Transceiver method and apparatus having phase modulation and common mode phase drift rejection

US 9,239,264 B1
Filed: 09/18/2014
Issued: 01/19/2016
Est. Priority Date: 09/18/2014
Status: Active Grant

First Claim

Patent Images

1. A method for common mode phase drift rejection in a transceiver having a phase modulator, said method comprising:

generating a first light at a first frequency;

generating a second light at a second frequency such that the first frequency and second frequency are different from one another by a difference frequency;

passing the first light through the phase modulator to produce a phase modulator first light and a phase modulator second light, the phase modulator introducing a phase drift into the phase modulator first light and the phase modulator second light;

mixing the phase modulator first light and the second light at a source photoconductive switch to produce a difference frequency signal at the difference frequency;

transmitting the difference frequency signal from the source photoconductive switch;

receiving the difference frequency signal with a detector photoconductive switch; and

mixing the phase modulator second light and the second light at the detector photoconductive switch to produce a local oscillation in the detector photoconductive switch at the difference frequency such that the detector photoconductive switch produces a detector signal in response to the received difference frequency signal and the local oscillation, and wherein mixing the phase modulator first light having the phase drift with the second light at the source photoconductive switch and the phase modulator second light having the phase drift with the second light at the detector photoconductive switch produces the detector signal such that the phase drift is common mode rejected.

View all claims

2 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

Highly advantageous transceiver systems with common mode phase drift rejection and associated methods are disclosed which utilize certain phase modulators in configurations that reduce or eliminate inconsistent interference patterns caused by phase modulator phase drift.

103 Citations

View as Search Results

34 Claims

1. A method for common mode phase drift rejection in a transceiver having a phase modulator, said method comprising:
- generating a first light at a first frequency;
  
  generating a second light at a second frequency such that the first frequency and second frequency are different from one another by a difference frequency;
  
  passing the first light through the phase modulator to produce a phase modulator first light and a phase modulator second light, the phase modulator introducing a phase drift into the phase modulator first light and the phase modulator second light;
  
  mixing the phase modulator first light and the second light at a source photoconductive switch to produce a difference frequency signal at the difference frequency;
  
  transmitting the difference frequency signal from the source photoconductive switch;
  
  receiving the difference frequency signal with a detector photoconductive switch; and
  
  mixing the phase modulator second light and the second light at the detector photoconductive switch to produce a local oscillation in the detector photoconductive switch at the difference frequency such that the detector photoconductive switch produces a detector signal in response to the received difference frequency signal and the local oscillation, and wherein mixing the phase modulator first light having the phase drift with the second light at the source photoconductive switch and the phase modulator second light having the phase drift with the second light at the detector photoconductive switch produces the detector signal such that the phase drift is common mode rejected.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. The method as defined in claim 1 wherein the phase modulator first light mixed with the second light at the source photoconductive switch is modulated by the phase modulator and the phase modulator second light mixed with the second light at the detector photoconductive switch is not phase modulated by the phase modulator.
  - 3. The method as defined in claim 2 wherein the phase modulator first light is phase modulated at a phase modulation frequency.
  - 4. The method as defined in claim 2 wherein the phase modulator first light is phase modulated by a data stream.
  - 5. The method as defined in claim 1 wherein the phase modulator first light is phase offset by the phase modulator with respect to the second light.
  - 6. The method as defined in claim 1 wherein one of the first and second lights is generated with a wavelength of at least approximately 1550 nm.
  - 7. The method as defined in claim 1 wherein one of the first and second lights is generated with a wavelength of at least approximately 785 nm.
  - 8. The method as defined in claim 1 wherein one of the first and second lights is generated with a wavelength of at least approximately 855 nm.
  - 9. The method as defined in claim 1 wherein the difference frequency signal is transmitted as a beam of electromagnetic radiation.
  - 10. The method as defined in claim 9 wherein the beam of electromagnetic radiation is transmitted through a sampling area before reception by the detector photoconductive switch.
  - 11. The method as defined in claim 1 wherein the source photoconductive switch transmits the difference frequency signal using a source antenna.
  - 12. The method as defined in claim 1 wherein the detector photoconductive switch receives the difference frequency signal using a detector antenna.
  - 13. The method as defined in claim 1 wherein the first and second lights are generated such that the difference frequency signal is in a range from about 10 MHz to about 10 THz.

14. A transceiver comprising:
- a first light source for generating a first light at a first frequency;
  
  a second light source for generating a second light at a second frequency such that the second frequency is different from the first frequency by a difference frequency;
  
  a phase modulator configured to receive the first light and to produce a phase modulator first light and a phase modulator second light, the phase modulator introducing a phase drift into each of the phase modulator first light and the phase modulator second light;
  
  a source photoconductive switch arranged to receive the phase modulator first light and the second light to produce and transmit a difference frequency signal having a frequency at the difference frequency;
  
  a detector photoconductive switch arranged to receive the phase modulator second light and the second light to produce a local oscillation at the difference frequency, the detector photoconductive switch also arranged to receive the difference frequency signal and to produce a detector signal in response to the received difference frequency signal and the local oscillation such that the difference frequency signal and the local oscillation include the phase drift to common mode reject the phase drift from the detector signal.
- View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32)
- - 15. The transceiver as defined in claim 14 wherein the phase modulator is configured to phase modulate the phase modulator first light and to pass the phase modulator second light without phase modulation.
  - 16. The transceiver as defined in claim 15 wherein the phase modulator is configured to phase modulate the phase modulator first light at a phase modulation frequency.
  - 17. The transceiver as defined in claim 15 wherein the phase modulator is configured to phase modulate the phase modulator first light with a data stream.
  - 18. The transceiver as defined in claim 14 wherein the phase modulator is configured to phase offset the phase modulator first light with respect to the phase modulator second light without offsetting the phase of the phase modulator second light.
  - 19. The transceiver as defined in claim 14 wherein the aforesaid phase modulator is a first phase modulator and the aforesaid phase modulator first light is a first phase modulator first light and the aforesaid phase modulator second light is a first phase modulator second light, the transceiver further comprising:
    - a second phase modulator configured to receive the second light and to produce a second phase modulator first light and a second phase modulator second light, wherein the aforesaid phase drift is a first phase drift and the second phase modulator introducing a second phase drift into each of the second phase modulator first light and the second phase modulator second light, and wherein the aforesaid second light received by the source photoconductive switch is the second phase modulator first light and the aforesaid second light received by the detector photoconductive switch is the second phase modulator second light.
  - 20. The transceiver as defined in claim 19 wherein the second phase modulator first light is phase modulated by the second phase modulator with respect to the second phase modulator second light.
  - 21. The transceiver as defined in claim 19 wherein the first and second phase modulators are each configured as a 2×
    - 2 phase modulator.
  - 22. The transceiver as defined in claim 14 wherein the source photoconductive switch and detector photoconductive switch are configured and arranged for spectrometry.
  - 23. The transceiver as defined in claim 14 wherein the source photoconductive switch and detector photoconductive switch are configured and arranged for communications.
  - 24. The transceiver as defined in claim 14 wherein the source photoconductive switch and detector photoconductive switch are configured and arranged for imaging.
  - 25. The transceiver as defined in claim 14 wherein the phase modulator is a 1×
    - 2 phase modulator.
  - 26. The transceiver as defined in claim 14 wherein the phase modulator is a 2×
    - 2 phase modulator.
  - 27. The transceiver as defined in claim 14 wherein one of the first and second light sources generates light with a wavelength of at least approximately 1550 nm.
  - 28. The transceiver as defined in claim 14 wherein the source photoconductive switch is configured to transmit the difference frequency signal as a beam of electromagnetic radiation.
  - 29. The transceiver as defined in claim 28 wherein the source photoconductive switch is arranged to transmit the difference frequency signal through a sampling area and the detector photoconductive switch is arranged to receive the difference frequency signal as the beam of electromagnetic radiation from the sampling area.
  - 30. The transceiver as defined in claim 14 wherein the first and second light sources are configured for generating the first and second light such that the difference frequency is in a range of about 10 MHz to about 10 THz.
  - 31. The transceiver as defined in claim 14, further comprising:
    - a controller connected to at least one of the first and second light sources and configured for controlling the controller connected light source such that the difference frequency changes over a time period.
  - 32. The transceiver as defined in claim 31, wherein the controller is configured to control the light source such that the difference frequency is swept through a series of frequencies over a time period.

33. A terahertz frequency spectrometer for performing spectroscopy on a sample in a sampling area, said spectrometer comprising:
- a first laser light source configured for generating a first laser light at a first frequency;
  
  a second laser light source for generating a second laser light at a second frequency, wherein the first and second laser lights are generated such that the first frequency and second frequency are different from one another by a difference frequency;
  
  a phase modulator configured for receiving the first laser light from the first laser light source and for producing a phase modulated laser light, that is phase modulated, and a phase modulator laser light, that is not phase modulated, the phase modulator introducing a phase drift component into the phase modulated light and the phase modulator light;
  
  a source photoconductive switch configured for receiving the phase modulated laser light and the second laser light for mixing to produce a beam of electromagnetic energy at the difference frequency in a direction toward the sample area; and
  
  a detector photoconductive switch arranged for receiving the phase modulator laser light and the second laser light to produce a local oscillation at the difference frequency in response thereto, the detector photoconductive switch also arranged to receive at least a portion of the electromagnetic energy from the sample area as influenced by the sample and to produce a received signal that is related to the received electromagnetic energy, the detector photoconductive switch also arranged to mix the local oscillation and the received signal to produce a detector signal that is related to the difference between the local oscillation and the received signal and which includes information related to the sample such that the phase drift component is present in the local oscillation and the received signal at least partially remove the phase drift by common mode rejection when the local oscillation and the received signal are mixed to produce the detector signal.

34. A method for increasing consistency of photo-mixing interference patterns in a transceiver system, comprising:
- generating a first light at a first frequency;
  
  generating a second light at a second frequency such that the first frequency and second frequency are different from one another by a difference frequency;
  
  modulating the phase of a portion of the first light relative to the second light using a phase modulator to produce a phase modulated first light, the phase modulator introducing a phase drift into the phase modulated first light;
  
  passing another portion of the first light through the phase modulator to produce a phase modulator first light without phase modulation, the phase modulator introducing the phase drift into the phase modulator first light;
  
  photo-mixing the phase modulated first light and the second light and generating a difference frequency signal at the difference frequency based at least in part on the photo-mixing;
  
  transmitting the difference frequency signal;
  
  receiving the difference frequency signal and generating a received signal in response;
  
  photo-mixing the phase modulator first light and the second light to generate a detection oscillation; and
  
  mixing the received signal and the detection oscillation to generate a detector signal, the detector signal including an interference pattern resulting from photo-mixing, and wherein the mixing of the received signal and the detection oscillation common mode reject the phase drift introduced by the phase modulator.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Joseph R. Demers
Original Assignee
Joseph R. Demers
Inventors
Demers, Joseph R.
Primary Examiner(s)
TANINGCO, MARCUS H

Application Number

US14/490,411
Time in Patent Office

488 Days
Field of Search
US Class Current

1/1
CPC Class Codes

G01J 3/108   for measurement in the infr...

G01J 3/42   Absorption spectrometry; Do...

G01J 3/433   Modulation spectrometry; De...

G01J 3/453   by correlation of the ampli...

H04B 10/90   Non-optical transmission sy...

Transceiver method and apparatus having phase modulation and common mode phase drift rejection

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

103 Citations

34 Claims

Specification

Use Cases

Quick Links

Others

Transceiver method and apparatus having phase modulation and common mode phase drift rejection

First Claim

2 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

103 Citations

34 Claims

Specification

Subscription Required

Use Cases

Quick Links

Others