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RFID 13.56MHz special function customize RFID 13.56MHz special function customize

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RFID 13.56MHz special function customize

2016-08-31 18:18 Which RFID Frequency is Right for Your Application? LF, HF, and UHF Similar to how a radio must be tuned to different frequencies to hear different channels, RFID tags and readers have to be tuned to the same frequency in order to communica Language Selection: Chinese | English

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Which RFID Frequency is Right for Your Application?
 
LF, HF, and UHF
Similar to how a radio must be tuned to different frequencies to hear different channels, RFID tags and readers have to be tuned to the same frequency in order to communicate. There are several different frequencies an RFID system can use.  Generally, the most common are
 
Low frequency, or LF, (125 – 134 kHz)
High frequency, or HF, (13.56 MHz)
Ultra-high frequency, or UHF, (433, and 860-960 MHz)
RFID Frequency Ranges
Radio waves behave differently at the various frequencies, so it is imperative to select the right frequency for your application.
 
For example, low-frequency tags have a long wave-length and are better able to penetrate thin metallic substances. Additionally, LF RFID systems are ideal for reading objects with high-water content, such as fruit or beverages, but the read range is limited to centimeters or inches. Typical LF RFID applications include access control and animal tagging.
 
High-frequency tags work fairly well on objects made of metal and can work around goods with medium to high water content. Typically, HF RFID systems work in ranges of inches, but they can have a maximum read range of about three feet (1 meter).  Typical HF RFID applications include tracking library books, patient flow tracking, and transit tickets.
 
UHF frequencies typically offer much better read range (inches to 50+ ft. depending on the RFID system setup) and can transfer data faster (i.e. read many more tags per second) than low- and high-frequencies. However, because UHF radio waves have a shorter wavelength, their signal is more likely to be attenuated (or weakened) and they cannot pass through metal or water. Due to their high data transfer rate, UHF RFID tags are well suited for many items at once, such as boxes of goods as they pass through a dock door into a warehouse or racers as they cross a finish line.  Also, due to the longer read range, other common UHF RFID applications include electronic toll collection and parking access control.
 
Country of Deployment
Different countries allocate different bands of the radio spectrum for RFID, so no single technology optimally satisfies all the requirements of existing and potential markets. The industry has worked diligently to standardize three main RF bands – low frequency, high frequency, and ultra-high frequency. Most countries have assigned the 125 or 134 kHz areas of the spectrum for low-frequency RFID systems, and 13.56 MHz is generally used around the world for high-frequency RFID systems.  
 
UHF RFID systems have only been around since the mid-1990s and countries have not agreed on a single area of the UHF spectrum for RFID.  Accordingly, different countries have different bandwidth and power restrictions for UHF RFID systems. Across the European Union, UHF RFID ranges from 865 to 868 MHz with RFID readers able to transmit at maximum power (2 watts ERP) at the center of that bandwidth (865.6 to 867.6 MHz). 
 
In North America, the UHF RFID frequency ranges from 902 to 928 MHz with readers able to transmit at maximum power (1 watt ERP) for most of that bandwidth. Most other countries have either adopted the European Union or North America standard, or they are using a subset of one of the two bandwidths.  Many non-RFID devices use the UHF spectrum, so it may take years for all governments to agree on a single UHF band for RFID.
 
If you have any questions regarding frequency or would like to know the UHF band allocation for your country, please leave a comment below or contact us directly.