SU875402A1 - Function generating device - Google Patents

Description

(54) DEVICE FOR GENERATION OF FUNCTIONS

I

The device is adapted to automation and computing, in particular to signal generators, represented as a sum of harmonic components of the Fourier series. .

A function generator is known that contains a controlled generator, two envelope selection schemes, an output summator, and hormone formation units, the number of which is determined by the required accuracy of the approximation function, consisting of a series-connected bandpass filter, amplifier, detector, limiter, maximum and the limiter of the minimum signal fl / j.

Also known is a function generator, a content generator of rectangular pulses, connected by an output to the inputs of blocks of forming harmonic components of a Fourier series, each of which contains series-connected resonant amplifier, phase-shifting circuit and voltage divider. The outputs of the harmonic forming units are connected to the inputs of the output adder, to one of the inputs of which is also connected via a frequency-divider divider, a linear-measuring voltage generator connected to the output of a square pulse generator.

A common drawback of these generators is the reduced accuracy of function generation due to the presence of inertial elements in their composition, which lead to phase and amplitude distortions of harmonic components.

Claims (1)

The closest to the proposed technical essence and the achieved result is a device for generating functions, containing a reference pulse generator and an adder connected by an output to a device output, and inputs to the outputs of harmonic components of a row of Fourier, each of which contains integrator, smoothing filter, intermediate adder and two frequency dividers, the first of which is connected to the output of the reference pulse generator, and the output r to the first input of the intermediate pulse generator via a second frequency divider — with a second input of an intermediate adder connected by an output to an input of a smoothing filter connected by an output to an input of an integrator, while the outputs of a smoothing filter and integrator are connected to the inputs of the main cyMMaTopa 2j one specific frequency reference oscillator. The change of this frequency, for example, under the influence of external conditions, causes the appearance of phase and amplitude distortions of harmonic components caused by the presence of inertial elements, using which smoothing filters are made. This reduces the accuracy of generating functions. The purpose of the invention is to increase the accuracy of generating functions. This goal is achieved by the fact that in a device for generating functions containing a reference pulse generator and an adder, connected by an output to an output of devices, and inputs to an output of blocks forming a harmonic component of a number Fzfie, each of which contains a frequency divider connected by an input to an output reference pulse generator, in ° each block of harmonic component formation are introduced trigger, elements AND, NOT and NAND, rectangular voltage transducers into triangular and two sinus functional converters vanes, the outputs of which are connected to the inputs of the adder, and the inputs are connected respectively to the outputs of the first and second converters of a rectangular voltage into a triangular voltage, the input of the first of which is connected to the output of the element I, and the input of the second - to the output of the trigger and with the first input of the first NAND element connected by the second input to the output of the second element NOT, and at the same input to the first input of the AND element connected by the second input to the output of the second elecr DAY dream NO, the first input of which is connected to the output of the firstlementa NOT, and the second input - to the output of the frequency divider, the counting input of the flip-flop and a second input of the NOR, the figure is a block diagram Apparatus for generating functions. The proposed device contains. a pulse generator 1 and an adder 2 connected by an output to a device output, and inputs to the outputs of blocks 3 forming harmonic components of a Fourier series; Each of blocks 3 contains a frequency divider A, trigger 5, the first and second elements are HE 6 and 7 first and the second elements AND-NOT 8 and 9, the element 10, the first and second converters AND and 12 rectangular to triangular voltage and two sinus functional converters 13 and 14, connected by outputs to the inputs of the adder 2, and inputs to the outputs of the first and second transform Oatatals II and 12, Converter P input is connected to the output of element I 10, and converter 12 input to trigger output 5, the input of the first element NOT 6 and the input of the first element AND-NOT 8, AND-NOT element 8 is connected by a second input to the output the second element is NOT 7, and the output is to the first input of the AND 10 element, the AND 10 Element is connected to the second input to the output of the second element NES 9, the first input of which is connected to the output of the HE 6 element; and the second input to the output divider 4. frequency, the counting input of the trigger 5 and the input element NO 7. The input of the divider 4 frequency is connected to the output ohm reference generator 1 pulses. The apparatus for generating functions operates as follows. The generator 1 generates a reference sequence of rectangular pulses arriving at the inputs of the blocks 3 forming harmonic connections; Each unit produces, at its outputs, a cooTBeTtT– essentially sine wave and cosine wave component of the order of this row. The division factor of the divider 4 frequency of each block 3 is equal to the ratio of the frequency of the generator I to twice the harmonic number of the decomposition of the Fourier series, determined by the corresponding block 3. From the output of the divider 4 frequency of each block 3, pulses go to the counting input of the trigger 5, to the input of the HE element 7 at one of the inputs of the element is AND-NOT 9, to the other input of which pulses are received with the frequency halved through the element NOT 6 from the output of the trigger 5, If we consider the sequence of pulses at the input of the trigger 5 in binary code Like 0101, then On exit, the pulses can be represented as OOP. The elements AND-HE 8 and 9 carry out a logical multiplication of the pulse sequences appearing at their inputs and then inverting the results of the multiplication. The pulse sequence at their outputs can be represented in a total of 1101 for the element X-NOT 8 and 1011 for the element AND-HE 9, Pulses from the outputs of the elements AND-NE 8 and 9 to the inputs of the element AND 10 that performs the logical multiplication operation. The sequence of pulses on its output will look like 1001. As a result, the above-mentioned operant phase of the pulses at the output of the element And 10 will be shifted relative to the phase of the pulses in the 1st turn of the trigger 5 by an amount equal to | G / 2 .; at this magnitude, the shear angle does not depend on the frequency of the pulse generator 1 pulses. At the same time, the pulses from the output of the trigger. 5 and from the output of the element I 10 are fed to the inputs of the transducers 12 and R rectangular to a triangular, respectively. The sequence of triangular pulses from the outputs of blocks 1J and 12 is shifted relative to each other by 90, is given to the inputs of sinus functional converters 13 and 14 (made, for example, on a field-effect transistor with switching diodes), where it is converted into a sinusoidal voltage. living The final stage of generating the generating function is carried out with 1 | omoshchir adder 2, in which the obtained sine-wave and cosine-wave components of the Fourier series are summed with the corresponding weight coefficients and signs,. Thus, the proposed device, by eliminating inertial elements (. Smoothing filters and performing zero-inertia-generating triangular voltages into sinusoidal ones in the presence of a constant phase shift 1C} 2 (does not change when changing the generator frequency ij, functions in comparison with the known. In addition, the proposed device when used as converters 13 and 14 - converters, made, in particular, on field-effect transistors with switching This is also simpler. The latter is also explained by the elimination of 3-integrators from the block (the prototype phase shifts, which require high-quality operational amplifiers to achieve the required accuracy at high frequencies. Formula of the invention a pulse generator and an adder, connected by an output to the output of the device, and by inputs to the outputs of blocks forming the harmonic components of the Fourier series. each of which contains a frequency divider connected by an input to the output of the reference pulse generator, characterized in that, in order to increase the accuracy of function generation, a trigger, AND, NOT and NAND elements, and rectangular converters are inserted into each harmonic component forming unit. voltage in a triangular and two sinus functional converters, the outputs of which are connected to the inputs of the adder, and the inputs are connected respectively to the outputs of the first and second converters of rectangular voltage to treug the first input of which is connected to the output of the AND element, and the second input to the trigger output, input, the first element is NOT and to the first input of the first AND-NOT element connected by the Second input to the output of the second element NOT, and the output to the first input element And connected to the second input with the output of the second element AND-NOT, the first input of which is connected to the output of the first element NOT, and the second input - to the output of the frequency divider, the counting input of the trigger and to the input of the second element NOT. Sources of information taken into account in the examination 1. USSR author's certificate №376780, cl. G 06 G 7/28, 1971. 7 2, USSR Author's Certificate of 9 235572, cl. G 06 G 7/26, 1968. 8754028. 3. Avtooskoe certificate of the USSR for application No. 2602274 / 18-24, cl. & 06 & 7/28, 1978 (prototype).