PL89948B1 - - Google Patents

Description

The present invention relates to a reference pulse generator for checking interference meters radio-electric in the frequency range from 10 kHz to 150 kHz.

State of the art. The usefulness of noise meters for measuring the magnitude of radio disturbance is assessed based on the meter response to reference pulses. Hence also for checking and marking noise meters, reference pulse generators are required. Such generators should produce pulses with an area of 13.5 / iVsek, and the pulse repetition frequency should be regulated in the range from 1 Hz to 100 Hz, the level of the spectrum of these pulses should be constant with an accuracy of ± 1 dB in the range from 10 kHz to 150 kHz, and above this band it should fall with a slope of at least 10 dB per octave.

Generators known and used for this purpose consist of an input sine wave generator amplitude limiter, frequency divider block, Schmidt trigger, monostable multivibrator system and the amplifier-shaping system, at the output of which the required output signal is obtained standard.

The essence of the invention. The generator according to the invention consists of an input sine waveform generator soid, amplitude limiter, frequency divider block, Schmidt trigger, multivibrator monostable and output amplifier-shaping system has a system increasing the level of the spectrum pattern pulse, the input of which is connected via a differentiating circuit with the output of the amplifying shaping circuit, and the output is connected to the input of the multi-section output damper, while the discussed circuit increasing the level of the pattern pulse spectrum has a thyristor, the controlling input of which is connected to the output of the aforementioned differentiating circuit and parallel to the thyristor, connected via a resistor with a stabilized DC source, is connected through a capacitor with a parallel resonance a circuit formed by a second capacitor and a regulated inductance coil, said the resonant circuit is connected on the other side to the ground of the circuit through a second resistor and a third resistor connected to each other in series.

The generator according to the invention, thanks to the use of simple technical means in the form of a thyristor, a resonant circuit and a stabilized voltage source, constant, separated from a part of the power supply, enables2 89 948 obtaining, in addition to model signals with a nominal size of the spectrum level, also model signals with the size of the spectrum level greater by 20 dB, which in combination with the use of the output attenuator allows significantly expand the scope of application of the generator for a number of measurement purposes in the field of counter-countermeasure technology interference, and, above all, allows you to control the intermodulation effects of interference meters, which known generators do not protect in the range from 10 kHz to 150 kHz.

The invention is explained in more detail in the embodiment example shown in the drawing in which the electrical diagram of the generator is shown.

An embodiment of the invention. Reference pulse generator for checking disturbance meters radio has a sine wave generator 1, the output of which is connected to the input 2 amplitude limiter. The output of the limiter 2 is connected to the input of the frequency divider 3 block, the output of which is connected to the input of the Schmidt trigger 4. The output of the flip-flop 4 is connected with the input of the monostable multivibrator 5, whose output is connected to the amplifying-shape input - of the circuit 6. The output of the circuit 6 is the output of 7 reference signals of 13.5 µsec with a nominal spectrum. At the same time, the output of the amplifying-shaping system 6 is connected via the differentiating system 8 with the input of the circuit 9 increasing the level of the spectrum of pattern waveforms. Circuit output 9 is connected via a multi-section damper 10 with the output of 11 pattern waveforms with an increased level the spectrum, the size of which is regulated by the mentioned muffler 10. System 9 increasing the level of the spectrum it is made of thyristor 12, two capacitors 13 and 14, three resistors J5, 16 and 17, coil 18 and a stabilized constant voltage source 19. The output of the differential 8 is connected to the control input of thyristor 12, which is connected to the constant voltage circuit through a resistor 15. Parallel to thyristor 12, through capacitor 13 is connected a parallel resonant circuit 20 formed from the other capacitor 14 and inductor 18 with adjustable inductance. Other end of Parallel Resonant Circuit 20 it is connected to the ground through a second resistor 16 and a third resistor 17 connected in series to each other.

The operation of the system 9 increasing the level of the spectrum of the model pulses from the system 6 is as follows: source 19 charges capacitor 13. Differential impulse from the differential output of system 8 causes opening thyristor 12 and discharge of capacitor 13 through parallel circuit 20 and second resistor 16 and third resistor 17. Choosing the parameters of the elements 14, 16, 17 and 18 appropriately is obtained at the output of the system 9 model pulses, the spectrum of which is analogous to the spectrum of the standard pulses of output 7 but higher by 20 dB.

Claims (1)

1. Patent claim A reference pulse generator for checking radio interference meters, including a sinusoidal waveform generator, an amplitude limiter, a frequency divider block, a Schmidt trigger, a monostable multivibrator and an output amplifier-shaping circuit, characterized by the level of the spectral level (9) The input of the differential circuit (8) is connected to the output of the amplifying-shaping circuit (6), while the output of the circuit (9) is connected to the input of the multi-section damper (10), while the circuit (9) increasing the level of the pattern pulse spectrum has the thyristor (12), the control input of which is connected to the output of the differential circuit (8), and parallel to the thyristor (12), connected via a resistor (15) with a stabilized DC source (19), is connected through a capacitor (13) with a parallel resonant a circuit (20) formed by a second capacitor (14) and an inductor (18) with adjustable i nductance, where the resonant circuit (20) is connected on the other side to the ground of the system through the second resistor (16) and the third resistor (17) connected in series with each other. 89 948 READING ROOM P- ^ t- h \ ii \ i \ Ci ?. '. •