Food science
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- Fig. 1
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Bluetooth Module: The Arduino Controller is
connected to the Bluetooth module. This system’s real-time data is accessed through Bluetooth. Customers and milk depositors can use their own mobile devices to access it, and they can also store data logs on their own mobile devices for later use using an Android device. Fig. 1: Block Diagram of Proposed System Working This device can be set up in a nearby dairy or milk vendor where farmers can drop off their milk. As a primary milk analyzer, this device can be used. When this unit is properly mounted and turned on with a 5-volt dc supply through the power supply module, it is ready to use. It begins by reading data from the various sensors connected to the Arduino Controller. The pH of a milk sample is detected by a pH sensor. The pH of milk should be between 6.5 and 6.8. This gas sensor can detect microbial activity in milk or quantify toxic gas emissions from a milk sample. The temperature of the milk is determined by a temperature sensor, and the FAT is measured using the light scattering principle. LEDs are used to emit light beams, and LDRs are used to calculate the scattering of such beams. When a milk sample test tube is mounted between LED and LDR for this FAT measurement module, a light beam (emitted by LED) passes through the test tube of sample milk. When a light beam passes through a milk sample, the milk tends to disperse it. The milk sample collected by Light Dependent Register scatters light, and this light scatters from the milk sample collected by Light Dependent Register. The resistance of the LDR varies as the light scattered from the milk sample changes, and the measured data is sent to the controller board. If the milk has a higher fat content. The sample scatters a large amount of light. The amount of light scattered from Milk has an inverse relationship with the shift in LDR resistance. The proposed system’s block diagram and working model are shown in Fig. 1 and 2, respectively. Fig. 2: Working model of Proposed System The range of Fat content in different cattle 3.0 to 4.0 percent fat in cow milk 7-8 percent for Buffalo Goswami and Dangi 248 Print ISSN : 0974-1712 Online ISSN : 2230-732X Arduino is in charge of the whole system’s operation. This system is pre-calibrated with criteria that have known values for various milk parameters. When all parameters are within normal range, the Green LED blinks. When all parameters are within normal range, the Green LED blinks. It means that the milk sample is fresh or pure milk that is free of toxins. The RED LED blinks if the sample parameters are below or above the standard values. It means that the milk sample has been tampered with or that it is poisonous or unfit for consumption. The sample data can be accessed by a mobile device via the Bluetooth module, which is attached to this Controller. For each sample, the Real-Time Clock module produces a real date and time log. A memory card is used to store the data file. And, thanks to Bluetooth, each customer can save these log data to their mobile device. Table 1 shows a milk analyzer observation table. Yüklə 0,51 Mb. Dostları ilə paylaş:
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