SU113928A1 - Device for fixing input pulses in binary and binary reflex codes - Google Patents

Description

The invention relates to devices for capturing pulses in binary and binary reflex codes using a binary electronic counter that controls the operation of the trigger 01B of the reflex counter via differentiating chains.

Counters for a reflex code are known, based on the application of an electronic counter with a switch in the form of coincidence circuits on n inputs, where n is the number of the digit, preceded by a coincidence circuit; however, the implementation of the latter presents known difficulties.

In the proposed scheme, a binary counter is used as a switch for a reflex counter, and also captures input pulses in binary code.

The drawing shows a block diagram of the device, where the trigger T.-on the counting input is indicated by a half-hatched quadrilateral with a forked arrow, symbolizing the counting input. One of the pulses shown is crossed out. This means that pulses corresponding to such polarities are not used further.

The proposed method is based on the rule of adding one to the number expressed in the reflex code. This rule can be formulated as follows:.

“FOR THAT; to add one to the number expressed in the binary reflex code, you need to change the value of the low-order bit to supplement it, if the number is even, or change the value of the bit located immediately after the first (counting from the least-significant bit) unit by corresponding to 1, its complement if the number is very clear.

No. 113928. -, 2 -

For example, the number four (even) in the reflex code is written as 110. Adding one gives U1, which means a mark in the reflex code. Since the number five is odd, adding one to it gives the number 101, which means six. The addition to the even number of 101 units, in accordance with the rule, gives the number 100 (seven in the reflex code). As a result of adding to odd chi; with 100 units, we get 1100 (eight). A further addition of units gives 1101 (nine), 1111 (ten), 1110 (eleven), 1010 (twelve), etc.

According to the well-known property of the trigger at. converting it from one steady state to another, the output signals are rectangular in shape. By differentiating these signals, you can get a system of multi-polar pulses. Let us assume that the low potential at the trigger output corresponds to zero, and the high potential is equal to one. In this case, the negative pulses resulting from differentiation characterize the transition of the trigger from the state corresponding to one to zero, and the positive pulses from the zero state to the state corresponding to one.

Now let's connect several triggers as shown on the sketch. Suppose that in the upper row of triggers a certain number is fixed in binary form, and in the lower row - the same number, but in the reflex form.

In the drawing, the upper row of triggers is connected according to the scheme of a conventional binary counter. Consequently, there is a known pattern, characteristic of binary counters, namely: if i is the sequence number nepiBoro (counting from the least significant bit) which is in the zero position of the binary counter trigger, then when the next pulse arrives at the input, triggers, starting from TD to G; inclusively, change their states to opposite. At the same time, being in the state corresponding to one, the triggers Td - Tj.; Will go to the zero position, and T; -in a single position. Therefore, after the differentiating chains connected with the triggers T, -7, -5, negative impulses will be given that do not act on the lower row triggers, but after the differentiating chain of the trigger G; - positive momentum not acting on

trigger G; + 1, but translating the trigger of the lower row of G / into the opposite-positive state.

In the particular case when the number is even, the Go trigger will be in the zero position, which corresponds to 1 - 0. Therefore, when an oscillatory pulse arrives, not only the Go trigger, but the Go trigger will also change its state. Therefore, the addition of a unit in the bottom row of triggers for even numbers occurs in accordance with the rule of decreasing the number in a reflex form with a unit.

If the number is odd, the value of the bit that is immediately after the first (count or younger) bit will change in the bottom row. This follows from the principle of the formation of a reflex code. As you know, if we conventionally write a number in binary form in the form a „, - a, .i a -„ a2 GI Oo, where

yo, GI, 02, etc., are the values of the corresponding bits, then the same number in the reflex form a nn-2 / -y-2 "2 i" o is obtained by adding the following two numbers without hyphenation:

a „... a ,. but. . . . well

.- but . . . but,-- . . . of a

and up. . a, a- .. a, .., ... "W o about