RU2580804C1 - Pulse selector - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention relates to pulse techniques. Pulse selector is for processing synchronized on the leading edge of positive pulse signals x₁, …, x₇ ∈ {0,1} having length τ₁, …, τ₇ respectively, and can be used in automatic control systems and control as a means of pre-processing information. Pulse selector comprises resistor (1) and thirty-one key (2₁₁, …, 2₆₂). Through these elements enables playback operations med (τ₁, …, τ₇), supramed (τ₁, …, τ₇). As a result of enhanced functionality pulse selector.

EFFECT: technical result is to increase the functionality by providing playback operations, where there is the duration of the positive pulse signals synchronized on the leading edge.

1 cl, 2 dwg

Description

The invention relates to a pulse technique and can be used to build automation, functional units of control systems, etc.

Pulse selectors are known (see, for example, RF patent 2517295, class Н03К 5/26, 2014), which reproduce the operation med (τ ₁ , ..., τ ₅ ), where τ ₁ , ..., τ ₅ are the durations of positive pulse signals x ₁ , ..., x ₅ ∈ {0,1}, synchronized on the leading edge.

The reason that impedes the achievement of the technical result indicated below when using known pulse selectors is limited functionality due to the fact that the operations med (τ ₁ , ..., τ ₇ ) and supramed (τ ₁ , ..., τ ₇ ) are not reproduced.

The closest to the claimed invention, a device of the same purpose for the totality of features is the pulse selector adopted for the prototype (RF patent 2518638, class Н03К 5/26, 2014), which contains a resistor, switches and plays the supramed operation (τ ₁ , ..., τ ₇ ), where τ ₁ , ..., τ ₇ are the durations of the positive impulse signals x ₁ , ..., x ₇ ∈ {0,1} synchronized along the leading edge.

The reason that impedes the achievement of the technical result indicated below when using the prototype is limited functionality due to the fact that the operation med (τ ₁ , ..., τ ₇ ) is not reproduced.

The technical result of the invention is the expansion of functionality by providing playback operations med (τ ₁ , ..., τ ₇ ), supramed (τ ₁ , ..., τ ₇ ), where τ ₁ , ..., τ ₇ are the durations of the positive pulse signals x ₁ , ..., x ₇ ∈ {θ, 1} synchronized on the leading edge.

пятая и шестая группы содержат соответственно три, пять, четыре и два ключей, четные и нечетные ключи образованных групп выполнены соответственно замыкающими и размыкающими, в каждой группе выход предыдущего нечетного ключа соединен с выходом последующего ключа, в каждой группе, кроме шестой, вход предыдущего четного ключа соединен с входом последующего ключа, входы первого, третьего, пятого ключей j-й

группы соединены соответственно с выходами первого, третьего, пятого ключей (j-1)-й группы, выходы первого, третьего и входы первого, третьего, четвертого ключей пятой группы соединены соответственно с входами первого, второго ключей шестой группы и выходами первого, третьего, пятого ключей четвертой группы, а входы первого и третьего, пятого ключей второй группы соединены соответственно с шиной нулевого потенциала и выходами первого, третьего ключей первой группы, подсоединенных входами соответственно к шине нулевого потенциала, седьмому входу импульсного селектора, k-й

вход и выход которого соединены соответственно с управляющим входом всех ключей k-й группы и выходом первого ключа шестой группы, подсоединенным через резистор к шине единичного потенциала, особенность заключается в том, что в (i-1)-ю и четвертую группы дополнительно введены соответственно два и один ключи, четные и нечетные введенные ключи выполнены соответственно замыкающими и размыкающими, вход и выход четвертого ключа первой группы, вход и выход шестого ключа (j-1)-й группы, выход шестого ключа четвертой группы соединены соответственно с входом пятого и выходом третьего ключей первой группы, входом седьмого и выходом пятого ключей (j-1)-й группы, выходом пятого ключа четвертой группы, а входы шестого ключа j-й, шестого ключа второй и четвертого ключа первой групп соединены соответственно с выходами седьмого ключа (j-1)-й, пятого ключа первой групп и восьмым входом импульсного селектора.The specified technical result in the implementation of the invention is achieved by the fact that in the pulse selector containing a resistor and twenty-four keys, which are grouped into six groups so that the first, i-th

the fifth and sixth groups contain three, five, four and two keys, respectively, the even and odd keys of the formed groups are made respectively closing and opening, in each group the output of the previous odd key is connected to the output of the next key, in each group except the sixth, the input of the previous even key is connected to the input of the subsequent key, the inputs of the first, third, fifth keys of the j-th

groups are connected respectively to the outputs of the first, third, fifth keys of the (j-1) th group, the outputs of the first, third and inputs of the first, third, fourth keys of the fifth group are connected respectively to the inputs of the first, second keys of the sixth group and the outputs of the first, third, fifth keys of the fourth group, and the inputs of the first and third, fifth keys of the second group are connected respectively to the zero potential bus and the outputs of the first, third keys of the first group, connected by inputs to the zero potential bus, seventh pulse selector input, kth

the input and output of which are connected respectively to the control input of all the keys of the k-th group and the output of the first key of the sixth group, connected through the resistor to the unit potential bus, the peculiarity is that in the (i-1) -th and fourth groups are additionally introduced respectively two and one keys, odd and even entered keys are made respectively closing and opening, the input and output of the fourth key of the first group, the input and output of the sixth key of the (j-1) -th group, the output of the sixth key of the fourth group are connected respectively to the input of the fifth and the third keys of the first group, the seventh and fifth keys of the (j-1) -th group, the fifth key of the fourth group and the inputs of the sixth key of the jth, sixth key of the second and fourth key of the first group are connected respectively to the outputs the seventh key (j-1) -th, the fifth key of the first group and the eighth input of the pulse selector.

In FIG. 1 shows a diagram of the proposed pulse selector. In FIG. 2 shows time diagrams explaining the principle of its operation.

четвертая, пятая и шестая группы содержат соответственно пять ключей 2₁₁, …, 2₁₅, семь ключей 2_r1, …, 2_r7, шесть ключей 2₄₁, …, 2₄₆, четыре ключа 2₅₁, …, 2₅₄ и два ключа 2₆₁, 2₆₂, причем четные и нечетные ключи образованных групп выполнены соответственно замыкающими и размыкающими, в каждой группе выход предыдущего нечетного ключа соединен с выходом последующего ключа, в каждой группе, кроме шестой, вход предыдущего четного ключа соединен с входом последующего ключа, входы ключей 2_j1, 2_j3, 2_j5, 2_j6

соединены соответственно с выходами ключей 2_(j-1)1, 2_(j-1)3, 2_(j-1)5, 2_(j-1)7, выходы ключей 2₅₁, 2₅₃ и входы ключей 2₅₁, 2₅₃, 2₅₄ соединены соответственно с входами ключей 2₆₁, 2₆₂ и выходами ключей 2₄₁, 2₄₃, 2₄₅, а входы ключей 2₂₁ и 2₂₃, 2₂₅, 2₂₇ соединены соответственно с шиной нулевого потенциала и выходами ключей 2₁₁, 2₁₃, 2₁₅, подсоединенных входами соответственно к шине нулевого потенциала, седьмому, восьмому входам импульсного селектора, k-й

вход и выход которого соединены соответственно с управляющим входом всех ключей k-й группы и выходом ключа 2₆₁, подсоединенным через резистор 1 к шине единичного потенциала.The pulse selector contains a resistor 1 and thirty-one keys 2 ₁₁ , ..., 2 ₆₂ , which are grouped into six groups so that the first, rth

the fourth, fifth and sixth groups contain respectively five keys 2 ₁₁ , ..., 2 ₁₅ , seven keys 2 _r1 , ..., 2 _r7 , six keys 2 ₄₁ , ..., 2 ₄₆ , four keys 2 ₅₁ , ..., 2 ₅₄ and two keys 2 ₆₁ , 2 ₆₂ , and even and odd keys of the formed groups are made respectively closing and opening, in each group the output of the previous odd key is connected to the output of the subsequent key, in each group, except for the sixth, the input of the previous even key is connected to the input of the subsequent key, inputs 2 keys _j1, 2 _j3, 2 _{j5, j6} 2

connected respectively with the outputs of the keys 2 _{(j-1) 1} , 2 _{(j-1) 3} , 2 _{(j-1) 5} , 2 _{(j-1) 7} , the outputs of the keys 2 ₅₁ , 2 ₅₃ and the inputs of the keys 2 ₅₁ , 2 ₅₃ , 2 _{54 are} connected respectively with key inputs 2 ₆₁ , 2 ₆₂ and key outputs 2 ₄₁ , 2 ₄₃ , 2 ₄₅ , and key inputs 2 ₂₁ and 2 ₂₃ , 2 ₂₅ , 2 _{27 are} connected respectively to the zero potential bus and key outputs 2 ₁₁ , 2 ₁₃ , 2 ₁₅ , connected by inputs respectively to the bus of zero potential, the seventh, eighth inputs of the pulse selector, k-th

the input and output of which are connected respectively to the control input of all the keys of the k-th group and the output of the key 2 ₆₁ connected through a resistor 1 to the unit potential bus.

The work of the proposed pulse selector is as follows. At its first, ..., sixth, seventh, and eighth inputs, positive impulse signals x ₁ , ..., x ₆ ∈ {0,1}, respectively, having durations of τ ₁ , ..., τ _6, respectively, and signals of ₁ ∈ {0, x ₇ }, y ₂ ∈ {1, x ₇ } (x ₇ ∈ {0,1} is a positive pulse signal synchronized along the leading edge with signals x ₁ , ..., x ₆ and having a duration of τ ₇ . If a logical “1” or a logical “0” acts on the control input of all keys of an arbitrary group, then each even key of this group is respectively closed either at once whip, and each odd key is respectively open or closed. Thus, the pulse signal at the output of the proposed pulse selector is determined by the expression

where ·, ∨, ^- are the symbols of conjunction, disjunction, inversion. According to (1) for y ₁ = x ₇ , y ₂ = 1 or for y ₁ = 0, y ₂ = x _7, respectively, we have

Therefore, the selector (Fig. 1) with y ₁ = x ₇ , y ₂ = 1 will reproduce the operation τ _Z = supramed (τ ₁ , ..., τ ₇ ) (see Fig. 2a), and with y ₁ = 0, y ₂ = x ₇ - operation τ _Z = med (τ ₁ , ..., τ ₇ ) (see Fig. 2b).

The above information allows us to conclude that the proposed pulse selector has a wider functionality compared to the prototype, as it provides the reproduction of the operations med (τ ₁ , ..., τ ₇ ), supramed (τ ₁ , ..., τ ₇ ), where τ ₁ , ..., τ ₇ is the duration of the positive impulse signals x ₁ , ..., x ₇ ∈ {0,1} synchronized on the leading edge.

Claims (1)

A pulse selector containing a resistor and twenty-four keys, which are grouped into six groups so that the first, i-th

the fifth and sixth groups contain three, five, four and two keys, respectively, and the even and odd keys of the formed groups are made respectively closing and opening, in each group the output of the previous odd key is connected to the output of the next key, in each group except the sixth, the input of the previous an even key is connected to the input of the subsequent key, the inputs of the first, third, fifth keys of the jth

groups are connected respectively to the outputs of the first, third, fifth keys of the (j-1) th group, the outputs of the first, third and inputs of the first, third, fourth keys of the fifth group are connected respectively to the inputs of the first, second keys of the sixth group and the outputs of the first, third, fifth keys of the fourth group, and the inputs of the first and third, fifth keys of the second group are connected respectively to the zero potential bus and the outputs of the first, third keys of the first group, connected by inputs to the zero potential bus, seventh pulse selector input, kth

the input and output of which are connected respectively to the control input of all the keys of the k-th group and the output of the first key of the sixth group, connected through a resistor to the unit potential bus, characterized in that two and two additionally entered respectively in the (i-1) -th and fourth groups one key, odd and even entered keys are made respectively closing and opening, the input and output of the fourth key of the first group, the input and output of the sixth key of the (j-1) -th group, the output of the sixth key of the fourth group are connected respectively to the input of the heel and the output of the third key of the first group, the input of the seventh and the fifth key of the (j-1) th group, the output of the fifth key of the fourth group, and the inputs of the sixth key of the jth, sixth key of the second and fourth key of the first group are connected respectively to the outputs of the seventh key (j-1) -th, fifth key of the first group and the eighth input of the pulse selector.

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