SU851286A1 - Device for measuring signal/noise ratio - Google Patents

Description

(54) DEVICE FOR MEASURING RELATIONSHIP SIGNAL / INTERFERENCE

Claims (2)

The invention relates to a measuring technique and can be used in information measuring systems for measuring the signal-to-noise ratio at the output of a video amplifier of a radar station (radar), as well as for measuring the contrast of television objects in the video signal paths of a television image. A signal / interference ratio meter is known, comprising an intermediate frequency amplifier (IF amplifier), a video frequency gating circuit, and a selected signal processing circuit}. However, the selected signal is relatively complex in construction. In addition, due to the difficulty of matching the bandwidth of the HRO meter and HRO radar, the signal / interference ratio values obtained in the meter may differ from the signal / interference ratio at the output of the radar receiver, especially with a non-uniform interference spectrum. The closest in technical essence to the present invention is a device comprising a sequence -. The memory unit and the valve, the output of which is connected to the comparison unit, with a pulse generator connected to the second input, and a storage capacitor 2 are connected to the first valve input. However, this device has the following disadvantages. The result of the measurement is the logarithm of the amplitude ratio of the two pulses and for measuring the ratio it is necessary to separate the signals along two channels. In addition, when measuring the quasi-continuous signal ratios for the jDtaHHoro method, a device is required that locks the meter through the inputs. The purpose of the invention is to improve the measurement accuracy and enhance functionality. The goal is achieved by the fact that a second and third valves, a second storage unit, a forcer, a trigger, an integrator, a driver are introduced into a device for measuring the signal-to-noise ratio, containing the first valve and the first storage unit connected in series, as well as the comparison unit and the pulse generator. unit interval, differential difference driver, valve AND counter, the first inputs of the first and second valves are connected to the device input, the second inputs are connected, respectively, by the first and second In this case, the driver is used, the output of the second valve is connected to the input of the second storage unit, the output of the first storage unit is connected to the first input of the integrator, the output. The second memory unit is connected to the first input of the comparison unit, and the second input is connected to the integrator output, the output of the comparison unit is connected to the first trigger input, the driver input is connected to the gate device input, and its third output is connected to the second trigger input and driver input unit interval, the trigger output is connected to the inlet of the third valve and the first inlet of the former of the difference interval, a third valve is connected to the second and third inlets of the integrator, the outlet of the formers Phone unit interval is coupled to a second input of the difference interval, the output of which is connected to a first input gate, a second input connected to the output of the pulse generators PA, and an output gate connected to the input of the counter. The proposed device uses the following principle of measuring the signal-to-noise ratio and the contrast of television objects. The signal-to-interference ratio can be calculated from the ratio -or ,, Or- and Uc L -.-. 9 -I- (1) Uv where Uc is the signal voltage; Ui, interference stress; Uc-fVi is the direction of additive cm signal + interference existing in the video path of the Receiver. At the same time, the measurement of the contrast of television objects is carried out in accordance with the ratio I, where Uc is the signal level of the object at the video amplifier output of the viewing receiver; if - the background level. The device selects the signal + noise and signal noise levels in time using a Strobe signal, the test output of which is placed on the station indicator screen, and by shifting the strobe mark in time relative to the trigger signal so that the front of the strobe pulse falls on the disturbance and mark from the object of observation / achieve the selection of levels in the point of space that interests the operator. A similar alignment is made on the screen of the television receiver. Allocated levels in the form of quasi-constant voltages are fed for further processing, the signal + noise level of the mixture is fed to the first input of the amplitude selection device, and the interference level through the integrator to the second input of the amplitude selection device, since on his om -. Inputs are acting. When the levels coincide, a pulse is formed at the output of the comparison unit. The time interval between the start of integration and the moment of coincidence is determined by the formula C. And t f t To obtain the interval of the pure signal-to-noise ratio in accordance with relation (1), the unit and difference intervals are formed between that obtained in accordance with relation (3) and the unit interval. Thus, the resulting resulting time interval is proportional to the ratio signal / interference. Filling the received interval with counting pulses and feeding them to the counter, in the latter the digital value of the desired ratio is formed. FIG. 1 shows the scheme of the proposed device; in fig. 2 - time diagrams of his work. The device contains the first 1 and second 2 valves, the driver 3, the first 4 and second 5 storage blocks, the comparison block b, trigger 7, the third 8, the integrator 9, the unit interval 10, the difference interval generator 11, the pulse generator 12, the valve 13 and counter 4. The device operates as follows. In the absence of input signals Strobe: the first G and the second valves 2 are closed by prohibition. The levels with the output of the imager 3, the outputs of the storage units 4 and 5 are set to zero levels and the output of the comparison block b is a high level. The trigger 7 is in the state O, the valve 8 is open, shunt the feedback loop of the integrator 9. At the output of the unit interval generator 10, a low level is set, and at the output of the difference interval generator 11, a low level also prohibits the passage of generator pulses 12 through valve 13 to the input of the counter 14. When the input signal to the first inputs of valves 1 and 2 (Fig. 2 a) and to the input of the former 3 of the Strobe signal (Fig. 2b), the first and second outputs of the former 3 generate pulses of interference and signal selection (Fig 2 c, d) by which the valves 1 and 2 are opened and the selected levels of memory and the signal + interference mix are memorized on the storage units 4 and 5 (Fig. 2e, g). At the third output of the driver 3, a pulse of the beginning of the integration is formed (Fig. 2a), by which the trigger 7 is set and the driver 10 of the unit interval is started. The signal from the trigger output 7 closes the third valve 8, the integrator 9 begins to integrate the level of interference from the output of the storage unit 4. At the output of the integrator 9, a sawtooth voltage is formed (Fig. 2h), which is fed to the second input of the block 6 comparison, to the first input of which the signal + noise level is applied from the output of the storage unit 5. At the time of the comparison of voltages from the outputs of the integrator 9 and the storage unit 5, a negative level is formed at the output of the comparison unit b establishing the trigger 7 to the state O. At this, the valve 8 opens, integrates the feedback circuit of the integrator 9 to shunt, the integration process stops at the integrator output a zero level is set and a high level at the output of the comparison block. The time interval formed on the trigger 7 (FIG. 2 and) is fed from its output to the first input of the differential interval former 11, the second input of which is supplied from the unit interval output of the unit interval 10 (unit 2 k), and the output of the former 11 is formed the time interval is proportional to the signal / tag ratio (Fig. 2 l). The signal from the output of the formaker 11 opens the first valve 13, the input 13, and the second input provides pulses from the generator 12. From the output of the valve, the pulses are fed to a digital counter 14, in which the signal-to-interference ratio is recorded. Thus, the invention makes it possible to expand the functionality of the device, i.e. measure both the signal-to-noise ratio at the output of the radar receiver and the electrical contrast at the video amplifier output of the television receiver. In addition, the linear dependence of the output value improves the accuracy of relationship measurement and the speed of the proposed device by measuring over one probing cycle or one horizontal scanning cycle. Claims A signal / disturbance measurement device comprising a first valve and a first storage unit connected in series, as well as a comparator unit and a pulse generator, characterized in that, in order to improve measurement accuracy and enhancement of functional capabilities, and the third valve, the second storage unit, driver, trigger, integrator, unit interval generator, difference interval generator, gate and counter, the first inputs of the first and second valves The anans are connected to the input of the device, the second inputs are connected respectively to the first and second outputs of the imager, the output of the second valve is connected to the input of the second storage unit, the output of the first storage unit, the output of the first storage unit is connected to the first input of the integrator, the first input the storage unit is connected to the first input of the comparison unit, and its second input is connected to the integrator output, the output of the comparison unit is connected to the first trigger input, the input of the driver ene with an input device for strobiruyuschegr. pulse, and its third output is connected to the second trigger input and the input of the unit interval generator, the trigger output is connected to the third valve input and the first input of the difference interval generator, the third valve is connected to the second and third inputs of the integrator, the output unit of the unit interval is connected to the second and third inputs of the integrator the second input of the differential interval imager, the output of which is connected to the first input of the valve, the second input of which is connected to the output of the pulse generator, and the output of the valve is connected to the input tchiku. Sources of information, rinty eo attention in the examination 1. Foreign radioelectronics, 1961, 8, p. 64, fig. 9. 2. Authors certificate of the USSR 322732, cl. G 01 R 29/12, 10.03.70 (prototype).