SU1050091A1 - Random voltage generator - Google Patents

Abstract

A GENERATOR OF RANDOM NIPLAY, containing a primary noise source, the first generator of a sinusoidal voltage, the first multiplier, the second multiplier, whose outputs are connected to the first, second, third and fourth inputs of the adder, characterized in that, with the stability of the generator It contains the second and third sinusoidal voltage generators as well. also the first and second integrato l, the outputs of which are connected according to the first inputs. the first and second multipliers and connected respectively to the c / p and sixth inputs of the adder - whose output is connected to the input of the first integrator whose output is connected to the INPUT of the second integrator, whose output is the generator output, i outputs of the second and third sinusoidal voltage generators: soy (L dineny respectively with the second in.; Yami. first, and the second multiplier, her. SP; o

Description

The invention relates to computing and can be used. It is called when imitating radio channels with fades when simulating information transmission systems. A known random-on-voltage generator, which simulates fading, in a radio channel and containing a noise generator, integrators, multiplier, inverter, cube-making unit, quadrant C1 J. ..;. However, this device does not generate a transient non-stationary signal with a four-parameter distribution, dividing the envelope and phase, which is usually formed at the output of the communication channel with fading. Also known is a random voltage generator, which simulates a short-lived radio channel containing a generator of voltage, a phase detector, two multipliers, two noise sources, and an adder 2. However, this generator does not provide the stability of the statistical characteristics of the output signals. The closest technical solution to the invention is a random voltage generator containing two noise generators, a pulse generator, a phase shifter, multipliers, and an adder}. . However, the known generator also does not have sufficient accuracy of statistical characteristics. The aim of the invention is to increase the stability of the generator. To achieve this goal, a random voltage generator, containing the primary noise source, the first sinusoidal voltage generator, the first multiplier, the second multiplier, whose outputs are connected to the first, second, third, and fourth inputs of the adder, respectively, introduces the second and third sinusoidal generators. voltages, as well as the first and second integrators, the outputs of which are connected respectively to the first inputs of the first and second multipliers and are connected respectively to the fifth and sixth inputs of the sum ra, the output of which is connected to. the input of the first integrator, the output of which is connected to the input of the second integrator, the input of which is the generator output, the outputs of the second and third sinusoidal voltage generators are connected respectively to the second inputs of the first and second multipliers. The drawing shows a block diagram of the generator. The generator contains the primary source of 1 noise, the first generator of the 2 sinusoidal voltage, the adder 3, the first 4 and second 5 multipliers, the second 6 and the third 7 blue-g combined voltage generators, the first 8 and the second 9 integrators. The principle of the generator is that it carries out a parametric amplification of the noise sum of a single noise generator and a sinusoidal voltage, while the noise and signal are amplified in a narrow band of frequencies, and the low-frequency induce and drift parasitic voltages from the lines. They are made using the high-quality contour of the device, which ensures the stability of the statistical characteristics of the process generated by the device. Generator operation is described by the equation X + 2ot 1 + 0 2 cos (2to t-eif jj -f U; 2 cos (2Wp + 4 X t: tu2 (t) -f. + U) §VoCOSOjQt where / a, CO ;, Sd, positive parameters; voltage amplitude with frequency (t is white noise with / spectral, density N (, 72. The solution to this equation is a narrow-band random process with a four-parameter probability distribution. In the hardware described by this By the equation, the following happens: when - f then the device is an electronic model of the oscillating circuit affected by white noise 6 (-t) and-harmon A typical oscillation with a frequency equal to the center frequency of the contour bandwidth (distribution x (t), in this case there is a generalized distribution Relay - a special case of a four-parametric distribution}; -, acting, in this case, the equality of the dispersions of the quadrature components x- (t) is violated, and a random voltage with a four-parameter probability distribution is generated at the generator output. The generator is made on operative amplifiers, the noise generator 1 is a pseudo-random sequence generator, the parameters are costly selected so that the amplitudes of the spectral components at the generator output are maintained at frequencies in the vicinity and in the device bandwidth. Harmonic oscillators can be:. performed both on operational amplifiers of bodies and on the basis of logical microcircuits (. for example, 133 series) using frequency dividers, followed by filtering i. Fluctuations at the outputs of generators b and integrator 9.. . . .. - Compared with the base device - a tropospheric communication simulator, which uses random voltage generators with a four-parameter probability distribution, the proposed generator reduces the number of noise generators by half and, consequently, reduces and simplifies the simulator. Moreover, narrowband filtering is done in the device. Mov, similar to filtering noise high-quality circuit, which eliminates pickup and drift effects that may occur in the base unit. At the same time, the device allows reproducing the required random voltage with more stable statistical characteristics than the base voltage, since the number of noise generators has been reduced. j In addition, the device provides the ability to adjust the parameters of the output process by setting the phase difference between the oscillations at the outputs of the double frequency generators, which simplifies the process of tuning the generator / especially when the formation of the reference frequencies is done digitally.

Claims (1)

A RANDOM VOLTAGE GENERATOR comprising a primary noise source, a first sinusoidal voltage generator, a first multiplier, a second multiplier, the outputs of which are co-. respectively, with the first, second, third and fourth inputs of the adder, characterized in that, in order to increase the stability of the generator, it contains the second and third sinusoidal voltage generators, as well as the first and second · integrators, the outputs of which are connected respectively to the first inputs . the first and second multipliers and are connected 'respectively to the / fifth and sixth inputs of the adder, the output of which is connected to the input of the first integrator, the output of which is connected to the input · of the second integrator, whose output is the output of the generator, the outputs of the second and third sinusoidal voltage generators: connected respectively, with the second inputs of the first and second multipliers. in quadform10