RU2007110468A - DEVICES FOR DEMODULATION OF PHASE-MODULATED RADIO FREQUENCY SIGNALS - Google Patents

Claims (10)

1. A device for demodulating phase-modulated signals connected between a source of phase-modulated signals and a low-frequency load and consisting of a converter of phase-modulated signals into an amplitude-phase-modulated signal, a non-linear element, a four-terminal, a low-pass filter, characterized in that a two-pole element, a phase-modulated converter is used as a non-linear element signals in the amplitude-phase-modulated signal is made in the form of this nonlinear element, the type of which is selected In such a way that the left or right slopes of the conductivity versus frequency coincided with the frequency of the carrier oscillation of the phase-modulated signals, the nonlinear element is connected between the four-terminal and the high-frequency load introduced into the transverse circuit, when choosing the left slope of this dependence, the differentiating circuit is used as choosing the right slope - an integrating circuit, the four-terminal network is made up of resistive two-terminal networks, at least two, whose parameter values are are selected from the conditions for ensuring the required depth of amplitude modulation of the amplitude-phase-modulated signal by using the following mathematical expressions:

;

; Where

;

;

; a, b, c, d - elements of the classical quadrupole transmission matrix;

;

;

;

;

;

;

;

;

;

;

;

;

, for m> 1 or

, for m <1; y _1,2 = g _1,2 + jb _1,2 - given conductivity of a nonlinear bipolar element in two states (1 and 2), determined by the two extreme frequency values of the input phase-modulated signal; m is the specified ratio of the transmission coefficient modules of the high-frequency part of the demodulator in two states of the input signal, characterized by two extreme frequency values of the phase-modulated signal; φ is the known phase difference of the input signal in its two states, characterized by two extreme frequency values of the phase-modulated signal; M ₂₁ - the depth of the amplitude modulation of the amplitude-phase modulated signal;

,

- the given complex resistances of the high-frequency load and the phase-modulated signal source in its two states. 2. The device for demodulating phase-modulated signals according to claim 1, characterized in that the resistive four-terminal is made in the form of a L-shaped connection of two resistive two-terminal, resistive r ₁ , r _{2 of the} two-terminal components making up the L-shaped connection are selected using the following mathematical expressions:

;

; Where

; D ₁ , D ₂ , E, F and the remaining notation have the same meaning as in claim 1. 3. The device for demodulating phase-modulated signals according to claim 1, characterized in that the resistive four-terminal is made in the form of a symmetrical overlapped T-shaped connection of four resistive two-terminal, resistive r ₁ , r ₂ , r ₃ = r ₁ , r ₄ two-terminal components T-joints selected using the following mathematical expressions:

;

, Where

; D ₁ , D ₂ , E, F and the rest of the notation have the same meaning as in claim 1; the resistance value r ₂ is selected from the condition of ensuring the physical realizability of the resistance r ₁ , r ₄ . 4. The device demodulation phase-modulated signals according to claim 1, characterized in that the resistive four-terminal is made in the form

-shaped connection of two resistive bipolar, resistive r ₁ , r ₂ bipolar components

-shaped connection, selected using the following mathematical expressions:

;

, Where

; D ₁ , D ₂ , E, F and the rest of the notation have the same meaning as in claim 1. 5. The device for demodulating phase-modulated signals according to claim 1, characterized in that the resistive four-terminal is made in the form of a symmetrical T-shaped connection of three resistive two-terminal, resistive r ₁ , r ₂ , r ₃ = r ₁ two-terminal, making up a symmetrical T-shaped connection are selected using the following mathematical expressions:

;

; Where

; D ₁ , D ₂ , E, F and the rest of the notation have the same meaning as in claim 1. 6. The device for demodulating phase-modulated signals according to claim 1, characterized in that the resistive four-terminal is made in the form of an asymmetric T-shaped connection of three resistive two-terminal, resistive r ₁ , r _{2 of} two-terminal, making up an asymmetric T-shaped connection, are selected using the following mathematical expressions:

;

, Where

; D ₁ , D ₂ , E, F and the rest of the notation have the same meaning as in claim 1; the value of resistance r ₃ is selected from the conditions for ensuring the physical feasibility of resistance r ₁ , r ₂ . 7. The device for demodulating phase-modulated signals according to claim 1, characterized in that the resistive four-terminal is made in the form of an asymmetric T-shaped connection of three resistive two-terminal, resistive r ₁ , r ₃ two-terminal, making up an asymmetric T-shaped connection, are selected using the following mathematical expressions:

;

, Where

; D ₁ , D ₂ , E, F and the rest of the notation have the same meaning as in claim 1; the value of resistance r ₂ is selected from the conditions for ensuring the physical feasibility of resistance r ₁ , r ₃ . 8. The device for demodulating phase-modulated signals according to claim 1, characterized in that the resistive four-terminal is made in the form of an asymmetric T-shaped connection of three resistive two-terminal, resistive r ₂ , r ₃ two-terminal, making up an asymmetric T-shaped connection, are selected using the following mathematical expressions:

;

, Where

; D ₁ , D ₂ , E, F and the rest of the notation have the same meaning as in claim 1; the resistance value r ₁ is selected from the condition of ensuring the physical realizability of the resistance r ₂ , r ₃ . 9. The device for demodulating phase-modulated signals according to claim 1, characterized in that the resistive four-terminal is made in the form of a bridge circuit for connecting four resistive two-terminal, resistive r ₁ , r ₂ , r ₃ = r ₁ , r ₄ = r ₂ two-terminal components of the bridge compound selected using the following mathematical expressions:

;

, Where

; D ₁ , D ₂ , E, F and the remaining notation have the same meaning as in claim 1. 10. The device for demodulating phase-modulated signals according to claim 1, characterized in that the resistive four-terminal is made in the form of a symmetrical U-shaped connection of three resistive two-terminal, resistive r ₁ , r ₂ , r ₃ = r ₁ two-terminal, making up a symmetrical U-shaped connection are selected using the following mathematical expressions:

;

Where

; D ₁ , D ₂ , E, F and the rest of the notation have the same meaning as in claim 1.