The Benefits of an RFID Reader
RFID Reader, also known as interrogators, transmit RF waves that power RFID tags. These tags identify physical articles with unique electronic identities and decode them. RFID readers can be fixed, mobile, or USB-based.
The information contained in RF tags helps improve product/process quality, reduce production losses caused by errors, and ensures work continues offline in emergencies. Moreover, the system is more flexible than barcoding in terms of changing processes.
Cost-effectiveness
The cost of RFID systems depends on the type of RFID technology and use case. For example, a retail store using passive RFID tags may purchase 10,000 tags at $0.15 per tag and invest in a Epoxy Card fixed reader priced at $2,000. The costs of installation, software integration, and labor also factor into the total investment.
The RFID tag not only responds with its ID information, but also provides other data that can be used for localization. This data includes received signal strength (RSS) information, which allows readers to determine the location of the tag. Combining RSS information from multiple readers can also help locate a single tag.
Another advantage of RFID is that it does not require line-of-sight scanning. This allows staff to scan entire shelves of items without having to touch them or move them. This can save a significant amount of time and effort, especially in large warehouses or stores with high volumes of inventory.
Compared to barcode scanners, RFID systems are faster and more accurate. They also have a lower energy consumption and do not require the same physical strain on the user. This can reduce the risk of repetitive stress injuries. The technology can also be implemented with existing equipment, such as self-checkout machines, so that a business can begin reaping the benefits right away.
Accuracy
Many individuals have tried RFID, but have not been able to achieve the desired results. Whether the problem was due to a lack of expertise in the technology or a do-it-yourself pick, test, and deploy approach, the underlying issue was usually that the range and accuracy of the system was not practical for their business.
One of the key issues is that a passive RFID tag can only be detected within a certain range of a reader. This limit is due to the physical properties of the tag and reader, as well as the environment. Metal will interfere with the signal, and liquids can cause information interference, reducing location accuracy.
However, there are some solutions to this problem. For example, an active RFID real-time location system (RTLS) can triangulate on a tagged item and tell you its exact location. These systems also offer a much higher level of accuracy than a passive RFID system, with the ability to detect an object to as little as a few feet.
Another way to improve location accuracy is by using RSS data from multiple readers. RSS data is the difference in RF power received by each reader on its antenna. Combining RSS data from different readers can give you the approximate position of an object, which is called localization. This method is much faster than probabalistic detection.
Flexibility
The flexibility of RFID readers allows you to tailor your system to the unique needs of your business. For example, a retailer can use RFID to track clothing from its origin in the factory to the store and then to the customer. This helps them improve inventory management and increase revenue by reducing product loss. In addition, RFID can help reduce labor costs by automating the data collection process.
The underlying technology behind RFID is electromagnetism, which allows the reader to communicate with tags without having to see them. The tag’s antenna is conductive and when struck with electromagnetic waves, it emits an electric current that powers the IC on the chip. The RFID reader then interprets the data on the chip and transmits it to a computer or database for storage or processing.
Many RFID reader models come with multiple ports for connecting antennas. Depending on your application, you can use different cable lengths to connect the reader and antennas. The general rule is that the connectors on the RFID reader and antenna must match in polarity. If the reader has a TNC connector, the cable must also have a TNC connector. The other common connector types are SMA and N-type.
Safety
While most RFID systems have a range of security features, it is important to keep in mind that they are not completely foolproof. Some security concerns include the reliability of data and who might read or misuse this information. Moreover, tags can be vulnerable to interference from radio and electromagnetic waves. Therefore, it is important to ensure that the reader and tag are operating at the same frequency to avoid interference.
In addition to credit cards and building physical access use cases, modern applications of RFID include smart digital car key fobs that allow you to unlock your vehicle or start it with a tap, theft prevention tags on merchandise in stores, and consumer smart locks and deadbolts used to secure homes. In addition, the technology is used in manufacturing to track the location of parts and components during production.
Eavesdropping is a common attack on RFID and consists of a hacker listening to the conversation between the tag and the reader to obtain information. Brute force attacks RFID Reader on RFID are less common and more difficult to execute because they require direct access or proximity to the reader. However, they are still possible and many modern readers have built-in protections against these types of attacks by utilizing time delayed entries and lockout thresholds.