RU194138U1 - Radio-photon device for the formation of ultra-wideband microwave signals - Google Patents

Abstract

The invention relates to the field of computer technology. The technical result consists in providing the generation of various types of complex ultra-wideband microwave signals in a single shaping device. A radio photon device for generating ultra-wideband microwave signals containing an arbitrary waveform generator, characterized in that it contains a Mach-Zehnder electro-optical modulator, the optical input of which is connected to a single-frequency laser with a fiber-optic radiation output, and the optical output is connected using a length of a standard single-mode optical fiber with a powerful high-speed photodiode with fiber-optic radiation input, the electrical output of which is connected to a microwave bandpass filter, cue input of the electrooptical modulator of the Mach-Zehnder interferometer is electrically connected to the microwave adder summing signals electrically associated microwave oscillator reference frequency and arbitrary waveform generator so that the amplitude of each of signals comprise values equal or multiple of the half-wave voltage of the electrooptical modulator of the Mach-Zehnder interferometer. 1 ill.

Description

The utility model relates to the field of microwave technology and can be used, in particular, to create generators of various types of ultra-wideband microwave signals for ultra-wideband radar systems.

Known shaper ultra-wideband microwave signal with linear frequency modulation, containing a laser with fiber-optic output, electro-optical modulator, a piece of optical fiber, a photodiode with fiber-optic input, an arbitrary waveform generator [1]. Using an arbitrary waveform generator connected to the electrical input of the electro-optical modulator, it is possible to obtain an ultra-wideband microwave signal with linear frequency modulation. To tune the instantaneous frequency in time in the proposed shaper, a signal with a quadratic dependence of the amplitude on time is supplied to the input of the electrical input of the electro-optical modulator. However, this forming device does not allow the formation of other types of complex ultra-wideband microwave signals, except for ultra-wideband microwave signals with linear frequency modulation.

When using optoelectronic methods for the formation of complex ultra-wideband microwave signals, a large value of the compression coefficient of the autocorrelation function is provided either due to the large value of the time-frequency base for the generated microwave signals with linear frequency modulation, or because of the long duration of the code sequence of microwave signals with phase-code modulation. However, when using an arbitrary waveform generator connected to the electrical input of an electro-optical modulator, it is not possible to generate microwave signals with phase-code modulation in the microwave range.

The technical task of the utility model is to ensure the generation of various types of complex ultra-wideband microwave signals in one generation device: signals with frequency modulation and a large frequency-time base, as well as signals with complex phase-code modulation formats.

The technical problem is solved in that the radio photon device for generating ultra-wideband microwave signals, containing an arbitrary waveform generator, contains a Mach-Zehnder electro-optical modulator, the optical input of which is connected to a single-frequency laser with a fiber-optic radiation output, and the optical output is connected using a segment of a standard single-mode optical fibers with a powerful high-speed photodiode with fiber-optic radiation input, the electrical output of which is connected to a microwave bandpass filter rum, the electrical input of the Mach-Zehnder electro-optical modulator is electrically connected to a microwave adder that sums the signals of the microwave frequency generator of the reference frequency and the arbitrary waveform generator electrically connected in such a way that the amplitudes of each of the signals are equal to or a multiple of the half-wave voltage of the Mach- Zender

The combination of these features leads to the possibility of generating signals with frequency modulation, both linear and non-linear, and a large frequency-time base, as well as signals with complex phase-code modulation formats due to the fact that the frequency response of the Mach-Zehnder electro-optical modulator is non-linear in amplitude and linear in phase, therefore, on the one hand, when applying to the microwave input the sum of the harmonic microwave signal and a rectangular pulse signal from an arbitrary waveform generator with amplitudes equal to ± kV _π, where V _π - half-wave voltage of the electrooptical modulator of the Mach-Zehnder interferometer, k - is an integer, because adjustment of the modulator between the quadrature points has a net phase modulation harmonic microwave signal, which enables control via durations the modulating pulses implement complex phase-code modulation formats; on the other hand, when a sum of a harmonic microwave signal and some high-frequency signal are fed to the microwave input due to the nonlinearity of the Mach-Zehnder electro-optical modulator, a sum of microwave signals is formed with frequencies equal to the sums and differences of the frequency of the master oscillator and its harmonics with a frequency whose value, in in turn, it is determined by the derivative of the applied high-frequency signal, and at the output, using the band-pass microwave filter, the generated signal is selected near the desired center frequency. In the latter case, when choosing a high-frequency signal in the form of a parabola, the sum of signals with linear-frequency modulation is formed at the output.

The essence of the utility model is illustrated by the figure, which shows a block diagram of a radio photon device for the formation of ultra-wideband microwave signals, where:

1 - single-frequency laser with fiber optic output radiation;

2 - electro-optical Mach-Zehnder modulator;

3 - a segment of a standard single-mode optical fiber;

4 - a powerful high-speed photodiode with fiber-optic radiation input;

5 - bandpass microwave filter;

6 - microwave frequency reference generator;

7 - microwave adder;

8 - arbitrary waveform generator.

The radio photon device for generating ultra-wideband microwave signals contains a single-frequency laser with fiber optic output 1 connected to the optical input of the Mach-Zehnder electro-optical modulator 2, the optical output of which is connected using a segment of a standard single-mode optical fiber 3 with a high-power high-speed photodiode with fiber-optic radiation input 4, whose electrical output is connected to a microwave bandpass filter 5. To the electrical input of the Mach-Zehnder electro-optical modulator 2 through HF adder 7 is fed the sum of the reference oscillator of the microwave signal 6 and the arbitrary waveform generator 8 so that the amplitude of each of signals comprise values equal to or multiples of the half-wave voltage of the electrooptical modulator of the Mach-Zender interferometer.

A radio photon device for generating ultra-wideband microwave signals operates as follows. A single-frequency laser with fiber-optic output 1 generates an optical carrier, which, using the Mach-Zehnder electro-optical modulator 2, is modulated in intensity by the sum of the signals of the microwave generator of the reference frequency 6 and the signal generator of arbitrary shape 8 obtained in the microwave adder 7; As a result of nonlinear signal conversion, an optical signal modulated in intensity is generated in the Mach-Zehnder 2 electro-optical modulator 2, which propagates in a segment of a standard single-mode optical fiber 3, at the output of which an inverse optoelectronic conversion occurs in a high-power high-speed photodiode with optical fiber input 4. Frequency selection of harmonics of the formed complex ultra-wideband microwave signal is carried out using a microwave bandpass filter 5 connected to the electrical output of a high-power high-speed photodiode with fiber-optic radiation input 4.

An example of a specific implementation of a radio photon device for generating ultra-wideband microwave signals, providing the generation of signals with linear frequency modulation, a center frequency of 20 GHz, a frequency band of 10 GHz and a frequency-time base of 10 ⁴ , as well as the generation of signals with a frequency of 20 GHz for 1 μs with a phase code modulation with a code sequence length of 10 ⁴ . As a single-frequency laser with a fiber optic output 1, an InGaAsP / InP injection laser diode with distributed feedback and a polarization preserving optical fiber that generates 30 mW optical radiation at a wavelength of 1550 nm and a relative noise intensity of -160 dB / Hz is used . As an electro-optical Mach-Zehnder 2 modulator, LiNbO _{3 is} used; a Mach-Zehnder electro-optical modulator with a half-wave voltage of 5 V at a modulation frequency of 20 GHz, an optical loss of 4 dB and a contrast ratio of 30 dB. As a section of a standard single-mode optical fiber 3, a standard single-mode quartz fiber optic cable with optical connectors is used. A high-speed InGaAs / InP pin is used as a powerful high-speed photodiode with fiber-optic input 4 radiation, a powerful photodiode module with fiber-optic input, which has a current sensitivity of 0.6 A / W, a limiting frequency of 30 GHz and a load resistance of 50 Ohms. As a microwave bandpass filter 5, a filter based on microstrip transmission lines having a passband of 10 GHz and a center frequency of 20 GHz is used. As a microwave adder 7, a directional symmetric Wilkinson microwave divider based on microstrip transmission lines with an insertion loss factor of 4 dB is used. As the microwave generator of the reference frequency 6, a quartz oscillator with frequency multiplication with an output power of 10 mW at a frequency of 20 GHz is used. An arbitrary waveform generator with a working frequency band of 5 GHz and an output power of 10 mW is used as an arbitrary waveform generator 8.

Information sources:

[1] Zhang, Yamei. Photonic generation of linear-frequency-modulated waveforms with improved time-bandwidth product based on polarization modulation / Y. Zhang [et al.] // J. of Lightw. technol. - 2017. - Vol. 35, No. 10. - P. 1821-1829.

Claims (1)

A radio photon device for generating ultra-wideband microwave signals containing an arbitrary waveform generator, characterized in that it contains a Mach-Zehnder electro-optical modulator, the optical input of which is connected to a single-frequency laser with a fiber-optic radiation output, and the optical output is connected using a length of a standard single-mode optical fiber with a powerful high-speed photodiode with fiber-optic radiation input, the electrical output of which is connected to a microwave bandpass filter, cue input of the electrooptical modulator of the Mach-Zehnder interferometer is electrically connected to the microwave adder summing signals electrically associated microwave oscillator reference frequency and arbitrary waveform generator so that the amplitude of each of signals comprise values equal or multiple of the half-wave voltage of the electrooptical modulator of the Mach-Zehnder interferometer.

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