SU221957A1 - - Google Patents

Description

DEVICE FOR SETTING BOUNDARY CONDITIONS

Devices for setting boundary conditions are known, including valves, buffer registers, digital-to-analog converters, a decoder, a CREDIT counter of addresses, an address register, current and voltage regulators.

The proposed device is characterized in that it contains a digital storage device and a controlled pulse train generator, the drive outputs being connected via valves to buffer registers, the outputs of which through a digit-analog converter are connected to current and voltage stabilizers, and a controlled pulse train generator connected to a cycle counter, the output of which is connected to the gate enablers via a decoder.

The drawing is given a functional diagram of the device.

The device contains a storage unit /, a control unit 2, a conversion unit 3, and channels 4 of boundary conditions. The accumulator outputs / via buffer registers 5 are connected to digital-analogue converters 6. Standard-frequency generator 7 is connected to an 8-meter counter, the outputs of which are connected to address register 9, and simultaneously with a controlled 10-series generator and reset circuits converters 6. The outputs of the generator 10 are connected to a counter 11 cycles of calls. And a circuit 12 of calls, the output of which is connected to the drive control unit 1. The outputs of the counter 11 are connected to the decryptor 13 and the register 9 of the drive address /. The outputs of the decoder 13 are connected to the second inputs of the valves 14. The converters 6 are connected by cord switching to the inputs of the channels 4 boundary conditions, which are voltage stabilizers or currents, the outputs of which are connected to the nodal points of the RC grid 15.

The device works as follows. In drive 1 using the keyboard or

the readout device on the bus record is written down the codes of the ordinates of the functions of the boundary conditions of all time intervals and are stored in it for the entire time of solving the problem.

A series of pulses of time intervals generated by generator 7 of the standard frequency through the valve 1G, which is opened during the working period by the single vibrator 17, is simultaneously fed to the counter of 8 time intervals, through the assembly 18 to the controlled generator 10 of the series and to the reset circuits of the converters 6. This first impulse is preparatory. The impulse re-register of 9 addresses that came to the counter 8. At the same time, the same pulse triggers the controlled oscillator 10, made, for example, on a single vibrator. The generator 10 generates a pulse, which is fed to the input of the circuit 12, which is addressed to the counter //. The pulse from the output of the counter 11 simultaneously enters the decoder 13 and the address register 9.

The code issued by the counter 11 selects the ruler, and the code coming from the counter 8 - the storage board /. The pulse that occurred at the output of the decoder, is fed to the inputs of the first

valve groups 14 and the ordinate code of the group

the functions yVI -, (where n is the coding width of the ordinate, 5 is the size of the output O | B drive) is rewritten into the first group of the 5-bit register 5.

The iCxeMa 12 obdusy issues a pulse to start the generator 10. The ordinate codes written to the second bar are read and rewritten into the second group of register 5, etc. until the ordinates of all functions in the first time interval are written to register 5. Consequently, the drive 1 will be made appeals

,, ng

1 - -, where q is the number of parallel-defined functions.

with the arrival of the second time pulse, the ordinate codes of the first time interval are rewritten into the transducers 6. The latter transform them into a voltage of continuous form, which is processed

Channels 4 sets the boundary conditions on the RC grid 15.

With the same pulse, the ordinates of the second time interval are written to register 5. Further, the process of outputting codes from the accumulator / and their conversion is repeated up to the t-time interval (where t is the discreteness of the function coding along the time axis).

With the arrival of the i-ro pulse, the one-shot 17 changes its state, i.e., a level appears at its output, closing valve 1 (3) during the preparation of the solution, since the machine works with periodicization.

At the end of the preparation time period, the key is opened and the process of entering the boundary conditions is repeated.

Subject invention

A device for setting boundary conditions

containing veers, buffer registers, digital-analog converters, decoder, cycle counter, address register, voltage regulators, characterized in that, in order to speed up the process

solving and increasing its accuracy, it contains a digital storage device and a controlled generator of a series of pulses, the outputs of the storage device are connected via valves to the buffer registers, the outputs of which through a digital-analog converter are connected to current and voltage stabilizers, with a loop counter, the output of which is connected to the enable inputs via a decoder

gates.