In recent years, with the continuous development of RFID technology, the application of RFID has become more and more extensive, reaching every aspect of people's daily lives.
RFID technology is known as one of the most promising technologies in the 21st century.
According to statistics, about 700 million goose meat is consumed in the country every year, of which at least 170 million goose is consumed in Guangdong Province. The reason why Guangdong can eat a lot of geese every year is inseparable from the traditional local dish: Cantonese roast goose
The production process of Cantonese-style roast goose is extremely complicated. From material selection to roasting, it involves more than 20 production processes, and more than a dozen kinds of roast goose fillings are matched and made. Any step will affect the taste of roast goose. D & H SMARTID Co., Ltd. has been committed to supporting solutions for embedded applications in the RFID industry, and has the ability to integrate production + R&D + solutions into the Internet of Things. Applying RFID technology to the tracking of food processing is a set of solutions customized according to customer needs.
A well-known roast goose chain brand in Dongguan, Guangdong took the lead in applying RFID technology to the production process of roast goose. Before roasting goose is roasted in the oven, each goose needs to go through more than 20 pretreatment processes. How to ensure the integrity of the pretreatment process is the key to achieving deliciousness.
In the pretreatment process of roasting goose, an RFID tag is added to each goose to be processed, which is equivalent to an ID card and is used to record processing information. After each process, the information is written into the RFID tag to ensure that each goose can complete each pretreatment process to ensure that each roast goose has the same delicious taste.
Apply RFID technology to product identification in the production process of various industries to ensure production quality and production efficiency analysis, and to improve the manufacturing process to increase efficiency, reduce costs, and increase benefits.
RFID technology has attracted much attention due to its long-distance reading, high storage capacity, small size, diversified shapes, anti-pollution ability and durability. It is the future of Internet of Things applications and industrial manufacturing 4.0 (intelligent manufacturing, logistics, The key technologies of healthcare, agriculture, and food supply chain will inevitably develop in a diversified direction.
The application of RFID technology to the production process of roast goose is a manifestation of the diversified development and application of RFID technology. The use of high-temperature resistant RFID tags made of food-grade PET materials to realize the full traceability of the production and processing process of roast goose, ensuring the taste of Cantonese cuisine, and making the production process more and more standardized.
RFID antenna is one of the necessary hardware for the application of RFID technology. With the rapid development of RFID technology, RFID antenna has also been developed rapidly. The goal of the antenna is to transmit the maximum energy in and out of the chip. How to match the design of the antenna with the free space and the tag chip connected to it is a factor restricting the development of the antenna.
The design and manufacture of RFID tag antennas are affected by application restrictions, the shape and physical characteristics of the objects identified by the antenna characteristics, as well as the objects around the antenna and the environment. This is an important aspect of RFID technology research in the diversified development of RFID technology applications. direction.
With the progress and development of RFID technology, more and more new RFID products have been manufactured and are well applied. In the future, the development of RFID electronic tags will also tend to be green and diversified in raw materials to meet the application needs of different industries.