TWM450148U - Waveform capturing system - Google Patents

Description

波形擷取系統Waveform acquisition system

一種波形擷取系統，應用於可對一待測物進行電性檢測以擷取其數位或類比波形之儀器產品中，本創作尤指一種可直接在波形顯示畫面上進行圖形或文字之形式的資訊標註，並可透過向量儲存方式，使原被標註之波形資料為可回溯之波形擷取系統。A waveform capturing system is applied to an instrument product capable of electrically detecting an object to be measured to capture its digital or analog waveform. This creation is especially a form of graphic or text directly on a waveform display screen. Information annotation, and through the vector storage method, the original labeled waveform data is a traceable waveform acquisition system.

習知可擷取待測物之電性波形之儀器例如有示波器、邏輯分析儀等，其在擷取一待測物之電子訊號並顯示波形後，為使結果便於作為檢測參考，操作者常需要對波形資料做文字或圖形的說明標註，例如操作者的分析記錄，以便於後續可以給操作者或提供給其他人作資料檢視；請參閱「第1圖」，圖中所示係為習知的邏輯分析儀標註示意圖(一)，如圖中的邏輯分析儀1，其係用垂直或水平的一文字標籤11加入標記，惟，受限於只有垂直與水平游標可以選擇，即使游標數量可以增加，也會使說明內容過於簡略，且，於邏輯分析儀1上作標註無法直接在一波形區12上標註，以至於增加其他人在檢視上的困難，請接續參閱「第2圖」，圖中所示係為習知的邏輯分析儀標註示意圖(二)，使用者如欲在波形區12上進行標註，習知的作法係先擷取波形區上的一第一圖像13(例如以鍵盤執行『Print Screen』以擷取整個畫面)， 再將第一圖像13儲存成一點陣圖形檔，如JPG、JPEG等圖片格式，再透過一圖像編輯軟體(例如Microsoft所提供的小畫家)對第一圖像13進行標註，且在標註後，再對已標註完成的第一圖像13進行存檔；請參閱「第3圖」，圖中所示係為習知的邏輯分析儀標註示意圖(三)，承上所述，若第一圖像13需要加入標註諸多，因點陣圖形的格式無法隨著波形放大或縮小而自動調整標註位置及尺寸，是以常造成標註位置不清或發生錯誤，如圖中的第一圖像13，以圖像編輯軟體加入幾何圖形14標註之後，第一圖像13與標註的一幾何圖形14合成一第二圖像15，惟，修改幾何圖形14時，會連帶修改到第一圖像13，而使第一圖像13產生破壞(如虛線區塊)，而造成無法回朔之憾事；且儀器在畫面上顯示波形後，常需要水平時間計算功能，習知的作法僅能簡單地於波形單一脈波內顯示時間或使用兩個游標來進行時間差的計算，然後顯示於波形區以外的區域，若想要於波形區內顯示多個脈波時間或同時標記多個位置時，就會發生困難，又，類比儀器常需要進行垂直電壓計算功能，習知作法僅能簡單的垂直游標進行計算或選用自動計算平均電壓功能，皆無法有效的於每個電壓變化點作計算，是以，如何快速有效回朔標註物件資料，並進一步使標註的資料亦可同時配合波形之顯示，實為極待需解決之問題。Instruments that can learn the electrical waveform of the object to be tested include, for example, an oscilloscope, a logic analyzer, etc., after capturing an electronic signal of a test object and displaying the waveform, in order to make the result easy to be used as a test reference, the operator often It is necessary to make a text or graphic description of the waveform data, such as the operator's analysis record, so that the operator can provide the data to the operator or to others for review; please refer to "Figure 1", which is shown in the figure. The schematic diagram of the logical analyzer is labeled (1). In the figure, the logic analyzer 1 is added with a vertical or horizontal text label 11 but is limited to only vertical and horizontal cursors, even if the number of cursors can be The addition will also make the description too simplistic, and the labeling on the logic analyzer 1 cannot be directly marked on the waveform area 12, so as to increase the difficulty of other people in viewing, please refer to "2nd picture". The figure shows a schematic diagram of a conventional logic analyzer (2). If the user wants to mark the waveform area 12, the conventional method first captures a first image 13 on the waveform area ( As to the implementation of the keyboard "Print Screen" to capture the entire screen), The first image 13 is stored in a bitmap image file, such as a JPG, JPEG, and the like, and the first image 13 is labeled by an image editing software (such as a small painter provided by Microsoft). After that, the first image 13 that has been marked is archived; please refer to "Fig. 3", which is a schematic diagram of a conventional logic analyzer (3), as stated above, if the first The image 13 needs to be added with many labels, because the format of the dot pattern cannot automatically adjust the label position and size as the waveform is enlarged or reduced, which often causes the label position to be unclear or an error occurs, as shown in the first image 13 After the image editing software is added to the geometric shape 14 label, the first image 13 and the labeled geometric pattern 14 are combined into a second image 15. However, when the geometric pattern 14 is modified, the first image 13 is modified. And causing the first image 13 to be destroyed (such as a dotted block), causing regrets that cannot be recalled; and after the instrument displays the waveform on the screen, the horizontal time calculation function is often required, and the conventional method can only be simply Display time or waveform within a single pulse Use two cursors to calculate the time difference and then display it in the area outside the waveform area. If you want to display multiple pulse time in the waveform area or mark multiple positions at the same time, it will be difficult. It is necessary to perform the vertical voltage calculation function. The conventional method can only calculate the simple vertical cursor or select the automatic calculation of the average voltage function. It can not effectively calculate the voltage change point. Therefore, how to quickly and effectively return the marked object data. And further make the marked data can also match the display of the waveform at the same time, which is really a problem to be solved.

有鑒於上述的問題，本創作者乃係依據多年來從事相關產品設計的經驗，針對擷取數位或類比波形之儀器產品、使用者習慣及需求等，進行相關性的研究及分析，期能設計出可解決上述問題之實體產品；依此，本創作之主要的目的在於提供一種可直接於波形畫面進行相關資訊標註、可快速回朔受標註之波形的資料，並可進一步達到在改變波形顯示畫面之大小時，標註資訊亦可同時配合波形作顯示改變的目的。In view of the above problems, the creator is based on the experience of related product design for many years, and conducts correlation research and analysis on instrument products, user habits and needs for digital or analog waveforms. The physical product that can solve the above problems; accordingly, the main purpose of the present invention is to provide a data that can directly mark the related information directly on the waveform picture, and can quickly recall the labeled waveform, and can further achieve the change waveform display. When the size of the screen is large, the annotation information can also be used with the waveform for display change.

為達上述目的，本創作主要係於波形擷取系統中建構有一圖層產生模組，用以產生一原始圖層與一編輯圖層，原始圖層供顯現波形，再透過一圖層編輯模組，將疊合於原始圖層上的編輯圖層作資訊標註及編輯，在兩圖層疊的情況下，可顯示於一顯示裝置上，是以，使用者可同時看到波形顯示以及資訊標註的顯示，又，本創作係藉由向量儲存方式同步儲存所述的原始圖層及編輯圖層，藉由此種方式，再經開啟後的畫面，仍可將波形資料完整呈現，達到後續使用者可回溯波形資料的功效，又，當使用者依目視需求改變波形顯示畫面大小時，標註資訊亦可同步配合波形顯示畫面的大小產生變化，以達到便於操作者觀看、標註的功效。In order to achieve the above purpose, the present invention mainly constructs a layer generating module in the waveform capturing system for generating an original layer and an editing layer, the original layer is used for displaying the waveform, and then the layer is edited by a layer editing module. The editing layer on the original layer is used for information annotation and editing. When the two images are stacked, it can be displayed on a display device, so that the user can simultaneously see the waveform display and the display of the information annotation. The original layer and the edit layer are synchronously stored by the vector storage method. In this way, after the opened image, the waveform data can still be completely presented, thereby achieving the effect of the subsequent user to trace back the waveform data, and When the user changes the size of the waveform display screen according to the visual requirements, the annotation information can also be synchronized with the size of the waveform display screen to achieve the effect of facilitating the operator to view and mark.

為使 貴審查委員得以清楚了解本創作之內容，茲以下列說明搭配圖示，敬請參閱。In order for your review board to have a clear understanding of the content of this creation, please refer to the following instructions for illustration.

請參閱「第4圖」，圖中所示係為本創作的裝置組成示意圖，如圖中的一波形擷取系統2，其主要係由一邏輯分析儀21、一輸入裝置22、一顯示裝置23等主要構件組成，且輸入裝置22與顯示裝置23分別與邏輯分析儀21完成電性連接；其中，邏輯分析儀21具有一運算模組211，係組設於邏輯分析儀21內部，且運算模組211係供以進行圖形資料運算與分析，其係可例如為一CPU、一偵測模組212用以偵測一待測物的訊號，其一端與運算模組211電性連接，另一端可供與一待測物連接後，以擷取所述之待測物的電性資訊；一圖層產生模組213，用以產生圖層，其係與運算模組211相互電性連接；一圖層編輯模組214與運算模組211電性連接，其係用以對圖層產生模組213所產生之圖層進行編輯動作；一資料庫模組215與運算模組211相互電性連接，用以存放運算模組211進行圖形資料運算與分析時所需的資料；一暫存模組216與運算模組211相互電性連接，用以暫時存放圖層產生模組213所產生各圖層的向量資料；以及一圖層疊合模組217，與暫存模組216相互電性連接，用以將圖層產生模組213所產生的各圖層進行疊合；輸入裝置22一端電性連接於邏輯分析儀21的運算模組211，另一端係為輸入端；顯示裝置23一端電性連接於邏輯分析儀21的圖層疊合模組217，另一端係為顯示端。Please refer to "Fig. 4", which is a schematic diagram of the composition of the device. The waveform capture system 2 is mainly composed of a logic analyzer 21, an input device 22, and a display device. 23 is composed of a main component, and the input device 22 and the display device 23 are respectively electrically connected to the logic analyzer 21; wherein the logic analyzer 21 has an operation module 211, which is set inside the logic analyzer 21, and is operated. The module 211 is configured to perform the operation and analysis of the graphic data. The system 211 is configured to detect a signal of the object to be tested, and one end of the module 211 is electrically connected to the operation module 211. One end is connected to an object to be tested to obtain electrical information of the object to be tested; a layer generating module 213 is configured to generate a layer, which is electrically connected to the computing module 211; The layer editing module 214 is electrically connected to the computing module 211 for editing the layer generated by the layer generating module 213. A database module 215 and the computing module 211 are electrically connected to each other. Storing the operation module 211 for performing graphics data calculation and The data required for the analysis; a temporary storage module 216 and the computing module 211 are electrically connected to each other for temporarily storing the vector data of each layer generated by the layer generating module 213; and a layer stacking module 217, The temporary storage modules 216 are electrically connected to each other to superimpose the layers generated by the layer generation module 213. One end of the input device 22 is electrically connected to the operation module 211 of the logic analyzer 21, and the other end is an input. One end of the display device 23 is electrically connected to the layer stacking module 217 of the logic analyzer 21, and the other end is a display end.

請參閱「第5圖」，圖中所示係為本創作的實施示意圖(一)，並請搭配「第4圖」，邏輯分析儀21對一待測 物3進行電性檢測，如圖，當偵測模組212經由所連接的待測物3擷取到一電性訊號31後，係將此電性訊號31傳送至運算模組211中進行分析與運算，並將電性訊號31轉換為一第一向量資料2111，運算完成時，將第一向量資料2111傳送給圖層產生模組213，圖層產生模組213依據第一向量資料2111之內容產生相對應的一原始圖層2131與可供編輯的一編輯圖層2132，產生完成時，將兩圖層(2131、2132)傳送至暫存模組216之中存放，又，暫存模組216將兩圖層(2131、2132)傳送至圖層疊合模組217之中，疊合模組217將兩圖層(2131、2132)進行圖層疊合，疊合完成後將第一向量資料2111轉變為一第二向量資料2111’，並將第二向量資料2111’傳送至顯示裝置23，並於顯示端上顯示疊合完成的一波形圖像231。Please refer to "Figure 5". The figure shows the implementation diagram of this creation (1), and please match the "4th figure". The logic analyzer 21 is for a test. The object 3 is electrically detected. As shown in the figure, after the detecting module 212 picks up an electrical signal 31 via the connected object to be tested 3, the electrical signal 31 is transmitted to the computing module 211 for analysis. And the operation, and converting the electrical signal 31 into a first vector data 2111. When the operation is completed, the first vector data 2111 is transmitted to the layer generation module 213, and the layer generation module 213 generates the content according to the content of the first vector data 2111. Corresponding one original layer 2131 and an editable edit layer 2132 can be edited. When the generation is completed, the two layers (2131, 2132) are transferred to the temporary storage module 216, and the temporary storage module 216 will be two layers. (2111, 2132) is transferred to the layer stacking module 217, and the stacking module 217 stacks the two layers (2131, 2132), and converts the first vector data 2111 into a second vector after the overlaying is completed. The data 2111' is transmitted to the display device 23, and a superimposed waveform image 231 is displayed on the display end.

請參閱「第6圖」，圖中所示係為本創作的實施示意圖(二)，並請搭配參閱「第4圖」，圖層編輯模組214可以產生一互動式選單2141，又，互動式選單2141進一步具有一幾何圖形標註單元2142、一多媒體標註單元2143、以及一數值標註單元2144，承如圖中所示，當使用者欲對波形圖像231進行標註時，可藉由輸入裝置22選擇相對應的標註單元。Please refer to "Figure 6", which is a schematic diagram of the implementation of this creation (2), and please refer to "Figure 4". The layer editing module 214 can generate an interactive menu 2141, and interactive The menu 2141 further has a geometric labeling unit 2142, a multimedia labeling unit 2143, and a numerical labeling unit 2144. As shown in the figure, when the user wants to label the waveform image 231, the input device 22 can be used. Select the corresponding label unit.

請參閱「第7圖」，圖中所示係為本創作的實施示意圖(三)，並請搭配參閱「第4圖」，當使用者欲對波形圖像231標註一幾何圖形P1時，如圖，使用者可藉由輸入 裝置22點選幾何圖形標註單元2142，點選完成時，運算模組211隨即抓取資料庫模組215相對應的一資料(其可例如為一繪圖指令)，並傳送至圖層編輯模組214，並將預標註之幾何圖形P1標註於編輯圖層2132上，且暫時存放在暫存模組216中，當標註動作完成時，暫存模組216將原始圖層2131與編輯圖層2132傳送至圖層疊合模組217進行圖層疊合，疊合完成時，疊合模組217產生疊合完成的圖像傳送至顯示裝置23中進行標註作業。Please refer to "Fig. 7", which is a schematic diagram of the implementation of this creation (3), and please refer to "4th figure". When the user wants to label a waveform image 231 with a geometric figure P1, such as Figure, the user can enter by The device 22 clicks on the geometric labeling unit 2142. When the clicking is completed, the computing module 211 then grabs a material corresponding to the database module 215 (which may be, for example, a drawing instruction) and transmits it to the layer editing module 214. The pre-labeled geometry P1 is marked on the editing layer 2132 and temporarily stored in the temporary storage module 216. When the labeling operation is completed, the temporary storage module 216 transfers the original layer 2131 and the editing layer 2132 to the layered layer. The module 217 is laminated, and when the overlay is completed, the overlay module 217 generates a superimposed image and transmits it to the display device 23 for labeling.

請參閱「第8圖」，圖中所示係為本創作的實施示意圖(四)，請搭配參閱「第4圖」，當使用者欲對波形圖像231標註一多媒體圖形P2時，如圖，使用者可藉由輸入裝置22點選多媒體標註單元2143，點選完成時，運算模組211隨即抓取資料庫模組215相對應的資料，並傳送至圖層編輯模組214，並將預標註之多媒體圖形P2標註於編輯圖層2132上，且暫時存放在暫存模組216中，當標註完成時，暫存模組216將原始圖層2131與編輯圖層2132傳送至圖層疊合模組217進行圖層疊合，疊合完成時，疊合模組217係產生疊合完成的圖像傳送至顯示裝置23中完成標註作業，其標註完成之樣貌呈如「第8圖」所示。Please refer to "Figure 8". The figure shows the implementation diagram of this creation (4). Please refer to "4th figure". When the user wants to mark a multimedia image P2 on the waveform image 231, The user can select the multimedia labeling unit 2143 by using the input device 22. When the clicking is completed, the computing module 211 then grabs the data corresponding to the database module 215 and transmits the data to the layer editing module 214, and The labeled multimedia graphic P2 is marked on the editing layer 2132 and temporarily stored in the temporary storage module 216. When the marking is completed, the temporary storage module 216 transfers the original layer 2131 and the editing layer 2132 to the layer stacking module 217. When the superimposition is completed, the superimposing module 217 transmits the superimposed image to the display device 23 to complete the labeling operation, and the appearance of the labeling is as shown in "Fig. 8".

請參閱「第9圖」，圖中所示係為本創作的實施示意圖(五)，並請搭配參閱「第4圖」，當使用者欲將一數值圖像P3垂直、水平標註於波形圖像231上時，如圖，使用者可藉由輸入裝置22點選數值標註單元2144，並在原 始波形2131上選擇預標註數值圖像P3的範圍，選擇完成時，運算模組211即抓取資料庫模組215的另一資料(在此為選取範圍計算後的數值參數，其中，參數可以為參數可以為時間、週期、電壓值等數值)，並傳送至圖層編輯模組214，圖層編輯模組214將預標註之數值圖像P3標註於編輯圖層2132上，並存放在暫存模組216中，當標註完成時，暫存模組216即將原始圖層2131與編輯圖層2132傳送至圖層疊合模組217進行圖層疊合，疊合完成時，疊合模組217產生疊合完成的圖像傳送至顯示裝置23中完成標註作業，標註完成之樣貌呈如「第9圖」與「第10圖」所示。Please refer to "Fig. 9", which is a schematic diagram of the implementation of this creation (5), and please refer to "4th figure". When the user wants to display a numerical image P3 vertically and horizontally in the waveform diagram When the image is like 231, as shown in the figure, the user can click the value labeling unit 2144 by the input device 22, and in the original The range of the pre-labeled numerical image P3 is selected on the start waveform 2131. When the selection is completed, the operation module 211 captures another data of the database module 215 (here, the numerical parameter calculated by the selected range, wherein the parameter can be The parameter can be a time, a period, a voltage value, etc., and is transmitted to the layer editing module 214. The layer editing module 214 marks the pre-labeled numerical image P3 on the editing layer 2132 and stores it in the temporary storage module. In 216, when the labeling is completed, the temporary storage module 216 transfers the original layer 2131 and the edit layer 2132 to the layer stacking module 217 for layering. When the stacking is completed, the stacking module 217 generates a superimposed image. The image is displayed in the display device 23, and the labeling is completed as shown in "Fig. 9" and "Fig. 10".

請參閱「第11圖」，圖中所示係為本創作的實施例(一)，編輯圖層2132(圖中未繪示)還可以包含有複數取樣點2145，如圖，取樣點2145係可顯示於編輯圖層2131(圖中未繪示)上，且各取樣點2145係可作為標註物件的參考位置，並以向量方式儲存標註物件，使標註物件可以隨儀器波形做放大縮小控制，得以讓標記位置不會改變，若為幾何圖形物件或數值物件時，亦可維持正確尺寸，可加入標註數量可以配合使用者需求而增加或減少，如圖，原始圖層2131係有一波形D1，又，編輯圖層2132係具有複數取樣點2145，原始圖層2131與編輯圖層2132疊合後形成圖像，波形D1與取樣點2145疊合處產生一取樣點D2，將圖像放大時，取樣點D2即配合波形D1改變其取樣點D2在圖像之位置。Please refer to FIG. 11 , which is an embodiment (1) of the present creation. The editing layer 2132 (not shown) may further include a plurality of sampling points 2145. As shown in the figure, the sampling point 2145 can be Displayed on the editing layer 2131 (not shown), and each sampling point 2145 can be used as the reference position of the labeling object, and the labeling object is stored in a vector manner, so that the labeling object can be zoomed in and out with the instrument waveform, so that The position of the mark will not change. If it is a geometric object or a numerical object, the correct size can also be maintained. The number of added labels can be increased or decreased according to the user's needs. As shown in the figure, the original layer 2131 has a waveform D1, and edited. The layer 2132 has a plurality of sampling points 2145. The original layer 2131 is overlapped with the editing layer 2132 to form an image. The waveform D1 and the sampling point 2145 are overlapped to generate a sampling point D2. When the image is enlarged, the sampling point D2 is a matching waveform. D1 changes the position of its sampling point D2 at the image.

請參閱「第12圖」，圖中所示係為本創作的實施例(二)，如圖中的一波形擷取系統4，係可以將輸入裝置22與顯示裝置23以一觸控式螢幕5代替，使用者可以觸控的方式點選互動式選單2141，並完成標註作業，其物件標註的實施方式請參照「第7圖」至「第10圖」，在此不加以贅述。Please refer to FIG. 12, which is an embodiment (2) of the present invention. A waveform capture system 4 in the figure can be used as a touch screen for the input device 22 and the display device 23. 5 instead, the user can select the interactive menu 2141 by touch, and complete the labeling operation. For the implementation of the object labeling, please refer to "7th to 10th", and will not be described here.

綜上所述可知，本創作所稱之波形擷取系統，其主要係以一邏輯分析儀中的一圖層產生模組，產生一原始圖層與一編輯圖層，透過一圖層編輯模組對編輯圖層作物件標註及編輯，將兩圖層疊合後，顯示於一顯示裝置上完成圖層的標註，並藉由向量儲存方式儲存圖層，透過向量儲存方式，使向量資料經運算後，可對編輯圖層進行標註物件之復原，達到回朔圖形的功效，並進一步在改變波形大小時，標註的物件可配合波形作修正達到快速編輯及回朔圖形，本創作其據以實施後，確實可以達到提供一種可直接於波形畫面進行相關資訊標註、可快速回朔受標註之波形的資料，並可進一步達到在改變波形顯示畫面之大小時，標註資訊亦可同時配合波形作顯示改變的目的。In summary, the waveform capture system referred to in the present invention mainly generates a module by using a layer in a logic analyzer to generate an original layer and an edit layer, and edits the layer through a layer editing module. Marking and editing of crop parts, stacking the two figures, displaying them on a display device, and storing the layers by vector storage. Through vector storage, the vector data can be manipulated to edit the layers. The restoration of the marked object can achieve the effect of returning the graphic, and further, when the waveform size is changed, the marked object can be corrected with the waveform to achieve quick editing and recalling the graphic. After the implementation of the creation, it can indeed provide a kind of Directly mark the relevant information directly on the waveform screen, and quickly recall the data of the labeled waveform, and further realize that when changing the size of the waveform display screen, the labeling information can also be matched with the waveform for display change.

唯，以上所述者，僅為本創作之較佳實施例而已，並非用以限定本創作實施之範圍，任何熟習此技藝者，在不脫離本創作之精神與範圍下所作之均等變化與修飾，皆應涵蓋於本創作之專利範圍內。The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any change and modification made by those skilled in the art without departing from the spirit and scope of the present invention. , should be covered by the scope of this creation patent.

綜上所述，本創作之功效，係符合申請專利要件之 「實用性」、「新穎性」與「進步性」；申請人爰依專利法之規定，向 鈞局提起新型專利之申請。In summary, the effectiveness of this creation is in line with the requirements for patent application. "Practicality", "novelty" and "progressiveness"; the applicant filed an application for a new type of patent in accordance with the provisions of the Patent Law.

1‧‧‧邏輯分析儀1‧‧‧Logic Analyzer

11‧‧‧文字標籤11‧‧‧Text label

12‧‧‧波形區12‧‧‧Wave Zone

13‧‧‧第一圖像13‧‧‧ first image

14‧‧‧幾何圖形14‧‧‧Geometry

15‧‧‧第二圖像15‧‧‧ second image

2‧‧‧波形擷取系統2‧‧‧ Waveform capture system

21‧‧‧邏輯分析儀21‧‧‧Logic Analyzer

22‧‧‧輸入裝置22‧‧‧ Input device

211‧‧‧運算模組211‧‧‧ Computing Module

2111‧‧‧第一向量資料2111‧‧‧First vector data

2111’‧‧‧第二向量資料2111’‧‧‧Second vector data

212‧‧‧偵測模組212‧‧‧Detection module

213‧‧‧圖層產生模組213‧‧‧layer generation module

2131‧‧‧原始圖層2131‧‧‧ original layer

2132‧‧‧編輯圖層2132‧‧‧Edit layer

214‧‧‧圖層編輯模組214‧‧‧Layer editing module

2141‧‧‧互動式選單2141‧‧‧ interactive menu

2142‧‧‧幾何圖形標註單元2142‧‧‧Geometric labeling unit

2143‧‧‧多媒體標註單元2143‧‧‧Multimedia labeling unit

2144‧‧‧數值標註單元2144‧‧‧Value Unit

2145‧‧‧取樣點2145‧‧‧Sampling point

215‧‧‧資料庫模組215‧‧‧Database Module

P1‧‧‧幾何圖形P1‧‧‧Geometry

216‧‧‧暫存模組216‧‧‧Scratch module

P2‧‧‧多媒體圖形P2‧‧‧ multimedia graphics

217‧‧‧圖層疊合模組217‧‧‧Layer stacking module

P3‧‧‧數值圖像P3‧‧‧ numerical image

23‧‧‧顯示裝置23‧‧‧Display device

D1‧‧‧波形D1‧‧‧ waveform

231‧‧‧波形圖像231‧‧‧ Waveform image

D2‧‧‧取樣點D2‧‧‧ sampling point

3‧‧‧待測物3‧‧‧Test object

31‧‧‧電性訊號31‧‧‧Electrical signal

4‧‧‧波形擷取系統4‧‧‧ Waveform capture system

5‧‧‧觸控式螢幕5‧‧‧Touch screen

第1圖，習知的邏輯分析儀標註示意圖(一)。Figure 1, a schematic diagram of a conventional logic analyzer (1).

第2圖，習知的邏輯分析儀標註示意圖(二)。Figure 2, a schematic diagram of a conventional logic analyzer (2).

第3圖，習知的邏輯分析儀標註示意圖(三)。Figure 3, a schematic diagram of a conventional logic analyzer (3).

第4圖，本創作的裝置組成示意圖。Figure 4 is a schematic diagram of the composition of the device.

第5圖，本創作的實施示意圖(一)。Figure 5, a schematic diagram of the implementation of this creation (1).

第6圖，本創作的實施示意圖(二)。Figure 6, a schematic diagram of the implementation of this creation (2).

第7圖，本創作的實施示意圖(三)。Figure 7, a schematic diagram of the implementation of this creation (3).

第8圖，本創作的實施示意圖(四)。Figure 8, a schematic diagram of the implementation of this creation (4).

第9圖，本創作的實施示意圖(五)。Figure 9, a schematic diagram of the implementation of this creation (5).

第10圖，本創作的實施示意圖(六)。Figure 10, a schematic diagram of the implementation of this creation (6).

第11圖，本創作的實施例(一)。Figure 11, an embodiment of this creation (1).

第12圖，本創作的實施例(二)。Figure 12, an embodiment of this creation (2).

2‧‧‧波形擷取系統2‧‧‧ Waveform capture system

21‧‧‧邏輯分析儀21‧‧‧Logic Analyzer

22‧‧‧輸入裝置22‧‧‧ Input device

211‧‧‧運算模組211‧‧‧ Computing Module

212‧‧‧偵測模組212‧‧‧Detection module

213‧‧‧圖層產生模組213‧‧‧layer generation module

214‧‧‧圖層編輯模組214‧‧‧Layer editing module

215‧‧‧資料庫模組215‧‧‧Database Module

216‧‧‧暫存模組216‧‧‧Scratch module

217‧‧‧圖層疊合模組217‧‧‧Layer stacking module

23‧‧‧顯示裝置23‧‧‧Display device

Claims (9)

一種波形擷取系統，供以對一待測物進行電性檢測後，將檢測之結果以一波形呈現，並可提供操作者對該波形直接進行資訊標註，其包含：一邏輯分析儀，其具有一運算模組、一偵測模組用以偵測該待測物之一電性訊號，其一端與該運算模組電性連接，另一端與該待測物連結、一圖層產生模組用以產生一原始圖層以及一編輯圖層，其與該運算模組相互電性連接、一圖層編輯模組用以編輯該編輯圖層，其與該運算模組相互電性連接、一資料庫模組用以存放該運算模組所需的一資料，其與運算模組相互電性連接、一暫存模組用以暫時存放該原始圖層與該編輯圖層資料，其與運算模組相互電性連接、一圖層疊合模組一端與該暫存模組電性連接，用以疊合該原始圖層與該編輯圖層；一輸入裝置與該邏輯分析儀電性連接，該輸入裝置可對該圖層編輯模組輸入一編輯訊號；以及一顯示裝置與該邏輯分析儀電性連接。A waveform capture system for performing electrical detection on an object to be tested, and presenting the result of the detection in a waveform, and providing an operator with direct information annotation on the waveform, comprising: a logic analyzer, Having a computing module and a detecting module for detecting an electrical signal of the object to be tested, one end of which is electrically connected to the computing module, and the other end is connected to the object to be tested, and a layer generating module The method is used for generating an original layer and an editing layer, and is electrically connected to the computing module, and a layer editing module is used to edit the editing layer, and the computing module is electrically connected to the computing module, and a database module is A data required for storing the computing module is electrically connected to the computing module, and a temporary storage module is configured to temporarily store the original layer and the editing layer data, and electrically connected to the computing module One end of the laminated module is electrically connected to the temporary storage module for superimposing the original layer and the editing layer; an input device is electrically connected to the logic analyzer, and the input device can edit the layer Module input Editing signal; and a display means connected electrically to the logic analyzer. 如申請專利範圍第1項所述之波形擷取系統，其中，該圖層編輯模組可產生一互動式選單。The waveform capture system of claim 1, wherein the layer editing module generates an interactive menu. 如申請專利範圍第1項所述之波形擷取系統，其中，該圖層編輯模組可產生一數值標註單元。The waveform capture system of claim 1, wherein the layer editing module generates a numerical labeling unit. 如申請專利範圍第1項所述之波形擷取系統，其中，該圖層編輯模組可產生一多媒體標註單元。The waveform capture system of claim 1, wherein the layer editing module generates a multimedia annotation unit. 如申請專利範圍第1項所述之波形擷取系統，其中，該 圖層編輯模組可產生一幾何圖形標註單元。The waveform capture system of claim 1, wherein the The layer editing module can generate a geometric labeling unit. 如申請專利範圍第1項所述之波形擷取系統，其中，該圖層編輯模組可產生一取樣點。The waveform capture system of claim 1, wherein the layer editing module generates a sampling point. 如申請專利範圍第1項所述之波形擷取系統，其中，該輸入裝置為一滑鼠。The waveform capture system of claim 1, wherein the input device is a mouse. 如申請專利範圍第1項所述之波形擷取系統，其中，該顯示裝置為一螢幕。The waveform capture system of claim 1, wherein the display device is a screen. 如申請專利範圍第1項所述之波形擷取系統，其中，該顯示裝置為一觸控式螢幕。The waveform capture system of claim 1, wherein the display device is a touch screen.