Disadvantages of Arduino Temperature Sensor
Let us study some disadvantages of Arduino β Temperature Sensor
- Although, Arduino temperature Sensors can predict temperature ranges it is not possible to integrate them into professional projects due to the limitations of Arduino.
- The Arduino can detect errors up to 0.50 range but these can lead to inaccurate results in devices that are temperature sensitive.
- The range over which this sensor can predict temperature is limited therefore, it canβt be used over a wide temperature range.
- As compared to other devices like microcontrollers or microprocessors, the Arduino has comparatively low processing power.
- An Arduino takes some time to determine and provide reading, this response time can be large enough if the readings change continuously.
Arduino β Temperature Sensor
Sensors are widely used for sensing different quantities and quantifying them. One such example of a sensor is the temperature sensor which uses Arduino for displaying this temperature. The main feature of this sensor is that it can display the detected temperature on a Celsius scale.
In this article, we will study how to design this Temperature Sensor using the Arduino board and programming software. We will study the specifications needed for this sensor, and the methods and circuit diagrams used for designing this sensor. In addition to this, we will see the Arduino code written on IDE that will result in a sensor.
Table of Content
- Temperature Sensor
- Technical Specifications
- Components
- Working principle
- Temperature Sensor with its circuit diagram
- Pseudocode
- Code
- Advantages of Arduino
- Disadvantages of Arduino
- Applications