DE1268671B - Electronic selection device for the assignment of the elements arranged in rows and columns in a resistor diode matrix to certain switching elements - Google Patents

Description

Electronic selection device for the assignment of the resistor diode matrix Elements arranged in rows and columns for certain switching elements The invention relates to an electronic selection device for the assignment of a matrix Elements arranged in rows or columns for specific switching elements.

In known selection devices are used to select the lines and Column switches are used across the perpendicular rows or columns of a matrix in which the electronic elements are arranged, the Close the circuit to the corresponding element. The switches for the rows or columns are switched on by supplying a certain potential. When using a resistor diode matrix, this potential is only applied to the column switch fed when the rows are each connected to a fixed potential via a resistor. In such a matrix the current flows from that belonging to the mentioned potential Source to that through a diode or to that through the diode and one to this in Row of lying electronic element marked crossing point, from one through Turn on the column switch selected column and row via the switch to the crowd. At the line belonging to this crossing point you can control A corresponding branch stream can be taken from further elements. Major drawbacks This selection device occurs especially when through the at the intersection points Elements located interference signals are coupled in, which together with the in the Line flowing branch current are fed to the connected elements. By the interfering signals that occur will reduce the functional reliability and efficiency of the connected Elements badly affected, if not entirely eliminated.

The purpose of the invention is that of a matrix-like structure electronic selection device to reduce the necessary switching times to a minimum while at the same time improving functional safety and functionality.

The object of the invention is an electronic selection device for the assignment of the elements arranged in rows or columns in a matrix to create certain elements, in which the signals reaching these elements have a minimal ratio of the interference level to the usage level.

According to the invention this is achieved by adding the lines of an electronic Selection device for the assignment of the rows in a resistor diode matrix and columns arranged elements for certain switching elements the rows of a electronic selection device from always two with the primary coil one Transformer-terminated lines exist, each of which has a resistor is connected to a fixed potential, and that each one of the two becomes one Line belonging lines directly via a diode and the other line via a selectable transformer and a diode, each with one with the same is connected via resistors to a fixed potential column lines that the diodes to the column lines are polarized in the same direction, so that in a column line selected by switches from the associated row lines always one diode operated in the forward direction with the associated one Transformers in series.

Another solution according to the invention is that the row lines jointly a row line effective as a neutral conductor is assigned, and that the Row lines separately via primary coils connected to the neutral row line effective transformers are coupled.

The invention is based on the two shown in the drawings Embodiments described below. It shows F i g. 1. a resistor diode matrix with double wiring per row, FIG. 2, a resistor diode matrix with certain line assignment.

The selection device 1 represents a resistor diode matrix which consists of the columns 2, 3, 4 and the row lines 5, 6, 7, 8. Two of these lines 5, 6 and 7, 8 each form a row and are connected to one another via the primary coils 9, 10 of the transformer 13, 14 assigned to each row. The secondary coils 11, 12 of the transformers transmit the signals induced in them to the amplifiers 15, 16.

At the intersection of columns 2, 3, 4 with the lines of the selection device 1 are in the lines 5 and 7, the diodes 17, 18, 19, 23, 24, 25, while at the crossing points of columns 2, 3, 4 with lines 6, 8, diodes 20, 21, 22, 26, 27, 28 with the elements lying in series and to be selected, in this example, transducers 29 to 34 are arranged. Through further transformers 35 to 40 can be from a memory (not shown) or from another Source originating information through the transmitter 35 to 40 by means of the transmitter 29 to 34, d. H. by the between the associated transformers 29, 35; 30, 36; 31, 37; 32, 38; 33, 39; 34, 40 present coupling in the selection device can be entered. Columns 2, 3, 4 and thus also the collectors 41 to 43 the transistors 44 to 46 are connected to the negative potential via the resistors 47 to 49 - Ui connected. The same applies to the row lines 5 to 8, which are connected via the Resistors 50 to 53 are connected to the same negative potential - U2. the Emitters 54 to 56 of transistors 44 to 46 are connected to ground. The bases 57 to 59 the transistors are fed with signals from dialing systems (not shown) and thus the desired column 2, 3 or 4 of the selection device 1 is selected itself.

By such an input signal at the base 58 of the transistor 45 transistor 45 becomes conductive and the voltage at collector 42 becomes more positive, so that the diodes 18; 21, 24; 27, which through the row lines 5, 6 and 7, 8 and column line 3, the more negative potential present in the blocking region, in the pass band can be reversed.

At the primary coils 9 and 10 of transformers 13 and 14 are located at the 7, 8 supplied potentials on the row lines 5, 6 and that are given appropriate dimensioning each other nearly the same, so that it can flow through the primary coils 9 and 10, no current and thus there is also no transmission of signals through the secondary coils 11 and 12 to the amplifiers 15 and 16. But couples z. B. the transmitter 39 via the transmitter 33 and diode 27 a signal originating from some source in the row line 8, arises at the primary coil 10 a voltage difference or a voltage drop of the size of the coupled signal, which is transmitted through the secondary coil 12 to the amplifier 16 is transmitted. By using two row lines 5 to 8 and their parallelism to generate a row signal in the transformers 13, 14, it is achieved that only the pure useful signal from the transformer 30, 36 and from the transformer 33, 39 to the respective associated amplifier 15, 16 is transmitted, while the potentials occurring at the primary coils 9, 10 of the transformers 13, 14 as a result of the selection of the rows and columns are the interference levels which the amplifiers 15, 16 cannot influence. The same phenomena also occur in the selection device 60 (FIG. 2). The columns are selected via the transistors 61 to 63 and the resistors 64 to 66, which are connected to the negative potential - U1. The row lines 67 to 69 are connected to the negative potential -U2 via the resistors 70 to 72. At the crossing points of the rows with the columns 73 to 75 are in the lines 67, 69 the diodes 76 to 78 and 82 to 84 with the elements to be selected 85 to 87 and 89 to 91 in series, while the two parallel and as a central line Row line 68 connected to the center tap of primary coil 92 of transformers 88, 94 only has diodes 79 to 81. When a signal is coupled in by one of the transmitters 95 to 100, as described for the selection device 1 (FIG. 1), the respective transformer 94 and. 88 only transmit the useful signal occurring as a result of the coupling as the difference between the interference and useful potentials occurring at the transformers. The selection device 60 (FIG. 2) has only been designed to be more advantageous than the selection device 1 (FIG. 1).

Claims (2)

Claims: 1. Electronic selection device for the assignment of the elements arranged in rows and columns in a resistor diode matrix to certain switching elements, characterized in that the rows are always two with the primary coil (9, 10) of a transformer (13, 14 ) there are closed lines (5 and 6; 7 and 8), each of which is connected to a fixed potential (- U2) via a resistor (50, 51, 52, 53), and that in each case one of the two lines belonging to a row ( 5, 7) directly via a diode (17, 18, 19, 23, 24, 25) and the other line (6, 8) via a selectable transformer (29 and 35; 30 and 36 ... 34 and 40) and a diode 20, 21, 22, 26, 27, 28) each with one column lines (2, 3, 4) also connected to a fixed potential (-U1) via resistors (47, 48, 49), so that the Diodes (17 to 28) to the column lines (2, 3, 4) viewed in the same direction are arranged polarized, so that in a v On switches (44, 45 or 46) aasselectable column line (2, 3 or 4) of the assigned row lines (5 to 8), always one diode (20, 21, 22, 26, 27, 28) operated in the forward direction with the respective associated transformers (29 and 35; 30 and 36 ... 34 and 40) is in series. 2. Electronic Selection device according to Claim 1, characterized in that the row lines (67, 69) is jointly assigned a row line (68) which acts as a neutral conductor and that the row lines (67, 69) are connected to the neutral row line (68) Primary coils (92) of transformers acting separately (88, 94) are coupled. Documents considered: German Auslegeschrift No. 1090 887.