DE3113696A1 - Control circuit for sampling and driving a multiplicity of switches and/or magnets - Google Patents

Abstract

A control circuit for sampling and driving switches or magnets which are connected to one another and to a sequence control unit via leads (cables), which control circuit is distinguished by the fact that the cabling cost can be kept very low even for a very large number of switches and magnets, in that a control assembly is formed which consists of a series circuit formed from a diode, a magnet and a switch having a zener diode arranged in parallel with the switch, the control assembly being arranged at predetermined intersections of a lead matrix.

Description

The invention relates to a control circuit for deactivating

keying and control of a large number of switches or magnets, which are connected to each other and to a sequence control unit via lines.

With such a control circuit as used in control technology is often used, there is the disadvantage that the wiring effort in a correspondingly high number of switches and magnets can be considerable.

The invention is based on the output, a control circuit to create the type mentioned in more detail, by which also for a special large number of switches and magnets with a very simple control option the cabling effort can be kept extremely low.

To solve this A u f g a b e, the invention provides that a Control assembly is formed, which consists of a series connection of a diode, a magnet and a switch with a Zener diode arranged in parallel with the switch, and that the control assembly is in each case at predeterminable creation points of a line matrix is arranged.

Advantageous developments and preferred embodiments of the Subject matter of the invention emerge from the subclaims.

According to the invention, the main advantage can be achieved that of a sequence control unit controlled by two selectors, a certain magnet and a whole line via a selector and several threshold voltage amplifiers can be scanned by switches of a matrix.

The control assembly formed according to the invention has only two connections on. Such control modules can nn the intersection points in any large number be arranged in an initiation network. Such a matrix then has at M times N Units only M plus N connections.

For a matrix with lo, ooo elements, the result is accordingly of the invention only 200 connections. The control circuit according to the invention is reduced not only the cabling effort is crucial, but also the control effort from a sequence control unit or from a computer.

The invention is explained below, for example, with reference to the drawing described; FIG. 1 shows a circuit diagram of a circuit according to the invention Control assembly, Figure 2 is a circuit diagram of a threshold voltage amplifier and Figure X is a circuit diagram of a line matrix in which the inventive Circuit arrangement is realized as shown in FIG a magnet 11 and a switch 12, which are also combined into a logical unit can be arranged in such a way that in parallel with the switch 12, a Zener diode 13 is arranged and this is formed from the switch 12 and the Zener diode 13 Parallel connection in series with the magnet 11 and a diode 10 is arranged. This control module, which thus essentially consists of a series connection of a Diode Io, a magnet 11, and one of the switch 12 and the zener diode 13 formed parallel circuit is formed, has two connections, of which one is connected to the switch 12 and the other to the diode 1o.

The control assembly illustrated in FIG. 1 according to the invention can easily be used as an integrated circuit on a single chip be realized.

A threshold voltage amplifier 2 is shown schematically in FIG shown. This threshold voltage amplifier 2 has an operational amplifier 14 on which one input 19 for an input signal and another input 18 for a reference signal. The other input 18 is via a resistor 15 connected to an input terminal 17. In addition, the other input 18 of the Operational amplifier 14 is connected to ground via a Zener diode 16.

FIG. 3 illustrates a line mix in which in each case the intersection points by a control assembly according to the invention as shown are bridged in the figure n.

The matrix lines that form the columns and rows of the matrix, are each connected to a sequence control unit 6 via transistors 5 and 3, respectively. This sequence control unit 6, which is preferably designed as a microprocessor is connected to a voltage source 7.

Those lines that form the lines of the line matrix, are each connected to the sequence control unit via a threshold voltage amplifier 2 6 connected. It is between the input of a threshold voltage amplifier 2 and the voltage source 7 each have a pull-up resistor 4 arranged.

The sequence control unit 6 has the option of switching through a transistor 5.X a line 8.1 and through the switching of a transistor 3.Y to activate a line 9.Y and to control each magnet. It plays it does not matter whether a switch 12 is open or closed. because the operating voltage is much greater than the Zener voltage of the Zener diode 13, so that the magnet both picks up when the switch is open as well as when it is closed. There can never be more than one Attract magnets at the same time, as each control module 1 differs from the other control modules is decoupled by a diode lo.

The sequence control unit 6 also has the option of using the Switching through a transistor 5.X to activate a line 8.X and via Y threshold voltage amplifier 2.Y check the voltage on the Y lines 9.Y. Thereby Y become resistors used as pull-up resistors 4 so that the Zener diodes 13 are weakly energized, to show their zener voltage when the switch is open.

A threshold voltage amplifier 2.Y shows the sequence control unit 6 a closed switch by a signal below the threshold voltage and it indicates an open switch by a signal above the threshold voltage at. The current of the pull-up resistors 4 does not attract a magnet, because it is a few factors below the required solenoid control current.

Likewise, the resistance of the magnet hardly affects the voltage of the lines 9.Y as it is a few factors below pull-up resistance 4.

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Claims (9)

Claims l. Control circuit for scanning and for control unit a multitude of switches or magnets that work with one another and with a sequence control unit are connected via lines, thereby g e k e n n n z e i c h n e t that a control module (1) is formed from a series connection of a diode (1o), a magnet (11) and a switch (12) with a switch (12) arranged in parallel Zener diode (13) consists, and that the control module (1) each at predeterminable Crossing points of a line matrix is arranged. 2. Control circuit according to claim 1, characterized in that g e k e n n z e i c hn e t that between the sequence control unit (6) and the line matrix selectors (3,5) are arranged. 3. Control circuit according to claim 2, characterized in that g e k e n n -z e i c h n e t that the selectors are designed as transistors (3, 5). 4. Control circuit according to one of the preceding claims, characterized it is noted that the switch (12) in the control module (1) is at a use of the control circuit in the safety area is in the rest position is located. 5. Control circuit according to one of the preceding claims, characterized g e k e n n n z e i c h n e t that the Zener voltage of the Zener diode (1 #) is about Quarter of the operating voltage supplied by a voltage source (7). 6. Control circuit according to one of the preceding claims, characterized it is not indicated that at predeterminable points in the lines between the line matrix and the sequence control unit (6) threshold voltage amplifier (2) are provided. 7 Control circuit according to claim 6, characterized in that g e k e n n -z e i c h n e t that the threshold voltage amplifier (2) is designed as an operational amplifier which each compare the input voltage (19) with a reference voltage (18), which is about two thirds of the Zener voltage of the Zener diode (13). 8. Control circuit according to one of the preceding claims, characterized g e k e n n n n e i c h n e t that to a predeterminable group of lines in each case a pull-up resistor (4) is switched on, through which a weak current is supplied the Zener diode (13) is adjustable. 9. Control circuit according to one of the preceding claims, characterized it is noted that the sequence control unit (6) is a microprocessor is trained.