SU553626A1 - Computing device with automatic switching elements - Google Patents

Description

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The invention relates to the field of computing and can be used in the construction of analog and analog-digital computers.

A computing device with automatic switching of elements, made on electromagnetic relays, step finders, coordinate connectors and other electromechanical switching devices 1, is known.

The disadvantage of this device is the low speed and a large number of elements used.

The closest oio of the technical essence and the achieved result to the invention is a computing device with automatic switching of elements, which contains computing blocks and address registers. The disadvantage of this device is low accuracy, determined by the influence of parasitic capacitances and inductances at high frequencies of working signals.

The proposed device, in order to improve accuracy, contains mixing units, rectifiers, modulators, carrier frequency signal generators and controlled band-pass filters, the output of each of which is connected through a rectifier to the input of the corresponding calculation unit, output

which is connected to the first input of the corresponding modulator, the second input of which is connected to the output of the corresponding carrier signal generator, the input

which is connected to the output of the first address register, the output of the modulator is connected to the input of the corresponding offset unit, the output of which is connected to the first input of the controlled band-pass filter,

the second input of which is connected to the output of the second address register.

The drawing shows a diagram of computing zstrastva.

The computational facility contains computational units 1, controllable bandpass filters 2, rectifiers 3, modulators 4, generators 5 of carrier frequency signals, mixing units of 6 signals, address registers 7 and 8.

The device works as follows. Each frequency generator 5 n each band-pass filter 2 can be tuned to one of a number of fixed frequencies (f / 2, -, fn,

where n is the total number of outputs of the computing elements to be switched.

The output signal F (t) from the output of the computing unit 1 is fed to the modulator 4 and modulates the signal of the carrier frequency / g of the generator 5.

The modulated signal from the output of the generator 5 enters the mixing unit 6, from where the pa inputs of all band-pass filters 2 are applied simultaneously. At the output of the filter tuned to the frequency /, a signal (t) is generated; the outputs of the rest of the filter signals are missing. From the output of the filter, the signal is fed to the input of rectifier 3, where it is demodulated. The received signal F (t) is fed to the input of the corresponding block of calculations 1.

Thus, to transfer information from one computing unit to another, it is sufficient to ensure that the corresponding oscillator 5 and bandpass filter 2 are tuned to the same frequency / ,, which is carried out by supplying control signals from address registers 7, 8.

In the proposed computing device, the number of groups of elements (namely, bandpass filters, rectifiers, modulators and signal generators. Carriers. Frequencies) that perform the functions of switching devices is equal to the number of switched elements, which distinguishes it from the known ones, where the number of switching devices elements grows in proportion to the second degree of increase in the number of computational elements.

Some qualitative complication of the system quickly pays for itself quantitatively with an increase in the volume of structures implemented.

The advantage of the proposed device lies in the possibility of obtaining high speed, provided by reducing the parasitic distributed parameters in the switching system, as well as by transmitting information on the radio frequency, which causes a low frequency dispersion of the transmission drop.

Claims (2)

1. Copyright certificate № 371588, cl. G 06G 7/06, 1973 2. Copyright certificate № 373728, cl. G 06G 7/06, 1973 (prototype). l . j1 Yy yy J., i J. T .jj