SU415673A1 - - Google Patents

Description

The invention relates to the field of computing, namely, devices for modeling a flat area, and can be used to solve problems with a convex region of limiting variables, in particular for modeling a turbine mode diagram, where electrical power is a function of fresh steam consumption and production selection couple. Devices for modeling a flat region are known, which contain diode arresters assembled on operational amplifiers. The disadvantage of these devices is the modeling of faces of rectangular areas. The aim of the invention is to simulate a flat area that is convex in the direction of one of the coordinates. A convexity in the direction of some coordinate means that a straight line parallel to this coordinate intersects the boundary of the area at no more than two points. This is achieved by the fact that the output of the diode limiter, to the input of which the first coordinate is fed, is connected to the inputs of two functional converters connected in series with the accumulators, the latter through the diode elements connected to the inputs of the output adder. The inputs of all adders are connected to the output of the inverter, whose second input is fed to the input. FIG. 1 shows an example of a region; in fig. 2 - analogue circuit of the device. For the variable L / L, the coordinate is chosen, in the direction of which the region D is convex. The upper boundary of the region D - broken line a - bc is dialed on the functional converter 1, the lower boundary a - d - c on the functional converter 2. The circuit consists of adders 3-5, inverter 6, diode elements 7 and 8 and diode limiters on the operational amplifiers 9 and 10. Variables L. and Lv are respectively fed to inputs 11 and 12, respectively. On the potentiometer 13, the voltage t / i is set, on the potentiometer 14 - the voltage is U. The diode elements 7 and 8 are vacuum. The device works as follows. The variable bx, at the output of the op-amp 10, varies in the interval U, L / z, which is provided by a diode-based circuit. The limiter, assembled on the op amp 9, limits the voltage from -100 V to L / t. A limiter assembled on the operational amplifier 10 limits the voltage from, to 100 volts. When the deviation of the time / l-, above the boundary a - b - c, the voltage LJ, invert 3

Inverter 6, compared with the value of voltage with Bi.ixoira FUNA iONALI

On the fruit summpyur :) l

transducer (t / rp, - b.,;) 0, g / 1.0 is available for 1e gr, - output from the function of the transducer 1 at the current value

From the output of the diode element 7 to the input, the adder 4 nostunaet iair air

(l ..) 0. At the input of the adder 4 there is a voltage

l, + (l. - gr.) - gr.,

at the exit - respectively bgr. From the output of the diode element 8, the incoming voltage is zero, since this element is closed by a positive voltage from the output of the adder 5.

When the deviation of the variable (7.c, below the boundary a - d - c, the functional converter 2, the adder 5 and the diode element 8 work.

The operation of the circuit is similar to the above.

When the variable Ei is deviated, below the a – d limit, the diode element 7 is closed by the negative voltage of the adder 3.

When a point ((7.v ,, f / .v ,,) falls into the area Z), the diode elements 7 and 8 are closed. At output 15, adder 4 has a voltage equal to and X. When a point hits (6. ,, Ur.} In region D (1 in 15 and 16 of the circuit, the same point is obtained (.,., (/,)).

If the point (U-, U,) is not ponadas;. region D, then it reaches the boundary of this region.

P reud L1 et and z about the britery

A device for simulating a convex area containing series-connected diode limiters connected to one of the device inputs, characterized in that, in order to expand the class of tasks, it contains functional converters whose inputs are connected to the output of one of the diode limiters, an inverter connected to the second input of the device, adders and diode elements, and the outputs of the first and second adders through the diode elements are connected to the first and second inputs of the third adder, and stroke inverter respectively connected to a third input of the third adder and to the first inputs of the first and second adders whose inputs are connected to outputs of the respective functional converters.