SU836800A1 - Device for adaptive compensating for external noise - Google Patents

Description

(54) DEVICE FOR ADAPTIVE COMPENSATION OF EXTERNAL INTERFERENCE

Claims (1)

The invention relates to multi-channel communication over cable lines and is intended to compensate for external interference induced on a communication line by broadcasting radio stations in linear paths of multi-channel communication systems; A device for adaptive compensation of external interference is known, which contains a block of interference, which is connected through a series-connected phase shifter and amplitude correction unit to a group path of the communication line, where the GO interference is compensated. However, in a known device it is impossible to obtain high efficiency of compensation for external interference due to time varying conditions of influence, which are determined by seasonal fluctuations in temperature and humidity of the environment. The purpose of the invention is pov-shgenie-, furlose. To do this, the first and second adjustable amplifiers, the first and second correlators, the adder, the phase shifter and the selective amplifier, and the output section of the block, are introduced into the adaptive compensation of external interference, induced by linear linear trans-acts of multichannel communication systems. interferences are connected to the input of the first adjustable amplifier, the first input of the first correlator and the phase shifter, and the output of the second adjustable amplifier and the first input of the second capacitor are connected to the output of the phase shifter, and the outputs are uliruemyh amplifiers via an adder connected to the link and the input of the selective amplifier, whose output is connected to the second inputs of the correlator, wherein the first correlator output is connected to the control input of the first adjustable amplifier and the output of the second correlator is connected to a control input of the second controlled amplifier. The drawing shows a structural electrical circuit of the device. The device contains an interference suppression unit 1, a phase shifter 2, first and second adjustable amplifiers 3 and 4, first and second correlators 5 and 6, an adder 7, a selective amplifier 8. The device operates as follows. The unit 1 selects the signal of external interference from the phantom circuit (or from the cable jacket), which is used as a compensating signal. The selected interference signal is fed to the input of adjustable amplifier 3 and correlator 5. Using phase shifter 2, which provides a phase shift for 90 of all spectral components of the interference signal, provided by block 1, creates a signal with a spectrum that is orthogonal to the original one and fed to the input of adjustable amplifier 4 and the correlator input 6. A selective amplifier 8, connected to the linear path of the RF system, filters and amplifies that part of the spectrum that is affected by external interference from the linear spectrum of this system. This signal is then fed to the second inputs of the correlators 5 and 6, and, moreover, its sign at the output of each correlator will be determined by the function of mutual correlation between the interference-compensating signal from the output of block I and the interference signal in a two-wire circuit 8, with the output of the co1) of the relay 5 being a voltage proportional to the real component of the mutual correlation function of these signals, and the output of the correlator 6 is the quadrature component. Adjustable amplifiers 3 and 4, depending on the control voltage from the outputs of the correlators 5 and 6, change the gain than with UBJ, V K (and Uvno: 60, Uftb.-K (U and at and, g, , Ugj ,, -K (Uvnp) Uex, TO are negative values corresponding to the inverted value of its voltage. The compensating signal at the output of the controlled amplifiers 3 and 4 will be proportional to the control voltages from the output of the correlators 5 and .6 the modulus and phase of interference in a two-wire circuit will unambiguously determine the amplitudes of the voltages at the output of the adjustable amplifiers Lei 3 and 4. Both voltages, folding geometrically, will give the vector of the compensating signal, by modulus and phase, to the interference vector, which then in antiphase is fed from the output of the adder 7 to the linear path of the high-frequency system. static error of the system: selective amplifier, correlator, adjustable amplifier. Thus, it is produced. automatic tracking and compensation for changes in the amplitude and phase of interference and increases noise immunity. The invention The device is for adaptive compensation of external noise induced in the linear paths of multi-channel communication systems, containing an interference elimination unit, which is the first and second adjustable amplifiers, the first and the second the second correlator, the adder, the phase shifter and the selective amplifier, the input of the first adjustable amplifier, the first input of the first correlator and the phase shifter are connected to the output of the interference suppression unit, and the input of the phase shifter is connected to the output of the phase shifter the second adjustable amplifier and the first, the second correlator input, the outputs of the adjustable amplifiers through the adder are connected to the communication line and the input of the selective amplifier, whose output is connected to the second inputs of the correlators, and the output of the first correlator is connected to the regulating input of the first adjustable amplifier , and the output of the second correlator is connected to the control input of the second adjustable amplifier. Sources of information taken into account in the examination. USSR Author's Certificate No. 443488, cl. H 04 B 3/30, 1972 (prototype).