CS227168B1 - Cascade connection of programmable logic fields for controlling automated systems in ceramic industry - Google Patents

Description

The invention relates to a cascade connection of programmable logic arrays for controlling automata in ceramic production, which is composed of programmable logic arrays as elements with very large integration to form sequential logic circuits.

The prior art is such that a programmable logic field can be used to design and realize combinational and sequential circuits. A number of inputs can be connected to each type of programmable logic pole, a number of logic products can be created, and a number of output functions, i.e., the sums of logic products, can be output. Previously known solutions have not dealt with a complex case if the number of inputs, outputs and terms is insufficient.

The aforementioned drawbacks are eliminated by cascading the programmable logic arrays for the control of automatic machines in the ceramic production according to the invention, which is based on the fact that the outputs of the position sensors of the controlled technological process are connected to the first inputs of the first and second programmable logic terminals. The first outputs of the first and second programmable logic poles are connected to the first inputs of the third and fourth programmable logic poles. The second outputs of the first and second programmable logic poles are poorly coupled through logic members connected to their second inputs. The first outputs of the third and fourth programmable logic poles are connected to the first inputs of the fifth and sixth programmable logic poles. The second outputs of the third and fourth programmable logic poles are an inverse link through the logic elements connected to their second inputs. The second outputs of the fifth and sixth programmable logic poles are connected in a poor way through their logic members to their second inputs. The first outputs of the fifth and sixth programmable logic poles are inputs for actuators of the controlled technological process.

By utilizing the cascading circuitry of the programmable logic arrays of the invention, the need to design and manufacture programmable logic arrays for a sufficient number of inputs, terms, and outputs is eliminated, thereby allowing the use of programmable logic arrays produced in large series.

The enclosed drawing is a block diagram of a cascade wiring of programmable logic arrays for the control of automatic machines in ceramic production.

The outputs of the nologically controlled tech227168 position sensors are connected to the first inputs 1 and 2 of the first and second programmable logic fields 101 and 102. The first outputs 3 and 4 of the first and second programmable logic fields 101 and 102 are connected to the first inputs 5 and fi of the third and fourth. programmable logic arrays 103 and 104. The second outputs 23 and 24 of the first and second programmable logic arrays 101 and 102 are a poor coupling through logic elements 111 and 112 connected to their second inputs 21 and 22. The first outputs 7 and 8 of the third and fourth programmable logic arrays 103 and 104 are connected to the first inputs 9 and 10 of the fifth and sixth programmable logic arrays 105 and 108. The second outputs 27 and 28 of the third and fourth programmable logic arrays 103 and 104 are a feedback link through logic elements 113 and 114 connected to their second inputs 25 and 26. The second outputs 31 and 32 of the fifth and sixth programmable logic fields 105 and 106 are connected in a poorly coupled manner via logic members 115 and 116 to their second inputs. The first outputs 11 and 12 of the fifth and sixth programmable logic arrays 105 and 106 are control signals for actuators of the controlled technology process. The cascading connection of programmable logic arrays for control of automata in ceramic manufacturing allows the creation of sequential logic circuits to control different automata, with the number of inputs, the number of terms and the number of outputs being insufficient and technically it is not possible to realize the control circuit with one programmable logic field.

Claims (1)

SUBJECT Cascade connection of programmable logic arrays for control of machines in ceramic production, which consists of programmable logic arrays as elements with very large integration to create sequential logic circuits, characterized in that the outputs of the position sensors of the controlled technological process are connected to the first inputs (1 and 2). 2) first and second programmable logic arrays (101 and 102), the first outputs (3 and 4) of the first and second programmable logic arrays (101 and 102) are connected to the first inputs (5 and 6) of the third and fourth programmable logic arrays (103 and 104), the second outputs (23 and 24) of the first and second programmable logic arrays (101 and 102) are a bad link through the logic members (111 and 112). The expansion of the number of inputs allows block connection of the programmable logic fields 101 and 102 of the picture. The expansion of the number of terms allows blocking of the programmable logic fields 103 and 104 as shown in the figure. The expansion of the number of outputs allows blocking of the programmable logic fields 105 and 106 as illustrated. In the case of cascading of programmable logic arrays for controlling automated machines in the ceramic production according to the invention, more than 6 programmable logic arrays are needed, since additional programmable logic arrays are needed to realize the merging of outputs 3 and 4 as well as the merging of outputs 7 and 8. A logic member that is in feedback may be, for example, an AND, OR logic member, D-type flip-flops, a counter, a register, and so on. In the case of clock pulse control of programmable logic field operations, a poor coupling can be created by switching the outputs to the driver input and there is no need to insert additional logic elements. Cascade connection of programmable logic arrays for control of automatic machines in ceramic production can be used also for control of automatic machines in other industries, especially where programmable logic arrays are used to control the technological process and the number of inputs, outputs and required terms is insufficient. OF THE INVENTION connected to their second inputs (21 and 22), the first outputs (7 and 8) of the third and fourth programmable logic arrays (103 and 104) are connected to the first inputs (9 and 10) of the fifth and sixth programmable logic arrays (105 and 106) ), the second outputs (27 and 28) of the third and fourth programmable logic arrays (103 and 104) are connected to their second inputs (25 and 26), the second outputs (31 and 32) of the fifth, by means of a logical link (113 and 114). and the sixth programmable logic array (105 and 106) are connected poorly via the logic members (115 and 116) to their second inputs (29 and 30), the first outputs (11 and 12) of the fifth and sixth programmable logic array (105 and 106) are inputs for actuators of a controlled technological process. 1 sheet of drawings 1 2