SU1141557A1 - Phase modulator - Google Patents

Abstract

A PHASE MODULATOR containing cascaded two tunable selective filters made on oscillatory circuits controlled by varicaps, the modulated signal input being the input of the first tunable selective filter, and one tunable selective filter is band-passable, characterized in that linearity of the modulation characteristic, another tunable selective filter is wavelength notch, and the varicaps of the notch and bandpass filters dissolved. opposite law of capacitance versus modulating signal.

Description

SP

ate

S4 The invention relates to radio engineering and can be used for forming phase-modulated signals in radio engineering devices for various purposes. A linear phase modulator is known that contains resonant circuits in which the varicap capacitance CO is used as a control element. However, this phase modulator has a relatively large non-linearity of the modulation characteristic, since the non-linearity of its modulation characteristic is determined by the non-linearity of the phase-frequency characteristics of the input to their resonant circuits, as well as by the non-linear dependence of the varicap capacitance on the modulating signal. The closest to the proposed is a phase modulator containing two tunable electoral filters cascaded together, implemented on the oscillatory circuits controlled by varicaps, the modulated signal input being the input of the first tunable selective filter, and both tunable selective filters are made of bands , and the varicaps of both bandpass filters have the same nature of capacitance change depending on the modulating signal 211. However, the well-known phase modulator also has a relatively large non-linearity of the modulation characteristic due to the fact that it is due to a greater degree. nonlinear dependence of the varicap capacitance on the modulated signal. At the same time, even harmonics make a significant contribution to the composition of nonlinear distortions of the modulation law, whose presence is associated precisely with this dependence. The purpose of the invention is to increase the linearity of the mod_J7: a digital characteristic. For this, in a phase modulator supporting two tunable selective filters cascaded on oscillatory j-controlled oscillators japped together, and the input of the modulated signal is the input of the first tunable selective filter, and one tunable selective filter is made of a bandpass; another tunable selective filter is notch-filled, and varicaps of a notch and band-pass filters are against The positive law of capacitance versus modulating signal. The drawing shows a structural electrical circuit of the proposed phase modulator. The phase modulator contains a notch filter 1, a band-pass filter 2, a source 3 of a modulated signal, a source 4 of a modulating signal. In this case, the rejection filter 1 consists of a series oscillatory circuit from inductor 5, capacitor 6, varicap 7, as well as resistors 8 and 9. Band filter 2 consists of a parallel oscillating circuit from inductor 10, capacitor 11, varicap 12, and also resistors 13 and 14. In addition, the phase modulator contains circuits from capacitor 15 and resistor 16, as well as capacitor 17 and resistor 18, extending the modulated and modulating signal circuits, and opening resistors 19 and 20 for supply to varicaps 7 and 12 with Respectively, the positive and negative bias from the sources are bias 21 and 22. The phase modulator operates as follows. The modulated signal from the source 3 of the modulated signal enters the input of the notch filter 1, the passage through which receives the phase error ЧЧ, and the passage further through the band-pass filter 2, receives phase increments йCH with the same sign as S, because, although the phase-frequency characteristics of the notch 1 and band 2 filters have opposite signs, but the modulating signal from the source 4 of the modulating signal is applied to varicaps 7 and 12 in antiphase, changing their capacitance and thereby shifting the notch resonant frequencies 1 and 2 bandpass filters in opposite directions. The output signal of the phase modulator has, with respect to the input, the resulting phase increment of 4V -LCH, "The resulting module 311415574

Thus, the resulting characteristic

linearity is formed as the summacon of the phase modulation of the output

module 1 of the characteristics of the notch signal proposed phase module

Tioro 1 and band-pass 2 filters do not contain even harmonics, after compensating for them. non-linearity of each other is significantly increased by the linearity of the modulation characteristics.

Claims (1)

A PHASE MODULATOR comprising cascade-connected two tunable selective filters made on oscillatory circuits controlled by varicaps, the input of the modulated signal being the input of the first tunable selective filter, and one tunable selective filter made by a band-pass filter, such that In order to increase the linearity of the modulation characteristic, another tunable selective filter is made notch, and the varicaps of the notch and bandpass filters have. the opposite law is the change in capacitance depending on the modulating signal. 1141557 '