Low noise signal generator for use with an RFID system
First Claim
1. A signal generator for use in a radio frequency identification (RFID) system, the RFID system having a transmitter antenna assembly with a fundamental field frequency, the transmitter antenna assembly being driven by two input signals having a 180 degree phase difference, the signal generator including:
- (a) an oscillator having an output frequency which is an integer multiple n of the fundamental field frequency, and(b) a divide by n circuit connected at an input to the oscillator output, the divide by n circuit producing two output signals having a 180 degree phase difference and the same frequency, wherein n≧
2, both n-divided output signals being used to drive the transmitter antenna assembly.
9 Assignments
0 Petitions
Accused Products
Abstract
Noise reduction schemes are provided in a radio frequency identification (RFID) system for use with RFID intelligent tags. Amplitude and phase noise is minimized by starting with a low noise crystal oscillator having an output frequency which is an integer multiple n of the desired RF field frequency, and then dividing this frequency by the integer multiple n. One or more cascaded flip-flops are used for the frequency dividing. Both outputs of the final stage flip-flop are used to drive the transmitter antenna to produce a continuous wave signal.
113 Citations
20 Claims
-
1. A signal generator for use in a radio frequency identification (RFID) system, the RFID system having a transmitter antenna assembly with a fundamental field frequency, the transmitter antenna assembly being driven by two input signals having a 180 degree phase difference, the signal generator including:
-
(a) an oscillator having an output frequency which is an integer multiple n of the fundamental field frequency, and (b) a divide by n circuit connected at an input to the oscillator output, the divide by n circuit producing two output signals having a 180 degree phase difference and the same frequency, wherein n≧
2, both n-divided output signals being used to drive the transmitter antenna assembly. - View Dependent Claims (2, 3, 4, 5, 6)
-
- 7. An apparatus for producing at least one drive signal for an interrogator transmitter antenna of a radio frequency identification (RFID) system, the at least one drive signal causing the transmitter antenna to produce a continuous wave signal at a fundamental field frequency, the apparatus comprising a flip-flop which produces at least one output signal at the fundamental field frequency for use as the at least one drive signal, wherein the apparatus produces two drive signals, and the flip-flop produces two output signals having a 180 degree phase difference and the same frequency, the two output signals being used as the two drive signals.
-
10. A radio frequency identification (RFID) system having a detection zone, the system detecting the presence of an article in the detection zone wherein the article is tagged with a resonant intelligent tag, the system comprising:
-
(a) a transmitter antenna assembly including a transmitter loop antenna for creating the detection zone, the loop antenna having a predetermined fundamental field frequency and producing a continuous wve signal; (b) a signal generator for driving the transmitter antenna assembly at its fundamental field frequency, the signal generator including; (i) an oscillator having an output frequency which is an integer multiple n of the fundamental field frequency, and (ii) a divide by n circuit connected at an input to the oscillator output for producing at least one output signal, wherein n>
2; and(c) an amplifier connected at an input to the divide by n output signal, and connected at an output to the transmitter antenna assembly, the amplifier outputting an n-divided output signal to drive the loop antenna to produce the continuous wave signal, wherein the transmitter antenna assembly is driven by two input signals having a 180 degree phase difference, and the divide by n circuit produces two output signals which have a 180 degree phase difference and the same frequency, the divide by n circuit comprising at least on flip-flop, the two flip-flop output signals being the non-phase inverted output and the phase-inverted output of the at least one flip-flop. - View Dependent Claims (11)
-
-
12. A radio frequency identification (RFID) system having a detection zone, the system detecting the presence of an article in the detection zone wherein the article is tagged with a resonant intelligent tag, the system comprising:
-
(a) a transmitter antenna assembly including a transmitter loop antenna for creating the detection zone, the loop antenna having a predetermined fundamental field frequency and producing a continuous wave signal; (b) a signal generator for driving the transmitter antenna assembly at its fundamental field frequency, the signal generator including; (i) an oscillator having an output frequency which is an integer multiple n of the fundamental field frequency, and (ii) a divide by n circuit connected at an input to the oscillator output for producing at least one output signal, wherein n>
2; and(c) an amplifier connected at an input to the divide by n output signal, and connected at an output to the transmitter antenna assembly, the amplifier outputting an n-divided output signal to drive the loop antenna to produce the continuous wave signal, wherein the resonant intelligent tag is a radio frequency identification (RFID) tag, and the fundamental field frequency is a radio frequency. - View Dependent Claims (13)
-
-
14. A radio frequency identification (RFID) system having a detection zone, the system detecting the presence of an article in the detection zone wherein the article is tagged with a resonant intelligent tag, the system comprising:
-
(a) a transmitter antenna assembly including a transmitter loop antenna for creating the detection zone, the loop antenna having a predetermined fundamental field frequency and producing a continuous wave signal; (b) a signal generator for driving the transmitter antenna assembly at its fundamental field frequency, the signal generator including; (i) an oscillator having an output frequency which is an integer multiple n of the fundamental field frequency, and (ii) a divide by n circuit connected at an input to the oscillator output for producing at least one output signal; and (c) an amplifier connected at an input to the divide by n output signal, and connected at an output to the transmitter antenna assembly, the amplifier outputting an n-divided output signal to drive the loop antenna to produce the continuous wave signal, wherein 16≧
n≧
2.
-
-
15. A radio frequency identification (RFID) system having a detection zone, the system detecting the presence of an article in the detection zone wherein the article is tagged with a resonant intelligent tag, the system comprising:
-
(a) a transmitter antenna assembly including a transmitter loop antenna for creating the detection zone, the loop antenna having a predetermined fundamental field frequency; (b) a signal generator for driving the transmitter antenna assembly at its fundamental field frequency, the signal generator including; (i) an oscillator having an output frequency which is an integer multiple n of the fundamental field frequency, and (ii) a divide by n circuit connected at an input to the oscillator output for producing at least one output signal, wherein n≧
2, the divide by n circuit comprising at least one flip-flop, each flip-flop producing a non-phase inverted output and a phase-inverted output, at least one of the non-phase inverted output and the phase-inverted output being used to drive the antenna transmitter assembly. - View Dependent Claims (16, 17, 18, 19, 20)
-
Specification