SU902074A1 - Ring shift register - Google Patents

Description

The invention relates to automation and computer engineering.

Known are circular shift registers with cross-connections, executed on = RS ^ and IK ^ .- flip-flops, working in the Liebau-Craig code [1].

The disadvantage of such registers is that there may be failures in which false information is cyclically moving along the ring and cannot be eliminated without an additional control scheme.

Closest to the proposed ring shift register with a control circuit for initial states, the outputs of the counting triggers of which are connected to the coincidence element> the input of which is connected to the installation input of the first trigger of the register [2).

The disadvantage of the ring register with the control of the initial states is complexity, since the matching elements have a limited number of inputs. Thus, with a significant increase in the number of discharges, it is necessary to build a multi-stage control circuit, as a result of which the number of equipment increases and the register performance decreases;

The purpose of the invention is to increase the noise immunity of the register by eliminating false signals during failures and increasing speed.

This goal is achieved by the fact that in the annular shift register containing series-connected main triggers, the clock inputs of which are connected to the first clock bus, the inverse output of the last main trigger connected to the input of the first main trigger, matching elements and the second clock bus, an additional trigger is introduced, the installation and reset inputs of which are connected to the outputs of the first and second coincidence elements, and the output - with the first input of the third coincidence element, the second input of which is is connected to the first clock bus, and the output is to the reset inputs of the main triggers, the first inputs of the first and second coincidence elements are connected to the second clock bus, the second inputs respectively to inverse and direct

902074 4 to the outputs of the first main trigger, and the third inputs to the inverse output of the last main trigger.

The drawing shows a diagram of an annular shift register. ⁵

The register contains the main triggers 1, first 2, second 3 and third 4 matching elements, additional trigger 5. first 6 and second 7 clock buses.

The proposed cross-linked register, by virtue of its' structure, holds the false information that arises and begins to repeat it cyclically. In such a cycle, there is a combination in which the first and last main triggers 1 are ¹⁵ in the state “0”, which allows you to force the register to the state 00 ... 01.

The ring shift register operates as follows.

When the state “0” occurs in triggers ²⁰ and 11 in the interval between clock pulses, which is achieved by connecting the coincidence elements 2 and 3 to the input 7 of the clock frequency inversion, a potential appears at the output of element –25 and 2, setting the trigger S to state "1". Element 4, controlled by the direct output of trigger 5 and acting as a valve, transmits a clock pulse that sets the main triggers lj, ..., 1 in position 00 ... 01. As soon as the code 00 ... 01 is set in the register, the potential appears at the output of element 3, setting the additional trigger 5 to the state “0”. The element is closed until the next failed situation. 35 The proposed circular shifting register allows eliminating malfunctions by applying only three coincidence elements and one trigger, and the number of elements of the control circuit does not depend on the number of register bits. The application of the proposed register can improve the reliability of the circuit and increase speed.

Claims (2)

This invention relates to automation and computing. Known annular shear with cross-links, executing ate on D. RSi. and 1K triggers operating in the Libau-Craig code 1). The disadvantage of such registers is that there may be failures, in which the information lying around will cycle around the ring and cannot be fixed without an additional control circuit. Closest to the proposed ring shift register with the control circuit of the initial states, the outputs of the counting flip-flops are connected to the match element, the code of which is connected to the setup input of the first trigger of the register 2. The disadvantage of the ring register with the control of the initial states is complexity because have a limited number of inputs. Thus, with a significant increase in the number of bits, one has to build a multistep control scheme, as a result of which the number of instrumentation increases and the speed of the register decreases; The purpose of the invention is to increase the register noise immunity by eliminating spurious signals in case of failure and increasing the speed. The goal is achieved in that an annular shift register containing serially connected main triggers, clock inputs of which are connected to the first clock bus, the inverse output of the last main trigger connected to the input of the first main trigger {", matching elements and the second clock bus, is introduced trigger, the set and reset inputs of which are connected to the outputs of the first and second elements of a match, and the output with the first input of a third element of a match, the second input of which is is connected to the first clock bus, and the output is to the reset inputs of the main triggers, the first inputs of the first and second elements match under the second clock bus, the second inputs are respectively to the inverse and right 390 outputs of the first main trigger, and the third inputs to inverse output poh: lny main trigger. The drawing shows a diagram of the annular shift register. The register contains the main triggers 1, the first 2, the second 3, and the third 4 match elements, the additional trigger 5, the first 6, and the second 7 clock buses. The cross-linked register / stepped register, by virtue of its structure, holds the false information that arises and begins to repeat it cyclically. In such a cycle, there is a combination in which the first and last main triggers 1 appear in the state O, which allows forcing the register to be set to 00 ... 01. Ring shift register works as follows. When the state O occurs in triggers 1) and 1 in the interval between clock pulses, which is achieved by connecting elements 2 and 3 to match input 7 of the clock frequency inversion, the output of element 2 is the potential setting triggering trigger 5 to state 1. Element 4, controlled by the direct output of the trigger 5 and acting as a valve, transmits a clock pulse, which is used to set the main triggers Ij, ..., 1 in position 00 ... 01. As soon as the code-00 ... 01 is set in the register, a potential appears at the output of element 3, setting an additional trigger 5 to the state O. The element closes until the next error situation. The proposed ring shift register eliminates failures by using only three match elements and one trigger, and the number of elements of the control circuit does not depend on the number of register bits. The use of the proposed register allows to increase the reliability of the circuit and increase the speed. The invention has an annular shift register containing serially connected main triggers, clock inputs of which are connected to the first clock frequency, the inverse output of the last main trigger connected to the input of the first main trigger, elements of coincidence, and the second clock ishna, characterized in that in order to increase the register noise immunity , an additional trigger has been entered into it, the set and reset inputs of which are connected to the outputs of the first and second coincidence elements, and the output is connected to the first input m of the third coincidence element, the second of which is connected to the first clock and the output to the main trigger reset inputs, the first inputs of the first and second coincidence elements are connected to the second clock bar, the second inputs to the inverse and direct outputs of the first main trigger, respectively , and the third inputs - to the inverse 9OUT of the last main trigger. Sources of information taken into account in the examination 1.Bukreev I.N. and others. Microelectronic circuits of digital devices. M., Soviet Radio, 1975, p. 201, 268. 2. Laneov L. L. and others. Digital frequency dividers on logic elements. M., Eiergi, 1975, p. 70 (prototype).