1. 시작하기
Aliexpress에서 buzzer 를 구입했는데, 스피커 뚜껑이 깨지고 내용이 분해된 채로 배달이 됩니다. (아놔...)
잔해들은 본체, 금속 판, 짧은 철사 하나...
이걸 어떻게 조립해야 할까요?
2. 고치기
싸게 샀지만, 또 주문하고 기다리기 싫어서 어떻게든 고쳐서 써 보려고 합니다.
다만, 금속판을 위치시킬 때, 위아래의 정보와 철사의 사용처를 알아야 제대로 고칠 것 같습니다.
일단 갈라진 뚜껑을 순간접착제로 붙입니다.
Google 에서 image 검색을 해 보지만, 모두 겉모습만 나오고,
스피커 뚜껑의 작은 구멍으로 보이는 금속판의 위아래를 가늠할 수 없었습니다.
그러다, "buzzer structure" 키워드로 검색한 결과, 겨우 하나의 그림을 찾아냅니다.
금속판에 덧댄 부분은 위쪽이었습니다!!!
자, 그러면 저 철사는 무얼까요?
일단 구조적으로 부착될 부분이 없어서, 제조과정에서 잘못 들어간 것이라고 유추하고 제외토록 합니다.
스피커는 자석으로 되어 있으니, 금속판을 올려놓고 테스트 해보면 알 것 같습니다.
3. 테스트
Signal, GND, +V 로 구성되어 있으니, 연결을 잘 하고
그에 맞는 코드를 찾아봅니다.
연주를 시킬 것이면 이왕이면 재미있는 것이 좋겠죠?
슈퍼마리오를 연주해주는 코드가 있네요!
- http://www.princetronics.com/supermariothemesong/
소스는 +/- 만 Piezo Buzzer 를 기준으로 작성되어 있지만,
이번에 고친 Passive Buzzer는 Signal 을 통해서 컨트롤 되므로, 아래와 같이 변경합니다.
- +V : +5V
- -V : GND
- Signal : D3
아래는 소스 입니다.
/* Arduino Mario Bros Tunes With Piezo Buzzer and PWM Connect the positive side of the Buzzer to pin 3, then the negative side to a 1k ohm resistor. Connect the other side of the 1 k ohm resistor to ground(GND) pin on the Arduino. by: Dipto Pratyaksa last updated: 31/3/13 */ /************************************************* * Public Constants *************************************************/ #define NOTE_B0 31 #define NOTE_C1 33 #define NOTE_CS1 35 #define NOTE_D1 37 #define NOTE_DS1 39 #define NOTE_E1 41 #define NOTE_F1 44 #define NOTE_FS1 46 #define NOTE_G1 49 #define NOTE_GS1 52 #define NOTE_A1 55 #define NOTE_AS1 58 #define NOTE_B1 62 #define NOTE_C2 65 #define NOTE_CS2 69 #define NOTE_D2 73 #define NOTE_DS2 78 #define NOTE_E2 82 #define NOTE_F2 87 #define NOTE_FS2 93 #define NOTE_G2 98 #define NOTE_GS2 104 #define NOTE_A2 110 #define NOTE_AS2 117 #define NOTE_B2 123 #define NOTE_C3 131 #define NOTE_CS3 139 #define NOTE_D3 147 #define NOTE_DS3 156 #define NOTE_E3 165 #define NOTE_F3 175 #define NOTE_FS3 185 #define NOTE_G3 196 #define NOTE_GS3 208 #define NOTE_A3 220 #define NOTE_AS3 233 #define NOTE_B3 247 #define NOTE_C4 262 #define NOTE_CS4 277 #define NOTE_D4 294 #define NOTE_DS4 311 #define NOTE_E4 330 #define NOTE_F4 349 #define NOTE_FS4 370 #define NOTE_G4 392 #define NOTE_GS4 415 #define NOTE_A4 440 #define NOTE_AS4 466 #define NOTE_B4 494 #define NOTE_C5 523 #define NOTE_CS5 554 #define NOTE_D5 587 #define NOTE_DS5 622 #define NOTE_E5 659 #define NOTE_F5 698 #define NOTE_FS5 740 #define NOTE_G5 784 #define NOTE_GS5 831 #define NOTE_A5 880 #define NOTE_AS5 932 #define NOTE_B5 988 #define NOTE_C6 1047 #define NOTE_CS6 1109 #define NOTE_D6 1175 #define NOTE_DS6 1245 #define NOTE_E6 1319 #define NOTE_F6 1397 #define NOTE_FS6 1480 #define NOTE_G6 1568 #define NOTE_GS6 1661 #define NOTE_A6 1760 #define NOTE_AS6 1865 #define NOTE_B6 1976 #define NOTE_C7 2093 #define NOTE_CS7 2217 #define NOTE_D7 2349 #define NOTE_DS7 2489 #define NOTE_E7 2637 #define NOTE_F7 2794 #define NOTE_FS7 2960 #define NOTE_G7 3136 #define NOTE_GS7 3322 #define NOTE_A7 3520 #define NOTE_AS7 3729 #define NOTE_B7 3951 #define NOTE_C8 4186 #define NOTE_CS8 4435 #define NOTE_D8 4699 #define NOTE_DS8 4978 #define melodyPin 3 //Mario main theme melody int melody[] = { NOTE_E7, NOTE_E7, 0, NOTE_E7, 0, NOTE_C7, NOTE_E7, 0, NOTE_G7, 0, 0, 0, NOTE_G6, 0, 0, 0, NOTE_C7, 0, 0, NOTE_G6, 0, 0, NOTE_E6, 0, 0, NOTE_A6, 0, NOTE_B6, 0, NOTE_AS6, NOTE_A6, 0, NOTE_G6, NOTE_E7, NOTE_G7, NOTE_A7, 0, NOTE_F7, NOTE_G7, 0, NOTE_E7, 0, NOTE_C7, NOTE_D7, NOTE_B6, 0, 0, NOTE_C7, 0, 0, NOTE_G6, 0, 0, NOTE_E6, 0, 0, NOTE_A6, 0, NOTE_B6, 0, NOTE_AS6, NOTE_A6, 0, NOTE_G6, NOTE_E7, NOTE_G7, NOTE_A7, 0, NOTE_F7, NOTE_G7, 0, NOTE_E7, 0, NOTE_C7, NOTE_D7, NOTE_B6, 0, 0 }; //Mario main them tempo int tempo[] = { 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 9, 9, 9, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 9, 9, 9, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, }; //Underworld melody int underworld_melody[] = { NOTE_C4, NOTE_C5, NOTE_A3, NOTE_A4, NOTE_AS3, NOTE_AS4, 0, 0, NOTE_C4, NOTE_C5, NOTE_A3, NOTE_A4, NOTE_AS3, NOTE_AS4, 0, 0, NOTE_F3, NOTE_F4, NOTE_D3, NOTE_D4, NOTE_DS3, NOTE_DS4, 0, 0, NOTE_F3, NOTE_F4, NOTE_D3, NOTE_D4, NOTE_DS3, NOTE_DS4, 0, 0, NOTE_DS4, NOTE_CS4, NOTE_D4, NOTE_CS4, NOTE_DS4, NOTE_DS4, NOTE_GS3, NOTE_G3, NOTE_CS4, NOTE_C4, NOTE_FS4, NOTE_F4, NOTE_E3, NOTE_AS4, NOTE_A4, NOTE_GS4, NOTE_DS4, NOTE_B3, NOTE_AS3, NOTE_A3, NOTE_GS3, 0, 0, 0 }; //Underwolrd tempo int underworld_tempo[] = { 12, 12, 12, 12, 12, 12, 6, 3, 12, 12, 12, 12, 12, 12, 6, 3, 12, 12, 12, 12, 12, 12, 6, 3, 12, 12, 12, 12, 12, 12, 6, 6, 18, 18, 18, 6, 6, 6, 6, 6, 6, 18, 18, 18, 18, 18, 18, 10, 10, 10, 10, 10, 10, 3, 3, 3 }; void setup(void) { pinMode(3, OUTPUT);//buzzer pinMode(13, OUTPUT);//led indicator when singing a note } void loop() { //sing the tunes sing(1); sing(1); sing(2); } int song = 0; void sing(int s) { // iterate over the notes of the melody: song = s; if (song == 2) { Serial.println(" 'Underworld Theme'"); int size = sizeof(underworld_melody) / sizeof(int); for (int thisNote = 0; thisNote < size; thisNote++) { // to calculate the note duration, take one second // divided by the note type. //e.g. quarter note = 1000 / 4, eighth note = 1000/8, etc. int noteDuration = 1000 / underworld_tempo[thisNote]; buzz(melodyPin, underworld_melody[thisNote], noteDuration); // to distinguish the notes, set a minimum time between them. // the note's duration + 30% seems to work well: int pauseBetweenNotes = noteDuration * 1.30; delay(pauseBetweenNotes); // stop the tone playing: buzz(melodyPin, 0, noteDuration); } } else { Serial.println(" 'Mario Theme'"); int size = sizeof(melody) / sizeof(int); for (int thisNote = 0; thisNote < size; thisNote++) { // to calculate the note duration, take one second // divided by the note type. //e.g. quarter note = 1000 / 4, eighth note = 1000/8, etc. int noteDuration = 1000 / tempo[thisNote]; buzz(melodyPin, melody[thisNote], noteDuration); // to distinguish the notes, set a minimum time between them. // the note's duration + 30% seems to work well: int pauseBetweenNotes = noteDuration * 1.30; delay(pauseBetweenNotes); // stop the tone playing: buzz(melodyPin, 0, noteDuration); } } } void buzz(int targetPin, long frequency, long length) { digitalWrite(13, HIGH); long delayValue = 1000000 / frequency / 2; // calculate the delay value between transitions //// 1 second's worth of microseconds, divided by the frequency, then split in half since //// there are two phases to each cycle long numCycles = frequency * length / 1000; // calculate the number of cycles for proper timing //// multiply frequency, which is really cycles per second, by the number of seconds to //// get the total number of cycles to produce for (long i = 0; i < numCycles; i++) { // for the calculated length of time... digitalWrite(targetPin, HIGH); // write the buzzer pin high to push out the diaphram delayMicroseconds(delayValue); // wait for the calculated delay value digitalWrite(targetPin, LOW); // write the buzzer pin low to pull back the diaphram delayMicroseconds(delayValue); // wait again or the calculated delay value } digitalWrite(13, LOW); }
4. 결과
성공입니다!
뚜껑도 순간접착제로 붙이고 최종 테스트까지 마쳤습니다.
소스에서 음악에 따라 LED도 점등해 주네요.
FIN
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