NL2029149B1 - POSITION DETECTION ELEMENT FOR AN OPTICAL CABLE, DEVICE FOR TRANSMITTING AN OPTICAL SIGNAL TO A POSITION DETECTION ELEMENT ON AN OPTICAL CABLE, SYSTEM AND METHOD FOR LOCATING AN INVISIBLE OPTICAL CABLE - Google Patents

Abstract

EXPLANATION The invention relates to a system (1) comprising a position detecting element (10) with a housing containing a connector for connection to an optical cable (100), an optical-electrical converter, which is connected to the connector for receiving of an optical signal to be transmitted over the optical cable, and an antenna adapted to transmit a radio frequency signal. The housing further includes a filter adapted to filter out a radio frequency localization signal from the optical signal. The system (1) comprises a device (20) for modulating the optical signal with the radio frequency localization signal. A method of using the system (1) comprises the steps of a) transmitting an optical signal modulated with a radio frequency locating signal over the optical cable to the position detecting element by means of the device; and b) receiving the radio frequency localization signal by means of an antenna (30). Figure 1

Description

POSITION DETECTION ELEMENT FOR AN OPTICAL CABLE, DEVICE

FOR TRANSMITTING AN OPTICAL SIGNAL TO A POSITION DETECTION

ELEMENT ON AN OPTICAL CABLE, SYSTEM AND METHOD FOR IT

LOCATE A NON-VISIBLE OPTICAL CABLE

The present invention relates to a position detecting element, arrangement for cooperating with the position detecting element, system and method for locating a non-visible optical cable.

When installing, maintaining, repairing and managing optical cable networks, it is important to know exactly where the other end of an optical cable is located.

An example of this is the construction of fiber optic networks. In practice, fiber optic cables are laid in the ground between the final destinations, such as a home or office, and a POP (Point of Presence), a central unit in a neighbourhood. The POP contains the required telecommunication equipment and the connection to the national fiber optic network takes place. Often some time elapses between the installation of the fiber optic cables, the connection in the POP and the connection of the final destination. During that period, the optical cable is often rolled up and buried close to its final destination.

Before delivery of the installed fiber optic infrastructure, it is often first checked whether there are no crossings in the network. This requires locating and excavating the cable end at the final destination in order to perform a measurement.

The optical cable then goes back into the ground and needs to be searched and excavated a second time when the connection to the final destination is realized.

To be able to find the end of the optical cable again, for example, the location is recorded on a map or a marker is placed at the cable end.

Usually, a relatively large amount of excavation work is required at the location where the cable is suspected to be located.

In practice, excavating the cable end takes a lot of time and resources and is associated with environmental discomfort due to an open street.

The present invention offers a solution to this and provides a position detection element for an optical cable, comprising a housing with a connector for connection to the optical cable, in which the housing contains an optical-electrical converter, which is connected to the connector for receiving an optical signal to be transmitted over the optical cable; and an antenna adapted to transmit a radio frequency signal.

Such a position detection element can be easily mounted on one end of an optical cable and can be detected without contact using an external antenna.

It is noted that a position detecting element according to the preamble of claim 1 is known per se from US7547150. The known position detection element comprises an RFID element for communication with an external source. The RFID element is powered by the optical signal and the optical-electrical converter. US7547150 aims to check the operation of optical cables. The known position detection element has the major drawback that it has only a limited range and is therefore not usable for locating the optical cable over greater distances.

The position detecting element according to the present invention differs from this in that the housing further comprises a filter which is adapted to filter out a radio-frequency localization signal from the optical signal which has been modulated with the radio-frequency localization signal.

The power of the optical signal and of the radio-frequency locating signal can be selected such that a sufficiently large transmission range of the radio-frequency locating signal can be realized and the optical cable can be located within a sufficiently large detection area.

According to a first preferred embodiment of the position detecting element according to the invention, the filter comprises a resonant circuit tuned to the radio-frequency localization signal. In the first preferred embodiment, the position detecting element according to the invention comprises simpler components and therefore operates more reliably and is cheaper to produce than the known position detecting element.

In an optimal preferred embodiment of the position detection element according to the invention, further means are included in the housing for filtering out and transmitting an audio signal with which the optical signal and/or the radio-frequency localization signal is modulated. This additional audible signal effectively guides a user in finding the position sensing element.

In another preferred embodiment of the position detecting element according to the invention, the housing further accommodates an RFID element, which is connected to the optical-electrical converter for transmitting an identification code. An additional unique code can be used to determine whether the correct optical cable associated with the final destination has been located.

In a practical preferred embodiment of the position detecting element according to the invention, the optical-electric converter is a photodiode.

The present invention also relates to a device for transmitting an optical signal over an optical cable provided with a position detecting element according to the invention, wherein the device comprises means for modulating the optical signal with the radio-frequency localization signal.

In a flexible preferred embodiment of a device according to the invention, the frequency of the radio-frequency localization signal is adjustable. In this flexible preferred embodiment, the device can transmit several optical signals, each selectively modulated with a localization signal having a different, set radio frequency. The flexible device can cooperate with different position detection elements, each of which is arranged to filter out one of these set radio frequencies.

In an elegant preferred embodiment of a device according to the invention, the optical signal comprises laser light with a wavelength of substantially 1310 or 1550 nanometers. Today's fiber optic telecommunications cables are designed to carry laser light at these wavelengths with little power loss.

An optimal device according to the invention comprises further means for modulating the optical signal and/or the radio-frequency localization signal with an audio signal. This additional audible signal effectively guides a user in finding the position sensing element.

The present invention also relates to a system comprising one or more position detecting elements according to the invention and a device according to the invention.

A complete preferred embodiment of a system according to the invention further comprises an external antenna for receiving the radio-frequency localization signal.

In a practical preferred embodiment of a system according to the invention, the radio-frequency localization signal has a frequency of substantially 864 MHz. This frequency range is free and can be picked up with a short antenna.

The present invention also relates to a method for locating an optical cable by means of a system according to the invention, wherein the optical cable is provided with the position detecting element, comprising the steps of a) passing over the optical cable to the position detecting element transmitting an optical signal modulated with a radio frequency locator signal through the device; and b) receiving the radio frequency location signal by the external antenna.

The invention will be further elucidated with reference to the following figures, in which:

Figure 1 illustrates the system according to the invention;

Figure 2 shows an electrical diagram of the system of Figure 1;

Figure 3 shows a position detecting element as part of the system of Figure 1;

Figure 4 shows an electrical diagram of a first preferred embodiment of the position detecting element of figure 3; and

Figure 5 shows an electrical diagram of a second preferred embodiment of the position detecting element of figure 3.

Like numbers in different figures indicate like parts.

Figure 1 shows the system 1 according to the invention and Figure 2 shows an electrical diagram of the system 1. The system 1 has been developed for locating an optical cable, which is not visible. In this example, it concerns an optical fiber cable 100, which is buried in the ground. The term fiber optic cable includes all optical fiber cables suitable for conducting light, including fiber optic cables and plastic optical fibers.

The system 1 comprises a position sensing element 10 which can be attached to the fiber optic cable 100, in this example at one end thereof, and in this example is buried together with the fiber optic cable 100.

The system 1 further comprises a device 20 for transmitting an optical signal over the optical fiber cable 100 to the position detecting element 10.

The system 1 also includes an external antenna 30.

The device 20 includes a light source 21 for generating light. A suitable light source is a laser. Laser light with a wavelength of 1310 or 1550 nanometers is very suitable for current fiber optic cables. The device 20 also comprises modulation means 22 which modulate the light with a radio frequency localization signal. In the preferred embodiment, the modulation means 22 are arranged for amplitude modulation. The frequency of the localization signal can be chosen freely, taking into account legal restrictions, such as free frequencies, and technical restrictions, such as the feasibility of a suitable external antenna or receiver. With current knowledge, a frequency <= 10GHZ is considered.

A suitable frequency is in the range around 864 MHz.

Figure 3 shows the position detecting element 10 in more detail. Figure 4 shows an electrical diagram of a first preferred embodiment of the position detecting element 10. The position detecting element 10 comprises a housing 11 with a connector 12 for connection to the optical fiber cable 100. An optical-electric converter 13 is accommodated in the housing 11 , which is connected to the connector 12 for receiving the optical signal. The position detecting element 10 is a passive element, which receives power through the optical-electrical converter 13, which converts the received light into an electrical signal. In the preferred embodiment shown, the optical-electric converter is a photodiode. The housing 11 further includes a filter 14, which is adapted to filter out the radio-frequency localization signal with which the optical signal is modulated, and an antenna 15, which is adapted to transmit the filtered-out radio-frequency localization signal. Preferably, the antenna 15 is connected via a coupling capacitor.

A suitable filter comprises an inductor L and a capacitor C and forms a tuned resonant circuit which releases the RF localization signal.

Figure 5 shows an electrical diagram of a second preferred embodiment of the position detecting element 10°. The second preferred embodiment differs from the first preferred embodiment by the added RFID element 16, which is connected to the photodiode 13 for transmitting an identification code for the particular optical fiber cable. Preferably, the RFID element 16 is connected via a coupling capacitor.

Optionally, the device 20 is provided with further modulation means (not shown), which modulate the light and/or the radio-frequency localization signal with an audio signal. The housing 11 of the position detecting element optionally includes further means (not shown) for filtering out and transmitting the audio signal.

The external antenna 30 is configured to receive the radio frequency locate signal. An example of a suitable antenna is a Yagi antenna.

A system according to the invention can consist of a device and several position detection elements. Optionally, each of the position detecting elements may be arranged to extract a location signal of a different frequency from the optical signal. The frequency of the localization signal with which the optical signal is modulated must then be adjustable on the device. It is practical if the localization signals can be picked up by means of an external antenna. For example, a Yagi antenna with a range of 850-900MHz.

The invention is not limited to the described and shown preferred embodiments. The frequency values mentioned are practical with the current state of the art, but can be chosen differently if there are technical developments or if the legislation changes. The wavelengths mentioned are also practical with the current state of the art, but can be chosen differently for other optical cables.

The invention therefore extends to any embodiment falling within the scope of the protection as defined in the claims and considered in light of the foregoing description and accompanying drawings.

Claims (13)

CONCLUSIONS An optical cable position sensing element, comprising a housing with a connector for connection to the optical cable, the housing incorporating an optical-to-electrical converter connected to the connector for receiving an optical signal transmitted over the optical cable is to be transmitted, and an antenna adapted to transmit a radio-frequency signal, characterized in that the housing further includes a filter adapted to filter out a radio-frequency localization signal from the optical signal modulated with the radio frequency locate signal. The position detecting element of claim 1, wherein the filter comprises a resonant circuit tuned to the radio frequency locate signal. 3. Position detecting element as claimed in claim 1 or 2, wherein further means are included in the housing for filtering out and transmitting an audio signal with which the optical signal and/or the radio-frequency locating signal is modulated. A position detecting element according to any one of the preceding claims, wherein the optical-to-electrical converter is a photodiode. 5. Position detecting element as claimed in any of the foregoing claims, wherein the housing further accommodates an RFID element, which is connected to the optical-electrical converter for transmitting an identification code. A device for transmitting an optical signal over an optical cable provided with a position detecting element according to any one of the preceding claims, wherein the device comprises means for modulating the optical signal with the radio frequency locating signal. An apparatus according to claim 6, wherein the frequency of the radio frequency locating signal is adjustable. An apparatus according to claim 6 or 7, wherein the optical signal comprises laser light having a wavelength of substantially 1310 or 1550 nanometers. A device according to any one of the preceding claims 6-8, wherein the device further comprises means for modulating the optical signal and/or the radio frequency localization signal with an audio signal. 10. System comprising one or more position detection elements according to one of the preceding claims 1-5 and a device according to one of the preceding claims 6-9. The system of claim 10, wherein the system further comprises an external antenna for receiving the radio frequency locate signal. A system according to any one of the preceding claims, wherein the radio frequency location signal has a frequency of substantially 864 MHz. A method of locating an optical cable by means of a system according to claim 11 or 12, wherein the optical cable includes the position detecting element, comprising the steps of a) transmitting a signal over the optical cable to the position detecting element optical signal modulated with a radio frequency location signal by the device; and b) receiving the radio frequency location signal by the external antenna.