SU708346A1 - Multifunctional module - Google Patents

Description

The invention relates to the field of cybernetics and computing.

A multifunctional module is known that contains an adder and memory elements [О · Its disadvantage is the impossibility of implementing the counter function with a constant conversion factor.

The closest technical solution to the invention is a multifunctional module containing a group of _{1 (} flip-flops, adder, OR-NOT elements, NOT elements, transfer unit and memory element [1 ']. The first group of adder inputs is a group of information inputs of the device and connected to the inputs _t of the transfer unit, the first output of which is the first output of the module. '

The disadvantage of this device is the inability to implement the counter function with a variable conversion factor. j

The aim of the invention is the expansion of functionality by implementing the functions of a counter with a constant and variable conversion factor.

This goal is achieved by the fact that the proposed multifunctional module contains a switch, the inputs of which are connected to the outputs of the triggers of the group, and the control input of the switch is a counting input of the module. The first group of outputs of the switch is connected to the counting inputs of the triggers of the group, the second group of outputs is connected to the second group of inputs of the adder, and the second group of outputs of the adder is connected to the first inputs of the first, second, third, fourth, and fifth elements OR-HE, the second inputs of which, except the second element OR-HE, connected to the first control input of the device. The first control input of the device through the first element is NOT connected to the second input of the second element ORINE and to the control input of the transfer unit. The outputs of the first and second elements OR-HE are connected to the inputs of the sixth element OR-HE, the outputs of the third, fourth and fifth elements OR-NOT are connected to the first inputs of the seventh, eighth and ninth AND AND NOT elements respectively, the second inputs of which are connected respectively to the second , the third and fourth outputs of the transfer unit. The outputs of the sixth, seventh, eighth and ninth OR-HE elements are connected directly and through NOT elements to the direct and inverse inputs of the group triggers, the control inputs of which are connected to the second control input of the module. The switch output is the second output of the module.

The drawing shows a structural diagram of the device.

It contains an adder 1, a transfer unit 2, a group of triggers 3, a switch 4, elements OR NOT 5-13, elements NOT 14-18. The drawing shows the counting input 19, the first 20 and second 21 control inputs, the first output 22, infor. madion inputs 23, transfer input 24 and the second output 25 of the module.

The device operates as follows.

When using the module as a comparison circuit, the first compared number is fed to the inputs of the module 23, and the first control input 20 is an enable signal for transmitting information through the OR-NOT 10-13 elements to the inputs of the triggers 15-18.

The received number is compared with the number received through the input 19 of the module.

Switch 4 switches the triggers as a constant factor counter. recounting. When equality is reached, a signal appears at output 22.

When the module is operating as an adder of decimal numbers, the terms are fed to the inputs of the module 23, and the transfer signal of the previous module is input 24. Triggers 3 memorize the results of the summation when applying a single signal to input 21. ·

When the module operates as a counter with a variable conversion factor, the conversion factor is set to inputs 23, and the switch 4, in accordance with the received information, commutes triggers that are not set to a single state by the signals from input 23 and form a counter.

When the module is operating as counter ₅₅ with a constant conversion factor, zero signals are sent to inputs 23. In this case, the operation of the remaining blocks of the module is similar to the operation of the module in counter mode with a variable conversion factor.

Thus, the proposed device ⁵ implements not only the functions of comparison and summation, but also the functions of the counter with constant and variable conversion factors.

to

Claims (2)

(54) MULTI-FUNCTIONAL MODULE 370834 of the eighth and ninth elements AND LI-NOT, the second inputs of which are connected respectively to the second, third and fourth outputs of the transfer unit. The outputs of the sixth, seventh, eighth and ninth elements of the OR-NB are connected directly and the worm elements are NOT to the direct and inverse inputs of group triggers, the control inputs of which are connected to the second control to the module input. Switch output O is the second module output. The drawing is a block diagram of the device. It contains an adder 1, a transfer unit 2, a group of triggers 3, a switch 4, elements I / III-LB 5-13, elements NOT 14-18. In the drawing, counting input 19, first 20 and second 21 control inputs, first output 22, infor. 20 Mbison inputs 23, transfer input 24 and second output 25 module. The device works in the following way. When using the module as a comparison system, the module 23 inputs the first compared number to the first control input 20, the enable signal for transmitting information through the OR-NB elements 10-13 to the trigger inputs 15-18. The received number is compared with the number of entries through input 19 of the module. Switch 4 commutes triggers as a counter with a constant conversion factor. When equality is achieved, a signal appears at output 22. When the module operates as an adder of decimal numbers, the inputs to the module 23 are summed, and the input 24 carries the transfer signal of the previous module. Triggers 3 remember the summation results when a single signal is applied to input 21. When the module operates as a counter with a variable conversion factor, the conversion factor is set to inputs 23, and the switch 4 switches triggers that are not set to one state by signals in accordance with the information received from input 23 and form a counter. When the module operates as a counter with a constant conversion factor, zero signals are applied to the inputs 23. At the same time, the operation of the remaining modules of the module is similar to the operation of the module in the 5 6 counter mode with a variable conversion factor. Thus, the proposed device implements not. not only the compare and sum functions, but also the counter functions with constant and variable conversion factors. A multifunctional module containing a group of P flip-flops, an adder, OR-NB elements, NOT elements, a transfer unit, the first group of inputs of the adder is a group of information inputs of the device, the first group of outputs of the adder is connected to the inputs of the transfer unit, the first output of which is It is a nerve output of the module, characterized in that, in order to expand the full functionality by implementing the counting function with constant and variable conversion factors, it contains a switch, the inputs of which are connected to the trigger outputs of the group, and the switch's control input is the counting input of the module, the first group of switch outputs is connected to the counting inputs of the group triggers, the second group of switch outputs is connected to the second group of totalizer inputs, the second group of the totalizer outputs is connected to the first inputs of the first, the second, third, fourth and fifth OR-NOT elements, the second inputs of which, except the second OR-NB element, are connected to the first control input of the device, which through the first NB element is connected with the second input of the second element I / 1I-NB and the control input of the transfer unit, the outputs of the first and second element OR-NOT are connected to the inputs of the OR, NB element, the outputs of the third, fourth and fifth elements OR-NB are connected to the first inputs respectively the seventh, Bocfcworo and ninth elements OR-NB, the second inputs of which are connected respectively to the second, third and fourth outputs of the transfer unit, the outputs of the sixth, seventh, eighth and ninth elements OR-NB are connected directly and through the elements of the NB with lines and inverse and a group of flip-flops inputs The control inputs of which are connected with the second control 7083466 input module, and the output switch-i. Copyright certificate SSHER This is the second output of the .Nj 491547 module, category 06 F 7/38, 12/24/73. Sources of information, N "496554, kl.v 06 F 7/38, 26.03.73 taken into account in the examination of s (prototype). 2. USSR author's certificate