Tezislər / Theses
Yüklə 17,55 Mb. Pdf görüntüsü
|
|
THE 3
rd INTERNATIONAL SCIENTIFIC CONFERENCES OF STUDENTS AND YOUNG RESEARCHERS dedicated to the 99 th anniversary of the National Leader of Azerbaijan Heydar Aliyev 261 The TMP36 temperature sensor is a simple method to use an Arduino to measure temperature! The sensor has a large temperature range (-50°C to 125°C), is somewhat precise (0.1°C resolution), and is inexpensive, making it a popular choice. The TMP36 does not have a temperature sensitive resistor, unlike a thermistor. Instead, this sensor makes use of a diode's property: when the temperature of a diode varies, the voltage changes at a predictable pace. The sensor detects the slight change and produces an analog voltage ranging from 0 to 1.75VDC. We only need to measure the output voltage and do a little arithmetic to obtain the temperature. Two probes are utilized to measure the volumetric content of water in the soil moisture sensor. The two probes let current to travel through the soil, resulting in a resistance value that may be used to calculate the moisture value. When there is water in the soil, it conducts more electrical, resulting in less resistance. Because dry soil conducts electricity poorly, when there is less water, the soil conducts less electricity, resulting in increased resistance. This sensor is compatible with both analog and digital connections. The HC-SR04 Ultrasonic Sensor is a distance measuring sensor. It releases a 40 000 Hz (40kHz) ultrasonic that travels through the air and comes back to the module if it comes into contact with an item or impediment. You may compute the distance by considering the travel time and the sound's speed. VCC (1), TRIG (2), ECHO (3), and GND (4) are the configuration pins of the HC-SR04. The VCC supply voltage is +5V, and the TRIG and ECHO pins can be connected to any Digital I/O on your Arduino Board. The microcontroller may be powered in two ways. One is a DC input port that can accept up to 12 volts of electricity. A battery, a power supply, or a power brick are all possibilities. The other option, and the most straightforward to begin with, is to use the USB port. Simply connect the Arduino to computer with a USB wire, and the microcontroller will start up. That USB cord will also be used to transmit software to the board. A micro-switch is located next to the USB connection. That is a RESET button, which allows you to restart the Arduino without having to power cycle the USB port. |