KR100748354B1 - Optical Signal Processing System for Very High Speed Connection Service And Boardband Box for Receiving Thereof - Google Patents

Abstract

The present invention relates to an optical signal processing apparatus for providing a high-speed communication service that is convenient for maintaining, repairing, operating, or upgrading communication equipment provided in a housing, and a housing for accommodating the same. Such an optical signal processing apparatus for providing an ultra-high speed communication service according to the present invention includes: an optical fiber connection / column processing unit provided with a space for connecting optical core wires and having a filtering board; An optical signal switch system for distributing an optical signal received from a communication provider to each subscriber station; It is composed of an optical subscriber distribution unit for transmitting the optical signal output from the optical signal switch system to each subscriber station using an optical cable, the optical fiber connection / excitation processing unit and / or optical signal switch system is installed on a board or a substrate, It is hinged to be rotatable about the main body if necessary.

Description

Optical Signal Processing System for Very High Speed Connection Service And Boardband Box for Receiving Thereof}

1 is a block diagram of an optical signal processing apparatus for providing a high speed communication service according to the present invention.

2 is an external view of a housing accommodating an optical signal processing apparatus for providing a high speed communication service according to the present invention.

3 is an internal structural view of the enclosure shown in FIG.

4 is a view for explaining the use state of the enclosure shown in FIG.

<Description of Symbols for Major Parts of Drawings>

100: enclosure 101: upper part of the enclosure

102: lower part of the housing 110: power supply

120: optical fiber wire connection / filter processing unit 130: optical signal switch system

130a: remote monitoring and temperature control unit 140: optical subscriber distribution unit

141, 142: fan 150: optical cable outlet

The present invention relates to an optical signal processing apparatus for providing a high speed communication service and an enclosure for accommodating the same. More particularly, the present invention relates to a communication service provider when providing a high speed communication service in an FTTx (Fiber To The Any) subscriber network structure. The present invention relates to an optical signal processing apparatus for providing an ultra-high speed communication service installed at an outdoor or wall surface at any point between a national office and a subscriber terminal and a housing for accommodating the same.

In general, when a telecommunication service provider provides high-speed communication service to a subscriber terminal provided in each home or office, an outdoor or wall-type enclosure is installed at an arbitrary point between the telecommunication service provider's central office and the subscriber terminal. The enclosure is generally called a case and plays the role of an external case of various communication equipments, and plays a role of completely protecting the waterproof, moistureproof, heat dissipation structure for the communication equipment, and the built-in parts. In the past, these enclosures were often installed on parts of the sidewalk or on the ground where there was little traffic.

In recent years, however, the use of sidewalks and roads has been increasing, making it difficult to secure ground for installing new enclosures. In addition, with the introduction of optical subscriber network concepts such as FTTP / W (Fiber To The Pole / Wall), which are close to FTTH (Fiber To The Home), it is very urgent to secure the ground or the upper surface for installing new enclosures.

To solve this situation, small enclosures with subscriber capacity of several tens of lines or less that can be installed and used on outdoor poles or walls are expected to be widely used. In addition, due to advances in communication technology, the capacity of subscribers required for each enclosure continues to decrease.

However, since the UTP cable is connected to each subscriber terminal from the pole or the wall where each enclosure is installed, the total distance of the data transmission characteristics of the UTP cable was limited to the range of about 100m. This distance is the distance from the subscriber distribution device of the ship mounted on the telephone pole or the wall to the subscriber terminal device, and the distance from the ticket board in Jeonju or the home wiring on the roof of the multi-generational household. This is extremely limited. In addition, the UTP cable connected to each subscriber terminal from the pole or wall where each enclosure was installed was exposed to the outdoor environment as it was, and there was always a risk of lightning in the weather of lightning.

Accordingly, an object of the present invention is to solve the above-mentioned problems, the optical signal processing device for providing a high-speed communication service convenient to maintain, repair, operate, or upgrade the communication equipment provided in the housing and accommodated therein It is to provide a housing for.

Another object of the present invention is to provide an optical signal processing apparatus for providing a high-speed communication service that can eliminate the risk of lightning generated when a subscriber distribution uses a UTP cable, and a housing for accommodating the same.

Still another object of the present invention is to provide an optical signal processing apparatus for providing a high speed communication service capable of providing a high speed communication service even when the location of each subscriber is within a few tens of kilometers from a specific pole or wall of a building, and to accommodate the same. It is to provide the enclosure.

In order to achieve the above object, an optical signal processing apparatus for providing an ultra-high speed communication service according to a preferred embodiment of the present invention, provides a space for connecting the optical core, the optical core connection / excitation processing unit is provided with a filter board; An optical signal switch system for distributing an optical signal received from a communication provider to each subscriber station; It consists of an optical subscriber distribution unit for transmitting the optical signal output from the optical signal switch system to each subscriber terminal using an optical cable, the optical signal switch system processes and performs the optical signal irrespective of the data transmission method of the carrier The optical signal may be processed regardless of the light source mode such as single or multi mode.

In addition, the housing for accommodating an optical signal processing apparatus for providing an ultra-high speed communication service according to the present invention is an enclosure in which an upper end and a lower end of a board or board shape are hinged to be rotatable about a main body, wherein It provides a space for connecting the core wire, and is provided with an optical fiber connection / cable processing unit is installed with a filtering board, and an optical signal switch system for distributing the optical signal received from the communication provider for each subscriber terminal, the optical signal at the lower end An optical subscriber distribution unit for transmitting an optical signal output from the switch system to each subscriber station using an optical cable is installed to move the upper end or the lower end in a predetermined direction to secure a work space, and the optical signal switch system communicates with the subscriber. Regardless of the operator's data transmission method, the optical signal is processed and performed. Characterized in that for processing an optical signal, regardless of single or multi-mode light sources such as mode.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention in more detail.                     

1 is a block diagram of an optical signal processing apparatus for providing a high speed communication service according to the present invention. 1, an optical signal processing apparatus for providing a high speed communication service according to the present invention, is installed in the rear end of the housing 100, the power supply unit 110 for providing power; An optical fiber line connection / coating process unit 120 which provides a space for connecting the optical core line inside the enclosure 100 and has a filtering plate installed thereon; An optical signal switch system 130 for distributing an optical signal received from a communication provider to each subscriber station; Remote monitoring and temperature control unit 130a for periodically monitoring the operating state of the optical signal switch system 130 and transmits the result to the system operator remotely, for controlling the internal temperature of the enclosure 100; The optical signal switch system 130 is composed of an optical subscriber distribution unit 140 for transmitting the optical signal to each subscriber station using an optical cable.

The optical signal processing device for providing such a high speed communication service is installed in an enclosure installed outdoors or on a wall at an arbitrary point between the carrier's office and the subscriber terminal in the FTTx (Fiber To The Any) subscriber network structure. do. Here, the subscriber network structure of the FTTx method is a network structure that connects a part or the entire section of the subscriber network connecting the terminal company and the subscriber terminal with the optical cable to enable high-speed data transmission.

The optical signal switch system 130 shown in FIG. 1 processes and performs an optical signal regardless of a data transmission method (for example, TDM, WDM, etc.) of a communication operator, and also may be used regardless of a light source mode such as a single or multi mode. Process the optical signal.

In addition, the optical signal processing apparatus, as shown in Figs. 2 and 3, in the upper end 101 of the housing 100, the optical line connection / excitation processing unit 120, and the optical signal switch system 130 is a board, a substrate Is installed in a panel form, the lower end 102 of the housing 100 is provided with an optical cable outlet 150 having a plurality of optical cable terminals, the optical subscriber distribution unit 140 to facilitate the extraction of the optical cable is provided Is installed. In FIG. 3, a plurality of optical cables are output to the outside through the optical cable outlet 150.

The reason for separating the optical signal switch system 130 and the optical subscriber distribution unit 140 up and down with each other is to facilitate the workability in consideration of the urban environment where the expansion or termination of the subscriber terminal frequently occurs. It is to.

In particular, the optical fiber connection and the dressing processing unit 120 is also included in the upper end portion 101 of the interior of the enclosure 100, thereby ensuring the space for the optical fiber connection work within the enclosure 100, the work as above the pole Even in this inconvenient place, the worker can facilitate the work.

In addition, in the embodiment of the present invention, the optical signal switch system 130 and the high-speed communication service provided by the optical subscriber distribution unit 140, data is transmitted from the subscriber distribution unit 140 to the terminal installed in the subscriber's home by the optical cable Therefore, ultra high speed service is possible within a radius of several Km to several tens of Km from the pole or the specific building in which the enclosure 100 is installed. Therefore, it is possible not only to solve the limitation of data transmission distance (about 100m) that occurs when UTP cable is used in the conventional high speed communication service, but also to implement stable high speed communication service because it is not related to the risk of lightning caused by lightning. Can be.

In addition, as shown in FIG. 3, the uplink of the optical signal switch system 130 is a GBIC (Giga Bit Interface Converter), and only the GBIC is exchanged to adjust the wavelength regardless of a specific wavelength of the optical signal.

In addition, the remote monitoring and temperature control unit 130a shown in Figure 1 periodically measures the internal temperature of the housing 100, when the measured temperature exceeds a predetermined threshold temperature, a pair of fans for temperature control By rotating (141, 142), the air flow in the housing 100 is controlled to smooth. Therefore, it is possible to minimize the possibility of system malfunction due to the temperature rise inside the enclosure (100).

4 is a view for explaining the use state of the enclosure shown in Figure 2, in the state that the door of the upper end 101 of the enclosure 100 is open, inspection, repair or upgrade of the communication equipment installed in the enclosure 100 In order to secure the space for the maintenance of the enclosure to pull the optical signal switch system 130 to the front direction. That is, when the operator opens the door of the upper end 101 of the enclosure 100 and pulls the upper end 101 of the enclosure 100 in the front direction of the operator, as shown in Figure 4 the upper end of the enclosure 100 Since one side of the 101 is hinged rotatably around the housing 100 via the hinges 133 and 134, the upper end 101 of the housing 100 is rotated in the forward direction as shown by the arrow of FIG.

Therefore, the operator can easily proceed to the necessary work, such as inspection, repair, or upgrade of the enclosure 100. The convenience of such work is not a big consideration when the enclosure 100 is installed on the ground, but when installed on the pole or other outer wall is very sensitive to workability is a very important consideration.

According to the present invention as described above, the internal structure of the enclosure is divided into the upper end and lower end of the board or board type, and the upper end is hinged to be rotatable to maintain the various types of communication equipment provided in the upper end, maintenance, operation, Or it provides a housing for accommodating an optical signal processing device for providing a high-speed communication service that is convenient to upgrade.

In addition, since the high-speed communication service is provided by the optical cable from the telephone pole or the wall where the enclosure is installed to each subscriber terminal, it is possible to eliminate the risk of lightning caused by using the UTP cable in the conventional subscriber distribution. Even if the location is within a few tens of kilometers from a particular pole or wall of a building, you can still get high-speed communications.

On the other hand, the present invention is not limited to the above-described embodiment, but can be modified and modified within the scope not departing from the gist of the present invention, such modifications and changes should be regarded as belonging to the following claims. will be.

Claims (5)

An optical fiber connection / coquette processing unit which provides a space for connecting optical fiber wires and has a filtering board installed therein; An optical signal switch system for distributing an optical signal received from a communication service provider to each subscriber station; And An optical subscriber distribution unit configured to transmit an optical signal output from the optical signal switch system to each subscriber station using an optical cable; The optical signal switch system processes and performs an optical signal regardless of a data transmission method of a communication operator, and provides an ultra high speed communication service, which processes an optical signal regardless of a light source mode such as a single or a multi mode. Optical signal processing device. The method of claim 1, The optical signal connection system and the optical signal processing unit and the optical signal switch system is installed on a board or a substrate, the optical signal processing apparatus for providing a high-speed communication service, characterized in that the hinge coupled to rotate around the main body if necessary. The uplink of the optical signal switch system is a giga bit interface converter (GBIC), and the ultra-high speed of the optical signal switch system is achieved by exchanging only the GBIC regardless of a specific wavelength of the optical signal. Optical signal processing device for providing a communication service. In the enclosure in which the upper end and the lower end of the board or substrate shape is hinged to be rotatable about the main body, It provides a space for connecting the optical fiber to the upper end, the optical fiber connection / cable processing unit is installed with a filter board, and an optical signal switch system for distributing the optical signal received from the communication provider for each subscriber terminal, The lower end portion is provided with an optical subscriber distribution unit for transmitting an optical signal output from the optical signal switch system to each subscriber station using an optical cable, By moving the upper end or the lower end in a predetermined direction to secure a work space, the optical signal switch system processes and performs an optical signal regardless of a data transmission method of a communication operator, and correlates to a light source mode such as single or multi mode. Enclosure for accommodating an optical signal processing apparatus for providing a high speed communication service, characterized in that for processing an optical signal without. The housing for accommodating an optical signal processing apparatus for providing a high speed communication service according to claim 4, wherein the upper end portion further includes a remote monitoring and temperature control unit for controlling an internal temperature of the enclosure.

Images