KR20180076985A - Light emitting optical adapter device, and method for operating light emitting optical adapter device - Google Patents

Abstract

Disclosed are a light emitting optical adapter device and an operating method thereof. The light emitting optical adapter device according to an embodiment of the present invention includes: a driving circuit which drives at least one light emitting element to emit light according to a signal generated on a circuit board in association with the state of an electronic device; and an optical adapter body which is mounted on the circuit board, and emits light scattered from the light emitting element to the outside in a predetermined direction according to selected light transmittance. Accordingly, the present invention can check a network state.

Description

TECHNICAL FIELD [0001] The present invention relates to a light emitting optical adapter device and a light emitting optical adapter device,

The present invention relates to an optical adapter apparatus for physical connection between optical cables in a passive optical communication network, which emits light from a light emitting element through a transparent region formed in an optical adapter body, And an operation method of the light emitting optical adapter apparatus.

BACKGROUND ART In a passive optical network (PON), a physical connection of a network is performed by using passive optical components such as an optical adapter and an optical connector.

The optical connector is attached to both ends of the optical cable and is coupled to the optical adapter, and the optical adapter is mounted on the optical distribution node that distributes the optical signal and can be used to connect the two optical cables.

FIG. 1 is an exploded view of an optical adapter according to an embodiment of the present invention, and FIG. 2 is a view showing an optical adapter of a Subscriber (SC) type according to a conventional example.

Referring to FIGS. 1 and 2, an optical adapter 210 according to an embodiment of the present invention includes an adapter cap (No. 1 part), a fixing pin (No. 2 part), an adapter housing (adapter main body) A hook (part 4) and a sleeve (part 5).

Here, the adapter housing can be made of a transparent material using materials such as plastic (PPC, PC, etc.) or PC (polycarbonate) which are resistant to heat and humidity in the outdoor environment.

The optical adapter 210 shown in Fig. 2 can be implemented by assembling the components shown in Fig. 1 as an optical adapter whose optical connector is an SC type.

Generally, an optical adapter performs the function of connecting optical signals by precisely aligning a ferrule through which optical signals pass, through a physical connection between two optical connectors fastened to the optical adapter.

Information about which optical cable is connected to a specific optical adapter of the optical distribution enclosure (optical distribution node) and to which subscriber the optical cable is connected is very important from a maintenance point of view, such as occurrence of a failure or change of a subscriber Can be utilized.

For example, a field engineer should be able to quickly and accurately find out which optical adapter device a fiber optic cable is plugged into at an optical distribution node made up of multiple optical adapters in the event of a service failure from a particular subscriber.

However, at present, the connection information (optical distribution network connection information) between the optical adapter and the optical cable of the optical distribution node is transmitted to the optical distribution node via the paper label attached to the optical cable and port connection information (for example, And field engineers memorize or memorize them and manually pass them to the manager, which is inefficient.

Also, in a situation where a change of optical cable connection frequently occurs due to a contract between a service subscriber and a service provider or a service change, a paper label, a front card, etc. are managed manually by a field engineer, It is difficult to accurately maintain, and incorrect connection information may waste optical infrastructure resources or increase the cost of maintenance.

In particular, the field engineer must remove the optical cable (coaxial cable), which is no longer connected to the subscriber's terminal, from the optical adapter in the optical distribution node due to service withdrawal or service change. However, , The state of the optical signal of the coupled optical cable can not be accurately known, so that the optical cable of the subscriber is often left untouched.

As a result, the field engineer can proceed to disconnect the optical cable from the optical adapter and connect it to the optical measuring instrument in order to determine whether there is a ground conductor.

However, in a point-to-multipoint network distribution structure that is characteristic of the PON service, a large number of subscribers can receive service through a single optical cable. Therefore, There is a possibility that a service failure may occur, so that there is almost no work to separate the optical cable once connected.

For this reason, it is not efficient to recycle or remove the core wires. This not only increases the operation cost of optical nodes and optical cables, but also promptly and accurately finds the optical cables of specific subscribers with service failures and takes appropriate measures It may cause difficulties.

In order to solve the above-mentioned problems, there has been a technique of determining the ground conductor line and automatic acquisition of connection information, and an LED (light emitting diode) for displaying various states is mounted on the optical distribution node, Technology as an auxiliary means is being announced.

For example, if there is a problem with a specific optical adapter with an optical cable, the LED corresponding to the optical adapter can be lighted to inform the field engineer of the position of the optical adapter intuitively, By lighting the LED with the pattern, it can be noticed that the optical adapter connected is the coaxial cable.

However, there may be a problem that the structure of attaching LEDs to the optical distribution node and displaying information about the optical adapter sometimes does not meet the requirements of a commercial optical distribution node.

First, when LEDs are arranged on the upper side of each optical adapter in the optical distribution node, the optical adapter may not be arranged in a space inside the limited optical distribution node by a space for LED placement. In addition, when a large number of ports (optical adapters) are arranged in the optical distribution nodes, and the optical cable is fastened, there is a problem that the LED on each port is not visible.

In order to prevent the above-described problem, a structure has been proposed in which LEDs are arranged in a matrix form on one side of an optical distribution node, and the optical adapters are integrated and arranged in a conventional manner.

However, the location of the LED matrix and the actual optical adapter may be too small to allow the field engineer to find the optical adapter intuitively.

For example, a field engineer may accommodate an optical adapter having a port number such as 64 ports, 128 ports, 512 ports, etc., and it may be difficult to efficiently locate a specific optical adapter at an optical distribution node equipped with an LED matrix .

Accordingly, a structure capable of displaying the status of each optical adapter is required so that a field engineer can quickly and accurately intuitively search for and operate a specific optical adapter. By using the structure, the state of the optical cable and the connection information are managed together A technology that can be used is required.

In an embodiment of the present invention, in a light emitting optical adapter device for physical connection between optical cables in a passive optical communication network, light from a light emitting device (e.g., an LED) is transmitted through a transparent region formed in an optical adapter body So that the network status can be confirmed by easily recognizing whether or not the light is emitted from the manager side.

In addition, the embodiment of the present invention adjusts the light transmittance in the transparent region according to the kind of the confirmed state such as the power on / off state, the connection failure of the optical cable, So that it can be easily confirmed.

Further, in the embodiment of the present invention, in the optical distribution enclosure (optical distribution node) having a structure in which a plurality of light-emitting optical adapter devices are integrated (laminated), each surface except a specific portion such as an insertion portion of the optical connector is painted or painted And the light emitted from the light emitting element is radiated to the outside in a predetermined direction so that scattering of the light does not affect the surrounding optical adapter device and intensively luminesce the insertion portion of the optical connector.

Further, in the embodiment of the present invention, in the optical distribution enclosure (optical distribution node) having a structure in which a plurality of light-emitting optical adapter devices are integrated (laminated), the state of the optical cables connected to the respective light- It is therefore an object of the present invention to intuitively recognize a specific light-emitting optical adapter device which is abnormal or needs to be inspected by causing the light of the light-emitting device to emit differently.

The light emitting optical adapter apparatus according to an embodiment of the present invention includes a driving circuit for emitting at least one light emitting element in accordance with a signal generated in a circuit board in relation to a state of an electronic apparatus, And an optical adapter body for radiating light scattered from the element to the outside in a predetermined direction according to a predetermined light transmittance.

According to another aspect of the present invention, there is provided a method of operating a light emitting optical adapter apparatus comprising the steps of: emitting at least one light emitting element in response to a signal generated in a circuit board in relation to a state of an electronic apparatus, And irradiating light scattered from the light emitting element to the outside in a predetermined direction according to a predetermined light transmittance in an optical adapter main body mounted on a board.

According to an embodiment of the present invention, in a light emitting optical adapter apparatus for physical connection between optical cables in a passive optical communication network, light from a light emitting element is emitted through a transparent region formed in an optical adapter body, It is possible to easily recognize whether or not to emit light on the side of the user, so that the status of the network can be confirmed.

According to the embodiment of the present invention, the light transmittance in the transparent region is adjusted in accordance with the kind of the confirmed state such as the power on / off state, the connection failure of the optical cable, It is possible to easily identify the type of the identified state.

According to an embodiment of the present invention, in an optical distribution enclosure (optical distribution node) having a structure in which a plurality of light-emitting optical adapter units are integrated (laminated), each surface except a specific portion such as an insertion portion of an optical connector is painted Or colored to emit light from the light emitting element to the outside in a predetermined direction so that scattering of the light does not affect the surrounding optical adapter device and the insertion portion of the optical connector can be intensively emitted.

According to an embodiment of the present invention, in an optical distribution box (optical distribution node) having a structure in which a plurality of light-emitting optical adapter devices are integrated (laminated), an optical cable The light of the light emitting element is radiated differently according to the state of the light emitting element, so that it is possible to intuitively recognize the specific light emitting optical adapter apparatus which is abnormal or needs to be inspected.

In addition, according to the embodiment of the present invention, state information regarding the light-emitting optical adapter unit and the optical cable in the optical distribution enclosure can be displayed on the light-emitting optical adapter unit itself, It is possible to maximize the number of branches of the optical distribution enclosure and intuitively display the specific luminescence optical adapter device in the high branch optical distribution enclosure to help the field worker to perform the work quickly and accurately.

1 is an exploded view of an optical adapter apparatus according to an embodiment of the present invention.
2 is a diagram showing an optical adapter device of an SC (Subscriber) type according to a conventional example.
3 is a block diagram illustrating an internal configuration of an optical adapter according to an embodiment of the present invention.
4 is a diagram illustrating an example of an optical adapter according to an embodiment of the present invention.
5 is a diagram illustrating an example of an optical adapter according to another embodiment of the present invention.
FIG. 6 is a diagram illustrating an embodiment of a driving circuit including a light emitting element in the light emitting optical adapter according to an embodiment of the present invention. Referring to FIG.
7 is a view illustrating an example of coupling the driving circuit and the optical adapter main body in the light emitting optical adapter apparatus according to an embodiment of the present invention.
8 is a flowchart illustrating a procedure of a method of operating the light emitting optical adapter apparatus according to an embodiment of the present invention.

Hereinafter, an apparatus and method for updating an application program according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to or limited by the embodiments. Like reference symbols in the drawings denote like elements.

3 is a block diagram illustrating an internal configuration of an optical adapter according to an embodiment of the present invention.

3, the light emitting optical adapter 300 according to the embodiment of the present invention includes a driving circuit 310 including the light emitting element 301, an optical adapter main body 320, (330). Here, the insertion portion 330 of the optical connector may be embodied in the optical adapter main body 320.

The driving circuit 310 is a circuit for controlling the light emission of the light emitting element 301 such as an LED and has a function of emitting at least one light emitting element 301 in accordance with a signal generated in the circuit board .

Here, the electronic device may refer to optical communication equipment (e.g., 'optical network unit (ONU)', 'OLT', etc.) used throughout optical communication.

In this case, when the state of the cable connection is poor or the optical signal is not received for a certain period of time, based on a signal relating to the network state such as the optical cable connection state and the optical signal reception state, It is determined that it is necessary, and the light emitting element 301 can emit light.

The electronic device may also refer to a subscriber terminal such as a set-top box, a computer, an internet telephone, and the like. In this case, the driving circuit 310 can emit the light emitting element 301 when the power supply is on (On), based on a signal concerning the power supply state of the electronic apparatus.

Here, the circuit board (optical patch panel) 302 real-time checks the status of the entire network such as the power state, the cable connection state, and the optical signal reception state of the electronic device (optical communication equipment) The light emitting optical adapter 300 of the present invention may be embodied as a kind of control board functioning to generate a signal according to the present invention, for example, a PCB (PRINTED CIRCUIT BOARD) As shown in Fig.

That is, the driving circuit 310 controls the operation of the light emitting element 301 according to the power state of the electronic device, the connection state of the optical connector to the insertion portion 330, and the reception state of the optical signal, At least one of the emission color and the blinking pattern can be controlled differently.

For example, the driving circuit 310 controls the light emitting element 301 to emit light when the power supply to the electronic device is turned on. If the connection state to the insertion portion 330 to which the optical connector is connected is poor, Can be controlled to blink at a predetermined time interval. In addition, the driving circuit 310 may control the light emitting device 301 to emit red light for warning if the external optical signal related to the electronic device is not received for a predetermined time.

As described above, the drive circuit 310 controls the light emission color and the blinking pattern of the light emitting element 301 to be different so that the administrator can intuitively grasp various states related to the electronic apparatus.

According to the embodiment, the driving circuit 310 may be fastened to the circuit board 302 by a ground pin PIN or a ground pad PAD. In this case, the optical adapter main body 320 can be mounted on the circuit board 302 by overlapping the driving circuit 310. [

6, the driving circuit 310 includes a plurality of ground pins ('Vcc pin', 'GND pin') 630 for fastening a connector to a circuit board And is mounted on an external circuit board 302 through each of the pins 630 so as to express one color according to the signal generated in the external circuit board 302 It is possible to control the light emitting element 301 to emit light.

In addition, when the driving circuit 310 includes the light emitting device 301 capable of expressing two or more colors, additional pins may be provided on the circuit board 610 to implement the circuit board.

6B, the driving circuit 310 is provided with a ground pad 640 for fastening the connector on the circuit board 610 and connects the external circuit board 302 (not shown) via the ground pad 640, And may control the light emitting device 301 to emit light according to the signal.

Each of the optical adapter main bodies 320 corresponding to the number of the drive circuits 310 is connected to the circuit board 302 via a plurality of drive circuits 310. In this case, Circuit 310 may be mounted overlapping each other.

7B, the light emitting adapter adapter 300 includes a plurality of LED driving circuits 720 on a PCB circuit board 710, and a plurality of LED driving circuits 720 are provided on the PCB circuit board 710. For example, The optical adapter main body 730 may be mounted so as to overlap the optical adapter main body 730, respectively. That is, the plurality of optical adapter bodies 730 can be coupled to the plurality of LED driving circuits 720 fastened on the PCB circuit board 710 in an N: N manner.

The optical adapter main body 320 is mounted on a circuit board (optical patch panel) 302 and functions to radiate light scattered from the light emitting element 301 to the outside in a predetermined direction according to a predetermined light transmittance.

The optical adapter main body 320 is provided with at least one groove on each surface including the surface to be mounted on the circuit board 302 and the driving circuit 310 can be attached to the optical adapter main body 320 have.

The optical adapter main body 320 may be designed to include a transparent area having a fixed numerical value of light transmittance (e.g., '100%' (glass), '50%' (translucent plastic), etc.) According to the example, the light transmittance of the transparent region can be adjusted.

In one example, the optical adapter body 320 may have a transparent region formed at least partially so that the light is radiated in all directions through the transparent region.

That is, the light-emitting optical adapter 300 of the present invention can be formed of a transparent material, which forms part of the appearance of the optical adapter main body 320 (corresponding to the No. 3 part in FIG. 1).

4, the optical adapter main bodies 320 and 410 may be configured to have an outer appearance (top, bottom, and side) of the optical adapter main bodies 320 and 410 as a transparent area having a light transmittance of '100% So that light from the light emitting element 301 that emits light by the driving circuits 310 and 410 can be radiated in all directions of the optical adapter bodies 320 and 410 by the transparent region.

Accordingly, the administrator can easily check the light emitted from the entire transparent region of the optical adapter main body 320 without inconvenience of checking whether the light emitting element 301 emits light through a predetermined hole, The state can be intuitively grasped.

In addition, the light-emitting optical adapter device 300 of the present invention may further include a transparent material in addition to the components for aligning the ferrule.

Specifically, the luminescent-light adapter device 300 of the present invention can be realized by embodying an optical adapter cap (corresponding to No. 1 in Fig. 1) fastened to the optical adapter main body 320 in a transparent material, Can be radiated in all directions through the transparent area of the optical adapter body 320 and the optical adapter cap.

Here, the transparent material may include a completely transparent material having a light transmittance close to 100%, such as glass, or a translucent material having a light transmittance of, for example, about 10% to about 90%, such as plastic.

In another example, the optical adapter main body 320 may transmit light scattered from the light emitting element 301 by the light emission, when the light transmittance on each surface except for the insertion portion 330 of the optical connector is '0' The light can be totally reflected from each of the surfaces and radiated to the outside through the insertion portion 330 of the optical connector.

For example, referring to FIG. 5, the light-emitting optical adapter apparatus 300, 500 may be configured such that the light according to the light emission of the light-emitting element 301 is radiated through the insertion portions 330, 520 of the optical connector, The surfaces of the main bodies 320 and 510 excluding the inserting portions 330 and 520 are painted or painted or wrapped with a material capable of reflecting the light so that the light transmittance is set to '0%' (opaque) Can be adjusted.

Accordingly, the optical adapter main body 320, 510 can totally scatter the light scattered from the light emitting element on each surface to intensively emit the insertion portions 330, 520 of the optical connector. Accordingly, the light of the light emitting element 301 can be radiated in an intended direction, so that the manager can easily recognize the light of the light emitting element 301. [

The insertion portion 330 of the optical connector is a portion into which an optical connector attached to both ends of the optical cable is inserted, and may have a groove for determining the insertion direction of the optical connector. That is, the insertion portion 330 of the optical connector may be defined as a portion where the optical connector is inserted.

Further, the optical distribution enclosure (optical distribution node) may be configured to include a plurality of light-emitting optical adapter devices 300. At this time, each surface of each of the plurality of light-emitting optical adapter devices 300 except for the insertion portion 330 of the optical connector can be painted or painted with a material reflecting light from the light-emitting device 301. Accordingly, the light transmittance on each surface except for the insertion portion 330 of the optical connector can show '0'.

7 (b), when a plurality of light-emitting optical adapter devices 300 are integrated, the plurality of light-emitting optical adapter devices 300 may include a plurality of light- (Transparent) regions formed on the optical adapter main bodies 320 and 730 so that the light transmittance on each side except for the transparent electrode 330 becomes '0%' (opaque).

This makes it possible to prevent the light from the light emitting element 301 that emits light from the specific light emitting light adapter device 300 from affecting the remaining light emitting light adapter apparatus 300. [

According to the embodiment, the driving circuit 310 adjusts the light transmittance in the transparent region provided in the optical adapter body 320 according to the type of the state related to the electronic device (e.g., optical communication equipment) , Or the color of the emitted light can be changed.

For example, when the signal generated in the circuit board 302 is related to the reception state of the optical signal, the driving circuit 310 sets the light transmittance in the transparent region as 100%, for example, It is possible to easily inform the manager of the reception failure of the optical signal through the light emitted in the direction of the optical axis.

In addition, when the signal generated in the circuit board 302 is related to the connection state of the optical connector to the insertion portion 330, the driving circuit 310 adjusts the light transmittance in the transparent region to, for example, 50% The translucent transparent region can change the color of the emitted light and easily inform the administrator of the connection failure of the optical connector connected to the insertion portion 330. [

When the signal generated in the circuit board 302 is related to the power state of the electronic apparatus, the driving circuit 310 adjusts the light transmittance in the transparent region to 0%, for example, (On) or Off (Off) of the power supply device is changed by a manager so that the light totally reflected on each surface is radiated to the outside through the inserting portion 330 to which the optical connector is not connected. .

As described above, according to the embodiment of the present invention, in the light emitting optical adapter device for physical connection between the optical cables in the passive optical communication network, light is emitted from the light emitting element through the transparent region formed in the optical adapter body Thus, it is possible for the administrator side to easily recognize whether or not to emit light so that the network status can be confirmed.

According to the embodiment of the present invention, the light transmittance in the transparent region is adjusted in accordance with the kind of the confirmed state such as the power on / off state, the connection failure of the optical cable, It is possible to easily identify the type of the identified state.

According to an embodiment of the present invention, in an optical distribution enclosure (optical distribution node) having a structure in which a plurality of light-emitting optical adapter units are integrated (laminated), each surface except a specific portion such as an insertion portion of an optical connector is painted Or colored to emit light from the light emitting element to the outside in a predetermined direction so that scattering of the light does not affect the surrounding optical adapter device and the insertion portion of the optical connector can be intensively emitted.

According to an embodiment of the present invention, in an optical distribution box (optical distribution node) having a structure in which a plurality of light-emitting optical adapter devices are integrated (laminated), an optical cable The light of the light emitting element is radiated differently according to the state of the light emitting element, so that it is possible to intuitively recognize the specific light emitting optical adapter apparatus which is abnormal or needs to be inspected.

In addition, according to the embodiment of the present invention, state information regarding the light-emitting optical adapter unit and the optical cable in the optical distribution enclosure can be displayed on the light-emitting optical adapter unit itself, It is possible to maximize the number of branches of the optical distribution enclosure and intuitively display the specific luminescence optical adapter device in the high branch optical distribution enclosure to help the field worker to perform the work quickly and accurately.

4 is a diagram illustrating an example of an optical adapter according to an embodiment of the present invention.

4, a light emitting optical adapter 400 according to an exemplary embodiment of the present invention includes a transparent region formed on at least a part of an optical adapter body 410, The driving circuit 420 may be attached so that the light emitted by the light emitting element is radiated in all directions through the transparent region.

Specifically, the light-emitting optical adapter apparatus 400 can be realized by embedding all or a part of the optical adapter main body 410 (refer to the third part in Fig. 1), which forms the appearance, with a transparent material through which the light of the light- .

Accordingly, when the light emitting device driving circuit 420 controls the light emitting device to emit light according to the network state related to the optical communication equipment, the optical adapter main body 410 implemented with a transparent material has a predetermined light transmittance (for example, The light of the light emitting device can be transmitted (radiated) to the outside in accordance with the '100%' (completely transparent), '90%' (translucent)).

The light emitting optical adapter apparatus 400 allows the direction of the light to be emitted by the light emitting element to be in the direction of the optical adapter main body 410 so that the light of the light emitting element is reflected by the optical adapter main body 410 of the transparent material, 410 can be made to emit light.

That is, when the light emitting device emits light, the optical adapter main body 410 itself emits light, so that the administrator can easily recognize whether or not the light emitting device emits light, the color of light emission, the blinking pattern, It is possible to intuitively find the specific light-emitting optical adapter device 400 among the plurality of light-emitting optical adapter devices 400.

According to the embodiment, the luminescent-light adapter device 400 can also be implemented with a transparent material, such as an optical adapter cap (see No. 1 part in Fig. 1). The optical adapter cap can radiate light of the light emitting element together with the optical adapter body 410 even when the optical adapter cap 410 is fastened to the optical adapter main body 410.

The optical adapter main body 410 may be formed of a completely transparent material that can substantially transmit light of the light emitting element, such as 'glass', and may have a light transmittance (for example, , ≪ 10% > to less than ' 100% ').

At this time, the optical adapter main body 410 can adjust the amount of light radiated to the outside by adjusting the light transmittance according to the type of the network state, so that the color of the emitted light can be made different. That is, the optical adapter main body 410 adjusts the light transmittance differently according to the state of at least one of the optical communication equipment (electronic equipment), such as the power on / off state, the connection state to the insertion portion of the optical connector, So that the type of state can be easily distinguished on the administrator side.

The light emitting element driving circuit 420 may be attached to the upper end of the optical adapter main body 410 or may be attached to all the surfaces of the optical adapter main body 410 such as the lower end, Lt; / RTI > At this time, the mounting position can be determined in consideration of the coupling with the optical patch panel (circuit board) to which the optical adapter body 410 is fastened.

A plurality of light emitting element driving circuits 420 may be mounted on a plurality of surfaces of the optical adapter main body 410. The plurality of light emitting element driving circuits 420 may be mounted on the optical adapter main body 410,

5 is a diagram illustrating an example of an optical adapter according to another embodiment of the present invention.

Referring to FIG. 5, an optical adapter 500 according to another embodiment of the present invention includes an optical adapter body 510, which is coated with a material reflecting light, The light transmittance on each surface except for the insertion portion 520 of the light guide plate 520 may be '0%' (opaque).

For example, when a plurality of light-emitting optical adapter units 500 are stacked to form an optical distribution enclosure, each of the plurality of light-emitting optical adapter units 500 includes a plurality of light- The transparent regions formed on the optical adapter bodies 410 and 510 as shown in FIG. 4 can be realized as a material for reflecting light so that the light transmittance in the optical adapter bodies 410 and 510 becomes '0%' (opaque).

Accordingly, the specific light-emitting-optical adapter apparatus 500 can prevent the light from the light-emitting element from affecting the other light-emitting-optical adapter apparatus, and can concentrate the specific region (insertion portion 520 of the optical connector) , It is possible to recognize and discover the specific luminescent light adapter apparatus 500 more intuitively than on the manager side.

Specifically, the light-emitting-optical adapter apparatus 500 includes an insertion portion 520 and a light-receiving portion 520 so that light from the light-emitting element can be scattered toward the optical connector insertion portion 520, The surface except for the portion may be painted or painted or may be designed to have a structure that surrounds the light by a material capable of reflecting the light.

At this time, the color of the painted or painted surface may be implemented, for example, as 'blue' or 'green' so that the type of the connected optical connector (for example, 'PC' or 'APC') can be distinguished.

When the light emitting element emits light by the light emitting element driving circuit 530 attached to the upper end of the optical adapter main body 510 in the light emitting optical adapter apparatus 500 shown in Fig. 4, The light scattered from the device can be totally reflected on each surface and radiated to the outside through the insertion portion 520 of the optical connector.

In this manner, the light-emitting-optical adapter apparatus 500 can adjust the light transmittance so that the light emitted by the light-emitting element can be radiated to the outside in a predetermined direction. That is, the light emitting optical adapter apparatus 500 can intensively emit the insertion portion 530 of the optical connector.

FIG. 6 is a diagram illustrating an embodiment of a driving circuit including a light emitting element in the light emitting optical adapter according to an embodiment of the present invention. Referring to FIG.

6, a light emitting optical adapter apparatus according to an embodiment of the present invention includes a driving circuit (LED driving circuit) for driving a light emitting device (e.g., LED) b).

6A, the light emitting optical adapter device may be implemented by attaching a driving circuit, which is a combination of a pin type circuit board 610 and a light emitting device 620, to the optical adapter main body.

At this time, the driving circuit is coupled to an external circuit board (e.g., a PCB circuit board) through a plurality of pins 630 provided on the circuit board 610 to drive and control the light emitting device 620 .

For example, when the driving circuit includes a light emitting element 620 representing one color, two pins 630 such as a voltage of common collector (Vcc) and a ground (GND) May be provided on the circuit board 610 and fastened to the external circuit board through the respective pins 630. The driving circuit may be attached to the optical adapter body.

Further, when the driving circuit includes a light emitting element 620 that displays two or more colors, additional pins may be implemented as a circuit board provided on the circuit board 610.

Referring to FIG. 6B, the light emitting optical adapter device may be implemented by attaching a driving circuit that combines the pad (PAD) type circuit board 610 and the light emitting element 620 to the optical adapter main body.

In this case, the driving circuit includes a pad (PAD) 640 for fastening a connector by soldering or the like on the circuit board 610, and an external circuit board (e.g., a PCB circuit board) And the driving of the light emitting element 620 may be controlled.

7 is a view illustrating an example of coupling the driving circuit and the optical adapter main body in the light emitting optical adapter apparatus according to an embodiment of the present invention.

The method of attaching the light emitting device (LED) to the optical adapter body in the light emitting optical adapter device of the present invention can be variously implemented.

7, the light emitting optical adapter apparatus includes a PCB circuit board 710 coupled to a driving circuit (hereinafter LED driving circuit) 720 including a light emitting element as shown in FIGS. 6A and 6B, And mounting the optical adapter main body 730 on the PCB circuit board 710.

7A shows an example in which the LED driving circuit 720 and the optical adapter main body 730 are coupled in a 1: 1 manner on the PCB circuit board 710. FIG.

Referring to FIG. 7A, the optical adapter main body 730 may be mounted on the PCB circuit board 710 so as to overlap the LED driving circuit 720 fastened on the PCB circuit board 710.

7B shows an example in which a plurality of LED driving circuits 720 and a plurality of optical adapter bodies 730 are coupled in an N: N manner on a PCB circuit board 710. In FIG.

7B, the light emitting optical adapter apparatus includes a plurality of LED driving circuits 720 on a PCB circuit board 710, and a plurality of LED driving circuits 720, (730), respectively.

As another example, the light-emitting optical adapter apparatus of the present invention may be provided with a groove on a specific surface of the optical adapter main body 410 or 510 as shown in FIG. 4 or 5, (LED driving circuit) including a light emitting element as shown in Fig.

Further, the light-emitting-optical adapter device of the present invention can be realized by directly coupling the light-emitting element ('LED') separated from the driving circuit to the optical adapter main body by using at least one of double injection, .

Hereinafter, the operation flow of the light emitting optical adapter 300 according to the embodiments of the present invention will be described in detail with reference to FIG.

8 is a flowchart illustrating a procedure of a method of operating the light emitting optical adapter apparatus according to an embodiment of the present invention.

The calendar-based shopping information notification method according to the present embodiment can be performed by the above-described light-emitting-optical adapter device 300.

Referring to FIG. 8, in step 810, the driving circuit in the light-emitting optical adapter apparatus 300 controls the light-emitting element to emit light in accordance with a signal generated in the circuit board in relation to the state of the electronic apparatus.

For example, if the connection state of the optical connector in the light-emitting optical adapter device 300 to the insertion portion is poor, the light-emitting element is controlled to emit light for a predetermined period of time It can be controlled so as to blink. In addition, the driving circuit may control the light emitting element to emit red light for warning if reception of an optical signal from the outside related to the electronic device is not detected for a predetermined time.

In this manner, the drive circuit controls the light emission color and the blinking pattern of the light emitting element to be different from each other, so that the administrator can intuitively grasp various states related to the electronic apparatus.

According to the embodiment, the drive circuit adjusts the light transmittance in the transparent region provided in the optical adapter main body according to the state, thereby changing the direction in which light is emitted according to the light emission of the light emitting element, The color of the light may be changed. This makes it easier for administrators to recognize the state of the network.

In step 820, the optical adapter body in the light-emitting optical adapter apparatus 300 is mounted on the circuit board and emits light scattered from the light-emitting element to the outside in a predetermined direction according to a predetermined light transmittance.

Here, the circuit board (optical patch panel) confirms the state of the entire network such as the power state, the cable connection state and the optical signal reception state of the electronic device (optical communication equipment) in real time, The light emitting optical adapter 300 of the present invention is detachably attachable to a circuit board 302 located on the outside of the apparatus. Respectively.

For example, referring to FIG. 4, the optical adapter main body 410 may be configured such that the outer appearance (top, bottom, and side surfaces) of the optical adapter main body 410 is formed as a transparent region having a light transmittance of '100% The light from the element can be radiated in all directions of the optical adapter body 410 by the transparent region.

Accordingly, it is possible to easily confirm the state of the network through the light emitted from the entire transparent region of the optical adapter body without the inconvenience of the administrator having to check whether or not the light emitting element emits light through predetermined holes. .

5, the light-emitting optical adapter 500 may be formed by painting or painting the surface of the optical adapter main body 510 except for the insertion portion 520 to adjust the light transmittance to 0% (opaque) , Light scattered from the light emitting element can be totally reflected on the respective surfaces and radiated to the outside through the insertion portion 520 of the optical connector. Accordingly, when the light emitting element emits light, the specific region (the insertion portion 520) is intensively emitted, so that the manager can more intuitively recognize the network state through the light emission of the light emitting element.

The components described in the embodiments may be implemented by a programmable logic device such as one or more DSP (Digital Signal Processor), a processor, a controller, an application specific integrated circuit (ASIC), and a field programmable gate array Logic Element, other electronic devices, and combinations thereof. ≪ RTI ID = 0.0 > At least some of the functions or processes described in the embodiments may be implemented by software, and the software may be recorded in a recording medium. The components, functions and processes described in the embodiments may be implemented by a combination of hardware and software.

The method according to an embodiment of the present invention may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions to be recorded on the medium may be those specially designed and configured for the embodiments or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

300: Emitting light adapter device
301: Light emitting element
302: Circuit board
310: driving circuit
320: Optical adapter body
330: insertion portion of the optical connector

Claims (18)

A driving circuit for emitting at least one light emitting element according to a signal generated in the circuit board in relation to the state of the electronic device; And
An optical adapter main body mounted on the circuit board and radiating light scattered from the light emitting element to the outside in a predetermined direction according to a predetermined light transmittance,
And a light emitting diode (LED). The method according to claim 1,
The optical adapter main body includes:
A transparent region is formed at least in a part, and the light is radiated in all directions through the transparent region
Light emitting optical adapter device. The method according to claim 1,
When the light transmittance on each surface except the insertion portion of the optical connector is '0'
The optical adapter main body includes:
The light scattered from the light emitting element by the light emission is totally reflected by the respective surfaces and radiated to the outside through the insertion portion of the optical connector
Light emitting optical adapter device. The method according to claim 1,
The optical adapter main body includes:
Except for the insertion part of the optical connector, each side is painted or painted with a material reflecting light
Light emitting optical adapter device. The method according to claim 1,
The optical adapter main body includes:
Wherein at least one groove is provided on each surface except a surface to be mounted on the circuit board,
Wherein the driving circuit comprises:
Through the groove, to the optical adapter body
Light emitting optical adapter device. The method according to claim 1,
When the light emitting element is separated from the driving circuit,
The light-
The optical adapter body is attached to the optical adapter body using a combination of at least one of double injection, insertion injection,
Light emitting optical adapter device. The method according to claim 1,
When the driving circuit is fastened to the circuit board by a ground pin (PIN) or a ground pad (PAD)
The optical adapter main body includes:
And the driving circuit is overlapped to be mounted on the circuit board
Light emitting optical adapter device. 8. The method of claim 7,
When a plurality of driving circuits are fastened to the circuit board,
In the circuit board,
Wherein each of the optical adapter bodies corresponding to the number of the drive circuits is mounted so as to overlap the plurality of drive circuits
Light emitting optical adapter device. The method according to claim 1,
The circuit board includes:
Checking the power state of the electronic device, the connection state of the optical connector to the insertion portion, and the reception state of the optical signal,
Wherein the driving circuit comprises:
And controlling at least one of a light emitting color and a blinking pattern for the light emitting device according to the identified state
Light emitting optical adapter device. 10. The method of claim 9,
Wherein the driving circuit comprises:
According to the type of the state, the light transmittance in the transparent region is adjusted to change the direction in which the light is emitted, or to change the color of the emitted light
Light emitting optical adapter device. In the driving circuit, emitting at least one light emitting element in accordance with a signal generated in the circuit board in relation to the state of the electronic apparatus; And
Irradiating light scattered from the light emitting element to the outside in a predetermined direction according to a predetermined light transmittance in an optical adapter body mounted on the circuit board
Wherein the light emitting device is a light emitting device. 12. The method of claim 11,
Wherein the step of radiating outward in the predetermined direction comprises:
So that the light is radiated in all directions through a transparent region formed in at least a part of the optical adapter main body
Wherein the light emitting device is a light emitting device. 12. The method of claim 11,
When the light transmittance on each surface except the insertion portion of the optical connector is '0'
Wherein the step of radiating outward in the predetermined direction comprises:
Totally scattering light scattered from the light emitting element by the light emission on all the surfaces and radiating the light to the outside through the insertion portion of the optical connector
Wherein the light emitting device is a light emitting device. 12. The method of claim 11,
The optical adapter main body includes:
Each surface except the insertion portion of the optical connector is painted or painted with a material reflecting light
A method of operating a light emitting optical adapter apparatus. 12. The method of claim 11,
Wherein the driving circuit comprises:
Wherein the optical adapter body is attached to the optical adapter body through at least one groove provided on each surface of the optical adapter body excluding a surface mounted on the circuit board
A method of operating a light emitting optical adapter apparatus. 12. The method of claim 11,
When the light emitting element is separated from the driving circuit,
The light-
The optical adapter body is attached to the optical adapter body using a combination of at least one of double injection, insertion injection,
A method of operating a light emitting optical adapter apparatus. 12. The method of claim 11,
The driving circuit being fastened to the circuit board by a ground pin or a ground pad; And
In the optical adapter main body, a step of overlapping the driving circuit and mounting on the circuit board
Further comprising the steps of: 12. The method of claim 11,
Confirming a power state of the electronic device, a connection state of the optical connector to the insertion portion, and a reception state of the optical signal in the circuit board; And
Controlling at least one of a light emitting color and a blinking pattern for the light emitting device in accordance with the checked state in the driving circuit
Further comprising the steps of:

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