Showing 1–16 of 38 results
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Android Controlled Car Jack
₹23,000.00₹22,000.00The project is designed to control the direction of car jack by using an android phone with the help of Bluetooth device. The direction of the DC motor is depending on the signal which is coming from mobile. Hence, if we press UP, this is present on your mobile then the relay1 & relay4 gets ON, so the motor rotates in forward direction. And if when we press DOWN from mobile the relay2 & realy3 gets ON then the motor rotates in backward direction.
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AUTOMATIC SOLAR PANEL CLEANING ROBOT USING ARDUINO
₹14,800.00₹13,800.00The Solar energy is the most abundant source of energy for all the forms of Life on the planet Earth. Solar is the basic source of renewable energy. One can generally assume a reduction of about 40% – 55%, if the panels are not clean properly for 1-2 months.
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Automatic Solar Pannel Cleaning By Sensing Solar Voltage And Light Luminance
₹11,000.00₹9,400.00The solar PV modules are generally employed in dusty environments. The dust gets accumulated on the front surface of the module and blocks the incident light from the sun. It reduces the power generation capacity of the module. The power output reduces as much as by 50% if the module is not cleaned for a month.
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COLOUR BASED SORTING SYSTEM
₹10,000.00₹8,400.00For sorting object in industry optical sorting is very much convenient. Colour and size are the most important features for accurate classification and sorting of product which can be done by using some optical sensors. The colour sorting machine is mainly a device that can sense the different colour of the object and assert them into their respective location.
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Colour Based Sorting System Using Conveyer Belt
₹16,300.00₹14,000.00Sorting of products is a very difficult industrial process. Continuous manual sorting creates consistency issues. a working prototype designed for automatic sorting of objects based on the color. TCS230 sensor was used to detect the color of the product and the Arduino microcontroller was used to control the overall process. The identification of the color is based on the frequency analysis of the output of TCS230 sensor. conveyor belts were used, each controlled by separate DC motors. The belt is for placing the product to be analyzed by the color sensor, belt is for moving the container, having separated the all colours in the convey belt in order to separate the products. The experimental results promise that the prototype will fulfill the needs for higher production and precise quality in the field of automation.