SU571818A1 - Functional converter - Google Patents

Claims (2)

The invention relates to the field of computer technology and can be used in the development of devices for the mathematical processing of frequency sensor signals. A functional converter containing a pulse generator, a frequency divider, an adder and nonlinear blocks, for example, with a piecewise linear characteristic, consists of series-connected subtractive and multiplying-dividing devices, the first inputs of which are connected to the inputs of the device, the second inputs are connected with the outputs of the frequency divider, and the outputs with the inputs of the adder ij. The disadvantage of this converter is the relatively low accuracy of its operation. The closest technical solution to the invention is a functional converter, which, like the proposed converter, contains a successive adder and a frequency-pulse tracking system, the output of which is the output of the converter, subtraction blocks connected one of the inputs to the subtraction frequency inputs of the converter, elements AND , the first inputs of which are connected to the inputs of the frequency of multiplying the converter, and the driver of control pulses connected from the inputs to the generator pf reference frequency 2. The complexity of this converter is due to the large number of alemvents, which is especially true for data processing systems with the requirements of producing a given function with high accuracy. The aim of the invention is to simplify the converter. This goal is achieved by the fact that in the proposed converter, the free input of the control pulse former is the input of the converter, and its output is connected to the second inputs of terminals I, the outputs of which are connected to the inputs of the adder through the corresponding subtractors. FIG. 1 shows a structural diagram of a functional converter; in fig. 2 is a plot of the formation of one portion of the playback function of the transducer. The inverter contains the shaper 1 of the control pulses, the OB 2, the subtractor 3, the adder 4, the frequency pulse with the eddy system 5, and the reference frequency generator in, the converter operates as follows. The input frequency pulse signal FX reaches the input of the former 1, which controls the operation of the elements I. Cpej and the frequency of the signal F (at the output of the elements And is 1, From the outputs of the elements And, the signal Fi is fed to the inputs of the subtractors. Average frequency jl s The output of each subtraction unit at. f F is determined by the equations at FX Fj4 at FX fzt - fi - A) the funnel corrector, iteyr nbBh & srfeA with the unbalanced character of the signal || / fF,) is calculated on fng 2. The signals from the outputs of the blocks subtract 1SHY are summed by the adder and equal to ERNO are distributed kyu time-frequency momentum ioy necks track system. The frequency of an arbitrary signal of a functional n | ieo6power is equal to N. where N g is the number of approximation sites. Claims of the Invention A functional converter containing a series-connected adder and a pulse-frequency tracking system whose output is the output of the converter, subtraction blocks connected by one of the inputs to the inputs of the subtraction of the converter, the elements AND, the percussion inputs are connected to the inputs of the multiplication frequencies converter g; - and a control pulse driver, associated with one of the inputs to the reference frequency generator, characterized in that, in order to simplify the converter in it, the free input of the driver and equal pulses is the input of the converter, and its output is connected to the second. And by the inputs of the elements And, the outputs of which through the appropriate subtraction blocks are connected to the inputs of the adder. Sources of information taken into account in the examination: 1.Palamaryuk G. O'Nova I.I. On the issue of building a pulse-frequency model. Proceedings of RRTI, R, 1970, p. 48, 2. USSR author's certificate number 215598, Cl. G 06 07/26, 1968. l 2i ,, 9ig.2