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39 results about "Laser phase noise" patented technology

Distributed disturbance sensing device and the related demodulation method based on polarization sensitive optical frequency domain reflectometry

This invention relates to a distributed disturbance sensing device based on polarization sensitive optical frequency domain reflectometry (OFDR) and the related demodulation thereof. The device, adopting OFDR, polarization controlling and analysis techniques, consists of a ultra-narrow linewidth tunable laser source module, polarization generating and polarization splitting balanced detecting module, laser source optical frequency and phase monitoring module, high-speed optical switch and so on to establish a large-scale and long-distance optical sensing network. The demodulation method consists of analysis the polarization information from sensing optical fiber, the method of suppressing and compensating of the non-linear optical frequency and the laser phase noise, super-resolution analyzing, advanced denoising method and the polarization information analysis method based on Jones and Mueller's matrices using distributed wave plate model of optical fiber.
Owner:TIANJIN UNIV

Self-adaptive damage compensation method and system for digital-related optical communication system

The invention relates to a self-adaptive damage compensation method and system for a digital-related optical communication system. The self-adaptive damage compensation method includes inserting two pulse modulation pilot frequency signals symmetrically distributed on an input signal frequency fc (fiber channel) at a transmitting terminal; acquiring an input signal power spectrum by the Fourier transform at a receiving terminal, and receiving the pilot frequency signals of a signal power spectrum and subjecting the pilot frequency signals to location and filtering extraction; calculating size of frequency offset of a vibration laser and performing compensation by a pilot frequency; acquiring pilot time domain waveforms by the Fourier transform and calculating a delay delta tau between two pilot light pulses, and calculating size of dispersion by the delta tau and performing the compensation; finally extracting pilot phase noises and subtracting the same from a signal phase so as to eliminate laser phase noises and nonlinear fiber damages. The self-adaptive damage compensation method has the advantages of high accuracy, low complexity, small occupation of bandwidth and fast response speed, so that self-adaptive compensation of various damages can be realized.
Owner:HUAZHONG UNIV OF SCI & TECH

Measurement of wavelength transients in tunable lasers

InactiveUS20050180470A1Enables levelEnables of spectral accuracyOptical measurementsLaser detailsLine widthTime delays
A high resolution measurement method and apparatus for tracking wavelength transients in tunable lasers. The apparatus comprises a Mach-Zehnder interferometer (MZI) which is used to generate a self-heterodyne signal between the wavelength transient to be measured, which is effectively the laser signal passed along the time-delayed arm of the MZI, and the laser wavelength after the tuning transient has subsided, which is effectively the same laser signal passed along the direct arm of the MZI. The heterodyne signal is detected on a receiver, and can then be measured with the frequency resolution typical of electronic measurements, such as by means of an oscilloscope. The only laser required is the laser under inspection. The wavelength measurement accuracy is up to twice the laser linewidth, and is only effectively limited by the laser phase noise. The method can be used to implement an automatic frequency control system for tunable lasers.
Owner:BEN GURION UNIV OF THE NEGEY RES & DEV AUTHORITY

Method and device for monitoring and controlling high-precision optical fiber optical frequency comb

The invention discloses a method and device for monitoring and controlling a high-precision optical fiber optical frequency comb. The method and device are used for monitoring and controlling working conditions of links of the optical fiber optical frequency comb and improving the long-term stability, the operation reliability and the product replicability of the optical fiber optical frequency comb. By means of the device, pulse carrier-envelope phases output by an optical fiber laser oscillator and optical fiber amplifiers in all stages are monitored, transmission and fluctuation of laser phase noise in the power amplification process are observed and controlled, carrier-envelope phase output signals of the main amplifier are negatively fed back to a carrier-envelope phase control unit in the laser oscillator, namely an electronic control polarization controller modulates the pulse polarization evolution process or modulates the pump light strength of the laser oscillator, and stable control over the carrier-envelope phases is achieved. By means of the method and device, the working conditions of the laser oscillator and the amplifiers in all stages can be monitored and controlled in real time, monitoring indexes are timely and comprehensive, and a stable and reliable feedback mechanism is provided.
Owner:CHONGQING HUAPU INTELLIGENT EQUIP CO LTD

Fibre optic distributed sensing

This application describes methods and apparatus for distributed fiber optic sensing that reduce or compensate for the effects of laser phase noise. The method involves repeatedly interrogating an optical fiber (101), where each interrogation involves launching at least one interrogating pulse into the optical fiber; detecting optical radiation which is backscattered from within the fiber, and forming a measurement signal from a plurality of sensing portions of the fiber. The method involves forming a laser noise template based on the measurement signals within a frequency band of interest from a first set of said sensing portions; and applying a correction to the measurement signals from said plurality of sensing portions based on said laser noise template. The first set of sensing portions may be temperature and / or strain stable portion from an isolated section of fiber (301, 303) or may comprise a selected set of sensing portions, which may include substantially all the sensing portions, which are averaged to form the laser phase noise template. For a phase based DAS type sensor the laser phase noise template may simply be subtracted from the measurement signals. For an intensity based sensor it may be necessary to polarity align and normalize the signals of the first set before averaging and then determine a gain-time profile for each sensing portion prior to applying the correction.
Owner:OPTASENSE HLDG LTD

Laser phase noise-based miniature random number generator

The invention provides a laser phase noise-based miniature random number generator. The random number generator comprises a laser device, a coupler, a photoelectric detector, an analog-digital converter and a post-processing module, wherein the laser device generates continuous light or pulse light; the continuous light or the pulse light generates interference at the coupler, and phase noises are converted into an intensity signal; the coupler is connected with the photoelectric detector, and the intensity signal is subjected to photoelectric conversion through the photoelectric detector; the photoelectric detector is connected with the analog-digital converter, and the analog-digital converter performs quantification on an output electric signal of the photoelectric detector to obtain an initial random bit; and the post-processing module performs randomness optimization on the initial random bit to obtain a final random bit. Compared with the prior art, the random number generator has the advantages that an output result is stable, random number generation does not depend on polarization and phase compensation technologies, and the random number generation speed is high.
Owner:NO 30 INST OF CHINA ELECTRONIC TECH GRP CORP

Laser phase noise measurer

The disclosed testing device for laser phase noise comprises: a phase noise conversion device with two polarization beam-splitting lens (1) and (3), and an atom gas chamber or molecule gas chamber (2). Wherein, coupling two beam linear polarization light by (1) to spread into (2), converting the phase noise into amplitude noise by electromagnetic induced coherence effect, using (3) to divide the detecting light and coupling light, and using a balance zero-beat system to detect the outgoing noise. This invention simplifies device fit to mobile and wide application.
Owner:SHANXI UNIV

Laser phase noise elimination device, system and method

The invention provides a laser phase noise elimination device, system and method. The device comprises a Mach-Zehnder interferometer and a fiber delay loop. The fiber delay loop is coupled on the reference arm of the Mach-Zehnder interferometer through a first optical coupler. The fiber delay loop comprises a series connected acousto-optic modulator and a delay fiber of the preset length, wherein the preset length is not greater than the coherent length of the laser. With application of the laser phase noise elimination device, system and method, the problem that the optical frequency domain reflectometer technology has low spatial resolution for long distance measurement in the relevant technology can be solved so that the spatial resolution of the optical frequency domain reflectometer technology for long distance measurement can be enhanced.
Owner:ZTE CORP

Gradiometer configuration invariant to laser phase noise and sensor rotations

A system for gravity measurement includes one or more atom sources, two or more laser beams, and a polarizing beamsplitter and a retro-reflection prism assembly. The one or more atom sources is to provide three ensembles of atoms. The two or more laser beams is to cool or interrogate the three ensembles of atoms. The polarizing beamsplitter and the retro-reflection prism assembly are in a racetrack configuration. The racetrack configuration routes the two or more laser beams in opposing directions around a loop topology, intersecting the three ensembles of atoms with appropriate polarizations chosen for cooling or interferometer interrogation. The three ensembles of atoms are positioned coaxially when interrogated.
Owner:AOSENSE

Distributed disturbance sensing device and the related demodulation method based on polarization sensitive optical frequency domain reflectometry

This invention relates to a distributed disturbance sensing device based on polarization sensitive optical frequency domain reflectometry (OFDR) and the related demodulation thereof. The device, adopting OFDR, polarization controlling and analysis techniques, consists of a ultra-narrow linewidth tunable laser source module, polarization generating and polarization splitting balanced detecting module, laser source optical frequency and phase monitoring module, high-speed optical switch and so on to establish a large-scale and long-distance optical sensing network. The demodulation method consists of analysis the polarization information from sensing optical fiber, the method of suppressing and compensating of the non-linear optical frequency and the laser phase noise, super-resolution analyzing, advanced denoising method and the polarization information analysis method based on Jones and Mueller's matrices using distributed wave plate model of optical fiber.
Owner:TIANJIN UNIV

Method and Device for Reducing Laser Phase Noise

The present invention relates to a method and device for reducing the phase noise of a laser signal from a laser source. This device comprises a first current generator for supplying a driving current to the laser source in view of producing the laser signal. A phase noise detector is responsive to the laser wavelength for generating a phase error signal and a second current generator is responsive to the phase error signal for generating a compensation current added to the driving current supplied to the laser source for generating a phase-adjusted laser signal. The device therefore defines a phase stabilization loop formed by the phase noise detector and the second current generator, for reducing the phase noise of the laser signal.
Owner:HE QING

Signal processing apparatus, signal transmitting apparatus and receiver

Embodiments of the present disclosure provide a signal processing apparatus, a signal transmitting apparatus and a receiver, which are adapted for a frequency division multiplexing system having a high-order modulation format. A receiver having a high-magnification sampling rate by inserting a pilot signal between neighboring subcarriers at a transmitter side, calculating a laser phase noise according to a phase of the pilot signal at a receiver side, and performing down-sampling and equalization processing after performing carrier phase recovery according to the laser phase noise, so that a laser phase noise having a wide frequency may be accurately compensated, thereby having a relatively powerful carrier phase recovery ability.
Owner:FUJITSU LTD

Light IQ modulator parameter monitoring method and device

The invention discloses a light IQ modulator parameter monitoring method and device and relates to the field of a light IQ modulator. The method comprises the steps of collecting plural signals outputthrough modulation of the light IQ modulator; converting the collected plural signals into a track constellation diagram; and inputting the signal track constellation diagram into a trained deep convolutional neural network, reading a mapping relationship between transmitting end time differences and amplitude ratios, and adjusting light IQ modulator parameters according to the mapping relationship, wherein the mapping relationship is output by the deep convolutional neural network. According to the light IQ modulator parameter monitoring method and device provided by the invention, a zero difference detection mode is employed, a signal light path and a light source path are guaranteed to be equal in length, and further influence resulting from laser phase noises is eliminated, and inconvenience that two lasers are employed in an existing method and the influence resulting from the phase noises needs to be eliminated in a digital signal processing mode is avoided.
Owner:WUHAN POST & TELECOMM RES INST CO LTD

Cascaded compensation method in coherent light OFDM communication system

The invention discloses a cascaded compensation method in a coherent light OFDM communication system. The method comprises the following steps: firstly designing a pilot frequency sub-carrier distribution sachem at a transmitting terminal of a coherent light OFDM communication system; compensating the laser phase noise of the transmitting terminal at a receiving terminal of the coherent light OFDM communication system by use of a phase conjugated pilot frequency assisting method; further estimating the IQ amplitude and a phase imbalance factor of the transmitting terminal at the receiving terminal by use of a frequency domain second-order estimation algorithm; further eliminating the system performance deterioration callused by the IQ mismatching at the transmitting terminal, thereby improving the signal to noise ratio of a receiving signal. By use of the cascade compensation method disclosed by the invention, the influence on the signal demodulation by the laser phase noise in the coherent light OFDM system can be solved, the IQ imbalance factor of the transmitting terminal is estimated and compensated, and the transmission system performance is improved.
Owner:UNIV OF SCI & TECH OF CHINA

Laser amplifier phase noise measurement system

ActiveCN104777376AAvoiding Effects of Phase Noise MeasurementsEasy to implementNoise figure or signal-to-noise ratio measurementBeam splitterPolarizer
A laser amplifier phase noise measurement system which comprises a master oscillator, an optical beam splitter, a phase modulator, a phase modulation signal generator, an optical path adjustment device, an optical path adjustment device controller, a laser amplifier to be measured, laser alignment systems, a high reflectivity mirror, a power receiver, a total reflective mirror, polarization rotators, a polarization beam combiner, polarizers, photoelectric detectors, phase demodulation systems, 3dB electricity beam splitters, pi / 2 phase shifters and a data acquisition module. The phase modulator is connected with the phase modulation signal generator which is used for applying modulating signals with needed frequencies on the phase modulator, and the optical path adjustment device is connected with the optical path adjustment device controller which accurately controls the optical path adjustment device. According to the laser amplifier phase noise measurement system, the influence of factors such as the polarization state and the amplitude ratio of a light beam on the phase noise measurement system can be avoided, and the accurate measurement of laser phase noise can be achieved.
Owner:NAT UNIV OF DEFENSE TECH

Polarization sensitive distributive optical frequency domain reflection disturbance sensor and demodulation method

This invention relates to a distributed disturbance sensing device based on polarization sensitive optical frequency domain reflectometry (OFDR) and the related demodulation thereof. The device, adopting OFDR, polarization controlling and analysis techniques, consists of a ultra-narrow linewidth tunable laser source module, polarization generating and polarization splitting balanced detecting module, laser source optical frequency and phase monitoring module, high-speed optical switch and so on to establish a large-scale and long-distance optical sensing network. The demodulation method consists of analysis the polarization information from sensing optical fiber, the method of suppressing and compensating of the non-linear optical frequency and the laser phase noise, super-resolution analyzing, advanced denoising method and the polarization information analysis method based on Jones and Mueller's matrices using distributed wave plate model of optical fiber.
Owner:TIANJIN UNIV

Optical fiber vibration measuring device and method for improving light source noise

The invention provides an optical fiber vibration measurement device and method for improving light source noise, and relates to the field of optical fiber distributed vibration measurement. In a feed-forward loop of a light source noise suppression feed-forward structure, two paths of mutually orthogonal interference optical signals are obtained based on an optical fiber interferometer and a 90-degree optical mixer, are respectively output to a photoelectric balance detector 1 and a photoelectric balance detector 2 and are converted into two paths of interference electric signals which are output to a tracker. A light source noise suppression feed-forward structure is used for phase noise suppression of continuous light output by a laser, the light source noise suppression feed-forward structure is added to a classical 0-OTDR measuring device, laser phase noise is reduced, and the measurement precision of external vibration signals is further improved.
Owner:珠海任驰光电科技有限公司

subcarrier modulation format identification method and device in an OFDM-EON system

InactiveCN109756436AIdentify intelligenceIdentify fast and stableMulti-frequency code systemsCarrier signalPolarization mode dispersion
The embodiment of the invention provides a subcarrier modulation format identification method and device in an OFDM-EON system. The method comprises the following steps: calculating signal MMS valuesof subcarriers in X polarization and Y polarization of an OFDM-EON system, and calculating an MMS average value corresponding to the subcarriers with the same number in the X polarization and the Y polarization; sorting the various preset modulation formats according to the MMS values of the various preset modulation formats, and taking the average value of the MMS values of any two adjacent preset modulation formats after sorting as a judgment threshold value; and comparing the average value corresponding to each number with each decision threshold, and determining the modulation format of the subcarrier of each number according to a comparison result. According to the embodiment of the invention, the dynamically changing subcarrier modulation format in the OFDM-EON system can be intelligently, rapidly and stably identified, and the method has high tolerance to polarization mode dispersion, laser phase noise and frequency offset.
Owner:LIAOCHENG UNIV

Quantum random number generator based on laser phase noise

A quantum random number generator based on laser phase noise belongs to the technical field of quantum security communication and comprises a laser, a path selection module, an interferometer, a first photoelectric detector, a second photoelectric detector, a data acquisition and processing module, an analog-to-digital converter, a first temperature control module and a phase stabilization module. The interferometer comprises a first beam splitter, an optical fiber delay line and a double-path stable phase reflection module. Compared with the prior art, two paths of optical signals propagating along the long and short arms of the interferometer pass through the same reflecting device by adopting the two paths of stable phase reflection modules, so that the polarization of the two paths of optical signals is kept completely consistent, and the interference stability of the interferometer is further improved; the difference between the electric signals of the two photoelectric detectors is used as a feedback signal for phase compensation of the interferometer, and the sum of the electric signals of the two photoelectric detectors is used as a feedback signal for stable power control of the laser, so that overall stable control is performed on the optical system, and the stability and practicability of the system are further improved.
Owner:北京中科国光量子科技有限公司

A Quantum Random Number Generator Based on Laser Phase Noise

A quantum random number generator based on laser phase noise, belonging to the technical field of quantum security communication, comprising a laser, a path selection module, an interferometer, a first photodetector, a second photodetector, a data acquisition and processing module, a modulus A converter, a first temperature control module and a phase stabilization module, the interferometer includes a first beam splitter, an optical fiber delay line and a dual-channel phase stabilization reflection module. Compared with the prior art, the present invention adopts the dual-channel phase-stabilized reflection module, so that the two-channel optical signals propagating along the long and short arms of the interferometer pass through the same reflection device, so that the polarizations of the two are completely consistent, and the interferometer is improved. The interferometric stability; using the difference between the electrical signals of the two photodetectors as the feedback signal for the phase compensation of the interferometer, and using the sum of the electrical signals of the two photodetectors as the feedback signal for the stable control of the laser power to control the optical system Carry out overall stability control to further improve the stability and practicability of the system.
Owner:北京中科国光量子科技有限公司

Method and device for reducing laser phase noise

The present invention relates to a method and device for reducing the phase noise of a laser signal from a laser source. This device comprises a first current generator for supplying a driving current to the laser source in view of producing the laser signal. A phase noise detector is responsive to the laser wavelength for generating a phase error signal and a second current generator is responsive to the phase error signal for generating a compensation current added to the driving current supplied to the laser source for generating a phase-adjusted laser signal. The device therefore defines a phase stabilization loop formed by the phase noise detector and the second current generator, for reducing the phase noise of the laser signal.
Owner:HE QING

Multi-wavelength laser phase noise elimination and frequency stabilization device and method

InactiveCN113131327AInhibition of lumen length changeSuppresses thermal driftOptical resonator shape and constructionActive medium shape and constructionFrequency stabilizationInjection locked
The invention discloses a multi-wavelength laser phase noise elimination and frequency stabilization device and method. The invention discloses a device for simultaneously realizing high-frequency phase noise suppression of two lasers with different wavelengths and ensuring long-term stability of frequency of the two lasers with different wavelengths. A cavity length stabilizing system stabilizes a tunable Fabry-Perot cavity to a main laser; a first laser frequency stabilizing system locks a first laser to the tunable Fabry-Perot cavity, a second laser frequency stabilizing system locks a second laser to the tunable Fabry-Perot cavity; and first Fabry-Perot cavity transmission light and second Fabry-Perot cavity transmission light are input into an injection locking system so as to be subjected to power amplification. The invention also discloses a method for simultaneously realizing high-frequency phase noise suppression of two lasers with different wavelengths and ensuring long-term stability of the frequency of the two lasers with different wavelengths. By locking the Fabry-Perot cavity to the main laser with extremely small frequency drift, the cavity length change of the Fabry-Perot cavity caused by external environment temperature change and cavity absorption is reduced, and the effect of long-term stability of laser frequency is achieved.
Owner:INNOVATION ACAD FOR PRECISION MEASUREMENT SCI & TECH CAS

A damage adaptive compensation method and system for a digital coherent optical communication system

The invention relates to a self-adaptive damage compensation method and system for a digital-related optical communication system. The self-adaptive damage compensation method includes inserting two pulse modulation pilot frequency signals symmetrically distributed on an input signal frequency fc (fiber channel) at a transmitting terminal; acquiring an input signal power spectrum by the Fourier transform at a receiving terminal, and receiving the pilot frequency signals of a signal power spectrum and subjecting the pilot frequency signals to location and filtering extraction; calculating size of frequency offset of a vibration laser and performing compensation by a pilot frequency; acquiring pilot time domain waveforms by the Fourier transform and calculating a delay delta tau between two pilot light pulses, and calculating size of dispersion by the delta tau and performing the compensation; finally extracting pilot phase noises and subtracting the same from a signal phase so as to eliminate laser phase noises and nonlinear fiber damages. The self-adaptive damage compensation method has the advantages of high accuracy, low complexity, small occupation of bandwidth and fast response speed, so that self-adaptive compensation of various damages can be realized.
Owner:HUAZHONG UNIV OF SCI & TECH

Wide-range frequency sweeping technology for narrow-linewidth laser

The invention relates to a wide-range frequency sweeping technology for narrow-linewidth laser. A closed-loop feedback optical phase-locked laser frequency sweeping method is adopted. According to theclosed-loop feedback light phase-locked laser frequency sweeping method, a frequency sweeping light signal emitted by a DFB-LD passes through an unbalanced Mach-Zehnder optical fiber interferometer to obtain an intermediate frequency beat signal; the intermediate frequency beat signal is compared with the low-phase-noise reference signal with the same frequency to obtain an error signal of laserfrequency sweeping nonlinear and phase noise for feedback control of laser driving current. The closed-loop feedback optical phase-locked laser sweep frequency corrects laser sweep frequency and phasenoise through a closed loop to achieve phase locking of beat frequency signals and reference signals, and thus linear sweep frequency optical signals with the phase noise effectively restrained are obtained. According to the wide-range frequency sweeping technology for the narrow-linewidth laser, the closed-loop feedback light phase-locked laser frequency sweeping method is provided, wide-range frequency sweeping of the narrow-linewidth laser is achieved, frequency sweeping nonlinearity is effectively corrected, the laser linewidth is compressed, laser phase noise is reduced, and the measuring distance, the resolution and the sensitivity of equipment are improved.
Owner:JIANGSU JUNLONG ELECTRIC TECH

A Miniaturized Random Number Generator Based on Laser Phase Noise

The invention provides a laser phase noise-based miniature random number generator. The random number generator comprises a laser device, a coupler, a photoelectric detector, an analog-digital converter and a post-processing module, wherein the laser device generates continuous light or pulse light; the continuous light or the pulse light generates interference at the coupler, and phase noises are converted into an intensity signal; the coupler is connected with the photoelectric detector, and the intensity signal is subjected to photoelectric conversion through the photoelectric detector; the photoelectric detector is connected with the analog-digital converter, and the analog-digital converter performs quantification on an output electric signal of the photoelectric detector to obtain an initial random bit; and the post-processing module performs randomness optimization on the initial random bit to obtain a final random bit. Compared with the prior art, the random number generator has the advantages that an output result is stable, random number generation does not depend on polarization and phase compensation technologies, and the random number generation speed is high.
Owner:NO 30 INST OF CHINA ELECTRONIC TECH GRP CORP

A Phase Noise Estimation Method and Signal Compensation Method for Multicore Optical Fiber

The invention belongs to the field of optical communication, and particularly relates to a phase noise estimation method for a multi-core optical fiber and application of the phase noise estimation method, the estimation method comprises the following steps: calculating variance of laser phase noise based on a laser phase noise model and line width of a laser adopted in a multi-core optical fibercommunication system; based on the variance of the laser phase noise, calculating the variance of the crosstalk phase noise, wherein the variance of the crosstalk phase noise is in direct proportion to the variance of the laser phase noise; based on the crosstalk model of the multi-core optical fiber, constructing a multi-dimensional orthorhombic variance matrix corresponding to the multi-core optical fiber to serve as the variance of the phase noise of the multi-core optical fiber, diagonal elements of the matrix being the variance of the phase noise of the laser, and non-diagonal elements ofthe matrix being the variance of the crosstalk phase noise; and calculating to obtain the phase noise of the multi-core optical fiber based on the multi-dimensional orthorhombic variance matrix. According to the invention, the inter-core crosstalk of the phase noise of different fiber cores in the multi-core optical fiber is considered, the accuracy is high, and an efficient premise is provided for the compensation of the phase noise of the multi-core optical fiber.
Owner:HUAZHONG UNIV OF SCI & TECH

Laser phase noise measurement method and system

PendingCN114459617AObserving Noisy SignalsStrong RF signal amplitudeOptical measurementsNoise (radio)Frequency spectrum
The invention relates to the technical field of laser testing, in particular to a laser phase noise measuring method and system. The system comprises a laser, a delay interference device and a spectrum analyzer, and further comprises a balanced photoelectric detector, the laser is used for generating a laser signal and transmitting the laser signal to the delay interference device, the delay interference device is used for obtaining two paths of phase noise optical signals through interference after receiving the laser signal, and the spectrum analyzer is used for analyzing the phase noise optical signals. The delay interference device transmits the obtained two paths of phase noise optical signals to the balance photoelectric detector, the balance photoelectric detector generates radio frequency signals according to the received two paths of phase noise optical signals and transmits the radio frequency signals to the spectrum analyzer, and the spectrum analyzer displays a measurement result according to the received radio frequency signals. According to the invention, the amplitude of the radio frequency signal output to the spectrum analyzer is very strong, the noise signal of the laser can be clearly observed on the spectrum analyzer, and a more accurate noise measurement result can be obtained.
Owner:SHENZHEN NEOPHOTONICS TECH

Method and device for detecting phase noise of laser of coherent optical module

The invention discloses a coherent optical module laser phase noise detection method and device, and relates to the technical field of optical communication equipment, and the method comprises the following steps: calculating an effective optical fiber length required by a to-be-detected coherent optical module based on a modulation code pattern and a signal baud rate of the to-be-detected coherent optical module; adjusting the optical fiber length to an effective optical fiber length by using an adjustable optical fiber length controller so as to carry out short fiber testing, extracting data detected by an ADC (Analog to Digital Converter) at a receiving end of a DSP (Digital Signal Processor) of the to-be-tested coherent optical module, and calculating equivalent error vector amplitude; and when the difference between the equivalent error vector amplitude and the error vector amplitude threshold is within a preset range, determining that the coherent optical module laser phase noise is qualified. According to the invention, no additional hardware circuit design is needed, and the laser whose phase noise does not meet application requirements can be rapidly screened out.
Owner:FENGHUO COMM SCI & TECH CO LTD
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