Adjustable balanced modulator

US 20030119473A1
Filed: 02/14/2003
Published: 06/26/2003
Est. Priority Date: 11/09/1998
Status: Abandoned Application

First Claim

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1. A balanced modulator comprising:

a first non-linear device, said first non-linear device receiving a first local oscillator signal biased with a first adjusted bias voltage and receiving an input signal;

a second non-linear device coupled to said first non-linear device, said second non-linear device receiving a second local oscillator signal biased with a second adjusted bias voltage and receiving the input signal; and

a phase corrector coupled to said first non-linear device and said second non-linear device, said phase corrector adjusting a phase of the input signal received by at least one of the first and second non-linear devices.

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Abstract

An adjustable balanced modulator includes first and second non-linear devices. The first non-linear device receives an RF input signal and an in-phase LO signal to produce a first mixed signal. The second non-linear device receives the RF input signal and the out-of-phase LO signal to produce a second mixed signal. A summer sums the two mixed signals to produce an output signal including sum and difference product terms and a suppressed RF input term. The performance of the balanced modulator is improved by using an adjustable phase corrector and/or adjustable bias voltages. An adjustable phase corrector can be used to adjust the RF input signals to the non-linear devices to be substantially in-phase to more effectively suppress the original RF input signal in the output signal. Bias voltages can be used to bias the non-linear devices to operate in a linear range and to equalize the levels of the sum and difference product terms.

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30 Claims

1. A balanced modulator comprising:
- a first non-linear device, said first non-linear device receiving a first local oscillator signal biased with a first adjusted bias voltage and receiving an input signal;
  
  a second non-linear device coupled to said first non-linear device, said second non-linear device receiving a second local oscillator signal biased with a second adjusted bias voltage and receiving the input signal; and
  
  a phase corrector coupled to said first non-linear device and said second non-linear device, said phase corrector adjusting a phase of the input signal received by at least one of the first and second non-linear devices.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The balanced modulator of claim 1, further comprising:
    - a summer coupled to said first non-linear device and said second non-linear device, said summer receiving a first mixed signal produced by said first non-linear device and receiving a second mixed signal produced by said second non-linear device, said summer producing an output signal.
  - 3. The balanced modulator of claim 2, wherein the output signal includes two intermodulation products having substantially matching levels, and wherein either the input signal or the local oscillator is substantially suppressed.
  - 4. The balanced modulator of claim 2, wherein:
    - the output signal includes two intermodulation products having substantially matching levels and wherein at least one of the input signal and the local oscillator are substantially suppressed;
      
      the suppressed signal being suppressed by at least 40 dB from the intermodulation products.
  - 5. The balanced modulator of claim 3, wherein the input signal is substantially suppressed.

6. A balanced modulator comprising:
- a first non-linear device receiving a first local oscillator signal and receiving an input signal, the first non-linear device producing a first mixed signal;
  
  a first bias voltage terminal supplying a first bias voltage to the first non-linear device;
  
  a second non-linear device receiving a second local oscillator signal and receiving the input signal, the first local oscillator signal being substantially out of phase with the second local oscillator signal, the second non-linear device producing a second mixed signal;
  
  a second bias voltage terminal supplying a second bias voltage to the second non-linear device;
  
  a phase corrector coupled to the input signal and adapted to correct the phases of the input signals received by the first and second non-linear devices to be substantially in-phase; and
  
  a summer summing the first and second mixed signals to produce an output signal.
- View Dependent Claims (7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
- - 7. The modulator of claim 6 and further comprising a phase inverter coupled to the first and second non-linear devices, the phase inverter receiving the first local oscillator signal and producing the second local oscillator signal that is substantially 180 degrees out of phase with the first local oscillator signal.
  - 8. The modulator of claim 6 wherein each of said first and second non-linear devices comprises a transistor.
  - 9. The modulator of claim 8 wherein each transistor comprises a double-gate field effect transistor (FET).
  - 10. The modulator of claim 6 wherein said summer comprises a transformer.
  - 11. The modulator of claim 6 wherein said phase corrector comprises an adjustable capacitor.
  - 12. The modulator of claim 6 wherein said first bias voltage biases the first non-linear device to operate in a substantially linear region, and the second bias voltage biases the second non-linear device to operate in a substantially linear region.
  - 13. The modulator of claim 6 wherein the output signal comprises first and second intermodulation product terms, the first and second bias voltages being set to values that set the amplitudes or levels of the product terms to predetermined levels.
  - 14. The modulator of claim 6 wherein said bias voltages are adjustable.
  - 15. The modulator of claim 6 wherein the output signal comprises a first and second intermodulation product terms, the first and second bias voltages being set to values that substantially equalize the amplitudes or levels of the first and second product terms.
  - 16. The modulator of claim 6 wherein the phase corrector is set to a value that substantially suppresses at least one of the local oscillator and the input signal in the output signal.
  - 17. The modulator of claim 16 wherein the phase corrector is set to optimally suppress the input signal in the output signal.
  - 18. The modulator of claim 6 wherein due to an adjustment of said phase corrector and bias voltages, the output signal includes two intermodulation products having substantially matching levels and wherein the input signal is substantially suppressed in the output signal.

19. An adjustable balanced modulator comprising:
- a first non-linear device receiving a first local oscillator signal and receiving an RF input signal, the first non-linear device producing a first mixed signal;
  
  a first bias voltage terminal supplying a first adjustable bias voltage to the first non-linear device;
  
  a second non-linear device receiving a second local oscillator signal and receiving the RF input signal, the first local oscillator signal being substantially out of phase with the second local oscillator signal, the second non-linear device producing a second mixed signal;
  
  a second bias voltage terminal supplying a second adjustable bias voltage to the second non-linear device;
  
  an adjustable phase corrector coupled to the RF input signal and allowing correction so that the phases of the RF input signals received by the first and second non-linear devices are substantially in-phase; and
  
  a summer summing the first and second mixed signals to produce an output signal including two intermodulation product terms and a substantially suppressed RF input term, the first and second bias voltages adjusted to substantially equalize the levels of the product terms in the output signal.

20. A modulator comprising:
- a phase inverter receiving a first local oscillator signal and producing a second local oscillator signal that is substantially out of phase with the first local oscillator signal;
  
  a first transistor having source and drain terminals and first and second gate terminals, the first gate terminal of the first transistor being coupled to the phase inverter for receiving a first oscillator signal, the second gate terminal of the first transistor receiving an RF input signal, the first transistor outputting a first mixed signal on the drain of the first transistor;
  
  a first bias voltage terminal supplying a first bias voltage to the first gate of the first transistor;
  
  a second transistor having source and drain terminals and first and second gate terminals, the first gate terminal of the second transistor being coupled to the phase inverter for receiving a second oscillator signal, the second gate terminal of the second transistor receiving the RF input signal, the second transistor outputting a second mixed signal on the drain of the second transistor;
  
  a second bias voltage terminal supplying a second bias voltage to the first gate of the second transistor;
  
  a phase corrector coupled to at least one of the transistors and adapted to correct the phase of at least one of the RF input signals received by the first and second transistors; and
  
  a summer summing the first and second mixed signals to produce an output signal.
- View Dependent Claims (21, 22, 23, 24)
- - 21. The modulator of claim 20 wherein said phase corrector is adapted to correct the phases of the RF input signals received by the first and second transistors to be substantially in-phase.
  - 22. The modulator of claim 20 wherein said phase corrector is adapted to adjust the phases of the RF input signals received by the first and second transistors so as to substantially suppress the RF input signal in the output signal.
  - 23. The modulator of claim 20 wherein said output signal comprises two intermodulation product terms, the first and second bias voltages being adjusted to set the levels of the product terms to predetermined levels.
  - 24. The modulator of claim 20 wherein said output signal comprises two intermodulation product terms, the first and second bias voltages being adjusted to set the levels of the product terms to substantially the same level.

25. A method of modulation comprising the steps of:
- receiving a first local oscillator signal;
  
  generating a second local oscillator signal, the second local oscillator signal being 180 degrees out of phase with the first local oscillator signal;
  
  receiving an RF input signal;
  
  generating a first mixed signal based on the first local oscillator signal and the RF input signal;
  
  generating a second mixed signal based on the second local oscillator signal and the RF input signal; and
  
  adjusting the relative phases of the RF input signals used to generate the first or second mixed signals to be substantially in-phase.
- View Dependent Claims (26, 27, 28)
- - 26. The method of claim 25 wherein said step of generating a first mixed signal comprises the step of pumping a first non-linear device based on the first local oscillator signal and the RF input signal to generate a first mixed signal.
  - 27. The method of claim 26 wherein said step of generating a second mixed signal comprises the step of pumping a second non-linear device based on the second local oscillator signal and the RF input signal to generate a second mixed signal.
  - 28. The method of claim 26 wherein the output signal comprises two intermodulation product terms, said method further comprising the step of biasing the first and second non-linear devices so as to substantially equalize the levels of the product terms.

29. A balanced modulator comprising:
- a first non-linear device receiving a first local oscillator signal and receiving an input signal, the first non-linear device producing a first mixed signal;
  
  a first bias voltage terminal supplying a first bias voltage to the first non-linear device;
  
  a second non-linear device receiving a second local oscillator signal and receiving the input signal, the second non-linear device producing a second mixed signal;
  
  a second bias voltage terminal supplying a second bias voltage to the second non-linear device;
  
  a phase corrector coupled to the first and second non-linear devices; and
  
  a summer summing the first and second mixed signals to produce an output signal.

30. The balanced modulator of claim 32 wherein the output signal comprises sum and difference product terms having levels that are substantially equalized due to an adustment of the bias voltages, and wherein the input signal is substantially suppressed in the output signal due to an adjustment of the phase corrector.

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Current Assignee
Jimmie R. Asbury, Stephen H. Smith
Original Assignee
Jimmie R. Asbury, Stephen H. Smith
Inventors
Asbury, Jimmie R., Smith, Stephen H.

Application Number

US10/366,378
Publication Number

US 20030119473A1
Time in Patent Office

Days
Field of Search
US Class Current

455/326
CPC Class Codes

H03D 2200/0023   Balun circuits

H03D 2200/0043   Bias and operating point

H03D 7/1441   using field-effect transist...

H03D 7/1458   Double balanced arrangement...

H03D 7/1483   comprising components for s...

H03D 7/1491   Arrangements to linearise a...

Adjustable balanced modulator

First Claim

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30 Citations

30 Claims

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Adjustable balanced modulator

First Claim

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Abstract

30 Citations

30 Claims

Specification

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Solutions

Use Cases

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