九、發明說明: 【發明所屬之技術頷域】 本發明係涉及〜種平杆 t享標準校正表之平行測試法’特別係指-【先前技術】 隨著科技產業的快速發展,電 都知道產品‘二2 流;=:原:的-環’但也是職生產線生產 以高頻通訊模組為例,由 有一校正表方能進行運作,組中必須儲存 娜徑損耗、放大器增益及時:訊號等::::通2 體,,模組能根據校正組内的記憶 程序^崎雜的校正 試產 下一待測物的預測校正表。如 Η又止录木田作 條件,則將預測的校正表的校正表能通過測試 中;而如果無法通過·條件, 且在測试足夠數量的待測物血多4 γ 丁又釭 、’ 表將會收斂至-穩定值。而也 ^,程序之後’校正 過此一測試驗證流程,使得it因為母個模組都必須要經 因測試時間過長而無法符合=通δίι才吴組薇商的出貨量常 測試產線來解決。 之而求,只能一味地增置 而由於上述中各測試產線仍是各自 產生最後收斂的校正表,因此各測試產線所 正表校正時間仍是㈣而無法有效地減少。^費的权 僅還是必須耗費許多校正測試時間來讓校 ^來’不 須為了提升產能而提高整個測試成本。、4更必 因此’要如何有效地減少校正表的校正 ,需增加測試成本的條件下即可提升 得加以思考的—點。 匕使疋目刖值 【發明内容】 ’本判所要職的技 校正表的收斂而更新出一 積貝料進行 校正表再提卜正表。進而便可將該標準 測試。產線使用’以對之後的待測物進行 9 Λ達到較快獲得經校正收斂過的標準校正夺 卜而能進—步提升產品的生產產能。、、 為了達到上述目的,本發 之平行測試系統,其包括:一铋卜禋::予‘準权正表 及-伺服器。其中,儲在一彳J早70、複數個測試平台 而測試平^存鋪準校正表, 來分別測試=:=設備’用以依據該標準校正表 些測試平A,=。而舰器則係、連接該儲存單元及該 進行?1提供雜準校正纽該㈣試平台,並 的-測試平台在測試每—制物之後所產生 算“=服器再將該校正資料進行-加權運 、丨上述目的,本發明另提供一種共享標準校正 1342954 ft平行測試方法,其步驟包括:首先,在難個測試平 ^提供―待_’接著該㈣試平台㈣進行取得標 :枚正表。於疋’该些測試平台便依據該標準校正表來分 ^試各自的待測物,並分別產生—校正資料。進而進行 二,。己錄》认正資料’並藉由執行—加權運算以更新該標 =正表。藉此,藉由重複上述步驟,以加快校正收傲該 &準校正表而大幅地節省測試流程所需之時間。 以上之概述與接下來的詳細說明及附圖,皆是為了能 • 丨一步說明本發明為達成預定目的所採取之方式、手段及 功效。而有關本發明的其他目的及優點,將在後續的說明 及圖式中加以闡述。 【實施方式】 本發明平行測試系統透過伺服器的增設與設計,用以 統合累積多條測試產線同時運作時所產生的校正資料,以 達到加快標準校正表(Golden Calibration Table)的收斂 速度之目的。並且讓標準校正表的收斂速度在越多條產線 • 的狀况下得以擁有越顯著的加快效果,以大幅地縮短測試 時間。 請參考第一圖,為本發明共享標準校正表之平行測試 系統。如圖所示,本實施例提供一種共享標準校正表 之平行測試糸統’其包括· 一儲存單元1 0、一伺服5| 11、 及複數個剎试平台12。其中,儲存單元是連接於伺服 器11 ’用以儲存標準校正表101。並且,储存單元10可例 如是以内建或外接的方式來連接於伺服器丨丨。而若是以外 接的方式來連接的#,則更可進-步區分為有線連接或無 線連接,以讓儲存單元10得以不受環境或區域的影響,而 8 更增加平行測試系統設置的靈活性 時進行測試各自以平行進行測試,以同 於測試平么19 3 s σ Η肀的―待測物(DUT)120。而由 的待測物120、Ί於/彳試產線的運作模式,因此在此所述 運作以=特定叫轉測物,岐依據產線的 個接考一個來接受測試。 讀取‘單态:進—步連接所有的測試平台12,用以 12’以讓ι2=標準T表1Q1而提供給測試平台 包含的待測物::二,正表 ,測試本身的待測物二每個測試平台12 來取得目前 ~ 120 便會先藉由伺服器11 試。引㈣準枝正表1〇卜以再對待測物120進行測 <後便個則j平台12在測試完每一待測物120 此時會L g &正f料以回傳給词版器11,而词服器11 〜力σ權運ί、積°己錄4%c正*料,並且再將校正資料進行 說,前所使用的標準校正表應。也就是 便會進行一:加二;:台12回傳校正資料時,伺服器11 平台12 4要1二U以更新標準校正表101 it而讓測試 的標準校正表⑺固待測物120時,得以取得新更新過 來進行測試。 而進-步說明的是 ,1丨試儀器121及―^ M平台12中分別進一步包 1是用以產生測at制電腦122。其中,测試儀器 122則是用以控制測試待測物120。而控制電腦 1裔121進行測試待測物120,並且 11據剃<4之結果而產生前述的校正資 料以回傳給伺服器 此外’控制電腦122會進行判斷並將測試之結果為測 於^過的標準校正表1G1燒錄至所屬的待測物120之中, 以完成對一個待測物120的測試。 罗如此一來,透過平行測試系統的設計,由於可以一併 木積β己錄不同測試平台12所回傳的校正資料而進行更新 =共用的標準校正表丨〇1。因此,相對於以往每個測試平 σ所必須完成各自的一個標準校正表之收斂而言,本發明 ,可大幅地加快標準校正表1〇1的收斂速度,因而節省產 則喊時所需耗費的時間。例如,假設一個標準校正表101 而要進行1000次的校正收斂(耗費丨〇〇〇次的校正時間)才 能達到穩定的狀態,而透過本發明的設計運作之下,若有 兩個測試平台12 ’則各只需執行5〇〇次的測試(全部也只 不毛費500次的校正時間)即可完成收斂。而若有越多個測試 平台12則更能節省校正收斂的時間。 請再參考第二圖,為本發明共享標準校正表之平行測 试方法的實施例流程圖。如圖所示,本實施例提供一種共 旱標準校正表101之平行測試方法,而由於本實施例是於 平行測試系統所進行的平行測試方法,因此,每個測試平 Ο 1 2是各自獨立且同時進行接下來所述的步驟流程。 本實施例之平行測試方法之步驟包括:首先,於多個 測試平台12分別提供一待測物120CS201)。接著,測試平 台12則得以進行取得標準校正表101(S203),並且依據標 準校正表101來測試所包含的待測物120,以產生校正資 料(S205)。此時,便可再進行累積記錄步驟(S205)所產生 的校正資料(S207),並且再進一步判斷該校正資料是否為 1342954 值以判斷目前所取得的標準校正表丨。1是Nine, the invention description: [Technology area of the invention] The present invention relates to a parallel test method of a flat rod t standard calibration table 'specially refers to - [previous technology] With the rapid development of the technology industry, electricity knows The product 'two 2 flow; =: the original: the ring' but the production line production is also based on the high-frequency communication module, which can be operated by a calibration meter. The group must store the nanometer loss and the amplifier gain in time: the signal Etc.:::: Pass 2 body, the module can test the prediction table of the next object to be tested according to the memory program in the calibration group. If the conditions are not recorded, the correction table of the predicted calibration table can pass the test; if the condition cannot be passed, and a sufficient amount of the test object is tested, the blood is 4 γ 釭 釭, '表Will converge to a stable value. And ^, after the program 'corrected this test verification process, so that because the mother module must be due to the test time is too long and can not meet = pass δίι only Wu group Wei business shipments often test production line to solve . As a result, only the ones can be added. Since the test lines in the above are still the correct calibration tables, the calibration time of each test line is still (4) and cannot be effectively reduced. The right to charge is only a lot of calibration test time, so that the school does not have to increase the overall test cost in order to increase production capacity. 4, more must be how to effectively reduce the correction of the calibration table, you need to increase the cost of the test to improve the point of thinking.匕 疋 刖 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 The standard can then be tested. The production line can be used to increase the production capacity of the product by performing 9 Λ for the subsequent test object to obtain a corrected calibration standard. In order to achieve the above objectives, the parallel test system of the present invention includes: a 铋 禋 ::: 准 准 准 准 and - server. Among them, a test is stored in a J-70, a plurality of test platforms, and the test calibration table is tested to test ===devices to correct the test levels A, = according to the standard. And the ship is connected, connected to the storage unit and the process is carried out? 1 Providing a miscellaneous correction button (4) test platform, and the test platform generates a calculation after each test - "the server then performs the weighting operation on the calibration data, and the above purpose, the present invention further provides a sharing Standard calibration 1342954 ft parallel test method, the steps include: first, in the difficult test level ^ provide - to - _ then the (four) test platform (four) to obtain the target: a positive table. Yu 疋 'the test platform is based on the standard The calibration table is used to test the respective objects to be tested, and separately generate the correction data. Then, the second item is recorded, and the data is confirmed by the execution-weighting operation to update the label=positive table. The above steps are repeated to speed up the correction of the & quasi-correction table to greatly save the time required for the test process. The above summary and the following detailed description and drawings are intended to further illustrate the present invention. Other objects and advantages of the present invention will be set forth in the following description and drawings. Through the addition and design of the server, the system integrates the calibration data generated by the simultaneous operation of multiple test production lines to achieve the purpose of speeding up the convergence of the Golden Calibration Table. The convergence speed is more obvious in the situation of more production lines, so as to greatly shorten the test time. Please refer to the first figure, which is the parallel test system of the shared standard calibration table of the present invention. The embodiment provides a parallel test system for sharing a standard calibration table, which includes a storage unit 10, a servo 5|11, and a plurality of brake platforms 12. The storage unit is connected to the server 11' The storage unit 10 can be connected to the server 例如, for example, in a built-in or external manner, and if it is connected in an external manner, it can be further divided into wired. Connect or wirelessly connect to allow storage unit 10 to be unaffected by the environment or area, and 8 to increase the flexibility of parallel test system setup Each test is performed in parallel, which is the same as the test object (DUT) 120 of the test 19 3 s σ 。. The operation mode of the test object 120 and the test line is in this case, so here The operation is tested by = specific reference to the test object, and the test is based on one of the production lines. Read 'single state: step-by-step connection to all test platforms 12 for 12' to let ι2 = standard T Table 1Q1 is provided to the test object contained in the test platform: 2, the positive table, the test object itself, the test object 2, each test platform 12 to obtain the current ~ 120 will be tested by the server 11 first. The first table 1 is measured by the re-measurement object 120. After that, the j platform 12 is tested for each object to be tested 120, and then L g & f is returned to the lexical device 11, The word service device 11 ~ force σ right transport ί, product ° recorded 4% c positive * material, and then the correction data to say, the standard calibration table used before should be. That is, one will be performed: plus two; when the station 12 returns the correction data, the server 11 platform 12 4 needs 1 2 U to update the standard calibration table 101 it and the test standard calibration table (7) is fixed to the object 120. , to get a new update to test. Further, in the first step, the further test package 121 and the "M platform 12" are respectively used to generate the test computer 122. The test instrument 122 is used to control the test object 120. The control computer 1 121 performs the test object 120, and 11 produces the aforementioned correction data according to the result of shaving <4 to be transmitted back to the server. In addition, the control computer 122 performs the judgment and the test result is measured. The over-standard calibration table 1G1 is burned into the associated object to be tested 120 to complete the test of a test object 120. In this way, through the design of the parallel test system, it is possible to update the shared standard correction table 由于1 because the calibration data returned by the different test platforms 12 can be recorded together. Therefore, the present invention can greatly speed up the convergence speed of the standard calibration table 1〇1 in comparison with the convergence of a standard calibration table for each test level σ in the past, thereby saving the cost of production and shouting. time. For example, assuming a standard calibration table 101 and performing 1000 correction convergences (a time-consuming correction time) to achieve a stable state, if there are two test platforms 12 under the design operation of the present invention, 'There is only one test that needs to be performed 5 times (all of which are only 500 times of correction time) to complete the convergence. If there are more than one test platform 12, the time for correcting the convergence can be saved. Referring again to the second figure, a flow chart of an embodiment of a parallel test method for sharing a standard correction table according to the present invention is shown. As shown in the figure, the present embodiment provides a parallel test method for the co-dry standard correction table 101. Since the present embodiment is a parallel test method performed by the parallel test system, each test level 1 is independent. At the same time, the step flow described next is performed. The steps of the parallel test method of this embodiment include: firstly, a test object 120CS201 is provided on each of the plurality of test platforms 12). Next, the test platform 12 is allowed to obtain the standard correction table 101 (S203), and the contained object to be tested 120 is tested in accordance with the standard correction table 101 to generate correction data (S205). At this time, the correction data generated by the cumulative recording step (S205) can be further performed (S207), and it is further judged whether or not the correction data is a value of 1342954 to judge the currently obtained standard correction table. 1 is
待‘frr的判斷結果為否,即表示目前所測試的 2〇#制_取得的標準校正表1Q :必準校正表1Q1尚未穩定,於是標準 - 再重新進仃4父正。因此,便執行-加權運嘗以進If the judgment result of ‘frr is no, it means that the standard calibration table 1Q obtained by the currently tested 2〇# system: the calibration table 1Q1 is not yet stable, so the standard - then re-enter the 4 parent. Therefore, it is executed-weighted to enter
:丁更新標準校正表丨。咖)。而所述 ;:J =狀態:,所有測試平台12所回傳的校 已測4的待測物12G之數量後進行相加,之後再除 有測試平台12已測試的待測物120之數量她和,萨此 以將運算結果進行更新標準校正表1Q卜^和精此 π & —幻來°兒饭叹平行測試系統具有兩個測試平台,分 = =及第二測試平台’而第-測試綱 尸正次了 _個待測物,並且目前所回傳之 二二測Γ台測試至目前為止共測試了 Α 目則所回傳之校正笑料未通過測試而 :r: Ί?行加權運算以進行(5G㈣+1_Υ)/600 异’而將運4結果進行更新標準校正表。 miitrr211)已更新過標準校正表101讀,則該 120 ^^^t#^(S203) 于的才不準才父正表1〇1以及爾後之動作流程。 、們丨^驟⑽9)的判斷結果為是,則表示目前所 3、待測物2Q&配目前所取得的標準校正表101得以 ίΐη是’便可將目前所使用之標準校正表1〇1直 =:錄至所㈣測試平台12的待測物12Q(S213),並表示 ’測物120已測試完成。最後,在步驟(S213)之後,則 11 1342954: D update the standard calibration table. coffee). And said: J = state:, the number of the tested objects 12G that have been measured and transmitted by all the test platforms 12 are added, and then the number of the tested objects 120 that have been tested by the test platform 12 is removed. She and Sa, in order to update the results of the calculations, the standard calibration table 1Q and ^ π & - illusion ° 儿 叹 平行 parallel test system has two test platforms, points = = and the second test platform 'and - The test corpse is now _ a test object, and the second test test that has been returned so far has been tested so far. The corrected jokes passed back have not passed the test: r: Ί? The weighting operation is performed to perform (5G(four)+1_Υ)/600iso' and the result of the operation is updated to the standard correction table. Miitrr211) has been updated to read the standard calibration table 101, then the 120 ^^^t#^(S203) is not allowed to be the parent's positive table 1〇1 and the subsequent action flow. If the result of the judgment is (10) 9), it means that the current standard 3, the object to be tested 2Q& is equipped with the standard calibration table 101 obtained at the moment, and the standard calibration table 1目前1 currently used can be used. Straight =: Recorded to the test object 12Q of the test platform 12 (S213), and indicates that the test object 120 has been tested. Finally, after the step (S213), then 11 1342954
將該已燒錄標準校正表1()1的待測物12G更 測試的待測請咖)。料,W 2看,亦即每個測試平台12皆同時獨立進行本實施例所 k,、之步驟流程’從而可賴共享標準校正表⑼的作 用’並完成平行測試系統及方法的運作。 附帶一提的是,本發明的共享標準校正表之平行測試 系統及方法在實際應用可應用於各種需減校正表中的校 正參數來進行運作的相關領域(如:無線通訊、影像感應及The test object 12G of the burned standard correction table 1 () 1 is further tested for testing. In the case of W 2, that is, each test platform 12 simultaneously performs the step k of the present embodiment independently, and thus the operation of the shared standard correction table (9) can be performed and the operation of the parallel test system and method is completed. Incidentally, the parallel test system and method for sharing the standard calibration table of the present invention can be applied to various fields (such as wireless communication, image sensing, and the like) in which practical applications can be applied to the correction parameters in the correction table.
聲音辨識等領域)。而相對的,以上所述之待測物12〇在實 際應用上便可例如為無線通訊模組、影像感應模組及 辨識模組等產品。 曰 綜上所述,本發明透過伺服器來統合各測試產線同時 運^時所產生的校正資料’並且根據待測物之數量來進行 運异’以k快累積肓料而進行標準校正表的收傲。藉此除 了達到加S校正表的收斂速度之目的夕卜,更可擁有下 頊#點:Areas such as voice recognition). In contrast, the above-mentioned test object 12 can be, for example, a wireless communication module, an image sensing module, and an identification module. In summary, the present invention integrates the calibration data generated by each test production line at the same time through the server and performs the standard correction table by accumulating the data according to the quantity of the object to be tested. Arrogant. In addition to the purpose of achieving the convergence speed of the S correction table, it is possible to have the following points:
、縮短測試時間:透過本發明使得量測標準校正表 的校正時間平均分散至各條測試產線,使校正速 度可隨增加測試產線增加而增加,進而提升測試 速度以縮短整個測試系統的測試時間。 2、 降低誤判率:由於各條產線都❹同—份標準校 正表,當其中一條測試產線發生問題時,將使得 該測試產線的重新校正次數升高,因而提早發現 問題降低誤判率。 3、 便於製程監測:切標準校正純斂速度增快, 當發生製程變異時也可更快由標準校正表中發現 r* ,、Ο 12 1342954 變化,進而解決問題。 惟,以上所述,僅為本發明的具體實施例之詳細說明 及圖式而已,並非用以限制本發明,本發明之所有範圍應 以下述之申請專利範圍為準,任何熟悉該項技藝者在本發 明之領域内,可輕易思及之變化或修飾皆可涵蓋在以下本 案所界定之專利範圍。 【圖式簡單說明】 第一圖係本發明共享標準校正表之平行測試系統的實施例 方塊圖;及 第二圖係本發明共享標準校正表之平行測試方法的實施例 流程圖。 【主要元件符號說明】 儲存單元10 標準Vi正表101 伺服器11 測試平台12 待測物120 測試儀器121 控制電腦122 13Shortening the test time: Through the invention, the calibration time of the measurement standard calibration table is evenly distributed to each test production line, so that the correction speed can be increased with an increase of the test production line, thereby increasing the test speed to shorten the test of the entire test system. time. 2. Reduce the false positive rate: Since each production line has the same standard calibration table, when one of the test production lines has a problem, the number of recalibration of the test production line will be increased, so that the early detection problem reduces the false positive rate. . 3, easy to process monitoring: cutting standard correction of the convergence speed increased, when the process variation occurs, the standard correction table can also be found in the standard correction table r*, Ο 12 1342954 change, and then solve the problem. However, the above description is only for the purpose of illustration and illustration of the embodiments of the present invention, and is not intended to limit the scope of the invention. Variations or modifications that may be readily conceived within the scope of the invention may be covered by the scope of the invention as defined in the following. BRIEF DESCRIPTION OF THE DRAWINGS The first drawing is a block diagram of an embodiment of a parallel testing system for sharing a standard calibration table of the present invention; and the second drawing is a flow chart of an embodiment of a parallel testing method for sharing a standard calibration table of the present invention. [Main component symbol description] Storage unit 10 Standard Vi positive table 101 Server 11 Test platform 12 Object to be tested 120 Test instrument 121 Control computer 122 13