SU512558A1 - Device for the normalization of signals - Google Patents

Description

the outputs of attenuators 6 in the first and second channels are the inputs and outputs of the first and second channels of the signal transducer, respectively.

The device works as follows.

In the initial state, the transfer coefficients of attenuators 3, 6 are equal to one.

Consider the origin of the signal on the first channel. The input signal passes the key 1, which, in turn, from the control unit 9 is opened for a time equal to the maximum possible duration of the recorded signals. Next, the signal simultaneously arrives at the inputs of line 2 and coarse meter 4, which determines the maximum instantaneous value of the signal and accordingly changes the gain of attenuator 3. The signal delayed on line 2 passes attenuator 3, is subjected to coarse regulation, and simultaneously enters the inputs of the meter 5 for accurate measurement of the key 8 of the second channel, which at this time is opened by the pulse from the control unit. Pass key 8, the sigal enters the delay line and the coarse gauge 4 input of the second channel, the gauge 4 of the second channel is blocked for a time from t: i to 2t: using the emulsion from the control unit.

In accordance with the maximum instantaneous value of the roughly normalized signal measured by the precision meter 5 of the first channel, the transfer coefficient of the attenuator 6 changes. The signal delayed in the delay line of the second channel passes through the key 7 of the first channel, which is opened by a pulse from control unit 9 for a time equal to ty, and is fed to the input of the attenuator 6 of the first channel, and the meter 5 of the first channel is blocked by the imp from the control unit from the moment of the TO.

At the output of the first channel, a normalized signal appears. Normalization of the signal received at the input of the second channel is similar, while the synchronization of the normalized signals at the outputs of the first and second channels is achieved by the fact that the signal received at the input of the first channel passes through the delay line of the second channel before exact normalization the input of the second channel is through the delay line of the first channel.

Formula and 3 optics

A device for normalizing a signal, containing a signal conversion droplet, consisting of series-connected delay lines, the first attenuator, to the control inputs of which the input is connected

said delay line through a coarse signal of the instantaneous values of the signal, and an accurate meter of the instantaneous values of the signal, the outputs of which are connected to the control inputs of another attenuator, and

the key and the control unit, the outputs of the reset and blocking signals of which are connected to the corresponding inputs of coarse and accurate instantaneous value meters, characterized in that, in order to increase the positioning of the source of random signals, a second signal conversion channel is introduced, similar to the first conversion channel, and the outputs delay lines and the first attenuator

The conversion channel is connected to the inputs of another attenuator and the delay delay of the conversion channel, respectively, via keys, to the control inputs of which additional outputs are connected.

control unit.