SU1275773A2 - Method of converting number to constant signals - Google Patents

Abstract

The invention relates to automation and computing, and is an improvement of the method according to auth. No. 1005296. Its use in measuring and conversion devices provides an increase in the speed of transformation. The method includes converting the input code into a pulse-width signal (SIS), forming SIS splices, forming additional SISs on the first period t-1, summing up additional SIS with SIS sequences, summing m the resulting SIS sequences and averaging. Due to the inclusion of the operation of the formation of two-step pulses, the establishment time is substantially less than in the prototype. 1 hp (L f-ly, 2 ill.

Description

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Claims (2)

The invention relates to automation and computing, can be used in measurement and conversion devices and systems, and is an improvement on the method of the author. # 1005296 The purpose of the invention is to improve the conversion speed and simplify the formation of two-step pulses. Figure 1 shows timing diagrams explaining the implementation of the method; Fig. 2 shows the options for forming two-step pulses. The method of converting a code into a signal includes the following actions: converting an input code into a pulse-width signal (SIS), forming an m SIS sequence with a shift each by a value relative to the previous one, where T is the period of the following pulses in the SIS sequences; in the first period t-1, additional SIS are formed with a pulse duration in each equal to the difference between the pulse duration in the SIS sequence and the duration supplementing the shift value of a given SIS sequence to T; summation of additional SIS with the corresponding 1 SIS sequence of impulse formation in SIS sequences of two-stage form with a duration of step 1 - and - amplitudes of steps mm and E, respectively, where tj (is the time interval proportional to the value of the converted code i ent / J duration - has a time shift relative to another step, equal to (t-1) - Summation of the W sequences of the SIS and averaging the result of the summation. The input code is converted into a pulse-width signal tj (proportional to the number expressed by the input code. Then, hectares of SIS sequences are formed, each of which is shifted by 1 / t of the period T relative to the previous one (Fig. 1 a - d). To eliminate the transition process in the first period for the sequences starting the second one forms the signals that supplement these sequences to the form that occurs in each of the subsequent periods. The received additional signals are summed up with the corresponding SIS sequences in time. in the form of m sequences, the signals of duration t form two stages with durations t, and tj, t, + C tx,. T T and the amplitudes of the stranded 1 - and - mm tx - i T / m penalties E and and, E A step with a constant duration - and a variable amplitude can have any time shift cf (Fig.2). However, when cf O requires analog summation of signals with amplitudes E and U, and at 4 t,. T 1 - it is necessary to monitor the time shift depending on the input code. The duration of the first stuT penalty cannot be more than (t-1) - therefore, by setting the time shift to this value, the method can be simplified, since the imposition of pulses will not occur, and the shift will have a constant value. The two-step SIS sequences are summed and then averaged. In the general case, the summation may be non-ideal, and with the coefficients Sj S (1 + S;), where S is the coefficient with ideal summation; five; - the reduced error of the summation coefficient of the jth sequence. In this case, the total voltage U Г ЗТЕ „- ± iSmE N and N is the current and maximum values of the input code (figure 1). It follows that / 8 / maxtB the amplitude of the pulsed 3 component of the signal V does not exceed. Since the duration of any article of the SIS pulse penalty is proportional. T T / T (for the first stage t, i -, i 0,1, ..., m-1, for the second stage t T / m), then the resolution is determined by the ratio of the period T to the length of the front that momentum. Since the duration of the pulse fronts is several times shorter than the minimum pulse width of the SIS in the known method, in the proposed method the follow-on period of the SIS sequences can be selected 5-10 times shorter than in the known method. Time tts. setting the output voltage taking into account the amplitude of 2SE pulses of the total signal of definite m T is divided by the formula: tyv g ZSEplnNn, Nmln Nn, 2 mEp Sm Thus, the degree of speed of the proposed method compared to the known defined ratio of the corresponding times of establishing output voltage , will be That is. The conversion speed in the proposed method, by the edge of 734 ne (at T 2T), is 5 times higher than in the known method. In addition, with a fixed T phase shift between and equal to the steps of a pulse, the operation of forming two-step pulses in m SIS sequences is simplified. Claim 1. Method for converting a code into a constant signal according to auth.St. No. 1005296, characterized in that, in order to increase the conversion speed, the pulses in all sequences of pulse-width signals form a two-step form, the durations of both stages are chosen respectively i T / m and T / m, the amplitudes are сtx-iT / m responsibly E and E. T / T T is the pulse following period in one of the m sequences, t is the time interval proportional to the value of the code being converted, i is td 2. Method POP.1, distinguishing. and with the fact that, in order to simplify the formation of pulses of a two-step form, the time shift of a step with a duration T / t relative to another step is chosen equal to (w-1) T / t. eleven " h N N " € II 3i