SU1575166A1 - Function generator - Google Patents

Abstract

The invention relates to automation and computing and can be used in spectral analysis and communication devices for generating orthogonal functions. The aim of the invention is to simplify the Haar function generator. The generator contains a counter of 2 clock pulses and a group of keys 4. A new order of connecting structural elements provides the implementation of the generator with a smaller number of keys. 1 il.

Description

The invention relates to automation and computing and can be used in spectral analysis and communication devices for generating orthogonal functions.

The purpose of the invention is to simplify the generator.

The drawing shows the functional diagram of the Haar function generator for case n 3.

The proposed generator contains a clock generator 1, a three-bit binary counter 2, two groups 3, 3. keys 4. The group 3f contains Two keys,, the group Zg consists of six keys connected in a series. The information inputs of each pair of keys of the second cascade are connected to the output of the corresponding key C of the first cascade. Information inputs of the keys of the first cascade of the first 3, and second 3, groups are connected respectively to the inverse output of the second and third bits of the counter

2. The control inputs of each pair of keys 4 of the first cascade of the first 3 and second 3r groups are connected respectively to the direct and inverse outputs of the first and second bits of the counter 2. At the same time, the output 5 of the first discharge of counter 2, the outputs 6-11 of keys C the first cascade of the first 3, the group and the second cascade of the second group 34 are information outputs of the generator.

At the discharge outputs of counter 2, voltage levels of ± 1 are formed. Key 4, when applied to its control input voltage level +1, is equivalent to the closure of the information input-output circuit. A voltage of -1 at the control- and keying input of the switch Z determines the zero level of the output voltage.

The Haar function generator works as follows.

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Under the influence of clock pulses, the counter 2 generates the bipolar Rademacher signals Rf R, R2Rt and R. PK. The Rademacher signal R is the first Haar signal Ht. To the poet, he is directly fed to the information output 6 of the Haar signal generator. The information inputs of the keys / group 3t receive the Rademacher inverse signal R, and their control inputs, respectively, R and the inverse R1 signal of the Rademacher of lower frequency. As a result, a 6-half period of a higher-frequency signal, RaDemacher Ri; f.e, is passed to the output of the 6-half period. function On. In a similar way, the second half of the period of the Rademacher signal R to the output 7 of the Haar function generator H occurs. The key k can be closed by the first (second) half-wave Rademacher signal. At the same time, the zero value of the corresponding Haar function appears at its output. Functions H, H relate to the second group of Haar functions

The second group of 3 g keys Q works like the first. Functions H - H7 refers to the third group of Haar functions.

Claims (1)

Invention Formula The Haar function generator, which contains a clock generator, the output of which is connected to the counter input, a group of keys, and the most significant inverse bit output of the counter is the output of the Haar function of the first generator group, which is different from the fact that the i-th the inverse bit output of the counter (i 2, n, n-bit of the counter, 2 is the width of the Haar function system) is connected to the information inputs of the keys of the first subgroup (i - 1) -th group, output of the j-ro key K th subgroups (1-1) -th group (i 1,2R, R 1, i-1) is connected to the information input am (2j- -1) -th and 2j-ro keys (K + 1) -th subgroup. (1-1) -th group, (1-1) -and inverse bit counter output are connected to control inputs of odd keys (P-1) -th subgroup of each group, (i-1) -and forward bit the output of the counter is connected to the control inputs of the even-numbered keys (i-1) and subgroups of each group, the outputs of the keys (i-1) and subgroups (i-1) and groups influence the outputs of the Haar functions of the i-th generator . Editor I. Segl Nick Compiled by V. Baikov Tehred M. KhodanychKorrektor I.Musk Order 17ED Circulation 558 VNIIPI State Committee for Inventions and Discoveries under the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, 4/5 Raushsk nab. Subscription