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Zo stránky SensorWiki
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Študijné materiály na workshop E-design | Študijné materiály na workshop E-design | ||
== 1. Návrh == | |||
Parkovací senzor - video: https://www.youtube.com/watch?v=fifh8SuIZKU | |||
Komponenty: | |||
* [https://lastminuteengineers.com/arduino-nano-pinout/ Arduino Nano Pinout] | * [https://lastminuteengineers.com/arduino-nano-pinout/ Arduino Nano Pinout] | ||
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* Range: The sensor measures distances from 2cm up to 400cm | * Range: The sensor measures distances from 2cm up to 400cm | ||
== 2. Schéma zapojenia == | |||
== Výroba / Fabrication == | == 3. Plošný spoj == | ||
== 4. Výroba / Fabrication == | |||
* JLC PCB - výroba plošného spoja | * JLC PCB - výroba plošného spoja | ||
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** Elecom.SK | ** Elecom.SK | ||
** Drotik-Elektro.SK | ** Drotik-Elektro.SK | ||
== 5. Oživenie zariadenia == | |||
== 6. Softvér == | |||
* Šablóna pre Arduino so zapojením hardvéru - ToDo | |||
* Ukážka pre LED diódy | |||
* Ukážka pre bzučiak | |||
* Ukážka merania UZ senzorom | |||
Verzia z 18:35, 27. január 2026
- Kresliaca tabuľa: https://excalidraw.com/
- KiCAD softvér: https://www.kicad.org/
- KiCAD cheatsheet https://forum.kicad.info/t/kicad-v8-cheatsheet/51774
- Ťahák k dnešnému workshopu ToDo
Študijné materiály na workshop E-design
1. Návrh
Parkovací senzor - video: https://www.youtube.com/watch?v=fifh8SuIZKU
Komponenty:
Ultrazvukový senzor BEZ použitia špeciálnej knižnice
To use the HC-SR04 ultrasonic sensor with Arduino without libraries, send a 10µs HIGH pulse to the Trig pin, then measure the resulting Echo pin pulse duration using pulseIn(). Calculate distance in cm by dividing duration by 58.2 or \(0.0343\div 2\).
Wiring:
VCC: 5V GND: GND Trig: Digital Pin 9 (or any digital I/O) Echo: Digital Pin 10 (or any digital I/O)
Code Example:
const int trigPin = 9;
const int echoPin = 10;
/* Arduino code */
void setup() {
pinMode(trigPin, OUTPUT);
pinMode(echoPin, INPUT);
Serial.begin(9600);
}
void loop() {
// Clear trigPin
digitalWrite(trigPin, LOW);
delayMicroseconds(2);
// Sets the trigPin on HIGH state for 10 micro seconds
digitalWrite(trigPin, HIGH);
delayMicroseconds(10);
digitalWrite(trigPin, LOW);
// Reads the echoPin, returns sound wave travel time in microseconds
long duration = pulseIn(echoPin, HIGH);
// Calculating the distance (speed of sound is ~343m/s or 0.0343 cm/us)
float distanceCm = duration * 0.0343 / 2;
// Print to Serial Monitor
Serial.print("Distance: ");
Serial.print(distanceCm);
Serial.println(" cm");
delay(100); // Small delay to avoid interference
}
Key Principles:
- Trigger Pulse: A 10-microsecond high pulse is required to initiate the sensor's 8-cycle ultrasonic burst,
- Echo Pulse: The echo pin goes high for the same amount of time it takes for the sound to travel to the object and back,
- Calculation: \(\text{Distance}=\frac{\text{Duration}\times \text{Speed\ of\ Sound}}{2}\).
- Range: The sensor measures distances from 2cm up to 400cm
2. Schéma zapojenia
3. Plošný spoj
4. Výroba / Fabrication
- JLC PCB - výroba plošného spoja
- Predaj komponentov
- Techfun.SK
- GME.SK
- RLX.SK
- Elecom.SK
- Drotik-Elektro.SK
5. Oživenie zariadenia
6. Softvér
- Šablóna pre Arduino so zapojením hardvéru - ToDo
- Ukážka pre LED diódy
- Ukážka pre bzučiak
- Ukážka merania UZ senzorom