CS273901B1 - Connection of discrete signals station - Google Patents

Abstract

It handles the connection of the station of discrete signals for logical control and for transmission of discrete signals from and to the technological process. Each station of discrete signals is connectable to the communication circuit, which is connected with the superior system; the communication circuit is always connected with the input and output of each station of discrete signals, while it is at the same time formed by the input and output of the communication interface, whose duplex output is connected with the inner bus, which connects at the same time with the duplex inputs of the diagnostic unit, units of the discrete inputs and units of the discrete outputs. The individual inputs of the units of the discrete inputs are connected with the units of the discrete outputs from the technological process and the individual outputs of the unit of the discrete outputs are connected with the discrete outputs into the technological process.<IMAGE>

Description

The invention relates to the connection of a discrete signal station intended for logic control with for the transmission of discrete signals from and to a technological process.

The prior art systems of logical control and transmission of discrete signals enabled autonomous control of small technological units, with a limited possibility of connection to a superior system, or with a limited possibility of cooperation of a larger number of individual logic control systems. Other connections utilized a logic processor separate from the interface units and the interconnection was realized by multi-core cables. This arrangement does not allow the system to be revived without further aids and further does not allow the efficient creation of more complex networks. When transmitting data over long distances, this solution leads to a sharp increase in electronic circuits and fasteners.

The wiring of the discrete signal station according to the invention combines the advantages of the hitherto known wiring while eliminating their disadvantages. Its essence is that the second to n-th discrete signal station is connected to a communication ring connected to the master system, the output of which is connected to the input of the second discrete signal station and further always the output of n-1 discrete signal station is connected to the input nth discrete signal station, whose output is connected to the input of the master system. The input or output of the second to the nth discrete signal station is at the same time the input and output of the communication interface, the two-sided output of which is connected to the internal bus connected to the two-sided inputs of the diagnostic unit. the first to mth discrete output units, wherein the individual inputs of the first to nth discrete input units are coupled to discrete inputs from the process and the individual outputs of the first to m th discrete output units are coupled to the discrete outputs to the process.

The advantage of the wiring of the discrete signal stations according to the invention lies in the simple method of interconnecting multiple discrete signal stations over a long-distance coaxial line over the known wiring. Any number of discrete signal stations, which are distinguished by an address, can be connected to the master system. The advantage is also the possibility to work with a higher-level system or in the manual control mode, which is mainly used to revive and control individual inputs or outputs.

In the accompanying drawings, Fig. 1 shows an example of connecting 2 to n discrete signal stations to a communication ring, and Fig. 2 schematically shows an example of an arrangement of one discrete signal station.

Communications ring 100 connects the output of the previous member with the input of the next element, i.e. the output of the master system 1 is connected with the station Z2 discrete signals and whenever the output of the n-1 station Z _n _J discrete signals is connected with the n-th station Z ^ discrete signals, the output of which is connected to the input of the master system 1.

The communication ring 100 is connected to the input and output of the discrete signal station Zj, which are both the input and output of the communication interface 2, the two-sided output of which is connected to the internal bus 40. the discrete input unit X ^ and the two-sided input of the discrete output unit. The inputs of the discrete input unit and the outputs of the discrete output unit Y1 are routed from and to the process.

The function of the discrete signal station connection can be divided into two parts. During the commissioning and testing of the station, the communication interface 2 is disconnected from the communication ring 100 with its input and output. On the diagnostic unit 8, select an input or output variable whose value is always displayed on the diagnostic unit with the help of communication interface 2.

CS 273901 B1 either disables or disables discrete output.

The second part of the function consists in the mode of cooperation with the master system 1. The master system 1 communicates on the communication ring 100 requests for switching on or off the individual output variables in individual discrete signal stations. It retrieves information from these stations about execution of the above command as well as information about the input variables status of individual discrete Bignal stations, the communication interface 2 provides digital filtering of all this input data and protection against the absence of any of the control commands for the output data. If any of these commands does not arrive within a certain time, communication interface 2 disables all discrete outputs.

The solution according to the invention will find application in computer, measuring and control technology wherever discrete data from and to the technological process need to be processed in digital form.

Claims (1)

SUBJECT OF THE INVENTION Connection of discrete signal station, consisting of communication interface, diagnostic unit, discrete input and output units, characterized in that the second to nth station (Z ₂ , Z ^ ... Z _n / discrete signals is connected to the communication ring) 100 /, connected to the master system (1), whose output is connected to the input of the second station (Z ₂ ) of the discrete signals and further always the output of the n-1 station (Zn-1) of the discrete signals is connected to the input of the nth station / Zn discrete signals, the output of which is connected to the input of the master system (1), the input or output of the second to nth station (Z ₂ , Zj ... Z _fl ) of the discrete signals being also the input and output of the communication interface (2) , whose two-sided output is connected to the internal bus (40), to which are connected simultaneously the two-sided inputs of the diagnostic unit (3), the first to nth unit (Xp X ₂ ... X _n / discrete inputs, pr ork to m-th unit / _g Yp Y ... Y / discrete outputs, wherein each input the first to n-th unit / XP X ₂ ... X _n / discrete inputs are connected to discrete 'inputs of the technological process and the individual the outputs of the first to m th units (Yp Y ₂ ... Y _m ) of the discrete outputs are connected to the discrete outputs into the technological process.