RU2010115140A - METHOD FOR GENERATING HIGH FREQUENCY SIGNALS AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Abstract

 1. A method of generating high-frequency signals, based on the conversion of the energy of a constant voltage source into the energy of a high-frequency signal, organizing internal feedback in a non-linear element by using a bipolar non-linear element with negative differential resistance as it, fulfilling the excitation conditions in the form of amplitude balance and phase balance, determining respectively the amplitude and frequency of the generated high-frequency signal, and the matching conditions of the nonlinear element and with a load using a reactive four-terminal network, characterized in that the excitation conditions in the form of a balance of amplitudes and phase balance are simultaneously satisfied at a given number of frequencies due to the interaction of a high-frequency signal with a radio circuit in the form of a two-pole nonlinear element with negative differential resistance connected between the four-terminal and the load in a transverse circuit connected to the input of the four-terminal of an additional two-terminal and selecting the frequency characteristics of the four-pole from the condition of providing a stationary generation mode in the form of equal to zero the denominator of the transmission coefficient simultaneously at all given frequencies of the generated high-frequency signals with a constant amplitude of the constant voltage source in accordance with the following mathematical expressions:! ! where; ; ; ; ! x11, x21 are the optimal frequency dependences of the corresponding elements of the resistance matrix of the four-terminal network; x22 is a given frequency dependence of the corresponding element of the four-pole resistance matrix

Claims (2)

1. A method of generating high-frequency signals, based on the conversion of the energy of a constant voltage source into the energy of a high-frequency signal, organizing internal feedback in a non-linear element by using a bipolar non-linear element with negative differential resistance as it, fulfilling the excitation conditions in the form of amplitude balance and phase balance, determining respectively the amplitude and frequency of the generated high-frequency signal, and the matching conditions of the nonlinear element and with a load using a reactive four-terminal network, characterized in that the excitation conditions in the form of a balance of amplitudes and phase balance are simultaneously satisfied at a given number of frequencies due to the interaction of a high-frequency signal with a radio circuit in the form of a two-pole nonlinear element with negative differential resistance connected between the four-terminal and the load in a transverse circuit connected to the input of the four-terminal of an additional two-terminal and selecting the frequency characteristics of the four-pole from the condition of providing a stationary generation mode in the form of equal to zero the denominator of the transmission coefficient simultaneously at all given frequencies of the generated high-frequency signals with a constant amplitude of the constant voltage source in accordance with the following mathematical expressions:

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; x ₁₁ , x ₂₁ are the optimal frequency dependences of the corresponding elements of the resistance matrix of the four-terminal network; x ₂₂ - a given frequency dependence of the corresponding element of the resistance matrix of a four-terminal network; r ₀ , x ₀ are the given frequency dependences of the real and imaginary components of the resistance of the additional two-terminal device; r _n , x _n - given frequency dependencies of the real and imaginary components of the load resistance; g, b are given dependences of the real and imaginary components of the conductivity of a bipolar nonlinear element on the frequency of the carrier signal at a constant amplitude of the low-frequency control signal. 2. A device for generating high-frequency signals, consisting of a constant voltage source, a bipolar nonlinear element with negative differential resistance, a reactive four-terminal device and a load, characterized in that an additional two-terminal device is connected to the input of the reactive four-terminal device, a two-pole nonlinear element is connected between the output of the four-terminal device and the load in the transverse circuit the reactive four-terminal is made in the form of a U-shaped connection of three two-terminal, the first and third vuhpolyusniki designed as two parallel-connected circuits of consecutive elements with parameters _{L 1k, C 1k, L 2k} , C 2k, the values of which are defined in accordance with the following mathematical expression:

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; r _0n , x _0n are the given values of the real and imaginary components of the resistance of the additional two-terminal network at the given four frequencies ω _n = 2πf _n ; n = 1, 2, 3, 4 - frequency number; r _nn , x _nn - set values of the real and imaginary components of the load resistance at the given four frequencies; g _n , b _n - given values of the real and imaginary components of the conductivity of a bipolar nonlinear element at given four frequencies at a given amplitude of the constant voltage; k = 1, 3 is the number of the two-terminal U-shaped connection; x _2n - the specified resistance values of the second two-terminal U-shaped connection at the specified four frequencies.