201217965 六、發明說明: 【發明所屬之技術領域】 特別是指 本發明是有關於一種電路、方法及裴置 種除錯電路及方法、除錯顯示裝置。 【先前技術】 如圖1所示,一種習知的除錯設備!適用於對-顯干 裳置如電視)進行除錯,該顯示裝置i3包含一串列= 輸埠]4,該習知的除錯設備j ^ • 如1與該串列㈣=詩㈣ 12。 〈間建立連結的專屬介面電路 如圖2所示,該習知的除錯設備】與該顯示裝 執仃-種除錯方法’該除錯方法包含以下步驟: 步驟Ai:電腦llif一售後服務人 (debug)指令經由該專屬 、示錯 傅送到該顯示裝置13。 裝置u之二顯示裝置U執行該除錯指令以找出該顯示 • 。 …型’並輸出-指出該錯誤類型的回報信息 電腦u經由該專屬介面電路丨 =息,並根據該回報信息所指示的錯誤類: 應的解決流程,並 找出相對 程到該顯示裝置13專屬介面電路12傳送該解決流 裝置13執行該解決流程以重設該顯示 又π 0卩參數以解決錯誤。 但疋上述先前技術具有以下缺點·· 3 201217965 i.需要特殊工具(如專屬介面電& 12)才能建立電腦η 與顯示裝置13之間的連接,增加硬體成本。 3 2·又導致售後服務人員須親自到顯示裝置13所在的現 場,無法從遠端提供除錯服務,而增加交通時間。 【發明内容】 除錯=。’本發明之目的,即在提供一種降低硬體成本的 :::電路,適用於安裝於一顯示裝置中又該顯示 二=,一視訊處理模組。該除錯電路包含-記憶體及 該記憶體用於儲存—降钭扣人 多個分別,則1夕锸纽 ’、s s 7 s,〇除錯指令檔具有 類型所、 類型的除錯指令,及多個該等錯誤 類型所分別對應的解決程彳。 寻錯為 該處理器為電連接於哕 存取^己詩由沾兮 和該視訊處理模組,以 取"哀5己隐體中的該除錯指今 找出該視1Μ έ 並執仃該等除錯指令以 對庫二: 錯誤是否符合該等除錯指…所 ’若是,則該處理H執行至少-所找出的 錯誕類型所對應的解決程 斤找出的 部參數以進行除錯。 '重設該視訊處理模組的内 亨:二之第一目的,即在提供-種除錯方法。 Μ除錯方法適用於由—除錯 裝於-顯示裝置中,又該顯=:,该除錯電路安 ’且該除錯電路包含_ ^3一視訊處理模組 視訊處理模組的處理器,:0一電連接於該記憶體和該 该§己憶體儲存一除錯指令檔,該 201217965 除錯指令播具有多個分別測試多種錯誤類 及多個該等錯誤類型所分別對應的解 的除錯指令, 法包含以下步驟: 解夫程序,且該除錯方 步驟A:該處理器存取該記憶 執行該等除錯指令以找出該視訊處理:二除錯,,並201217965 VI. Description of the Invention: [Technical Field of the Invention] In particular, the present invention relates to a circuit, a method, a debugging circuit and method, and a debugging display device. [Prior Art] As shown in Fig. 1, a conventional debugging device! For debugging, the display device i3 includes a series of columns = 埠 埠 4, the conventional debugging device j ^ • such as 1 and the series (four) = poetry (four) 12 . <The dedicated interface circuit for establishing a connection is shown in FIG. 2, the conventional debugging device] and the display device-debug method include the following steps: Step Ai: Computer llif after sale A debug command is sent to the display device 13 via the exclusive and error-debug. The device u's display device U executes the debug command to find the display. ... type 'and output - indicates that the error type of the return information computer u via the dedicated interface circuit 并 = interest, and according to the error class indicated by the error class: the solution flow should be solved, and the relative distance to the display device 13 The dedicated interface circuit 12 transmits the resolving stream means 13 to perform the resolving process to reset the display π 0 卩 parameters to resolve the error. However, the above prior art has the following disadvantages. 3 201217965 i. Special tools (such as exclusive interface power & 12) are required to establish a connection between the computer η and the display device 13 to increase the hardware cost. 3 2·In turn, the after-sales service personnel must personally go to the site where the display device 13 is located, and cannot provide debugging services from the far end, thereby increasing the traffic time. SUMMARY OF THE INVENTION Debugging =. The purpose of the present invention is to provide a ::: circuit for reducing the cost of hardware, which is suitable for mounting in a display device and for displaying a video processing module. The debugging circuit includes a memory and the memory for storing a plurality of different buttons, and the first and second ss 7 s, the Debug command file has a type and a type of debugging instruction. And a solution to each of the multiple types of errors. The error is that the processor is electrically connected to the 哕 access to the 诗 由 由 兮 and the video processing module, in order to take the 哀 5 己 己 己 隐 隐 找出 找出 找出 找出 找出 找出 找出 找出 找出 找出 找出 找出 找出 找出仃The debug instructions are in the opposite of the library 2: whether the error meets the debug finger... If yes, then the process H performs at least the part of the identified fault type Troubleshoot. 'Reset the internal processing of the video processing module: the first purpose of the second, that is, provide a method of debugging. The Μ 方法 方法 适用 适用 适用 装 装 装 装 装 装 装 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且, : 0 is electrically connected to the memory and the § memory is stored in a debug command file, and the 201217965 debug instruction broadcast has multiple solutions respectively for testing multiple error classes and a plurality of the error types respectively. The debugging instruction, the method includes the following steps: the debugging program, and the debugging party step A: the processor accesses the memory to execute the debugging instruction to find the video processing: two debugging, and
該等除錯指令其中所對應的若、a誤疋否符合 。 貝1 右疋,則進到步驟B 步驟B:該處理器根據所找㈣已知 對應的解決程序。 -、類i以找出所 步驟C:該處理器執行所找㈣解 訊處理模組的内部參數以進行除錯。 ’並重設該視 2月之第二目的’即在提供—種除錯顯示褒置。 錯顯示裝置包含-用於將-視訊訊號轉換成海 訊號的視訊處理模組及一除錯電路。該除錯電=-= 體及一處理器。 匕括5己憶 該記憶體用以儲存一除錯指令標, 個分別測試何種錯誤類型的除錯指令,:多個= 所分別對應的解決程序。 寺錯誤類型 >該處理器疋電連接於該記憶體和該視訊處理模組 取該記憶體中的該除錯指令 ''' 子 as - ^ m 、 且執仃该荨除錯指令以找出 该顯不裝置之視訊處理模組的錯誤是否 = 一錯誤類型,若是,則該處理器執行至=;其 的錯誤類型所對應的解决程序,並重所找出 部參數以進行除錯。 “ °处理模組的内 201217965 【實施方式】 有關本發明之前述及其他技術内容、特點與功效,在 以下配合參考圖式之五個較佳實施例的詳細說明中,將可 清楚的呈現。 除錯電路之第一較佳實施例> 如圖3所示,本發明除錯電路6之第一較佳實施例, 適用於安裝於-屬於用戶端U的顯示裝置7上,該顯示裝 置7更包括一外接槔7卜-用於將-視訊訊號轉換成一顯 示訊號的視訊處理馳72及__用於顯示該顯轉號的顯示 模組73,該除錯電路6並配合―外接式儲存裝置Μ(例如: 通用序列匯流排(Universal Serial細,魏)隨身碟、智慧型 硬碟咖art Disk,SD)卡)而對該視訊處理模組72進行除錯 儲存裝置74可儲存一除錯(debug)指令檔,該除 々樓具有多個分別測試多種已知錯誤類型的除錯指令 ’及多個該等已知錯誤類型所分別對應的解決程序。又該 外接式儲存裝置74更可外接至一 ° 該雷腦w-u ㈣用戶鳊U的電腦75, 这電腦75可經由網際網路76 8白人..客服螭8,該客服端 8包3 —連接至網際網路 服器81的工作站82。的伽益81及-電連接於該飼 該除錯電路6包含:一記情體 體61 隐體61及一電連接於該記憶 LL 視訊處理模組72及該顯示… 的處理器62。 m 厂/|小 方法包含一啟動除錯流程 羽*仃一種除錯方法 解決已知錯誤流程 201217965 之除錯方法更可與一遠端 解決未知錯誤流程4,又本實施例 服務流程5來一起執行。 <啟動除錯流程> 該啟動除錯流程2包括以下步驟: 71是否有連接至 21 ’反之,則重複 步驟20 :該處理器62偵測該外接淳 該外接式儲存裝置74,若是則進到步驟 步驟20。If the error correction command corresponds to a, a, the error is met. Bay 1 right, then go to step B. Step B: The processor is based on the solution known to be found in (4). -, class i to find out Step C: The processor executes the internal parameters of the found (four) decoding processing module for debugging. ‘and resetting the second purpose of the month of February’ is providing a debug display. The error display device includes a video processing module for converting the video signal into a sea signal and a debug circuit. The debug power = - = body and a processor.匕 5 己 己 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆 记忆Temple error type > The processor is electrically connected to the memory and the video processing module takes the debug command ''' as as - ^ m in the memory, and executes the debug command to find Whether the error of the video processing module of the display device is = an error type, and if so, the processor executes the solution to the == its error type, and re-discovers the part parameters for debugging. The above-mentioned and other technical contents, features and effects of the present invention will be apparent from the following detailed description of the preferred embodiments of the present invention. First preferred embodiment of the debug circuit > As shown in FIG. 3, the first preferred embodiment of the debug circuit 6 of the present invention is suitable for being mounted on a display device 7 belonging to the user terminal U, the display device 7 further includes an external interface 7 - a video processing unit 72 for converting the video signal into a display signal and a display module 73 for displaying the display number, the debugging circuit 6 is also equipped with an "external connection" The storage device Μ (for example, a universal serial bus (Universal Serial), a smart disk drive (SD) card) and the video processing module 72 can be stored in a debug storage device 74. The debugging command file has a plurality of debugging instructions for respectively testing a plurality of known error types and a plurality of solving programs corresponding to the plurality of known error types. The external storage device 74 is further applicable. External to one ° Thunderbolt wu (four) user 鳊U's computer 75, this computer 75 can be connected via the Internet 76 8 white.. customer service 螭 8, the client terminal 8 package 3 - connected to the workstation 82 of the Internet server 81. 81 and - electrically connected to the feeding circuit 6 includes: a body 61 hidden body 61 and a processor 62 electrically connected to the memory LL video processing module 72 and the display ... m factory / | The small method includes a startup debugging process. The debugging method of the known error process 201217965 can be performed together with a remote resolution unknown error process 4 and the service flow 5 of the embodiment. Startup debug process> The boot debug process 2 includes the following steps: 71. Is there a connection to 21', otherwise, step 20 is repeated: the processor 62 detects the external port, the external storage device 74, and if so, proceeds to Step 20
父驟21 :該處理器62經由該外 厂可成疋選擇開始測試 ^ 選擇開始測試則進到步驟23,反之,則钟束’、。,右 步驟23 :該處理器62經由該外接; 存裝置74存取該除錯指令標,並將該除錯指令:式儲 圮憶體61以更新該記憶體61。 田轉存入忒 <解決已知錯誤流程> 該解決已知錯誤流程3包括以下步驟: 人步驟31 :該處理器62存取該記憶體61中的該除” 7檔,並逐一執行該等除錯指令以找出該 /、曰曰 的錯誤是否符合該等除錯指令所對應的已知料m72 是’則進到步驟32,反之,沒有找出任何二 符& ^亥專已知錯誤類型則進到步驟41。 又於步驟3!巾’找出該視訊處理模組72的錯誤類型 7 201217965 的詳細做料:該相料視訊處理難72的參數 與該除錯指令檀所記錄之實際參數的預設值、最小值及最 大值比對,若該視訊處理模組72的參數,等於預設值或介 於最大、小值之間(例如須小於等於最大值及大於等於最小 值),則表示該視訊處理模組72的錯誤類型不符合 則表示符合。 其中’上述視訊處理模組72的參數是相關於影像及聲 音訊號的設置。 豕及聲 步驟32 .錢理器62根據所找出的已知錯誤類型 出所對應的解決程序。 …步驟33 :該處理器62執行所找出的解決程序,並心 该視讯處理模組72的内部參數以進行除錯。 又 步驟34:該處理器62控制該顯示模組73以顯示—杜 束測6式及已成功解決錯誤的訊息》 ° <解決未知錯誤流程> 該解決未知錯誤流程4包括以下步驟: 步驟41: «理器62記錄該視訊處賴組7 以產生一未知錯誤訊息檔。 的錯誤 步驟t該處理器62將該未知錯誤訊息樓經由該 蜂71存到該外接式儲存裝置74。 <遠端服務流程> 當該外接式儲存裝置74被連接至兮 的雷腦Κ * 俠主該已連上網際網路76 的電腦75時,該遠端服務流程5開始執 驟: 〗且匕栝以下步 201217965 息檔該電腦75,㈣網際網路76將該未知錯誤訊 均上傳至該客服端8的伺服器81。 作站2 52:該伺服器81將該未知錯誤訊息樓轉傳至該工 步驟^該工作站82遭該售後服務人員控制,以根據 =。口錯誤訊息標所指示的錯誤狀態而產生一具有對應的 解決程序和除錯指令的更新除 … 指八〜, 7的更新除錯各令檔,並將該更新除錯 知7槽回傳至該伺服器81。 步,電腦75遭該用戶者控制以將該更新除錯指令 = 81藉由網際網路76下載至該外接式儲 子& 74以作為-新的除錯指令棺,並回到步驟2〇。 <除錯電路之第二較佳實施例> 如圖5所示,本發明除錯電路6之第二較佳實施例盘 第-較佳實施例之差別在於:該除錯電路6更包含一除錯 欠動端63 ’且3亥s己憶體61預先儲存_除錯指令槽。 #方2勺6人所示,又本實施例之該除錯電路6所執行的除 錯方法更包含以下步驟: 步驟10:該除錯啟動端63遭觸發而發出―致能信號。 步驟Π:該處理器6接收該致能信號,並根據該 信號而進入步驟31。 /解决已知錯誤流程、該解決未知錯誤流程與上述 相同,故不再重述。 又本實施例之除錯方法也可與第—實施例的遠端服務 A程5來一起執行。 201217965 <除錯電路之第三較佳實施例> 如圖7所示,本發明除錯電路6之第三較佳實施例, 與第一較佳實施例之差別為:該顯示裝置沒有外接埠Μ而 是更包含一可連接至網際網路76的網路介面77。 如圖8所示,又本實施例之該除錯電路6執行一除錯 方法,本實施例的該除錯方法包含一啟動除錯流程2、一解 決已知錯誤流程3及—解決未知錯誤流程4,又本實施例之 除錯方法也可與一遠端服務流程5來一起執行。 <啟動除錯流程> 本實施例之啟動除錯流程與第一實施例的差異在於包 括以下步驟: 步驟20:該處理器62偵測該網路介面77是否有連接 到已與伺服器81連線之網際_ 76,若是,則進到步驟 21 ’反之,則重複步驟2〇。 ▲步驟21 :該處理器62控制該顯示模組73顯示一開始 測試選單’以供-用戶者決定選擇開始測試或不測試,若 選擇開始測試則進到步驟22,反之,則、社束。 步驟22 :該處理n 62經由該網路介面77與該客服端 8之伺服器81進行交握(handshaking)通訊。 步驟23:該處理器62經由網際網路%、網路介面77 從該伺服g 81 T載-除錯指令檔到該記憶體6卜 <解決已知錯誤流程> 而本實施例之解決已知錯誤流程與第一實施例相同, 故不重述。 10 201217965 <解決未知錯誤流程> 於包=二之解決未知錯誤流程與第-實施例的差異在 以產:驟記錄該視訊處理模組72的錯誤 人二驟=該處理器&將該未知錯誤訊息播經由該網路 …二際網路76傳送到該客服端8之饲服器81。Father Step 21: The processor 62 can select to start the test via the external factory. ^ Select to start the test and proceed to step 23, otherwise, the clock beam ',. Right Step 23: The processor 62 accesses the debug instruction flag via the external storage device 74, and the debug command is stored in the memory 61 to update the memory 61. Field Transfer Deposit <Resolve Known Error Flow> The solution known error flow 3 includes the following steps: Person Step 31: The processor 62 accesses the divide "7" file in the memory 61 and executes one by one The debugging instructions to find out whether the error of the /, 曰曰 corresponds to the known material corresponding to the debugging instruction m72 is 'to proceed to step 32, and vice versa, do not find any two characters & The known error type proceeds to step 41. Also in step 3! towel 'find the video processing module 72 error type 7 201217965 detailed material: the parameters of the video processing difficult 72 and the debugging command The preset value, the minimum value, and the maximum value of the recorded actual parameter are compared. If the parameter of the video processing module 72 is equal to the preset value or between the maximum value and the small value (for example, the value must be less than or equal to the maximum value and greater than If the error type is equal to the minimum value, it means that the error type of the video processing module 72 does not match, indicating that the data is matched. The parameter of the video processing module 72 is related to the setting of the image and the sound signal. 62 based on the known errors found The solution corresponding to the type is output. Step 33: The processor 62 executes the found solution, and the internal parameters of the video processing module 72 are used for debugging. Step 34: The processor 62 controls the The display module 73 is configured to display the message of the type of the beam and the message that has successfully resolved the error. ° <Resolve the unknown error flow> The process of solving the unknown error process 4 includes the following steps: Step 41: The processor 62 records the video office The error group t is generated by the processor 7 to generate an unknown error message file. The processor 62 stores the unknown error message floor via the bee 71 to the external storage device 74. <Remote Service Flow> The storage device 74 is connected to the thunderstorm of the cockroach. * When the singer has connected the computer 75 of the Internet 76, the remote service process 5 begins: 匕栝 and the following step 201217965 is the computer 75, (4) The Internet 76 uploads the unknown error message to the server 81 of the customer service terminal 8. The station 2 52: the server 81 transfers the unknown error message floor to the work step ^ The workstation 82 is sold After the service personnel control, according to =. The error status indicated by the error message flag generates an update with a corresponding resolution program and a debug command. In addition, the eight-to-seven update is used to debug the respective files, and the update is decoded to the 7-slot back to the Server 81. The computer 75 is controlled by the user to download the update debug command = 81 to the external storage & 74 via the Internet 76 as a new debug command, and back Go to step 2. [Second preferred embodiment of the debug circuit] As shown in FIG. 5, the second preferred embodiment of the debug circuit 6 of the present invention differs in the preferred embodiment in that: The debug circuit 6 further includes a debug under-operation 63' and the 3 s-remember 61 pre-stores the _ debug command slot. The method shown in FIG. 2 is shown in FIG. 6 and the debugging method performed by the debugging circuit 6 of the embodiment further includes the following steps: Step 10: The debugging start terminal 63 is triggered to issue an “enable signal”. Step Π: The processor 6 receives the enable signal and proceeds to step 31 based on the signal. /Resolve the known error process, the process of solving the unknown error is the same as above, so it will not be repeated. The debug method of this embodiment can also be performed together with the remote service A-way 5 of the first embodiment. 201217965 <Third Preferred Embodiment of Debug Circuit> As shown in Fig. 7, the third preferred embodiment of the debug circuit 6 of the present invention differs from the first preferred embodiment in that the display device does not have The external interface further includes a network interface 77 that can be connected to the Internet 76. As shown in FIG. 8, the debugging circuit 6 of the embodiment performs a debugging method, and the debugging method of the embodiment includes a startup debugging process 2, a solution to the known error process 3, and - solving the unknown error. The process 4 and the debug method of this embodiment can also be performed together with a remote service process 5. <Starting the debugging process> The difference between the startup debugging process and the first embodiment is that the following steps are included: Step 20: The processor 62 detects whether the network interface 77 is connected to the server. 81 connected to the Internet _ 76, and if so, proceed to step 21 ' otherwise, repeat step 2 〇. ▲ Step 21: The processor 62 controls the display module 73 to display a start test menu 'for the user to decide whether to start or not to test. If the test is selected to proceed to step 22, otherwise, the community is bundled. Step 22: The process n 62 performs handshaking communication with the server 81 of the client terminal 8 via the network interface 77. Step 23: The processor 62 transmits the debug command file from the servo g 81 T to the memory 6 via the Internet%, the network interface 77, and resolves the known error flow. The known error flow is the same as that of the first embodiment, and therefore will not be repeated. 10 201217965 <Resolve the process of unknown error> The difference between the process of solving the unknown error and the first embodiment in the package = two is recorded: the error of the video processing module 72 is recorded: the processor & The unknown error message is transmitted to the feeder 81 of the customer service terminal 8 via the network.
<退服務流程> 本實施例之遠端服務流程與第一實施例的差異在於: 备該伺服器81接收到該未知錯誤訊息檔時,本實施例之遠 端服務流程開始執行,且包括以下步驟: 步驟51 :該伺服器81將該未知錯誤訊息檔轉傳至該工 作站82。 步驟52 :該卫作站82遭該售後服務人員控制,以根據 該未知錯誤訊息檔所指示的錯誤而產生_具有對應的解決 程序和除錯指令的更新除錯指令樓,並將該更新除錯指令 檔回傳至該伺服器81,並回到步驟23。 <除錯顯示裝置之第一較佳實施例> 如圖3所示,本發明除錯顯示裝置7之第一較佳實施 例,適用於配合-外接式儲存裝4 74進行除錯,又該外接 式儲存裝置74更可外接至一屬於用戶端υ的電腦75,該電 腦可經由網際網路76連接至一客服端8,該客服端8包含 一連接至網際網路76的词服器81及—電連接於該伺服器 81的工作站82’且該除錯顯示裝置7包含一除錯電路6、 201217965 -視訊處理模組72、—外接埠71及—顯示模組Μ。該除 錯電路6具有-記憶體6卜及—電連接於該視訊處理模組 72、該外接埠71及該顯示模組73的處理器62。 該除錯顯示裝置7可執行一種除錯方法,且本實施例 之除錯方法與除錯電路6之第-較佳實施例的除錯方法相 同,故不再重述。 如圖5所示,為本實施例之一變形,該變形之除錯電 路6相較於本實施例更包含—㈣啟動端63,且本實_ 的變形之除錯方法與除錯電$6之第二較佳實施例的除錯 方法相同,故不再重述。 <除錯顯示裝置之第二較佳實施例> 如圖7所示’本實施例除錯顯示裝置7之第二較佳實 施例,適詩經由網際網路76連接至__客服端8,該客服 端8包含-連接至網際網路%的飼服器8ι及—電連接於 該飼服器81的工作站82,且該除錯顯示裝置7包含一除錯 電路6' -視訊處理模組72、—網路介面77及—顯示模組 73。該除錯電路6具有一記憶體6卜及一電連接於該視訊 处理模組72、該網路介面77及該顯示模組71的處理器α 〇 該除錯顯示裝置7可執行一種除錯方法,且本實施例 之除錯方法與除錯電路6之第三較佳實施例的除錯方法相 同,故不再重述。 综上所述’上述實施例具有以下優點: 1.不需要使用特殊工具,能減少硬體成本。 12 201217965 2.能接受從遠端提供的除錯服務。 惟以上所述者’僅為本發明之較佳實施例而已,當不 能以此限定本發明實施之範圍,即大凡依本發明申請專利 範圍及發明說明内容所作之簡單的等效變化與修飾,皆仍 屬本發明專利涵蓋之範圍内。 【圖式簡單說明】 圖1是一種習知除錯設備的電路圖;<Retirement Service Flow> The difference between the remote service flow of the present embodiment and the first embodiment is that: when the server 81 receives the unknown error message file, the remote service flow of the embodiment begins to be executed, and The following steps are included: Step 51: The server 81 forwards the unknown error message file to the workstation 82. Step 52: The maintenance station 82 is controlled by the after-sales service personnel to generate an update debug command building with a corresponding resolution program and a debug command according to the error indicated by the unknown error message file, and the update is The debug command file is passed back to the server 81 and returns to step 23. <First Preferred Embodiment of Debug Display Device> As shown in FIG. 3, the first preferred embodiment of the debug display device 7 of the present invention is suitable for debugging with the external-type storage device 4 74. The external storage device 74 can be externally connected to a computer 75 belonging to the user terminal, and the computer can be connected to a customer service terminal 8 via the Internet 76. The customer service terminal 8 includes a word service connected to the Internet 76. The device 81 and the workstation 82' are electrically connected to the server 81. The debug display device 7 includes a debug circuit 6, a 201217965-video processing module 72, an external port 71, and a display module. The error-removing circuit 6 has a memory 6 and a processor 62 electrically connected to the video processing module 72, the external port 71 and the display module 73. The debug display device 7 can perform a debug method, and the debug method of the present embodiment is the same as the debug method of the first preferred embodiment of the debug circuit 6, and therefore will not be described again. As shown in FIG. 5, in a variant of the embodiment, the modified debug circuit 6 further includes - (4) the start end 63, and the decoding method of the variant of the real___ The debugging method of the second preferred embodiment is the same and will not be repeated. <Second preferred embodiment of the debug display device> As shown in Fig. 7, the second preferred embodiment of the debug display device 7 of the present embodiment is connected to the client via the Internet 76. 8. The client terminal 8 includes a server 8 connected to the Internet% and a workstation 82 electrically connected to the feeder 81, and the debug display device 7 includes a debug circuit 6' - video processing The module 72, the network interface 77 and the display module 73. The debugging circuit 6 has a memory 6 and a processor α electrically connected to the video processing module 72, the network interface 77 and the display module 71. The debugging device 7 can perform a debugging. The method, and the debugging method of the embodiment is the same as the debugging method of the third preferred embodiment of the debug circuit 6, and therefore will not be repeated. In summary, the above embodiment has the following advantages: 1. The use of special tools is not required, and the hardware cost can be reduced. 12 201217965 2. Can accept the debugging service provided from the remote end. However, the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, that is, the simple equivalent changes and modifications made by the scope of the invention and the description of the invention, All remain within the scope of the invention patent. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a circuit diagram of a conventional debug device;
圖2是一種習知的除錯方法的流程圖; 圖3疋本發明除錯電路之第一較佳實施例的電路圖; •囷4疋該第一較佳實施例執行一種除錯方法的流程圖 y 圖5疋曰本發明除錯電路之第二較佳實施例的電路圖; . 疋亥第—較佳實施例執行一種除錯方法的流程圖 , 泛圖7疋本發明除錯電路之第三較佳實施例的電路圖; 。圖8是該第三較佳實施例執行-種除錯方法的流程圖 13 201217965 【主要元件符號說明】 2 .......... 啟動除錯流程 71 •…外接埠 21〜23 — 偵測的步驟 72..··· •…視訊處理模組 3 .......... 解決已知錯誤流程 73 •…顯不模組 31〜34 — 存取的步驟 74...·· …··外接式儲存裝置 4 .......... 解決未知錯誤流程 75••… …·電腦 41〜42 — 記錄的步驟 76·.... •…網際網路 5 .......... 遠端服務流程 77.···. •…網路介面 51〜54 — 傳送的步驟 U…… •…用戶端 6 .......... 除錯電路 8…… •…客服端 61......... 記憶體 81 ••… •…伺服器 62......... 處理器 82 ……工作站 63......... 除錯啟動端 7…… |…·除錯顯示裝置2 is a flow chart of a conventional debug method; FIG. 3 is a circuit diagram of a first preferred embodiment of the debug circuit of the present invention; and FIG. 2 is a flow chart of a debug method performed by the first preferred embodiment Figure y Figure 5 is a circuit diagram of a second preferred embodiment of the debug circuit of the present invention; 疋海第-的实施实施实施方式A circuit diagram of three preferred embodiments; Figure 8 is a flow chart of the third preferred embodiment of the method for performing debugging - 201217965 [Explanation of main component symbols] 2 .......... Start debugging process 71 • External 埠21~23 — Steps for detection 72..····...Video processing module 3 .......... Solving the known error flow 73 • Displaying modules 31 to 34 – Accessing step 74. ..·····External storage device 4 ..... Solving the unknown error flow 75••... ... computer 41~42 — Recording step 76·.... •...Internet Road 5 .......... Remote Service Flow 77.···. •...Network Interface 51~54 — Transfer Step U... •...User End 6 ........ .. Debug Circuit 8... •...Customer Service 61......... Memory 81 ••... •...Server 62.........Processor 82...Workstation 63. ........ Debug starter 7...... |.·Debug display device