RU79738U1 - REMOVABLE CONNECTIONS MONITORING SYSTEM USING RADIO-FREQUENCY LABELS WITHOUT SWITCHES - Google Patents

Abstract

The utility model relates to communication technology. Its use allows monitoring detachable cable path connections using radio frequency (RFID) tags without switches with high noise immunity. To achieve this technical result, the connector of the connecting cable is equipped with a sensor of a connector with a radio frequency (RFID) label of the near field, which becomes available for reading by a radio frequency reader when the connector is at a certain distance from the patch panel; ports of the patch panel are equipped with a sensor for the presence of a connector in the port of the patch panel; on the basis of information about the change in the response signal from the radio frequency tag of the connector sensor and the triggered presence sensor, the connector and / or connection cable and the port of the patch panel to which the connector is connected are identified.

Description

The technical field to which the utility model relates.

This utility model relates to communications technology and can be used to monitor patch panel connections.

State of the art

In the world there are various means of monitoring cable systems. The main purpose of such systems is to determine which ports of the patch panel the connecting cable is connected to, that is, monitoring the connections of the variable part of the cable path (channel in terms of ISO / IEC 11801: 2002).

For example, a similar system based on a wireless solution is described in US Pat. No. 6,784,802. Radio frequency tags are installed on the connectors of the connecting cables. Tag identifiers are read using RF reader antennas installed in each port on the patch panel. The disadvantage of this system is that the reader antenna must be installed in each port of the panel.

The closest analogue is the system described in the patent for utility model of the Russian Federation No. 72107. The patch panel ports are equipped with a connector sensor. Radio frequency tags are installed on the connectors of the connecting cables to change the response signal when the connector is connected to the patch panel port. Tag IDs are read using RF reader antennas. Connection identification is performed by matching

closest in time to the response of the sensor for the presence of the connector and changes in the response signal from the radio frequency label of the connector. The disadvantage of this system is that when using RF tags of the far field, the noise immunity of the system is degraded, and when using tags of the near field, the label contains a switch.

Utility Model Essence

Thus, the objective of this utility model is to develop detachable monitoring tools that will identify the patch cable and patch panel port to which the patch cable connector is connected, have a simple RFID tag design without a switch, and have good noise immunity.

To achieve the technical result, a monitoring system for detachable cable path connections using radio frequency tags is proposed, comprising patch panels, each of at least some of the ports of which is equipped with a connector sensor that changes state when a patch cable connector is connected to the patch panel ports; connecting cables, at least one connector of which is equipped with an RF sensor of the connector sensor, which changes the response signal perceived by the RF reader when the connector is connected to the patch panel port; one or more radio frequency readers, with the help of which they read information from the radio frequency labels of the connector sensors with a certain time interval; hardware-software complex, which processes the signals of the sensors of the presence of the connector, and whose memory

contains identifiers of radio frequency labels of the connector sensors associated with the connecting cables and / or connectors of the connecting cable on which they are installed, and which is able to identify the connector and / or connecting cable and the port of the patch panel to which the connector is connected based on the signal from the connector presence sensor and information about changing the response signal from the radio frequency tag of the connector sensor transmitted by the radio frequency readers or the reader to the software and hardware complex, after connecting reading the connector of the connecting cable equipped with the connector sensor into the port of the patch panel equipped with the presence sensor of the connector; characterized in that the connector sensors do not contain switches; the RF tag of the connector sensor is a near field label and the RF tag of the connector sensor is available for reading by RF readers / readers if the distance between the RF tag of the connector sensor and any of the patch panels is less than the distance specified by the manufacturer, supplier or user of the system.

In some embodiments of the system, the RF tag of the connector becomes readable at a distance of 22 millimeters.

Brief Description of the Drawings

In all the drawings, the same reference numerals refer to the same or similar elements.

Figure 1 shows a General block diagram of a monitoring system detachable connections of the cable path with a magnetic antenna.

Detailed description of utility model

The system according to the present utility model can be implemented in several versions, which, nevertheless, are implemented in a similar manner, as shown in figure 1. The system contains patch panels 1, the ports of which are equipped with sensors for the presence of a connector for the connecting cable in the port of panel 2. Their design can be different, a mechanical switch or a pair of LED-photodiode (US patent No. 6424710), or based on RFID, as in RF patent No. 74482. The connectors of the connecting cable 3 are equipped with sensors of the connector with the radio frequency tag (RFID tag) of the near field 4 of a suitable size. In this case, an unambiguous correspondence of the labels 4 with the connecting cords 3 and the sensors 2 with the ports 8 of the patch panels 1 is specified. The hardware-software complex 5 is connected to the radio frequency reader 6, for example, using the LIN or CAN data bus. The antennas 7 of the radio frequency reader 6 are a current loop, which covers the ports 8 of the patch panel. The RF reader 6 periodically polls the RF tags 4 and reads their identifiers, transmitting the received information to the hardware-software complex 5. In this case, the antenna power 7 is supplied with such a signal power for a specific antenna design that the RF tags are read at a distance from the antenna less than 22 mm . This is due to the fact that between the patch panels they usually install a cable management panel with a height of 1 unit (or 45 mm). And if the tag 4 is located between the panels, then it will be read by only one of the antennas 7. Obviously, by changing the signal power and characteristics of the antenna 7, the manufacturer, supplier or user can adjust the reading distance of the RFID tag.

At the moment when the RF tag 4 approaches the antenna a distance of 22 mm, its response signal changes, that is, its identifier becomes available for reading by reader 6. Then the corresponding connector will either be connected to the port of the patch panel 1 or removed back at a distance greater than 22 mm. In the first case, one of the sensors 2 will work, and the hardware-software complex 5 will be able to determine that the connector with the RF tag 4, which has recently become available for reading, is connected to a specific port of panel 1. In the second case, the connection will not occur.

In this way, the patch cable and patch panel port to which the patch cable connector is connected can be identified using a simple RFID tag design without a switch and maintaining good noise immunity.

Claims (2)

1. A system for monitoring detachable cable path connections using radio frequency tags, comprising patch panels, each of at least some of the ports of which is equipped with a plug sensor that changes state when a patch cable connector, patch cables, at least, are connected to said patch panel ports at least one connector which is equipped with an RFID tag sensor that changes the response signal perceived by the RF reader when mentioned The first connector is connected to the port of the patch panel, one or more RF readers, with the help of which, at a certain time interval, information from said radio frequency labels of the connector sensors is read, a hardware-software complex that processes the signals of these sensors of the presence of the connector and whose memory contains the identifiers of the said RF labels connector sensors, associated with said connecting cables and / or said connecting cable connectors, on which and installed, and which is capable of identifying said connector and / or connecting cable and said port of a patch panel to which said connector is connected based on a signal of said sensor of presence of a connector and information about a change in a response signal from a radio frequency tag of a sensor of said connector transmitted by said radio frequency readers or a reader into said software and hardware complex, after connecting a connector of a connecting cable equipped with said sensor to a patch panel port equipped with said socket presence sensor, characterized in that said socket sensors do not have switches, said radio frequency label of a socket sensor is a near field label, said radio frequency label of a socket sensor is readable by said radio frequency readers / reader in case if the distance between the aforementioned RFID tag of the connector sensor and any of the above patch panels is less than the distance specified system, supplier, or system user. 2. The system according to claim 1, characterized in that said distance is 22 mm.