RFID Label Technology
RFID technology is a great way to manage assets and monitor people within the health industry. In hospitals, RFID tags can be used to label surgical instruments, monitor the condition of patients, and even store medical history. Food and beverage producers can use RFID technology to manage the temperature of their products and track maturity time. They can also control the movement between drying and flipping chambers and monitor expired stock levels. For more information about RFID technology, visit the official website of the RFID association.
An RFID label has a chip embedded in the substrate. Depending on the type of RFID reader, it can store different information. RFID printers are specially designed to print RFID labels. There are passive and active RFID labels. Passive RFID labels do not have batteries. They can detect objects within a distance of 15 meters or less. Because of their shorter range, passive RFID labels are cheaper to produce. These labels can be applied to most surfaces. Once placed on a product, the product is immediately traceable.
Using RFID technology in sporting events allows for better management of participants. The technology makes it possible to control routes and accurately time events. A single RFID label can be attached to a person’s clothing, shoes, and more. Because RFID tags are disposable, they can be worn on clothing or on athletic equipment. In sports, RFID tags can be placed on clothing and track the movements of a team member or participant. RFID labels are also perfect for tracking the movements of athletes during competitions.
RFID technology is becoming increasingly widespread in our society. The ability to track inventory and keep track of product movements makes everyday objects “smart” and connected to other systems and devices. RFID technology is also extremely useful in manufacturing practices. RFID labeling can improve throughput speeds, labor costs, and tracking. The technology also has several layers, each requiring special engineering to be able to withstand the intended application. The main benefits of RFID technology are described below.
The main components of an RFID label are its inlay, the face material, and the antenna. Often, RFID labels are vinyl, which is suitable for a “slap and ship” operation. RFID labels come in a variety of sizes. Common sizes include 4x6 inches, 2x4 inches, and 1x2 inches, but you can also find them in other shapes. The face material of the label is the part that holds the receiver coat and the printer image.
The read range of an RFID tag depends on the frequency of radio waves used and the type of reader. An active RFID tag will have a longer range than a passive one because it contains a stronger power source. Smart labels are a simpler version of an RFID tag. They contain an RFID tag embedded in adhesive and a barcode for easy identification. Smart labels can be printed on a desktop printer, but RFID tags require more sophisticated equipment.
Returnable containers and pallets can also be tracked with the use of RFID tags. They can save a company money on capital expenses by tracking their return status. Many returnable containers and pallets represent millions of dollars in investments. Using RFID technology can help reduce the cost of capital expenditures. In fact, many companies have begun using PET for qualifying procedures, including in cases where applicant volumes can be in the millions. For these reasons, it is vital to use RFID technology in order to keep track of returnable assets.
RFID technology has roots in radio technology. Sir Robert Watson-Watt created radio detection and ranging in 1935. During World War II, radio waves were used to detect enemy aircraft. The technology we know today first appeared in the 1940s and 1950s, with applications outside of the military kicking off in the 1960s. Charles Walton is the first person to receive a patent for the use of RFID technology. His invention was a portable radio frequency emitter. The acronym RFID was patented in 1983.
There are two types of RFID tags: passive and active. Active RFID tags emit a signal when communicated with an RFID reader. Semi-passive tags use a battery that powers the RFID chip. They both have the ability to store data and respond more quickly and safely than passive labels. The basic components of an RFID label include a substrate, an antenna, and an IC (Integrated Circuit).