Programming
Project #12: Robotics – Pololu Ball Caster – Mk22
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#DonLucElectronics #DonLuc #Robotics #Arduino #Fio #ArduinoProMini #XBee #DCMotor #MotorDriver #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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Pololu Ball Caster with 1 Inch Plastic Ball and Ball Bearings
This ball caster uses a 1 inch diameter plastic ball and has an overall height of 1.1 inches (29 mm). The two-part housing snaps together to securely enclose the ball and three ball bearings that minimize friction between the ball and the ABS housing.
This ball caster kit includes a two-part black ABS housing, a 1 inch diameter POM plastic ball, three 3 mm × 7 mm × 3 mm ball bearings, and three dowel pins used to hold the ball bearings. When assembled, the ball caster is capable of rolling in any direction with low friction, making it suitable for use as a third contact point for wheeled, differential-drive robots weighing up to around ten pounds.
The base piece of the housing has holes for three mounting screws and slots for ball bearings. The second part of the housing snaps into the base piece to secure the ball and ball bearings. The assembled ball caster has an overall height of 1.1 inches (29 mm).
DL2202Mk02
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
15 x Standoff – Metal – #4-40 – 3/8 inch
33 x Screw – #4-40 – 1/4 inch
3 x Nut – Nylon Locknut – #4-40
1 x Pololu Ball Caster – 1 Inch Plastic Ball
1 x HDPE – Black on White – 6 inches x 12 inches x 0.25 inch
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
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DL2202Mk02t.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #12: Robotics - Pololu Ball Caster - Mk22 02-02 Transmitter DL2202Mk02t.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 = "12-22t"; // 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)); } }
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( '*' ); }
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 ); }
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); }
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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
DL2202Mk02r.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #12: Robotics - Pololu Ball Caster - Mk22 02-02 Receiver DL2202Mk02r.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 15 x Standoff - Metal - #4-40 - 3/8 inch 33 x Screw - #4-40 - 1/4 inch 3 x Nut - Nylon Locknut - #4-40 1 x Pololu Ball Caster - 1 Inch Plastic Ball 1 x HDPE - Black on White - 6 inches x 12 inches x 0.25 inch 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 = "12-22r"; // 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)); } }
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(); }
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; } }
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; } }
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(); }
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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…)
- Web Applications (LAMP, Scripting, Java, ASP, ASP.NET, RoR, Wakanda, etc…)
- Social Media Programming & Integration (Facebook, Twitter, YouTube, Pinterest, etc…)
- Content Management Systems (WordPress, Drupal, Joomla, Moodle, etc…)
- 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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https://www.jlpconsultants.com/luc/
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Don Luc
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 ); }
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)); } }
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( '*' ); }
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 ); }
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); }
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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(); }
getEEPROM.ino
// 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(); }
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; } }
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; } }
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(); }
——
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…)
- Web Applications (LAMP, Scripting, Java, ASP, ASP.NET, RoR, Wakanda, etc…)
- Social Media Programming & Integration (Facebook, Twitter, YouTube, Pinterest, etc…)
- Content Management Systems (WordPress, Drupal, Joomla, Moodle, etc…)
- 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
Follow Us
J. Luc Paquin – Curriculum Vitae – 2022 English & Español
https://www.jlpconsultants.com/luc/
Web: https://www.donluc.com/
Web: https://www.jlpconsultants.com/
Facebook: https://www.facebook.com/neosteam.labs.9/
YouTube: https://www.youtube.com/channel/UC5eRjrGn1CqkkGfZy0jxEdA
Twitter: https://twitter.com/labs_steam
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Instagram: https://www.instagram.com/neosteamlabs/
Don Luc
Project #12: Robotics – Lithium Polymer Battery Charger – Mk20
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#DonLucElectronics #DonLuc #Robotics #Arduino #Fio #ArduinoProMini #XBee #DCMotor #MotorDriver #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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USB/DC Lithium Polymer Battery Charger 5-12V – 3.7/4.2v Cells
Charge your single-cell lithium ion/polymer battery any which way you like with this board. Other nice things about this charger include multiple LEDs for power & charging status, including a charging LED which will blink when the battery is full. If the charger gets too hot from high-speed charging, it will slow down the charge rate automatically. You can easily adjust the charge rate up to 1.2A or down to 100mA. For use with Adafruit Lipoly/LiIon batteries only. Other batteries may have different voltage, chemistry, polarity or pinout.
- Use USB or DC power – 5 to 12V input
- Charges one single-cell 3.7/4.2v batteries with constant current/constant voltage
- Three indicator LEDs – green for Power, orange for charging and red for error
- Charging LED will blink when the battery is full
- 2 JST connections so you can keep the battery plugged in and powering your project
- Terminal block connections galore just solder in 3.5mm terminal blocks
- Default charge rate is about 500mA, but you can easily change this by soldering in a through-hole resistor on. The chip can do 100-1200 mA charging
- Safety timer will stop charging after about 14 hours
- The chip supports a standard 10K thermistor, which we have stuffed as a standard resistor. You can solder in a thermistor easily
DL2201Mk04
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
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 Half-Size Breadboard
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
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DL2201Mk04t.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #12: Robotics - Lithium Polymer Battery Charger - Mk20 01-04 Transmitter DL2201Mk04t.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 = "12-20t"; // 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)); } }
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( '*' ); }
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 ); }
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); }
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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
——
DL2201Mk04r.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #12: Robotics - Lithium Polymer Battery Charger - Mk20 01-04 Receiver DL2201Mk04r.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 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 Half-Size Breadboard 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 = "12-20r"; // 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)); } }
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(); }
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; } }
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; } }
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(); }
——
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…)
- Web Applications (LAMP, Scripting, Java, ASP, ASP.NET, RoR, Wakanda, etc…)
- Social Media Programming & Integration (Facebook, Twitter, YouTube, Pinterest, etc…)
- Content Management Systems (WordPress, Drupal, Joomla, Moodle, etc…)
- 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
Follow Us
J. Luc Paquin – Curriculum Vitae – 2022 English & Español
https://www.jlpconsultants.com/luc/
Web: https://www.donluc.com/
Web: https://www.jlpconsultants.com/
Facebook: https://www.facebook.com/neosteam.labs.9/
YouTube: https://www.youtube.com/channel/UC5eRjrGn1CqkkGfZy0jxEdA
Twitter: https://twitter.com/labs_steam
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Instagram: https://www.instagram.com/neosteamlabs/
Don Luc
Project #12: Robotics – LiPower Boost Converter – Mk19
——
#DonLucElectronics #DonLuc #Robotics #Arduino #Fio #ArduinoProMini #XBee #DCMotor #MotorDriver #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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LiPower Boost Converter
The LiPower board is based on the incredibly versatile TPS61200 boost converter. The board is configured to be used with a LiPo battery, has solder jumper selectable 5V and 3.3V output, and an under voltage protection of 2.6V. However, the board can also be used as a general purpose buck and boost regulator with an input voltage as low as 0.3V. With such a low input voltage and quiescent current, the board also works well in energy harvesting applications that use low input voltages.
XBee Explorer Regulated
The XBee Explorer Regulated takes care of the 3.3V regulation, signal conditioning, and basic activity indicators. It translates the 5V serial signals to 3.3V so that you can connect a 5V system to any XBee module. The board was conveniently designed to mate directly with Arduino Pro boards for wireless bootloading and USB based configuration. This unit works with all XBee modules including the Series 1 and Series 2.5, standard and Pro versions. Plug an XBee into this breakout and you will have direct access to the serial and programming pins on the XBee unit and will be able to power the XBee with 5V.
DL2201Mk03
1 x Fio v3 – ATmega32U4
1 x Arduino Pro Mini 328 – 5V/16MHz
1 x SparkFun FTDI Basic Breakout – 5V
1 x LiPower Boost Converter
2 x XBee S1
1 x XBee Explorer Regulated
2 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 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 Half-Size Breadboard
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
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DL2201Mk03t.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #12: Robotics - LiPower Boost Converter - Mk19 01-03 DL2201Mk03t.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 = "12-19t"; // 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)); } }
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( '*' ); }
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 ); }
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); }
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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
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DL2201Mk03r.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #12: Robotics - LiPower Boost Converter - Mk19 01-03 DL2201Mk03r.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 LiPower Boost Converter 1 x Lithium Ion Battery - 850mAh 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 Half-Size Breadboard 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 = "12-19r"; // 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)); } }
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(); }
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; } }
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; } }
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(); }
——
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…)
- Web Applications (LAMP, Scripting, Java, ASP, ASP.NET, RoR, Wakanda, etc…)
- Social Media Programming & Integration (Facebook, Twitter, YouTube, Pinterest, etc…)
- Content Management Systems (WordPress, Drupal, Joomla, Moodle, etc…)
- 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
Follow Us
J. Luc Paquin – Curriculum Vitae – 2021 English & Español
https://www.jlpconsultants.com/luc/
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Don Luc
Project #12: Robotics – DC Motor – Mk18
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#DonLucElectronics #DonLuc #Robotics #Arduino #Fio #ArduinoProMini #XBee #DCMotor #MotorDriver #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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DC Motor
A DC motor is any of a class of rotary electrical motors that converts direct current electrical energy into mechanical energy. The most common types rely on the forces produced by magnetic fields. Nearly all types of DC motors have some internal mechanism, either electromechanical or electronic, to periodically change the direction of current in part of the motor.
DC motors were the first form of motor widely used, as they could be powered from existing direct-current lighting power distribution systems. A DC motor’s speed can be controlled over a wide range, using either a variable supply voltage or by changing the strength of current in its field windings. Small DC motors are used in tools, toys, and appliances. The universal motor can operate on direct current but is a lightweight brushed motor used for portable power tools and appliances. Larger DC motors are currently used in propulsion of electric vehicles, elevator and hoists, and in drives for steel rolling mills. The advent of power electronics has made replacement of DC motors with AC motors possible in many applications.
DL2201Mk02
1 x Fio v3 – ATmega32U4
1 x Arduino Pro Mini 328 – 5V/16MHz
1 x SparkFun FTDI Basic Breakout – 5V
2 x XBee S1
1 x XBee Explorer Regulated
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 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 Half-Size Breadboard
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
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DL2201Mk02t.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #12: Robotics - DC Motor - Mk18 01-02 DL2201Mk02t.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 = "12-18t"; // 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)); } }
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( '*' ); }
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 ); }
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); }
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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
——
DL2201Mk02r.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #12: Robotics - DL2201Mk02r - Mk18 01-02 DL2201Mk02r.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 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 Half-Size Breadboard 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 = "12-18r"; // 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)); } }
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(); }
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; } }
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; } }
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(); }
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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…)
- Web Applications (LAMP, Scripting, Java, ASP, ASP.NET, RoR, Wakanda, etc…)
- Social Media Programming & Integration (Facebook, Twitter, YouTube, Pinterest, etc…)
- Content Management Systems (WordPress, Drupal, Joomla, Moodle, etc…)
- 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
Follow Us
J. Luc Paquin – Curriculum Vitae – 2021 English & Español
https://www.jlpconsultants.com/luc/
Web: https://www.donluc.com/
Web: https://www.jlpconsultants.com/
Facebook: https://www.facebook.com/neosteam.labs.9/
YouTube: https://www.youtube.com/channel/UC5eRjrGn1CqkkGfZy0jxEdA
Twitter: https://twitter.com/labs_steam
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Instagram: https://www.instagram.com/neosteamlabs/
Don Luc
Project #12: Robotics – DRV8835 Dual Motor Driver – Mk17
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#DonLucElectronics #DonLuc #Robotics #Arduino #ArduinoUNO #DCMotor #MotorDriver #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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DRV8835 Dual Motor Driver Carrier
This tiny breakout board for TI’s DRV8835 dual motor driver can deliver 1.2 A per channel continuously (1.5 A peak) to a pair of DC motors, and it supports two possible control interfaces for added flexibility of use: IN/IN and PHASE/ENABLE. With an operating voltage range from 0 V to 11 V and built-in protection against reverse-voltage, under-voltage, over-current, and over-temperature, this driver is a great solution for powering up to two small, low-voltage motors. The carrier board has the form factor of a 14-pin DIP package, which makes it easy to use with standard solderless breadboards and 0.1 inch perfboards.
Solarbotics RM2 (High-Power Motor for GM2/3/8/9)
This high-power brushed DC motor fits in the GM2/3/8/9 series of gear motors, offering approximately 3 times the speed, twice the torque and quadruple the power-draw. Retrofitting the gear motor is easy – just remove the motor retainer strap, transfer the pinion gear, and reinstall – that’s it.
DL2201Mk01
1 x Arduino UNO
1 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
2 x Rotary Potentiometer – 10k Ohm
2 x Knob
1 x Half-Size Breadboard
1 x Adafruit Perma-Proto Quarter-Sized Breadboard
1 x SparkFun Cerberus USB Cable
Arduino UNO
M11 – Digital 2
M12 – Digital 3
M21 – Digital 4
M22 – Digital 5
PO0 – Analog A0
PO1 – Analog A1
VIN – +5V
GND – GND
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DL2201Mk01p.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #12: Robotics - DRV8835 Dual Motor Driver - Mk17 01-01 DL2201Mk01p.ino 1 x Arduino UNO 1 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 2 x Rotary Potentiometer - 10k Ohm 2 x Knob 1 x Half-Size Breadboard 1 x Adafruit Perma-Proto Quarter-Sized Breadboard 1 x SparkFun Cerberus USB Cable */ // Include the library code: // Solarbotics RM2 -> 1 #define MOTOR1_IN1 2 #define MOTOR1_IN2 3 // Solarbotics RM2 -> 2 #define MOTOR2_IN1 4 #define MOTOR2_IN2 5 // Rotary Potentiometer -> 1 int s1 = A0; // Speed -> 1 int s1s = 0; // Rotary Potentiometer -> 2 int s2 = A1; // Speed -> 2 int s2s = 0; // Software Version Information String sver = "12-17p"; // Unit ID information String uid = ""; void loop() { // RM2 Motor isRM2Motor(); }
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() { // Rotary Potentiometer -> 1 s1s = analogRead( s1 ); s1s = map(s1s, 0, 1023, 0, 200); // Rotary Potentiometer -> 2 s2s = analogRead( s2 ); s2s = map(s2s, 0, 1023, 0, 200); // Solarbotics RM2 -> 1 Forward digitalWrite(MOTOR1_IN1, LOW); analogWrite(MOTOR1_IN2, s1s); delay(10); // Solarbotics RM2 -> 2 Backward digitalWrite(MOTOR2_IN2, LOW); analogWrite(MOTOR2_IN1, s2s); delay(10); }
setup.ino
// Setup void setup() { // Solarbotics RM2 Motor isSetupRM2Motor(); }
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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…)
- Web Applications (LAMP, Scripting, Java, ASP, ASP.NET, RoR, Wakanda, etc…)
- Social Media Programming & Integration (Facebook, Twitter, YouTube, Pinterest, etc…)
- Content Management Systems (WordPress, Drupal, Joomla, Moodle, etc…)
- 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
Follow Us
J. Luc Paquin – Curriculum Vitae – 2021 English & Español
https://www.jlpconsultants.com/luc/
Web: https://www.donluc.com/
Web: https://www.jlpconsultants.com/
Facebook: https://www.facebook.com/neosteam.labs.9/
YouTube: https://www.youtube.com/channel/UC5eRjrGn1CqkkGfZy0jxEdA
Twitter: https://twitter.com/labs_steam
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Instagram: https://www.instagram.com/neosteamlabs/
Don Luc
Project #12: Robotics – Vertical – Mk15
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#DonLucElectronics #DonLuc #Robotics #Arduino #Fio #XBee #Stepper #EasyDriver #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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Joystick
A joystick is an input device consisting of a stick that pivots on a base and reports its angle or direction to the device it is controlling. A joystick, also known as the control column, is the principal control device in the cockpit of many civilian and military aircraft, either as a centre stick or side-stick. It often has supplementary switches to control various aspects of the aircraft’s flight.
Pololu Adjustable Step-Up Voltage Regulator U1V11A
This compact U1V11A switching step-up voltage regulator efficiently boosts input voltages as low as 0.5 V to an adjustable output voltage between 2 V and 5.25 V. Unlike most boost regulators, the U1V11A offers a true shutdown option that turns off power to the load, and it automatically switches to a linear down-regulation mode when the input voltage exceeds the output.
DL2112Mk05
2 x Fio v3 – ATmega32U4
2 x XBee S1
2 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 LED Green
1 x Pololu Adjustable Step-Up Voltage Regulator U1V11A
2 x EasyDriver
2 x Small Stepper
1 x Nine Volt Battery
1 x 9V Battery Connector
1 x Half-Size Breadboard
1 x Full-Size 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
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DL2112Mk05t.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #12: Robotics - XBee S1 - Transmitter - Mk15 12-05 DL2112Mk05t.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 = 50; // 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 = "12-15t"; // 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)); } }
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( '*' ); }
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 ); }
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); }
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Fio v3 – ATmega32U4 – 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
DR0 – Digital 2
ST0 – Digital 3
DR1 – Digital 4
ST1 – Digital 5
LED – Digital 6
VIN – +3.3V
GND – GND
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DL2112Mk05r.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #12: Robotics - Vertical - Mk15 12-05 DL2112Mk04r.ino 1 x Fio v3 - ATmega32U4 1 x XBee S1 1 x Lithium Ion Battery - 850mAh 1 x LED Green 1 x Pololu Adjustable Step-Up Voltage Regulator U1V11A 2 x EasyDriver 2 x Small Stepper 1 x Nine Volt Battery 1 x 9V Battery Connector 1 x Half-Size Breadboard 1 x Full-Size 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> // LED Green int iLEDGreen = 6; // 2 x EasyDriver - 2 x Stepper // EasyDriver Right int dirPinR = 2; // stepPin Right int stepPinR = 3; // EasyDriver Left int dirPinL = 4; // stepPin Left int stepPinL = 5; // Microsteps int i = 0; // 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 select; String SEL = ""; int firstClosingBracket = 0; // Map Vertical and Horizontal int mapVer = 0; int mapHor = 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 = "12-15r"; // 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)); } }
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 ( Serial1.available() > 0 ) { // Read the incoming byte: incb = Serial1.read(); // Start the message when the '<' symbol is received if(incb == '<') { bStart = true; in = 0; msg = ""; } // End the message when the '*' symbol is received else if(incb == '*') { bEnd = true; x = msg.length(); msg.remove( x , 1); // Done reading break; } // Read the message else { msg = msg + char(incb); in++; //Serial.println( msg ); } } // Start - End if( bStart && bEnd) { // isStepper => msg isStepper(); digitalWrite(iLEDGreen, HIGH); in = 0; msg = ""; bStart = false; bEnd = false; vertical; horizontal; iPower; } }
getStepper.ino
// Stepper // isStepperSetup void isStepperSetup() { // 2 x EasyDriver pinMode(dirPinR, OUTPUT); pinMode(stepPinR, OUTPUT); pinMode(dirPinL, OUTPUT); pinMode(stepPinL, OUTPUT); } // isStepper void isStepper() { // 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); // Power firstClosingBracket = firstClosingBracket + 1; msg.remove(0, firstClosingBracket ); firstClosingBracket = msg.indexOf('|'); POW = msg; POW.remove(firstClosingBracket); iPower = POW.toInt(); // EasyDriver Right // 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); // Vertical if ( mapVer <= 12 ) { // Set the direction HIGH digitalWrite(dirPinR, HIGH); delay(5); digitalWrite(dirPinL, HIGH); delay(5); } else { // Set the direction LOW digitalWrite(dirPinR, LOW); delay(5); digitalWrite(dirPinL, LOW); delay(5); } // Iterate for 200 microsteps for (i = 0; i<200; i++) { // This LOW to HIGH change is what creates the digitalWrite(stepPinR, LOW); // "Rising Edge" so the easydriver knows to when to step. digitalWrite(stepPinR, HIGH); // This delay time is close to top speed. delayMicroseconds(iPower); // This LOW to HIGH change is what creates the digitalWrite(stepPinL, LOW); // "Rising Edge" so the easydriver knows to when to step. digitalWrite(stepPinL, HIGH); // This delay time is close to top speed. delayMicroseconds(iPower); } }
setup.ino
// Setup void setup() { // Open the serial port at 9600 bps: Serial1.begin( 9600 ); // Pause delay(5); // EEPROM Unit ID isUID(); // Pause delay(5); // 2 x EasyDriver isStepperSetup(); // Pause delay(5); // LED Green pinMode(iLEDGreen, OUTPUT); digitalWrite(iLEDGreen, LOW); }
——
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…)
- Web Applications (LAMP, Scripting, Java, ASP, ASP.NET, RoR, Wakanda, etc…)
- Social Media Programming & Integration (Facebook, Twitter, YouTube, Pinterest, etc…)
- Content Management Systems (WordPress, Drupal, Joomla, Moodle, etc…)
- 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
Follow Us
J. Luc Paquin – Curriculum Vitae – 2021 English & Español
https://www.jlpconsultants.com/luc/
Web: https://www.donluc.com/
Web: https://www.jlpconsultants.com/
Facebook: https://www.facebook.com/neosteam.labs.9/
YouTube: https://www.youtube.com/channel/UC5eRjrGn1CqkkGfZy0jxEdA
Twitter: https://twitter.com/labs_steam
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Instagram: https://www.instagram.com/neosteamlabs/
Don Luc
Project #12: Robotics – Transmitter and Receiver – Mk14
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#DonLucElectronics #DonLuc #Robotics #Arduino #Fio #XBee #XBeeS1 #Transmitter #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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Serial
Used for communication between the Arduino board and a computer or other devices. All Arduino boards have at least one serial port, and some have several. Fio v3 ATmega32U4 board, Serial1 pins, 0(RX), 1(TX). On Fio v3 ATmega32U4, pins 0 and 1 are used for communication with the computer. Connecting anything to these pins can interfere with that communication, including causing failed uploads to the board. You can use the Arduino environment’s built-in serial monitor to communicate with an Arduino board. Click the serial monitor button in the toolbar and select the same baud rate used in the call to begin(). Serial communication on pins TX/RX uses TTL logic levels 3.3V . Don’t connect these pins directly to an RS232 serial port, they operate at +/- 12V and can damage your Arduino board.
DL2112Mk04
2 x Fio v3 – ATmega32U4
2 x XBee S1
2 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 LED Green
1 x Half-Size 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
DL2112Mk04t.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #12: Robotics - XBee S1 - Transmitter - Mk14 12-04 DL2112Mk04t.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 = 50; // 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 = "12-14t"; // 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)); } }
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( '*' ); }
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 ); }
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); }
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Fio v3 – ATmega32U4 – 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
LED – Digital 6
VIN – +3.3V
GND – GND
DL2112Mk04r.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #12: Robotics - Receiver - Mk14 12-04 DL2112Mk04r.ino 1 x Fio v3 - ATmega32U4 1 x XBee S1 1 x Lithium Ion Battery - 850mAh 1 x LED Green 1 x Half-Size 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> // LED Green int iLEDGreen = 6; // 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 = "12-14r"; // 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)); } }
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 ( Serial1.available() > 0 ) { // Read the incoming byte: incb = Serial1.read(); // Start the message when the '<' symbol is received if(incb == '<') { bStart = true; in = 0; msg = ""; // Done reading } // End the message when the '*' symbol is received else if(incb == '*') { bEnd = true; x = msg.length(); msg.remove( x , 1); // Done reading break; } // Read the message else { msg = msg + char(incb); in++; } } // Start - End if( bStart && bEnd) { digitalWrite(iLEDGreen, HIGH); in = 0; msg = ""; bStart = false; bEnd = false; } }
setup.ino
// Setup void setup() { // Open the serial port at 9600 bps: Serial1.begin( 9600 ); // Pause delay(5); // EEPROM Unit ID isUID(); // Pause delay(5); // LED Green pinMode(iLEDGreen, OUTPUT); digitalWrite(iLEDGreen, LOW); }
——
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…)
- Web Applications (LAMP, Scripting, Java, ASP, ASP.NET, RoR, Wakanda, etc…)
- Social Media Programming & Integration (Facebook, Twitter, YouTube, Pinterest, etc…)
- Content Management Systems (WordPress, Drupal, Joomla, Moodle, etc…)
- 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
Follow Us
J. Luc Paquin – Curriculum Vitae – 2021 English & Español
https://www.jlpconsultants.com/luc/
Web: https://www.donluc.com/
Web: https://www.jlpconsultants.com/
Facebook: https://www.facebook.com/neosteam.labs.9/
YouTube: https://www.youtube.com/channel/UC5eRjrGn1CqkkGfZy0jxEdA
Twitter: https://twitter.com/labs_steam
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Instagram: https://www.instagram.com/neosteamlabs/
Don Luc
Project #20: CircuitPython – Audio Out WAV – Mk02
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#DonLucElectronics #DonLuc #METROM0Express #CircuitPython #Sound #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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Play a Wave File
You can use any supported wave file you like. CircuitPython supports mono or stereo, at 22 KHz sample rate, or less, and 16-bit WAV format. The METRO M0 Express boards support only mono. The reason for mono is that there’s only one analog output on those boards. The 22 KHz or less because the CircuitPython can’t handle more data than that, and also it will not sound much better, and the DAC output is 10-bit so anything over 16-bit will just take up room without better quality. Since the WAV file must fit on the CircuitPython file system, it must be under 2 MB.
HamletUMk01.wav -> 1316 KB
We’re going to play the wave file for 10 seconds, pause it, wait for a button to be pressed, and then resume the file to play through to the end. Then it loops back to the beginning and starts again. First we create the button object, assign it to pin A1, and set it as an input with a pull-up.
Now we will ask the audio playback system to load the wave data from the file HamletUMk01.wav and finally request that the audio is played through the A0 analog output pin. The audio file is now ready to go, and can be played at any time with play. Inside our loop, we start by playing the file.
DL2112Mk02
1 x Adafruit METRO M0 Express
1 x SparkFun Audio Jack Breakout
1 x Audio Jack 3.5mm
1 x Hamburger Mini Speaker
1 x Tactile Button
1 x 10K potentiometer
1 x Knob
1 x 100uF 16V Electrolytic Capacitors
1 x SparkFun Cerberus USB Cable
Adafruit METRO M0 Express
AUD – Analog A0
BUT – Analog A1
VIN – +3.3V
VIN – +5V
GND – GND
code.py
""" ***** Don Luc Electronics © ***** Software Version Information Project #20: CircuitPython – Audio Out WAV – Mk02 12-02 DL2112Mk02 code.py 1 x Adafruit METRO M0 Express 1 x SparkFun Audio Jack Breakout 1 x Audio Jack 3.5mm 1 x Hamburger Mini Speaker 1 x Tactile Button 1 x 10K potentiometer 1 x Knob 1 x 100uF 16V Electrolytic Capacitors 1 x SparkFun Cerberus USB Cable """ # Module import time import board import digitalio # audiocore -> WaveFile from audiocore import WaveFile try: from audioio import AudioOut except ImportError: try: from audiopwmio import PWMAudioOut as AudioOut except ImportError: # Not always supported by every board. pass # Button A1 button = digitalio.DigitalInOut(board.A1) button.switch_to_input(pull=digitalio.Pull.UP) # William Shakespeare - Hamlet wave_file = open("HamletUMk01.wav", "rb") wave = WaveFile(wave_file) # audio -> A0 audio = AudioOut(board.A0) while True: # Play audio.play(wave) # This allows you to do other things while the audio plays. t = time.monotonic() # -> 10 second while time.monotonic() - t < 10: pass audio.pause() print("Waiting for button press to continue.") while button.value: pass # Resume audio.resume() while audio.playing: pass # Done print("Done")
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
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Instructor and E-Mentor
- IoT
- PIC Microcontrollers
- Arduino
- Raspberry Pi
- Espressif
- Robotics
- DOS, Windows, OSX, Linux, iOS, Android, Multi-OS
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Follow Us
J. Luc Paquin – Curriculum Vitae - 2021 English & Español
https://www.jlpconsultants.com/luc/
Web: https://www.donluc.com/
Web: https://www.jlpconsultants.com/
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Don Luc
Project #20: CircuitPython – Metro M0 Express Blink – Mk01
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#DonLucElectronics #DonLuc #AdafruitMETROM0Express #CircuitPython #Project #Programming #Electronics #Microcontrollers #Consultant
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Metro is our series of microcontroller boards for use with the Arduino IDE. This new Metro M0 Express board looks a whole lot like our original Metro 328, but with a huge upgrade. Instead of the ATmega328, this Metro features a ATSAMD21G18 chip, an ARM Cortex M0+. It’s our first Metro that is designed for use with CircuitPython. CircuitPython is our beginner-oriented flavor of MicroPython, and as the name hints at, its a small but full-featured version of the popular Python programming language specifically for use with circuitry and electronics.
Not only can you use CircuitPython, but the Metro M0 is also usable in the Arduino IDE.
At the Metro M0’s heart is an ATSAMD21G18 ARM Cortex M0 processor, clocked at 48 MHz and at 3.3V logic, the same one used in the new Arduino Zero. This chip has a whopping 256K of FLASH and 32K of RAM. This chip comes with built in USB so it has USB-to-Serial program and debug capability built in with no need for an FTDI-like chip.
- Power the METRO with 7-9V polarity protected DC or the micro USB connector to any 5V USB source. The 2.1mm DC jack has an on/off switch next to it so you can turn off your setup easily. The METRO will automagically switch between USB and DC.
- METRO has 25 GPIO pins, 12 of which are analog in, and one of which is a true analog out. There’s a hardware SPI port, hardware I2C port and hardware UART. Logic level is 3.3V
- Native USB, there’s no need for a hardware USB to Serial converter as the Metro M0 has built in USB support. When used to act like a serial device, the USB interface can be used by any computer to listen/send data to the METRO, and can also be used to launch and update code via the bootloader. It can also act like a keyboard, mouse or MIDI device as well.
- Four indicator LEDs and one NeoPixel, on the front edge of the PCB, for easy debugging. One green power LED, two RX/TX LEDs for data being sent over USB, and a red LED connected. Next to the reset button there is an RGB NeoPixel that can be used for any purpose.
- 2 MB SPI Flash storage chip is included on board. You can use the SPI Flash storage like a very tiny hard drive. When used in Circuit Python, the 2 MB flash acts as storage for all your scripts, libraries and files. When used in Arduino, you can read/write files to it, like a little datalogger or SD card, and then with our helper program, access the files over USB.
- Easy reprogramming, comes pre-loaded with the UF2 bootloader, which looks like a USB storage key. Simply drag firmware on to program, no special tools or drivers needed. It can be used to load up CircuitPython, PXT/MakeCode or Arduino IDE (it is bossa-compatible)
DL2112Mk01
1 x Adafruit METRO M0 Express
Adafruit METRO M0 Express
VIN – +3.3V
VIN – +5V
GND – GND
code.py
""" ***** Don Luc Electronics © ***** Software Version Information Project #20: CircuitPython – Metro M0 Express Blink – Mk01 12-01 DL2112Mk01 code.py 1 x Adafruit METRO M0 Express """ # Module import board import digitalio import time # Red LED Connected led = digitalio.DigitalInOut(board.LED) led.direction = digitalio.Direction.OUTPUT # Blink while True: led.value = True time.sleep(1.5) led.value = False time.sleep(1.5)
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…)
- Web Applications (LAMP, Scripting, Java, ASP, ASP.NET, RoR, Wakanda, etc…)
- Social Media Programming & Integration (Facebook, Twitter, YouTube, Pinterest, etc…)
- Content Management Systems (WordPress, Drupal, Joomla, Moodle, etc…)
- 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
Follow Us
J. Luc Paquin – Curriculum Vitae – 2021 English & Español
https://www.jlpconsultants.com/luc/
Web: https://www.donluc.com/
Web: https://www.jlpconsultants.com/
Facebook: https://www.facebook.com/neosteam.labs.9/
YouTube: https://www.youtube.com/channel/UC5eRjrGn1CqkkGfZy0jxEdA
Twitter: https://twitter.com/labs_steam
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Instagram: https://www.instagram.com/neosteamlabs/
Don Luc