ART
BEAUTÉ ET BIEN-ÊTRE
ARTISANAT
CULTURE ET HISTOIRE
DIVERTISSEMENT
ENVIRONNEMENT
NOURRITURE ET BOISSONS
AVENIR VERT
INGÉNIERIE INVERSE
SCIENCES
SPORTS
TECHNOLOGIE
TECHNOLOGIE PORTABLE
Building an Ultrasonic Parking Sensor
Ed

Créé par

Ed

13. juillet 2026FI
2
0
0
0
0

Building an Ultrasonic Parking Sensor

Measure distance with sound. An HC-SR04 ultrasonic sensor sends out a pulse of sound and times its echo, and the Arduino turns that into a distance in centimetres. Wire it to a buzzer that beeps faster as something gets closer — a car parking sensor, a reversing aid, or a doorway proximity alarm.

Débutant
1 hour

Consignes

1

Wire the sensor and buzzer

Push the HC-SR04 and the active buzzer into the breadboard. Wire the sensor: VCC to Arduino 5V, GND to GND, Trig to pin 9, Echo to pin 10. Wire the buzzer: + to pin 8, - to GND.

Matériaux pour cette étape :

Arduino Uno R3Arduino Uno R31 pièce
HC-SR04 Ultrasonic Distance Sensor (5-Pack)HC-SR04 Ultrasonic Distance Sensor (5-Pack)1 pièce
Active Buzzer Module (5V, 5-Pack)Active Buzzer Module (5V, 5-Pack)1 pièce
BreadboardBreadboard1 pièce
Jumper Wires (Male-to-Male)Jumper Wires (Male-to-Male)1 paquet
2

Connect and open the IDE

Plug the Arduino into your computer with the USB cable, open the Arduino IDE, and select Arduino Uno and its serial port.

Matériaux pour cette étape :

USB-B CableUSB-B Cable1 pièce

Outils nécessaires :

Computer with Arduino IDEComputer with Arduino IDE
3

Upload the parking-sensor sketch

Paste this sketch and upload. It measures the distance and beeps faster the closer an object is. Open the Serial Monitor to see the distance in centimetres.

ultrasonic_parking_sensor.inoarduino
// Ultrasonic parking sensor: the buzzer beeps faster as an object gets closer.
// HC-SR04 Trig on pin 9, Echo on pin 10; active buzzer on pin 8.

const int TRIG_PIN = 9;
const int ECHO_PIN = 10;
const int BUZZER_PIN = 8;

void setup() {
  pinMode(TRIG_PIN, OUTPUT);
  pinMode(ECHO_PIN, INPUT);
  pinMode(BUZZER_PIN, OUTPUT);
  Serial.begin(9600);
}

void loop() {
  // send a short trigger pulse
  digitalWrite(TRIG_PIN, LOW);
  delayMicroseconds(2);
  digitalWrite(TRIG_PIN, HIGH);
  delayMicroseconds(10);
  digitalWrite(TRIG_PIN, LOW);

  // time the echo and convert to centimetres (speed of sound ~343 m/s)
  long duration = pulseIn(ECHO_PIN, HIGH);
  int distance = duration * 0.0343 / 2;

  Serial.print(distance);
  Serial.println(" cm");

  if (distance > 0 && distance < 50) {
    int gap = distance * 6;          // closer = shorter gap between beeps
    digitalWrite(BUZZER_PIN, HIGH);
    delay(30);
    digitalWrite(BUZZER_PIN, LOW);
    delay(gap);
  } else {
    digitalWrite(BUZZER_PIN, LOW);   // nothing close -> silent
    delay(60);
  }
}
4

Test and set the range

Move your hand toward the sensor — the buzzer beeps faster as you get closer and nearly solid when very near. Change the 50 in the sketch to set how far away it starts reacting, and the * 6 to change how quickly the beeping speeds up.

5

Mount it

Fix the sensor facing outward on a bracket or in a small box and power the Arduino from a USB power bank or a 9 V adapter. Aim it at your parking spot, garage wall or doorway.

Matériaux

6

Outils requis

1
Total estimé
$53.00

Blueprints liés

Ces blueprints partagent des connaissances — techniques, matériaux ou principes

CC0 Domaine public

Ce blueprint est publié sous CC0. Vous êtes libre de copier, modifier, distribuer et utiliser ce travail pour tout usage, sans demander la permission.

Soutenez le Maker en achetant des produits via son Blueprint où il perçoit une Commission Maker définie par les Vendeurs, ou créez une nouvelle itération de ce Blueprint et incluez-le comme connexion dans votre propre Blueprint pour partager les revenus.

Commentaires

(0)

Se connecter pour participer à la discussion

Chargement des commentaires...