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Programmable antenna for controlling luminous assembly

A technology of light-emitting components and antennas, applied in antennas, antenna parts, antenna lighting/illumination, etc., can solve problems such as inability to observe light-emitting diodes and inconvenient visual inspection

Inactive Publication Date: 2007-07-04
GIGA BYTE TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] Moreover, the light-emitting diodes in the common technology are arranged on the surface of the host, but when the general wireless network communication device is in use, in order to increase the range of communication and reduce the generation of communication dead spots, it is often necessary to place the wireless network communication device at a higher position In this way, the user cannot directly and quickly observe the light-emitting diodes on the surface of the wireless network communication device, causing inconvenience in visual inspection

Method used

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  • Programmable antenna for controlling luminous assembly
  • Programmable antenna for controlling luminous assembly
  • Programmable antenna for controlling luminous assembly

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] As shown in FIG. 2 , the programmable control antenna of the light-emitting component includes a feeder terminal 202 , a radiation area 204 , a light-emitting component unit 206 , an electrical path 208 and a ground terminal GND. One end of the feeder terminal 202 is coupled to the electrical path 208, and the other end is connected to the host (not shown in the figure), the ground terminal GND is used to electrically connect a ground voltage, and the radiation area 204 is electrically connected to the feeder terminal 202. The electrical path 208 between the light-emitting component unit 206 is symmetrically arranged on both sides of the electrical path 208 . The light emitting component unit 206 is electrically connected to the electrical path between the radiation area 204 and the ground terminal GND.

[0030] After the radiation area 204 receives the high-frequency signal from space, it conducts the high-frequency signal to the feeder end 202 through an electrical pa...

Embodiment 2

[0033] As shown in Figure 3, the antenna for controlling the light-emitting component can also be implemented on the circuit substrate by means of wiring, wherein (a) represents the first surface (for example, the front side) of the substrate, and (b) represents the first surface of the substrate. Two surfaces (for example, the opposite side). This wiring diagram includes a substrate 324, a feeder terminal 302, a ground terminal GND, a first via hole 312, a second via hole 314, a first electrical path 308, a second electrical path 322, a first light-emitting component unit 306, a second electrical path An antenna unit 326 . Wherein, the first antenna unit includes a first radiation area 304 and a second radiation area 318, and the feeder end 302 is equivalent to the feeder end 202 in FIG. 2 , and the first electrical path 308 and the second electrical path 322 are equivalent to FIG. The electrical path 208 , the first antenna unit 326 is equivalent to the radiation area 204 i...

Embodiment 3

[0038]As shown in FIG. 4 , those skilled in the art can add a second light-emitting component and a second antenna unit to the circuit in FIG. 3 . Wherein, (a) represents the first surface of the substrate 324 , and (b) represents the second surface of the substrate 324 . This wiring diagram includes a substrate 324, a feeder terminal 402, a ground terminal GND, a first via hole 412, a second via hole 414, a first electrical path 408, a second electrical path (here, a ground line) 422, a first via hole 412, a second via hole 414, A light emitting component unit 406 , a first antenna unit 426 , a second light emitting component unit 416 , and a second antenna unit 428 . Wherein, the first antenna unit 426 includes a first radiation area 404 and a second radiation area 418 , and the second antenna unit 428 includes a third radiation area 410 and a fourth radiation area 420 . And the feeder end 402 is equivalent to the feeder end 202 in FIG. 2 , the first electrical path 408 is ...

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PUM

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Abstract

The invention discloses a programmable controlling luminous component antenna, which including a feeder terminal, a luminous component unit connecting with the feeder terminal, and a grounding terminal connecting with the luminous component unit, an electrical path pair connecting between the feeder terminal and the luminous component unit, and a radiation zone connecting with the electrical path. It uses wireless signals transmission method to connect the network line and the computers, portable devices or the computers, which can effectively improve the traditional network wiring trouble.

Description

technical field [0001] The invention relates to an antenna, in particular to an antenna with a programmable control light-emitting component. Background technique [0002] In recent years, with the popularization of the network, people's demand for information acquisition and exchange is increasing. The original fixed network must be planned and pre-embedded in line with the layout of the workplace's machines or office furniture, and Once the arrangement of machines and tools in the workplace is slightly changed, which leads to a labor-intensive and time-consuming wiring change, and even the frequent resetting of the wiring in an exposed way, the original fixed network will hinder the movement of personnel. And the overall environment is not neat and beautiful, etc., especially for portable information devices, the use of a fixed network will greatly restrict its range of activities, and lose its advantage of being mobile and shiftable. sex. [0003] The current common wir...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01Q1/00H01Q1/06
Inventor 苏信诚
Owner GIGA BYTE TECH CO LTD