M263688 沒、創作說明(1) 【新型所屬之技術領域】 尤指可用於遙控燈光 本創作涉及一種遙控調光裝置 明暗度的遙控調光裝置。 【先前技術】 目前燈具所使用 多利用交流石夕控電晶 CONTROLLED CIRCUIT 小,而達成控制和調 但這種習用調光 須借助使用者以手動 能達成因調節這種習 明暗度。 因此,若能設計 暗度的遙控調光裝置 值0 的習用調光電路DIMMER CIRCUIT,大 體TRI AC配合相位控制電路pHASE_ 及可變電阻來改變燈具的導電角大 整燈光明暗度的目的。 電路係屬於手動操作的調光電路,必 方式調節燈具上的調光控制開關,才 用調光電路的可變電阻而調整燈光的 出一種可以使用無線訊號遙控燈光明 ’對使用者而言自應有極大的實用價 【新型内容】 據此’本創作的主要目的,即在提供一種遙控調光裝 置,由一無線發射器及一遙控調光電路所組成,其中,遙 控調光電路可應用在一般燈具上,且可促成使用者以操控 發射器方式就可遙控燈具的燈光明暗度。 本創作的次要目的,即在提供一種遙控調光裝置,由 一無線發射器及一遙控調光電路所組成,其中,該遙控調M263688 Description of Creation (1) [Technical Field to which the New Type belongs] Especially for Remote Control Lighting This creation relates to a remote control dimming device for brightness and darkness. [Previous technology] At present, the lamps used in most of the lamps use AC CONTROLLED CIRCUIT, and control and dimming are achieved. However, this custom dimming must be performed manually by the user to adjust this custom darkness. Therefore, if you can design a conventional dimming circuit DIMMER CIRCUIT with a dark remote control dimming device value of 0, roughly TRI AC cooperates with the phase control circuit pHASE_ and variable resistors to change the conduction angle of the lamp and adjust the light brightness and darkness. The circuit is a manually operated dimming circuit. The dimming control switch on the luminaire must be adjusted before the variable resistance of the dimming circuit is used to adjust the light. A wireless signal can be used to remotely control the light. Should have a great practical value [new content] According to this, the main purpose of this creation is to provide a remote control dimming device composed of a wireless transmitter and a remote control dimming circuit. Among them, the remote control dimming circuit can be applied On general lamps, it can help users to control the brightness of the lamps by controlling the transmitter. The secondary purpose of this creation is to provide a remote dimming device, which consists of a wireless transmitter and a remote dimming circuit, where the remote dimming
第5頁 四、創作說明(2) 光電路至少包括 相位控制微控制 為而射出無線控 收’且經由微控 訊號而輸出與之 成光輕合為'的輸 與之對應的控制 相位控制微控制 器所輸入的控制 訊號脈波寬度對 以改變燈具的導 燈光明暗度。 一接收器 益、及,一 制訊號後 制器辨識 對應的控 出端接受 訊號到相 器的時間 訊號脈波 功率驅動 電相位角 、一微控制器、一光耦合器、— 功率驅動器,·當使用者操控發射 ’利用遙控調光電路的接收器接 和解碼後,即對應發射器的射出 制訊號到光耦合器的輸入端,促 到輸入端的光訊號激發,而輸出 位控制微控制器的輸入端,利用 計數器(CTC)執行計算由光耦合 寬度後,即可依據所輸入的控制 器執行相應的導電角相位控制, 度’和藉此達成遙控調節燈具的 實施方式】 請 10,係 該遙控 具40的 器2 0的 暗度。 該 號發射 操控後 鍵2 1產 參照第 包括一 調光電 燈座内 按鍵21 無線發 單元23 ,即促 生身分 & π第一圖,本創作所示的遙控調光裝置 一、S射器20及一遙控調光電路30。其中, 邱Ϊ ^ "又置在例如立燈或照明燈等一般燈 部,而且使用者利用操控無線發射 遙控調整燈具4 〇的每個燈泡3 8的燈光明 由ί干按鍵21、'編碼器22、及-訊 成無綠秣Γ ί線發射器20的按鍵2 1被使用者 气^踩:^态20的編碼器22相應被操控的按 識別碼和相應禱㈣資訊,並^訊號發 M263688 四、創作說明(3) ---- 射單兀23將身分識別碼和叩訊號發射出去。 因此,該無線發射器2〇能夠射出的RF控制訊號,至少 包括電源ΟΝ/OFF開關訊號、選擇欲調光的燈具4〇對象訊號 、選擇欲各別獨立調光的燈泡38對象訊號 '及燈光明 的調節訊號等。 該遙控調光電路3〇至少包括一接收器31、一微控制哭 (MCU)32、一光耦合器模組33、一相位控制模組^及― 源供應電路37。 而且 流電源外 接收器3 1 電力。 ’"玄包源供應電路3 7除了可供應燈泡3 8所需的交 可故由變壓器而轉換成5乂直流電源,以供應 、微控制器(MCU)32、及相位控制模組34所需的 該接收器31的功能,係可以接收到由該無線發射器2〇 所射出的身分識別碼和”訊號,並將所接收到的身分識別 碼和RF訊號傳送到微控制器(MCU)32的輸入埠。 該微控制器(MCU)32係一個能獨立執行特定控制功能 的ic兀件,且將中央處理單元cpu、R〇M記憶體或電 流可消除可程式唯讀記憶體、RAM記憶體、1/〇控制電路及 時間計數器(CTC)等相關電路整合在單一晶片上。 由於該微控制器(Mcu)32的]^训或EEPROM記憶體儲存有 相應該無線發射器20的身分識別碼和評訊號解碼資訊,因 此’該微控制器(MCU)32經執行確認由接收器31所輸入的 身分識別碼後,即相應所輸入的RF訊號而解碼成相應的控 制訊號,並由微控制器(MCU)32的輸出埠傳送到光耦^合器工Page 5 IV. Creative Instructions (2) The optical circuit includes at least the phase control micro-control to emit wireless control and output the micro-control signal to output the light-to-light output. The pulse width of the control signal input by the controller changes the brightness of the light guide of the lamp. A receiver, and a signal post-controller recognizes the corresponding control terminal receiving the signal to the phaser time signal pulse power drive electrical phase angle, a microcontroller, an optical coupler,-power driver, · When the user controls the transmitter's use of the remote control dimming circuit receiver and decode, the corresponding output signal of the transmitter is sent to the input end of the optocoupler, which stimulates the optical signal at the input end, and the output bit controls the microcontroller After using the counter (CTC) to perform the calculation of the width of the optical coupling, the corresponding conductive angle phase control can be performed according to the input controller. The degree and the implementation of remotely adjusting the lamp are achieved. The darkness of the remote control device 40. The number 2 of the rear control key for the launching control refers to the first key that includes a 21-key photo-electric lamp holder, the 21 wireless transmitter unit 23, that is, the promoting identity & π. The first picture, the remote control dimming device shown in this creation, the S emitter 20 and a remote dimming circuit 30. Among them, Qiu Qiu is placed in the general lamp department such as a standing lamp or an illuminating lamp, and the user remotely adjusts the light of each light bulb 38 of the lamp 4 by controlling the wireless transmission remotely. The device 22 and the signal-free green button Γ The button 2 1 of the line transmitter 20 is annoyed by the user ^ Press: the encoder 22 of the state 20 is operated according to the identification code and the corresponding prayer information, and the signal Send M263688 IV. Creative Instructions (3) ---- Shooting unit 23 sends out the identification code and the 叩 signal. Therefore, the RF control signal that the wireless transmitter 20 can emit includes at least the ON / OFF signal of the power source, the 40 target signal of the lamp to be dimmed, the 38 target signal of the light bulb to be individually dimmed, and the light. Clear adjustment signal, etc. The remote dimming circuit 30 includes at least a receiver 31, a micro control unit (MCU) 32, an optical coupler module 33, a phase control module ^, and a source supply circuit 37. Moreover, the power of the receiver 3 1 is external to the power source. "& Xuan Baoyuan supply circuit 3 7 In addition to supplying the light bulb 3 8 the required traffic can be converted by the transformer to 5 乂 DC power to supply, microcontroller (MCU) 32, and phase control module 34 The required function of the receiver 31 is to receive the identification code and the "signal" emitted by the wireless transmitter 20, and transmit the received identification code and RF signal to the microcontroller (MCU). Input port 32. The microcontroller (MCU) 32 is an ic element that can independently perform specific control functions, and the central processing unit cpu, ROM memory or current can eliminate programmable read-only memory, RAM The memory, 1/0 control circuit and time counter (CTC) and other related circuits are integrated on a single chip. As the microcontroller (Mcu) 32] training or EEPROM memory stores the identity of the wireless transmitter 20 The identification code and the evaluation signal decode the information. Therefore, after the microcontroller (MCU) 32 confirms the identification code input by the receiver 31, it decodes the corresponding RF signal into the corresponding control signal, and Microcontroller (MCU) 32 input Outbound transmission to optocoupler
M263688 創作說明(4) 模組3 3的輸入埠 同時,該微控制器(MC1032可增設附有學習功能的 路leARNING CIRCUIT 39,當原來的無線發射器2〇遺 失4,可以用來重新輸入新購置的無線發射器2〇的身分識 別碼’以替代原來的無線發射器2〇。 —該光耦合器模組33至少具有一個光耦合器33a,而且 =個光耦合器33a都與微控制器(MCU)32的不同輸出埠構成 連接,因此,該微控制器(MCU)32可以執行多工序功能, 可以同日守L制光麵合态模組3 3的每個光耗合器3 3 &的工作 順序,和各別傳送相應的控制訊號。 f各個光耦合器33a的輸入埠接收到該微控制器(mcu) 32所傳运來的控制訊號後,即激發出光訊號,促使光 器33a的輸出埠因接收到光訊號而輸出相應的控制訊號口 相位控制模組3 4。 此外,利用光耦合器33a本身具有的絕緣特性,連接 在低電壓的微控制器(MCU)32與高電壓的功率驅動哭%十 ^恭可中斷,控制器(M C U ) 3 2及相位控制模組3 4與電源供 :包路3 7的咼電壓構成迴路,以保護微控制器(μ⑶)u 相位控制模組34。 制哭m控制模組34至少、具有一組串聯的相位控制微控 (=3广力率驅動器36,且每個相位控制微控制器 的輸入埠都與所對應的光耦合器33a的輸出埠構成 、、、/因此各個光耦合器Ma所輸出的控制訊號,都可 以傳达到所對應的相位控制微控制器(MCU)35的輸入埠。M263688 Creation instructions (4) Module 3 3 input ports At the same time, the microcontroller (MC1032 can be added with a learning function leARNING CIRCUIT 39, when the original wireless transmitter 2 is missing 4, you can use it to re-enter the new The identity code of the purchased wireless transmitter 20 replaces the original wireless transmitter 20. The optical coupler module 33 has at least one optical coupler 33a, and each optical coupler 33a and the microcontroller (MCU) 32 different output ports constitute a connection, therefore, the microcontroller (MCU) 32 can perform multi-process functions, and can be combined with each optical consumable 3 3 & amp The working sequence and the corresponding control signals are transmitted separately. F The input port of each optical coupler 33a receives the control signal transmitted by the microcontroller (mcu) 32, and then excites the optical signal, prompting the optical device. The output port of 33a outputs the corresponding control signal phase control module 34 due to receiving the optical signal. In addition, the low-voltage microcontroller (MCU) 32 and high Voltage power drive It can be interrupted. The controller (MCU) 3 2 and the phase control module 34 and the power supply: the circuit 咼 voltage of the circuit 3 7 form a loop to protect the microcontroller (μ⑶) u phase control module 34. The control module 34 has at least one set of phase-control micro-controllers (= 3 wide-power rate driver 36), and the input port of each phase-control microcontroller is connected to the output of the corresponding optical coupler 33a. The port configuration, and / or the control signal output by each optical coupler Ma can be transmitted to the corresponding input port of the phase control microcontroller (MCU) 35.
第8頁 四、創作說明(5) 十每個相位控制微控制器(MCU)35都是一個能獨立執行 特疋控制功能的1(:元件,尤其都可利用時間計數器 來執行計算由光耦合器3 3a所輸入的控制訊號脈波寬度, 並ΐ,可依據所輸入的控制訊號脈波寬度而對各個功率驅 動器36執行相應的導電角相位控制。 %,,,每個相位控制微控制器(MCU)35可增設附有手 動設定導電角相位功能的手動設定鈕35a,使得本創作所 不的J控調光裝置10另具有手動設定導電角相位的功能。 、母個功率驅動器36都是由交流矽控電晶體1^1人(:所構 成,與之串聯的相位控制微控制器(MCU)35的輸出埠,即 與交流矽控電晶體TRIAC的閘極構成連接,而且每個 晶體TRIAC的另外兩·,則分別與燈泡38與火線‘ =此,藉由使用者操控無線發射器20的按鍵21時間長 紐,可促成相位控制微控制器(MCU)35相應地輸出不 f制號脈波寬度,和對交流矽控電晶體? = 極電流,進而改變和控制交流二 體 的^以相位,使得燈泡38隨著導電角相位 同而有燈光明暗度的變化。 不 夹/= ’ ί第二圖及第三圖所示,本創作所示的遙控調 ίξ二:以促成使用者以操控無線發射器20的按鍵21 ,就7現遙控調㈣具40的各個燈泡38的燈光明暗度。 1上所不乃較佳貫施例,舉凡局部的 為熟習該項技藝者所易於推知者 / 4 ’ 百俱不脫本創作的範疇。 M263688 ~圖式簡單說明 ' ''""" ---—------- 第一圖係本創竹 _ A」下所示的遙控調光裝置的電路總成示意圖, # 一 _用來§兄明本創作各元件間的相對關係及配置。 弟'一圖係本創^ % TF所不的遙控調光裝置,可將其遙控調光電 斤二 路設置在例如立燈的燈座内部的示意圖。 弟一圖係=創作所示的遙控調光裝置,可將其遙控調光電 路設置在例如照明燈的燈座外部的示意圖。 元件符號說明 10 .........遙控調光裝置 21 .........按鍵 23 .........訊號發射單元 31 .........接收器 33 .........光耦合器模組 34 .........相位控制模組 35 .........相位控制微控 36 .........功率驅動器 3 8 .........燈泡 4 0 ..........般燈具Page 8 IV. Creation Instructions (5) Each phase-controlling microcontroller (MCU) 35 is a 1 (: component that can independently perform special control functions, especially the time counter to perform calculations by optical coupling The pulse width of the control signal input by the controller 3 3a is parallel, and the corresponding conduction angle phase control can be performed on each power driver 36 according to the input control signal pulse width.% ,,, each phase control microcontroller (MCU) 35 can be added with a manual setting button 35a with a function for manually setting the conductive angle phase, so that the J-controlled dimming device 10, which is not included in this creation, also has a function for manually setting the conductive angle phase. The female power drivers 36 are all It consists of 1 ^ 1 AC silicon controlled transistor (:), and the output port of the phase control microcontroller (MCU) 35 connected in series is connected to the gate of the AC silicon controlled transistor TRIAC, and each crystal The other two of the TRIAC are respectively the light bulb 38 and the fire wire '= this, by the user controlling the buttons 21 of the wireless transmitter 20 for a long time, it can cause the phase control microcontroller (MCU) 35 to output a corresponding control. Pulse Width, and the AC silicon controlled transistor? = Pole current, which changes and controls the phase of the AC two-body, so that the light bulb 38 changes with the same angle of the conductive angle. As shown in the second and third figures, the remote control shown in this work is to enable the user to control the keys 21 of the wireless transmitter 20 to control the light brightness of each light bulb 38 of the remote control device 40. The 1 above is not a better example, and the local ones are easy to infer for those skilled in the art / 4 'Do not leave the scope of this creative creation. M263688 ~ Schematic description' '' " " " ------------ The first picture is a schematic diagram of the circuit assembly of the remote control dimming device shown under this creative bamboo_ A ”, # 一 _ is used between Relative relationship and configuration. Brother's one picture is a remote control dimming device that TF does not have. The remote control dimming device can be set in two ways inside a lamp holder such as a stand lamp. Brother's one picture = creation The remote-control dimming device shown can be provided with a remote-control dimming circuit outside the lamp holder, such as a lamp Intention. Explanation of component symbols 10 ......... Remote dimming device 21 ......... Key 23 ......... Signal transmitting unit 31 ... ... receiver 33 ......... optical coupler module 34 ......... phase control module 35 ......... phase control micro-control 36. ........ Power driver 3 8 ......... Bulb 4 0 ...
20...... …無線發射器 22...... …編碼器 30...... •••遙控調光電路 32...... •••微控制器(MCU) 33a ··· ......光耦合器 35a ··· 器(MCU) ......手動設定鈕 37...... 3 9...... …學習電路20 ......… Wireless transmitter 22 ......… Encoder 30 ...... ••• Remote dimming circuit 32 ...... ••• Microcontroller (MCU ) 33a ...... Photocoupler 35a… (MCU) ...... Manual setting button 37 ...... 3 9 ...... ...... Learning circuit