5.5 DBI ANTENNA
Used for terminals, parking lots, shopping malls, toll station, warehouse management, inventory counting, meeting sign-in, etc.
We have a return/exchange policy of 1 year with proof of damage.
8DBI ANTENNA
Warehousing, Logistics, Assets, Retail Stores, Intelligent Containers, Distribution Centre, Airports, Hospitals, Transit Terminals, and Conveyor Belts.
We have a return/exchange policy of 1 year with proof of damage.
9dbi antenna
Warehouses, Distribution Centre, Airports, Hospitals, Transit Terminals, and Conveyor Belts.
We have a return/exchange policy of 1 year with proof of damage.
12DBI ANTENNA
Terminals, Parking Lots, Shopping Malls, Toll Station, Container Management, etc.
We have a return/exchange policy of 1 year with proof of damage.
12dbi long strip antenna
Smart Library, Shelves, Warehouse, Door Control System, Logistic & Supply Chain Asset Management, etc.
We have a return/exchange policy of 1 year with proof of damage.
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FAQs
Get answers to your questions about RFID antennas and their cables.
RFID antennas are devices that transmit and receive radio waves to communicate with RFID tags. They play a crucial role in the performance of RFID systems by ensuring effective signal strength and coverage. Proper selection of antennas can significantly enhance the efficiency of RFID applications.
RFID antennas work by emitting radio frequency signals that activate RFID tags. Once activated, the tags send back data to the reader through the antenna. This process allows for real-time tracking and data collection.
The type of cable needed depends on the antenna and the distance from the reader. Generally, low-loss coaxial cables are recommended to minimize signal degradation. It's important to choose cables that match the specifications of your RFID system.
Yes, RFID antennas can be customized to meet specific application requirements. Customization may include adjustments in size, shape, and frequency range. This ensures optimal performance in various environments.
The range of RFID antennas varies based on the type and power of the system. Typically, passive RFID systems have a range of a few inches to several feet, while active systems can reach distances of up to 300 feet. Environmental factors and antenna placement also affect the effective range.
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FAQs
Discover the most common questions about RFID antennas and their practical applications.
RFID antennas are devices that transmit and receive radio frequency signals to communicate with RFID tags. They play a crucial role in the efficiency of RFID systems by determining the read range and accuracy. Different types of antennas are designed for specific applications and environments.
RFID antennas emit radio waves that activate RFID tags within their range. Once activated, the tags send data back to the antenna, which is then processed by an RFID reader. This interaction enables real-time tracking and data collection.
There are various types of RFID antennas, including linear, circular, and patch antennas. Each type is suited for specific applications, such as fixed installations or mobile use. Choosing the right antenna depends on factors like read range and environmental conditions.
Read range refers to the maximum distance at which an RFID reader can successfully communicate with a tag. It varies based on the type of antenna, the frequency used, and environmental factors. Understanding read range is essential for effective RFID system design.
Yes, RFID antennas can be customized to meet specific requirements of different applications. Customization may include adjusting the frequency, size, and shape of the antenna. This flexibility allows for optimized performance in various environments.
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