SU350185A1 - DEVICE FOR REGULATION OF AMPLITUDE-FREQUENCY CHARACTERISTICS OF LINEAR TRAITS OF HIGH-FREQUENCY TRANSMISSION SYSTEMS WITH THE HELP OF BOSINUS CORRECTORS - Google Patents

Description

The invention relates to the field of long-range vision and can be used for performance measurements in coaxial cable sealing systems.

Devices are known for adjusting the amplitude-frequency characteristics (AFC) of linear paths of high-frequency transmission systems using cosine correctors, comprising a modulator, an adder, an amplitude detector, and a switching unit consisting of a switch, a filter, and an amplitude detector.

The purpose of the invention is to provide the ability to fine-tune the paths by sections. This is achieved by the fact that in the transfer mode to the modulator input. The output of the adder is connected, and (In the transfer mode, the output of the switching unit filter and the detector output are connected to the first and second inputs of this adder.

The drawing shows a block diagram of the proposed device.

In serviced reinforcement points. located at the ends of the adjustable section of the linear path 2, two identical devices are installed, which are connected in parallel to the outputs of the terminal flat amplifiers of the station equipment of the linear path. In the device operating in the transmission mode, the key 3 is open,

and key 4 is closed. In a device operating in receive mode, vice versa.

A linear spectrum containing transposed and linear control frequencies, through the input matching unit 5, which ensures the normal operation of the system when the device is switched on, enters the comb. It consists of .V narrow-band filters 6 with a passband of about 30-40 Hz, tuned to L selected transposed control frequencies, located in the linear spectrum and evenly spaced between the channels. The number of trapped control frequencies is chosen on the basis of the Kotelnpkov theorem, depending on the number of cosine correctors, which the system is equipped with.

From the output of each narrowband filter, the selected control frequencies are fed to the resonant amplifiers 7. When calibrating the device by adjusting the gain of these amplifiers, they compensate their own frequency response of the device. Using an electronic switch 5, the amplitude detector 5 is alternately applied to the voltage of the control frequencies from the outputs of the amplifiers 7, the switching being performed in the following order: the switch 8 connects to the detector 9 and subsequently to the first ino L

frequency, and the lot on the contrary, with the CU on the first, and so on.

Symmet is formed with the characteristic

It is a rational periodical function that displays the envelope of the frequency response of the linear path at the input of the co-controlled section. The period of this function is equal to the switch-off period of the switch, which may lie within 10-50 ms.

The low-frequency voltage from the output of the filter 10 is applied to one of the inputs of the summing circuit 11, to the other input of which in the mode "transmission no signal is received. Further, the spectrum of the frequency response envelope with the help of the modulator 12 and the local oscillator 13 is carried beyond the upper limit of the working spectrum of the corrected system. Through the output matching device 14, this high frequency signal is fed to the L-path and is transmitted through it to the receiving end. At the same time, the modulator 12 from the switch 8 is supplied with synchronizing pulses corresponding to the two extremes (switch positions.

At the receiving end ("receive" mode), the key 5 is closed and, along with the selection of the control frequency, the filter 15 selects a 1 BYP frequency signal modulated by the frequency response envelope, which is sent to the path by the transmitting device. After amplification by amplifier 16 and detection by the detector, 77 the signal of the corresponding envelope of the frequency response at the transmitting end of the linear path section is fed to the second input of summing circuit I. Its first input is from

the filter U0 | enters the envelope, representing the sum of the envelope of the frequency response at the input of the corrected part of the linear path and the envelope of the frequency response of the corrected part itself. Since the envelope frequency response is applied to the second input of the circuit 11 with the opposite sign, a differential voltage is obtained at its input, corresponding to the frequency response envelope of the corrected part of the linear path. The synchronous operation of the switches of both devices is provided by applying synchronizing pulses from the output of the detector 17 to the switch of the device operating in the receive mode. The resulting AFC of the corrected part enters the output of circuit 11 and is applied to a quadratic detector 18 with a pointer indicator 19 and, if necessary, to a sillographic indicator to indicate and measure.

Subject invention

A device for adjusting the amplitude-frequency characteristics of linear paths of high-frequency transmission systems using cosine correctors, comprising a modulator, an adder, an amplitude detector and a switching unit consisting of a switch, a filter and an amplitude detector, in order to ensure that the path settings by sections; in the transfer mode, the output of the adder is connected to the modulator input, and in the receive mode, the first and second inputs of the adder are connected to the input and output d filter switching unit and detector output.