Frequency-hopping RFID system
First Claim
1. An FCC Part 15 compliant radio-frequency identification interrogator for use with a passive radio frequency identification (RFID) tag, the interrogator comprising:
- a frequency-hopping source configured to sequentially generate radio-frequency signals at pseudo-randomly selected frequencies within a frequency-band of 902 to 928 MHz;
a transmitter coupled to the frequency-hopping source and to an antenna circuit and configured to transmit the generated radio-frequency signals on the antenna circuit;
a heterodyne receiver coupled to the antenna circuit and configured to receive on the antenna circuit reflected radio-frequency signals from the RFID tag, the antenna circuit comprising a first antenna circuit having a first antenna and a second antenna circuit having a second antenna, and the transmitter configured to transmit the radio-frequency signals on the first antenna and the receiver configured to receive the reflected radio-frequency signals on the second antenna, the first antenna circuit coupled to the second antenna circuit by a divider circuit; and
a signal processor coupled to the antenna circuit and to the heterodyne receiver, wherein the signal processor is configured to receive the reflected radio-frequency signals and to extract data contained within the reflected radio-frequency signals that correspond to the frequency of the transmitted radio-frequency signals.
1 Assignment
0 Petitions
Accused Products
Abstract
A radio-frequency identification (RFID) interrogator is provided that generates pseudo-randomly selected radio frequency interrogation signals for transmission on a first antenna and receives the reflected modulated radio-frequency signals via continuous-wave backscatter from a RFID tag device through a second antenna coupled to a heterodyne receiver where data is extracted. The RFID tag device can be configured to write data as well as have data read therefrom by the interrogator. The frequency-hopping transmission in combination with the heterodyne reception provides higher power levels with substantially reduced interference, as well as the ability to link with bounced signals at certain frequencies, increasing the level of communication in the RFID system.
82 Citations
21 Claims
-
1. An FCC Part 15 compliant radio-frequency identification interrogator for use with a passive radio frequency identification (RFID) tag, the interrogator comprising:
-
a frequency-hopping source configured to sequentially generate radio-frequency signals at pseudo-randomly selected frequencies within a frequency-band of 902 to 928 MHz; a transmitter coupled to the frequency-hopping source and to an antenna circuit and configured to transmit the generated radio-frequency signals on the antenna circuit; a heterodyne receiver coupled to the antenna circuit and configured to receive on the antenna circuit reflected radio-frequency signals from the RFID tag, the antenna circuit comprising a first antenna circuit having a first antenna and a second antenna circuit having a second antenna, and the transmitter configured to transmit the radio-frequency signals on the first antenna and the receiver configured to receive the reflected radio-frequency signals on the second antenna, the first antenna circuit coupled to the second antenna circuit by a divider circuit; and a signal processor coupled to the antenna circuit and to the heterodyne receiver, wherein the signal processor is configured to receive the reflected radio-frequency signals and to extract data contained within the reflected radio-frequency signals that correspond to the frequency of the transmitted radio-frequency signals. - View Dependent Claims (2, 3, 4, 5, 6, 7)
-
-
8. A remote communication method for use with an FCC Part 15 compliant radio-frequency identification (RFID) system having an RFID interrogator and a non-active RFID tag device, the method comprising:
-
sequentially generating radio-frequency signals at pseudo-randomly selected frequencies in a frequency range of 902 MHz to 928 MHz using a frequency-hopping source in the RFID interrogator; transmitting on a first antenna the radio-frequency signals from the RFID interrogator; modulating the pseudo-randomly selected radio-frequency signals; extracting data from the modulated, transmitted radio-frequency signals at the RFID tag device; storing data in the RFID tag device based on the data extracted at the RFID tag device; reflecting the transmitted radio-frequency signals at the RFID tag device; receiving on a second antenna coupled to the first antenna by a divider circuit reflected radio-frequency signals from the RFID tag device using a heterodyne reception technique; and extracting data contained within the reflected radio-frequency signals that correspond to the frequency of the transmitted radio-frequency signals. - View Dependent Claims (9, 10, 11, 12)
-
-
13. A device for communicating with a remote, non-active radio-frequency identification (RFID) tag in compliance with FCC Part 15 regulations, comprising:
-
means for sequentially generating radio-frequency signals at pseudo-randomly selected frequencies in a frequency range of 902 MHz to 928 MHz using a frequency-hopping source of an RFID interrogator; means for transmitting the radio-frequency signals from the RFID interrogator on a first antenna; a heterodyne receiver configured to receive on a second antenna coupled to the first antenna by a divider circuit the radio-frequency signals that are reflected from the RFID tag; and means for extracting data contained within the reflected radio-frequency signals, the extracting means configured to receive the transmitted radio frequencies and to process data from the reflected radio-frequency signals that correspond to the frequency of the transmitted radio-frequency signals. - View Dependent Claims (14, 15, 16)
-
-
17. An FCC Part 15 compliant radio-frequency identification (RFID) system, comprising:
-
an RFID device configured to reflect radio-frequency signals via continuous-wave backscatter and configured to store data based on data extracted from the radio-frequency signals; an RFID interrogator configured to generate and transmit pseudo-randomly selected radio-frequency signal in a frequency range of 902 MHz to 928 MHz over time and to receive, using a heterodyne reception technique, modulated radio-frequency signals reflected from the RFID; wherein the interrogator comprises; a frequency-hopping source configured to sequentially generate radio-frequency signals at pseudo-randomly selected frequencies; a transmitter coupled to a first antenna and configured to transmit the generated radio-frequency signals on the first antenna; a heterodyne receiver coupled to a second antenna that is coupled to the first antenna by a divider, the receiver configured to receive on the second antenna the reflected radio-frequency signals from an RFID device; and a signal processor coupled to the first antenna to receive the transmitted radio-frequency signals and coupled to the heterodyne receiver to receive the reflected radio-frequency signals, wherein the signal processor is configured to extract data from the reflected radio-frequency signals that correspond to the transmitted radio-frequency signals. - View Dependent Claims (18, 19, 20, 21)
-
Specification