SU782170A2 - Device for measuring quality of discrete information transmitting channels - Google Patents

Description

DEVICE FOR MEASUREMENT OF QUALITY OF DISTRIBUTED INFORMATION CHANNELS

The invention relates to a radio communication technique and can be used to automatically control the quality of discrete information channels. According to the main author. St. No. 557496, a device for measuring the quality of transmission channels of discrete information is known, which contains a divider whose output is the output of the meter signal of a ratio, an input integrator whose input is connected to the input of a device for measuring the quality of channels, the first and second distribution keys whose inputs are connected to the output of the input integrator, the first and second main integrators, the inputs of which are connected respectively with the outputs of the first and second distribution keys, the first and second read keys, the inputs of which The outputs are connected respectively to the outputs of the first and second main integrators, and the outputs to the inputs of said divider and the generation of control pulses, the input of which is connected to the input of the channel quality measuring device, the output of clock pulses, the output im. pulses for changing the significant positions of the input signal from 1 to O, the output pulses for changing the significant positions of the input signal from O to 1 are connected respectively to the control inputs of the input integrator, the first and second distribution keys, and the output pulse readings of the integration result are connected to the control inputs of both keys read i. However, the known device has a low measurement accuracy. The purpose of the invention is to improve the measurement accuracy. This goal is achieved by the fact that in a device for measuring the quality of transmission channels of discrete information, containing a divider, the output of which is the output of the meter, an input integrator signal, a rator whose input is connected to the input of the device for measuring the quality of channels, the first and second distribution switches, whose inputs are connected to the output input integrator, the first and second main integrators, the inputs of which are connected respectively to the outputs of the first and second distribution keys, the first and second keys, sch inputs whose inputs are connected respectively to the outputs of the first and second main integrators, and outputs to the inputs of the said divider, and a control pulse shaping unit whose input is connected to the input of the device, measuring the quality of channels, the output of the clock pulses signal from 1 to O, the output pulses of the change of significant positions of the input signal from O to 1 are connected respectively to the control inputs of the input, the integrator, the first and second distribution keys, and the output imp In the readout result, the integration result is connected to the control inputs of both read keys, a prohibition unit and a successively connected amplitude detector are entered, a threshold unit, an Ebiti signal conditioner, an additional key, limiter, a frequency detector, a volt meter, and an indicator, the second and third outputs of the driver the signal is connected with the second input of the indicator, the third input is connected to the output of the divider, and to the control input of the prohibition unit, the output of which is connected to the input Lok control pulses, and the signal input unit additionally prohibition key and amplitude detector filed respectively sig Nala frequency demodulator and receiver preselector mixer. The drawing shows a structural electrical circuit of the proposed device. The device for measuring the quality of transfer of discrete information contains a meter 1 of the ratio signal consisting of input integrator 2, first and second distribution keys 3 and 4, respectively, of the first and second main integrators 5 and 6, respectively, of the first and second read keys 7 And 8, respectively, divides the l 9 and the control pulse shaping unit 10, the prohibition block 11, the amplitude detector 12, the block 13, the shaper 14 of the signal, the additional key 15, the limiter 16, the frequency detector 17, voltmeter 18, Indicator 19. The device works as follows. The triggering level of the threshold 6JipKa 13 is set to the maximum allowable voltage level at the input of the receiver blender (.CM) above which non-linear effects occur in the path (cross-modulation or forgetting). In the absence of powerful interference at the receiver input, i.e. under the conditions of operation of the receiving track, the voltage at the output of detector 2 and below Ujon.cH therefore the signal at the output of the threshold unit 13 is present, and there are no signals at the outputs of the shaper 14 of the abiti signal. In this case, the prohibition unit 11 is in the open state I :, and the output of the meter 1 of the ignal / noise ratio has a voltage equal to the ratio ..m and the additional key 15 is in the closed state, and only the ratio g is displayed on the indicator 19. If an interference occurs, the level of which at the mixer input exceeds Ugon.cM. / At the output of the threshold unit 13, a voltage appears, according to which the driver 14 of the clogging signal outputs the receiver’s clogging signal to the indicator 19, the prohibition signal to the control input of the prohibition unit 11, according to which the signal-to-noise ratio meter 1 is disconnected from the receiver , and the permission signal to the additional key 15, through which the series-connected limiter 16, the frequency detector 17 and the voltmeter 18 are connected to the preselector VXOg. Since the interference has a level exceeding the dynamic range of the receiver, the level o boundedness may be chosen equal to the maximum possible amplitude of the useful signal. As a result, at the output of the limiter 16, only an interference signal appears, which is fed to the frequency detector 17 with circuits at high frequency and with a strip of -. ., its amplitude-frequency characteristic is approximately equal to the passband of the receiver's selector. The level and sign of the voltage at the output of the frequency detector 17 uniquely determine the frequency of the interference, so the scale of the voltmeter 18 can be calibrated directly in the units of the frequency (for example, kHz). The readings of the voltmeter 18 are displayed on the indicator 19 along with the receiver drive signal coming from the drive signal generator 14. Thus, the use of new elements allows for more accurate control of the quality of discrete information transmission channels, both in the absence of powerful interference at the receiver input and when it appears, while in the normal linear mode of operation of the receiver the signal / noise ratio is displayed on the indicator. In case of nonlinear distortion of the useful signal by interference above the permissible level, the indicator 19 displays the signal to forget the receiver and the frequency of interference, which allows the operator to quickly

determine the source of interference and take measures to eliminate them.

Claims (1)

1. USSR author's certificate number 55749G class. H 04 L 1/10, 1974 (prototype).