SU1739377A2 - Piece linear function generator - Google Patents

Abstract

The invention relates to automation and computing and is an improvement on the basic invention in accordance with the author. St. No. 1474692. The purpose of the invention is to simplify generator programming. The piecewise linear functions generator contains counter 1, shaper 2 of the initial setup code, element OR 3, memory block 4, digital integrator 5, digital-analog converter 6, controlled frequency divider 7, inverter 8 and clock generator 9. Simplified programming is achieved on the basis of introducing an additional output of the end of the pedestal feature: function of block 4 and controlling this feature by the shaper of the initial setup code, which allows using one area of the memory block to store the parameters of the pedestals nktsy and another region for storing the actual parameters of the functions, and for storing the second field of the ROM may be used with a constant set of functions. 1 il.

Description

The invention relates to automation and computer technology, can be used to build programmable generators of arbitrary and fixed functions approximated by linear segments and is an improvement of the main invention by ed. No. 1474692.

The aim of the invention is to simplify programming.

The drawing shows a functional diagram of the generator.

The generator contains a counter 1, a driver 2 of the initial installation code, an OR element 3, a memory unit 4, a digital integrator 5, a digital-to-analog converter 6, a controlled frequency divider T, an inverter 8, and a clock generator 9.

Block 4 memory in addition to the section of random access memory (RAM) may contain a section of read-only memory (ROM). In this case, RAM should be used to store information about the parameters of the pedestal and a variable set of predetermined functions, and ROM to store information about the parameters of a constant set of predetermined functions.

The address inputs and information outputs of the RAM and ROM sections can be parallelized. In this case, the selection of the required section should be carried out at the inputs of the Choice of the crystal. The digital integrator 5 should provide two operating modes: the integration mode and the recording mode of input information into the integrator without integration. In this case, the information previously accumulated in the integrator is deleted.

The generator is controlled by a control device, which is not conventionally shown in the drawing.

The piecewise linear function generator works as follows.

The operating mode of the generator is preceded by the loading of block 4. During the loading process, information about the parameters of the pedestal is entered in the first cell of block 4, which should be accompanied by a sign of the end of the pedestal and a sign of the approximation type, which transfers the integrator 5 to the input information recording mode without integration. Information on the parameters of the specified functions is recorded in the remaining cells of block 4 (the ROM section should be located in the high address area of the address field of the block). The last cell of each function should be accompanied by a sign of the end of the function (the end of the periodized fragment).

The loading and addressing of the cells of block 4 is carried out at inputs 10 and 11, respectively.

After loading block 4, counter 1 is reset and the generator is put into operation.

The operating mode begins with the start signal 5 of the generator 9. At the beginning of the operating mode, information about the parameters of the pedestal is read from the first cell of unit 4 and this information is entered in the form of the amplitude and length 10 of the pedestal, respectively, in the integrator 5 and the frequency divider 7. Thus under the influence ^of: approximating feature type integrator 5 is translated in the input information database recording mode of integration, the integrator chto'obespe15 Chiva 5 consisting of the corresponding value of the pedestal code regardless of the previous state of the integrator. After working out the predetermined length of the pedestal, a signal appears at the output of the frequency divider 7, which arrives at the clock input of the code generator 2 and, together with the end of the pedestal signal coming from block 4 through the 'OR 3 element to the input enabling the reader of code 2, allows code reading initial setting from code generator 2 to counter 1. The initial installation code indicates the Initial cell of the block 4 area, in which 30 information about the parameters of the specified function is recorded. Further work of the generator consists in sequentially reading the cells of the indicated region and forming, based on the information stored in them, sections of the approximation of the given function.

When reading the last cell of the region of a given function at the output of block 4, a sign of the end of the periodized fragment of the function appears, which, through the 40 OR element 3, is fed to the read enable input of the shaper 2 and, together with the clock signal from the output of the frequency divider 7, allows re-reading of the initial setup code from 45. shaper 2 to counter 1, etc., until the generator stops.

The generator is stopped by removing the start signal of the generator 9. At the same time, the integrator 8 generates a 50 signal to reset the counter 1 to its initial state, the code of which corresponds to the address of the cell of the pedestal in block 4. This ensures the repetition of the above reading sequence of the cell of the pedestal 55 and the area of the specified function for restarting the generator.

The choice of a given function from a variable and constant set of predetermined functions stored in block 4 is carried out by setting the corresponding code in shaper 2.

The introduction of the sign of the end of the pedestal and its control by the initial setup code generator ensures the independence of the location of the pedestal areas and the specified function in the memory block, i.e., it makes it possible to use one region of the memory block to store the values of the pedestal common for the entire set of specified functions, and also allows you to use as part of the block, a ROM section with a line-by-line set of functions, for each of which an arbitrary pedestal value can be set. These features make it possible to simplify the programming of the generator when playing various functional dependencies of an arbitrary form.

Claims (3)

5 Formula and sampling Generator of piecewise linear functions according to ed. St. No. 1474692, characterized in that, in order to simplify programming, an OR element is entered into it, sub- 10 is connected by the output to the permission input for reading the shaper of the initial setup code, and the first and second inputs to the input ^ of the sign of the end of the periodized fragment and the output of the sign of the end of the pede 15 has become the function of the memory unit, respectively.