RU72107U1 - CABLE TERMINAL MONITORING SYSTEM USING RADIO FREQUENCY TAGS - Google Patents

Abstract

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 presence sensor that changes state when a patch cable connector is connected to said ports of the patch panel; hardware-software complex, which processes the signals of the mentioned sensors of the presence of the connector; characterized in that it contains connecting cables, at least one connector of which is equipped with a connector sensor with an RF tag, which changes the response signal perceived by the RF reader when said connector is connected to the port of the patch panel; one or more radio frequency readers, with the help of which they read with a certain time interval information from the aforementioned radio frequency tags of the connector sensors; the memory of said software and hardware complex contains identifiers of said radio-frequency labels of connector sensors, correlated with said connecting cables and / or said connectors of the connecting cable on which they are installed; said software and hardware complex 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 reader into the mentioned software

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 RFID system 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 US patent No. 6424710, in which each port of the patch panel is equipped with a sensor for the presence of the connector of the connecting cable in the port of the patch panel. The disadvantage of this system is that it does not determine which connection cable is connected to the patch panel port.

Utility Model Essence

Thus, the objective of this utility model is to develop such monitoring tools for detachable cable path connections that will identify the patch cable and patch panel port to which the patch cable connector is connected, and does not require an RF reader antenna for each patch panel port.

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; hardware-software complex, which processes the signals of the sensors of the presence of the connector; characterized in that it comprises connecting cables, at least one connector of which is equipped with an RFID tag sensor that 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; as well as the fact that the memory of the software and hardware complex contains identifiers of the 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 a hardware-software complex is able to identify the connector and / or connecting cable and the patch panel port to which the connector is connected based on the signal from the connector presence sensor and information

about a change in 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 the connector of the connecting cable equipped with the connector sensor to the port of the patch panel equipped with a connector presence sensor.

At the same time, the presence sensors of the patch panel connector may also contain an RF tag that changes the response signal perceived by the RF reader when the connector of the connecting cable is connected to the port of the patch panel.

In one embodiment of the system, a change in the response signal from the RF tags of the connector sensors and / or the presence sensors is expressed in the possibility or impossibility of identifying the RF tags by radio frequency readers or a reader, possibly due to interference caused by the approach of the RF tags to the metal.

In another embodiment of the system, the radio frequency tags of the connector sensors and / or the presence sensors of the connector have a switch in their circuitry, which may be a reed switch.

The change in the response signal from the RF tags of the connector sensors and / or the presence sensors of the connector can also be expressed by the change in the information transmitted in the response signal from the RF tags.

The antenna of radio frequency readers or a reader in a system according to the present utility model may be magnetic. And the RF reader or readers can have an antenna selector that feeds and / or receives a signal to / from the antennas depending on the status of external sensors received by the RF reader or readers.

Brief Description of the Drawings

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

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

Figure 2 shows an example of the placement of the connector sensors on the connector of the connecting cable and the presence sensors on the port of the patch panel according to one embodiment of the present utility model.

Figure 3 shows an example implementation of a sensor for an RF tag with a reed switch.

Figure 4 shows an example of the placement of sensors on the connector of the connecting cable and the port of the patch panel for RF tags with reed switch.

Detailed description of utility model

The system according to the present utility model can be implemented in several variants, which, nevertheless, are implemented in a similar way, as shown in Fig. 1. The circuit contains patch panels 1 of type 110, the ports of which are equipped with sensors for the presence of a connector for the connecting cable in the port of the panel. The design of such a sensor may coincide with the designs described in US patent No. 6424710, that is, be implemented as a mechanical switch, a reed switch or a pair of LED-photodiode. In this case, a presence detector with a radio frequency tag (RFID tag) is used 2. The connectors of the connecting cable 3 are also equipped with sensors of the connector with a radio frequency tag (RFID tag) 4. The identifiers of the RF tags 2 and 4 are stored in the firmware

complex 5. In this case, an unambiguous correspondence of labels 4 with connecting cords 3 and labels 2 with ports of patch panels 1 is set. Connected cable 3 does not have to have an identifier in memory, but can be represented by a pair of identifiers of its connectors. The hardware-software complex 3 is connected to the radio-frequency reader 6. The radio-frequency reader 6 periodically polls the RF tags 2 and 4 and reads their identifiers, transmitting the received information to the hardware-software complex 5. At the time of connection, the RF tags 2 and 4 change the response signal, for example, their identifier becomes unavailable for RF reader 6 or their RSSI parameter (Received Signal Strength Indication, for example, supported by the Symbol XR480 reader) changes, which determines the level of response signal tags. Accordingly, the identifiers that are not found will not be transferred to the hardware and software complex 5. The hardware and software complex 5, based on the previous information transmitted by the radio frequency reader 6, determines the missing identifiers 2 and 4, and then identifies the connection cable and / or connector and port of the patch panel, to which the connector is connected. If, for example, a mechanical sensor for the presence of a connector is used, then the connector of the connecting cable and the port are correlated based on the closest changes in the signal from identifier 4 and the operation of the sensor for the presence of the connector.

A possible embodiment of the sensors according to the present utility model, consisting of shielding strips and RF tags, is shown in FIG. 2 in a side view. Radio frequency tags 2 and 4 are installed on connector 7 of the connection cable and connection block 8 of the patch panel port. Also, shielding metal strips 9 and 10 are installed on connector 7 and connection block 8

accordingly, bent in such a way that when the connector 7 is connected to the connecting unit 8, the strip 9 shields the RF tag 2, and the strip 10 - the RF tag 4.

In another embodiment, in FIG. 3, the presence sensor of the connector 2 has a reed switch 11 in the circuitry, which closes the antenna 12, for example, made in the form of a quarter-wave dipole, connected to the transponder chip 13, when an external magnetic field appears. The principle of using such a sensor is shown in FIG. 4, where the RF tags 2 and 4 have the same design as shown in FIG. 3. When connecting the connector 7 to the connecting block 8, the permanent magnets 14 close the reed switches of the RF tags 2 and 4, the corresponding antennas are “shorted”, and they do not transmit a signal to the RF reader.

In a more complex tag, two transponder microcircuits and two reed switches can be introduced into the RF tag: one for opening, the other for closing. In this case, the radio frequency tag in the presence of an external magnetic field will transmit one identifier, and in its absence - another.

Separated in FIG. 1 into separate functional devices, the reader 6 and the hardware-software complex 7 can be implemented in one device: a computer equipped with the necessary interfaces, in particular several reader antennas. Antennas can be placed in different parts of the room where patch panels are installed and in different communication cabinets. Antennas can work with the magnetic (near field) or electric (far field) component of the electromagnetic field (http://www.rfidjournal.com/glossary/Far-field%20communication). In this case, signals to several antennas can be supplied through a selector, which is connected to the sensor for opening the door of the telecommunication cabinet.

Obviously, while the door of the cabinet is not open, it is impossible to make cable switch connections inside the cabinet; therefore, there is no need to send a signal to the corresponding antenna that controls this telecommunication cabinet and monitor the status of the corresponding sensors of the system according to this utility model. The antenna selector is implemented in software and hardware in all multi-antenna readers, for example, in the Alien ALR-9800, which also has four GPIO input ports for connecting sensors.

Claims (9)

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 presence sensor that changes state when a patch cable connector is connected to said ports of the patch panel; hardware-software complex, which processes the signals of the mentioned sensors of the presence of the connector; characterized in that it contains connecting cables, at least one connector of which is equipped with a connector sensor with an RF tag, which changes the response signal perceived by the RF reader when said connector is connected to the port of the patch panel; one or more radio frequency readers, with the help of which they read with a certain time interval information from the aforementioned radio frequency tags of the connector sensors; the memory of said software and hardware complex contains identifiers of said radio-frequency labels of connector sensors, correlated with said connecting cables and / or said connectors of the connecting cable on which they are installed; said software and hardware complex 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 the aforementioned hardware and software complex after connecting the connector of the connecting cable equipped with the fifth sensor connector, in a patch panel port, equipped with said sensor availability connector. 2. The system according to claim 1, characterized in that the said sensors of the presence of the connector of the patch panel contain a radio frequency tag that changes the response signal perceived by the radio frequency reader when the connector of the connecting cable is connected to said port of the patch panel. 3. The system according to claim 1 or 2, characterized in that the change in the response signal from the aforementioned RF tags of the connector sensors and / or the presence sensors of the connector is expressed in the possibility or impossibility of identifying the RF tags by the aforementioned RF readers or readers. 4. The system according to claim 1 or 2, characterized in that the change in the response signal from the aforementioned RF tags of the connector sensors and / or the presence sensors of the connector occurs due to interference caused by the proximity of the RF tags to the metal. 5. The system according to claim 1 or 2, characterized in that the said RF tags of the sensors of the connectors and / or sensors of the presence of the connector in their electrical circuit have a switch. 6. The system according to claim 5, characterized in that said switch is a reed switch. 7. The system according to claim 1, characterized in that said change in the response signal from said radio frequency tags of the connector sensors and / or sensors for the presence of the connector is expressed by a change in the information transmitted in the response signal from said radio frequency tags. 8. The system according to claim 1, characterized in that said radio frequency reader or readers have a magnetic antenna. 9. The system according to claim 1, characterized in that said radio frequency reader or readers have an antenna selector that feeds and / or receives a signal to / from the antennas depending on information about the state of external sensors received by said radio frequency reader or readers.