SU1019372A2 - Coaxial cable checking device - Google Patents

Abstract

DEVICE FOR INSPECTION OF COAXIAL CABLES according to ed. ive NJ 6525О6, indicated by the fact that, with the extension circuit of functional capabilities due to checking the correctness of marking and desoldering, the coax cable, the third fixed contact of the switch mode and the pulse distributor was entered into the first device, one input of the hook 5 was connected to the third fixed contact of the switch , and the other input is with the negative pole of the power source, while the outputs of the pulse distributor are connected to the cathodes of the respective divider diodes.

Description

The invention is related to the electrical technology of riptic technology and can be used to create devices for controlling the coaxial cables, for example, during their operation.

According to the main author. St. No. 625506, a device for testing coaxial cables, which contains two devices A and B, the first of which includes a mode switch, short-circuit sensors, ballasts, LEDs, isolation diodes and connector boards, and the second connector strip, separation diodes are known. LEDs and control LED.

The disadvantage of this device is the impossibility of checking the correctness of marking and desoldering of the cores of coaxial cables.

The aim of the invention is to enhance the functionality by checking the correct marking and wiring of the coaxial cables.

This circuit is achieved by the device for testing coaxial cables containing terminals for connecting a DC power source, mode switch, the movable contact of which is connected to the terminal for connecting the positive pole of the power source, ballast resistance and connectors for connecting the coaxial cores cables, made in the form of two devices, one of which is equipped with separation diodes, short circuit sensors and .Setodiodes according to the number of monitored cabed wires, and Also, the control LED that connects the anode through the ballast to one of two fixed contacts of the operating mode switch and connects to the terminal of the connector for connecting the coax cable, connects the cathode to the dp terminal of the negative pole of the power source which also the diodes are connected to the terminals of the connector pads connected to the cores of the coaxial cables, the LEDs are connected via ballast resistances in parallel with the sensor am shorting some conclusions KOTojHJx combined and connected to the second fixed contact of the switch operating modes, and the other terminals of the diodes through dividing soedinesh 1 krlodki times1 ems terminals for connecting a coaxial cable cores, while the other device

equipped with LEDs according to the number of cable wires to be tested and LED diodes, the anodes of which are connected to the terminals of the connector block for connecting 5 cores of coaxial cables, and the cathodes are connected to the terminals of the connector blocks for connecting the screens of the coaxial cables, the anode of the control LED is connected to all anodes the separator diodes, the cathode of each of which is connected to the anode of the corresponding LED, the third fixed contact of the operating mode switch and the impeller distributor, about yn input of which is connected to a third fixed terminal of the switch operating modes, and the other input - with 1M otritsateln1 pole of the power source, wherein the outputs of the distributor

0 pulses are connected to the cathodes of the corresponding separation diodes.

The drawing shows a diagram of the device.

The device contains two devices.

5 The first device contains LEDs 1, ballasts 2, short-circuit sensors 3, mode switch 4, isolation diodes 5, connector pads 6, distributor

0 pulses 7 and control LED 8. The second device contains LEDs 9, control LED 10, connector pads 11, isolation diodes 12 15 - fixed outputs of the mode switch of the first device.

The device works as follows.

For the duration of the work period, the systems are connected to the ends of the tested coaxial

0 cables and power supply. Positive potential is supplied to the common output of the switch 4 operating modes of the first device and when connected to pin 13 through resistances of short circuit sensors 3 and separation diodes 5 is applied to the terminals of the connector block 6 and to the coaxial wires. cable, as well as at the terminals of the connector 11 of the second device and the anodes

LEDs 9, and the negative power through dividing diodes 5 and the terminals of the connector pins of the connectors 6 is applied to all shields of coaxial cables and to the terminals of the connector pads 11 and the cathodes of the LEDs 9.

 In the absence of a short circuit on the coaxial cable screen. Sensor 3 is flowing low, which is insufficient for the LEDs 1 to glow, while at the same time the LED is shorted to the screen, the LED 1 lights up in the same place where it has a short circuit. When the luminescence of the control LED 8 and LED 1 is not luminous, it is possible to define, by jumping the sides of the cable a short circuit has passed. When short circuiting sockets of connectors 6 of light iodine 1, the light of the vehicle becomes brighter than when short circuiting of connectors 11 of debarking, since to due to the length of the cable, the resistance of the electric power supply increases and the glow current decreases slightly. Yes 1.

In the absence of breaks in the wires to the 15 axial cables, all the LEDs 9 of the second device are light, and the absence of luminescence of the LEDs 9 indicates the presence of a break in this wire.

When connecting a switch of 20 mrv of operation 4 to pin 14 of the LED {1 and 8, 1 O control the presence of a DC voltage source. Positive loss from the AVOD CONTROL LED 1O of the second device through 25

The separation diodes 12 are driven by the anodes of the LEDs 9, and to the absence of a candle or the LED 9 means o (in the screen of the coaxial cable.

When connecting 1 operating mode switch 4 to pin 15, the positive power supply source supplies a pulse distributor 7 with a la, which successively delivers the positive potential of the direct current source through the terminals of the connectors 6 to the corresponding conductors of the coaxial cables. The correct sequence of application of the LEDs 9 of the second device indicates the level of marking (desoldering) of the short-lived cables.

; The proposed device allows you to control not only the open circuit and short circuit from coaxial cables, and check the correct marking and wiring of the coaxial cables, and as a result, increase the testing performance and reduce labor costs.

Claims (1)

DEVICE FOR CHECKING COAXIAL CABLES by ed. St. No. 652506, characterized in that, with the expansion of functionality by checking the correct labeling and wiring of the coaxial cables, a third fixed contact of the operating mode switch and a pulse distributor are introduced into the first device, one input of which is connected to the third fixed contact of the mode switch work, and the other input is with the negative pole of the power source, while the outputs of the pulses are connected to the cathodes of the respective diode spacers.