Self-interference canceling circuit

Abstract

The invention relates to a self-interference canceling circuit comprising a detection module, an adjustment module, a feedback module and a combiner. By the adoption of the structure, the read-write capacity of electronic tags is enhanced, the number of identified tags is increased, the receiving flexibility of the system is improved, the amplitude of reflected signals of the tags is increased, and therefore a series of disadvantages caused by the self-interference problem in a passive RFID system are solved. The self-interference canceling circuit can be applied to various fields such as warehouse management in logistic storage, identity recognition, traffic and transportation, food, medical treatment, animal management, entrance guard burglary prevention and military industry.

Description

technical field [0001] The invention relates to a self-interference elimination circuit, in particular to a self-interference elimination circuit in a passive RFID system. Background technique [0002] Radio Frequency Identification (RFID) is a non-contact automatic identification technology. Its basic principle is to use radio frequency signals and spatial coupling transmission characteristics to automatically identify target objects and obtain relevant information to achieve automatic identification. RFID technology has a very wide range of application prospects, and more and more people pay more and more attention to it. It can be used in various fields such as warehouse management, identification, transportation, food and medical care, animal management, access control, and industrial military in logistics and warehousing. People's lives have brought great convenience. [0003] Passive radio frequency identification system is the mainstream of RFID technology applicatio...

AI Technical Summary

Problems solved by technology

The reasons for the above two problems are as follows: First, the passive electronic tag itself does not provide energy. The energy for the tag to work comes from the electromagnetic wave reflected by the reader. The reflected signal of the tag is only 20% of the received electromagnetic wave energy, which is very weak; For the reader, the reader used in the passive RFID system adopts the communication method of sending and receiving at the same time and at the same frequency.

Therefore, for passive RFID systems, the isolation between the reader's transmission path and the reception path will affect the receiving sensitivity of the overall system.

In the prior art, the realization of passive RFID system transceiver isolation mainly adopts a circulator or a directional coupler (also known as a "transmitter isolation module"). In the case of matching of all ports, the isolation degree of the "transmitter isolation module" is 20 ~30dB, so the power leaked from the transmitting path to the receiving path (that is, the main "self-interference" signal power) is much greater than the signal power reflected back by the electronic tag, which makes the receiving sensitivity of the entire passive RFID system become quite low

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