TWM488653U - LED communication structure - Google Patents
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- TWM488653U TWM488653U TW103211148U TW103211148U TWM488653U TW M488653 U TWM488653 U TW M488653U TW 103211148 U TW103211148 U TW 103211148U TW 103211148 U TW103211148 U TW 103211148U TW M488653 U TWM488653 U TW M488653U
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Description
一種通訊結構,特別是一種發光二極體通訊結構。A communication structure, in particular a light-emitting diode communication structure.
先前技術,如中華民國專利第I425292號,該發明揭示允許利用外掛於手機上之裝置調制不同紅外輻射强度與紅外通過之方法輔助手機攝取紅外成像,裝置包含外掛於手機鏡頭前用以切換紅外通過與截止之雙濾片組;容納該手機的支持座;可外掛於該支持座上可輻射不同强度紅外的調制模組,其特徵在於,該手機上的可外掛裝置均可自由拆離組合以及;組合後該紅外調制模組輻射到被攝物反射後的紅外,經該雙濾片組切換通過進入該手機成像,使此等手機更具有可攝取清楚高對比度紅外影像的功能。Prior art, such as the Republic of China Patent No. I425292, the invention discloses that the device for external infrared radiation is modulated by means of a device externally attached to the mobile phone to assist the mobile phone to take infrared imaging, and the device comprises externally connected to the lens of the mobile phone to switch the infrared through a double filter set with a cut-off; a support for accommodating the mobile phone; a modulation module externally mounted on the support for radiating different intensity infrared, wherein the externally attached device of the mobile phone can be freely detached and combined After the combination, the infrared modulation module radiates to the infrared reflected by the object, and the double filter group switches to enter the mobile phone for imaging, so that the mobile phones have the function of capturing clear and high contrast infrared images.
先前技術,如中華民國專利第201206097號,該發明是有關於一種無線光通信訊號與無線光能傳輸的連接中繼方法、裝置、機構、系統、網路與網際網路。本發明之中繼方法係有關於無線光通信與光能傳輸系統中,使無線光通信訊號再重製,無線光能傳輸再重製,可同時達到中繼信號與中繼能源之功用。所具備之中繼器構造,可同時或分別使用太陽能及傳輸訊號的光能作為中繼器之能源來源。先前技術亦可用於僅傳輸光能,而不傳輸訊號之光能傳輸中繼器使用。中繼器之光接收轉換元件組亦同時作為無線光通信信號之接收器,可將原應用於太陽電池之能源元件功能擴增應用於電信傳訊時作為接收器之再衍生性應用使用。該發明之該光訊號與光能中繼器裝置 包括:光伏接收轉換元件組,電訊號處理元件組,電能處理元件組,發光光源元件組,與電滙流排。裝置內之各元件之材料可為多種硬式材料與軟式材料之組合,可施作於各種外觀形狀之機械結構體之內、外部或嵌鑲於結構體中。 其中所採用之外觀機械結構所採用之材質為純化材質,混合材質,或組合材質,以能任一彎曲,並能固定形狀之方式為主要功能特徵。該發明可應用於各種有線通信,無線通信,多波道通信,交換通信系統與網際網路之中。該發明可應用於各種通信網路拓撲架構之組合建置,成為各種通信交換器,橋接器,路由器,主被動連接器,分配器之關鍵性組件。該發明可與各式調變與解調技術結合,應用於各種調變與解調技術之通信系統與通信網路之中。該發明可與各式多工與解多工技術結合,應用於各種調變與解調技術之通信系統與通信網路之中。該發明可與各式太陽能技術結合,應用於各種太陽能產品之擴增通信應用衍生性產品之中。該發明可與各式照明技術結合,應用於各種照明產品之擴增通信應用衍生性產品之中。該發明可與各式軟性電子技術結合,應用於各種軟性電子產品,軟性電子書產品,可攜式消費性電子產品之擴增通信與能源的應用衍生性產品之中。該發明可與各式遙控電子技術結合,應用於各種遙控電子產品之擴增通信與能源的應用衍生性產品之中。該發明可與各式感測防災電子技術結合,應用於各種感測防災電子產品之擴增通信與能源的應用衍生性產品之中,協助災區建立暫時性快速建立之組合通信系統使用。該發明可與各式固定通信網路,移動通信網路,或混合移動與固定之通信網路技術結合,應用於各種固定通信網路,移動通信網路,或混合移動與固定之通信網路技術的應用衍生性產品之中。該發明可以多個農業自動化工具機或機器人技術結合,應用於各種農業自動化工具機或機器人從事農業生產的工作,並可再與遙控電子技術結合,協助無人化農場的農業生產訊號之傳遞。該發明之太陽能轉換訊號可因中繼器分散各地點可以作為各分散 地點之太陽能狀態即時感測器,並經過該發明之中繼器,連續傳輸到合適到智慧電網管控中心,提供智慧電網的智慧型收集太陽能管控使用,該發明之技術可與其他智慧電網技術結合,為將來綠色能源、再生能源、綠色光電、雲端網際網路等相關系統提供關鍵性零組件技術。The prior art, such as the Republic of China Patent No. 201206097, relates to a connection relay method, apparatus, mechanism, system, network and internet for wireless optical communication signals and wireless optical energy transmission. The relay method of the present invention relates to a wireless optical communication and optical energy transmission system, which enables the wireless optical communication signal to be re-made, and the wireless optical energy transmission is re-reformed, and can simultaneously achieve the functions of the relay signal and the relay energy source. The repeater structure is provided, and the solar energy and the light energy of the transmitted signal can be used simultaneously or separately as the energy source of the repeater. The prior art can also be used for optical energy transmission repeaters that transmit only light energy without transmitting signals. The light receiving conversion component group of the repeater also serves as a receiver of the wireless optical communication signal, and can be used as a receiver re-derived application when the energy component function original application for the solar battery is applied to the telecommunication communication. The optical signal and light energy repeater device of the invention Including: photovoltaic receiving conversion component group, electrical signal processing component group, electric energy processing component group, illuminating light source component group, and electrical bus bar. The materials of the various components in the device may be a combination of a plurality of hard materials and soft materials, and may be applied to the outer, outer or embedded structure of the mechanical structure of various external shapes. The material used in the appearance of the mechanical structure is a purified material, a mixed material, or a combination of materials, so that any bending and fixing of the shape is the main functional feature. The invention can be applied to various wired communications, wireless communications, multi-channel communications, switched communication systems and the Internet. The invention can be applied to the combination of various communication network topologies and becomes a key component of various communication switches, bridges, routers, active and passive connectors, and distributors. The invention can be combined with various modulation and demodulation techniques and applied to communication systems and communication networks of various modulation and demodulation technologies. The invention can be combined with various multiplex and demultiplexing technologies, and is applied to communication systems and communication networks of various modulation and demodulation technologies. The invention can be combined with various solar energy technologies and applied to a derivative communication application derivative product of various solar energy products. The invention can be combined with various lighting technologies and applied to augmented communication application derivative products of various lighting products. The invention can be combined with various soft electronic technologies and applied to various soft electronic products, soft electronic book products, and extended communication and energy application derivative products of portable consumer electronic products. The invention can be combined with various remote control electronic technologies, and is applied to the application of derivative communication products for a variety of remote control electronic products. The invention can be combined with various sensing and disaster prevention electronic technologies, and is applied to various application-derived products for amplifying communication and energy for sensing disaster prevention electronic products, and assisting the disaster area to establish a temporary and rapidly established combined communication system. The invention can be combined with various fixed communication networks, mobile communication networks, or hybrid mobile and fixed communication network technologies, and is applied to various fixed communication networks, mobile communication networks, or hybrid mobile and fixed communication networks. Among the application of technology derivatives. The invention can be combined with a plurality of agricultural automation machine tools or robot technology, and is applied to various agricultural automation machine tools or robots for agricultural production, and can be combined with remote electronic technology to assist the transmission of agricultural production signals of unmanned farms. The solar conversion signal of the invention can be dispersed as various locations due to the repeater of the repeater The location of the solar state instant sensor, and through the invention of the repeater, continuous transmission to the appropriate smart grid control center, providing smart grid for intelligent collection of solar control, the technology of the invention can be combined with other smart grid technologies To provide key component technologies for future related technologies such as green energy, renewable energy, green optoelectronics, and cloud internet.
本創作以手機上的發光二極體(LED)作為訊號傳輸的媒介,手機是具有行動裝置的可攜便利性,因此相較傳統的光訊號中繼器,本創作提供發光二極體通訊結構,係採用可攜行動裝置的手機,隨時隨地與手機或光訊號中繼器,達到光通訊的訊號傳輸,雖然光訊號中繼器是固定位置,但本創作可攜行動裝置的手機可隨人體的活動而變化所在位置,所以增加通訊的便利性,而且經由光訊號解碼以及編碼,本創作還可以達到通訊安全的使用目的,光訊號中繼器可以固定在任意空間,以及安置的位置還可以經由光訊號中繼器與網際網路連結,相較WIFI、藍牙、射頻通訊(RF)、以及無線通訊,本創作一種發光二極體通訊結構,提供可攜行動裝置的手機另一種便利又安全的通訊模式。This creation uses the light-emitting diode (LED) on the mobile phone as the medium for signal transmission. The mobile phone has the portable convenience of the mobile device, so the present invention provides the light-emitting diode communication structure compared with the conventional optical signal repeater. The mobile phone with portable mobile device can realize the signal transmission of optical communication anytime and anywhere with the mobile phone or optical signal repeater. Although the optical signal repeater is a fixed position, the mobile phone of the creative mobile device can be used with the human body. The location of the activity changes, so the convenience of communication is increased, and through the optical signal decoding and encoding, the creation can also achieve the purpose of communication security. The optical signal repeater can be fixed in any space, and the position of the installation can also be Through the optical repeater and the Internet connection, compared with WIFI, Bluetooth, radio frequency communication (RF), and wireless communication, the present invention creates a light-emitting diode communication structure, and provides another convenient and safe mobile phone with a mobile device. Communication mode.
本創作一種發光二極體通訊結構,包括:至少一手機,其係接收或發射光訊號;以及一光訊號中繼器,其係接收或發射光訊號;其中,通訊結構的訊號傳輸係該手機與該手機之間光通訊的訊號傳輸、該手機與該光訊號中繼器之間光通訊的訊號傳輸、以及該光訊號中繼器與一網際網路之間的訊號傳輸,通訊結構的訊號傳輸係接收以及發射的雙向傳輸。The invention relates to a light-emitting diode communication structure, comprising: at least one mobile phone, which receives or emits an optical signal; and an optical signal repeater, which receives or transmits an optical signal; wherein the signal transmission of the communication structure is the mobile phone Signal transmission of optical communication with the mobile phone, signal transmission of optical communication between the mobile phone and the optical signal repeater, and signal transmission between the optical signal repeater and an internet network, signal of the communication structure The transmission is a two-way transmission of reception and transmission.
10‧‧‧手機10‧‧‧Mobile phones
11‧‧‧發光二極體11‧‧‧Lighting diode
12‧‧‧光訊號接收器12‧‧‧Optical Receiver
13‧‧‧第1處理器13‧‧‧1st processor
14‧‧‧光訊號接收模組14‧‧‧Optical Receiver Module
15‧‧‧光訊號發射模組15‧‧‧Optical Transmitter Module
16‧‧‧安全模組16‧‧‧Security Module
17‧‧‧記憶體17‧‧‧ memory
18‧‧‧顯示器18‧‧‧ display
30‧‧‧光訊號中繼器30‧‧‧Optical Repeater
31‧‧‧第2處理器31‧‧‧2nd processor
40‧‧‧乙太網路40‧‧‧Ethernet
50‧‧‧網際網路50‧‧‧Internet
第1圖 手機與手機之間發光二極體光通訊的訊號傳輸示意圖。Figure 1 Schematic diagram of the signal transmission of the light-emitting diode optical communication between the mobile phone and the mobile phone.
第2圖 手機與光訊號中繼器、以及網際網路之間的訊號傳輸示意圖。Figure 2 Schematic diagram of signal transmission between mobile phones and optical repeaters, and the Internet.
請參考第1圖、以及第2圖,本創作一實施例,係提供一種發光二極體11通訊結構,包括:至少一手機10,其係接收或發射光訊號;以及一光訊號中繼器30,其係接收或發射光訊號;其中,通訊結構的訊號傳輸係該手機10與該手機10之間光通訊的訊號傳輸、該手機10與該光訊號中繼器30之間光通訊的訊號傳輸、以及該光訊號中繼器30與一網際網路50之間的訊號傳輸,通訊結構的訊號傳輸係接收以及發射的雙向傳輸。Referring to FIG. 1 and FIG. 2 , an embodiment of the present invention provides a communication structure of a light-emitting diode 11 including: at least one mobile phone 10 that receives or emits an optical signal; and an optical signal repeater. 30. The system transmits or transmits an optical signal. The signal transmission of the communication structure is a signal transmission of optical communication between the mobile phone 10 and the mobile phone 10, and a signal for optical communication between the mobile phone 10 and the optical signal repeater 30. Transmission, and signal transmission between the optical repeater 30 and an internet 50, the signal transmission of the communication structure is two-way transmission of reception and transmission.
請參考第1圖、以及第2圖,該手機10,包括:一發光二極體11、一光訊號接收器12、一第1處理器13、一記憶體17以及一顯示器18。其中,該發光二極體11,其係位於該手機10,藉以發射脈衝波的光訊號;該光訊號接收器12,其係位於該,藉以接收該發光二極體11的脈衝波光訊號;該第1處理器13,其係位於該手機10,藉以控制該發光二極體11、以及該光訊號接收器12的光訊號通訊;該記憶體17,其係位於該手機10,藉以儲存光訊號通訊的一資訊;以及該顯示器18,其係位於該手機10,藉以顯示光訊號通訊的該資訊內容。Referring to FIG. 1 and FIG. 2 , the mobile phone 10 includes a light emitting diode 11 , an optical signal receiver 12 , a first processor 13 , a memory 17 , and a display 18 . The light-emitting diode 11 is located on the mobile phone 10 to emit a pulse wave optical signal; the optical signal receiver 12 is located therein to receive the pulse wave signal of the light-emitting diode 11; The first processor 13 is located in the mobile phone 10 to control the optical signal communication between the LED 11 and the optical signal receiver 12; the memory 17 is located in the mobile phone 10 to store optical signals. a message of communication; and the display 18 is located on the mobile phone 10 to display the information content of the optical signal communication.
請參考第1圖、以及第2圖,該第1處理器13,包括:一光訊號接收模組14、一光訊號發射模組15、以及一安全模組16。其中該光訊號接收模組14,控制該光訊號接收器12,接收光訊號通訊的該資訊;該光訊號發射模組15,控制該發光二極體11,發射光訊號通訊的該資訊;該安全模組16,控制該光訊號接收模組14、以及該光訊號發射模組15的安全解碼、以及編碼。Referring to FIG. 1 and FIG. 2 , the first processor 13 includes an optical signal receiving module 14 , an optical signal transmitting module 15 , and a security module 16 . The optical signal receiving module 14 controls the optical signal receiver 12 to receive the information of the optical signal communication; the optical signal transmitting module 15 controls the light emitting diode 11 to transmit the information of the optical signal communication; The security module 16 controls the secure decoding and encoding of the optical signal receiving module 14 and the optical signal transmitting module 15.
請參考第2圖,該光訊號中繼器30,包括:該發光二極體11、該光訊號接收器12、以及一第2處理器31。其中該發光二極體11,其係位於該光 訊號中繼器30,藉以發射脈衝波的光訊號;該光訊號接收器12,其係位於該光訊號中繼器30,藉以接收該發光二極體11的脈衝波光訊號;以及該第2處理器31,其係位於該光訊號中繼器30,藉以控制該發光二極體11、以及該光訊號接收器12的光訊號通訊。Referring to FIG. 2 , the optical repeater 30 includes the LED 11 , the optical receiver 12 , and a second processor 31 . Wherein the light-emitting diode 11 is located in the light a signal repeater 30 for transmitting a pulse wave optical signal; the optical signal receiver 12 is located at the optical signal repeater 30 to receive the pulse wave optical signal of the light emitting diode 11; and the second processing The device 31 is located in the optical signal repeater 30 for controlling the optical signal communication of the LED 11 and the optical signal receiver 12.
請參考第2圖,該第2處理器31,包括:該光訊號接收模組14、該光訊號發射模組15、以及該安全模組16。其中該光訊號接收模組14,控制該光訊號接收器12,接收光訊號通訊的該資訊;該光訊號發射模組15,控制該發光二極體11,發射光訊號通訊的該資訊;該安全模組16,控制該光訊號接收模組14、以及該光訊號發射模組15的安全解碼、以及編碼。Referring to FIG. 2 , the second processor 31 includes the optical signal receiving module 14 , the optical signal transmitting module 15 , and the security module 16 . The optical signal receiving module 14 controls the optical signal receiver 12 to receive the information of the optical signal communication; the optical signal transmitting module 15 controls the light emitting diode 11 to transmit the information of the optical signal communication; The security module 16 controls the secure decoding and encoding of the optical signal receiving module 14 and the optical signal transmitting module 15.
請參考第2圖,該光訊號中繼器30,連接一乙太網路40,傳輸該資訊。Referring to FIG. 2, the optical repeater 30 is connected to an Ethernet 40 to transmit the information.
請參考第2圖,該乙太網路40連結該網際網路50,傳輸該資訊。Referring to Figure 2, the Ethernet 40 links the Internet 50 to transmit the information.
以上所述,乃僅記載本創作為呈現解決問題所採用的技術手段之較佳實施方式或實施例而已,並非用來限定本創作專利實施之範圍。即凡與本創作專利申請範圍文義相符,或依本創作專利範圍所做的均等變化與修飾,皆為本創作專利範圍所涵蓋。The above descriptions are merely illustrative of the preferred embodiments or examples of the technical means employed to solve the problems, and are not intended to limit the scope of the invention. Any change or modification that is consistent with the scope of the patent application scope of this creation or the scope of the patent creation is covered by the scope of the creation patent.
10‧‧‧手機10‧‧‧Mobile phones
11‧‧‧發光二極體11‧‧‧Lighting diode
12‧‧‧光訊號接收器12‧‧‧Optical Receiver
13‧‧‧第1處理器13‧‧‧1st processor
14‧‧‧光訊號接收模組14‧‧‧Optical Receiver Module
15‧‧‧光訊號發射模組15‧‧‧Optical Transmitter Module
16‧‧‧安全模組16‧‧‧Security Module
17‧‧‧記憶體17‧‧‧ memory
18‧‧‧顯示器18‧‧‧ display
30‧‧‧光訊號中繼器30‧‧‧Optical Repeater
31‧‧‧第2處理器31‧‧‧2nd processor
40‧‧‧乙太網路40‧‧‧Ethernet
50‧‧‧網際網路50‧‧‧Internet
Claims (7)
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Cited By (1)
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TWI577042B (en) * | 2015-07-15 | 2017-04-01 | 南臺科技大學 | Light emitting diode chip and data trasmission and recepition apparatus |
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TWI577042B (en) * | 2015-07-15 | 2017-04-01 | 南臺科技大學 | Light emitting diode chip and data trasmission and recepition apparatus |
US9905725B2 (en) | 2015-07-15 | 2018-02-27 | Southern Taiwan University Of Science And Technology | Light emitting diode and data transmission and reception apparatus |
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