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XV Lidar Controller v1.2.1
Copyright 2014 James LeRoy getSurreal
https://github.com/getSurreal/XV_Lidar_Controller
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The F() macro in the Serial statements tells the compiler to keep your strings in PROGMEM
#include <TimerThree.h> // used for ultrasonic PWM motor control
#include <PID.h>
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char version[6];
int motor_pwm_pin; // pin connected to mosfet for motor speed control
double rpm_setpoint; // desired RPM (uses double to be compatible with PID library)
double pwm_max; // max analog value. probably never needs to change from 1023
double pwm_min; // min analog pulse value to spin the motor
int sample_time; // how often to calculate the PID values
boolean motor_enable; // to spin the laser or not. No data when not spinning
boolean raw_data; // to retransmit the seiral data to the USB port
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boolean show_dist; // controlled by ShowDist and HideDist commands
boolean show_rpm; // controlled by ShowRPM and HideRPM commands
unsigned int show_angle; // controlled by ShowAngle (0 - 359, 360 shows all)
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const byte EEPROM_ID = 0x04; // used to validate EEPROM initialized
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unsigned long curMillis;
unsigned long lastMillis = millis();
PID rpmPID(&motor_rpm, &pwm_val, &xv_config.rpm_setpoint, xv_config.Kp, xv_config.Ki, xv_config.Kd, DIRECT);
uint8_t inByte = 0; // incoming serial byte
uint16_t data_status = 0;
uint16_t data_4deg_index = 0;
uint16_t data_loop_index = 0;
uint8_t motor_rph_high_byte = 0;
uint8_t motor_rph_low_byte = 0;
uint8_t data0, data2;
uint16_t dist, quality;
uint16_t motor_rph = 0;
uint16_t angle;
#if defined(__AVR_ATmega32U4__) && defined(CORE_TEENSY) // if Teensy 2.0
const int ledPin = 11;
#endif
#if defined(__MK20DX256__) // if Teensy 3.1
const int ledPin = 13;
#endif
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boolean ledState = LOW;
EEPROM_readAnything(0, xv_config);
if( xv_config.id != EEPROM_ID) { // verify EEPROM values have been initialized
initEEPROM();
}
pinMode(xv_config.motor_pwm_pin, OUTPUT);
#if defined(__AVR_ATmega32U4__) && defined(CORE_TEENSY) // if Teensy 2.0
Serial1.begin(115200); // XV LDS data
#endif
#if defined(__MK20DX256__) // if Teensy 3.1
Timer3.initialize(30); // set PWM frequency to 32.768kHz
rpmPID.SetOutputLimits(xv_config.pwm_min,xv_config.pwm_max);
rpmPID.SetSampleTime(xv_config.sample_time);
rpmPID.SetTunings(xv_config.Kp, xv_config.Ki, xv_config.Kd);
rpmPID.SetMode(AUTOMATIC);
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pinMode(ledPin, OUTPUT);
sCmd.readSerial(); // check for incoming serial commands
// read byte from LIDAR and relay to USB
if (Serial1.available() > 0) {
inByte = Serial1.read(); // get incoming byte:
if (xv_config.raw_data) {
Serial.print(inByte, BYTE); // relay
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if (xv_config.motor_enable) {
if (pwm_val != pwm_last) {
Timer3.pwm(xv_config.motor_pwm_pin, pwm_val); // replacement for analogWrite()
pwm_last = pwm_val;
}
}
}
void decodeData(unsigned char inByte) {
switch (data_status) {
case 0: // no header
if (inByte == 0xFA) {
data_status = 1;
data_loop_index = 1;
}
break;
case 1: // find 2nd FA
if (data_loop_index == 22) { // Theres 22 bytes in each packet. Time to start over
if (inByte == 0xFA) {
data_status = 2;
data_loop_index = 1;
}
else { // if not FA search again
data_status = 0;
}
}
else {
data_loop_index++;
}
break;
case 2: // read data out
if (data_loop_index == 22) { // Theres 22 bytes in each packet. Time to start over
if (inByte == 0xFA) {
data_loop_index = 1;
}
else { // if not FA search again
data_status = 0;
}
}
else {
readData(inByte);
data_loop_index++;
}
break;
}
}
void readData(unsigned char inByte) {
switch (data_loop_index) {
case 1: // 4 degree index
data_4deg_index = inByte - 0xA0;
if (data_4deg_index == 0) {
angle = 0;
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if (ledState) {
ledState = LOW;
}
else {
ledState = HIGH;
}
digitalWrite(ledPin, ledState);
if (xv_config.show_dist) {
curMillis = millis();
Serial.print(F("Time Interval: "));
Serial.println(curMillis - lastMillis);
lastMillis = curMillis;
}
}
//Serial.print(int(data_4deg_index));
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//Serial.println(F(" "));
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case 2: // speed in RPH low byte
motor_rph_low_byte = inByte;
break;
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case 3: // speed in RPH high byte
motor_rph_high_byte = inByte;
motor_rph = (motor_rph_high_byte << 8) | motor_rph_low_byte;
motor_rpm = float( (motor_rph_high_byte << 8) | motor_rph_low_byte ) / 64.0;
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if (xv_config.show_rpm) {
Serial.print(F("RPM: "));
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Serial.print(F(" PWM: "));
Serial.println(pwm_val);
}
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case 4:
data0 = inByte; // first half of distance data
break;
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case 5:
if ((inByte & 0x80) >> 7) { // check for Invalid Flag
dist = 0;
}
else {
dist = data0 | (( inByte & 0x3F) << 8);
}
break;
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case 6:
data2 = inByte; // first half of quality data
break;
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case 7:
quality = (inByte << 8) | data2;
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if (xv_config.show_dist) {
if (xv_config.show_angle == 360 or xv_config.show_angle == angle) {
Serial.print(angle);
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Serial.print(F(": "));
Serial.print(int(dist));
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Serial.print(F(" ("));
Serial.print(quality);
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Serial.println(F(")"));
}
}
angle++;
break;
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case 8:
data0 = inByte;
break;
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case 9:
if ((inByte & 0x80) >> 7) { // check for Invalid Flag
dist = 0;
}
else {
dist = data0 | (( inByte & 0x3F) << 8);
}
break;
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case 10:
data2 = inByte; // first half of quality data
break;
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case 11:
quality = (inByte << 8) | data2;
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if (xv_config.show_dist) {
if (xv_config.show_angle == 360 or xv_config.show_angle == angle) {
Serial.print(angle);
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Serial.print(F(": "));
Serial.print(int(dist));
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Serial.print(F(" ("));
Serial.print(quality);
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Serial.println(F(")"));
}
}
angle++;
break;
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case 12:
data0 = inByte;
break;
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case 13:
if ((inByte & 0x80) >> 7) { // check for Invalid Flag
dist = 0;
}
else {
dist = data0 | (( inByte & 0x3F) << 8);
}
break;
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case 14:
data2 = inByte; // first half of quality data
break;
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case 15:
quality = (inByte << 8) | data2;
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if (xv_config.show_dist) {
if (xv_config.show_angle == 360 or xv_config.show_angle == angle) {
Serial.print(angle);
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Serial.print(F(": "));
Serial.print(int(dist));
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Serial.print(F(" ("));
Serial.print(quality);
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Serial.println(F(")"));
}
}
angle++;
break;
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case 16:
data0 = inByte;
break;
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case 17:
if ((inByte & 0x80) >> 7) { // check for Invalid Flag
dist = 0;
}
else {
dist = data0 | (( inByte & 0x3F) << 8);
}
break;
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case 18:
data2 = inByte; // first half of quality data
break;
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case 19:
quality = (inByte << 8) | data2;
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if (xv_config.show_dist) {
if (xv_config.show_angle == 360 or xv_config.show_angle == angle) {
Serial.print(angle);
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Serial.print(F(": "));
Serial.print(int(dist));
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Serial.print(F(" ("));
Serial.print(quality);
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Serial.println(F(")"));
}
}
angle++;
break;
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xv_config.id = 0x04;
strcpy(xv_config.version, "1.2.1");
xv_config.motor_pwm_pin = 9; // pin connected N-Channel Mosfet
xv_config.rpm_setpoint = 300; // desired RPM
xv_config.pwm_max = 1023;
xv_config.pwm_min = 550;
xv_config.sample_time = 20;
xv_config.Kp = 1.0;
xv_config.Ki = 0.5;
xv_config.Kd = 0.00;
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xv_config.motor_enable = true;
xv_config.raw_data = true;
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xv_config.show_dist = false;
xv_config.show_rpm = false;
xv_config.show_angle = 360;
sCmd.addCommand("help", help);
sCmd.addCommand("Help", help);
sCmd.addCommand("ShowConfig", showConfig);
sCmd.addCommand("SaveConfig", saveConfig);
sCmd.addCommand("ResetConfig",initEEPROM);
sCmd.addCommand("SetRPM", setRPM);
sCmd.addCommand("SetKp", setKp);
sCmd.addCommand("SetKi", setKi);
sCmd.addCommand("SetKd", setKd);
sCmd.addCommand("SetSampleTime", setSampleTime);
sCmd.addCommand("ShowRPM", showRPM);
sCmd.addCommand("HideRPM", hideRPM);
sCmd.addCommand("ShowDist", showDist);
sCmd.addCommand("HideDist", hideDist);
sCmd.addCommand("ShowAngle", showAngle);
sCmd.addCommand("MotorOff", motorOff);
sCmd.addCommand("MotorOn", motorOn);
sCmd.addCommand("HideRaw", hideRaw);
sCmd.addCommand("ShowRaw", showRaw);
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xv_config.show_rpm = true;
if (xv_config.raw_data == true) {
hideRaw();
}
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Serial.println(F(" "));
Serial.print(F("Showing RPM data"));
Serial.println(F(" "));
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xv_config.show_rpm = false;
Serial.println(F(" "));
Serial.print(F("Hiding RPM data"));
Serial.println(F(" "));
void showDist() {
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xv_config.show_dist = true;
if (xv_config.raw_data == true) {
hideRaw();
}
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Serial.println(F(" "));
Serial.print(F("Showing Distance data"));
Serial.println(F(" "));
}
void hideDist() {
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xv_config.show_dist = false;
Serial.println(F(" "));
Serial.print(F("Hiding Distance data"));
Serial.println(F(" "));
}
void showAngle() {
showDist();
double sVal = 0.0;
char *arg;
boolean syntax_error = false;
arg = sCmd.next();
if (arg != NULL) {
sVal = atoi(arg); // Converts a char string to a int
if (sVal < 0 or sVal > 360) {
syntax_error = true;
}
}
else {
syntax_error = true;
}
arg = sCmd.next();
if (arg != NULL) {
syntax_error = true;
}
if (syntax_error) {
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Serial.println(F(" "));
Serial.print(F("Incorrect syntax. Example: ShowAngle 0 (0 - 359 or 360 for all)"));
Serial.println(F(" "));
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Serial.println(F(" "));
Serial.print(F("Showing Only Angle: "));
Serial.println(sVal);
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Serial.println(F(" "));
xv_config.show_angle = sVal;
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xv_config.motor_enable = false;
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Serial.println(F(" "));
Serial.print(F("Motor off"));
Serial.println(F(" "));
}
void motorOn() {
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xv_config.motor_enable = true;
Timer3.pwm(xv_config.motor_pwm_pin, xv_config.pwm_min);
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Serial.println(F(" "));
Serial.print(F("Motor on"));
Serial.println(F(" "));
void hideRaw() {
xv_config.raw_data = false;
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Serial.println(F(" "));
Serial.print(F("Raw lidar data disabled"));
Serial.println(F(" "));
void showRaw() {
xv_config.raw_data = true;
hideDist();
hideRPM();
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Serial.println(F(" "));
Serial.print(F("Lidar data enabled"));
Serial.println(F(" "));
char *arg;
boolean syntax_error = false;
arg = sCmd.next();
if (arg != NULL) {
if (sVal < 200) {
sVal = 200;
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Serial.println(F(" "));
Serial.print(F("Setting to minimum 200"));
Serial.println(F(" "));
}
if (sVal > 300) {
sVal = 300;
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Serial.println(F(" "));
Serial.print(F("Setting to maximum 300"));
Serial.println(F(" "));
}
else {
syntax_error = true;
}
arg = sCmd.next();
if (arg != NULL) {
syntax_error = true;
}
if (syntax_error) {
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Serial.println(F(" "));
Serial.print(F("Incorrect syntax. Example: SetRPM 300"));
Serial.println(F(" "));
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Serial.println(F(" "));
Serial.print(F("New RPM setpoint: "));
Serial.println(sVal);
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Serial.print(F("Old RPM setpoint"));
Serial.println(xv_config.rpm_setpoint);
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Serial.println(F(" "));
}
}
void setKp() {
char *arg;
boolean syntax_error = false;
arg = sCmd.next();
if (arg != NULL) {
}
else {
syntax_error = true;
}
arg = sCmd.next();
if (arg != NULL) {
syntax_error = true;
}
if (syntax_error) {
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Serial.println(F(" "));
Serial.print(F("Incorrect syntax. Example: SetKp 1.0"));
Serial.println(F(" "));
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Serial.println(F(" "));
Serial.print(F("Setting Kp to: "));
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Serial.println(F(" "));
xv_config.Kp = sVal;
rpmPID.SetTunings(xv_config.Kp, xv_config.Ki, xv_config.Kd);
void setKi() {
char *arg;
boolean syntax_error = false;
arg = sCmd.next();
if (arg != NULL) {
}
else {
syntax_error = true;
}
arg = sCmd.next();
if (arg != NULL) {
syntax_error = true;
}
if (syntax_error) {
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Serial.println(F(" "));
Serial.print(F("Incorrect syntax. Example: SetKi 0.5"));
Serial.println(F(" "));
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Serial.println(F(" "));
Serial.print(F("Setting Ki to: "));
Serial.println(sVal);
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Serial.println(F(" "));
xv_config.Ki = sVal;
rpmPID.SetTunings(xv_config.Kp, xv_config.Ki, xv_config.Kd);
}
}
void setKd() {
char *arg;
boolean syntax_error = false;
arg = sCmd.next();
if (arg != NULL) {
}
else {
syntax_error = true;
}
arg = sCmd.next();
if (arg != NULL) {
syntax_error = true;
}
if (syntax_error) {
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Serial.println(F(" "));
Serial.print(F("Incorrect syntax. Example: SetKd 0.001"));
Serial.println(F(" "));
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Serial.println(F(" "));
Serial.print(F("Setting Kd to: "));
Serial.println(sVal);
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Serial.println(F(" "));
xv_config.Kd = sVal;
rpmPID.SetTunings(xv_config.Kp, xv_config.Ki, xv_config.Kd);
void setSampleTime() {
double sVal = 0.0;
char *arg;
boolean syntax_error = false;
arg = sCmd.next();
if (arg != NULL) {
sVal = atoi(arg); // Converts a char string to an integer
}
else {
syntax_error = true;
}
arg = sCmd.next();
if (arg != NULL) {
syntax_error = true;
}
if (syntax_error) {
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Serial.println(F(" "));
Serial.print(F("Incorrect syntax. Example: SetSampleTime 20"));
Serial.println(F(" "));
}
else {
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Serial.println(F(" "));
Serial.print(F("Setting Sample time to: "));
Serial.println(sVal);
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Serial.println(F(" "));
xv_config.sample_time = sVal;
rpmPID.SetSampleTime(xv_config.sample_time);
}
}
if (xv_config.raw_data == true) {
hideRaw();
}
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Serial.println(F(" "));
Serial.println(F(" "));
Serial.print(F("XV Lidar Controller Firmware Version "));
Serial.println(xv_config.version);
Serial.print(F("GetSurreal.com"));
Serial.println(F(" "));
Serial.println(F(" "));
Serial.println(F("List of available commands (case sensitive)"));
Serial.println(F(" ShowConfig - Show the running configuration"));
Serial.println(F(" SaveConfig - Save the running configuration to EEPROM"));
Serial.println(F(" ResetConfig - Restore the original configuration"));
Serial.println(F(" SetRPM - Set the desired rotation speed (min: 200, max: 300)"));
Serial.println(F(" SetKp - Set the proportional gain"));
Serial.println(F(" SetKi - Set the integral gain"));
Serial.println(F(" SetKd - Set the derivative gain"));
Serial.println(F(" SetSampleTime - Set the frequency the PID is calculated (ms)"));
Serial.println(F(" ShowRPM - Show the rotation speed"));
Serial.println(F(" HideRPM - Hide the rotation speed"));
Serial.println(F(" ShowDist - Show the distance data"));
Serial.println(F(" HideDist - Hide the distance data"));
Serial.println(F(" ShowAngle - Show distance data for a specific angle (0 - 359 or 360 for all)"));
Serial.println(F(" MotorOff - Stop spinning the lidar"));
Serial.println(F(" MotorOn - Enable spinning of the lidar"));
Serial.println(F(" HideRaw - Stop outputting the raw data from the lidar"));
Serial.println(F(" ShowRaw - Enable the output of the raw lidar data"));
Serial.println(F(" "));
Serial.println(F(" "));
void showConfig() {
if (xv_config.raw_data == true) {
hideRaw();
}
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Serial.println(F(" "));
Serial.println(F(" "));
Serial.print(F("XV Lidar Controller Firmware Version "));
Serial.println(xv_config.version);
Serial.print(F("GetSurreal.com"));
Serial.println(F(" "));
Serial.println(F(" "));
Serial.print(F("PWM pin: "));
Serial.println(xv_config.motor_pwm_pin);
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Serial.print(F("Target RPM: "));
Serial.println(xv_config.rpm_setpoint);
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Serial.print(F("Max PWM: "));
Serial.println(xv_config.pwm_max);
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Serial.print(F("Min PWM: "));
Serial.println(xv_config.pwm_min);
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Serial.print(F("PID Kp: "));
Serial.println(xv_config.Kp);
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Serial.print(F("PID Ki: "));
Serial.println(xv_config.Ki);
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Serial.print(F("PID Kd: "));
Serial.println(xv_config.Kd);
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Serial.print(F("SampleTime: "));
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Serial.print(F("Motor Enable: "));
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Serial.println(xv_config.motor_enable);
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Serial.print(F("Show Raw Data: "));
Serial.println(xv_config.raw_data);
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Serial.print(F("Show Dist Data: "));
Serial.println(xv_config.show_dist);
Serial.print(F("Show RPM Data: "));
Serial.println(xv_config.show_rpm);
Serial.print(F("Show Angle: "));
Serial.println(xv_config.show_angle);
Serial.println(F(" "));
Serial.println(F(" "));
void saveConfig() {
EEPROM_writeAnything(0, xv_config);
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Serial.print(F("Config Saved."));