Device noise measurement system

US 6,320,179 B1
Filed: 04/15/1999
Issued: 11/20/2001
Est. Priority Date: 10/26/1996
Status: Expired due to Term

First Claim

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1. A system for measuring one or more noise contributions to an optical output signal, OPT_DUT, (3) from a device (1) comprising;

means (19) for generating a broadband, substantially shot noise limited optical reference signal, OPT_REF, (21), detection means (10) for receiving the optical signals, OPT_DUTand OPT_REF, (3, 21) and converting said optical signals into equivalent electrical signals, ELEC_DUTand ELEC_REFrespectively, each comprising an ac component and a dc component (13), wherein the dc components (13) of the electrical signals, ELEC_DUTand ELEC_REF, are substantially equal, means (12) for separating the ac components and the dc components (13) of the electrical signals, ELEC_DUTand ELEC_REF, means (14) for measuring the dc components of the electrical signals, ELEC_DUTand ELEC_REF, means (16) for amplifying the ac components of the electrical signals and means (18) for measuring the amplified ac components of the electrical signals at a plurality of frequencies, whereby the measurement of at least one of the ac components or dc components (13) of the electrical signals, ELEC_DUTand ELEC_REF, provides an indication of one or more of the noise contributions to the optical output signal, OPT_DUT(3).

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Abstract

A system and method for determining noise power levels across a range of frequencies of the optical signal output from a device operating at a specified optical power and drive current and, in particular, for determining relative intensity noise values (RIN). The system may comprise a reference laser for generating an optical reference signal and a photodetector for converting the optical signal output from the reference laser and the device under test into equivalent electrical signals. The system also comprises means for measuring ac and dc components of the electrical signals output from the photodetector. The system may be used to measure RIN levels to an accuracy of less than 1 dB. Such measurements are of particular importance in the field of fiber optic telecommunications. The reference laser is shot noise limited in the frequency range of interest, typically between 20 MHz and 20 GHz, and has a narrow linewidth, typically less than 5 kHz. A shot noise limited reference laser signal may be achieved by means of optically attenuating a higher power reference laser signal to the required lower optical power. The incorporation of a reference laser enables a simple calibration process to take account of factors such as the responsivity, gain and resolution bandwidth of the system apparatus across the whole measurement range.

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21 Claims

1. A system for measuring one or more noise contributions to an optical output signal, OPT_DUT, (3) from a device (1) comprising;
- means (19) for generating a broadband, substantially shot noise limited optical reference signal, OPT_REF, (21), detection means (10) for receiving the optical signals, OPT_DUTand OPT_REF, (3, 21) and converting said optical signals into equivalent electrical signals, ELEC_DUTand ELEC_REFrespectively, each comprising an ac component and a dc component (13), wherein the dc components (13) of the electrical signals, ELEC_DUTand ELEC_REF, are substantially equal, means (12) for separating the ac components and the dc components (13) of the electrical signals, ELEC_DUTand ELEC_REF, means (14) for measuring the dc components of the electrical signals, ELEC_DUTand ELEC_REF, means (16) for amplifying the ac components of the electrical signals and means (18) for measuring the amplified ac components of the electrical signals at a plurality of frequencies, whereby the measurement of at least one of the ac components or dc components (13) of the electrical signals, ELEC_DUTand ELEC_REF, provides an indication of one or more of the noise contributions to the optical output signal, OPT_DUT(3).
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
- - 2. The system of claim 1, characterised in that the system comprises means (19) for generating a substantially shot noise limited optical reference signal (21), OPT_REF, having a linewidth less than a lower frequency limit, wherein OPT_REFand OPT_DUT(3, 21) are substantially shot noise matched.
  - 3. The system of claim 1, and also comprising first optical isolation means (4a, 6a) through which the optical signal, OPT_DUT, is transmitted so as to minimise reflection of the optical signal OPT_DUT(3).
  - 4. The system of claim 1, and also comprising second optical isolation means (4b, 6b) through which the optical signal, OPT_REF, (21) is transmitted so as to minimise reflection of the optical signal OPT_REF(21).
  - 5. The system of claim 1 comprising;
6. The system claim 1 wherein the means for generating an optical reference signal, OPT_REF, (21) comprises a reference laser (19).
7. The system of claim 6 wherein the reference laser (19) is a diode pumped Er doped glass ring laser.
8. The system of claim 6, and further comprising attenuation means (7) for attenuating at least one of the optical signal output from the device, OPT_DUT, (3) and the optical signal output from the reference laser, OPT_REF(21).
9. The system of claim 8, wherein the attenuation means is an optical attenuator (7) capable of providing an attenuation of between 0 and 60 dB.
10. The system claim 9 wherein the detection means is a photodetector (10).
11. The system of claim 10 wherein the means for measuring the amplified ac component of the electrical signal is a spectrum analyser (18).
12. The system of claim 11 wherein the means for amplifying the ac components of the electrical signals is an amplifier (16) capable of providing an amplification of between 10 dB and 50 dB.
13. The system of claim 12 wherein the means for amplifying the ac components of the electrical signals is an amplifier (16) capable of providing an amplification of between 30 dB and 50 dB.
14. The system of claim 12 wherein the means for measuring the dc components (13) of the electrical signals is a voltmeter (14).
15. The system of claim 1, comprising an Erbium doped fibre amplifier for generating a broadband, substantially shot noise limited optical reference signal (3), OPT_REF.

16. A method for determining the device noise power contribution, N_L, to the total noise power, N_T, of an optical signal (3), OPT_DUT, output from a device (1), having a wavelength λ
- , using apparatus contributing a thermal noise power, N_TH, to the total noise power, N_T, said total noise power also comprising a shot noise power contribution, N_Q, comprising the steps of;
  
  (i) generating a broadband, substantially shot noise limited optical reference signal (21), OPT_REF, (ii) detecting the optical signals, OPT_DUTand OPT_REF, (3,21) and converting said optical signals into equivalent electrical signals, ELEC_DUTand ELEC_REFrespectively, using detection means (10), wherein ELEC_DUTand ELEC_REFeach comprise an ac component and a dc component (13), wherein the dc components of the electrical signals, ELEC_DUTand ELEC_REF, are i_dc(DUT)and i_dc(REF)respectively, and varying the optical reference signal, OPT_REF, (21) so that i_dc(DUT)and i_dc(REF)are substantially equal, (iii) separating the ac component and the dc component (13) of the electrical signals, ELEC_DUTand ELEC_REF, (iv) measuring one or more of the dc components, i_dc(DUT)and i_dc(REF), of the electrical signals, ELEC_DUTand ELEC_REF, (vi) amplifying one or more of the ac components of the electrical signals, ELEC_DUTand ELEC_REF, (vii) measuring one or more of the amplified ac components of the electrical signals, ELEC_DUTand ELEC_REF, (viii) measuring the ac component of the electrical signal output from the detection means (10) in the absence of OPT_DUTand OPT_REF, (3, 21) so as to provide an indication of the thermal noise power, N_TH, and (ix) deriving the device noise power contribution, N_L, to the optical output signal, OPT_DUT, (3, 21) from the measured values of the ac components and the dc components of the electrical signals, ELEC_DUTand ELEC_REF.
- View Dependent Claims (17, 18, 19, 20, 21)
- - 17. The method of claim 16, comprising the step of;
18. The method of claim 16, and also comprising the further steps of;
- (i) measuring the responsivity of the detection means, B_REFλ, substantially at the wavelength of the optical reference signal, OPT_REF(21), (ii) measuring the responsivity of the detection means (10), B_DUTλ, substantially at the wavelength of the device (1), (iii) deriving the responsivity of the system, B_λ, substantially at the wavelength of the device (1) from the measured values of B_DUTλ and B_REFλ, and (iv) deriving at least one responsivity independent noise power contributions to the total noise power, N_T.
19. The method claim 16, and also comprising the further steps of;
- (i) deriving the average electrical power, P_AVG, of the device (1) from the measured value of the dc component, i_dc(DUT), (13) and (ii) deriving the ratio of the device noise power, N_L, to the average electrical power of the device (1), P_AVG, so as to provide an indication of the relative intensity noise of the device (1), RIN_DUT.
20. The method of claim 16, and also comprising the further steps of;
- (i) deriving the average electrical power, P_AVG, of the device (1) from the measured value of the dc component, i_dc(DUT), (13) and (ii) deriving the ratio of the sum of the shot noise power, N_Q, and the device noise power, N_L, to the average electrical power of the device (1), P_AVG.
21. The method claim 16, and also comprising the further steps of;
- (i) deriving the average electrical power, P_AVG, of the device (1) from the measured value of the dc component, i_dc(DUT), (13) and (ii) deriving the ratio of the total noise power of the device (1), N_T, to the average electrical power of the device (1), P_AVG, so as to provide an indication of the relative intensity noise of the system, RIN_SYS.

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Current Assignee
Hanger Solutions, LLC (IP Investments Group LLC)
Original Assignee
The secretary of state for defence in her Britannic Majesty's Government of the United Kingdom of Great Britain And Northern Ireland
Inventors
Cox, Michael, Copner, Nigel
Primary Examiner(s)
Font, Frank G.
Assistant Examiner(s)
SMITH, ZANDRA V

Application Number

US09/284,634
Time in Patent Office

950 Days
Field of Search

250/214 A, 250/214 C, 356/222, 356/226, 359/110
US Class Current

250/214.00A
CPC Class Codes

H01S 3/0014 Monitoring arrangements not...

H01S 5/0014 Measuring characteristics o...

Device noise measurement system

First Claim

6 Assignments

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Abstract

8 Citations

21 Claims

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Device noise measurement system

First Claim

6 Assignments

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0 Petitions

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Abstract

8 Citations

21 Claims

Specification

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