SU491193A1 - Frequency signal discrimination device - Google Patents

Description

The invention relates to telemechanics, can be used in receiving devices of discrete information transmission systems.

A device for distinguishing frequency signals is contained, containing n channels, each and each consisting of a series-connected selective circuit and an amplitude detector, to the output of which a comparison matrix is connected.

However, in the known device, each channel contains two amplitude detectors, the output of which is absolutely different from each other due to the scatter of the circuit elements. This reduces the accuracy of distinguishing frequency signals.

In the proposed device, to improve the accuracy of distinguishing frequency signals at the output of each channel, a differential amplifier is turned on, the second input of which is connected to the corresponding output of the comparison matrix.

The drawing shows a diagram of the device.

Each of the n channels of the device is composed of successively connected selective circuit / II amplitude detector 2. The outputs of the detectors 2 of all channels are connected to a comparison matrix (n rows, t stolb) on the 3–10 diodes and resistors 4 (t of resistors, but one each column of the matrix). The output of each channel includes a differential amplifier 5 (n amplifiers), the second input of which is connected to the corresponding output of the reference matrix.

The device works as follows.

The appearance of a signal at the input of a device with a frequency on which one of the selective circuits is tuned, for example, the selective circuit / first channel, the output voltage of the amplitude detector 2 corresponding to this channel becomes more significant than the amplitude detectors of the other channels. This voltage is applied directly to the first input of the differential amplifier 5 of the first channel, and through the comparison matrix enters the output from the output from the rest: nxc n-1 of amplitude detectors 2, the value of which is currently the largest. Thus, the voltage on the nerve input of the differential channel of the first channel is greater than the voltage at its second input and vice versa - the voltage at the first inputs of the amplifiers of the other channels is less than the voltage at their second inputs. The subject of the invention is a frequency signal discriminating device comprising n channels, each of which consists of a series-connected selective circuit and an amplitude detector, to the output of which a comparison matrix is connected, characterized in that, in order to improve the distinction accuracy, a differential amplifier is connected to the output of each channel, the second input of which is connected to the corresponding output of the comparison matrix,

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