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5 changed files with 175 additions and 49 deletions

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@ -69,13 +69,6 @@ bool error_ads_max_read_interval=false;
int16_t max_acceleration_rate=NORMAL_MAX_ACCELERATION_RATE; //maximum cmd send increase per second int16_t max_acceleration_rate=NORMAL_MAX_ACCELERATION_RATE; //maximum cmd send increase per second
float meanSpeedms=0;
float trip=0; //trip distance in meters
float wheelcircumference=0.5278; //wheel diameter in m. 8.4cm radius -> 0.084m*2*Pi
float currentConsumed=0; //Ah
//Driving parameters //Driving parameters
int16_t minimum_constant_cmd_reduce=1; //reduce cmd every loop by this constant amount when freewheeling/braking int16_t minimum_constant_cmd_reduce=1; //reduce cmd every loop by this constant amount when freewheeling/braking
int16_t brake_cmdreduce_proportional=500; //cmd gets reduced by an amount proportional to brake position (ignores freewheeling). cmd_new-=brake_cmdreduce_proportional / second @ full brake. with BREAK_CMDREDUCE_CONSTANT=1000 car would stop with full brake at least after a second (ignoring influence of brake current control/freewheeling) int16_t brake_cmdreduce_proportional=500; //cmd gets reduced by an amount proportional to brake position (ignores freewheeling). cmd_new-=brake_cmdreduce_proportional / second @ full brake. with BREAK_CMDREDUCE_CONSTANT=1000 car would stop with full brake at least after a second (ignoring influence of brake current control/freewheeling)

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@ -12,29 +12,34 @@
#define SCREEN_ADDRESS 0x3C ///< See datasheet for Address; 0x3D for 128x64, 0x3C for 128x32 #define SCREEN_ADDRESS 0x3C ///< See datasheet for Address; 0x3D for 128x64, 0x3C for 128x32
Adafruit_SSD1306 display(SCREEN_WIDTH, SCREEN_HEIGHT, &Wire, OLED_RESET); Adafruit_SSD1306 display(SCREEN_WIDTH, SCREEN_HEIGHT, &Wire, OLED_RESET);
void display_init(); bool display_init();
void display_update(); void display_update();
void display_init(){ bool display_init(){
if(!display.begin(SSD1306_SWITCHCAPVCC, SCREEN_ADDRESS)) { if(!display.begin(SSD1306_SWITCHCAPVCC, SCREEN_ADDRESS)) {
Serial.println(F("SSD1306 allocation failed")); Serial.println(F("SSD1306 allocation failed"));
return false;
} }
display.clearDisplay(); display.clearDisplay();
display.setTextSize(1); // Normal 1:1 pixel scale display.setTextSize(1); // Normal 1:1 pixel scale
display.setTextColor(SSD1306_WHITE); // Draw white text display.setTextColor(SSD1306_WHITE); // Draw white text
display.setCursor(0,0); // Start at top-left corner display.setCursor(0,0); // Start at top-left corner
display.display(); display.display();
return true;
} }
void display_update(){ void display_update(ESCSerialComm& escFront, ESCSerialComm& escRear){
display.clearDisplay(); display.clearDisplay();
display.setTextSize(1); // Normal 1:1 pixel scale display.setTextSize(1); // Normal 1:1 pixel scale
display.setTextColor(SSD1306_WHITE); // Draw white text display.setTextColor(SSD1306_WHITE); // Draw white text
display.setCursor(0,0); // Start at top-left corner display.setCursor(0,0); // Start at top-left corner
display.print(F("Speed : ")); display.println(meanSpeedms); display.print(F("Speed : ")); display.println((escFront.getMeanSpeed()+escRear.getMeanSpeed())/2.0);
display.print(F("Throttle: ")); display.println(throttle_pos); display.print(F("Throttle: ")); display.print(throttle_pos);
display.print(F("Brake : ")); display.println(brake_pos); display.print(F(" Brake : ")); display.println(brake_pos);
display.print(F("Current : ")); display.println(filtered_currentAll); display.print(F("Current : ")); display.println(filtered_currentAll);
display.print(F("Vbat : ")); display.print(escFront.getFeedback_batVoltage());
display.print(F(" / ")); display.println(escRear.getFeedback_batVoltage());
display.display(); display.display();

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@ -17,27 +17,111 @@ Adafruit_NeoPixel strip(LED_COUNT, LED_PIN, NEO_GRBW + NEO_KHZ800);
unsigned long last_ledupdate=0; unsigned long last_ledupdate=0;
#define LEDUPDATEINTERVAL 100 #define LEDUPDATEINTERVAL 100
uint8_t led_errorcount=0; //count led progress errors. used for delay at end if any errors occured
void led_dotcircle(unsigned long loopmillis);
void led_voltage(unsigned long loopmillis,float vbat,float vbat_min,float vbat_max);
void init_led() { void init_led() {
strip.begin(); // INITIALIZE NeoPixel strip object (REQUIRED) strip.begin(); // INITIALIZE NeoPixel strip object (REQUIRED)
strip.show(); // Turn OFF all pixels ASAP strip.show(); // Turn OFF all pixels ASAP
strip.setBrightness(BRIGHTNESS); strip.setBrightness(BRIGHTNESS);
} }
void led_update(unsigned long loopmillis) { void led_testLEDSBlocking(){
strip.clear();
strip.show();
delay(10);
uint32_t color=strip.Color(0, 0, 0, 0);
for(int i=0; i<strip.numPixels()*4; i++) { // For each pixel in strip...
switch(i/strip.numPixels()) {
case 0:
color=strip.Color(255, 0, 0, 0);
break;
case 1:
color=strip.Color(0, 255, 0, 0);
break;
case 2:
color=strip.Color(0, 0, 255, 0);
break;
case 3:
color=strip.Color(0, 0, 0, 255);
break;
}
strip.setPixelColor(i%strip.numPixels(), color);
strip.show();
delay(25);
}
strip.clear();
strip.show();
}
void led_simpeProgress(uint8_t progressID,uint8_t result){
if (result!=1) {
led_errorcount++;
}
uint32_t color=strip.Color(0, 0, 0, 0);
switch(result) {
case 0: //fail
color=strip.Color(255, 0, 0, 0);
break;
case 1: //success
color=strip.Color(0, 255, 0, 0);
break;
case 2: //warning
color=strip.Color(127, 127, 0, 0);
break;
}
strip.setPixelColor(progressID, color);
strip.show();
}
void led_simpleProgressWait() {
if (led_errorcount>0) {
delay(5000);
}else{
delay(100);
}
}
void led_update(unsigned long loopmillis,ESCSerialComm& escFront, ESCSerialComm& escRear) {
if (loopmillis>last_ledupdate+LEDUPDATEINTERVAL) { if (loopmillis>last_ledupdate+LEDUPDATEINTERVAL) {
last_ledupdate=loopmillis; last_ledupdate=loopmillis;
uint32_t color=strip.Color(0, 0, 0, 255);
uint32_t colorOff=strip.Color(30, 0, 0, 0); float vbat=min(escRear.getFeedback_batVoltage(),escFront.getFeedback_batVoltage());
uint8_t position=(loopmillis/100)%strip.numPixels();
for(int i=0; i<strip.numPixels(); i++) { // For each pixel in strip... //led_dotcircle(loopmillis);
if (i==position) { led_voltage(loopmillis,vbat,3*12,4.2*12);
strip.setPixelColor(i, color); // Set pixel's color (in RAM)
}else{
strip.setPixelColor(i, colorOff); // Set pixel's color (in RAM)
}
}
strip.show(); // Update strip to match strip.show(); // Update strip to match
} }
} }
void led_voltage(unsigned long loopmillis,float vbat,float vbat_min,float vbat_max) {
uint32_t colorBG=strip.Color(0, 255, 0, 0);
uint32_t colorEmpty=strip.Color(255, 0, 0, 0);
uint8_t position=map( max(min(vbat,vbat_max),vbat_min) ,vbat_min,vbat_max, 0,strip.numPixels());
for(int i=0; i<strip.numPixels(); i++) { // For each pixel in strip...
uint8_t pp=i%strip.numPixels()+8; //Offset
if (i<position) {
strip.setPixelColor(pp, colorBG); // Set pixel's color (in RAM)
}else{
strip.setPixelColor(pp, colorEmpty); // Set pixel's color (in RAM)
}
}
}
void led_dotcircle(unsigned long loopmillis) {
uint32_t color=strip.Color(0, 0, 0, 255);
uint32_t colorOff=strip.Color(30, 0, 0, 0);
uint8_t position=(loopmillis/100)%strip.numPixels();
for(int i=0; i<strip.numPixels(); i++) { // For each pixel in strip...
if (i==position) {
strip.setPixelColor(i, color); // Set pixel's color (in RAM)
}else{
strip.setPixelColor(i, colorOff); // Set pixel's color (in RAM)
}
}
}
#endif #endif

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@ -10,11 +10,11 @@
boolean datalogging=true; boolean datalogging=true;
String datalogging_filename="UNKNOWN.txt"; String datalogging_filename="UNKNOWN.txt";
void initLogging(); bool initLogging();
void loggingLoop(unsigned long loopmillis,ESCSerialComm& escFront, ESCSerialComm& escRear); void loggingLoop(unsigned long loopmillis,ESCSerialComm& escFront, ESCSerialComm& escRear);
void writeLogComment(unsigned long time, String msg); void writeLogComment(unsigned long time, String msg);
void initLogging() { bool initLogging() {
Serial.print("Initializing SD card..."); Serial.print("Initializing SD card...");
// see if the card is present and can be initialized: // see if the card is present and can be initialized:
if (!SD.begin(SDCHIPSELECT)) { if (!SD.begin(SDCHIPSELECT)) {
@ -22,6 +22,7 @@ void initLogging() {
display.print(F("Fail!")); display.display(); display.print(F("Fail!")); display.display();
datalogging=false; //disable logging datalogging=false; //disable logging
delay(1000); delay(1000);
return false;
}else{ }else{
Serial.println("Card initialized."); Serial.println("Card initialized.");
display.print(F("LOG=")); display.display(); display.print(F("LOG=")); display.display();
@ -41,6 +42,7 @@ void initLogging() {
display.print(datalogging_filename); display.display(); display.print(datalogging_filename); display.display();
} }
} }
return true;
} }
@ -86,7 +88,7 @@ void loggingLoop(unsigned long loopmillis,ESCSerialComm& escFront, ESCSerialComm
dataFile.print(filtered_currentAll,3); dataFile.print(";"); dataFile.print(filtered_currentAll,3); dataFile.print(";");
dataFile.print(throttle_pos); dataFile.print(";"); dataFile.print(throttle_pos); dataFile.print(";");
dataFile.print(brake_pos); dataFile.print(";"); dataFile.print(brake_pos); dataFile.print(";");
dataFile.print(meanSpeedms); dataFile.print(";"); dataFile.print((escFront.getMeanSpeed()+escRear.getMeanSpeed())/2.0); dataFile.print(";");
dataFile.print(escFront.getTrip()); dataFile.print(";"); dataFile.print(escFront.getTrip()); dataFile.print(";");
dataFile.print(escFront.getCurrentConsumed(),3); dataFile.print(";"); dataFile.print(escFront.getCurrentConsumed(),3); dataFile.print(";");
dataFile.println(""); dataFile.println("");

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@ -1,12 +1,15 @@
#include <Arduino.h> #include <Arduino.h>
#include "led.h"
#include "definitions.h" #include "definitions.h"
//#include "structs.h" //#include "structs.h"
#include "helpfunctions.h"
#include <TimeLib.h> //for teensy rtc #include <TimeLib.h> //for teensy rtc
#include "helpfunctions.h"
#include "hoverboard-esc-serial-comm.h" #include "hoverboard-esc-serial-comm.h"
#include "led.h"
//#include "comms.h" //#include "comms.h"
#include "display.h" #include "display.h"
#include "logging.h" #include "logging.h"
@ -81,52 +84,62 @@ void setup()
init_led(); init_led();
led_update(millis()); led_testLEDSBlocking();
delay(2000); delay(2000);
Serial.println("Init Functions"); Serial.println("Init Functions");
led_update(millis()); led_simpeProgress(0,1);
bool initResult=false;
initResult=display_init();
led_simpeProgress(1,initResult);
display_init();
led_update(millis());
initLogging(); initResult=initLogging();
led_update(millis()); led_simpeProgress(2,initResult);
escFront.init(); escFront.init();
led_update(millis()); led_simpeProgress(3,true);
escRear.init(); escRear.init();
led_update(millis()); led_simpeProgress(4,true);
delay(2000); delay(2000);
Serial.println("Wait finished. Booting.."); Serial.println("Wait finished. Booting..");
led_update(millis()); led_simpeProgress(5,true);
//init ADS1115 //init ADS1115
if (!ADS.begin()) { if (!ADS.begin()) {
Serial.println("Error:"); delay(2000); Serial.println("ADS1115 Init Error!"); Serial.println("Error:"); delay(2000); Serial.println("ADS1115 Init Error!");
led_simpeProgress(6,false);
writeLogComment((unsigned long)millis(), "Error ADS1115 Init"); writeLogComment((unsigned long)millis(), "Error ADS1115 Init");
}else{
ADS.setGain(0);
ADS.setDataRate(7);// Read Interval: 7-> 2ms, 6-> 3-4ms , 5-> 5-6ms, 4-> 9ms, 0-> 124ms
// also set ADSREADPERIOD to at least the read interval
ADS.requestADC(0); //Start requesting a channel
led_simpeProgress(6,true);
} }
ADS.setGain(0);
ADS.setDataRate(7);// Read Interval: 7-> 2ms, 6-> 3-4ms , 5-> 5-6ms, 4-> 9ms, 0-> 124ms
// also set ADSREADPERIOD to at least the read interval
ADS.requestADC(0); //Start requesting a channel
delay(10); delay(10);
led_update(millis());
setSyncProvider(getTeensy3Time); //See https://www.pjrc.com/teensy/td_libs_Time.html#teensy3 setSyncProvider(getTeensy3Time); //See https://www.pjrc.com/teensy/td_libs_Time.html#teensy3
if (timeStatus()!= timeSet) { if (timeStatus()!= timeSet) {
Serial.println("Unable to sync with the RTC"); Serial.println("Unable to sync with the RTC");
led_simpeProgress(7,false);
} else { } else {
Serial.println("RTC has set the system time"); Serial.println("RTC has set the system time");
led_simpeProgress(7,true);
} }
led_update(millis());
writeLogComment(millis(), "Setup Finished"); writeLogComment(millis(), "Setup Finished");
led_update(millis()); led_simpeProgress(15,true);
led_simpleProgressWait(); //wait longer if any errors were displayed with led_simpeProgress()
} }
unsigned long loopmillis; unsigned long loopmillis;
@ -234,12 +247,12 @@ void loop() {
loggingLoop(loopmillis,escFront,escRear); loggingLoop(loopmillis,escFront,escRear);
leds(); leds();
led_update(loopmillis); led_update(loopmillis,escFront,escRear); //ws2812 led ring
static unsigned long last_display_update=0; static unsigned long last_display_update=0;
if (loopmillis - last_display_update > DISPLAYUPDATEPERIOD) { if (loopmillis - last_display_update > DISPLAYUPDATEPERIOD) {
last_display_update=loopmillis; last_display_update=loopmillis;
display_update(); display_update(escFront,escRear);
} }
} }
@ -302,7 +315,7 @@ void readADC() {
if (throttle_pos>0 || meanSpeedms>0.5 || (!reverse_enabled && brake_pos>0)) { //reset idle time on these conditions (disables reverse driving) if (throttle_pos>0 || ((escFront.getMeanSpeed()+escRear.getMeanSpeed())/2.0) >0.5 || (!reverse_enabled && brake_pos>0)) { //reset idle time on these conditions (disables reverse driving)
last_notidle=loopmillis; last_notidle=loopmillis;
reverse_enabled=false; reverse_enabled=false;
} }
@ -577,16 +590,44 @@ void leds() {
} }
void readButtons() { void readButtons() {
bool button_start_longpress_flag=false;
bool button_start_shortpress_flag=false;
static bool button_start_wait_release_flag=false;
bool last_button_start_state=button_start_state;
if (loopmillis > button_start_lastchange+DEBOUNCE_TIME) { //wait some time after last change if (loopmillis > button_start_lastchange+DEBOUNCE_TIME) { //wait some time after last change
if (digitalRead(PIN_START) && !button_start_state) { //start engine button pressed and was not pressed before if (digitalRead(PIN_START) && !button_start_state) { //start engine button pressed and was not pressed before
button_start_state=true; //pressed button_start_state=true; //pressed
button_start_lastchange=loopmillis; //save time for debouncing button_start_lastchange=loopmillis; //save time for debouncing
}else if (!digitalRead(PIN_START) && button_start_state) { //released an was pressed before }else if (!digitalRead(PIN_START) && button_start_state) { //released an was pressed before
button_start_state=false; // not pressed button_start_state=false; // not pressed
button_start_wait_release_flag=false;
button_start_lastchange=loopmillis; //save time for debouncing button_start_lastchange=loopmillis; //save time for debouncing
} }
} }
if (!button_start_wait_release_flag) { //action not prohibited currently
if (button_start_state) { //button is pressed
if ( (loopmillis> button_start_lastchange + LONG_PRESS_ARMING_TIME)) { //pressed long
button_start_longpress_flag=true;
button_start_wait_release_flag=true; //do not trigger again until button released
}
}else if(!button_start_state && last_button_start_state) { //just released
button_start_shortpress_flag=true;
}
}
if (button_start_shortpress_flag) {
armed=false; //disarm
writeLogComment(loopmillis, "Disarmed by button");
}
if (button_start_longpress_flag) {
armed=true; //arm if button pressed long enough
writeLogComment(loopmillis, "Armed by button");
}
/* TODO: if works, remove this
if (button_start_state) { //pressed if (button_start_state) { //pressed
if ( (loopmillis> button_start_lastchange + LONG_PRESS_ARMING_TIME)) { //pressed long if ( (loopmillis> button_start_lastchange + LONG_PRESS_ARMING_TIME)) { //pressed long
if (throttle_pos<=0 && brake_pos<=0 && controllers_connected && !armed) { //brake or thottle not pressed, controllers connected if (throttle_pos<=0 && brake_pos<=0 && controllers_connected && !armed) { //brake or thottle not pressed, controllers connected
@ -598,6 +639,7 @@ void readButtons() {
writeLogComment(loopmillis, "Disarmed by button"); writeLogComment(loopmillis, "Disarmed by button");
} }
} }
*/
} }