SU661565A1 - Function generator - Google Patents

Description

The invention is related (to the field of computer technology and can be used to form a predetermined 1.1X functional 1) 1x dependencies.

A functional transducer I is known, based on the principle of piece-linear approximation of a given functional relationship and containing potentiometers for setting the steepness and for example; ranzistor cells.

The disadvantage of this converter is the complexity of the setup and the low accuracy of the playback functions.

The closest technical solution R of the invention is a functional converter 2 containing sloping potentiometers, the first output of each of which is connected to a zero-voltage generator, operational amplifiers, and the negative processing circuit of each of which includes a respective series-connected diode and a large-scale resistor brotherly, input scaling resistors and potentiometers for limiting, connected by a reference voltage bus and a zero potential bus, average output each

A potentiometer for setting a limited through the first input large-scale resistor is connected to the input of the corresponding optical amplifier.

The disadvantage of such a converter is the complexity of tuning. The output signal of the converter is the sum of the piecewise broken functions, therefore changing the PARAMETER () 8 ONE of these summing functions in the process of tuning in one of the prediction nodes inevitably causes a change in the value of the output signal of the converter in many other nodes. In addition, the overall summing amplifier introduces errors.

The aim of the invention is to improve the operation accuracy and simplify the adjustment of the converter.

Claims (2)

To achieve this goal, in the converter, the common output of the diode and feedback resistor of all operational amplifiers is connected to the VSB of the functional converter, the second terminals of all the potentiometers set the slope of the function converter, and the middle output of each of them is connected through the corresponding second input scale resistor with the input of the corresponding operational amplifier. The drawing shows an electrical schematic diagram of a functional converter (cell). The functional transducer contains n identical cells, according to the number of linear sections of the approximating piecewise linear function. Each cell contains an operational amplifier 1, in the feedback of which the scale resistor 2 and diode 3, the input scale resistors 4, 5, the slope setting potentiometers 6 and the limit setting potentiometer 7 are included. The potentiometer 7 is connected between the voltage of the reference voltage 8 and the thickness of zero potential 9. Functional converter works as follows. With an open diode 3, there is a voltage at the output of the first cell, which is a linear function of the input voltage of the converter. The slope of this function is determined by the position of the slider of the potentiometer 6, and the initial displacement along the ordinate axis is determined by the position of the slider of the potentiometer 7. Since in one node, which includes all the outputs of the cells, several different voltages that form cells 1 + n, then in the process of changing the input voltage of the converter to its output, the voltage of that cell, which should be maximal at a given moment, passes. In this case, the diode 3 of this cell is open, and the diodes of all other cells are locked with a higher negative potential at the output of the converter. The feedback of cell amplifiers in which diode 3 is locked is broken and their properties of summing amplifiers are violated. As a result, the output is always allocated from the voltage that is currently the maximum. The converter is configured as follows. The outputs of the cells 1 + n are disconnected from the output of the converter, and according to the specified values of the function in the approximation nodes., R --.--, potentiometers 6 and 7 expose the voltages at these nodes. The outputs of the cells are then connected to the output of the converter. If it is necessary to change the value of the function, an adjustment of the corresponding section is made at one of the sites. At the same time, other areas of restructuring do not require. The tuning time of the converter is reduced several times, which reduces & idle time of all the equipment due to the adjustment. ,, The absence of a total sum i -ionc c mivmjjytuLuciu amplifier increases transducer accuracy a nastowhee connected diode and a feedback mass resistor, input scale resistors and limiting potentiometers connected between the reference voltage and the np zero potential, the average output of each potentiometer setting the limit through the first input scaling resistor is connected to the input of the corresponding operational amplifier, characterized in that, in order to improve the accuracy of operation and simplify converter tuning, it has the output terminal of the diode and feedback feedback resistor of all operational amplifiers connected to the output of the functional converter, the second terminals of all potentiometers setting the slope are connected to the input of the functional converter, and the average output of each of the x through the respective second input masschtabny resistor connected to input of the respective operational amplifier. Sources of information taken into consideration in the examination 1. USSR author's certificate 296121, cl. G 06 G 7/26, 1969. 2. Hybrid Computing System VS-100, ed. Institute of Management Problems, M., 1974, p. 81-84