Project #12: Robotics – Steren 155 – Mk21
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#DonLucElectronics #DonLuc #Robotics #Arduino #Fio #ArduinoProMini #XBee #DCMotor #MotorDriver #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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Perforated Phenolic Plate
So you finish your electronics projects, such as printed circuits. We know that designing a prototype or electronic project can be a complicated task if you do not have the necessary items to carry it out, so with us you it a phenolic plates of a face, two sided or perforated, ferric chloride, auto-adherable tracks, leaves thermal transfer or permanent ink markers so that your circuits are perfect.
Steren Model 155
Bakelite phenolic plate with copper, 4.5 cm x 4.5 cm, engraved and perforated with 164 orifices for components and 4 for fixing the plate. Ideal for projects or prototypes.
DL2202Mk01
1 x Fio v3 – ATmega32U4
1 x Arduino Pro Mini 328 – 5V/16MHz
1 x SparkFun FTDI Basic Breakout – 5V
1 x USB/DC Lithium Polymer Battery Charger
1 x Mountable Slide Switch
2 x XBee S1
1 x XBee Explorer Regulated
1 x Lithium Ion Battery – 850mAh
1 x Lithium Ion Battery – 2500mAh
1 x Thumb Joystick
1 x SparkFun Thumb Joystick Breakout
1 x Slide Pot (Small)
1 x Slide Potentiometer Knob
1 x RGB Smart NeoPixel
2 x DRV8835 Dual Motor Driver Carrier
2 x Solarbotics RM2
2 x Pololu Universal Aluminum Mounting Hub 3mm Shaft, #4-40 Holes
2 x Pololu Mini Plastic Gearmotor Bracket Pair – Wide
1 x Steren Model 155
2 x Adafruit Perma-Proto Quarter-Sized Breadboard
1 x SparkFun Cerberus USB Cable
Fio v3 – ATmega32U4 – Transmitter
XBee S1: Transmitter
CH Channel: C
PAN Id: 3333
SH Serial Number: 13A200
SL Serial Number: 40717A1F
CE Coordinator: Coordinator
BD: 9600
RX0 – Digital 0
TX0 – Digital 1
PO0 – Analog A0
JY0 – Analog A1
JY1 – Analog A2
SE0 – Digital 16
VIN – +3.3V
GND – GND
DL2202Mk01t.ino
/* ***** Don Luc Electronics © *****
Software Version Information
Project #12: Robotics - Steren 155 - Mk21
02-01
Transmitter
DL2202Mk01t.ino
1 x Fio v3 - ATmega32U4
1 x XBee S1
1 x Lithium Ion Battery - 850mAh
1 x Thumb Joystick
1 x SparkFun Thumb Joystick Breakout
1 x Slide Pot (Small)
1 x Slide Potentiometer Knob
1 x SparkFun Cerberus USB Cable
*/
// Include the Library Code
// EEPROM library to read and write EEPROM with unique ID for unit
#include <EEPROM.h>
// Communication
unsigned long dTime = 200;
// Slide Pot (Small)
// Select the input pin for the slide pot
// Power
const int iSP1 = A0;
// Power to store the value
int iPower = 0;
// Connections to joystick
// Vertical
const int VERT = A1;
// Horizontal
const int HORIZ = A2;
// Pushbutton
const int SEL = 16;
// Initialize variables for analog and digital values
int vertical;
int horizontal;
int select;
// Software Version Information
// Version
String sver = "12-21t";
// Unit ID Information
// UID
String uid = "";
void loop()
{
// Thumb Joystick
isThumbJoystick();
// Process Message
isProcessMessage();
delay( dTime );
}
/* ***** Don Luc Electronics © *****
Software Version Information
Project #12: Robotics - Steren 155 - Mk21
02-01
Transmitter
DL2202Mk01t.ino
1 x Fio v3 - ATmega32U4
1 x XBee S1
1 x Lithium Ion Battery - 850mAh
1 x Thumb Joystick
1 x SparkFun Thumb Joystick Breakout
1 x Slide Pot (Small)
1 x Slide Potentiometer Knob
1 x SparkFun Cerberus USB Cable
*/
// Include the Library Code
// EEPROM library to read and write EEPROM with unique ID for unit
#include <EEPROM.h>
// Communication
unsigned long dTime = 200;
// Slide Pot (Small)
// Select the input pin for the slide pot
// Power
const int iSP1 = A0;
// Power to store the value
int iPower = 0;
// Connections to joystick
// Vertical
const int VERT = A1;
// Horizontal
const int HORIZ = A2;
// Pushbutton
const int SEL = 16;
// Initialize variables for analog and digital values
int vertical;
int horizontal;
int select;
// Software Version Information
// Version
String sver = "12-21t";
// Unit ID Information
// UID
String uid = "";
void loop()
{
// Thumb Joystick
isThumbJoystick();
// Process Message
isProcessMessage();
delay( dTime );
}
/* ***** Don Luc Electronics © *****
Software Version Information
Project #12: Robotics - Steren 155 - Mk21
02-01
Transmitter
DL2202Mk01t.ino
1 x Fio v3 - ATmega32U4
1 x XBee S1
1 x Lithium Ion Battery - 850mAh
1 x Thumb Joystick
1 x SparkFun Thumb Joystick Breakout
1 x Slide Pot (Small)
1 x Slide Potentiometer Knob
1 x SparkFun Cerberus USB Cable
*/
// Include the Library Code
// EEPROM library to read and write EEPROM with unique ID for unit
#include <EEPROM.h>
// Communication
unsigned long dTime = 200;
// Slide Pot (Small)
// Select the input pin for the slide pot
// Power
const int iSP1 = A0;
// Power to store the value
int iPower = 0;
// Connections to joystick
// Vertical
const int VERT = A1;
// Horizontal
const int HORIZ = A2;
// Pushbutton
const int SEL = 16;
// Initialize variables for analog and digital values
int vertical;
int horizontal;
int select;
// Software Version Information
// Version
String sver = "12-21t";
// Unit ID Information
// UID
String uid = "";
void loop()
{
// Thumb Joystick
isThumbJoystick();
// Process Message
isProcessMessage();
delay( dTime );
}
getEEPROM.ino
// EEPROM
// is UID
void isUID()
{
// Is Unit ID
// UID
uid = "";
for (int x = 0; x < 5; x++)
{
uid = uid + char(EEPROM.read(x));
}
}
// EEPROM
// is UID
void isUID()
{
// Is Unit ID
// UID
uid = "";
for (int x = 0; x < 5; x++)
{
uid = uid + char(EEPROM.read(x));
}
}
// EEPROM
// is UID
void isUID()
{
// Is Unit ID
// UID
uid = "";
for (int x = 0; x < 5; x++)
{
uid = uid + char(EEPROM.read(x));
}
}
getProcessMessage.ino
// Process Message
// isProcessMessage
void isProcessMessage() {
// Loop through serial buffer
// Print = "<" + vertical + "|" + horizontal + "|" + select + "|" + iValue + "|" + sver + "|" + uid + "*"
Serial1.print( '<' );
Serial1.print( vertical );
Serial1.print( '|' );
Serial1.print( horizontal );
Serial1.print( '|' );
Serial1.print( select );
Serial1.print( '|' );
Serial1.print( iPower );
Serial1.print( '|' );
Serial1.print( sver );
Serial1.print( '|' );
Serial1.print( uid );
Serial1.println( '*' );
}
// Process Message
// isProcessMessage
void isProcessMessage() {
// Loop through serial buffer
// Print = "<" + vertical + "|" + horizontal + "|" + select + "|" + iValue + "|" + sver + "|" + uid + "*"
Serial1.print( '<' );
Serial1.print( vertical );
Serial1.print( '|' );
Serial1.print( horizontal );
Serial1.print( '|' );
Serial1.print( select );
Serial1.print( '|' );
Serial1.print( iPower );
Serial1.print( '|' );
Serial1.print( sver );
Serial1.print( '|' );
Serial1.print( uid );
Serial1.println( '*' );
}
// Process Message
// isProcessMessage
void isProcessMessage() {
// Loop through serial buffer
// Print = "<" + vertical + "|" + horizontal + "|" + select + "|" + iValue + "|" + sver + "|" + uid + "*"
Serial1.print( '<' );
Serial1.print( vertical );
Serial1.print( '|' );
Serial1.print( horizontal );
Serial1.print( '|' );
Serial1.print( select );
Serial1.print( '|' );
Serial1.print( iPower );
Serial1.print( '|' );
Serial1.print( sver );
Serial1.print( '|' );
Serial1.print( uid );
Serial1.println( '*' );
}
getThumbJoystick.ino
// Thumb Joystick
void isThumbJoystick() {
// Read all values from the joystick
// Joystick was sitting around 520 for the vertical and horizontal values
// Will be 0-1023
vertical = analogRead(VERT);
// Will be 0-1023
horizontal = analogRead(HORIZ);
// Will be HIGH (1) if not pressed, and LOW (0) if pressed
select = digitalRead(SEL);
// Read the value
// Power be 0-1023
iPower = analogRead( iSP1 );
}
// Thumb Joystick
void isThumbJoystick() {
// Read all values from the joystick
// Joystick was sitting around 520 for the vertical and horizontal values
// Will be 0-1023
vertical = analogRead(VERT);
// Will be 0-1023
horizontal = analogRead(HORIZ);
// Will be HIGH (1) if not pressed, and LOW (0) if pressed
select = digitalRead(SEL);
// Read the value
// Power be 0-1023
iPower = analogRead( iSP1 );
}
// Thumb Joystick
void isThumbJoystick() {
// Read all values from the joystick
// Joystick was sitting around 520 for the vertical and horizontal values
// Will be 0-1023
vertical = analogRead(VERT);
// Will be 0-1023
horizontal = analogRead(HORIZ);
// Will be HIGH (1) if not pressed, and LOW (0) if pressed
select = digitalRead(SEL);
// Read the value
// Power be 0-1023
iPower = analogRead( iSP1 );
}
setup.ino
// Setup
void setup()
{
// EEPROM Unit ID
isUID();
// Pause
delay(5);
// Make the SEL line an input
pinMode(SEL, INPUT_PULLUP);
// Open Serial1 port at 9600 baud
Serial1.begin( 9600 );
// Pause
delay(5);
}
// Setup
void setup()
{
// EEPROM Unit ID
isUID();
// Pause
delay(5);
// Make the SEL line an input
pinMode(SEL, INPUT_PULLUP);
// Open Serial1 port at 9600 baud
Serial1.begin( 9600 );
// Pause
delay(5);
}
// Setup
void setup()
{
// EEPROM Unit ID
isUID();
// Pause
delay(5);
// Make the SEL line an input
pinMode(SEL, INPUT_PULLUP);
// Open Serial1 port at 9600 baud
Serial1.begin( 9600 );
// Pause
delay(5);
}
——
Arduino Pro Mini 328 – 5V/16MHz – Receiver
XBee S1: Receiver
CH Channel: C
PAN Id: 3333
SH Serial Number: 13A200
SL Serial Number: 4076E2C5
CE Coordinator: End Device
BD: 9600
RX0 – Digital 0
TX0 – Digital 1
M11 – Digital 2
M12 – Digital 3
M21 – Digital 4
M22 – Digital 5
NEO – Digital 6
VIN – +5V
GND – GND
DL2202Mk01r.ino
/* ***** Don Luc Electronics © *****
Software Version Information
Project #12: Robotics - Steren 155 - Mk21
02-01
Receiver
DL2202Mk01r.ino
1 x Arduino Pro Mini 328 - 5V/16MHz
1 x SparkFun FTDI Basic Breakout - 5V
1 x XBee S1
1 x XBee Explorer Regulated
1 x USB/DC Lithium Polymer Battery Charger
1 x Mountable Slide Switch
1 x Lithium Ion Battery - 2500mAh
1 x RGB Smart NeoPixel
2 x DRV8835 Dual Motor Driver Carrier
2 x Solarbotics RM2
2 x Pololu Universal Aluminum Mounting Hub 3mm Shaft, #4-40 Holes
2 x Pololu Mini Plastic Gearmotor Bracket Pair - Wide
1 x Steren Model 155
2 x Adafruit Perma-Proto Quarter-Sized Breadboard
1 x SparkFun Cerberus USB Cable
*/
// Include the library code:
// EEPROM library to read and write EEPROM with unique ID for unit
#include <EEPROM.h>
// NeoPixels
#include <Adafruit_NeoPixel.h>
// Solarbotics RM2 -> 1
#define MOTOR1_IN1 2
#define MOTOR1_IN2 3
// Solarbotics RM2 -> 2
#define MOTOR2_IN1 4
#define MOTOR2_IN2 5
// Power be 0-1023
int iPower = 0;
String POW = "";
// Joystick was sitting around 520 for the vertical and horizontal values
// Will be 0-1023
// Vertical
int vertical;
String VER = "";
// Horizontal
// Will be 0-1023
int horizontal;
String HOR = "";
// Select
// Will be HIGH (1) if not pressed, and LOW (0) if pressed
int select1 = 0;
String SEL = "";
int firstClosingBracket = 0;
// Map Vertical and Horizontal
int mapVer = 0;
int mapHor = 0;
int iVer = 1;
int iHor = 0;
// NeoPixels
// On digital pin 6
#define PIN 6
// NeoPixels NUMPIXELS = 1
#define NUMPIXELS 1
// Pixels
Adafruit_NeoPixel pixels = Adafruit_NeoPixel(NUMPIXELS, PIN, NEO_GRB + NEO_KHZ800);
// Red
int red = 0;
// Green
int green = 0;
// Blue
int blue = 0;
// Neopix
int iNeo = 0;
// Value
int zz = 0;
// Process Message
// Start
bool bStart = false;
// End
bool bEnd = false;
// Variable to store the incoming byte
int incb = 0;
// Message
String msg = "";
// Index
byte in = 0;
int x = 0;
// Software Version Information
String sver = "12-21r";
// Unit ID information
String uid = "";
void loop() {
// Check for serial messages
isProcessMessage();
}
/* ***** Don Luc Electronics © *****
Software Version Information
Project #12: Robotics - Steren 155 - Mk21
02-01
Receiver
DL2202Mk01r.ino
1 x Arduino Pro Mini 328 - 5V/16MHz
1 x SparkFun FTDI Basic Breakout - 5V
1 x XBee S1
1 x XBee Explorer Regulated
1 x USB/DC Lithium Polymer Battery Charger
1 x Mountable Slide Switch
1 x Lithium Ion Battery - 2500mAh
1 x RGB Smart NeoPixel
2 x DRV8835 Dual Motor Driver Carrier
2 x Solarbotics RM2
2 x Pololu Universal Aluminum Mounting Hub 3mm Shaft, #4-40 Holes
2 x Pololu Mini Plastic Gearmotor Bracket Pair - Wide
1 x Steren Model 155
2 x Adafruit Perma-Proto Quarter-Sized Breadboard
1 x SparkFun Cerberus USB Cable
*/
// Include the library code:
// EEPROM library to read and write EEPROM with unique ID for unit
#include <EEPROM.h>
// NeoPixels
#include <Adafruit_NeoPixel.h>
// Solarbotics RM2 -> 1
#define MOTOR1_IN1 2
#define MOTOR1_IN2 3
// Solarbotics RM2 -> 2
#define MOTOR2_IN1 4
#define MOTOR2_IN2 5
// Power be 0-1023
int iPower = 0;
String POW = "";
// Joystick was sitting around 520 for the vertical and horizontal values
// Will be 0-1023
// Vertical
int vertical;
String VER = "";
// Horizontal
// Will be 0-1023
int horizontal;
String HOR = "";
// Select
// Will be HIGH (1) if not pressed, and LOW (0) if pressed
int select1 = 0;
String SEL = "";
int firstClosingBracket = 0;
// Map Vertical and Horizontal
int mapVer = 0;
int mapHor = 0;
int iVer = 1;
int iHor = 0;
// NeoPixels
// On digital pin 6
#define PIN 6
// NeoPixels NUMPIXELS = 1
#define NUMPIXELS 1
// Pixels
Adafruit_NeoPixel pixels = Adafruit_NeoPixel(NUMPIXELS, PIN, NEO_GRB + NEO_KHZ800);
// Red
int red = 0;
// Green
int green = 0;
// Blue
int blue = 0;
// Neopix
int iNeo = 0;
// Value
int zz = 0;
// Process Message
// Start
bool bStart = false;
// End
bool bEnd = false;
// Variable to store the incoming byte
int incb = 0;
// Message
String msg = "";
// Index
byte in = 0;
int x = 0;
// Software Version Information
String sver = "12-21r";
// Unit ID information
String uid = "";
void loop() {
// Check for serial messages
isProcessMessage();
}
/* ***** Don Luc Electronics © *****
Software Version Information
Project #12: Robotics - Steren 155 - Mk21
02-01
Receiver
DL2202Mk01r.ino
1 x Arduino Pro Mini 328 - 5V/16MHz
1 x SparkFun FTDI Basic Breakout - 5V
1 x XBee S1
1 x XBee Explorer Regulated
1 x USB/DC Lithium Polymer Battery Charger
1 x Mountable Slide Switch
1 x Lithium Ion Battery - 2500mAh
1 x RGB Smart NeoPixel
2 x DRV8835 Dual Motor Driver Carrier
2 x Solarbotics RM2
2 x Pololu Universal Aluminum Mounting Hub 3mm Shaft, #4-40 Holes
2 x Pololu Mini Plastic Gearmotor Bracket Pair - Wide
1 x Steren Model 155
2 x Adafruit Perma-Proto Quarter-Sized Breadboard
1 x SparkFun Cerberus USB Cable
*/
// Include the library code:
// EEPROM library to read and write EEPROM with unique ID for unit
#include <EEPROM.h>
// NeoPixels
#include <Adafruit_NeoPixel.h>
// Solarbotics RM2 -> 1
#define MOTOR1_IN1 2
#define MOTOR1_IN2 3
// Solarbotics RM2 -> 2
#define MOTOR2_IN1 4
#define MOTOR2_IN2 5
// Power be 0-1023
int iPower = 0;
String POW = "";
// Joystick was sitting around 520 for the vertical and horizontal values
// Will be 0-1023
// Vertical
int vertical;
String VER = "";
// Horizontal
// Will be 0-1023
int horizontal;
String HOR = "";
// Select
// Will be HIGH (1) if not pressed, and LOW (0) if pressed
int select1 = 0;
String SEL = "";
int firstClosingBracket = 0;
// Map Vertical and Horizontal
int mapVer = 0;
int mapHor = 0;
int iVer = 1;
int iHor = 0;
// NeoPixels
// On digital pin 6
#define PIN 6
// NeoPixels NUMPIXELS = 1
#define NUMPIXELS 1
// Pixels
Adafruit_NeoPixel pixels = Adafruit_NeoPixel(NUMPIXELS, PIN, NEO_GRB + NEO_KHZ800);
// Red
int red = 0;
// Green
int green = 0;
// Blue
int blue = 0;
// Neopix
int iNeo = 0;
// Value
int zz = 0;
// Process Message
// Start
bool bStart = false;
// End
bool bEnd = false;
// Variable to store the incoming byte
int incb = 0;
// Message
String msg = "";
// Index
byte in = 0;
int x = 0;
// Software Version Information
String sver = "12-21r";
// Unit ID information
String uid = "";
void loop() {
// Check for serial messages
isProcessMessage();
}
getEEPROM.ino
// EEPROM
// isUID
void isUID()
{
// Is Unit ID
uid = "";
for (int x = 0; x < 5; x++)
{
uid = uid + char(EEPROM.read(x));
}
}
// EEPROM
// isUID
void isUID()
{
// Is Unit ID
uid = "";
for (int x = 0; x < 5; x++)
{
uid = uid + char(EEPROM.read(x));
}
}
// EEPROM
// isUID
void isUID()
{
// Is Unit ID
uid = "";
for (int x = 0; x < 5; x++)
{
uid = uid + char(EEPROM.read(x));
}
}
getNeopix.ino
// NeoPixels
// Neopix
void isNeopix()
{
// Pixels
pixels.setBrightness( 130 );
// Pixels color takes RGB values, from 0,0,0 up to 255,255,255
pixels.setPixelColor( iNeo, pixels.Color(red,green,blue) );
// This sends the updated pixel color to the hardware
pixels.show();
// Delay for a period of time (in milliseconds)
delay(50);
}
// isNUMPIXELS
void isNUMPIXELS()
{
// Neopix Value
switch ( zz ) {
case 0:
// NeoPixels Green
// Red
red = 0;
// Green
green = 255;
// Blue
blue = 0;
// Neopix
iNeo = 0;
isNeopix();
break;
case 1:
// NeoPixels Blue
// Red
red = 0;
// Green
green = 0;
// Blue
blue = 255;
// Neopix
iNeo = 0;
isNeopix();
break;
case 2:
// NeoPixels Red
// Red
red = 255;
// Green
green = 0;
// Blue
blue = 0;
// Neopix
iNeo = 0;
isNeopix();
break;
case 3:
// NeoPixels Yellow
// Red
red = 255;
// Green
green = 255;
// Blue
blue = 0;
// Neopix
iNeo = 0;
isNeopix();
break;
case 4:
// NeoPixels Magenta
// Red
red = 255;
// Green
green = 0;
// Blue
blue = 255;
// Neopix
iNeo = 0;
isNeopix();
break;
case 5:
// NeoPixels Cyan
// Red
red = 0;
// Green
green = 255;
// Blue
blue = 255;
// Neopix
iNeo = 0;
isNeopix();
break;
case 6:
// NeoPixels White
// Red
red = 255;
// Green
green = 255;
// Blue
blue = 255;
// Neopix
iNeo = 0;
isNeopix();
break;
}
}
// isNUMPIXELSoff
void isNUMPIXELSoff()
{
// Black Off
// NeoPixels
// Red
red = 0;
// Green
green = 0;
// Blue
blue = 0;
isNeopix();
}
// NeoPixels
// Neopix
void isNeopix()
{
// Pixels
pixels.setBrightness( 130 );
// Pixels color takes RGB values, from 0,0,0 up to 255,255,255
pixels.setPixelColor( iNeo, pixels.Color(red,green,blue) );
// This sends the updated pixel color to the hardware
pixels.show();
// Delay for a period of time (in milliseconds)
delay(50);
}
// isNUMPIXELS
void isNUMPIXELS()
{
// Neopix Value
switch ( zz ) {
case 0:
// NeoPixels Green
// Red
red = 0;
// Green
green = 255;
// Blue
blue = 0;
// Neopix
iNeo = 0;
isNeopix();
break;
case 1:
// NeoPixels Blue
// Red
red = 0;
// Green
green = 0;
// Blue
blue = 255;
// Neopix
iNeo = 0;
isNeopix();
break;
case 2:
// NeoPixels Red
// Red
red = 255;
// Green
green = 0;
// Blue
blue = 0;
// Neopix
iNeo = 0;
isNeopix();
break;
case 3:
// NeoPixels Yellow
// Red
red = 255;
// Green
green = 255;
// Blue
blue = 0;
// Neopix
iNeo = 0;
isNeopix();
break;
case 4:
// NeoPixels Magenta
// Red
red = 255;
// Green
green = 0;
// Blue
blue = 255;
// Neopix
iNeo = 0;
isNeopix();
break;
case 5:
// NeoPixels Cyan
// Red
red = 0;
// Green
green = 255;
// Blue
blue = 255;
// Neopix
iNeo = 0;
isNeopix();
break;
case 6:
// NeoPixels White
// Red
red = 255;
// Green
green = 255;
// Blue
blue = 255;
// Neopix
iNeo = 0;
isNeopix();
break;
}
}
// isNUMPIXELSoff
void isNUMPIXELSoff()
{
// Black Off
// NeoPixels
// Red
red = 0;
// Green
green = 0;
// Blue
blue = 0;
isNeopix();
}
// NeoPixels
// Neopix
void isNeopix()
{
// Pixels
pixels.setBrightness( 130 );
// Pixels color takes RGB values, from 0,0,0 up to 255,255,255
pixels.setPixelColor( iNeo, pixels.Color(red,green,blue) );
// This sends the updated pixel color to the hardware
pixels.show();
// Delay for a period of time (in milliseconds)
delay(50);
}
// isNUMPIXELS
void isNUMPIXELS()
{
// Neopix Value
switch ( zz ) {
case 0:
// NeoPixels Green
// Red
red = 0;
// Green
green = 255;
// Blue
blue = 0;
// Neopix
iNeo = 0;
isNeopix();
break;
case 1:
// NeoPixels Blue
// Red
red = 0;
// Green
green = 0;
// Blue
blue = 255;
// Neopix
iNeo = 0;
isNeopix();
break;
case 2:
// NeoPixels Red
// Red
red = 255;
// Green
green = 0;
// Blue
blue = 0;
// Neopix
iNeo = 0;
isNeopix();
break;
case 3:
// NeoPixels Yellow
// Red
red = 255;
// Green
green = 255;
// Blue
blue = 0;
// Neopix
iNeo = 0;
isNeopix();
break;
case 4:
// NeoPixels Magenta
// Red
red = 255;
// Green
green = 0;
// Blue
blue = 255;
// Neopix
iNeo = 0;
isNeopix();
break;
case 5:
// NeoPixels Cyan
// Red
red = 0;
// Green
green = 255;
// Blue
blue = 255;
// Neopix
iNeo = 0;
isNeopix();
break;
case 6:
// NeoPixels White
// Red
red = 255;
// Green
green = 255;
// Blue
blue = 255;
// Neopix
iNeo = 0;
isNeopix();
break;
}
}
// isNUMPIXELSoff
void isNUMPIXELSoff()
{
// Black Off
// NeoPixels
// Red
red = 0;
// Green
green = 0;
// Blue
blue = 0;
isNeopix();
}
getProcessMessage.ino
// ProcessMessage
// isProcessMessage
void isProcessMessage() {
// Loop through serial buffer one byte at a time until you reach * which will be end of message
while ( Serial.available() > 0 )
{
// Read the incoming byte:
incb = Serial.read();
// Start the message when the '<' symbol is received
if(incb == '<')
{
// Start
bStart = true;
in = 0;
msg = "";
}
// End the message when the '*' symbol is received
else if(incb == '*')
{
// End
bEnd = true;
x = msg.length();
msg.remove( x , 1);
// Done reading
break;
}
// Read the message
else
{
// Message
msg = msg + char(incb);
in++;
}
}
// Start - End
if( bStart && bEnd)
{
// isRM2Motor => Message
isRM2Motor();
// Start - End
in = 0;
msg = "";
bStart = false;
bEnd = false;
vertical;
horizontal;
iPower;
}
}
// ProcessMessage
// isProcessMessage
void isProcessMessage() {
// Loop through serial buffer one byte at a time until you reach * which will be end of message
while ( Serial.available() > 0 )
{
// Read the incoming byte:
incb = Serial.read();
// Start the message when the '<' symbol is received
if(incb == '<')
{
// Start
bStart = true;
in = 0;
msg = "";
}
// End the message when the '*' symbol is received
else if(incb == '*')
{
// End
bEnd = true;
x = msg.length();
msg.remove( x , 1);
// Done reading
break;
}
// Read the message
else
{
// Message
msg = msg + char(incb);
in++;
}
}
// Start - End
if( bStart && bEnd)
{
// isRM2Motor => Message
isRM2Motor();
// Start - End
in = 0;
msg = "";
bStart = false;
bEnd = false;
vertical;
horizontal;
iPower;
}
}
// ProcessMessage
// isProcessMessage
void isProcessMessage() {
// Loop through serial buffer one byte at a time until you reach * which will be end of message
while ( Serial.available() > 0 )
{
// Read the incoming byte:
incb = Serial.read();
// Start the message when the '<' symbol is received
if(incb == '<')
{
// Start
bStart = true;
in = 0;
msg = "";
}
// End the message when the '*' symbol is received
else if(incb == '*')
{
// End
bEnd = true;
x = msg.length();
msg.remove( x , 1);
// Done reading
break;
}
// Read the message
else
{
// Message
msg = msg + char(incb);
in++;
}
}
// Start - End
if( bStart && bEnd)
{
// isRM2Motor => Message
isRM2Motor();
// Start - End
in = 0;
msg = "";
bStart = false;
bEnd = false;
vertical;
horizontal;
iPower;
}
}
getRM2Motor.ino
// RM2 Motor
// Setup RM2 Motor
void isSetupRM2Motor() {
// Solarbotics RM2 -> 1
pinMode(MOTOR1_IN1, OUTPUT);
pinMode(MOTOR1_IN2, OUTPUT);
// Solarbotics RM2 -> 2
pinMode(MOTOR2_IN1, OUTPUT);
pinMode(MOTOR2_IN2, OUTPUT);
}
// isRM2Motor
void isRM2Motor() {
// msg = vertical + "|" + horizontal + "|" + select + "|" + iValue + "|" + sver + "|" + uid
firstClosingBracket = 0;
// Vertical
firstClosingBracket = msg.indexOf('|');
VER = msg;
VER.remove(firstClosingBracket);
vertical = VER.toInt();
// Horizontal
firstClosingBracket = firstClosingBracket + 1;
msg.remove(0, firstClosingBracket );
firstClosingBracket = msg.indexOf('|');
HOR = msg;
HOR.remove(firstClosingBracket);
horizontal = HOR.toInt();
// Select
firstClosingBracket = firstClosingBracket + 1;
msg.remove(0, firstClosingBracket );
firstClosingBracket = msg.indexOf('|');
SEL = msg;
SEL.remove(firstClosingBracket);
select1 = SEL.toInt();
// Power
firstClosingBracket = firstClosingBracket + 1;
msg.remove(0, firstClosingBracket );
firstClosingBracket = msg.indexOf('|');
POW = msg;
POW.remove(firstClosingBracket);
iPower = POW.toInt();
// Set the direction
// Joystick was sitting around 520 for the vertical and horizontal values
// Will be 0-1023
mapVer = map(vertical, 0, 1023, -512, 512);
mapHor = map(horizontal, 0, 1023, -512, 512);
// Power
iPower = map(iPower, 0, 1023, 30, 200);
// Vertical and Horizontal
if ( mapVer == -512 ) {
// Down
// NeoPixels Blue
zz = 1;
isNUMPIXELS();
iVer = 1;
} else if ( mapVer == 512 ) {
// Up
// NeoPixels Green
zz = 0;
isNUMPIXELS();
iVer = 2;
} else if ( mapHor == -512 ) {
// Left
// NeoPixels Yellow
zz = 3;
isNUMPIXELS();
iVer = 3;
} else if ( mapHor == 512 ) {
// Right
// NeoPixels Magenta
zz = 4;
isNUMPIXELS();
iVer = 4;
} else {
// Stop
// NeoPixels Red
zz = 2;
isNUMPIXELS();
iVer = 5;
}
// XBee Car
switch ( iVer ) {
case 1:
// Solarbotics RM2 -> 1 Forward
digitalWrite(MOTOR1_IN1, LOW);
analogWrite(MOTOR1_IN2, iPower);
delay(10);
// Solarbotics RM2 -> 2 Forward
digitalWrite(MOTOR2_IN1, LOW);
analogWrite(MOTOR2_IN2, iPower);
delay(10);
break;
case 2:
// Solarbotics RM2 -> 1 Backward
digitalWrite(MOTOR1_IN2, LOW);
analogWrite(MOTOR1_IN1, iPower);
delay(10);
// Solarbotics RM2 -> 2 Backward
digitalWrite(MOTOR2_IN2, LOW);
analogWrite(MOTOR2_IN1, iPower);
delay(10);
break;
case 3:
// Right
// Solarbotics RM2 -> 1 Forward
digitalWrite(MOTOR1_IN1, LOW);
analogWrite(MOTOR1_IN2, iPower);
delay(10);
// Solarbotics RM2 -> 2 Backward
digitalWrite(MOTOR2_IN2, LOW);
analogWrite(MOTOR2_IN1, iPower);
delay(10);
break;
case 4:
// Left
// Solarbotics RM2 -> 1 Backward
digitalWrite(MOTOR1_IN2, LOW);
analogWrite(MOTOR1_IN1, iPower);
delay(10);
// Solarbotics RM2 -> 2 Forward
digitalWrite(MOTOR2_IN1, LOW);
analogWrite(MOTOR2_IN2, iPower);
delay(10);
break;
case 5:
// Stop
// NeoPixels Red
//zz = 2;
//isNUMPIXELS();
// Solarbotics RM2 -> 1
digitalWrite(MOTOR1_IN1, LOW);
analogWrite(MOTOR1_IN2, 0);
delay(10);
// Solarbotics RM2 -> 2
digitalWrite(MOTOR2_IN1, LOW);
analogWrite(MOTOR2_IN2, 0);
delay(10);
break;
}
}
// RM2 Motor
// Setup RM2 Motor
void isSetupRM2Motor() {
// Solarbotics RM2 -> 1
pinMode(MOTOR1_IN1, OUTPUT);
pinMode(MOTOR1_IN2, OUTPUT);
// Solarbotics RM2 -> 2
pinMode(MOTOR2_IN1, OUTPUT);
pinMode(MOTOR2_IN2, OUTPUT);
}
// isRM2Motor
void isRM2Motor() {
// msg = vertical + "|" + horizontal + "|" + select + "|" + iValue + "|" + sver + "|" + uid
firstClosingBracket = 0;
// Vertical
firstClosingBracket = msg.indexOf('|');
VER = msg;
VER.remove(firstClosingBracket);
vertical = VER.toInt();
// Horizontal
firstClosingBracket = firstClosingBracket + 1;
msg.remove(0, firstClosingBracket );
firstClosingBracket = msg.indexOf('|');
HOR = msg;
HOR.remove(firstClosingBracket);
horizontal = HOR.toInt();
// Select
firstClosingBracket = firstClosingBracket + 1;
msg.remove(0, firstClosingBracket );
firstClosingBracket = msg.indexOf('|');
SEL = msg;
SEL.remove(firstClosingBracket);
select1 = SEL.toInt();
// Power
firstClosingBracket = firstClosingBracket + 1;
msg.remove(0, firstClosingBracket );
firstClosingBracket = msg.indexOf('|');
POW = msg;
POW.remove(firstClosingBracket);
iPower = POW.toInt();
// Set the direction
// Joystick was sitting around 520 for the vertical and horizontal values
// Will be 0-1023
mapVer = map(vertical, 0, 1023, -512, 512);
mapHor = map(horizontal, 0, 1023, -512, 512);
// Power
iPower = map(iPower, 0, 1023, 30, 200);
// Vertical and Horizontal
if ( mapVer == -512 ) {
// Down
// NeoPixels Blue
zz = 1;
isNUMPIXELS();
iVer = 1;
} else if ( mapVer == 512 ) {
// Up
// NeoPixels Green
zz = 0;
isNUMPIXELS();
iVer = 2;
} else if ( mapHor == -512 ) {
// Left
// NeoPixels Yellow
zz = 3;
isNUMPIXELS();
iVer = 3;
} else if ( mapHor == 512 ) {
// Right
// NeoPixels Magenta
zz = 4;
isNUMPIXELS();
iVer = 4;
} else {
// Stop
// NeoPixels Red
zz = 2;
isNUMPIXELS();
iVer = 5;
}
// XBee Car
switch ( iVer ) {
case 1:
// Solarbotics RM2 -> 1 Forward
digitalWrite(MOTOR1_IN1, LOW);
analogWrite(MOTOR1_IN2, iPower);
delay(10);
// Solarbotics RM2 -> 2 Forward
digitalWrite(MOTOR2_IN1, LOW);
analogWrite(MOTOR2_IN2, iPower);
delay(10);
break;
case 2:
// Solarbotics RM2 -> 1 Backward
digitalWrite(MOTOR1_IN2, LOW);
analogWrite(MOTOR1_IN1, iPower);
delay(10);
// Solarbotics RM2 -> 2 Backward
digitalWrite(MOTOR2_IN2, LOW);
analogWrite(MOTOR2_IN1, iPower);
delay(10);
break;
case 3:
// Right
// Solarbotics RM2 -> 1 Forward
digitalWrite(MOTOR1_IN1, LOW);
analogWrite(MOTOR1_IN2, iPower);
delay(10);
// Solarbotics RM2 -> 2 Backward
digitalWrite(MOTOR2_IN2, LOW);
analogWrite(MOTOR2_IN1, iPower);
delay(10);
break;
case 4:
// Left
// Solarbotics RM2 -> 1 Backward
digitalWrite(MOTOR1_IN2, LOW);
analogWrite(MOTOR1_IN1, iPower);
delay(10);
// Solarbotics RM2 -> 2 Forward
digitalWrite(MOTOR2_IN1, LOW);
analogWrite(MOTOR2_IN2, iPower);
delay(10);
break;
case 5:
// Stop
// NeoPixels Red
//zz = 2;
//isNUMPIXELS();
// Solarbotics RM2 -> 1
digitalWrite(MOTOR1_IN1, LOW);
analogWrite(MOTOR1_IN2, 0);
delay(10);
// Solarbotics RM2 -> 2
digitalWrite(MOTOR2_IN1, LOW);
analogWrite(MOTOR2_IN2, 0);
delay(10);
break;
}
}
// RM2 Motor
// Setup RM2 Motor
void isSetupRM2Motor() {
// Solarbotics RM2 -> 1
pinMode(MOTOR1_IN1, OUTPUT);
pinMode(MOTOR1_IN2, OUTPUT);
// Solarbotics RM2 -> 2
pinMode(MOTOR2_IN1, OUTPUT);
pinMode(MOTOR2_IN2, OUTPUT);
}
// isRM2Motor
void isRM2Motor() {
// msg = vertical + "|" + horizontal + "|" + select + "|" + iValue + "|" + sver + "|" + uid
firstClosingBracket = 0;
// Vertical
firstClosingBracket = msg.indexOf('|');
VER = msg;
VER.remove(firstClosingBracket);
vertical = VER.toInt();
// Horizontal
firstClosingBracket = firstClosingBracket + 1;
msg.remove(0, firstClosingBracket );
firstClosingBracket = msg.indexOf('|');
HOR = msg;
HOR.remove(firstClosingBracket);
horizontal = HOR.toInt();
// Select
firstClosingBracket = firstClosingBracket + 1;
msg.remove(0, firstClosingBracket );
firstClosingBracket = msg.indexOf('|');
SEL = msg;
SEL.remove(firstClosingBracket);
select1 = SEL.toInt();
// Power
firstClosingBracket = firstClosingBracket + 1;
msg.remove(0, firstClosingBracket );
firstClosingBracket = msg.indexOf('|');
POW = msg;
POW.remove(firstClosingBracket);
iPower = POW.toInt();
// Set the direction
// Joystick was sitting around 520 for the vertical and horizontal values
// Will be 0-1023
mapVer = map(vertical, 0, 1023, -512, 512);
mapHor = map(horizontal, 0, 1023, -512, 512);
// Power
iPower = map(iPower, 0, 1023, 30, 200);
// Vertical and Horizontal
if ( mapVer == -512 ) {
// Down
// NeoPixels Blue
zz = 1;
isNUMPIXELS();
iVer = 1;
} else if ( mapVer == 512 ) {
// Up
// NeoPixels Green
zz = 0;
isNUMPIXELS();
iVer = 2;
} else if ( mapHor == -512 ) {
// Left
// NeoPixels Yellow
zz = 3;
isNUMPIXELS();
iVer = 3;
} else if ( mapHor == 512 ) {
// Right
// NeoPixels Magenta
zz = 4;
isNUMPIXELS();
iVer = 4;
} else {
// Stop
// NeoPixels Red
zz = 2;
isNUMPIXELS();
iVer = 5;
}
// XBee Car
switch ( iVer ) {
case 1:
// Solarbotics RM2 -> 1 Forward
digitalWrite(MOTOR1_IN1, LOW);
analogWrite(MOTOR1_IN2, iPower);
delay(10);
// Solarbotics RM2 -> 2 Forward
digitalWrite(MOTOR2_IN1, LOW);
analogWrite(MOTOR2_IN2, iPower);
delay(10);
break;
case 2:
// Solarbotics RM2 -> 1 Backward
digitalWrite(MOTOR1_IN2, LOW);
analogWrite(MOTOR1_IN1, iPower);
delay(10);
// Solarbotics RM2 -> 2 Backward
digitalWrite(MOTOR2_IN2, LOW);
analogWrite(MOTOR2_IN1, iPower);
delay(10);
break;
case 3:
// Right
// Solarbotics RM2 -> 1 Forward
digitalWrite(MOTOR1_IN1, LOW);
analogWrite(MOTOR1_IN2, iPower);
delay(10);
// Solarbotics RM2 -> 2 Backward
digitalWrite(MOTOR2_IN2, LOW);
analogWrite(MOTOR2_IN1, iPower);
delay(10);
break;
case 4:
// Left
// Solarbotics RM2 -> 1 Backward
digitalWrite(MOTOR1_IN2, LOW);
analogWrite(MOTOR1_IN1, iPower);
delay(10);
// Solarbotics RM2 -> 2 Forward
digitalWrite(MOTOR2_IN1, LOW);
analogWrite(MOTOR2_IN2, iPower);
delay(10);
break;
case 5:
// Stop
// NeoPixels Red
//zz = 2;
//isNUMPIXELS();
// Solarbotics RM2 -> 1
digitalWrite(MOTOR1_IN1, LOW);
analogWrite(MOTOR1_IN2, 0);
delay(10);
// Solarbotics RM2 -> 2
digitalWrite(MOTOR2_IN1, LOW);
analogWrite(MOTOR2_IN2, 0);
delay(10);
break;
}
}
setup.ino
// Setup
void setup() {
// Open the serial port at 9600 bps:
Serial.begin( 9600 );
// Pause
delay(5);
// EEPROM Unit ID
isUID();
// Pause
delay(5);
// Setup Solarbotics RM2 Motor
isSetupRM2Motor();
// Pause
delay(5);
// NeoPixels
// This initializes the NeoPixel library
pixels.begin();
// Delay for a period of time (in milliseconds)
delay(50);
// isNUMPIXELS Off
isNUMPIXELSoff();
}
// Setup
void setup() {
// Open the serial port at 9600 bps:
Serial.begin( 9600 );
// Pause
delay(5);
// EEPROM Unit ID
isUID();
// Pause
delay(5);
// Setup Solarbotics RM2 Motor
isSetupRM2Motor();
// Pause
delay(5);
// NeoPixels
// This initializes the NeoPixel library
pixels.begin();
// Delay for a period of time (in milliseconds)
delay(50);
// isNUMPIXELS Off
isNUMPIXELSoff();
}
// Setup
void setup() {
// Open the serial port at 9600 bps:
Serial.begin( 9600 );
// Pause
delay(5);
// EEPROM Unit ID
isUID();
// Pause
delay(5);
// Setup Solarbotics RM2 Motor
isSetupRM2Motor();
// Pause
delay(5);
// NeoPixels
// This initializes the NeoPixel library
pixels.begin();
// Delay for a period of time (in milliseconds)
delay(50);
// isNUMPIXELS Off
isNUMPIXELSoff();
}
——
People can contact us: https://www.donluc.com/?page_id=1927
Technology Experience
- Single-Board Microcontrollers (PIC, Arduino, Raspberry Pi,Espressif, etc…)
- IoT
- Robotics
- Camera and Video Capture Receiver Stationary, Wheel/Tank and Underwater Vehicle
- Unmanned Vehicles Terrestrial and Marine
- Research & Development (R & D)
- Desktop Applications (Windows, OSX, Linux, Multi-OS, Multi-Tier, etc…)
- Mobile Applications (Android, iOS, Blackberry, Windows Mobile, Windows CE, etc…)
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- Bulletin Boards (phpBB, SMF, Vanilla, jobberBase, etc…)
- eCommerce (WooCommerce, OSCommerce, ZenCart, PayPal Shopping Cart, etc…)
Instructor and E-Mentor
- IoT
- PIC Microcontrollers
- Arduino
- Raspberry Pi
- Espressif
- Robotics
- DOS, Windows, OSX, Linux, iOS, Android, Multi-OS
- Linux-Apache-PHP-MySQL
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J. Luc Paquin – Curriculum Vitae – 2022 English & Español
https://www.jlpconsultants.com/luc/
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Don Luc
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