set ALS_VIS=ALS_IR GAIN = 64
+I2C_w_2_r_1 (sfh_address*2, 0x46); // read lsb of ALS_VIS, register 0x46
+Content1 = Content;
+I2C_w_2_r_1 (sfh_address*2, 0x47); // read msb of ALS_VIS, register 0x47
+ALS_VIS = (Content * 256 + Content1); // combining LSB+MSB byte to decimal value
+I2C_w_2_r_1 (sfh_address*2, 0x48); // read lsb of ALS_IR, register 0x48
+Content1 = Content;
+I2C_w_2_r_1 (sfh_address*2, 0x49); // read msb of ALS_IR, register 0x49
+ALS_IR = (Content * 256 + Content1); // combining LSB+MSB byte to decimal value
+// Lux Calculation based on ALS Gain = 64 and ALS_Int_Time = 100 ms
+// Lux value in front of sensor, no cover glass
+IF ((ALS_IR / ALS_VIS) < 0.109)
+ {LUX = (1.534 * ALS_VIS / 64 - 3.759 * ALS_IR / 64) * 1};
+ELSE IF ((ALS_IR / ALS_VIS) < 0.429)
+ {LUX = (1.339 * ALS_VIS / 64 – 1.972 * ALS_IR / 64) * 1};
+ELSE IF ((ALS_IR/ALS_VIS) < (0.95 * 1.45))
+ {LUX = (0.701 * ALS_VIS / 64 – 0.483 * ALS_IR / 64) * 1};
+ELSE IF ((ALS_IR/ALS_VIS) < (1.5 * 1.45))
+ {LUX = (2 * 0.701 * ALS_VIS / 64 – 1.18 * 0.483 * ALS_IR / 64) * 1};
+ELSE IF ((ALS_IR/ALS_VIS) < (2.5 * 1.45))
+{LUX = (4 * 0.701 * ALS_VIS / 64 – 1.33 * 0.483 * ALS_IR / 64) * 1};
+Else {LUX = 8 * 0.701 * ALS_VIS / 64};
+*/
+short oldread_proximity( void )
+{
+ char muxaddress = (0x70<<1);
+ char proxaddress = (0x39<<1);
+ char reg = 0x40;
+ short muxvalue = 0;
+ short value = 0;
+ char sensor = 0x02;
+
+ char txbuffer [1];
+ char rxbuffer [1];
+ rxbuffer[0] = 0;
+ txbuffer[0] = sensor;
+ proximityi2c.write(muxaddress, txbuffer, 1,false );
+ proximityi2c.read(muxaddress, rxbuffer, 1 );
+ muxvalue = (unsigned char)rxbuffer[0];
+
+ rxbuffer[0] = 0;
+ txbuffer[0] = reg;
+ proximityi2c.write(proxaddress, txbuffer, 1,false );
+ proximityi2c.read(proxaddress, rxbuffer, 1 );
+ value = (unsigned char)rxbuffer[0];
+ pc.printf(GRN "Mux %d\n\r",muxvalue);
+ pc.printf(GRN "Proximity %d\n\r",value);
+ return value;
+
+}
+
ssize_t mdm_getline(char *buff, size_t size, int timeout_ms) {
int cin = -1;
int cin_last;
@@ -133,8 +276,66 @@
}
return MDM_OK;
}
+int mdm_init(void) {
+ // disable signal level translator (necessary
+ // for the modem to boot properly)
+ shield_3v3_1v8_sig_trans_ena = 0;
-int mdm_init(void) {
+ // Hard reset the modem (doesn't go through
+ // the signal level translator)
+ mdm_reset = 1;
+
+ // wait a moment for the modem to react
+ wait_ms(10);
+
+ // Let modem boot
+ mdm_reset = 0;
+
+ // wait a moment for the modem to react
+ wait(1.0);
+
+ // power modem on //off
+ mdm_power_on = 0; //1;
+
+ // insure modem boots into normal operating mode
+ // and does not go to sleep when powered on
+ mdm_uart2_rx_boot_mode_sel = 1;
+ mdm_wakeup_in = 1;
+
+ // initialze comm with the modem
+ mdm.baud(115200);
+ // clear out potential garbage
+ while (mdm.readable())
+ mdm.getc();
+
+ mdm_uart1_cts = 0;
+
+ // wait a moment for the modem to react to signal
+ // conditions while the level translator is disabled
+ // (sorry, don't have enough information to know
+ // what exactly the modem is doing with the current
+ // pin settings)
+ wait(1.0);
+
+ // enable the signal level translator to start
+ // modem reset process (modem will be powered down)
+ shield_3v3_1v8_sig_trans_ena = 1;
+
+ // Give the modem 60 secons to start responding by
+ // sending simple 'AT' commands to modem once per second.
+ Timer timer;
+ timer.start();
+ while (timer.read() < 60) {
+ const char * rsp_lst[] = { ok_str, error_str, NULL };
+ int rc = mdm_sendAtCmd("AT", rsp_lst, 500);
+ if (rc == 0)
+ return true; //timer.read();
+ wait_ms(1000 - (timer.read_ms() % 1000));
+ pc.printf("\r%d",timer.read_ms()/1000);
+ }
+ return false;
+}
+int oldmdm_init(void) {
// Hard reset the modem (doesn't go through
// the signal level translator)
mdm_reset = 0;
@@ -279,6 +480,11 @@
{
switch(iSensorsToReport)
{
+ case PROXIMITY:
+ {
+ sprintf(modem_string, "GET %s%s?serial=%s&temp=%s&humidity=%s&proximity=%d %s%s\r\n\r\n", FLOW_BASE_URL, FLOW_INPUT_NAME, FLOW_DEVICE_NAME, SENSOR_DATA.Temperature, SENSOR_DATA.Humidity,proximity, FLOW_URL_TYPE, MY_SERVER_URL);
+ break;
+ }
case TEMP_HUMIDITY_ONLY:
{
sprintf(modem_string, "GET %s%s?serial=%s&temp=%s&humidity=%s %s%s\r\n\r\n", FLOW_BASE_URL, FLOW_INPUT_NAME, FLOW_DEVICE_NAME, SENSOR_DATA.Temperature, SENSOR_DATA.Humidity, FLOW_URL_TYPE, MY_SERVER_URL);
@@ -434,6 +640,9 @@
int i;
HTS221 hts221;
pc.baud(115200);
+ proximityi2c.frequency(400000);
+ for(int i = 0;i<8;i++)
+ init_proximity_sensor(i);
void hts221_init(void);
@@ -452,6 +661,7 @@
printf("Temp is: %0.2f F \n\r",CTOF(hts221.readTemperature()));
printf("Humid is: %02d %%\n\r",hts221.readHumidity());
+
sensors_init();
read_sensors();
@@ -490,6 +700,8 @@
sprintf(SENSOR_DATA.Temperature, "%0.2f", CTOF(hts221.readTemperature()));
sprintf(SENSOR_DATA.Humidity, "%02d", hts221.readHumidity());
read_sensors(); //read available external sensors from a PMOD and the on-board motion sensor
+ for(int i = 0;i<8;i++)
+ proximity = read_proximity(i);
char modem_string[512];
GenerateModemString(&modem_string[0]);
printf(BLU "Sending to modem : %s" DEF "\n", modem_string);