Transponder detector for an RFID system generating a progression of detection signals

US 8,319,612 B2
Filed: 06/24/2010
Issued: 11/27/2012
Est. Priority Date: 03/31/2006
Status: Active Grant

First Claim

Patent Images

1. A transponder detector comprising:

an antenna assembly;

a first circuit coupled to said antenna assembly, said first circuit configured to generate and transmit one or more detection signals via said antenna assembly, wherein the first circuit comprises an inverter which shapes the one or more detection signals to a selected width and amplitude;

a second circuit coupled to said antenna assembly, said second circuit configured to receive one or more response signals from said antenna assembly resulting from transmission of said one or more detection signals, wherein said one or more response signals have a transponder parameter; and

a controller configured to detect the presence of a transponder having a transponder frequency in a proximal space of said transponder detector based on said transponder parameter of one or more said response signals, wherein the inverter connects a series resistance to a parallel capacitance, the series resistance including a switched resistor controlled by a resistance switch, and the parallel capacitance including a switch capacitor controlled by a capacitor switch, and wherein said controller is further configured to evaluate a power value of each of said one or more response signals based on said transponder parameter and compare each of said power values of each of said one or more response signals against a safety threshold value.

View all claims

2 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A transponder detector is provided with capabilities for detecting the presence and type of a transponder in its read range while operating at low power. The transponder detector includes an antenna assembly and a detection signal generator circuit coupled to the antenna assembly. The detection signal generator circuit is capable of generating a progression of detection signals on the antenna assembly across a range of frequencies. The transponder detector further includes a response signal receiver circuit coupled to the antenna assembly to receive a progression of response signals from the antenna assembly resulting from the progression of detection signals. A controller is coupled to the response signal receiver circuit which determines the presence and type of the transponder based on an evaluation of a transponder detection parameter in the progression of response signals.

Citations

16 Claims

1. A transponder detector comprising:
- an antenna assembly;
  
  a first circuit coupled to said antenna assembly, said first circuit configured to generate and transmit one or more detection signals via said antenna assembly, wherein the first circuit comprises an inverter which shapes the one or more detection signals to a selected width and amplitude;
  
  a second circuit coupled to said antenna assembly, said second circuit configured to receive one or more response signals from said antenna assembly resulting from transmission of said one or more detection signals, wherein said one or more response signals have a transponder parameter; and
  
  a controller configured to detect the presence of a transponder having a transponder frequency in a proximal space of said transponder detector based on said transponder parameter of one or more said response signals, wherein the inverter connects a series resistance to a parallel capacitance, the series resistance including a switched resistor controlled by a resistance switch, and the parallel capacitance including a switch capacitor controlled by a capacitor switch, and wherein said controller is further configured to evaluate a power value of each of said one or more response signals based on said transponder parameter and compare each of said power values of each of said one or more response signals against a safety threshold value.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The transponder detector of claim 1, wherein said one or more response signals are analog signals and said controller includes an analog to digital converter configured to convert each of said one or more analog signals to one or more digital signals and to process each of said digital signals to determine a power value of each of said one or more response signals.
  - 3. The transponder detector of claim 1, wherein said controller is further configured to set said second circuit to a protect mode upon any of said power values of any of said one or more response signals reaching or exceeding said safety threshold value.
  - 4. The transponder detector of claim 1, wherein said controller is further configured to set said second circuit to an unprotect mode upon all of said power values of said one or more response signals falling below said safety threshold value.
  - 5. The transponder detector of claim 1, wherein said safety threshold value is selectable.

6. A frequency ranging method for transponder detection comprising:
- transmitting one or more detection signals via an antenna assembly that is connected to a circuit which includes an inverter which shapes the one or more detection signals to a selected width and amplitude, wherein the inverter connects a series resistance to a parallel capacitance, the series resistance including a switched resistor controlled by a resistance switch, and the parallel capacitance including a switch capacitor controlled by a capacitor switch;
  
  receiving one or more response signals from said antenna assembly resulting from transmission of said one or more detection signals, wherein said one or more response signals have a transponder parameter, wherein said wakeup controller is further configured to evaluate a power value of each of said one or more response signals based on said transponder parameter and compare each of said power values of each of said one or more response signals against a safety threshold value; and
  
  detecting a transponder having a transponder frequency in a proximal space of said antenna assembly based on a change in value of said transponder parameter for said one or more response signals.
- View Dependent Claims (7, 8, 9, 10, 11)
- - 7. The method of claim 6, further comprising evaluating a power value of each of said one or more response signals based on said transponder parameter and comparing each of said power values of each of said one or more response signals against a safety threshold value.
  - 8. The method of claim 6, wherein said one or more response signals are analog signals, said method further comprising converting said one or more analog signals to one or more digital signals to determine said power value of each of said one or more response signals.
  - 9. The method of claim 7, further comprising setting said second circuit to a protect mode upon any of said power values of any of said one or more response signals reaching or exceeding said safety threshold value.
  - 10. The method of claim 7, further comprising setting said second circuit to an unprotect mode upon all of said power values of said one or more response signals falling below said safety threshold value.
  - 11. The method of claim 7, wherein said safety threshold value is selectable.

12. A reader for an RFID system comprising:
- a reader antenna assembly;
  
  an excitation signal generator circuit coupled to said reader antenna assembly;
  
  a transponder signal receiver circuit coupled to said reader antenna assembly;
  
  a main controller coupled to said excitation signal generator circuit and said transponder signal receiver circuit;
  
  a wakeup unit coupled between said reader antenna assembly and said main controller, said wakeup unit configured with a detection signal generator circuit, a response signal receiver circuit, and a wakeup controller;
  
  said detection signal generator circuit further configured to generate and transmit one or more detection signals, the detection signal generator circuit including an inverter that shapes the one or more detection signals to a selected width and amplitude; and
  
  said response signal receiver circuit further configured to receive one or more response signals resulting from transmission of said detection signals from said detection signal generator circuit, wherein said response signals have a transponder parameter,said wakeup controller further configured to determine a power value from each of said one or more response signals, wherein the inverter connects a series resistance to a parallel capacitance, the series resistance including a switched resistor controlled by a resistance switch, and the parallel capacitance including a switch capacitor controlled by a capacitor switch, and wherein said wakeup controller is further configured to evaluate a power value of each of said one or more response signals based on said transponder parameter and compare each of said power values of each of said one or more response signals against a safety threshold value.
- View Dependent Claims (13, 14, 15, 16)
- - 13. The reader of claim 12, wherein said one or more response signals are analog signals and said main controller includes an analog to digital converter configured to convert each of said one or more analog signals to a digital signal and to process each of said digital signals to determine a power value of each of said one or more response signals.
  - 14. The wakeup controller of claim 12, wherein said wakeup controller is further configured to set said response signal receiver circuit to a protect mode upon said value of said transponder parameter reaching or exceeding said safety threshold value.
  - 15. The wakeup controller of claim 12, wherein said wakeup controller is further configured to set said response signal receiver circuit to an unprotect mode upon said value of said transponder parameter reaching below said safety threshold value.
  - 16. The wakeup controller of claim 12, wherein said safety threshold value is selectable.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Assa Abloy AB
Original Assignee
Assa Abloy AB
Inventors
Borcherding, Eric J.
Primary Examiner(s)
Zimmerman, Brian
Assistant Examiner(s)
Jiang, Yong Hang

Application Number

US12/822,397
Publication Number

US 20100259390A1
Time in Patent Office

887 Days
Field of Search

340/10.1, 340/10.3, 340/10.31, 340/10.32, 340/10.33, 340/10.34, 340/10.4
US Class Current

340/10.34
CPC Class Codes

G06K 7/0008   General problems related to...

G06K 7/10128   the step consisting of dete...

H04B 5/24   Inductive coupling

H04B 5/45   Transponders

H04W 4/80   Services using short range ...

Y02D 30/70   in wireless communication n...

Transponder detector for an RFID system generating a progression of detection signals

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

Citations

16 Claims

Specification

Solutions

Use Cases

Quick Links

Transponder detector for an RFID system generating a progression of detection signals

First Claim

2 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

Citations

16 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links