HU184504B - Data-transfer line matching modul - Google Patents

Abstract

SUMMARY OF THE INVENTION The present invention relates to a data transmission line adapter module having n inputs and m number of outputs, transmitters and receivers arranged between the inputs and outputs associated with each other, wherein according to the invention, the data transmission line adapter module inputs are rectangular matrix layout wires. No. n, the number of rectangular matrix wiring columns k, which columns are connected to the transmitter inputs and / or receivers outputs via internal data lines, which outputs and receivers inputs the outputs of the data transfer line adapter module. The rectangular matrix layout wiring is formed on a two-layer printed circuit board or foil so that the rows are one and the columns are on the other layer, and the crossing points are formed in a short-cut manner. Figure 1 -1-

Description

BACKGROUND OF THE INVENTION The present invention relates to a data transfer line crossing module for use in electronic systems for long distance data transmission.

Various electronic devices exchange information with their environment through their inputs and outputs.

The transmission and reception of signals from electronic systems operating with modem TTL logic cannot be solved by the basic circuitry set of these logic devices, ie due to its intrinsic property. It becomes necessary to dimension communication with external units by taking into account the impedance of the lines mapping the data path. By incorporating interface elements (ICs) that match the electrical parameters of the interface, the interface can be easily solved. The interface may be implemented on an interface device generating the signals to be transmitted and forming a receiving or separate unit. In this case, the structure of the joining hardware and the arrangement of its terminals are subordinate to the function of the joining unit, which, due to the diversity of the joining units, also requires numerous designs.

From the above, it is clear that the data line adapters are made for the particular configuration and that any changes to the system setup must be made in the often inaccessible cable connector.

It is an object of the present invention to provide a universal data transmission line interface module which enables: - a line interface unit of the same structure to be used at both ends of the data transmission path, - easy attachment to a given configuration and, finally, an easily accessible data transmission line interface unit, not the cable connectors, which means that - cable connectors of any configuration can be used.

The object of the present invention has been achieved by providing a data transmission, line interface module having n inputs and m outputs, comprising transmitters and receivers spaced between the bc inputs and outputs, respectively, wherein the invention is such that connected to the inputs are a series of rectangular matrix wiring, where the number of rows of the matrix is n, the number of columns is k; connected to the columns of the matrix via internal data transmission lines are transmitters input and / or receiver outputs, which transmitter outputs and receiver inputs are connected to the m number of outputs of the module; the matrix is formed on a two-layer printed circuit board or foil such that the rows are on one layer and the columns on the other, and the intersection points are in a short-circuited manner.

Data Transmission Line Adaptive Module of the Invention: In a preferred embodiment, each of the internal data transmission lines is provided with a transmitter or receiver.

In a further preferred embodiment, each of the internal data transmission lines is provided with a transmitter and receiver var whose enable input in pairs are interconnected via an inverter

It is preferred that the inverters have at least partially input inputs.

Finally, it is advantageous for the data transmission line interface module to be in the form of a rack-mounted circuit board.

The data transmission line interface module of the present invention will now be described in more detail with reference to the accompanying drawings, in which:

1 and 2 are circuit diagrams of a data line interface module, a

Figure 3 shows a sketch of the right-angled matrix.

Figure 1 shows a matrix array wiring on a circuit board K having n rows and k columns. Al-Ak transmitters and Vl-Vk receivers are connected to the columns of M-array wiring such that the outputs of the Ai-Ak transmitters are connected to the inputs of the Vi-Vk receivers and the outputs of the Vl-Vk receivers are connected to the inputs of the Al-Ak transmitters . The VI-Vk receivers output are the number m outputs of the data transmission line interface module.

FIG. 2 is substantially the same as FIG. The difference is that in the latter, the Al-Ak transmitters and the receivers V1-Vk are provided with enable inputs between which one inverter I is connected and the inputs of the inverters I are connected to each other.

Figure 3 is a drawing of a rectangular matrix M arrangement wiring with short lines at intersection points. For example, wiring can be done on a double-sided printed circuit board, where cross-linking points are formed at the crossing points and soldered to the desired locations on both sides of the printed circuit board before or during deployment of the data line adapter module.

1-3. The number of rows and columns in the matrix layout shown in FIGS. 4A to 4A may be the same, but of course an embodiment may be provided in which the number of columns is, for example, an integer multiple of the number of rows, i.e., multiple matrix outputs.

In Figure 2, the role of the I inverters connected between the Al-Ak transmitters and the enable inputs of the V1-Vk receivers is to disable one of the Ai-Vi transceiver pairs on the same internal data transmission line while enabling the other, thereby implementing and that a universal data link interface module can be used in any data direction. In Figure 2, the inputs of each inverter I are interconnected. This corresponds to the case where the data transmission direction is the same on all data transmission lines. Of course, when transmitters and receivers are to be operated at the same time, only the inverters Ii which have the same function at the same time, i.e. the inverters Ii and the bow belonging to the transmitter Ai and the receivers Vj, need to be interconnected.

Thus, the use of the above-described data transmission line interface module enables the integration of a module with the same structure regardless of the type of peripheral, and since the relationship between the module inputs and outputs is determined by matrix M receiving rack connector wiring for connector-21

Independent of the type of peripheral 184 504 made, a rack wiring standard can be developed and developed. A significant advantage of this standard is that the data line interface module adapted to the type of peripheral, that is to say at the intersection points of the M-matrix wiring with appropriate junctions at the intersection points, does not require any special space in the rack.

Claims (3)

Patent claims A data transmission line interface module having n inputs and m number outputs, wherein m> n, and comprising transmitters and receivers arranged between associated inputs or outputs, wherein the data transmission line interface module is an input rectangular array wiring ( M) are rows consisting of n rows, k columns of rectangular matrix wiring (M), to which columns the transducer (Al-Ak) and / or receivers (Vl-Vk) are connected via internal data lines, which transmitters (Al-Ak) outputs and receivers (VI-Vk) are the outputs of the data line interface module; the rectangular matrix wiring (M) is arranged on a two-layer printed circuit board or foil with the rows on one layer and the columns on the other, and the intersection points are short-circuited. An embodiment of the data link interface module of claim 1, wherein each of the internal data lines is provided with a transmitter (A1-Ak) or a receiver (V1-Vk). The data transmission line interface module of claim 1, wherein each of the internal data transmission lines is provided with a transmitter (AJ-Ak) and a receiver (VL-Vk) having an enabling input! they are connected in pairs via an inverter (Ii). «. An embodiment of the data line adapter module according to claim 3, characterized in that the inverters (Ii) input are at least partially shared.