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Microcontroller LAB-Arduino-EXP6-Design heat control systems using Arduino
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Microcontroller LAB-Arduino-EXP6-Design heat control systems using Arduino
- Object of this experiment:
The aim of the experiment is to learn how to use the temperature sensor and to work with the "Arduino" to design heat control systems using Arduino. In this experiment we will connect the temperature sensor and then we connect the fan working at increasing the temperature value than that we will write in the code as reference value.
- Theory
Introduction
Heat controls allow you to easily regulate the temperature of your home, devices, water and anything need to keep the temperature in specific value.
The controls automatically turn the heating on and off based on settings input by the user, to ensure maximum comfort.
This process moves away from a fixed, traditional timer system and can therefore be used to better control the temperature within your home.
Thermostats, allowing people to control the temperature of their home, have been around for a long time. Newer heating control systems have evolved to the give residents total control of their heating, and by extension, their bills. The latest technology allows you to automatically control your heating to work around your daily schedule.
The example for Temperature control of computer:
Stands for "Heat Sink and Fan" Nearly all computers have heat sinks, which help keep the CPU cool and prevent it from overheating.
But sometimes the heat sink itself can become too hot. This can happen if the CPU is running at full capacity for an extended period of time or if the air surrounding the computer is simply too hot.
Therefore, a fan is often used in combination with the heat sink to keep both the CPU and heat sink at an acceptable temperature.
This combination is creatively called a "heat sink and fan," or HSF. The fan moves cool air across the heat sink, pushing hot air away from the computer.
Each CPU has a thermometer built in that keeps track of the processor’s temperature. If the temperature becomes too hot, the fan or fans near the CPU may speed up to help cool the processor and heat sink.
- Components of this experiment:
1-lm35 temperature sensor (Analog Input)
The LM35 is an integrated circuit sensor that can be used to measure temperature with an electrical output proportional to the temperature (in C◦), It has an output voltage that is proportional to the Celsius temperature 10 mv for 1 Celsius, the accuracy of reading up to ±0.5 C◦ the rated range of LM35 is −55°C to +150°C.
2- Digital Humidity and Temperature Sensor (DHT11) (Digital Input)
Overview
The low cost DHT temperature & humidity sensors. These sensors are very basic and slow, but are great for hobbyists who want to do some basic data logging. The DHT sensors are made of two parts, a capacitive humidity sensor and a thermistor.
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Book link:
----------------------------------------------------------------------------------------------------------------
فديوهات مفيدة:
-----------------------
شرح كتاب Basics Labs for Embedded Systems Using Arduino
Raspberry pi Basic Projects-رازبيري باي
NodeMCU Course (in Arabic)- NodeMCU كورس تعلم شريحة
Microsoft Publisher - الناشر المكتبي
Microsoft Front Page - Lessons مايكروسوفت فرونت بيج
Computer Vision with Python-OpenCV الرؤيا الحاسوبية مع بايثون OpenCV
Measurement LABVIEW LABs
Control LABs with MATLAB
-------------------------------------------------------------------------------------------------------------------------
- Object of this experiment:
The aim of the experiment is to learn how to use the temperature sensor and to work with the "Arduino" to design heat control systems using Arduino. In this experiment we will connect the temperature sensor and then we connect the fan working at increasing the temperature value than that we will write in the code as reference value.
- Theory
Introduction
Heat controls allow you to easily regulate the temperature of your home, devices, water and anything need to keep the temperature in specific value.
The controls automatically turn the heating on and off based on settings input by the user, to ensure maximum comfort.
This process moves away from a fixed, traditional timer system and can therefore be used to better control the temperature within your home.
Thermostats, allowing people to control the temperature of their home, have been around for a long time. Newer heating control systems have evolved to the give residents total control of their heating, and by extension, their bills. The latest technology allows you to automatically control your heating to work around your daily schedule.
The example for Temperature control of computer:
Stands for "Heat Sink and Fan" Nearly all computers have heat sinks, which help keep the CPU cool and prevent it from overheating.
But sometimes the heat sink itself can become too hot. This can happen if the CPU is running at full capacity for an extended period of time or if the air surrounding the computer is simply too hot.
Therefore, a fan is often used in combination with the heat sink to keep both the CPU and heat sink at an acceptable temperature.
This combination is creatively called a "heat sink and fan," or HSF. The fan moves cool air across the heat sink, pushing hot air away from the computer.
Each CPU has a thermometer built in that keeps track of the processor’s temperature. If the temperature becomes too hot, the fan or fans near the CPU may speed up to help cool the processor and heat sink.
- Components of this experiment:
1-lm35 temperature sensor (Analog Input)
The LM35 is an integrated circuit sensor that can be used to measure temperature with an electrical output proportional to the temperature (in C◦), It has an output voltage that is proportional to the Celsius temperature 10 mv for 1 Celsius, the accuracy of reading up to ±0.5 C◦ the rated range of LM35 is −55°C to +150°C.
2- Digital Humidity and Temperature Sensor (DHT11) (Digital Input)
Overview
The low cost DHT temperature & humidity sensors. These sensors are very basic and slow, but are great for hobbyists who want to do some basic data logging. The DHT sensors are made of two parts, a capacitive humidity sensor and a thermistor.
-----------------------------------------------------------------------------------------------------------------
Book link:
----------------------------------------------------------------------------------------------------------------
فديوهات مفيدة:
-----------------------
شرح كتاب Basics Labs for Embedded Systems Using Arduino
Raspberry pi Basic Projects-رازبيري باي
NodeMCU Course (in Arabic)- NodeMCU كورس تعلم شريحة
Microsoft Publisher - الناشر المكتبي
Microsoft Front Page - Lessons مايكروسوفت فرونت بيج
Computer Vision with Python-OpenCV الرؤيا الحاسوبية مع بايثون OpenCV
Measurement LABVIEW LABs
Control LABs with MATLAB
-------------------------------------------------------------------------------------------------------------------------