RFID tags with CDMA communication capabilities
First Claim
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1. An RFID tag, comprising:
- at least one antenna comprising at least a first antenna and a second antenna;
a memory storing at least one orthogonal code; and
a digital circuitry coupled with the at least one antenna and memory, the digital circuitry;
receiving data stored in the memory;
generating an initial protocol communication based on the data stored in memory, wherein the initial protocol communication is not CMDA encoded but indicates that the RFID tag is capable of code division multiple access (CDMA) communication,directing the at least one antenna to transmit the non-CDMA encoded initial protocol communication to an RFID reader;
encoding the stored data using the at least one orthogonal code to produce a first CDMA encoded signal and a second CDMA encoded signal, at least one of which indicates that the RFID tag is capable of CDMA communications,after transmitting the non-CDMA encoded initial protocol communication to the RFID reader, directing the first antenna to transmit the first CDMA encoded signal and direct the second antenna to transmit the second CDMA encoded signal;
transmitting, from the at least one antenna, the first and second CDMA-encoded signals.
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Abstract
An apparatus for use in an RFID data collection system includes an antenna portion for wirelessly exchanging signals and a memory portion for storing RFID data. A signal processing portion is coupled among the antenna portion and the memory portion. The signal processing portion is configured to receive RFID data and to at least encode or decode the received RFID data via at least one spreading code, such as a mutually orthogonal code. Other configurations are also disclosed.
35 Citations
16 Claims
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1. An RFID tag, comprising:
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at least one antenna comprising at least a first antenna and a second antenna; a memory storing at least one orthogonal code; and a digital circuitry coupled with the at least one antenna and memory, the digital circuitry; receiving data stored in the memory; generating an initial protocol communication based on the data stored in memory, wherein the initial protocol communication is not CMDA encoded but indicates that the RFID tag is capable of code division multiple access (CDMA) communication, directing the at least one antenna to transmit the non-CDMA encoded initial protocol communication to an RFID reader; encoding the stored data using the at least one orthogonal code to produce a first CDMA encoded signal and a second CDMA encoded signal, at least one of which indicates that the RFID tag is capable of CDMA communications, after transmitting the non-CDMA encoded initial protocol communication to the RFID reader, directing the first antenna to transmit the first CDMA encoded signal and direct the second antenna to transmit the second CDMA encoded signal; transmitting, from the at least one antenna, the first and second CDMA-encoded signals. - View Dependent Claims (2, 3, 4, 15)
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5. A semiconductor device for use in an RFID tag, the device comprising:
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a processor that receives incoming data stored by the RFID tag and generates an initial protocol communication based on the stored data, the initial protocol communication indicating that the RFID tag is capable of spread spectrum communication; and an encoder that receives the incoming data stored by the RFID tag and converts the stored RFID data into at least two different spread spectrum signals using a pseudo-random code; and an output portion configured to output the RFID tag data as the at least two spread spectrum signals spread using the pseudo-random code, wherein the RFID tag data is transmitted in parallel by the RFID tag through at least two transmitting antennas as a single sequentially partitioned signal such that communication speed is increased between the RFID tag and an RFID tag reader as compared to communication speed between the RFID tag and the RFID tag reader if the RFID tag data was not encoded using the two different spread spectrum signals using the pseudo-random code. - View Dependent Claims (6, 7, 8, 9, 10)
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11. A non-transitory computer-readable medium whose contents cause at least one RFID reader to perform a method for decoding data received from an RFID tag, the method comprising:
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receiving initial data from the RFID tag wherein the initial data is non-CDM encoded but indicates that the RFID tag is capable of CDM communication; determining that CDM communications are possible based on the initial data; entering a CDM mode if the CDM encoded communications are determined to be possible; after determining that CDM encoded communications are possible; receiving additional RFID tag data from the RFID tag that is encoded into at least two CDM encoded sequences, wherein the receiving comprises (1) receiving the RFID tag data encoded into a first of the at least two CDM encoded sequences via a first antenna, and (2) receiving the RFID tag data encoded into a second of the at least two CDM encoded sequences via a second antenna, and decoding the additional RFID tag data; and outputting the decoded RFID tag data. - View Dependent Claims (12, 13, 14, 16)
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Specification
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Current AssigneeIntermec IP Corporation (Honeywell International Inc.)
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Original AssigneeIntermec IP Corporation (Honeywell International Inc.)
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InventorsMaltseff, Paul A., Payne, Ronald D.
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Primary Examiner(s)Jiang, Yong Hang
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Application NumberUS14/304,467Publication NumberTime in Patent Office1,208 DaysField of SearchUS Class CurrentCPC Class CodesG06K 19/0723 the record carrier comprisi...G06K 7/0008 General problems related to...G06K 7/10366 the interrogation device be...
