// // FILE: demo_VU.ino // AUTHOR: Rob Tillaart // PURPOSE: demo // URL: http://www.adafruit.com/products/1002 // URL: https://github.com/RobTillaart/HT16K33 // connect potentiometer or so to A0 and A1 for the VU tests #include "HT16K33.h" HT16K33 seg(0x70); uint32_t start, stop; uint8_t ar[4]; void setup() { Serial.begin(115200); Serial.println(__FILE__); seg.begin(); Wire.setClock(100000); seg.displayOn(); seg.setDigits(4); Serial.println("displayTest()"); seg.displayTest(10); seg.displayOff(); delay(1000); seg.displayOn(); seg.displayColon(false); } void loop() { test_VULeft(); delay(1000); test_VURight(); delay(1000); test_VUStereo(); delay(1000); } void test_VULeft() { for (uint8_t run = 0; run < 50; run++) { int val = abs((sin(run * PI/ 50)) * 8); seg.displayVULeft(val); delay(100); } } void test_VURight() { for (uint8_t run = 0; run < 50; run++) { int val = analogRead(A0); val = val / 120; // 0..8 seg.displayVURight(val); delay(100); } } void test_VUStereo() { for (uint8_t run = 0; run < 50; run++) { // uint8_t left = analogRead(A0) / 240; // 0..4 // uint8_t right = analogRead(A1) / 240; // 0..4 uint8_t left = random(5); uint8_t right = random(5); displayVUStereo(left, right); delay(100); } } void displayVUStereo(uint8_t left, uint8_t right) { switch (left) { case 0: ar[0] = 0x00; ar[1] = 0x00; break; case 1: ar[0] = 0x00; ar[1] = 0x06; break; case 2: ar[0] = 0x00; ar[1] = 0x36; break; case 3: ar[0] = 0x06; ar[1] = 0x36; break; case 4: default: ar[0] = 0x36; ar[1] = 0x36; break; } switch (right) { case 0: ar[2] = 0x00; ar[3] = 0x00; break; case 1: ar[2] = 0x30; ar[3] = 0x00; break; case 2: ar[2] = 0x36; ar[3] = 0x00; break; case 3: ar[2] = 0x36; ar[3] = 0x30; break; case 4: default: ar[2] = 0x36; ar[3] = 0x36; break; } seg.displayRaw(ar); // sort of heartbeat static bool hb = false; seg.displayColon(hb); hb = !hb; } // -- END OF FILE --