Integrated switching device for routing radio frequency signals

US 7,239,858 B2
Filed: 12/23/2004
Issued: 07/03/2007
Est. Priority Date: 12/31/2003
Status: Active Grant

First Claim

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1. A switching device for routing an RF signal based on a control signal from a controller, comprising:

first, second, and third filter networks,a switch element coupled to the controller and between the first filter network and the second and third filter networks and configured to connect either the second or the third filter network to the first filter network based on the control signal;

wherein parasitic components associated with the switch element and the first, second and third filter networks are integrated into one low-pass filter prototype structure, andthe first, second and third filter networks each comprises at least two serially connected inductors coupled between an input and an output of the filter network, a first capacitor coupled between the input and a ground terminal, and a second capacitor coupled between a circuit node in the filter network and the ground terminal, and wherein at least one capacitance value in each of the first, second and third filter networks is selected based on the values of the parasitic components in the switch element.

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Abstract

An RFID reader accessible thorough a personal computer and includes a PC card interface and a controller both operating according to clock signals from a crystal oscillator. The RFID reader further includes a linearized power amplifier modulator in a transmit path, a receive chain capable of demodulating either class_1 or class _0 signals from RFID tags, and an integrated switching device for selecting one of a plurality of antenna for transmitting or receiving RF signals.

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17 Claims

1. A switching device for routing an RF signal based on a control signal from a controller, comprising:
- first, second, and third filter networks,a switch element coupled to the controller and between the first filter network and the second and third filter networks and configured to connect either the second or the third filter network to the first filter network based on the control signal;
  
  wherein parasitic components associated with the switch element and the first, second and third filter networks are integrated into one low-pass filter prototype structure, andthe first, second and third filter networks each comprises at least two serially connected inductors coupled between an input and an output of the filter network, a first capacitor coupled between the input and a ground terminal, and a second capacitor coupled between a circuit node in the filter network and the ground terminal, and wherein at least one capacitance value in each of the first, second and third filter networks is selected based on the values of the parasitic components in the switch element.
- View Dependent Claims (2, 3, 4, 5, 9, 11, 12)
- - 2. The switching device of claim 1 wherein the second and third filter networks are substantially matched such that each component in the second filter network matches a corresponding component in the third filter network.
  - 3. The switching device of claim 1 wherein the first, second and third filter networks each comprises an LC series.
  - 4. The switching device of claim 3 wherein values of inductors or capacitors in the first, second and third filter networks are selected to account for values of the parasitic components in the switch element such that the switching device functions as one low-pass filter prototype structure for the RF signal.
  - 5. The switching device of claim 4 wherein the parasitic components of the switch element comprises:
    - a first parasitic inductor coupled to the first filter network;
      
      a parasitic resistor and a second parasitic inductor serially connected with each other and between the first inductor and the second filter network when the switch element is connecting the first filter network and the third filter network; and
      
      a parasitic capacitor and a third parasitic inductor serially connected with each other and between the first inductor and the third filter network when the switch element is connecting the first filter network and the second filter network.
  - 9. The switching device of claim 1 wherein the low-pass filter prototype structure is a Chebyshev low-pass filter prototype structure or a Bessel low-pass filter prototype structure.
  - 11. The switching device of claim 1 wherein the second and third filter networks are coupled to respective ones of a pair of antennas.
  - 12. The switching device of claim 11 configured to select an antenna for transmitting the RF signal formed in an RFID reader.

6. A switching device for routing an RF signal based on a control signal from a controller, comprising:
- first, second, and third filter networks,a switch element coupled to the controller and between the first filter network and the second and third filter networks and configured to connect either the second or the third filter network to the first filter network based on the control signal, the switch element comprising;
  
  a pair of serially connected inverters coupled between the output of the first filter network and the controller, a circuit node between the pair of serially connected inverters being coupled to a circuit node in each of the second and third filter networks such that either the first diode or the second diode conducts in response to the control signal from the controller;
  
  wherein parasitic components associated with the switch element and the first, second and third filter networks are integrated into one low-pass filter prototype structureand wherein components in the switch element contributing to the parasitic components comprises a first diode coupled between an output of the first filter network and an input of the second filter network, and a second diode coupled between the output of the first filter network and an input of the third filter network.
- View Dependent Claims (7, 8)
- - 7. The switching device of claim 6 wherein the switch element further comprises a low-pass filter structure coupled between the output of the first filter network and the pair of serially connected inverters.
  - 8. The switching device of claim 7 wherein at least one inductance value in the first filter network and at least one capacitance value in each of the second and third filter networks are selected based on the values of parasitic components in the switch elements.

10. A switching device for routing an RF signal based on a control signal from a controller, comprising:
- first, second, and third filter networks;
  
  a switch element coupled to the controller and between the first filter network and the second and third filter networks and configured to connect either the second or the third filter network to the first filter network based on the control signal;
  
  wherein parasitic components associated with the switch element and the first, second and third filter networks are integrated into one low-pass filter prototype structure andcomponents in the switch element contributing to the parasitic components comprises;
  
  a first FET having its source/drain diffusions coupled to respective ones of an output of the first filter network and an input of the second filter network and its gate coupled to the controller through an inverter; and
  
  a second FET having its source/drain diffusions coupled to respective ones of an input of the third filter network and an output of the first filter network and its gate coupled to the controller through a pair of inverters.

13. A method for routing an RF signal, comprising:
- generating a control signal;
  
  connecting either a second filter network or a third filter network to a first filter network using a switch element receiving the control signal;
  
  filtering the RF signal through the first filter network; and
  
  filtering the RF signal through the second or third filter network that is connected to the first filter network by the switch element;
  
  wherein parasitic components associated with the switch element and the first, second and third filter networks are integrated into one low-pass filter prototype structure such that the RF signal going through the first filter network and the second or third filter network connected to the first filter network by the switch element is filtered by one low-pass filter; and
  
  determining values of parasitic components comprises;
  
  determining the value of a first parasitic inductor coupled to the first filter network;
  
  determining values of a parasitic resistor and a second parasitic inductor serially connected with each other and between the first inductor and the second filter network when the switch element is connecting the first filter network and the second filter network; and
  
  determining values of a parasitic capacitor and a third parasitic inductor serially connected with each other and between the first inductor and the third filter network when the switch element is connecting the first filter network and the second filter network.

14. A method for forming a switching element for routing RF signals:
- providing first, second, and third filter networks;
  
  providing a switch element coupled between the first filter network and the second and third filter networks, the switching element configured to select either the second or third filter network to be connected to the first filter network;
  
  determining values of parasitic components associated with the switching element; and
  
  adjusting component values in the first, second and third filter networks based on the values of the parasitic components such that the switching device functions as one low-pass filter prototype structure for the RF signals;
  
  wherein the step of determining values of parasitic components comprises;
  
  determining the value of a first parasitic inductor coupled to the first filter network;
  
  determining values of a parasitic resistor and a second parasitic inductor serially connected with each other and between the first inductor and the second filter network when the switch element is connecting the first filter network and the second filter network; and
  
  determining values of a parasitic capacitor and a third parasitic inductor serially connected with each other and between the first inductor and the third filter network when the switch element is connecting the first filter network and the second filter network.
- View Dependent Claims (15, 16, 17)
- - 15. The method of claim 14 wherein adjusting the component values comprises performing circuit simulation or employing empirical adjustment to determine the component values such that the first filter network, the switch element, the second or third filter network connected to the first filter network by the switch element, and the third or second filter network not connected to the first filter network are integrated to form one low-pass filter prototype structure.
  - 16. The method of claim 14 wherein the first, second and third filter networks each comprises capacitor and inductors and wherein adjusting the component values comprises selecting at least one inductance value in the first filter network and at least one capacitance value in each of the second and third filter networks based on the values of the parasitic components.
  - 17. The method of claim 14 wherein components in the switch element contributing to the parasitic components comprises a pair of diodes or a pair of FETs.

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Current Assignee
WJ Communications, Inc. (Qorvo, Inc.)
Original Assignee
WJ Communications, Inc. (Qorvo, Inc.)
Inventors
Bellantoni, John Vincent
Primary Examiner(s)
Urban; Edward F.
Assistant Examiner(s)
Jackson; Blane J.

Application Number

US11/021,539
Publication Number

US 20050143026A1
Time in Patent Office

922 Days
Field of Search

455/120, 455/129, 455/114.2, 455/101, 455/272, 455/273, 455/276.1, 455/277.1, 455/281, 455/291, 455/288, 455/290, 455/289, 330/299, 330/302, 330/305, 330/307
US Class Current

455/277.1
CPC Class Codes

H04B 1/0458   Arrangements for matching a...

H04B 1/18   Input circuits, e.g. for co...

H04B 1/401   for selecting or indicating...

H04B 1/48   in circuits for connecting ...

Integrated switching device for routing radio frequency signals

First Claim

1 Assignment

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Abstract

37 Citations

17 Claims

Specification

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Integrated switching device for routing radio frequency signals

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

37 Citations

17 Claims

Specification

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Solutions

Use Cases

Quick Links