SU1085002A1 - Monitor signal transducer - Google Patents

Abstract

CONTROL SIGNAL SENSOR, containing a series-connected pulse generator and distributor, whose higher-order outputs are connected through the decoder to the first inputs of N keys, as well as to filters, dividers and amplifier, which, in order to improve the control signal generation accuracy due to the exclusion of transients in the filters, at the mile of the first distributor bits are connected to the inputs To the filters, the outputs of which are connected to the inputs of the corresponding To dividers, the outputs (K -1) of which vhodgsh key to a second key corresponding to the second inputs of the (N-K + 1I iklyuchey connected outputs of the Kth divider, the outputs of N keys are combined and connected to the input of the amplifier.

Description

The invention relates to radio communications and can be used to control and measure the characteristics of radio devices and communication channels for various purposes.

A control signal sensor 5 is known, comprising a pulse generator, the output of which through a distributor is connected to the inputs of the decoder, an amplifier, a synchronization unit, a control frequency generator, a switching unit and an adder, and a program control unit connected in series with the outputs the decoder through the program control unit is connected to other inputs 15 of the switching unit, the output of the adder is connected to the input of the amplifier, and the other output of the generator to the input of the synchronization unit C1 J.

However, this sensor of go control signals does not provide an exhaustive assessment of the quality of communication channel A.

The closest, in technical essence to the present invention is a control signal sensor? 5 la, containing a series-connected pulse generator and distributor, the outputs of the senior bits of which are connected via decryptor to the first inputs of N keys, as well. K filters, K dividers and amplifier, {while the outputs of the least significant bits of the distributor are connected to the second inputs _# N of the keys, the outputs (N-to + 1) of which are connected to the inputs (K-ll of the dividers, the output of the N-th key through 5 ment OR is connected to the input of the K-th divider, the outputs (K-3 | of the divider are connected to other inputs of the OR element, the outputs of K dividers are connected to the inputs of the filters, the outputs of which are connected and connected to the input of the amplifier t 2 J.

However, the known control signal sensor has insufficient accuracy in generating the control signal 45 due to the fact that the frequencies of the control signal at the filter outputs have a distorted shape of transients in the filters.

The purpose of the invention is to increase the accuracy of the control signal generation due to the exclusion of transients in the filters.

This goal is achieved by the fact that in the sensor of the control signal 55 containing a series-connected pulse generator and distribution. a separator whose high-order outputs through a decoder are connected to the first inputs of N keys, as well as K filters, K dividers and an amplifier, the low-order outputs of the distributor are connected to the inputs of K filters, VNIIIPI Order 2037/54 whose outputs are connected to the inputs of the corresponding K dividers the outputs (to-ll of which are connected to the second inputs of the corresponding keys, the outputs of the K-th divider are connected to the second inputs (Ν-κ + 1) of the keys, the output of N keys are combined and connected to the input of the amplifier.

The drawing shows a structural electric circuit of the control signal sensor.

The control signal sensor contains a pulse generator 1, a distributor 2, a decoder 3, filters 4-6, dividers 7-9, keys 10-15, and an amplifier 16.

The sensor operates as follows.

The reference frequency from the pulse generator 1 is supplied to the input of the distributor 2. The distributor 2 carries out a frequency division, as a result of which the control frequencies in the spectrum of the controlled frequency band are obtained at its outputs. These frequencies go to the inputs of the respective filters 4-6. At the inputs of filters 4-6, signals with corresponding frequencies are constantly present, therefore, transient processes when harmonic oscillations are established in filters 4-6 occur only at the moment the control signal sensor is turned on. Through the voltage dividers 7–9, a sinusoidal signal is supplied to the inputs of the switches 10–15, the second inputs of which receive control pulses from the decoder 3. Pulses from the high-order bits of the distributor 2 are fed to the input of the decoder 3. The decoder 3 in accordance with the program determined by the structure control signal, gives control pulses to * input keys 10-15. The keys 10-15 upon the occurrence of control pulses from the decoder 3 pass without distortion a sinusoidal signal to the input of the amplifier 16. The voltage divider 9 together with the keys! 12-1 · 5 forms a stepwise envelope of the sinusoidal signal to determine the linearity of the monitored path (caught up). The amplifier 16 amplifies the control signal to the desired level.

The technical and economic efficiency of the control signal sensor consists in the fact that transients constituting 5-10% of the duration of tonal pulses are excluded in the control signal, which significantly improves the quality of the control signal and increases the accuracy of measuring the parameters of communication channels.

Circulation 635 Subscription

Branch of the PPP Patent, Uzhgorod, ul.Proektnaya, ~ 4

Claims (1)

The SIGNAL SENSOR, comprising a pulse generator and a distributor connected in series, the high-level outputs of which are connected via decryptor to the first inputs of N keys, as well as K filters, K dividers and an amplifier, characterized in that, in order to increase the accuracy of the control signal formation by eliminating transients in the filters, the outputs of the least significant bits of the distributor are connected to the inputs of K filters, the outputs of which are connected to the inputs of the corresponding K dividers, the outputs (K -1) of which are connected the outputs of the K-th divider are connected to the second inputs of the corresponding keys, to the second inputs of the (N-K + 1) ‘keys, the outputs of the N keys are combined and connected to the input of the amplifier.