I2Cの方はうまくいかなかったからSPIで試した
配線
MicroOLED Demo
/****************************************************************************** * MicroOLED_Demo.ino * SFE_MicroOLED Library Demo * Jim Lindblom @ SparkFun Electronics * Original Creation Date: October 27, 2014 * * This sketch uses the MicroOLED library to draw a 3-D projected * cube, and rotate it along all three axes. * * Development environment specifics: * Arduino 1.0.5 * Arduino Pro 3.3V * Micro OLED Breakout v1.0 * * This code is beerware; if you see me (or any other SparkFun employee) at the * local, and you've found our code helpful, please buy us a round! * * Distributed as-is; no warranty is given. ******************************************************************************/ #include <Wire.h> // Include Wire if you're using I2C #include <SPI.h> // Include SPI if you're using SPI #include <SFE_MicroOLED.h> // Include the SFE_MicroOLED library ////////////////////////// // MicroOLED Definition // ////////////////////////// #define PIN_RESET 9 // Connect RST to pin 9 #define PIN_DC 8 // Connect DC to pin 8 #define PIN_CS 10 // Connect CS to pin 10 #define DC_JUMPER 0 ////////////////////////////////// // MicroOLED Object Declaration // ////////////////////////////////// MicroOLED oled(PIN_RESET, PIN_DC, PIN_CS); // SPI declaration //MicroOLED oled(PIN_RESET, DC_JUMPER); // I2C declaration void setup() { oled.begin(); // Initialize the OLED oled.clear(ALL); // Clear the display's internal memory oled.display(); // Display what's in the buffer (splashscreen) delay(1000); // Delay 1000 ms oled.clear(PAGE); // Clear the buffer. randomSeed(analogRead(A0) + analogRead(A1)); } void pixelExample() { printTitle("Pixels", 1); for (int i=0; i<512; i++) { oled.pixel(random(oled.getLCDWidth()), random(oled.getLCDHeight())); oled.display(); } } void lineExample() { int middleX = oled.getLCDWidth() / 2; int middleY = oled.getLCDHeight() / 2; int xEnd, yEnd; int lineWidth = min(middleX, middleY); printTitle("Lines!", 1); for (int i=0; i<3; i++) { for (int deg=0; deg<360; deg+=15) { xEnd = lineWidth * cos(deg * PI / 180.0); yEnd = lineWidth * sin(deg * PI / 180.0); oled.line(middleX, middleY, middleX + xEnd, middleY + yEnd); oled.display(); delay(10); } for (int deg=0; deg<360; deg+=15) { xEnd = lineWidth * cos(deg * PI / 180.0); yEnd = lineWidth * sin(deg * PI / 180.0); oled.line(middleX, middleY, middleX + xEnd, middleY + yEnd, BLACK, NORM); oled.display(); delay(10); } } } void shapeExample() { printTitle("Shapes!", 0); // Silly pong demo. It takes a lot of work to fake pong... int paddleW = 3; // Paddle width int paddleH = 15; // Paddle height // Paddle 0 (left) position coordinates int paddle0_Y = (oled.getLCDHeight() / 2) - (paddleH / 2); int paddle0_X = 2; // Paddle 1 (right) position coordinates int paddle1_Y = (oled.getLCDHeight() / 2) - (paddleH / 2); int paddle1_X = oled.getLCDWidth() - 3 - paddleW; int ball_rad = 2; // Ball radius // Ball position coordinates int ball_X = paddle0_X + paddleW + ball_rad; int ball_Y = random(1 + ball_rad, oled.getLCDHeight() - ball_rad);//paddle0_Y + ball_rad; int ballVelocityX = 1; // Ball left/right velocity int ballVelocityY = 1; // Ball up/down velocity int paddle0Velocity = -1; // Paddle 0 velocity int paddle1Velocity = 1; // Paddle 1 velocity //while(ball_X >= paddle0_X + paddleW - 1) while ((ball_X - ball_rad > 1) && (ball_X + ball_rad < oled.getLCDWidth() - 2)) { // Increment ball's position ball_X+=ballVelocityX; ball_Y+=ballVelocityY; // Check if the ball is colliding with the left paddle if (ball_X - ball_rad < paddle0_X + paddleW) { // Check if ball is within paddle's height if ((ball_Y > paddle0_Y) && (ball_Y < paddle0_Y + paddleH)) { ball_X++; // Move ball over one to the right ballVelocityX = -ballVelocityX; // Change velocity } } // Check if the ball hit the right paddle if (ball_X + ball_rad > paddle1_X) { // Check if ball is within paddle's height if ((ball_Y > paddle1_Y) && (ball_Y < paddle1_Y + paddleH)) { ball_X--; // Move ball over one to the left ballVelocityX = -ballVelocityX; // change velocity } } // Check if the ball hit the top or bottom if ((ball_Y <= ball_rad) || (ball_Y >= (oled.getLCDHeight() - ball_rad - 1))) { // Change up/down velocity direction ballVelocityY = -ballVelocityY; } // Move the paddles up and down paddle0_Y += paddle0Velocity; paddle1_Y += paddle1Velocity; // Change paddle 0's direction if it hit top/bottom if ((paddle0_Y <= 1) || (paddle0_Y > oled.getLCDHeight() - 2 - paddleH)) { paddle0Velocity = -paddle0Velocity; } // Change paddle 1's direction if it hit top/bottom if ((paddle1_Y <= 1) || (paddle1_Y > oled.getLCDHeight() - 2 - paddleH)) { paddle1Velocity = -paddle1Velocity; } // Draw the Pong Field oled.clear(PAGE); // Clear the page // Draw an outline of the screen: oled.rect(0, 0, oled.getLCDWidth() - 1, oled.getLCDHeight()); // Draw the center line oled.rectFill(oled.getLCDWidth()/2 - 1, 0, 2, oled.getLCDHeight()); // Draw the Paddles: oled.rectFill(paddle0_X, paddle0_Y, paddleW, paddleH); oled.rectFill(paddle1_X, paddle1_Y, paddleW, paddleH); // Draw the ball: oled.circle(ball_X, ball_Y, ball_rad); // Actually draw everything on the screen: oled.display(); delay(25); // Delay for visibility } delay(1000); } void textExamples() { printTitle("Text!", 1); // Demonstrate font 0. 5x8 font oled.clear(PAGE); // Clear the screen oled.setFontType(0); // Set font to type 0 oled.setCursor(0, 0); // Set cursor to top-left // There are 255 possible characters in the font 0 type. // Lets run through all of them and print them out! for (int i=0; i<=255; i++) { // You can write byte values and they'll be mapped to // their ASCII equivalent character. oled.write(i); // Write a byte out as a character oled.display(); // Draw on the screen delay(10); // Wait 10ms // We can only display 60 font 0 characters at a time. // Every 60 characters, pause for a moment. Then clear // the page and start over. if ((i%60 == 0) && (i != 0)) { delay(500); // Delay 500 ms oled.clear(PAGE); // Clear the page oled.setCursor(0, 0); // Set cursor to top-left } } delay(500); // Wait 500ms before next example // Demonstrate font 1. 8x16. Let's use the print function // to display every character defined in this font. oled.setFontType(1); // Set font to type 1 oled.clear(PAGE); // Clear the page oled.setCursor(0, 0); // Set cursor to top-left // Print can be used to print a string to the screen: oled.print(" !\"#$%&'()*+,-./01234"); oled.display(); // Refresh the display delay(1000); // Delay a second and repeat oled.clear(PAGE); oled.setCursor(0, 0); oled.print("56789:;<=>?@ABCDEFGHI"); oled.display(); delay(1000); oled.clear(PAGE); oled.setCursor(0, 0); oled.print("JKLMNOPQRSTUVWXYZ[\\]^"); oled.display(); delay(1000); oled.clear(PAGE); oled.setCursor(0, 0); oled.print("_`abcdefghijklmnopqrs"); oled.display(); delay(1000); oled.clear(PAGE); oled.setCursor(0, 0); oled.print("tuvwxyz{|}~"); oled.display(); delay(1000); // Demonstrate font 2. 10x16. Only numbers and '.' are defined. // This font looks like 7-segment displays. // Lets use this big-ish font to display readings from the // analog pins. for (int i=0; i<25; i++) { oled.clear(PAGE); // Clear the display oled.setCursor(0, 0); // Set cursor to top-left oled.setFontType(0); // Smallest font oled.print("A0: "); // Print "A0" oled.setFontType(2); // 7-segment font oled.print(analogRead(A0)); // Print a0 reading oled.setCursor(0, 16); // Set cursor to top-middle-left oled.setFontType(0); // Repeat oled.print("A1: "); oled.setFontType(2); oled.print(analogRead(A1)); oled.setCursor(0, 32); oled.setFontType(0); oled.print("A2: "); oled.setFontType(2); oled.print(analogRead(A2)); oled.display(); delay(100); } // Demonstrate font 3. 12x48. Stopwatch demo. oled.setFontType(3); // Use the biggest font int ms = 0; int s = 0; while (s <= 5) { oled.clear(PAGE); // Clear the display oled.setCursor(0, 0); // Set cursor to top-left if (s < 10) oled.print("00"); // Print "00" if s is 1 digit else if (s < 100) oled.print("0"); // Print "0" if s is 2 digits oled.print(s); // Print s's value oled.print(":"); // Print ":" oled.print(ms); // Print ms value oled.display(); // Draw on the screen ms++; // Increment ms if (ms >= 10) // If ms is >= 10 { ms = 0; // Set ms back to 0 s++; // and increment s } } // Demonstrate font 4. 31x48. Let's use the print function // to display some characters defined in this font. oled.setFontType(4); // Set font to type 4 oled.clear(PAGE); // Clear the page oled.setCursor(0, 0); // Set cursor to top-left // Print can be used to print a string to the screen: oled.print("OL"); oled.display(); // Refresh the display delay(1000); // Delay a second and repeat oled.clear(PAGE); oled.setCursor(0, 0); oled.print("ED"); oled.display(); delay(1000); } void loop() { pixelExample(); // Run the pixel example function lineExample(); // Then the line example function shapeExample(); // Then the shape example textExamples(); // Finally the text example } // Center and print a small title // This function is quick and dirty. Only works for titles one // line long. void printTitle(String title, int font) { int middleX = oled.getLCDWidth() / 2; int middleY = oled.getLCDHeight() / 2; oled.clear(PAGE); oled.setFontType(font); // Try to set the cursor in the middle of the screen oled.setCursor(middleX - (oled.getFontWidth() * (title.length()/2)), middleY - (oled.getFontWidth() / 2)); // Print the title: oled.print(title); oled.display(); delay(1500); oled.clear(PAGE); }