RU2760745C1 - Method for transmitting an analog high-frequency signal over a fiber-optic communication line - Google Patents

Abstract

FIELD: signal transmission.

SUBSTANCE: invention relates to the field of signal transmission and can be used to transmit an analog signal over optical fiber. A method for transmitting an analog high-frequency signal via a fiber-optic communication line, in which an analog high-frequency transmitted signal is supplied to an optical transmitter, this signal is modulated to modulate an optical signal of a laser diode, the generated optical signal is fed through an optical isolator to an optical fiber, the optical signal is fed to a photodiode, in which is converted into an electrical signal, it is amplified and fed to the output of the fiber-optic communication line, the temperature of the laser diode body is stabilized using a Peltier element, the dependence of the signal-to-noise ratio of the high-frequency signal at the output of the fiber-optic communication line on the input signal power is measured, the power of the analog high-frequency signal is recorded, automatic adjustment of the power of the analog high-frequency signal supplied to the laser diode, and stabilization of the bias current of the laser diode in accordance with the previously recorded values.

EFFECT: increase in the dynamic range of the transmitted signal.

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Description

The invention relates to signal transmission lines and can be used to transmit an analog signal.

A known method of signal transmission over a fiber-optic communication line (FOCL) [1-fig. 1.2, p. 16, Gower J. Optical communication systems. M .: Radio and communication. 1989. - 504 p.], In which a transmitted high-frequency signal is supplied to an optical transmitter, where this signal is modulated by means of an optical modulator a continuous optical signal, which is supplied from an optical radiation source, the generated optical signal is transmitted through an optical fiber to an optical receiver, in which it goes to a photodiode, in which it is converted into an electrical signal, then it is demodulated in a demodulator.

The disadvantage of this method is the complexity of the implementation of the optical transmitter and its significant overall dimensions, since it uses a separate optical modulator.

A known method of transmitting an analog signal over fiber-optic lines [2 - Fig. 6.4, p. 175, Urik W.J., McKinney D.D., Williams C.J. Basics of microwave photonics. M .: Technosphere. 2016. - 376 p.], In which a continuous optical signal is generated using a laser, this signal is modulated in intensity with a transmitted analog signal using a Mach-Zehnder modulator, the generated optical signal is transmitted through an optical fiber to a photodiode, with the help of which the optical signal is converted into electric.

The disadvantage of this method is the complexity of the implementation of the optical transmitter and its significant overall dimensions, since it uses a separate optical modulator.

The closest in technical essence to the proposed method is a method of transmitting a high-frequency analog signal via fiber-optic communication lines [3 - pp. 67-68, Sklyarov O.K. Modern fiber-optic transmission systems, equipment and elements. M .: SOLON-R. 2001. - 237 S.], taken as a prototype, in which a transmitted analog high-frequency signal is fed to an optical transmitter, where this signal modulates the signal power of a laser diode, the generated optical signal is fed through an optical isolator to an optical fiber, the output of which is connected to the input of an optical receiver , in which the optical signal is fed to the photodiode, in which it is converted into an electrical signal, then it is demodulated in a frequency demodulator. Temperature stabilization of the laser diode body is provided using a Peltier element.

The disadvantages of the prototype include:

- lack of adjustment of the level of the transmitted high-frequency signal supplied to the laser diode. Taking into account that the level of the modulating signal strongly affects the noise level of the formed optical signal, it is necessary to adjust the level of the analogue transmitted signal;

- no stabilization of the direct current of the laser diode bias. Taking into account that the bias current of the laser diode strongly affects the noise level of the formed optical signal and can change during operation, it must be stabilized and maintained within the specified limits.

The technical problem to be solved by the proposed method is to reduce the noise level of the fiber-optic communication line during operation.

To solve this technical problem, a method is proposed for transmitting an analog high-frequency signal over a fiber-optic link, in which an analog high-frequency transmitted signal is supplied to an optical transmitter, the power of an optical signal of a laser diode is modulated with this signal, the generated optical signal is fed through an optical isolator to an optical fiber, the output of an optical fiber is connected to the input of the optical receiver, where the optical signal is fed to the photodiode, in which it is converted into an electrical signal, then it is amplified and fed to the output of the fiber-optic communication line, while the temperature of the laser diode body is stabilized using a Peltier element.

According to the invention, the dependence of the signal-to-noise ratio of the high-frequency signal at the output of the fiber-optic communication line on the power of the input analog high-frequency signal supplied to the laser diode is measured at different values of the direct bias current of the laser diode, the power of the analog high-frequency signal and the value of the bias current are recorded, at which the maximum value of the signal-to-noise ratio at the output of the fiber-optic communication line is reached, the power of the analog high-frequency signal supplied to the laser diode is automatically adjusted and the bias current of the laser diode is stabilized in accordance with the previously recorded values.

The technical result of the proposed method is to increase the dynamic range of the transmitted signal.

A comparative analysis of the claimed method and the prototype shows that their difference is as follows:

- in the prototype there is no adjustment of the level of the high-frequency signal supplied to the laser diode. At the same time, the level of the modulating signal strongly affects the level of phase noise of the formed optical signal. For a given modulation characteristic of the laser diode, a shift of the operating point upward when an excessively high level of the modulating signal arrives, or downward when a too low level of the modulating high-frequency signal arrives, causes an increase in the phase noise of the formed optical signal and a corresponding decrease in the dynamic range of the fiber-optic link. The proposed method uses automatic adjustment of the input signal level to maintain a level that provides minimal phase noise of the generated optical signal for the laser diode used;

- in the prototype there is no stabilization of the bias current of the laser diode, while in the proposed method it is performed.

The combination of distinctive features and properties of the proposed method of signal transmission over a fiber-optic communication line is not known from the literature, therefore it meets the criteria of novelty and inventive step.

The drawing shows a block diagram of a device that implements the proposed method.

When implementing the proposed method, the following sequence of actions is performed:

- an analog high-frequency transmitted signal is supplied to the optical transmitter, the power of the optical signal of the laser diode is modulated with this signal, the generated optical signal is fed through the optical isolator to the optical fiber - 1,

- connect the output of the optical fiber to the input of the optical receiver, where the optical signal enters the photodiode, in which it is converted into an electrical signal, then it is amplified and fed to the output of the fiber-optic communication line - 2,

- stabilize the temperature of the laser diode body using the Peltier-3 element,

- measuring the dependence of the signal-to-noise ratio of the high-frequency signal at the output of the fiber-optic communication line on the power of the input analog high-frequency signal supplied to the laser diode at different values of the DC bias current of the laser diode, fixing the power of the analog high-frequency signal and the value of the bias current at which the maximum the value of the signal-to-noise ratio at the output of the fiber-optic communication line - 4,

- perform automatic adjustment of the power of the analog high-frequency signal supplied to the laser diode and stabilize the bias current of the laser diode in accordance with the previously recorded values - 5.

The implementation of the proposed method for transmitting analog signals over a fiber-optic communication line is possible, for example, using a device that includes (Fig.) A series-connected optical transmitter (OPRD) 1, an optical fiber (OB) 2 and an optical receiver (OPRM) 3.

RPD 1 includes: series-connected attenuator (ATT) 4, the input of which is the input of the RPD 1, and the control input is connected to the output of the microcontroller (MC) 5, the first amplifier (U) 6, laser diode (LD) 7 and the first optical isolator (OI) 8, the output of which is the output of RPD 1.

The output of the first power supply (PS) 9 is connected to the bias input of the LD 7. The output of the first U 6 is connected to a series-connected detector (D) 10 and an analog-to-digital converter (ADC) 11, the output of which is connected to the input of the microcontroller 5.

RPD 1 also contains a Peltier element (EP) 12, structurally connected to LD 7.

OPRM 3 contains a series-connected second OI 13, the input of which is the input of OPRM 3, a photodiode (PD) 14, a second U 15 and a filter (F) 16, the output of which is the output of OPRM 3. The output of the second PS 17 is connected to the bias input of PD 14.

The device in the drawing works as follows.

The dependence of the signal-to-noise ratio of the signal at the FOCL output on the power of the high-frequency analog signal supplied to the laser diode 7 is measured at different values of the DC bias current of the laser diode 7, the power of the analog high-frequency signal Po and the bias current value Io are recorded, at which the maximum value of the ratio signal-to-noise at the FOCL output. Under these conditions, the phase noise of the formed optical signal at the output of the used laser diode 7 has a minimum level.

To maintain a minimum level of phase noise during operation, the power of the analog high-frequency signal supplied to LD 7 is automatically adjusted.

An analog high-frequency signal applied to the input of the GPRD 1 is detected using the detector D 10, its power is measured using the ADC 11, the resulting code is fed to the input of MK 5, where it is compared with the previously recorded power value Po. By adjusting the transmission coefficient of the attenuator 4, the power of the signal supplied to the LD 7 is automatically adjusted, equal to the previously recorded value of Po.

The direct bias current supplied from the first PS 9 to LD 7 is stabilized in accordance with the previously recorded value of Io.

The proposed method, by setting the optimal values of the power Po and current Io, provides the maximum signal-to-noise value at the output of the fiber-optic link, regardless of the level of the high-frequency signal supplied to the input of the fiber-optic link. Under these conditions, the phase noise of the formed optical signal at the output of the used laser diode has a minimum level.

At the same time, in the prototype, the input signal level is not regulated, therefore, significant fluctuations in the output signal-to-noise ratio are possible, for example, with fluctuations in the external temperature.

To test the proposed method, a mock-up was made, the tests of which showed the coincidence of the obtained characteristics with the calculated ones.

Claims (1)

A method for transmitting an analog high-frequency signal over a fiber-optic communication line, in which an analog high-frequency transmitted signal is supplied to an optical transmitter, the power of an optical signal of a laser diode is modulated with this signal, the generated optical signal is supplied through an optical isolator to an optical fiber, the output of an optical fiber is connected to an optical input receiver, where the optical signal enters the photodiode, in which it is converted into an electrical signal, then it is amplified and fed to the output of the fiber-optic communication line, while the temperature of the laser diode body is stabilized using a Peltier element, characterized in that the dependence of the signal ratio - the noise of the high-frequency signal at the output of the fiber-optic communication line from the power of the input analog high-frequency signal supplied to the laser diode at different values of the DC bias current of the laser diode, the power of the analog high-frequency signal is recorded signal and the bias current value at which the maximum signal-to-noise ratio at the output of the fiber-optic communication line is reached, the power of the analog high-frequency signal supplied to the laser diode is automatically adjusted and the bias current of the laser diode is stabilized in accordance with the previously recorded values.

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