Ta yetti segmentli indikatordan tashkil topgan razryadli matritsa. Dinamik aks ettirishni amalga oshirish (Arduinoda) Ishdan maqsad
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8-labaratoriya
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- Kerakli komponentlar
- DASTUR KODI
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8 – Laboratoriya ishi 7 ta yetti segmentli indikatordan tashkil topgan 4 razryadli matritsa. Dinamik aks ettirishni amalga oshirish (Arduinoda) Ishdan maqsad: Arduino platformasida ma’lumotlarni namoyish qilish uchun 4-bitli yetti segmentli matritsani ishlash imkoniyatini o’rganish. Kerakli komponentlar: • Arduino UNO platformasi; • kompanentlarni ulash uchun maket platasi; • 4-bitli yetti segmentli matritsa; • qarshilik 510 Ohm - 8 dona; • knopka; • qarshilik 10 kOm; • Ulovchi simlar. Yetti segmentli ko'rsatkichlarning 4 xonali matritsasi to'rtta yetti segment displeylaridan iborat va matritsada bir vaqtning o'zida 4 ta raqamni namoyish qilish uchun mo'ljallangan, shuningdek, o'nli kasrni ko'rsatish imkoniyati mavjud. 7 segmentli displeylarda 4-bitli matritsaning diagrammasi shakl. 8.1. 8.1-rasm. 7 segmentli displeylarda 4-bitli matritsaning sxemasi Raqamni ko'rsatish uchun siz A - G va DP pinlariga kerakli displeylarni yoqishingiz va 6, 8, 9 yoki 12 pinlariga LOW berish orqali kerakli matritsani tanlashingiz kerak. Matritsa kontaktlarini Arduino platasiga ulang va sonlarni matritsaning turli bitlariga chiqaring. Ulanish uchun bizga 12 ta Arduino pini kerak. 4-bitli matritsani Arduino platasiga ulash uchun simlar diagrammasi shakl. 8.2. Kontaktlarni ulashda 510 ohm cheklash rezistorlari ishlatiladi. 8.2-rasm. Arduino-ga 4-bitli matritsani ulash sxemasi Matritsaning o'zboshimchalik bilan ro'yxatga olinishiga (0-9) raqamlarning ketma-ket chiqishi eskizini yozamiz. Biror qatordan tasodifiy qiymatni tanlash uchun biz random () funktsiyasidan foydalanamiz. Raqamlar [] qatori 0-9 raqamlarini ko'rsatish uchun ma'lumotlarga mos keladigan qiymatlarni saqlaydi (baytning eng muhim biti indikator segmenti A yorlig'iga, eng kami - G segmentiga to'g'ri keladi), pinlar [] qatori A - G va DP segmentlari uchun pin qiymatlarini o'z ichiga oladi array pindigits [] - matritsa bitini tanlash uchun kontaktlarning qiymatlari. 8.3-rasm. Sxemaning kodi 8.4-rasm. Arduino-ga matritsani ulash sxemasi 8.5-rasm. Arduino-ga matritsani ulash sxemasi va ishlash jarayoni 8.6-rasm. Arduino-ga matritsani ulash sxemasi va ishlash jarayoni DASTUR KODI: import muvium.compatibility.arduino.*; //Yusupov Azizbek KI 11-19 public class Class0 extends Arduino{ int segA = 1; int segB = 2; int segC = 3; int segD = 4; int segE = 5; int segF = 6; int segG = 7; public void setup(){ for(int pin=1; pin <= 8; pin++) pinMode(pin, OUTPUT); } // the loop() method runs over and over again, // as long as the Arduino has power public void loop(){ /* for(int pin=9; pin >= 0; pin--) { digitalWrite(pin, HIGH); delay(500); digitalWrite(pin, LOW); }
// Your loop code goes here for (int d = 9; d >= 0; d--) { writeDigital(d); delay(1000); }
void writeDigital(int digital) { switch(digital) { case 9: digitalWrite(segA, HIGH); digitalWrite(segB, HIGH); digitalWrite(segC, HIGH); digitalWrite(segD, HIGH); digitalWrite(segE, LOW); digitalWrite(segF, HIGH); digitalWrite(segG, HIGH); break; case 8: digitalWrite(segA, HIGH); digitalWrite(segB, HIGH); digitalWrite(segC, HIGH); digitalWrite(segD, HIGH); digitalWrite(segE, HIGH); digitalWrite(segF, HIGH); digitalWrite(segG, HIGH); break; case 7: digitalWrite(segA, HIGH); digitalWrite(segB, HIGH); digitalWrite(segC, HIGH); digitalWrite(segD, LOW); digitalWrite(segE, LOW); digitalWrite(segF, LOW); digitalWrite(segG, LOW); break; case 6: digitalWrite(segA, HIGH); digitalWrite(segB, LOW); digitalWrite(segC, HIGH); digitalWrite(segD, HIGH); digitalWrite(segE, HIGH); digitalWrite(segF, HIGH); digitalWrite(segG, HIGH); break; case 5: digitalWrite(segA, HIGH); digitalWrite(segB, LOW); digitalWrite(segC, HIGH); digitalWrite(segD, HIGH); digitalWrite(segE, LOW); digitalWrite(segF, HIGH); digitalWrite(segG, HIGH); break; case 4: digitalWrite(segA, LOW); digitalWrite(segB, HIGH); digitalWrite(segC, HIGH); digitalWrite(segD, HIGH); digitalWrite(segE, LOW); digitalWrite(segF, LOW); digitalWrite(segG, HIGH); break; case 3: digitalWrite(segA, HIGH); digitalWrite(segB, HIGH); digitalWrite(segC, HIGH); digitalWrite(segD, HIGH); digitalWrite(segE, LOW); digitalWrite(segF, LOW); digitalWrite(segG, HIGH); break; case 2: digitalWrite(segA, HIGH); digitalWrite(segB, HIGH); digitalWrite(segC, LOW); digitalWrite(segD, HIGH); digitalWrite(segE, HIGH); digitalWrite(segF, LOW); digitalWrite(segG, HIGH); break; case 1: digitalWrite(segA, LOW); digitalWrite(segB, HIGH); digitalWrite(segC, HIGH); digitalWrite(segD, LOW); digitalWrite(segE, LOW); digitalWrite(segF, LOW); digitalWrite(segG, LOW); break; case 0: digitalWrite(segA, HIGH); digitalWrite(segB, HIGH); digitalWrite(segC, HIGH); digitalWrite(segD, HIGH); digitalWrite(segE, HIGH); digitalWrite(segF, HIGH); digitalWrite(segG, LOW); break; } } } Download 0.63 Mb. Do'stlaringiz bilan baham: 
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