![]() After downloading this file extract it and you will find three Library files in it, named as.Place all these three files in the Library folder of your Proteus software.If you are using Proteus 8 software, then you should have a look at How to add new Library in Proteus 8 Professional.Once you have added the files in the Library folder, then restart your Proteus software.In the components section, make a search for Infrared Sensor, as shown in below figure.Now place this IR Obstacle Sensor in your Proteus and if everything goes fine then you will get something as shown in below figure. ![]() As you can see in above figure that we have four pins on our Infrared sensor, which are.Vcc => You need to provide +5V to this pin.OUT => That's output pin and it will get HIGH when this sensor will find some obstacle in front and will remain LOW in normal condition.TestPin => As Proteus is a simulation software so we can't actually place something in front of this sensor.If this Pin is LOW, then sensor will remain normal and if it's HIGH then sensor will behave as it has something in front of it. Now double click this Infrared Sensor and its Properties Panel will open up.In the Program File section, browse to the file InfraredSensorTEP.HEX which you have already downloaded and placed in the Library folder of Proteus.Here's the screenshot of Properties Panel for this Infrared Sensor.I have encircled the Program File in above figure and you can see I have selected the InfraredSensorsTEP.HEX.So, now let's design a simple circuit and have a look at how to use this Infrared Sensor in Proteus.Here's the screenshot of Infrared Sensor Simulation in Proteus.So, now let's run our Proteus simulation and if everything goes fine then you will get results, as shown in the below figure.I will interface this sensor with different Microcontrollers e.g.As you can see in the above figure that when TestPin is LOW then OUT Pin is also LOW means there's no obstacle and when TestPin gets 1 then OUT Pin will go HIGH and that means we have some obstacle.So, that's all for Infrared Sensor Library for Proteus. I hope it will help you guys in your engineering projects. Let me know if you have any suggestions.The DHT11 sensor has three or four pins in total. 3 PIN sensors have two PINs (+ve and -ve) for power supply, one is a signal PIN used for data communication. The DHT11 sensor can work from 3 voltage to 5.5 volts. After activation, DHT11 sensor responds to starting a signal in the form of 40 bit data with relative humidity and temperature information.ĭHT11 transfers data from its single terminal to microcontroller, DHT11 sensor sends signals to an active microcontroller sensor. “Humidity” refers to the presence of water vapor in the atmosphere. ![]() Relative humidity is a measure of how close to saturation the air is with water vapor. If there is a lot of water vapor in the air, the humidity will be high. Relative humidity (RH) is the ratio between the actual amount of water vapor present in the air and the maximum amount of water vapor that the air can hold at a given is expressed as a percentage. At 100% RH, condensation occurs, and at 0% RH, the air is completely dry.
0 Comments
Leave a Reply. |