Technology
Project #12: Robotics – ProtoScrewShield – Mk24
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#DonLucElectronics #DonLuc #Robotics #AdafruitMETROM0Express #Arduino #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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ProtoScrewShield
The ProtoScrewShield extends all pins of the Arduino out to 3.5mm pitch screw terminals. It also has a lot of the utility provided including: a large prototyping space of both connected and unconnected 0.1″ spaced through-holes, a couple 5V and GND busses, a reset button, general use push button, and a 5mm yellow LED. This product includes all the parts shown and comes in kit form and must be soldered together by the end user.
DL2304Mk04
1 x Adafruit METRO M0 Express
1 x ProtoScrewShield
2 x Pololu DRV8834 Low-Voltage Stepper Motor Driver Carrier
2 x Electrolytic Decoupling Capacitors – 100uF/25V
2 x Pololu Stepper Motor Bipolar, 2.8V, 1.7 A/Phase
2 x Pololu Universal Aluminum Mounting Hub for 5mm Shaft, M3 Holes
1 x SparkFun Solderable Breadboard – Large
1 x SparkFun Cerberus USB Cable
Adafruit METRO M0 Express
DIR – Digital 7
SPR – Digital 8
DIL – Digital 9
SPL – Digital 10
LED – LED_BUILTIN
VIN – +3.3V
GND – GND
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DL2304Mk04p.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #12: Robotics - ProtoScrewShield - Mk24 12-24 DL2304Mk04p.ino 1 x Adafruit METRO M0 Express 1 x ProtoScrewShield 2 x Pololu DRV8834 Low-Voltage Stepper Motor Driver Carrier 2 x Electrolytic Decoupling Capacitors - 100uF/25V 2 x Pololu Stepper Motor Bipolar, 2.8V, 1.7 A/Phase 2 x Pololu Universal Aluminum Mounting Hub for 5mm Shaft, M3 Holes 1 x SparkFun Solderable Breadboard - Large 1 x SparkFun Cerberus USB Cable */ // Include the Library Code // Arduino #include <Arduino.h> // DRV8834 Stepper Motor Driver #include <BasicStepperDriver.h> #include <MultiDriver.h> // DRV8834 Stepper Motor Driver // Stepper motor steps per revolution. // Most steppers are 200 steps or 1.8 degrees/step #define MOTOR_STEPS 200 // Target RPM for X axis stepper motor #define MOTOR_X_RPM 800 // Target RPM for Y axis stepper motor #define MOTOR_Y_RPM 800 // Since microstepping is set externally, // make sure this matches the selected mode // If it doesn't, the motor will move at a // different RPM than chosen // 1=full step, 2=half step etc. #define MICROSTEPS 1 // X Stepper motor #define DIR_X 7 #define STEP_X 8 // Y Stepper motor #define DIR_Y 9 #define STEP_Y 10 // BasicStepperDriver BasicStepperDriver stepperX(MOTOR_STEPS, DIR_X, STEP_X); BasicStepperDriver stepperY(MOTOR_STEPS, DIR_Y, STEP_Y); // Pick one of the two controllers below // each motor moves independently MultiDriver controller(stepperX, stepperY); // LED Yellow int iLED = 13; // Software Version Information String sver = "12-24"; void loop() { // Stepper isStepper(); }
getStepper.ino
// Stepper // isStepperSetup void isStepperSetup() { // Set stepper target motors RPM. stepperX.begin(MOTOR_X_RPM, MICROSTEPS); stepperY.begin(MOTOR_Y_RPM, MICROSTEPS); } // Stepper void isStepper() { // Stepper => Controller rotate controller.rotate(360, 360); }
setup.ino
// Setup void setup() { // Initialize digital pin iLED as an output. pinMode(iLED, OUTPUT); // Turn the LED on HIGH digitalWrite(iLED, HIGH); // DRV8834 Stepper Motor Driver isStepperSetup(); }
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People can contact us: https://www.donluc.com/?page_id=1927
Technology Experience
- Programming Language
- Single-Board Microcontrollers (PIC, Arduino, Raspberry Pi,Espressif, etc…)
- IoT
- Wireless (Radio Frequency, Bluetooth, WiFi, Etc…)
- Robotics
- Camera and Video Capture Receiver Stationary, Wheel/Tank and Underwater Vehicle
- Unmanned Vehicles Terrestrial and Marine
- Machine Learning
- RTOS
- Research & Development (R & D)
Instructor, E-Mentor, STEAM, and Arts-Based Training
- Programming Language
- IoT
- PIC Microcontrollers
- Arduino
- Raspberry Pi
- Espressif
- Robotics
Follow Us
Luc Paquin – Curriculum Vitae – 2023
https://www.donluc.com/luc/
Web: https://www.donluc.com/
Facebook: https://www.facebook.com/neosteam.labs.9/
YouTube: https://www.youtube.com/@thesass2063
Twitter: https://twitter.com/labs_steam
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Instagram: https://www.instagram.com/neosteamlabs/
Don Luc
Project #26 – Radio Frequency – 4×4 Offroad Race – Mk15
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#DonLucElectronics #DonLuc #RadioFrequency #Bluetooth #Games #Gamepad #ESP32 #Arduino #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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4×4 Offroad Race
3D off-road racing game. Powerful off-road vehicles, trails and routes running on dirt roads, extreme weather conditions and violent opponents, all that we call 4×4 Offroad Race. You will be able to experience the most powerful four-wheel drive vehicles. You have to overcome terrible roads, do jumps over bumps and potholes and knock opponents off the track to win all the races.
DL2304Mk03
1 x SparkFun Thing Plus – ESP32 WROOM
1 x SparkFun Joystick Shield Kit
1 x Thumb Joystick
1 x SparkFun Thumb Joystick Breakout
1 x Terminal Block Breakout FeatherWing
1 x Lithium Ion Battery – 1 Ah
1 x SparkFun Cerberus USB Cable
SparkFun Thing Plus – ESP32 WROOM
LJH – Analog A3
LJV – Analog A2
LJS – Digital 12
RJH – Analog A1
RJV – Analog A0
RJS – Digital 21
LD1 – Digital 16
LD2 – Digital 18
LD3 – Digital 19
LD4 – Digital 17
LT – Digital 5
LED – LED_BUILTIN
VIN – +3.3V
GND – GND
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DL2304Mk03p.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #26 - Radio Frequency - 4x4 Offroad Race - Mk15 26-15 DL2304Mk03p.ino 1 x SparkFun Thing Plus - ESP32 WROOM 1 x SparkFun Joystick Shield Kit 1 x Thumb Joystick 1 x SparkFun Thumb Joystick Breakout 1 x Terminal Block Breakout FeatherWing 1 x Lithium Ion Battery - 1 Ah 1 x SparkFun Cerberus USB Cable */ // Include the Library Code // Arduino #include <Arduino.h> // ESP32 BLE Gamepad #include <BleGamepad.h> // ESP32 BLE Gamepad BleGamepad bleGamepad; // Left Joystick #define LJH A3 #define LJV A2 #define LJS 12 // Right Joystick #define RJH A0 #define RJV A1 #define RJS 21 // D-pad #define LD1 19 #define LD2 17 #define LD3 18 #define LD4 16 // LT #define LT 5 // Previous Button State int previousButton1State = HIGH; int previousButton2State = HIGH; int previousButton3State = HIGH; int previousButton4State = HIGH; int previousButton5State = HIGH; int previousButton6State = HIGH; int previousButton7State = HIGH; // Number of pot samples to take (to smooth the values) const int numberOfPotSamples = 5; // Delay in milliseconds between pot samples const int delayBetweenSamples = 2; // Additional delay in milliseconds between HID reports const int delayBetweenHIDReports = 5; // Delay in milliseconds between button press const int debounceDelay = 10; // Software Version Information String sver = "26-15"; void loop() { // Bluetooth Serial (ESP32SPP) isBluetooth(); }
getBluetooth.ino
// Bluetooth // isBluetooth void isBluetooth() { // ESP32 BLE Gamepad if(bleGamepad.isConnected()) { // Button isButton(); // Joystick isThumbJoystick(); } }
getGames.ino
// Games // Set Inputs void setInputs() { // Make the button line an input pinMode(LJS, INPUT_PULLUP); pinMode(RJS, INPUT_PULLUP); pinMode(LD1, INPUT_PULLUP); pinMode(LD2, INPUT_PULLUP); pinMode(LD3, INPUT_PULLUP); pinMode(LD4, INPUT_PULLUP); pinMode(LT, INPUT_PULLUP); // Initialize digital pin LED_BUILTIN as an output. pinMode(LED_BUILTIN, OUTPUT); // Turn the LED on HIGH digitalWrite(LED_BUILTIN, HIGH); } // Button void isButton(){ // Button1 State LD1 int currentButton1State = digitalRead(LD1); if (currentButton1State != previousButton1State) { if (currentButton1State == LOW) { bleGamepad.press(BUTTON_1); } else { bleGamepad.release(BUTTON_1); } } previousButton1State = currentButton1State; // Button2 State LD2 int currentButton2State = digitalRead(LD2); if (currentButton2State != previousButton2State) { if (currentButton2State == LOW) { bleGamepad.press(BUTTON_2); } else { bleGamepad.release(BUTTON_2); } } previousButton2State = currentButton2State; // Button3 State LD3 int currentButton3State = digitalRead(LD3); if (currentButton3State != previousButton3State) { if (currentButton3State == LOW) { bleGamepad.press(BUTTON_3); } else { bleGamepad.release(BUTTON_3); } } previousButton3State = currentButton3State; // Button4 State LD4 int currentButton4State = digitalRead(LD4); if (currentButton4State != previousButton4State) { if (currentButton4State == LOW) { bleGamepad.press(BUTTON_4); } else { bleGamepad.release(BUTTON_4); } } previousButton4State = currentButton4State; // Button5 State LJS int currentButton5State = digitalRead(LJS); if (currentButton5State != previousButton5State) { if (currentButton5State == LOW) { bleGamepad.press(BUTTON_5); } else { bleGamepad.release(BUTTON_5); } } previousButton5State = currentButton5State; // Button6 State RJS int currentButton6State = digitalRead(RJS); if (currentButton6State != previousButton6State) { if (currentButton6State == LOW) { bleGamepad.press(BUTTON_6); } else { bleGamepad.release(BUTTON_6); } } previousButton6State = currentButton6State; // Button7 State LT int currentButton7State = digitalRead(LT); if (currentButton7State != previousButton7State) { if (currentButton7State == LOW) { bleGamepad.press(BUTTON_7); } else { bleGamepad.release(BUTTON_7); } } previousButton7State = currentButton7State; }
getThumbJoystick.ino
// Thumb Joystick void isThumbJoystick() { // Joystick LJH // Joystick Pot Values LJH int potValues[numberOfPotSamples]; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValues[i] = analogRead(LJH); delay(delayBetweenSamples); } int potValue = 0; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValue += potValues[i]; } // Value / Pot Samples potValue = potValue / numberOfPotSamples; // Adjusted Value int adjustedValue = map(potValue, 0, 4095, 32737, 0); // Joystick LJV // Joystick Pot Values LJV int potValues2[numberOfPotSamples]; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValues2[i] = analogRead(LJV); delay(delayBetweenSamples); } int potValue2 = 0; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValue2 += potValues2[i]; } // Value2 / Pot Samples potValue2 = potValue2 / numberOfPotSamples; // Adjusted Value2 int adjustedValue2 = map(potValue2, 0, 4095, 32737, 0); // Joystick RJH // Joystick Pot Values RJH int potValues3[numberOfPotSamples]; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValues3[i] = analogRead(RJH); delay(delayBetweenSamples); } int potValue3 = 0; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValue3 += potValues3[i]; } // Value3 / Pot Samples potValue3 = potValue3 / numberOfPotSamples; // Adjusted Value3 int adjustedValue3 = map(potValue3, 0, 4095, 32737, 0); // Joystick RJV // Joystick Pot Values RJV int potValues4[numberOfPotSamples]; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValues4[i] = analogRead(RJV); delay(delayBetweenSamples); } int potValue4 = 0; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValue4 += potValues4[i]; } // Value4 / Pot Samples potValue4 = potValue4 / numberOfPotSamples; // Adjusted Value4 int adjustedValue4 = map(potValue4, 0, 4095, 0, 32737); //bleGamepad.setAxes(adjustedValue, adjustedValue2, 0, 0, adjustedValue3, adjustedValue4, DPAD_CENTERED); bleGamepad.setAxes(adjustedValue, adjustedValue2, adjustedValue4, 0, adjustedValue3, 0, DPAD_CENTERED); delay(delayBetweenHIDReports); // D-pad // LD1 if (digitalRead(LD1) == LOW){ bleGamepad.setAxes(adjustedValue, adjustedValue2, adjustedValue4, 0, adjustedValue3, 0, DPAD_UP); } // LD2 if (digitalRead(LD2) == LOW){ bleGamepad.setAxes(adjustedValue, adjustedValue2, adjustedValue4, 0, adjustedValue3, 0, DPAD_LEFT); } // LD3 if (digitalRead(LD3) == LOW){ bleGamepad.setAxes(adjustedValue, adjustedValue2, adjustedValue4, 0, adjustedValue3, 0, DPAD_DOWN); } // LD4 if (digitalRead(LD4) == LOW){ bleGamepad.setAxes(adjustedValue, adjustedValue2, adjustedValue4, 0, adjustedValue3, 0, DPAD_RIGHT); } }
setup.ino
// Setup void setup() { // Set Inputs setInputs(); // ESP32 BLE Gamepad bleGamepad.begin(); }
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People can contact us: https://www.donluc.com/?page_id=1927
Technology Experience
- Programming Language
- Single-Board Microcontrollers (PIC, Arduino, Raspberry Pi,Espressif, etc…)
- IoT
- Wireless (Radio Frequency, Bluetooth, WiFi, Etc…)
- Robotics
- Camera and Video Capture Receiver Stationary, Wheel/Tank and Underwater Vehicle
- Unmanned Vehicles Terrestrial and Marine
- Machine Learning
- RTOS
- Research & Development (R & D)
Instructor, E-Mentor, STEAM, and Arts-Based Training
- Programming Language
- IoT
- PIC Microcontrollers
- Arduino
- Raspberry Pi
- Espressif
- Robotics
Follow Us
Luc Paquin – Curriculum Vitae – 2023
https://www.donluc.com/luc/
Web: https://www.donluc.com/
Facebook: https://www.facebook.com/neosteam.labs.9/
YouTube: https://www.youtube.com/@thesass2063
Twitter: https://twitter.com/labs_steam
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Instagram: https://www.instagram.com/neosteamlabs/
Don Luc
Project #26 – Radio Frequency – Gamepad Tester – Mk14
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#DonLucElectronics #DonLuc #RadioFrequency #Bluetooth #JoystickTest #Gamepad #ESP32 #Arduino #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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Controller & Gamepad Tester
You can begin testing your controller or gamepad by pressing a button or moving one of the analog sticks on your gamepad. When you press a button or move an analog stick, the illustration above should light up or display the movement of your analog stick. When we detect movement or button presses, the “Controller Detected” message will show up with your controller’s name in it. If you have multiple controllers or gamepads connected, then please try them one by one. Even though the illustration represents an Xbox controller, the test also works with other similar controllers.
DL2304Mk02
1 x SparkFun Thing Plus – ESP32 WROOM
1 x SparkFun Joystick Shield Kit
1 x Thumb Joystick
1 x SparkFun Thumb Joystick Breakout
1 x Terminal Block Breakout FeatherWing
1 x Lithium Ion Battery – 1 Ah
1 x SparkFun Cerberus USB Cable
SparkFun Thing Plus – ESP32 WROOM
LJH – Analog A3
LJV – Analog A2
LJS – Digital 12
RJH – Analog A1
RJV – Analog A0
RJS – Digital 21
LD1 – Digital 16
LD2 – Digital 18
LD3 – Digital 19
LD4 – Digital 17
LT – Digital 5
LED – LED_BUILTIN
VIN – +3.3V
GND – GND
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DL2304Mk02p.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #26 - Radio Frequency - - Mk14 26-14 DL2304Mk02p.ino 1 x SparkFun Thing Plus - ESP32 WROOM 1 x SparkFun Joystick Shield Kit 1 x Thumb Joystick 1 x SparkFun Thumb Joystick Breakout 1 x Terminal Block Breakout FeatherWing 1 x Lithium Ion Battery - 1 Ah 1 x SparkFun Cerberus USB Cable */ // Include the Library Code // Arduino #include <Arduino.h> // ESP32 BLE Gamepad #include <BleGamepad.h> // ESP32 BLE Gamepad BleGamepad bleGamepad; // Left Joystick #define LJH A3 #define LJV A2 #define LJS 12 // Right Joystick #define RJH A0 #define RJV A1 #define RJS 21 // D-pad #define LD1 19 #define LD2 17 #define LD3 18 #define LD4 16 // LT #define LT 5 // Previous Button State int previousButton1State = HIGH; int previousButton2State = HIGH; int previousButton3State = HIGH; int previousButton4State = HIGH; int previousButton5State = HIGH; int previousButton6State = HIGH; int previousButton7State = HIGH; // Number of pot samples to take (to smooth the values) const int numberOfPotSamples = 5; // Delay in milliseconds between pot samples const int delayBetweenSamples = 2; // Additional delay in milliseconds between HID reports const int delayBetweenHIDReports = 5; // Delay in milliseconds between button press const int debounceDelay = 10; // Software Version Information String sver = "26-14"; void loop() { // Bluetooth Serial (ESP32SPP) isBluetooth(); }
getBluetooth.ino
// Bluetooth // isBluetooth void isBluetooth() { // ESP32 BLE Gamepad if(bleGamepad.isConnected()) { // Button isButton(); // Joystick isThumbJoystick(); } }
getGames.ino
// Games // Set Inputs void setInputs() { // Make the button line an input pinMode(LJS, INPUT_PULLUP); pinMode(RJS, INPUT_PULLUP); pinMode(LD1, INPUT_PULLUP); pinMode(LD2, INPUT_PULLUP); pinMode(LD3, INPUT_PULLUP); pinMode(LD4, INPUT_PULLUP); pinMode(LT, INPUT_PULLUP); // Initialize digital pin LED_BUILTIN as an output. pinMode(LED_BUILTIN, OUTPUT); // Turn the LED on HIGH digitalWrite(LED_BUILTIN, HIGH); } // Button void isButton(){ // Button1 State LD1 int currentButton1State = digitalRead(LD1); if (currentButton1State != previousButton1State) { if (currentButton1State == LOW) { bleGamepad.press(BUTTON_1); } else { bleGamepad.release(BUTTON_1); } } previousButton1State = currentButton1State; // Button2 State LD2 int currentButton2State = digitalRead(LD2); if (currentButton2State != previousButton2State) { if (currentButton2State == LOW) { bleGamepad.press(BUTTON_2); } else { bleGamepad.release(BUTTON_2); } } previousButton2State = currentButton2State; // Button3 State LD3 int currentButton3State = digitalRead(LD3); if (currentButton3State != previousButton3State) { if (currentButton3State == LOW) { bleGamepad.press(BUTTON_3); } else { bleGamepad.release(BUTTON_3); } } previousButton3State = currentButton3State; // Button4 State LD4 int currentButton4State = digitalRead(LD4); if (currentButton4State != previousButton4State) { if (currentButton4State == LOW) { bleGamepad.press(BUTTON_4); } else { bleGamepad.release(BUTTON_4); } } previousButton4State = currentButton4State; // Button5 State LJS int currentButton5State = digitalRead(LJS); if (currentButton5State != previousButton5State) { if (currentButton5State == LOW) { bleGamepad.press(BUTTON_5); } else { bleGamepad.release(BUTTON_5); } } previousButton5State = currentButton5State; // Button6 State RJS int currentButton6State = digitalRead(RJS); if (currentButton6State != previousButton6State) { if (currentButton6State == LOW) { bleGamepad.press(BUTTON_6); } else { bleGamepad.release(BUTTON_6); } } previousButton6State = currentButton6State; // Button7 State LT int currentButton7State = digitalRead(LT); if (currentButton7State != previousButton7State) { if (currentButton7State == LOW) { bleGamepad.press(BUTTON_7); } else { bleGamepad.release(BUTTON_7); } } previousButton7State = currentButton7State; }
getThumbJoystick.ino
// Thumb Joystick void isThumbJoystick() { // Joystick LJH // Joystick Pot Values LJH int potValues[numberOfPotSamples]; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValues[i] = analogRead(LJH); delay(delayBetweenSamples); } int potValue = 0; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValue += potValues[i]; } // Value / Pot Samples potValue = potValue / numberOfPotSamples; // Adjusted Value int adjustedValue = map(potValue, 0, 4095, 32737, 0); // Joystick LJV // Joystick Pot Values LJV int potValues2[numberOfPotSamples]; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValues2[i] = analogRead(LJV); delay(delayBetweenSamples); } int potValue2 = 0; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValue2 += potValues2[i]; } // Value2 / Pot Samples potValue2 = potValue2 / numberOfPotSamples; // Adjusted Value2 int adjustedValue2 = map(potValue2, 0, 4095, 32737, 0); // Joystick RJH // Joystick Pot Values RJH int potValues3[numberOfPotSamples]; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValues3[i] = analogRead(RJH); delay(delayBetweenSamples); } int potValue3 = 0; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValue3 += potValues3[i]; } // Value3 / Pot Samples potValue3 = potValue3 / numberOfPotSamples; // Adjusted Value3 int adjustedValue3 = map(potValue3, 0, 4095, 32737, 0); Serial.print(" RJH: "); Serial.println(potValue3); // Joystick RJV // Joystick Pot Values RJV int potValues4[numberOfPotSamples]; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValues4[i] = analogRead(RJV); delay(delayBetweenSamples); } int potValue4 = 0; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValue4 += potValues4[i]; } // Value4 / Pot Samples potValue4 = potValue4 / numberOfPotSamples; // Adjusted Value4 int adjustedValue4 = map(potValue4, 0, 4095, 0, 32737); Serial.print(" RJV: "); Serial.println(potValue4); //bleGamepad.setAxes(adjustedValue, adjustedValue2, 0, 0, adjustedValue3, adjustedValue4, DPAD_CENTERED); bleGamepad.setAxes(adjustedValue, adjustedValue2, adjustedValue4, 0, adjustedValue3, 0, DPAD_CENTERED); delay(delayBetweenHIDReports); // D-pad // LD1 if (digitalRead(LD1) == LOW){ bleGamepad.setAxes(adjustedValue, adjustedValue2, adjustedValue4, 0, adjustedValue3, 0, DPAD_UP); } // LD2 if (digitalRead(LD2) == LOW){ bleGamepad.setAxes(adjustedValue, adjustedValue2, adjustedValue4, 0, adjustedValue3, 0, DPAD_LEFT); } // LD3 if (digitalRead(LD3) == LOW){ bleGamepad.setAxes(adjustedValue, adjustedValue2, adjustedValue4, 0, adjustedValue3, 0, DPAD_DOWN); } // LD4 if (digitalRead(LD4) == LOW){ bleGamepad.setAxes(adjustedValue, adjustedValue2, adjustedValue4, 0, adjustedValue3, 0, DPAD_RIGHT); } }
setup.ino
// Setup void setup() { // Serial Serial.begin(115200); // Set Inputs setInputs(); // ESP32 BLE Gamepad bleGamepad.begin(); }
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People can contact us: https://www.donluc.com/?page_id=1927
Technology Experience
- Programming Language
- Single-Board Microcontrollers (PIC, Arduino, Raspberry Pi,Espressif, etc…)
- IoT
- Wireless (Radio Frequency, Bluetooth, WiFi, Etc…)
- Robotics
- Camera and Video Capture Receiver Stationary, Wheel/Tank and Underwater Vehicle
- Unmanned Vehicles Terrestrial and Marine
- Machine Learning
- RTOS
- Research & Development (R & D)
Instructor, E-Mentor, STEAM, and Arts-Based Training
- Programming Language
- IoT
- PIC Microcontrollers
- Arduino
- Raspberry Pi
- Espressif
- Robotics
Follow Us
Luc Paquin – Curriculum Vitae – 2023
https://www.donluc.com/luc/
Web: https://www.donluc.com/
Facebook: https://www.facebook.com/neosteam.labs.9/
YouTube: https://www.youtube.com/@thesass2063
Twitter: https://twitter.com/labs_steam
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Instagram: https://www.instagram.com/neosteamlabs/
Don Luc
Project #26 – Radio Frequency – Joystick Test Application – Mk13
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#DonLucElectronics #DonLuc #RadioFrequency #Bluetooth #JoystickTest #Gamepad #ESP32 #Arduino #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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Joystick Test Application
While experimenting with making my own controllers recently, I needed a nice visual way of testing them in Windows. As you can see it’s pretty simple and just shows a visual representation of each axis, POV and button. Currently it supports Joysticks with 8 axes, 4 POV and up to 128 buttons. I haven’t had a chance to test it with over 32 buttons so I would be interested to here from anyone who has such a device. It should work on XP upwards but I have only tested it on Windows 10 64 bit. You just need Net framework 3 and DirectX 9 to run it.
DL2304Mk01
1 x SparkFun Thing Plus – ESP32 WROOM
1 x SparkFun Joystick Shield Kit
1 x Thumb Joystick
1 x SparkFun Thumb Joystick Breakout
1 x Terminal Block Breakout FeatherWing
1 x Lithium Ion Battery – 1 Ah
1 x SparkFun Cerberus USB Cable
SparkFun Thing Plus – ESP32 WROOM
LJH – Analog A3
LJV – Analog A2
LJS – Digital 12
RJH – Analog A1
RJV – Analog A0
RJS – Digital 21
LD1 – Digital 16
LD2 – Digital 18
LD3 – Digital 19
LD4 – Digital 17
LT – Digital 5
LED – LED_BUILTIN
VIN – +3.3V
GND – GND
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DL2304Mk01p.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #26 - Radio Frequency - Joystick Test Application - Mk13 26-13 DL2304Mk01p.ino 1 x SparkFun Thing Plus - ESP32 WROOM 1 x SparkFun Joystick Shield Kit 1 x Thumb Joystick 1 x SparkFun Thumb Joystick Breakout 1 x Terminal Block Breakout FeatherWing 1 x Lithium Ion Battery - 1 Ah 1 x SparkFun Cerberus USB Cable */ // Include the Library Code // Arduino #include <Arduino.h> // ESP32 BLE Gamepad #include <BleGamepad.h> // ESP32 BLE Gamepad BleGamepad bleGamepad; // Left Joystick #define LJH A3 #define LJV A2 #define LJS 12 // Right Joystick #define RJH A1 #define RJV A0 #define RJS 21 // D-pad #define LD1 16 #define LD2 18 #define LD3 19 #define LD4 17 // LT #define LT 5 // Previous Button State int previousButton1State = HIGH; int previousButton2State = HIGH; int previousButton3State = HIGH; int previousButton4State = HIGH; int previousButton5State = HIGH; int previousButton6State = HIGH; int previousButton7State = HIGH; // Number of pot samples to take (to smooth the values) const int numberOfPotSamples = 5; // Delay in milliseconds between pot samples const int delayBetweenSamples = 2; // Additional delay in milliseconds between HID reports const int delayBetweenHIDReports = 5; // Delay in milliseconds between button press const int debounceDelay = 10; // Software Version Information String sver = "26-13"; void loop() { // Bluetooth Serial (ESP32SPP) isBluetooth(); }
getBluetooth.ino
// Bluetooth // isBluetooth void isBluetooth() { // ESP32 BLE Gamepad if(bleGamepad.isConnected()) { // Button isButton(); // Joystick isThumbJoystick(); } }
getGames.ino
// Games // Set Inputs void setInputs() { // Make the button line an input pinMode(LJS, INPUT_PULLUP); pinMode(RJS, INPUT_PULLUP); pinMode(LD1, INPUT_PULLUP); pinMode(LD2, INPUT_PULLUP); pinMode(LD3, INPUT_PULLUP); pinMode(LD4, INPUT_PULLUP); pinMode(LT, INPUT_PULLUP); // Initialize digital pin LED_BUILTIN as an output. pinMode(LED_BUILTIN, OUTPUT); // Turn the LED on HIGH digitalWrite(LED_BUILTIN, HIGH); } // Button void isButton(){ // Button1 State LD1 int currentButton1State = digitalRead(LD1); if (currentButton1State != previousButton1State) { if (currentButton1State == LOW) { bleGamepad.press(BUTTON_1); } else { bleGamepad.release(BUTTON_1); } } previousButton1State = currentButton1State; // Button2 State LD2 int currentButton2State = digitalRead(LD2); if (currentButton2State != previousButton2State) { if (currentButton2State == LOW) { bleGamepad.press(BUTTON_2); } else { bleGamepad.release(BUTTON_2); } } previousButton2State = currentButton2State; // Button3 State LD3 int currentButton3State = digitalRead(LD3); if (currentButton3State != previousButton3State) { if (currentButton3State == LOW) { bleGamepad.press(BUTTON_3); } else { bleGamepad.release(BUTTON_3); } } previousButton3State = currentButton3State; // Button4 State LD4 int currentButton4State = digitalRead(LD4); if (currentButton4State != previousButton4State) { if (currentButton4State == LOW) { bleGamepad.press(BUTTON_4); } else { bleGamepad.release(BUTTON_4); } } previousButton4State = currentButton4State; // Button5 State LJS int currentButton5State = digitalRead(LJS); if (currentButton5State != previousButton5State) { if (currentButton5State == LOW) { bleGamepad.press(BUTTON_5); } else { bleGamepad.release(BUTTON_5); } } previousButton5State = currentButton5State; // Button6 State RJS int currentButton6State = digitalRead(RJS); if (currentButton6State != previousButton6State) { if (currentButton6State == LOW) { bleGamepad.press(BUTTON_6); } else { bleGamepad.release(BUTTON_6); } } previousButton6State = currentButton6State; // Button7 State LT int currentButton7State = digitalRead(LT); if (currentButton7State != previousButton7State) { if (currentButton7State == LOW) { bleGamepad.press(BUTTON_7); } else { bleGamepad.release(BUTTON_7); } } previousButton7State = currentButton7State; }
getThumbJoystick.ino
// Thumb Joystick void isThumbJoystick() { // Joystick LJH // Joystick Pot Values LJH int potValues[numberOfPotSamples]; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValues[i] = analogRead(LJH); delay(delayBetweenSamples); } int potValue = 0; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValue += potValues[i]; } // Value / Pot Samples potValue = potValue / numberOfPotSamples; // Adjusted Value int adjustedValue = map(potValue, 0, 4095, 32737, 0); // Joystick LJV // Joystick Pot Values LJV int potValues2[numberOfPotSamples]; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValues2[i] = analogRead(LJV); delay(delayBetweenSamples); } int potValue2 = 0; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValue2 += potValues2[i]; } // Value2 / Pot Samples potValue2 = potValue2 / numberOfPotSamples; // Adjusted Value2 int adjustedValue2 = map(potValue2, 0, 4095, 32737, 0); // Joystick RJH // Joystick Pot Values RJH int potValues3[numberOfPotSamples]; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValues3[i] = analogRead(RJH); delay(delayBetweenSamples); } int potValue3 = 0; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValue3 += potValues3[i]; } // Value3 / Pot Samples potValue3 = potValue3 / numberOfPotSamples; // Adjusted Value3 int adjustedValue3 = map(potValue3, 0, 4095, 32737, 0); // Joystick RJV // Joystick Pot Values RJV int potValues4[numberOfPotSamples]; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValues4[i] = analogRead(RJV); delay(delayBetweenSamples); } int potValue4 = 0; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValue4 += potValues4[i]; } // Value4 / Pot Samples potValue4 = potValue4 / numberOfPotSamples; // Adjusted Value4 int adjustedValue4 = map(potValue4, 0, 4095, 32737, 0); bleGamepad.setAxes(adjustedValue, adjustedValue2, 0, 0, adjustedValue3, adjustedValue4, DPAD_CENTERED); delay(delayBetweenHIDReports); // D-pad // LD1 if (digitalRead(LD1) == LOW){ bleGamepad.setAxes(adjustedValue, adjustedValue2, 0, 0, adjustedValue3, adjustedValue4, DPAD_UP); } // LD2 if (digitalRead(LD2) == LOW){ bleGamepad.setAxes(adjustedValue, adjustedValue2, 0, 0, adjustedValue3, adjustedValue4, DPAD_LEFT); } // LD3 if (digitalRead(LD3) == LOW){ bleGamepad.setAxes(adjustedValue, adjustedValue2, 0, 0, adjustedValue3, adjustedValue4, DPAD_DOWN); } // LD4 if (digitalRead(LD4) == LOW){ bleGamepad.setAxes(adjustedValue, adjustedValue2, 0, 0, adjustedValue3, adjustedValue4, DPAD_RIGHT); } }
setup.ino
// Setup void setup() { // Set Inputs setInputs(); // ESP32 BLE Gamepad bleGamepad.begin(); }
——
People can contact us: https://www.donluc.com/?page_id=1927
Technology Experience
- Programming Language
- Single-Board Microcontrollers (PIC, Arduino, Raspberry Pi,Espressif, etc…)
- IoT
- Wireless (Radio Frequency, Bluetooth, WiFi, Etc…)
- Robotics
- Camera and Video Capture Receiver Stationary, Wheel/Tank and Underwater Vehicle
- Unmanned Vehicles Terrestrial and Marine
- Machine Learning
- RTOS
- Research & Development (R & D)
Instructor, E-Mentor, STEAM, and Arts-Based Training
- Programming Language
- IoT
- PIC Microcontrollers
- Arduino
- Raspberry Pi
- Espressif
- Robotics
Follow Us
Luc Paquin – Curriculum Vitae – 2023
https://www.donluc.com/luc/
Web: https://www.donluc.com/
Facebook: https://www.facebook.com/neosteam.labs.9/
YouTube: https://www.youtube.com/@thesass2063
Twitter: https://twitter.com/labs_steam
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Instagram: https://www.instagram.com/neosteamlabs/
Don Luc
Project #26 – Radio Frequency – Gamepad – Mk12
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#DonLucElectronics #DonLuc #RadioFrequency #Bluetooth #Gamepad #SparkFunThingPlusESP32WROOM #Arduino #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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Gamepad
A gamepad is a type of video game controller held in two hands, where the fingers are used to provide input. They are typically the main input device for video game consoles. Gamepads generally feature a set of buttons handled with the right thumb and a direction controller handled with the left. The direction controller has traditionally been a four-way digital cross, also named a joypad, or alternatively a D-pad, and never called arrow keys, but most modern controllers additionally feature one or more analog sticks.
DL2303Mk03
1 x SparkFun Thing Plus – ESP32 WROOM
1 x SparkFun Joystick Shield Kit
1 x Thumb Joystick
1 x SparkFun Thumb Joystick Breakout
1 x Terminal Block Breakout FeatherWing
1 x SparkFun Cerberus USB Cable
SparkFun Thing Plus – ESP32 WROOM
LJH – Analog A3
LJV – Analog A2
LJS – Digital 12
RJH – Analog A1
RJV – Analog A0
RJS – Digital 21
LD1 – Digital 16
LD2 – Digital 18
LD3 – Digital 19
LD4 – Digital 17
LT – Digital 5
LED – LED_BUILTIN
VIN – +3.3V
GND – GND
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DL2303Mk03p.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #26 - Radio Frequency - Gamepad - Mk12 26-12 DL2303Mk03p.ino 1 x SparkFun Thing Plus - ESP32 WROOM 1 x SparkFun Joystick Shield Kit 1 x Thumb Joystick 1 x SparkFun Thumb Joystick Breakout 1 x Terminal Block Breakout FeatherWing 1 x SparkFun Cerberus USB Cable */ // Include the Library Code // Arduino #include <Arduino.h> // ESP32 BLE Gamepad #include <BleGamepad.h> // ESP32 BLE Gamepad BleGamepad bleGamepad; // Left Joystick #define LJH A3 #define LJV A2 #define LJS 12 // Right Joystick #define RJH A1 #define RJV A0 #define RJS 21 // D-pad #define LD1 16 #define LD2 18 #define LD3 19 #define LD4 17 // LT #define LT 5 // Number of pot samples to take (to smooth the values) const int numberOfPotSamples = 5; // Delay in milliseconds between pot samples const int delayBetweenSamples = 2; // Additional delay in milliseconds between HID reports const int delayBetweenHIDReports = 5; // Delay in milliseconds between button press const int debounceDelay = 10; // Software Version Information String sver = "26-12"; void loop() { // Bluetooth Serial (ESP32SPP) isBluetooth(); // Delay delay(500); }
getBluetooth.ino
// Bluetooth // isBluetooth void isBluetooth() { // ESP32 BLE Gamepad if(bleGamepad.isConnected()) { // Button isButton(); // Joystick isThumbJoystick(); // Serial Serial.println(" *"); } }
getGames.ino
// Games // Set Inputs void setInputs() { // Make the button line an input pinMode(LJS, INPUT_PULLUP); pinMode(RJS, INPUT_PULLUP); pinMode(LD1, INPUT_PULLUP); pinMode(LD2, INPUT_PULLUP); pinMode(LD3, INPUT_PULLUP); pinMode(LD4, INPUT_PULLUP); pinMode(LT, INPUT_PULLUP); // Initialize digital pin LED_BUILTIN as an output. pinMode(LED_BUILTIN, OUTPUT); // Turn the LED on HIGH digitalWrite(LED_BUILTIN, HIGH); } // Button void isButton(){ // Left Joystick if (digitalRead(LJS) == LOW) { bleGamepad.press(LJS); delay(debounceDelay); bleGamepad.release(LJS); Serial.print(" LJS"); } // Right Joystick if (digitalRead(RJS) == LOW) { bleGamepad.press(RJS); delay(debounceDelay); bleGamepad.release(RJS); Serial.print(" RJS"); } // LT if (digitalRead(LT) == LOW) { bleGamepad.press(LT); delay(debounceDelay); bleGamepad.release(LT); Serial.print(" LT"); } }
getThumbJoystick.ino
// Thumb Joystick void isThumbJoystick() { // Joystick LJH // Joystick Pot Values LJH int potValues[numberOfPotSamples]; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValues[i] = analogRead(LJH); delay(delayBetweenSamples); } int potValue = 0; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValue += potValues[i]; } // Value / Pot Samples potValue = potValue / numberOfPotSamples; // Serial Serial.print(" LJH: "); Serial.print(potValue); // Adjusted Value int adjustedValue = map(potValue, 0, 4095, 127, -127); // Joystick LJV // Joystick Pot Values LJV int potValues2[numberOfPotSamples]; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValues2[i] = analogRead(LJV); delay(delayBetweenSamples); } int potValue2 = 0; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValue2 += potValues2[i]; } // Value2 / Pot Samples potValue2 = potValue2 / numberOfPotSamples; // Serial Serial.print(" LJV: "); Serial.print(potValue2); // Adjusted Value2 int adjustedValue2 = map(potValue2, 0, 4095, 127, -127); // Joystick RJH // Joystick Pot Values RJH int potValues3[numberOfPotSamples]; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValues3[i] = analogRead(RJH); delay(delayBetweenSamples); } int potValue3 = 0; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValue3 += potValues3[i]; } // Value3 / Pot Samples potValue3 = potValue3 / numberOfPotSamples; // Serial Serial.print(" RJH: "); Serial.print(potValue3); // Adjusted Value3 int adjustedValue3 = map(potValue3, 0, 4095, 255, 0); // Joystick RJV // Joystick Pot Values RJV int potValues4[numberOfPotSamples]; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValues4[i] = analogRead(RJV); delay(delayBetweenSamples); } int potValue4 = 0; for (int i = 0 ; i < numberOfPotSamples ; i++) { potValue4 += potValues4[i]; } // Value4 / Pot Samples potValue4 = potValue4 / numberOfPotSamples; // Serial Serial.print(" RJV: "); Serial.print(potValue4); // Adjusted Value4 int adjustedValue4 = map(potValue4, 0, 4095, 255, 0); bleGamepad.setAxes(adjustedValue, adjustedValue2, 0, 0, adjustedValue3, adjustedValue4, DPAD_CENTERED); delay(delayBetweenHIDReports); // D-pad // LD1 if (digitalRead(LD1) == LOW){ bleGamepad.setAxes(adjustedValue, adjustedValue2, 0, 0, adjustedValue3, adjustedValue4, DPAD_UP); Serial.print(" DPAD_UP"); } // LD2 if (digitalRead(LD2) == LOW){ bleGamepad.setAxes(adjustedValue, adjustedValue2, 0, 0, adjustedValue3, adjustedValue4, DPAD_LEFT); Serial.print(" DPAD_LEFT"); } // LD3 if (digitalRead(LD3) == LOW){ bleGamepad.setAxes(adjustedValue, adjustedValue2, 0, 0, adjustedValue3, adjustedValue4, DPAD_DOWN); Serial.print(" DPAD_DOWN"); } // LD4 if (digitalRead(LD4) == LOW){ bleGamepad.setAxes(adjustedValue, adjustedValue2, 0, 0, adjustedValue3, adjustedValue4, DPAD_RIGHT); Serial.print(" DPAD_RIGHT"); } }
setup.ino
// Setup void setup() { // Serial Serial.begin(115200); Serial.println("Starting BLE work!"); // Set Inputs setInputs(); // ESP32 BLE Gamepad bleGamepad.begin(); }
——
People can contact us: https://www.donluc.com/?page_id=1927
Technology Experience
- Programming Language
- Single-Board Microcontrollers (PIC, Arduino, Raspberry Pi,Espressif, etc…)
- IoT
- Wireless (Radio Frequency, Bluetooth, WiFi, Etc…)
- Robotics
- Camera and Video Capture Receiver Stationary, Wheel/Tank and Underwater Vehicle
- Unmanned Vehicles Terrestrial and Marine
- Machine Learning
- RTOS
- Research & Development (R & D)
Instructor, E-Mentor, STEAM, and Arts-Based Training
- Programming Language
- IoT
- PIC Microcontrollers
- Arduino
- Raspberry Pi
- Espressif
- Robotics
Follow Us
Luc Paquin – Curriculum Vitae – 2023
https://www.donluc.com/luc/
Web: https://www.donluc.com/
Facebook: https://www.facebook.com/neosteam.labs.9/
YouTube: https://www.youtube.com/@thesass2063
Twitter: https://twitter.com/labs_steam
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Instagram: https://www.instagram.com/neosteamlabs/
Don Luc
Project #26 – Radio Frequency – Joystick – Mk11
——
#DonLucElectronics #DonLuc #RadioFrequency #Bluetooth #Joystick #SparkFunJoystickShield #SparkFunThingPlusESP32WROOM #Arduino #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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Thumb Joystick
This is a joystick very similar to the “Analog” joysticks on PS2 controllers. Directional movements are simply two potentiometers, one for each axis. Pots are ~10k each. This joystick also has a select button that is actuated when the joystick is pressed down. This is the breakout board for the thumb joystick SparkFun Thumb Joystick Breakout.
DL2303Mk02
1 x SparkFun Thing Plus – ESP32 WROOM
1 x SparkFun Joystick Shield Kit
1 x Thumb Joystick
1 x SparkFun Thumb Joystick Breakout
1 x Lithium Ion Battery – 1 Ah
1 x SparkFun Cerberus USB Cable
SparkFun Thing Plus – ESP32 WROOM
DLE_UP – Digital 16
DLE_DOWN – Digital 19
DLE_LEFT – Digital 18
DLE_RIGHT – Digital 17
DLE_FIRE – Digital 12
DLE_SPACE – Digital 5
DLE_SPACEA – Digital 21
LED – LED_BUILTIN
VIN – +3.3V
GND – GND
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DL2303Mk02p.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #26 - Radio Frequency - Joystick - Mk11 26-11 DL2303Mk02p.ino 1 x SparkFun Thing Plus - ESP32 WROOM 1 x SparkFun Joystick Shield Kit 1 x Thumb Joystick 1 x SparkFun Thumb Joystick Breakout 1 x Lithium Ion Battery - 1 Ah 1 x SparkFun Cerberus USB Cable */ // Include the Library Code // ESP32 BLE Keyboard - NIMBLE #define USE_NIMBLE #include <BleKeyboard.h> // ESP32 BLE Keyboard BleKeyboard bleKeyboard; // Game Controller Buttons #define DLE_UP 16 #define DLE_DOWN 19 #define DLE_LEFT 18 #define DLE_RIGHT 17 #define DLE_FIRE 12 #define DLE_SPACE 5 #define DLE_SPACEA 21 // Button bool keyStates[7] = {false, false, false, false, false, false, false}; int keyPins[7] = {DLE_UP, DLE_DOWN, DLE_LEFT, DLE_RIGHT, DLE_SPACEA, DLE_SPACE, DLE_FIRE}; uint8_t keyCodes[7] = {KEY_UP_ARROW, KEY_DOWN_ARROW, KEY_LEFT_ARROW, KEY_RIGHT_ARROW, ' ', ' ', KEY_LEFT_CTRL}; // Connect Notification Sent bool connectNotificationSent = false; // Software Version Information String sver = "26-11"; void loop() { // Bluetooth Serial (ESP32SPP) isBluetooth(); }
getBluetooth.ino
// Bluetooth // isBluetooth void isBluetooth() { // Counter int counter; // ESP32 BLE Keyboard if(bleKeyboard.isConnected()) { // Connect Notification Sent if (!connectNotificationSent) { connectNotificationSent = true; } // Button for(counter = 0; counter < 7; counter ++){ handleButton(counter); } } }
getGames.ino
// Games // Set Inputs void setInputs() { // Make the button line an input pinMode(DLE_UP, INPUT_PULLUP); pinMode(DLE_DOWN, INPUT_PULLUP); pinMode(DLE_LEFT, INPUT_PULLUP); pinMode(DLE_RIGHT, INPUT_PULLUP); pinMode(DLE_FIRE, INPUT_PULLUP); pinMode(DLE_SPACE, INPUT_PULLUP); pinMode(DLE_SPACEA, INPUT_PULLUP); // Initialize digital pin LED_BUILTIN as an output. pinMode(LED_BUILTIN, OUTPUT); // Turn the LED on HIGH digitalWrite(LED_BUILTIN, HIGH); } // Handle Button void handleButton(int keyIndex){ // Handle the button press if (!digitalRead(keyPins[keyIndex])){ // Button pressed if (!keyStates[keyIndex]){ // Key not currently pressed keyStates[keyIndex] = true; bleKeyboard.press(keyCodes[keyIndex]); } } else { // Button not pressed if (keyStates[keyIndex]){ // Key currently pressed keyStates[keyIndex] = false; bleKeyboard.release(keyCodes[keyIndex]); } } }
setup.ino
// Setup void setup() { // Set Inputs setInputs(); // ESP32 BLE Keyboard bleKeyboard.begin(); }
——
People can contact us: https://www.donluc.com/?page_id=1927
Technology Experience
- Programming Language
- Single-Board Microcontrollers (PIC, Arduino, Raspberry Pi,Espressif, etc…)
- IoT
- Wireless (Radio Frequency, Bluetooth, WiFi, Etc…)
- Robotics
- Camera and Video Capture Receiver Stationary, Wheel/Tank and Underwater Vehicle
- Unmanned Vehicles Terrestrial and Marine
- Machine Learning
- RTOS
- Research & Development (R & D)
Instructor, E-Mentor, STEAM, and Arts-Based Training
- Programming Language
- IoT
- PIC Microcontrollers
- Arduino
- Raspberry Pi
- Espressif
- Robotics
Follow Us
Luc Paquin – Curriculum Vitae – 2023
https://www.donluc.com/luc/
Web: https://www.donluc.com/
Facebook: https://www.facebook.com/neosteam.labs.9/
YouTube: https://www.youtube.com/@thesass2063
Twitter: https://twitter.com/labs_steam
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Instagram: https://www.instagram.com/neosteamlabs/
Don Luc
Project #26 – Radio Frequency – Video Game – Mk10
——
#DonLucElectronics #DonLuc #RadioFrequency #Bluetooth #SparkFunJoystickShield #SparkFunThingPlusESP32WROOM #Arduino #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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LaunchBox
LaunchBox was originally built as an attractive frontend for DOSBox, but has long since expanded to support both modern PC games and emulated console platforms. LaunchBox aims to be the one-stop shop for gaming on your computer, for both modern and historical games.
LaunchBox includes automated import processes for everything from modern Steam games to GOG classics, ROM files, MS-DOS games, and so much more. Box art and metadata is automatically downloaded from the LaunchBox Games Database, with excellent coverage for your games.
Doom (Video Game MS-DOS)
Doom is a video game series and media franchise created by John Carmack, John Romero, Adrian Carmack, Kevin Cloud, and Tom Hall. The focuses on the exploits of an unnamed space marine operating under the auspices of the Union Aerospace Corporation, who fights hordes of demons and the undead in order to save Earth from an apocalyptic invasion.
The original Doom is considered one of the first pioneering first-person shooter games, introducing to IBM-compatible computers features such as 3D graphics, third-dimension spatiality, networked multiplayer gameplay, and support for player-created modifications with the Doom WAD format.
DL2303Mk01
1 x SparkFun Thing Plus – ESP32 WROOM
1 x SparkFun Joystick Shield Kit
1 x Lithium Ion Battery – 1 Ah
1 x SparkFun Cerberus USB Cable
SparkFun Thing Plus – ESP32 WROOM
DLE_UP – Digital 16
DLE_DOWN – Digital 19
DLE_LEFT – Digital 18
DLE_RIGHT – Digital 17
DLE_FIRE – Digital 21
DLE_SPACE – Digital 5
LED – LED_BUILTIN
VIN – +3.3V
GND – GND
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DL2303Mk01p.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #26 - Radio Frequency - Video Game - Mk10 26-10 DL2301Mk01p.ino 1 x SparkFun Thing Plus - ESP32 WROOM 1 x SparkFun Joystick Shield Kit 1 x Lithium Ion Battery - 1 Ah 1 x SparkFun Cerberus USB Cable */ // Include the Library Code // ESP32 BLE Keyboard - NIMBLE #define USE_NIMBLE #include <BleKeyboard.h> // ESP32 BLE Keyboard BleKeyboard bleKeyboard; // Game Controller Buttons #define DLE_UP 16 #define DLE_DOWN 19 #define DLE_LEFT 18 #define DLE_RIGHT 17 #define DLE_FIRE 21 #define DLE_SPACE 5 // Button bool keyStates[6] = {false, false, false, false, false, false}; int keyPins[6] = {DLE_UP, DLE_DOWN, DLE_LEFT, DLE_RIGHT, DLE_FIRE, DLE_SPACE}; uint8_t keyCodes[6] = {KEY_UP_ARROW, KEY_DOWN_ARROW, KEY_LEFT_ARROW, KEY_RIGHT_ARROW, KEY_LEFT_CTRL, ' '}; // Connect Notification Sent bool connectNotificationSent = false; // Software Version Information String sver = "26-10"; void loop() { // Bluetooth Serial (ESP32SPP) isBluetooth(); }
getBluetooth.ino
// Bluetooth // isBluetooth void isBluetooth() { // Counter int counter; // ESP32 BLE Keyboard if(bleKeyboard.isConnected()) { // Connect Notification Sent if (!connectNotificationSent) { connectNotificationSent = true; } // Button for(counter = 0; counter < 6; counter ++){ handleButton(counter); } } }
getGames.ino
// Games // Set Inputs void setInputs() { // Make the button line an input pinMode(DLE_UP, INPUT_PULLUP); pinMode(DLE_DOWN, INPUT_PULLUP); pinMode(DLE_LEFT, INPUT_PULLUP); pinMode(DLE_RIGHT, INPUT_PULLUP); pinMode(DLE_FIRE, INPUT_PULLUP); pinMode(DLE_SPACE, INPUT_PULLUP); // Initialize digital pin LED_BUILTIN as an output. pinMode(LED_BUILTIN, OUTPUT); // Turn the LED on HIGH digitalWrite(LED_BUILTIN, HIGH); } // Handle Button void handleButton(int keyIndex){ // Handle the button press if (!digitalRead(keyPins[keyIndex])){ // Button pressed if (!keyStates[keyIndex]){ // Key not currently pressed keyStates[keyIndex] = true; bleKeyboard.press(keyCodes[keyIndex]); } } else { // Button not pressed if (keyStates[keyIndex]){ // Key currently pressed keyStates[keyIndex] = false; bleKeyboard.release(keyCodes[keyIndex]); } } }
setup.ino
// Setup void setup() { // Set Inputs setInputs(); // ESP32 BLE Keyboard bleKeyboard.begin(); }
——
People can contact us: https://www.donluc.com/?page_id=1927
Technology Experience
- Programming Language
- Single-Board Microcontrollers (PIC, Arduino, Raspberry Pi,Espressif, etc…)
- IoT
- Wireless (Radio Frequency, Bluetooth, WiFi, Etc…)
- Robotics
- Camera and Video Capture Receiver Stationary, Wheel/Tank and Underwater Vehicle
- Unmanned Vehicles Terrestrial and Marine
- Machine Learning
- RTOS
- Research & Development (R & D)
Instructor, E-Mentor, STEAM, and Arts-Based Training
- Programming Language
- IoT
- PIC Microcontrollers
- Arduino
- Raspberry Pi
- Espressif
- Robotics
Follow Us
Luc Paquin – Curriculum Vitae – 2023
https://www.donluc.com/luc/
Web: https://www.donluc.com/
Facebook: https://www.facebook.com/neosteam.labs.9/
YouTube: https://www.youtube.com/@thesass2063
Twitter: https://twitter.com/labs_steam
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Instagram: https://www.instagram.com/neosteamlabs/
Don Luc
Project #26 – Radio Frequency – SparkFun Joystick Shield – Mk09
——
#DonLucElectronics #DonLuc #RadioFrequency #Bluetooth #SparkFunJoystickShield #SparkFunThingPlusESP32WROOM #Arduino #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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SparkFun Joystick Shield Kit
The SparkFun Joystick Shield Kit contains all the parts you need to enable your Arduino with a joystick. The shield sits on top of your Arduino and turns it into a simple controller. Five momentary push buttons and a two-axis thumb joystick gives your Arduino functionality on the level of old Nintendo controllers. Soldering is required, but it’s relatively easy and requires minimal tools. We even have a step by step guide.
The momentary push buttons are connected to Arduino digital pins 2-6; when pressed they will pull the pin low. Vertical movement of the joystick will produce a proportional analog voltage on analog pin 0, likewise, horizontal movement of the joystick can be tracked on analog pin 1.
DL2302Mk04
1 x SparkFun Thing Plus – ESP32 WROOM
1 x SparkFun Joystick Shield Kit
1 x Lithium Ion Battery – 1 Ah
1 x SparkFun Cerberus USB Cable
SparkFun Thing Plus – ESP32 WROOM
DLE_UP – Digital 16
DLE_DOWN – Digital 19
DLE_LEFT – Digital 18
DLE_RIGHT – Digital 17
DLE_FIRE – Digital 21
DLE_SPACE – Digital 5
VIN – +3.3V
GND – GND
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DL2302Mk04p.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #26 - Radio Frequency - SparkFun Joystick Shield - Mk09 26-09 DL2301Mk01p.ino 1 x SparkFun Thing Plus - ESP32 WROOM 1 x SparkFun Joystick Shield Kit 1 x Lithium Ion Battery - 1 Ah 1 x SparkFun Cerberus USB Cable */ // Include the Library Code // ESP32 BLE Keyboard - NIMBLE #define USE_NIMBLE #include <BleKeyboard.h> // ESP32 BLE Keyboard BleKeyboard bleKeyboard; // Game Controller Buttons #define DLE_UP 16 #define DLE_DOWN 19 #define DLE_LEFT 18 #define DLE_RIGHT 17 #define DLE_FIRE 21 #define DLE_SPACE 5 // Button bool keyStates[6] = {false, false, false, false, false, false}; int keyPins[6] = {DLE_UP, DLE_DOWN, DLE_LEFT, DLE_RIGHT, DLE_FIRE, DLE_SPACE}; uint8_t keyCodes[6] = {'w', 'x', 'a', 'd', 'y', ' '}; // Connect Notification Sent bool connectNotificationSent = false; // Software Version Information String sver = "26-09"; void loop() { // Bluetooth Serial (ESP32SPP) isBluetooth(); }
getBluetooth.ino
// Bluetooth // isBluetooth void isBluetooth() { // Counter int counter; // ESP32 BLE Keyboard if(bleKeyboard.isConnected()) { // Connect Notification Sent if (!connectNotificationSent) { connectNotificationSent = true; } // Button for(counter = 0; counter < 6; counter ++){ handleButton(counter); } } }
getGames.ino
// Games // Set Inputs void setInputs() { // Make the button line an input pinMode(DLE_UP, INPUT_PULLUP); pinMode(DLE_DOWN, INPUT_PULLUP); pinMode(DLE_LEFT, INPUT_PULLUP); pinMode(DLE_RIGHT, INPUT_PULLUP); pinMode(DLE_FIRE, INPUT_PULLUP); pinMode(DLE_SPACE, INPUT_PULLUP); } // Handle Button void handleButton(int keyIndex){ // Handle the button press if (!digitalRead(keyPins[keyIndex])){ // Button pressed if (!keyStates[keyIndex]){ // Key not currently pressed keyStates[keyIndex] = true; bleKeyboard.press(keyCodes[keyIndex]); } } else { // Button not pressed if (keyStates[keyIndex]){ // Key currently pressed keyStates[keyIndex] = false; bleKeyboard.release(keyCodes[keyIndex]); } } }
setup.ino
// Setup void setup() { // Set Inputs setInputs(); // ESP32 BLE Keyboard bleKeyboard.begin(); }
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People can contact us: https://www.donluc.com/?page_id=1927
Technology Experience
- Programming Language
- Single-Board Microcontrollers (PIC, Arduino, Raspberry Pi,Espressif, etc…)
- IoT
- Wireless (Radio Frequency, Bluetooth, WiFi, Etc…)
- Robotics
- Camera and Video Capture Receiver Stationary, Wheel/Tank and Underwater Vehicle
- Unmanned Vehicles Terrestrial and Marine
- Machine Learning
- RTOS
- Research & Development (R & D)
Instructor, E-Mentor, STEAM, and Arts-Based Training
- Programming Language
- IoT
- PIC Microcontrollers
- Arduino
- Raspberry Pi
- Espressif
- Robotics
Follow Us
Luc Paquin – Curriculum Vitae – 2023
https://www.donluc.com/luc/
Web: https://www.donluc.com/
Facebook: https://www.facebook.com/neosteam.labs.9/
YouTube: https://www.youtube.com/@thesass2063
Twitter: https://twitter.com/labs_steam
Pinterest: https://www.pinterest.com/NeoSteamLabs/
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Don Luc
Project #16: Sound – SparkFun ProtoShield Kit – Mk23
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#DonLucElectronics #DonLuc #Sound #Arduino #MicroOLED #ProtoShield #SparkFunQwiicMP3 #SparkFunRedBoardQwiic #Project #Programming #Electronics #Microcontrollers #Consultant
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SparkFun ProtoShield Kit
The SparkFun ProtoShield Kit lets you customize your own Arduino shield using whatever circuit you can come up with and then test it to make sure everything is working the way it should. The SparkFun ProtoShield Kit is based off the Arduino R3’s footprint that allows you to easily incorporate it with favorite Arduino-based device.
One of our favorite features with this version of the ProtoShield Kit is the solderable-like breadboard prototyping area. Half of this area was designed with a breadboard in mind. On the underside of the shield you will be able to see open jumper pads between each through hole to make a connection like a breadboard. Once you add a component, simply add a solder jumper between holes to make a connection. For those that prefer the standard prototyping pads.
DL2301Mk04
1 x SparkFun RedBoard Qwiic
1 x SparkFun ProtoShield Kit
1 x SparkFun Micro OLED Breakout (Qwiic)
1 x SparkFun Qwiic MP3 Trigger
1 x microSD Card – 2GB
1 x Panel Mount 10K potentiometer
1 x Knob
2 x Rocker Switch – SPST (Round)
1 x Qwiic Cable – 50mm
1 x Qwiic Cable – 100mm
1 x Dayton Audio Reference 3″ Full-Range Drive
1 x SparkFun Cerberus USB Cable
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SparkFun RedBoard Qwiic
PO1 – Analog A0
SDA – Analog A4
SCL – Analog A5
SW0 – Digital 8
SW1 – Digital 7
VIN – +5V
VIN – +3.3V
GND – GND
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DL2301Mk04p.ino
/* ***** Don Luc Electronics © ***** Software Version Information #16 - Sound - SparkFun ProtoShield Kit - Mk23 16-04 DL2301Mk04p.ino 1 x SparkFun RedBoard Qwiic 1 x SparkFun ProtoShield Kit 1 x SparkFun Micro OLED Breakout (Qwiic) 1 x SparkFun Qwiic MP3 Trigger 1 x microSD Card - 2GB 1 x Panel Mount 10K potentiometer 1 x Knob 2 x Rocker Switch - SPST (Round) 1 x Qwiic Cable - 50mm 1 x Qwiic Cable - 100mm 1 x Dayton Audio Reference 3" Full-Range Drive 1 x SparkFun Cerberus USB Cable */ // Include the Library Code // Wire communicate with I2C / TWI devices #include <Wire.h> // SparkFun MP3 Trigger #include "SparkFun_Qwiic_MP3_Trigger_Arduino_Library.h" // SparkFun Micro OLED #include <SFE_MicroOLED.h> // SparkFun MP3 Trigger MP3TRIGGER mp3; int iSongCount = 0; int x = 0; // Volume int iVolume = A0; int iVolumeLevel = 0; // EQ Setting Normal byte bEQSetting = 0; // Play Next const int iPlayNext = 8; // Variable for reading the iPlayNext status int iPlayNextState = 0; // Play Previous const int iPlayPrevious = 7; // Variable for reading the iPlayPrevious status int iPlayPreviousState = 0; // SparkFun Micro OLED #define PIN_RESET 9 #define DC_JUMPER 1 // I2C declaration MicroOLED oled(PIN_RESET, DC_JUMPER); // iLED ProtoShield int iLED = 13; // Software Version Information String sver = "16-23"; void loop() { // SparkFun MP3 Trigger if (mp3.isPlaying() == false) { if ( x > iSongCount ) { x = 0; } else { x = x + 1; } // Play Track mp3.playTrack( x ); } else { // Volume isVolume(); // Play Next isPlayNext(); // Play Previous isPlayPrevious(); } // Micro OLED isMicroOLED(); }
getMP3.ino
// MP3 // Setup MP3 void isSetupMP3(){ // Check to see if Qwiic MP3 is present on the bus if (mp3.begin() == false) { // Qwiic MP3 failed to respond. Please check wiring and possibly the I2C address. Freezing... while (1); } if (mp3.hasCard() == false) { // Qwiic MP3 is missing its SD card. Freezing... while (1); } // Song Count iSongCount = mp3.getSongCount(); // EQ Setting // 0 Normal // 1 Pop // 2 Rock // 3 Jazz // 4 Classic // 5 Bass bEQSetting = 5; bEQSetting = mp3.getEQ(); // Initialize the iPlayNext pinMode( iPlayNext, INPUT); // Initialize the iPlayPrevious pinMode( iPlayPrevious, INPUT); } // Volume void isVolume() { // Volume iVolumeLevel = analogRead( iVolume ); // (0-1023 for 10 bits or 0-4095 for 12 bits) iVolumeLevel = map(iVolumeLevel, 0, 1023, 0, 10); // Volume can be 0 (off) to 31 (max) // Volume can be 0 (off) to 10 (Breakfast) mp3.setVolume( iVolumeLevel ); } // Play Next void isPlayNext() { // Read the state of the iPlayNext value iPlayNextState = digitalRead( iPlayNext ); if ( iPlayNextState == HIGH ) { mp3.stop(); if ( x > iSongCount ) { x = 0; } else { x = x + 1; } // Play Track mp3.playTrack( x ); } } // Play Previous void isPlayPrevious() { // Read the state of the iPlayPrevious value iPlayPreviousState = digitalRead( iPlayPrevious ); if ( iPlayPreviousState == HIGH ) { mp3.stop(); if ( x > iSongCount ) { x = 0; } else { x = x - 1; } // Play Track mp3.playTrack( x ); } }
getMicroOLED.ino
// SparkFun Micro OLED // Setup Micro OLED void isSetupMicroOLED() { // Initialize the OLED oled.begin(); // Clear the display's internal memory oled.clear(ALL); // Display what's in the buffer (splashscreen) oled.display(); // Delay 1000 ms delay(1000); // Clear the buffer. oled.clear(PAGE); } // Micro OLED void isMicroOLED() { // Text Display FreeIMU // Clear the display oled.clear(PAGE); // Set cursor to top-left oled.setCursor(0, 0); // Set font to type 0 oled.setFontType(0); // Song oled.print("Song"); // Song Name oled.setCursor(0, 13); String songName = mp3.getSongName(); oled.print( songName ); // Song Count oled.setCursor(0, 24); oled.print("Song Count"); // Song Count oled.setCursor(0, 37); iSongCount = mp3.getSongCount(); oled.print( iSongCount ); oled.display(); }
setup.ino
// Setup void setup() { // Initialize digital pin iLED ProtoShield as an output pinMode(iLED, OUTPUT); // Turn the LED on (HIGH is the voltage level) digitalWrite(iLED, HIGH); // Wire communicate with I2C / TWI devices Wire.begin(); // SparkFun MP3 Trigger Setup isSetupMP3(); // Setup Micro OLED isSetupMicroOLED(); }
——
People can contact us: https://www.donluc.com/?page_id=1927
Technology Experience
- Programming Language
- Single-Board Microcontrollers (PIC, Arduino, Raspberry Pi,Espressif, etc…)
- IoT
- Wireless (Radio Frequency, Bluetooth, WiFi, Etc…)
- Robotics
- Camera and Video Capture Receiver Stationary, Wheel/Tank and Underwater Vehicle
- Unmanned Vehicles Terrestrial and Marine
- Machine Learning
- RTOS
- Research & Development (R & D)
Instructor, E-Mentor, STEAM, and Arts-Based Training
- Programming Language
- IoT
- PIC Microcontrollers
- Arduino
- Raspberry Pi
- Espressif
- Robotics
Follow Us
Luc Paquin – Curriculum Vitae – 2023
https://www.donluc.com/luc/
Web: https://www.donluc.com/
Facebook: https://www.facebook.com/neosteam.labs.9/
YouTube: https://www.youtube.com/@thesass2063
Twitter: https://twitter.com/labs_steam
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Instagram: https://www.instagram.com/neosteamlabs/
Don Luc
Project #16: Sound – Metronome – Mk22
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#DonLucElectronics #DonLuc #Sound #Metronome #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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Metronome
A metronome is a device that produces an audible click or other sound at a regular interval that can be set by the user, typically in Beats Per Minute (BPM). Metronomes may include synchronized visual motion. Musicians use the device to practise playing to a regular pulse. In the 20th century, electronic metronomes and software metronomes were invented.
Musicians practise with metronomes to improve their timing, especially the ability to stick to a regular tempo. Metronome practice helps internalize a clear sense of timing and tempo. Composers and conductors often use a metronome as a standard tempo reference, and may play, sing, or conduct to the metronome. The metronome is used by composers to derive beats per minute if they want to indicate that in a composition. Conductors use a metronome to note their preferred tempo in each section.
SparkFun Metro-Gnome
The SparkFun Metro-Gnome is a basic digital metronome used to keep time during music practice. This is a basic kit that goes together in 15-20 minutes for people learning to solder, and 5-10 minutes for those with a bit of experience.
DL2301Mk03
-1 x Metro-Gnome PCB
-1 x ATmega168
-2 x 7-Segment Red LED
-1 x 10uF Capacitor
-1 X 0.1uf Capacitor
-1 x 10k Resistor
-1 x 1N4148 Diode
-1 x Piezo Speaker
-1 x Mini Power Switch
-2 x Push Button Reset Switches
-1 x Battery Holder Pack
-4 x AA Alkaline Battery
ATmega168
Metro-Gnome
VIN – +6V
GND – GND
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Metrognomev03
Metrognomev03.c
// Metronome-v03 #define F_CPU 1024000 // Adjust this to get the clock more precise #include <avr/io.h> #include <util/delay.h> #include <avr/interrupt.h> #define BUZZER1 1 #define BUZZER1_PORT PORTB #define BUZZER2 2 #define BUZZER2_PORT PORTB #define sbi(port_name, pin_number) (port_name |= 1<<pin_number) #define cbi(port_name, pin_number) ((port_name) &= (uint8_t)~(1 << pin_number)) uint16_t countUp = F_CPU/1024; // Dividing clock by 1024 uint16_t speed = 60; // Program initially runs at 60 BPM uint8_t leftDisplay = 6; // Initialize output to show 60 BPM uint8_t rightDisplay = 0; void ioinit(); void display(int digit, int number); // Interrupt Timer 1 makes the buzzer tick at proper intervals ISR(TIMER1_COMPA_vect) { int buzzPeriod = 100; uint32_t buzzLength = 1000; while(1) { //Subtract the buzzPeriod from the overall length if(buzzPeriod > buzzLength) break; buzzLength -= buzzPeriod; if(buzzPeriod > buzzLength) break; buzzLength -= buzzPeriod; //Toggle the buzzer at various speeds PINB = 0b00000010; _delay_us(buzzPeriod); PINB = 0b00000100; _delay_us(buzzPeriod); } } // Interrupt Timer 2 checks for button presses ISR(TIMER0_COMPA_vect) { // Check down button if( (PINB & (1<<4)) == 0) { if (speed == 1) // If speed = 1 go up to 299 { speed = 299; rightDisplay = 9; leftDisplay = 9; } else if ((rightDisplay == 0) && (leftDisplay == 0)) { rightDisplay = 9; leftDisplay = 9; speed--; } else if (rightDisplay == 0) { rightDisplay = 9; leftDisplay--; speed--; } else { rightDisplay--; speed--; } // Reset counter and adjust compare register TCNT1 = 0x00; OCR1A = (countUp*60)/speed; } // Check up button if((PINB & (1<<5)) == 0) { if (speed == 299) { speed = 1; rightDisplay = 1; leftDisplay = 0; } else if ((rightDisplay == 9) && (leftDisplay == 9)) { rightDisplay = 0; leftDisplay = 0; speed++; } else if (rightDisplay == 9) { rightDisplay = 0; leftDisplay++; speed++; } else { rightDisplay++; speed++; } // Reset counter and adjust compare register TCNT1 = 0x00; OCR1A = (countUp*60)/speed; } } int main() { int flag = 0; ioinit(); while(1) // Main loop PWM's the two displays at 1kHz { if (flag == 0) { cbi(PORTC, 1); // Turn right display off display(0, leftDisplay); // Output to left display flag = 1; } else { cbi(PORTC, 0); // Turn left display off display(1, rightDisplay); // Output to right display flag = 0; } _delay_us(10); PORTD = 0xFF; cbi(PORTC, 0); cbi(PORTC, 1); _delay_us(30); } return 0; } void ioinit() { // set PORTB for Buzzer and buttons DDRB = DDRB | 0b00110110; PORTB = PORTB | 0b00110000; // set PORTC for DIGI select DDRC = 0b0000011; PINC = 0b0000011; // set PORTD for display DDRD = 0b11111111; // Set 16-bit Timer 1 for clicking TCCR1A = 0x00; TCCR1B = (_BV(WGM12) | _BV(CS12) | _BV(CS10)); // Divide clock by 1024, CTC mode OCR1A = (countUp*60)/speed; // Set top of counter TIMSK1 = _BV(OCIE1A); // Enable OCR1A interrupt // Set Timer 0 to check button press TCCR0A = _BV(WGM01); TCCR0B = _BV(CS00) | _BV(CS02); OCR0A = 100; // OCCR0A can be adjusted to change the button debounce time TIMSK0 = _BV(OCIE0A); sei(); // Enable interrupts } // This will output the corresponding // 'number' to digit 0 (left) or 1 (right) void display(int digit, int number) { //cbi(PORTC, digit); // Ties display to ground if (digit == 0) sbi(PORTC, 0); // Ties display to ground else if (digit == 1) sbi(PORTC, 1); switch(number) // Set PIND, display pins, to correct output { case 0: PORTD = 0b11000000; break; case 1: PORTD = 0b11111001; break; case 2: PORTD = 0b10100100; break; case 3: PORTD = 0b10110000; break; case 4: PORTD = 0b10011001; break; case 5: PORTD = 0b10010010; break; case 6: PORTD = 0b10000010; break; case 7: PORTD = 0b11111000; break; case 8: PORTD = 0b10000000; break; case 9: PORTD = 0b10010000; break; } // Turn decimal point on if above 100 & 200 if ((digit == 0) && (speed >= 200)) cbi(PORTD, 7); if ((digit == 1) && (speed >= 100)) cbi(PORTD, 7); }
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People can contact us: https://www.donluc.com/?page_id=1927
Technology Experience
- Programming Language
- Single-Board Microcontrollers (PIC, Arduino, Raspberry Pi,Espressif, etc…)
- IoT
- Wireless (Radio Frequency, Bluetooth, WiFi, Etc…)
- Robotics
- Camera and Video Capture Receiver Stationary, Wheel/Tank and Underwater Vehicle
- Unmanned Vehicles Terrestrial and Marine
- Machine Learning
- RTOS
- Research & Development (R & D)
Instructor, E-Mentor, STEAM, and Arts-Based Training
- Programming Language
- IoT
- PIC Microcontrollers
- Arduino
- Raspberry Pi
- Espressif
- Robotics
Follow Us
Luc Paquin – Curriculum Vitae – 2023
https://www.donluc.com/luc/
Web: https://www.donluc.com/
Facebook: https://www.facebook.com/neosteam.labs.9/
YouTube: https://www.youtube.com/@thesass2063
Twitter: https://twitter.com/labs_steam
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Instagram: https://www.instagram.com/neosteamlabs/
Don Luc