CS260495B1 - Cable Testing Equipment - Google Patents

Abstract

The connection is intended for a cable testing device. The clock pulse generator is connected by its output to the gate input. The gate output is connected to the counter input. The counter outputs are connected to the multiplexer inputs, to the address comparator inputs and the address indication circuit. The counter serial transmission output is connected to the input of another counter. Its outputs are connected to the address comparator inputs and the address indication circuit. The demultiplexer outputs are connected to the input connector of the cable under test. The output connector of the cable under test is connected to the data inputs of the multiplexer. The multiplexer output is connected to the tester input circuit, whose output is connected to the input (R) of the bistable flip-flop. The output of the testing start button is connected to the input (Sj) of the bistable flip-flop, whose output is connected to the gate control input. The tester reset button output is connected to the reset inputs of both counters

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for testing multi-conductor cables, in particular connecting and interconnecting cables of electrical and electronic apparatus and devices.

Electrical and especially electronic devices and devices are interconnected by bundles of flat cables with a large number of conductors. During the production, commissioning of the devices as well as in the detection of faults of these devices during operation, the testing of interconnecting cables, which consists of two parts, is performed. In the first part, the correct connection of the individual wires of the cable is checked and in the second part, the wires are checked against short circuits.

Cable testing is most often done manually using an ohmmeter, possibly through a power supply and a bulb or buzzer. However, this method is time-consuming or, for example, a cable with 50 wires requires 1,275 measurements. Measurement itself usually requires two workers and places considerable demands on their attention and mutual coordination.

However, methods and devices are known which accelerate and facilitate cable testing, such as the method of GB Patent No. 1,486,752, by which defects in electrical cables are detected by connecting the conductor ends with a high-resistance material on one side. On the other hand, one wire is powered from the signal generator and on the first side it is found by the telephone handset. However, only disconnected conductors of the test cable can be searched using this method.

Another method according to GB patent no. 1 298 350 serves to examine cables with connectors at both ends to which adapters are connected to form groups of conductors that are connected in series.

The groups of conductors are tested in sections and the resistance between groups is measured. Each group is controlled by relay. The device for carrying out this method is quite complex, as well as working with it.

Another method according to GB Patent No. 1,370,109 is used to automatically test a multi-core cable having the same terminal numbers. The cables are connected via resistors to one pole of the power supply and each corresponding pair of terminals is connected to a comparator and via switches to the other pole of the power supply. The comparators detect the potential difference and stop the sequence of error indications.

The device according to DOS No. 2 626 727 is optically inspected by means of light-emitting diodes, or according to DOS No. 2 205 286, the rotary principle of interconnection of contacts placed on the disc is used for cable testing. However, these devices are too complex and inadequately operational. As well as the device according to DOS No. 3 002 036, which checks the cable by means of two switches and the correctness of interconnection is checked by a bulb.

The invention is based on this prior art and eliminates the disadvantages of the prior art devices. SUMMARY OF THE INVENTION The invention is based on a cable testing device arranged such that the clock pulse generator is connected to the gate input by its output. The gate output is connected to the counter input, the counter outputs are connected to the multiplexer inputs, the address comparator inputs, and the address indication circuit. The serial transmission output of the counter is connected to the input of the second counter, the outputs of which are connected to the inputs of the demultiplexer, the address comparator inputs and the address indicator circuit.

The outputs of the demultiplexer are connected to the input connector of the test cable, whose output connector is connected to the data inputs of the multiplexer. The output of the multiplexer is connected to the input circuit of the tester, the output of which is connected to the input R of the bistable flip-flop. The output of the test start button is connected to the input S of the flip-flop whose output is connected to the gate control input. The output of the tester reset button is connected to the reset inputs of both counters.

The tester in the circuit according to the invention quickly registers cable faults. It is reliable in operation and simple to manufacture. The advantage is also low weight and space saving tester.

An exemplary embodiment of a cable tester according to the invention is shown schematically in the attached drawing.

The clock pulse generator 1 is connected with its output to the gate input 4, which forms the integrated circuit of the MH 7400. The gate output 4 is connected to the input of the counter 5, which constitutes the two integrated circuits of the MH 74 193. The outputs of the counter 5 are connected to the inputs of the multiplexer 8. it consists of four integrated circuits MH 74 150 and one integrated circuit UCY 74 153, at the inputs of the address comparator 10 consisting of two integrated circuits UCY 7485 and an indication circuit 11 address.

The serial transmission output of the counter 5 is connected to the input of the second counter 6, also formed by two integrated circuits MH 74 193. The outputs of the second counter 6 are connected to inputs of a demultiplexer 9 composed of four integrated circuits MH 74154 and one integrated circuit MH 3205. addresses and the indication circuit 11 addresses.

The outputs of the demultiplexer 9 are connected to the input connector 13 of the cable being tested. Its output connector 12 is connected to the data inputs of the multiplexer 8. The output of the multiplexer 8 is connected to the input circuit 14 of the tester, the output of which is connected to the input R of a bistable flip-flop 3 of the R-S type. The output of the test start button 2 is connected to the input S of the bistable flip-flop 3, the output of which is connected to the gate control input 4. The output of the tester reset button 7 is connected to the reset inputs of both counters 5, 6.

The cable tester according to the invention operates as follows:

The electronic circuits of the multiplexer 8 and the demultiplexer 9 perform the function of the switches whose position is determined by their counters 5, 6. The address comparator 10 compares the reader 5 of the multiplexer 8 and the second counter 6 of the demultiplexer 9. through the connector 12 and the multiplexer 8, the logic level of the cable under test goes to the tester input circuit 14.

The tester input circuit 14 interacts with the address comparator 10 so that the comparator 10 evaluates the addresses of the multiplexer 8 and the demultiplexer 9 when a logic 0 is to appear at the tester input to send a signal to the tester input circuit 14. The tester input circuit 14 evaluates the signal equivalence from the address comparator 10 and the multiplexer 8.

If there is an inequality, the flip-flop 3 resets, causing the cable to stop, and the faulty cable wire number appearing on the address indication circuit 11. To start the measurement, press button 2, which sets the flip-flop 3 and allows clock pulses from generator 1 through gate 4 to counter input 5. Button 7 is used to reset counters 5, 6, which means that it sets the default position of multiplexer 8 and demultiplexer 9 .

Claims (1)

Device for testing multi-conductor cables, in particular connecting and interconnecting cables of electrical and electronic devices and devices, characterized in that the clock pulse generator (1) is connected by its output to the gate input (4), the gate output (4) is connected to the counter input (5), the counter outputs (5) are connected to the multiplexer (8) inputs, the address comparator (10) inputs, and the address indicator circuit (11), wherein the serial transfer output of the counter (5) is connected to the second counter input ( 6), whose outputs are connected to the inputs of the address comparator (10) and the address indicator circuit (11), whereupon the outputs of the demultiplexer (9) are connected to the input connector (13) of the test cable, the output connector (12) connected to the data inputs multiplexer (8), wherein the output of the multiplexer (8) is connected to the input circuit (14) of the tester, the output of which is connected to the input (R) of the bistable flip-flop (3), The test start button output (2) is coupled to the input (S) of the bistable flip-flop (3), the output of which is connected to the gate control input (4), and the tester reset button output (7) is connected to the reset inputs of both counters. (5, 6).