KR20080052975A - Optical signal checker - Google Patents

Abstract

An optical signal checker is provided to detect short of an optical line, no transmission of optical signal, and normal or weak signal and display with light. An optical signal checker comprises an optical signal inlet, a receiving element(130), an optical-electrical converting unit(140), a controller(150) and a display unit(170). The optical signal inlet allows for entering of an optical signal. The receiving element receives the optical signal from the optical signal inlet. The optical-electrical converting unit converts the optical signal received by the receiving element into an electrical signal. The controller compares the electrical signal with a standard value to judge transmission and abnormality of the optical signal. The display unit displays the state of the optical signal with light by output of the controller.

Description

Optical signal checker

1 is an exemplary view of an optical signal checker of the present invention

2 is a diagram illustrating an application state of the present invention.

3 is a view showing the optical power measurement interval of the present invention

4 is an internal configuration diagram of the optical signal checker of the present invention

5 is a flowchart illustrating an optical signal checker according to the present invention.

[Explanation of symbols on the main parts of the drawings]

100: checker 110: optical signal inlet

120: OK button 130: receiving element

140: photoelectric conversion unit 150: controller

160: power supply

The present invention relates to an optical signal checker that can easily check whether there is an abnormality in the optical path with light.

Due to the generalization of optical communication, optical paths are spreading in homes, such as FTTH (Fiber To The Home), and these optical paths are lost when they pass through connection devices such as optical transmission devices and optical distribution boards. Loss, connection point loss, distribution board loss, and so on.

In other words, optical paths inevitably have optical loss, and in order to measure the optical loss, optical power is transmitted from the optical transmission device to the optical path, and the amount of power transmitted through the optical path is measured at the place where measurement is necessary.

Conventional optical power measuring apparatus can generally check the amount of optical power using a general-purpose optical power meter, the optical power is converted to an electrical signal and converted to an optical signal transmitted to the optical signal and then quantified it Existing optical power meter has an advantage that can accurately grasp the amount of optical power by the number, while the price is expensive, the size is large, there is a problem that is always convenient to carry.

As described above, the generalized optical power meter used to measure the optical loss generated in the optical path is expensive, bulky, and the measurement amount is sensitive to temperature change.

The present invention is to make it easy to check whether there is an abnormality of the optical path by checking the optical loss generated in the optical path, and to determine whether the disconnection or optical signal of the optical path is not transmitted and the case of normal detection and weak signal detected by the light To make it visible.

That is, the present invention simply displays the use of light signals transmitted through the optical path.

The present invention includes an optical signal inlet for receiving an optical signal to one side, a receiving element for receiving the optical signal, a photoelectric conversion unit for converting the optical signal received by the receiving element into an electrical signal, The controller comprises a controller for comparing the electrical signal converted by the converter with a reference value to determine whether the optical signal is transmitted or not, and is provided by a display unit which displays a light by the output of the controller. And use can be checked by light.

The optical signal checker according to the present invention does not check whether the optical signal is normally transmitted at an access point, a branch point, or an end point when the optical signal is transmitted through a generalized optical path, or whether the data signal can be normally transmitted even if the optical signal is transmitted. It is to check whether there is a bad state that data transmission cannot be done by using a light.

The identification of the present invention is achieved by providing an optical signal lead-in to which an optical signal is introduced and a display unit and a confirmation button to indicate whether there is an abnormality of the optical signal by a light, and a receiver element, a photoelectric conversion unit, and a controller inside. The optical signal received from the outside is received by the receiving element and converted into an electrical signal in the photoelectric conversion unit, which is compared with a reference value preset by the user inside the controller to check the degree of optical deterioration of the optical signal and then emits light in the display unit. Using a diode, the degree of light loss can be displayed simply.

In other words, the checker of the present invention can easily check whether the optical path is used by the light so that the optical signal transmission and the availability of the optical signal can be easily displayed even if the amount of the optical loss is not exactly displayed using a numerical value. will be.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

The checker 100 of the present invention includes an optical signal inlet 110 for introducing an optical signal to the outside of the main body, which is simply a portable body, and includes a display unit 170 made of a light emitting diode. It is to be provided with a confirmation button 120 to operate the present invention, the checker 100 of the present invention is not limited to the shape, but the incoming of the optical signal is easy and the pressing operation of the confirmation button 120 and the display unit ( It is easy to check the light of 170).

The checker 100 of the present invention includes a receiving element 130 for receiving the optical signal introduced into the optical signal inlet 110, and converts the optical signal received by the receiving element 130 into an electrical signal And a controller 150 for comparing the electrical signal converted by the photoelectric converter 140 with a reference value and outputting the result to the display unit 170.

Herein, the battery 100 is built in the checker 100 to configure the power supply unit 160 so that the overall operation power is supplied.

The display unit 170 of the present invention is composed of light emitting diodes having three colors, and the display unit 170 is in a state in which an optical signal is not transmitted. The state beyond this normal value can be displayed.

And the reference value for comparing the light loss in the controller 150 of the present invention is to be selected by the user, and after selecting the reference value in advance, it is possible to select and use the necessary reference value each time, or to use a preset reference value, As described above, in the present invention, it is a main configuration to set the reference value so that it can be compared with the transmitted optical loss, and it is optional for one of ordinary skill in the art to set one reference value or select and use multiple reference values.

On the other hand, the optical signal lead-in unit 110 of the present invention should be able to enter the optical signal transmitted to the optical path, and can be coupled using an optical fiber anchor that can fix the core of the optical path as needed.

In the present invention, the optical signal is inserted through the optical signal inlet 110 so that the optical signal transmitted through the optical path can be inserted, or the optical signal can be introduced by fixing the optical core by using an optical fiber anchor. do.

The optical signal is introduced through the optical signal introduction unit 110 detects the optical signal through the receiving element 130, the optical signal detected through the receiving element 130 is introduced into the photoelectric conversion unit 140 The optical signal is converted into an electrical value and then introduced into the controller 150.

The controller 150 compares the electric value applied from the photoelectric conversion unit 140 with a preselected reference value, and outputs the result, but the controller 150 may not transmit an optical signal transmitted through a light beam. Even when the optical signal is transmitted to the optical path, it is determined whether to exceed the reference value or less than the reference value and output it.

Here, the reference value of the controller 150 has a size that can be determined that the optical signal is normally transmitted because the optical loss of the optical signal transmitted through the optical path is not large so that the normal value is determined when the transmitted optical signal exceeds the reference value. If it is lower than that, it is judged to be low.

That is, the controller 150 compares the optical signal input with a reference value (-27 dBm) and outputs an output signal that is divided into no signal, normal time, and low output time, and the light emitting diode is turned on in the display unit 170 according to the output signal. In case of no signal, normal, low power is displayed.

The display unit 170 is displayed in red when there is no signal, is displayed in green when normal, and is displayed in yellow when low output, so that the user can easily check the loss ratio of the light path even if only the light of the display unit 170 is viewed. .

The present invention is to make it possible to simply check the presence and absence of the normal transmission of the optical signal transmitted to the light beam with a light, and to check the existence of the optical signal without using the existing high-powered optical power equipment and the optical signal transmitted You can easily check for abnormalities.

In addition, the present invention can be manufactured in a small device is easy to carry, and the use method is simple so that anyone can check whether there is an optical signal and whether there is an abnormality.

Claims (3)

It includes an optical signal receiving unit 110 through which an optical signal is introduced, and includes a receiving element 130 for receiving the optical signal introduced into the optical signal introducing unit 110, and the optical signal received by the receiving element 130. The controller 150 includes a photoelectric conversion unit 140 for converting a signal into an electrical signal, and compares the electrical signal converted by the photoelectric conversion unit 140 with a reference value to determine whether or not an optical signal is transmitted or not. And a display unit (170) for displaying the transmission state of the optical signal by the output of the controller (150). The method of claim 1, The optical signal checker 100 includes an optical signal inlet unit 110 through which the optical signal is input, a display unit 170 and a confirmation button 120 that display an abnormality of the optical signal as a light on the outside, and the optical signal to the inside. And a receiving device 130 for receiving the signal, a photoelectric conversion unit 140 for converting an optical signal into an electrical signal, and a controller 150 for determining whether the optical signal is transmitted and whether there is an abnormality and outputting a display signal. Optical signal checker. The method of claim 1, The controller 150 compares the signal value converted from the optical signal transmitted to the optical beam with a reference value (-27 dBm) set by the user and determines whether the optical signal is transmitted and whether the optical signal is abnormal or not, and then displays the lights with lights. And an optical signal checker for outputting a signal.

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