RU2715361C1 - Monitoring system of split connections of cable path - Google Patents

Abstract

FIELD: communication equipment.

SUBSTANCE: invention relates to communication engineering, in particular to equipment of cable systems and can be used to identify the state of ports of switching panels through which network devices are connected. Monitoring system of detachable connections of cable path includes switching panels, units for monitoring availability of connectors in ports of switching panel, software and hardware interface unit, which includes microcontroller, software unit for processing, storing and displaying information on use of ports of switching panels. Each unit for monitoring presence of connectors in ports of switching panel includes a group of contactless distance sensors. Each of contactless distance sensors is installed switching panel so that when connected to port connector is located in sector of detection of corresponding contactless distance sensor, not falling into sector of detection of other contact sensors of distance.

EFFECT: broader functional capabilities, high reliability of identifying busy ports of switching panels.

1 cl, 2 dwg

Description

The invention relates to communication technology, in particular, to the equipment of cable systems and can be used to identify the status of the ports of patch panels through which network devices are connected.

A known monitoring system detachable cable path connections (US patent No. 6784802, priority from 11/06/2001, author Mishael D Stanescu (CA)). The description of this invention indicates that the control of the connection in the cable system is carried out using radio frequency identifiers (RFIDs) applied to the ends of each cable and the RFID sensor at the connection points. Tag identifiers are read using the RF reader antennas installed on each port of the patch panel. The disadvantage of this system is the need for marking each connecting cable, which is difficult in the case of a large-scale cable system. Significantly reduced the efficiency of work on the replacement of connecting cables. And in the case of a large territorial separation of the objects of operation, such a need can lead to disruption of the regulatory deadlines for restoring the systems to working capacity. In addition, the use of such a system in an existing informatization facility will require the replacement of all connecting cables at the operating facility.

The closest analogue to the claimed invention is a system for identifying the state of the ports of patch panels (RF patent No. 2583999, priority of 01/20/2015, "Connection sensor for identifying the port of the patch panel", author: B. Hosts, IPC: G01R 31/04 , H04M 3/22, published 05/20/2016, Bull. No. 14). The description of this patent indicates that the identification sensor is placed near the corresponding port of the patch panel at a distance sufficient to receive signals of spurious electromagnetic radiation that occurs in the cable path when the corresponding signals are transmitted through this cable, and at a distance from other ports of the patch panel, excluding false alarms of the sensor from signals of spurious electromagnetic radiation from the cable path of other ports. The sensor removes spurious electromagnetic radiation from the plug or socket of the IEC 60603-7 (RJ45) standard connector and can be installed on the front panel of the patch panel. The information signal from such a sensor (as for similar systems) can be processed using a data processing unit, to which all connection sensors must be connected in such a way that a specific port of the patch panel corresponds to a specific port of the sensor for removing spurious electromagnetic radiation. To display and process information about the patch panel, the data processing unit can interact with a personal computer (PC).

Thus, in the closest analogue there are no drawbacks indicated in comparison with the invention No. 6784802, however, there are other drawbacks, such as the inability to remove electromagnetic radiation from the connector, in the case when the network equipment is in the off state, but in fact the connector port of the patch panel stays busy. In addition, in the case of optical patch panels, this method is not applicable due to the absence of electromagnetic radiation during signal transmission in fiber-optic communication lines.

The general principle of functioning of known systems for identifying the state of ports of patch panels includes: placing each of the connection sensors near the corresponding port of the patch panel at a distance sufficient to receive signals of spurious electromagnetic radiation that occurs near the cable path of this port when corresponding signals are transmitted through this cable; connection to the data processing unit of all connection sensors; identification by means of a data processing unit of a particular port of the patch panel by a signal from a connection sensor corresponding to that port when sensing spurious electromagnetic radiation; PC interaction with the data processing unit for displaying and processing information about the patch panel.

The technical problem is the creation of a cable path detachable monitoring system that allows you to identify the status of the patch panel port regardless of the state of the equipment (on / off), and also without the need for additional steps for marking connecting cables with special labels.

The technical results to which the invention is directed are the expansion of functionality, increasing the reliability of identifying the employment of ports of patch panels.

These technical results are achieved in that the cable path detachable monitoring system contains at least one patch panel, on which an appropriate control unit for the presence of connectors in the patch panel ports is installed, a hardware-software interface unit including a microcontroller and containing identifiers of each control unit the presence of connectors in the ports of the patch panel, a software unit for processing, storing and displaying information about the use of ports of the patch panel antennas, each control unit for the presence of connectors in the ports of the patch panel includes a group of proximity sensors of distance, each of which is installed on the corresponding patch panel next to the corresponding port so that when connected to this port, the connector is located in the detection sector of the corresponding proximity sensor of distance, this did not fall into the detection sector of other contact distance sensors, the output of each control unit for the presence of connectors in the ports of the connection panel ene with the appropriate software and hardware input interface unit, input / output hardware-software interface unit connected to the input / output software of the processing unit, storing and displaying information about the use of patch panel ports.

The expansion of functionality is:

- the possibility of identifying the busy state of the patch panel port in any state (on / off) of cable infrastructure equipment;

- the possibility of using the system for any communication lines, including fiber optic.

To achieve this result, we propose the use of proximity sensors that are located in close proximity to the corresponding port of the patch panel so that the connected connector in the port of the patch panel will be in the detection sector of a particular sensor and not fall into the detection sector of other sensors. The use of contactless distance sensors makes it possible to identify the state of employment of the patch panel port when the cable infrastructure equipment is turned off, and also to apply in particular for fiber-optic communication lines.

Due to the possibility of monitoring the status of the ports of patch panels when the cable infrastructure equipment is turned off, the reliability of the information about the state of the ports is increased.

The use of the inventive system eliminates the need for introducing (applying) additional components (RFID tags) to the composition of existing and operating cable systems, which greatly simplifies the implementation of the inventive system in operation, and reduces its cost.

In FIG. 1 is a functional diagram of an embodiment of a monitoring system for detachable cable duct connections. In FIG. 2 shows the principle of operation of the hardware unit for controlling the presence of connectors in the ports of the patch panel.

The cable duct detachable monitoring system (Fig. 1) includes patch panels 1 ₁ , ..., 1 _k , blocks 2 ₁ , ..., 2 _{k for} controlling the presence of connectors in the ports of the patch panel, a hardware-software interface unit 3, including a microcontroller 4 , a program unit 5 for processing, storing and displaying information about the use of ports of patch panels, where k = 1, 2, ...

For each 1 _k patch panel, a corresponding 2 _k block for controlling the presence of connectors in the ports of the patch panel is installed. Each block 2 _{k for} monitoring the presence of connectors in the ports of the patch panel includes a group of proximity sensors 6 _k distance (Fig. 2), each of which is installed on the corresponding patch panel next to the corresponding port so that when connected to this port, the connector was located in the detection sector the corresponding non-contact distance sensor, while not falling into the detection sector of other contact distance sensors.

The output of each block 2 _{k for} controlling the presence of connectors in the ports of the patch panel is connected to the corresponding input of the hardware-software block 3, the input / output of the software and hardware block 3 is connected to the input / output of the software block 5 for processing, storing and displaying information about the use of switching ports panels.

Each 1 _k patch panel represents the end of a cable line made in the form of standard network connectors (sockets / ports) placed in a standard case in the form of a box or panel. The 1 _k patch panel is for switching cable lines.

Each block 2 _{k for} monitoring the presence of connectors in the ports of the patch panel includes a set of proximity sensors 6 _k distance, as well as a group of comparators and is designed to generate a digital record of the status of the busy ports of the patch panel (for example: 110010010 - from the digital record it follows that the first, second, fifth and eighth ports are busy, the rest are free). The number of blocks 2 _k monitoring the presence of connectors in the ports of the patch panel is used in proportion to the number of patch panels.

Each proximity sensor 6 _k distance is designed to identify the corresponding connector in the corresponding port of the patch panel and is an electronic device consisting of a light wave emitter (photodiode) and a photodetector (phototransistor), which are enclosed in a common housing and operate in the same wavelength range (in infrared - IR). The principle of operation of such a sensor is to capture by the photodetector the wave reflected from the object (connector) that the emitter sent. When a network cable is switched to the port of the patch panel 1 _{k, the} cable connector enters the detection zone of the corresponding 6 _k distance sensor from the group of hardware blocks 2 _{k the} presence of connectors, which in turn changes the output state (in the absence of a network / patch cable connector in the sensor detection zone 6 _k distance, the output of the 6 _k distance sensor is in the neutral state - 0 V). Depending on the type of patch panel, the placement of sensors is determined.

The hardware and software interface unit 3, including the microcontroller 4, is designed to process the signals received from the 6 _k sensors and transmit, through special software (software driver), the received information to the software unit 5 for processing, storing and displaying information about the use of ports of patch panels about the use of ports patch panels, for example, through RS-232 (or another available interface) in a specific format for its further conversion and transfer to a PC administrator Ator via Ethernet. For each group of ports (mainly for the group of ports of one patch panel), a mechanism is provided that forms a unique identifier for the block - ID (based on special jumper switches - jumper's).

The software unit 5 for processing, storage and display of information about the use of ports of patch panels is a control software for convenient display of information about the use of resources of cable infrastructure. The program unit 5 processing, storage and display of information about the use of ports of patch panels is installed on any PC running an operating system of the Windows / Linux family. Depending on the needs of the administrator, information on the use of patch panel ports can be displayed on the screen in the form of a table or as a graphic image of the corresponding patch panel with a connected / disconnected connector. A mechanism is provided for issuing information in various editable formats for the preparation of reporting firms. All information about patch panels and installed connectors is stored in a database.

The monitoring system detachable connections of the cable path works as follows.

Previously, on each patch panel 1 _k , a corresponding block 2 _{k for} monitoring the presence of connectors in the ports of the patch panel is installed.

When the connector is in the detection zone of the 6 _k distance sensor, the output signal of this 6 _k distance sensor is first processed by the comparator, and then fed to the corresponding input of the microcontroller 4 in the form of a digital signal corresponding to a logical unit (+ 5V). A digital signal is generated using the comparator and the threshold value of the sensor 6 _k distance. In the absence of a connector, a digital signal corresponding to a logical zero is supplied to the corresponding input of the microcontroller 4.

Then, the incoming signals from the sensors 6 _k distance are processed by the hardware-software unit 3 interfaces. The result of the processing of the hardware and software interface unit 3 by means of the software driver generates and transmits, according to a certain protocol, to the application processing unit 5 for processing, storing and displaying information about the use of patch panel ports on the administrator’s PC, on which the unit for processing, storing and displaying information about the use of ports 5 patch panels. After that, any PC in the same local area network as the administrator's PC can get access to the information about the ports occupied by the corresponding patch panel.

Claims (1)

A cable path detachable monitoring system, comprising at least one patch panel, on which an appropriate unit for controlling the presence of connectors in the ports of the patch panel is installed, a hardware-software interface unit including a microcontroller and containing identifiers for each unit for controlling the presence of connectors in the ports of the patch panel , a software unit for processing, storing and displaying information about the use of ports of patch panels, each control unit for the presence of connectors in Orts of the patch panel includes a group of proximity sensors, each of which is installed on the corresponding patch panel next to the corresponding port so that when connected to this port, the connector is located in the detection sector of the corresponding proximity sensor, but does not fall into the detection sector of other contact sensors the distance, the output of each control unit for the presence of connectors in the ports of the patch panel is connected to the corresponding input of the firmware second coupling unit, the input / output hardware-software interface unit connected to the input / output software of the processing unit, storing and displaying information about the use of patch panel ports.

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