RU2706471C1 - Pulse selector - Google Patents

Abstract

FIELD: physics.SUBSTANCE: invention relates to pulse equipment. Providing selection of n synchronized on leading edge positive pulse signals x,…,x∈{0.1}, having duration τ,…,τrespectively, of signal x, duration τwhich is (n-2)-th by value after minimal among durations τ,…,t, where n=6. Pulse selector is proposed, which is intended for logic processing of pulse signals and can be used in automatic adjusting and control systems as a means of preliminary information processing. Pulse selector comprises resistor (1) and eighteen switches (2,…,2, 2, 2).EFFECT: pulse selector is proposed.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.

Known pulse selectors (see, for example, RF patent 2517295, class H03K 5/26, 2014) that provide a choice of n positive pulse signals x ₁ , ..., x _n ∈ {0,1) synchronized on the leading edge having durations t ₁ , ..., t _n, respectively, of a signal x _i whose duration τ _i is (n-2) in magnitude after the minimum duration among τ ₁ , ..., τ _n , where n = 5.

The reason that impedes the achievement of the technical result indicated below when using known pulse selectors includes limited functionality, due to the fact that signal processing x ₁ , ..., x _{n is} not allowed at n = 6.

The closest device of the same purpose to the claimed invention in terms of features is the pulse selector adopted for the prototype (RF patent 2595960, class H03K 5/00, 2016), which contains a resistor, switches and provides a choice of n positive edge-synchronized pulse signals x ₁ , ..., x _n ∈ {0,1} having durations of τ ₁ , ..., τ _n, respectively, of signal x _i , whose duration τ _i is (n-2) -th largest after the minimum duration among τ ₁ , ..., τ _n , where n = 5.

The reason that impedes the achievement of the technical result indicated below when using the prototype is limited functionality, due to the fact that signal processing x ₁ , ..., x _{n is} not allowed at n = 6.

The technical result of the invention is to expand the functionality by providing a choice of n positive impulse signals x ₁ , ..., x _n ∈ {0,1} of _n duration synchronized along the rising edge, having durations of τ ₁ , ..., τ _n, respectively, of signal x _i , duration τ _i which is the (n-2) -th largest after the minimum among the durations τ ₁ , ..., t _n , where n = 6.

группы соединены соответственно с входами (r+2)-го и первого ключей второй группы, входом r-го ключа третьей группы и k-ым входом импульсного селектора, особенность заключается в том, что в него дополнительно введены четвертая группа ключей и выполненные размыкающими семнадцатый, восемнадцатый ключи, четные и нечетные ключи всех групп выполнены соответственно замыкающими и размыкающими, выход третьего и вход четвертого ключей третьей группы, выход первого и вход второго ключей четвертой группы соединены соответственно с выходом четвертого и входом пятого ключей третьей группы, выходом второго и входом третьего ключей четвертой группы, выход пятого ключа второй группы и вход r-го ключа четвертой группы, выход (r+2)-го ключа (0,5×(9-r))-й группы и вход первого ключа первой группы соединены соответственно с входом пятого и выходом r-го ключей третьей группы, выходом восемнадцатого ключа, подсоединенным через резистор к шине единичного потенциала, и входом семнадцатого ключа, подсоединенным к шине нулевого потенциала, выход семнадцатого и вход восемнадцатого ключей соединены соответственно с входом третьего ключа первой группы и выходом первого ключа четвертой группы, а управляющий вход всех ключей четвертой группы и управляющий вход j-го

ключа образуют соответственно четвертый и (j-12)-й входы импульсного селектора, выход которого соединен с выходом восемнадцатого ключа.The specified technical result in the implementation of the invention is achieved by the fact that in the pulse selector containing a resistor and three groups of keys, the output of the first and second key input of the rth (r∈ {1,3}) group, the output of the rth and input (r + 1) of the keys of the second group are connected respectively with the output of the second and the input of the third keys of the r-th group, the output of the (r + 1) -th and the input of the (r + 2) -th keys of the second group, and the output of the r-th and input of the first keys of the first group, the output of the rth key of the second group and the control input of all keys of the kth

the groups are connected respectively to the inputs of the (r + 2) th and first keys of the second group, the input of the rth key of the third group and the kth input of the pulse selector, the peculiarity is that a fourth group of keys is added to it and made by disconnecting the seventeenth , eighteenth keys, even and odd keys of all groups are made respectively closing and opening, the output of the third and input of the fourth keys of the third group, the output of the first and the input of the second keys of the fourth group are connected respectively to the output of the fourth and the input of the fifth key of the third group, the output of the second and input of the third key of the fourth group, the output of the fifth key of the second group and the input of the rth key of the fourth group, the output of the (r + 2) th key (0.5 × (9-r)) -th group and the input of the first key of the first group are connected respectively to the input of the fifth and the output of the r-th key of the third group, the output of the eighteenth key connected via a resistor to the unit potential bus, and the input of the seventeenth key connected to the zero potential bus, the seventeenth output and input eighteenth keys connected respectively with the input of the third key of the first group and the output of the first key of the fourth group, and the control input of all the keys of the fourth group and the control input of the jth

the key is formed respectively by the fourth and (j-12) -th inputs of the pulse selector, the output of which is connected to the output of the eighteenth key.

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

, 2_(р)(3), 2_(р)(5), 2₁₇ и, 2₁₈ и 2(_m)(2), 2_(р)(2), 2_(р)(₄) выполнены соответственно размыкающими и замыкающими, выходы ключей 2_(m)(1), 2_(p)(r) (r∈{1,3}) и входы ключей 2_(m)(2), 2_(р)(r+1) соединены соответственно с выходами ключей 2_(m)(2), 2_(р)(r+1) и входами ключей 2_(m)(3), 2_(p)(r+2), выходы ключей 2₁₇, 2_(1)(r), 2_(p)(r), 2₍₂₎₍₅₎, 2₍₄₎₍₁₎ и входы ключей 2₁₇, 2₍₁₎₍₁₎, 2₍₂₎₍₁₎ соединены соответственно с входами ключей 2₍₁₎₍₃₎, 2_(2)(r+2), 2_(р+1)(r), 2₍₃₎₍₅₎, 2₁₈ и шиной нулевого потенциала, а управляющий вход ключей 2_(m)(1), 2_(m)(2), 2_(m)(3), управляющий вход ключей 2_(р)(1),…,2_(р)(5) и управляющий вход ключа 2_j

образуют соответственно m-й, р-й и (j-12)-й входы импульсного селектора, выход которого, подсоединенный через резистор 1 к шине единичного потенциала, соединен с выходами ключей 2₍₃₎₍₅₎, 2₍₄₎₍₃₎, 2₁₈.The pulse selector contains a resistor 1 and eighteen keys 2_{(1) (1)}, ..., 2_{(4) (3)}, 2₁₇, 2_eighteen, moreover, keys 2_{(m) (1)} (m∈ {1,4}), 2_{(m) (3)}, 2_{(p) (1)}

, 2_{(p) (3)}, 2_{(p) (5)}, 2₁₇ and 2_eighteen and 2(_{m) (2)}, 2_{(p) (2)}, 2_(R)(₄) are made respectively opening and closing, the outputs of the keys 2_{(m) (1)}, 2_{(p) (r)} (r∈ {1,3}) and key inputs 2_{(m) (2)}, 2_{(p) (r + 1)} connected respectively with the outputs of the keys 2_{(m) (2)}, 2_{(p) (r + 1)} and key inputs 2_{(m) (3)}, 2_{(p) (r + 2)}, key outputs 2₁₇, 2_{(1) (r)}, 2_{(p) (r)}, 2_{(2) (5)}, 2_{(4) (1)} and key inputs 2₁₇, 2_{(1) (1)}, 2_{(2) (1)} connected respectively to the key inputs 2_{(1) (3)}, 2_{(2) (r + 2)}, 2_{(p + 1) (r)}, 2_{(3) (5)}, 2_eighteen and a bus of zero potential, and the control input of keys 2_{(m) (1)}, 2_{(m) (2)}, 2_{(m) (3)}, control key input 2_{(p) (1)}, ..., 2_{(p) (5)} and control input key 2_j

 form respectively the mth, rth and (j-12) -th inputs of the pulse selector, the output of which, connected through a resistor 1 to the unit potential bus, is connected to the outputs of the keys 2_{(3) (5)}, 2_{(4) (3)}, 2_eighteen.

группы действует логическая «1» либо логический «0», то каждый нечетный ключ этой группы соответственно разомкнут либо замкнут, а каждый четный ключ соответственно замкнут либо разомкнут. Когда x_w=1

либо x_w=0, ключ 2_w+12 соответственно разомкнут либо замкнут. Таким образом, импульсный сигнал на выходе предлагаемого импульсного селектора определяется выражениемThe work of the proposed pulse selector is as follows. At its first, ..., sixth inputs, positive pulse signals x ₁ , ..., x ₆ ∈ {0,1} are synchronized along the leading edge, and have durations of τ ₁ , ..., τ _6, respectively. If on the control input of all keys the gth

If the group has a logical “1” or a logical “0”, then each odd key of this group is respectively open or closed, and each even key is respectively closed or open. When x _w = 1

either x _w = 0, key 2 _{w + 12,} respectively, open or closed. Thus, the pulse signal at the output of the proposed pulse selector is determined by the expression

есть символы конъюнкции, дизъюнкции, инверсии. Согласно (1) имеемwhere ⋅, ∨,

there are symbols of conjunction, disjunction, inversion. According to (1), we have

Therefore, the proposed pulse selector provides a choice of six positive pulse signals x ₁ , ..., x ₆ ∈ {0,1} synchronized along the leading edge, having durations of τ ₁ , ..., τ _6, respectively, of a signal, x _i , of which duration τ _i is the fourth largest after the minimum among the durations τ ₁ , ..., τ ₆ .

The above information allows us to conclude that the proposed pulse selector has a wider functionality compared to the prototype, since it processes six pulse signals.

Claims (1)

A pulse selector containing a resistor and three groups of keys, the output of the first and input of the second keys of the rth (r∈ {1,3}) group, the output of the rth and input of the (r + 1) th keys of the second group are connected respectively to the output of the second and the input of the third keys of the rth group, the output of the (r + 1) th and input (r + 2) of the keys of the second group, and the output of the rth and input of the first keys of the first group, the output of the rth key of the second groups and control input of all keys of the kth

the groups are connected respectively to the inputs of the (r + 2) th and first keys of the second group, the input of the rth key of the third group and the kth input of the pulse selector, characterized in that the fourth group of keys is added to it and are made by disconnecting the seventeenth, eighteenth keys, even and odd keys of all groups are made, respectively, by closing and opening, the output of the third and input of the fourth keys of the third group, the output of the first and the input of the second keys of the fourth group are connected, respectively, with the output of the fourth and input five of the keys of the third group, by the output of the second and input of the third key of the fourth group, the output of the fifth key of the second group and the input of the rth key of the fourth group, the output of the (r + 2) th key (0.5 × (9-r)) groups and the input of the first key of the first group are connected, respectively, with the input of the fifth and the output of the rth keys of the third group, the output of the eighteenth key connected via a resistor to the unit potential bus, and the input of the seventeenth key connected to the zero potential bus, the seventeenth output and input the eighteenth keys are connected, respectively, with the input of the third key of the first group and the output of the first key of the fourth group, and the control input of all the keys of the fourth group and the control input of the jth

the key is formed, respectively, by the fourth and (j-12) -th inputs of the pulse selector, the output of which is connected to the output of the eighteenth key.

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