Method and system for frequency up-conversion

US 7,236,754 B2
Filed: 03/04/2002
Issued: 06/26/2007
Est. Priority Date: 08/23/1999
Status: Expired due to Fees

First Claim

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1. An apparatus for communicating, comprising:

at least one first switch module that receives at least a first oscillating signal and a first bias signal, wherein said first oscillating signal causes said at least one first switch module to gate said first bias signal and thereby generate a first periodic signal having a first plurality of harmonics;

at least one second switch module that receives at least a second oscillating signal and a second bias signal, wherein said second oscillating signal causes said at least one second switch module to gate said second bias signal and thereby generate a second periodic signal having a second plurality of harmonics;

wherein said first periodic signal and said second periodic signal are combined to thereby generate a combined periodic signal having a combined plurality of harmonics; and

at least one filter that receives said combined periodic signal, wherein said at least one filter isolates at least one harmonic of said combined plurality of harmonics.

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Abstract

A method and system is described wherein a signal with a lower frequency is up-converted to a higher frequency. In one embodiment, the higher frequency signal is used as a stable frequency and phase reference. In another embodiment, the invention is used as a transmitter. The up-conversion is accomplished by controlling a switch with an oscillating signal, the frequency of the oscillating signal being selected as a sub-harmonic of the desired output frequency. When the invention is being used as a frequency or phase reference, the oscillating signal is not modulated, and controls a switch that is connected to a bias signal. When the invention is being used in the frequency modulation (FM) or phase modulation (PM) implementations, the oscillating signal is modulated by an information signal before it causes the switch to gate the bias signal. In the amplitude modulation implementation (AM), the oscillating signal is not modulated, but rather causes the switch to gate a reference signal that is substantially equal to or proportional to the information signal. In the FM and PM implementations, the signal that is output from the switch is modulated substantially the same as the modulated oscillating signal. In the AM implementation, the signal that is output from the switch has an amplitude that is a function of the information signal. In both embodiments, the output of the switch is filtered, and the desired harmonic is output.

747 Citations

8 Claims

1. An apparatus for communicating, comprising:
- at least one first switch module that receives at least a first oscillating signal and a first bias signal, wherein said first oscillating signal causes said at least one first switch module to gate said first bias signal and thereby generate a first periodic signal having a first plurality of harmonics;
  
  at least one second switch module that receives at least a second oscillating signal and a second bias signal, wherein said second oscillating signal causes said at least one second switch module to gate said second bias signal and thereby generate a second periodic signal having a second plurality of harmonics;
  
  wherein said first periodic signal and said second periodic signal are combined to thereby generate a combined periodic signal having a combined plurality of harmonics; and
  
  at least one filter that receives said combined periodic signal, wherein said at least one filter isolates at least one harmonic of said combined plurality of harmonics.
- View Dependent Claims (2, 3)
- - 2. The apparatus of claim 1, wherein said first oscillating signal represents an I information signal, and said second oscillating signal represents a Q information signal.
  - 3. The apparatus of claim 1, further comprising a summer that sums said first and second periodic signals.

4. An apparatus for communicating, comprising:
- at least one first switch module that receives at least a first oscillating signal and a first bias signal, wherein said first oscillating signal causes said at least one first switch module to gate said first bias signal and thereby generate a first periodic signal having a first plurality of harmonics;
  
  at least one second switch module that receives at least a second oscillating signal and a second bias signal, wherein said second oscillating signal causes said at least one second switch module to gate said second bias signal and thereby generate a second periodic signal having a second plurality of harmonics;
  
  wherein said first periodic signal and said second periodic signal are combined to thereby generate a combined periodic signal having a combined plurality of harmonics; and
  
  at least one filter that receives said combined periodic signal and removes any unwanted harmonics from said combined periodic signal to produce a filtered periodic signal having a third plurality of harmonics.
- View Dependent Claims (5, 6)
- - 5. The apparatus of claim 4, wherein said first oscillating signal represents an I information signal, and said second oscillating signal represents a Q information signal.
  - 6. The apparatus of claim 4, further comprising a summer that sums said first and second periodic signals.

7. A transmitter, comprising:
- a first switch that gates a first reference signal according to a first control signal to generate a first harmonically rich signal; and
  
  a second switch that gates a second reference signal according to a second control signal to generate a second harmonically rich signal;
  
  wherein said first and second harmonically rich signals are combined to form a combined harmonically rich signal; and
  
  wherein said first control signal represents an I information signal, and said second control signal represents a Q information signal.

8. A method of transmitting, comprising:
- gating a first reference signal according to a first control signal to generate a first harmonically rich signal; and
  
  gating a second reference signal according to a second control signal to generate a second harmonically rich signal;
  
  wherein said first and second harmonically rich signals are combined to form a combined harmonically rich signal, andwherein said first control signal represents an I information signal, and said second control signal represents a Q information signal.

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Current Assignee
ParkerVision, Inc.
Original Assignee
ParkerVision, Inc.
Inventors
Moses, Charley D Jr., Looke, Richard C, Bultman, Michael J, Cook, Robert W, Sorrells, David F
Primary Examiner(s)
Eng; George
Assistant Examiner(s)
Bhattacharya; Sam

Application Number

US10/086,367
Publication Number

US 20030022640A1
Time in Patent Office

1,940 Days
Field of Search

455/102, 455/103, 455/115, 455/118, 455/126, 455/127, 455/129, 455/295, 455/91, 375/285, 375/346, 375/350, 327/103, 327/124, 327/143
US Class Current

455/118
CPC Class Codes

H03C 1/36   by means of semiconductor d...

H03C 3/38   by converting amplitude mod...

H03D 7/00   Transference of modulation ...

H03D 7/125   with field effect transistors

H04B 2001/0491   with frequency synthesizers...

Method and system for frequency up-conversion

First Claim

2 Assignments

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Abstract

747 Citations

8 Claims

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Method and system for frequency up-conversion

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

747 Citations

8 Claims

Specification

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Solutions

Use Cases

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