![]() However, both of these methods require a significant amount of manual labor. Time spent searching for critical equipment can lead to expensive delays or down time, missed deadlines and customer commitments, and wasted labor.Ĭompanies have traditionally addressed this problem by managing assets using serial numbers and spreadsheets, or tracking equipment with barcode labels. Managing and locating important assets is a key challenge for almost any business. Tagit AMS (Asset Management Solution) allows businesses to count and identify assets in a fraction of the time, with minimal labour and no errors. Smart labels can be encoded and printed on-demand using desktop label printers, whereas programming RFID tags are more time consuming and requires more advanced equipment. They’re made of an adhesive label embedded with an RFID tag inlay, and they may also feature a barcode and/or other printed information. Smart labels differ from RFID tags in that they incorporate both RFID and barcode technologies. For a more detailed discussion, refer to this article: Passive RFID Tags vs. Unlike passive tags, active RFID tags have an onboard power supply (e.g., a battery), thereby enabling them to transmit data at all times. Passive tags must be “powered up” by the RFID reader before they can transmit data. Passive tags are the most widely used, as they are smaller and less expensive to implement. RFID tags come in a variety of shapes and sizes and are either passive or active. For example, employee ID badges containing RFID tags are typically made from durable plastic, and the tag is embedded between the layers of plastic. ![]() The protective material depends on the application. The tag is also composed of a protective material that holds the pieces together and shields them from various environmental conditions. You can easily to choose a RFID tag for industrial applications in adance technology, compatitive price, high performance, great resistance (temperature, dust, etc.).As stated above, an RFID tag consists of an integrated circuit and an antenna. The UHF RFID tag label means one products, you have to write some infroatmion into chip, so what data strorage will you need ? What distance do you need to write at ? Usually our UHF RFID tag label including Impinj, Alien,NXP Ucode with User memory:512bites EPC memory:96bites TID memory:64bitse so this must be tested with a reader to see what type of UHF RFID reads you can achieve. they offer you reliable reads at the distance you need.Please note that when worn on the body or on the metal poject the read distance of UHF RFID passive tags drops substantially. Our UHF tags are passive, so they do not need batteries. ![]() No matter what long range RFID tags and readers system you eventually choose to deploy, you need to consider when choosing the right UHF RFID tag and reader for your application, For example, UHF tag orientation towards a reader can sometimes affect read distance, the smallest RFID tag usually with short read range,the big RFID tag and 3D antenna RFID tags with long read distance. The read distance will almost always be related to the reader/tag set up and the environmental factors that you are working with. Do you need 0.1-0.5 meters or 1-10 meters ? Our long distance tag is cheaper than LF and HF tags for large volumes, adapted to applications requiring long reading distance and a large volume of RFID tags to be read very quickly and tags dedicated to constrained environments (metal, liquid, etc.)Ĭhoosing a long range RFID tag normally depends on the applications. ![]() The maximum detection range of a tag corresponding to this frequency is about 3 to 10 meters. The long distance rfid tag is a paasive EPC tag in UHF frequency between 868-915 MHz.
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