SU687605A1 - Device for remote measuring of amplitude-frequency characteristics of communication channels - Google Patents

Description

The invention relates to communication technology, in particular, to devices for conducting remote measurements of the amplitude-frequency characteristics of equipment and communication channels. A device for remote measurement of the amplitude-frequency characteristics of communication channels, containing a signal generator and a demodulator on the transmission, the output Kjporo is connected to the input of the frequency meter and the input of the level meter, and at the reception is a converter of the signal which is connected to the direct channel; W C1 1. However, this device does not have the possibility of remote measurements of ammunition frequency characteristics without significant {oh error arising due to conversion. The aim of the invention is to improve the measurement accuracy. For this purpose, a device for remote measurement of the amplitude-frequency characteristics of communication channels, a signal generator and a demodulator, whose output is connected to a signal generator and a demodulator, the output of which is connected to the frequency meter input and the level meter input, and a signal converter at the reception, whose input is connected to the output a direct channel, a control unit, a switch, an additional signal converter, an amplifier, an auxiliary and measuring line are introduced on the transmission, and an extension on the receive, while the output of the control unit through the auxiliary the line is connected to the control input of the switch, whose calibration output is connected via serially connected additional signal converter and amplifier to its calibration input, the output of the signal generator and the input of the demodulator are connected respectively to the first and the input and output of the measuring line, the second input and output of which connected respectively to the transmitting output and input of the switch, the channel output and input of which are connected

corresponding to the input of the forward channel and B1,1 by the return channel input, the input of which through an extension cable is connected to the JI converter of the ousters.

The drawing shows the structural electrical circuit of the proposed device.

The device for remote measurement of the amplitude-frequency characteristics of the communication channels comprises, in transmission, a signal generator 1, demodulator 2, a frequency meter 3, a level meter 4, in reception, a signal converter 5, as well as a forward channel 6, in addition, in transmission control unit 7, switch 8, additional signal converter 9, amplifier 10, auxiliary and measuring lines

(-

11 and 12, and at the reception - extension 13, as well as the reverse channel 14.

The device works as follows.

The measuring signal from the signal generator 1 is fed through the measuring line 12 and the switch 8 to the additional converter 9 of the signal array, where frequency and amplitude are detected and modulated, then the signal is amplified by the amplifier 10 and returned through the switch 8 and the measuring line 12 to the demodulator 2 then it goes to frequency meter 3 and level meter 4. The value of frequency meter 3 determines the level value of the measuring signal at the output of the measuring line 12 before the additional signal converter 9, and from 4 shows eritel level value of the signal level from the generator 1 loopback signal.

Before measuring, the signal level of the signal generator 1 is adjusted to the value at which its value by frequency meter 3 will correspond to the normalized value a at the input of the direct channel 6 (for example, 13 dB), while the reading of the level meter 4 will correspond to the normalized value of the measuring signal at the output reverse channel 14 b, | (for example, - 4, ZDB).

After checking and calibrating the measuring line 12, the control unit 7, via the auxiliary line 11, commands the switch 8 to switch the measuring devices to the tested forward and return channels 6 and 14 connected via a signal converter 5 and an extension 13, which provides the normalized measurement value at the input of the return channel 14. The frequency meter is measured at 3 values of the measuring wall a 2 at the output of the forward channel 6 and the signal level bg by level 4 meter. The final value of the attenuation of the measured frequency in the forward channel 60 and in the reverse channel 14 b is calculated by the formulas:

b fg, - fa,

and Oj - and

Similar operations are carried out when measuring in other channels and at the remaining frequencies.

Thus, the use of the proposed device allows calibrating the measuring line, ensuring that the nominal values of the levels in the normalized, points of the object being measured and the amplitude-frequency characteristics are measured using a comparison method and thereby achieving the purpose of the invention to improve the measurement accuracy.

Claims (1)

Invention Formula A device for remote measurement of the amplitude-frequency characteristics of communication channels, which contains a signal generator and demodulator whose output is connected to the frequency meter input and the level meter input and a signal converter at the reception, the input of which is connected to the forward channel output, characterized in that In order to improve the measurement accuracy, the transmission unit, the control unit, the switch, the additional signal converter, the amplifier, the auxiliary and measuring lines, and the extension cable at the reception, are introduced, The output of the control unit through the auxiliary line is connected to the control input of the switch, the calibration output of which, through the serially connected additional signal converter and amplifier is connected to its calibration input, the output of the signal generator and the input of the demodulator are connected respectively to the first and the input and output of the measuring line, the second input and output of which are connected respectively with the transmitting output and input of the switch, the channel output and input (56 south 1H) respectively with the input. Channel and Reverse kanpla output, the input of which an extension cord is connected to the output of the transducer signals. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 362499, cl. H04 3/04, 1971 (prototype).