RU2011144987A

RU2011144987A - METHOD FOR AMPLITUDE-PHASE MODULATION OF A HIGH-FREQUENCY SIGNAL AND DEVICE FOR ITS IMPLEMENTATION

Info

Publication number: RU2011144987A
Application number: RU2011144987/08A
Authority: RU
Inventors: Александр Афанасьевич Головков; Владимир Александрович Головков; Вячеслав Иванович Янов
Filing date: 2011-11-07
Publication date: 2013-05-20

Claims

1. The method of amplitude-phase modulation of a high-frequency signal, consisting in the fact that a high-frequency signal is supplied to a modulator made of a four-terminal device, a controlled non-linear element, a source of a control low-frequency signal and load, the amplitude and phase of the high-frequency signal are changed by changing the amplitude of the control low-frequency signal on a non-linear an element characterized in that the four-terminal device is resistive, a three-electrode non-linear element is used as a non-linear element, which includes between the output of the high-frequency signal source and the four-terminal input according to a circuit with a common one of the three electrodes, the high-frequency load is connected to the four-terminal output, the given dependences of the ratio of the modules and the phase difference of the transfer function of the modulator in two states, determined by two levels of the control low-frequency signal, on the frequency and given dependences of the module and phase of the transfer function of the modulator on the amplitude of the control low-frequency signal, varying from one ur The ram of the control low-frequency signal to another, in a given frequency band, is provided by selecting the frequency characteristics of the imaginary components of the load resistances x _n and the source of the high-frequency signal x ₀ using the following mathematical expressions:

;

,

Where

;

,

- the given relations of the elements of the classical transmission matrix a , b, c, d of the resistive four-terminal network; m, φ are the given dependences of the ratio of the modules and the phase difference of the transfer function on the frequency in two states of the controlled nonlinear element, determined by two levels of the control low-frequency signal, on the frequency in a given frequency band;

,

- the given dependences of the real and imaginary components of the corresponding elements of the conductivity matrix of a three-electrode nonlinear element in two states, determined by two levels of the control low-frequency signal, on frequency; r ₀ , r _n are the given dependences of the actual components of the resistances of the source of the high-frequency signal and the load from the frequency.

2. The device for amplitude-phase modulation of a high-frequency signal, consisting of a linear four-terminal, non-linear element, a source of a control low-frequency signal and load, characterized in that the four-terminal is made in the form of an overlapped T-shaped connection of four resistive two-terminal, a three-electrode non-linear element is used as a non-linear element which is connected between the output of the high-frequency signal source and the input of the four-terminal network according to a circuit with a common one of the three electrodes dy quadripole connected high-load, and imaginary components x _n load resistors and the source RF signal x ₀ realized reactive two-terminal networks in the form of parallel connected two serial resonant circuits, parameters whose values L _{_1k,} C _1k and L _{_2k,} C _2k are selected using the following mathematical expressions:

;

,

Where:

;

and x = ₁ ₂ ₄ ω - and ω ₂ ₁ _3; γ = (a ₁ d ₂ + b ₁ c ₂₎ ω ₄ - (a ₂ d ₁ + b ₂ c ₁₎ ω _3; z = b ₁ d ₂ ω ₄ -b ₂ d ₁ ω ₃ ;

;

_;

;

,

Where

;

- given relations of elements of the classical transmission matrix

;

resistive four-terminal, equal at four given frequencies ω _n = 2πf _n ; n = 1, 2, 3, 4 - frequency number; r ₁ , r ₂ , r ₃ , r ₄ - the set values of the resistances of the resistive bipoles of the closed T-shaped connection; m _n , φ _n are the specified values of the ratios of the modules and the phase differences of the transfer function at four given frequencies in a given frequency band;

,

- the set values of the real and imaginary components of the corresponding elements of the conductivity matrix of a three-electrode nonlinear element in two states, determined by two levels of the control low-frequency signal, at four given frequencies in a given frequency band; r _0n , r _nn - set values of the actual components of the resistance of the source of the high-frequency signal and load at four specified frequencies; k = 0, n is the index characterizing the real and imaginary components of the resistances of the source of the high-frequency signal and load; x _kn are the optimal values of the imaginary components of the resistances of the source of the high-frequency signal and the load at four given frequencies.