201209424 ' 六、發明說明: 【發明所屬之技術領域】 [0001] 本發明涉及一種可攜式電子裝置測試系統,尤其涉及— 種對可攜式電子裝置之多項性能進行測試時之操作時序 進行控制之可攜式電子裝置測試系統。 [先前技術] [0002] 筆記本電腦、手機等消費型電子產品於設計與製造過程 中需要進行多項性能測試,如無線通訊性能、攝像性能 及用戶介面(user interface,UI)性能等方面之测 〇 試。 [0003] 然而,由於電子產品之功能k趨多元化,性能測試中涉 及之性能測試專案一般較多,’當採用電腦等自動化測試 設備對產品進行測試時,為提高測試效率及準確度,必 須使多項測试依照嚴格之時序進行。若缺少完善之測試 時序控制設備,則於發送測試指令及接收測試資料時容 易造成混亂,難以準確識別每一測試結果所對應之測試 〇 項目,影響測試效率及準確度。 【發明内容】 [0004] 有鑒於此,有必要提供一種可對可攜式電子裝置之多項 性旎進行測試時之操作時序進行控制之可攜式電子裝置 測試系統。 [0005] 一種可攜式電子裝置測試系統,用於測試一可攜式電子 裝置之多項性能,該可攜式電子裝置測試系統包括一時 序控制卡、一組開關元件及一組測試設備,該組測試設 備均連接至所述可攜式電子裝置,該組開關元件之一端 099128392 表單編貌 A0101 % 3 14 Ά 0992049870-0 201209424 分別與時序控制卡相連,另一端連接至相應之測試設備 ,且該開關元件於時序控制卡之控制下,按照時序導通 ,進而驅動相應之測試設備工作,使得該組測試設備按 照所述時序對該可攜式電子裝置之多項性能分別進行檢 測。 [0006] 相較於習知技術,本發明所述之可攜式電子裝置測試系 統中之開關元件可分別於時序控制卡之控制下按照一定 時序導通,進而驅動相應之測試設備工作,使得該等測 試設備按照一定之時序對該可攜式電子裝置之多項性能 進行檢測。本發明之可攜式電子裝置測試系統結構簡單 ,可控制電子產品之多項性能測試依照嚴格之時序進行 ,有利於大規模之產品性能測試中提高效率及準確性。 【實施方式】 [0007] 請參閱圖1,本發明較佳實施例之可攜式電子裝置測試系 統100包括一時序控制卡10、一組開關元件S0-S127及一 組測試設備K0-K127。該組開關元件S0-S127之一端分別 與該時序控制卡10相連,另一端連接至與其相應之測試 設備,該測試設備K0-K127均連接至一可攜式電子裝置 300,該可攜式電子裝置300可為一移動電話。該開關元 件S0-S1 27可於時序控制卡10之控制下按照一定時序導 通,進而驅動相應之測試設備工作,使得該等測試設備 K0-K127按照一定時序對該可攜式電子裝置300之多項性 能,如無線通訊性能、攝像頭性能及用戶介面(u s e r interface,UI)板性能等分別進行檢測。 [0008] 請一併參閱圖2,該時序控制卡10包括一主控制單元12、 099128392 表單編號A0101 第4頁/共14頁 0992049870-0 201209424 [0009] [0010] Ο ❹ [0011] 099128392 —時序選擇單元13及一組資料傳輸單元U0-U15。 該主控制單元12可為型號為AT89S52之晶片,包括一電 源端(圖未示)、一組時序選擇埠Ρ〇. 〇-Ρ〇. 3、一組訊 號控制埠Ρ1. Ο-Pi. 7、一訊號接收端RXD。該電源端可連 接至一習知之5V電池(圖未示)。 該時序選擇單元13可為型號為DM74LS154N之4線-16線 解碼器’其包括一組訊號選擇輸入端A0-A3及一組訊號選 擇輸出端Y0~Y15。該訊號選擇輸入端A0-A3分別與該時 序選擇埠ρ〇·〇_Ρ〇 3一一對應連接,用於根據該時序選 擇埠Ρ0· 0-Ρ0. 3輸出之高低電平控制該訊號選擇輸出端 Υ0-Υ15輸出之電壓。該時序選擇埠Ρ〇. 〇_Ρ〇. 3為四位埠 ’故共有16種不同之排列組合狀態,當時序選擇埠 Ρ〇. 0-Ρ0. 3為其中一種排列組合狀態時,其將根據該狀 態表示之數位來控制具有相應數位編號之訊號選擇輸出 端Υ0-Υ15輸出相應之低電平。例如當,ρο. (J-p〇. 3為〇〇〇〇 ί( ί 時’相應之訊號選擇輸出4Υ0輸出一低電平,其他之訊 號選擇輸出端Y1,Y15輸出二高電,平;當P〇. 0-P0. 3為 0001時’相應之訊號選擇輸出端Υ1輸出一低電平,其他 之訊號選擇輸出端Υ0及Υ2-Υ15均輸出一高電平。依此類 推。 該組資料傳輸單元U0-U15之型號可為SN74LS245N,每 一資料傳輸單元包括一組資料登錄埠Β0-Β7、一組資料輸 出埠C0-C7及二資料輸出使能端〇Ε、DIR。每一資料傳輸 單元之資料登錄埠Β0-Β7均與主控制單元12之訊號控制埠 PI. 0-Ρ1. 7對應連接。該資料輸出使能端〇Ε、DIR則分別 表單編號Α0101 第5頁/共14頁 0992049870-0 201209424 連接至與其相應之訊號_輸出端上 中,以資料傳輪單糊與主 本發月貫施例 13之連接為例加以戈 ^ —及時序選擇單元 料-錄資料傳輪單·中之資 枓丘錄賴-B7與主控制單元12之訊號控制蟑' PI’ 0-P1’ 7--對應相連’該資料輪出使 均連接至所述訊則 邊為0000時’該訊號選擇輸出端γ〇% «料輸岐能物、DIR之嶋低電平,該== 早兀U0啟動。_號控制埠P1. G_P1.7之 資料登錄埠B0-B7輪人,並囍由今次4 二。唬可從 彌入並藉由該資料輪出埠C0-C7輪屮 給相應之關元件。反當Pu_PG 3之狀態不為咖時 ,該訊號着輸出糊輸出—高電平,此_制訊 止傳送。 [0012] [0013] 於本實施例中,該開關元件SG_sm均為繼電器。該開關 元件S0-S127之-端分別連接至資料傳輸單趟―阳中 相應之資料輸出埠C0-d,另一端則分別與測試設備 K0-K127 — 一對應速挨。 該可攜式電子裝置測試系統1〇〇還包括_控制主機2〇,該 控制主機20可為一電腦,其可藉由_FPC (flexiMe printed circuit,柔性電路板)等連接裝置與相應之 開關元件S0-S1 27電性連接。該控制主機2〇上設置有— 訊號發送端TXD。該訊號發送端TXD與主控制單元12上之 訊號接收端RXD相連。 099128392 可以理解,本發明之可攜式電子裝置測試系統100還可設 置一轉介面(圖未示),該轉介面可藉由FPC分別連接該 第6頁/共14頁 表單編號A0101 0992049870-0 [0014] 201209424 [0015] 間關元件S0-S127及控制主機20。 下兩詳細介紹本發明較佳實施方式之可攜式電子裝置測 錢系統10 0之工作原理: [0016] Ο [0017] Ο ^'先’將該測試設備Κ0-Κ127分別與可攜式電子裝置300 内之相應元件進行連接。例如,將用於測試可攜式電子 较薏300内攝像性能之測試設備κ〇與該可攜式電子裴置 3〇0内之攝像頭進行連接;將用於測試可攜式電子裝置 3〇〇内馬達性能之測試設備]^與該可攜式電子裝置3〇〇内 欠馬達進行連接等。接著將該等測試設備Κ0-Κ127分別與 其相應之開關元件S〇-S127相連:再利用一FPC等連接裝 复牌該開關元件S0-S127均連接至該控制主機20。 $罵要對該可攜式電子裝置3〇〇内之各個性能按照一定之 時序進行測試時’該控制主機20先根據該等時序進行編 、 ’並以控制指令之方式控制該主控制單元12按照該時 序進行工作°例如當需要按照先測試▲線通訊性能再測 忒攝像性能之時序對該可攜式_電子裝 置300進行測試時, 因為該測試設備Κ〇連接至該開關元件s〇,故該控制主機 20將藉由該訊號發送端TXD發送一相應之控制指令給主控 制單元12,以控制該主控制單元12工作,並使得該輸出 辞·Α0-Α3之狀態為〇〇〇〇,進而該訊號選擇輸出端?〇之電 壓為低電平,其餘之訊號選擇輸出端γι_γΐ6輸出為高電 平,該資料傳輸單元U0導通。此時該控制主機20再控制 该訊號控制埠Ρ1. 0_Ρ1. 7之輸出狀態為1〇〇〇〇〇(),因為 資料傳輸單元U0導通’故該訊號控制埠Ρ1. 〇_ρι. 7之控 制訊號將從該資料傳輸單元U0中之資料輸出埠C0-C7輸出 099128392 表單編號Α0101 第7頁/共U胃 0992049870- 201209424 ,使得該資料傳輸單元U0中之資料輸出淳CO之電壓為高 電平,其餘之資料輸出埠電壓為低電平。進而使得與資 料傳輸單元U0中資料輸出埠C0電性連接之開關元件so導 通,以驅動該測試設備K0開始對可攜式電子裝置300之相 應性能進行測試。當該性能測試完畢後,該可攜式電子 裝置300再藉由該開關元件SO將測試所得之資料傳送給控 制主機20。該控制主機20接收到該測試資料,並判斷該 可攜式電子裝置300中相應之性能已測試完畢。此時,該 控制主機20將根據預先存儲於其内之程式再發送下一個 控制指令給主控制單元12,以控制下一相應之測試設備 K1對可攜式電子裝置300内相應之另一項性能進行測試。 [0018] 顯然,本發明所述之可攜式電子裝置測試系統100中之開 關元件SO-S127可分別於時序控制卡10之控制下按照一 定之時序導通,進而驅動相應之測試設備K0-K127工作, 使得該等測試設備K 0 - K12 7按照一定之時序對該可攜式電 子裝置300之多項性能進行檢測。本發明之可攜式電子裝 置測試系統100結構簡單,可控制電子產品之多項性能測 試依照嚴格之時序進行,有利在於大規模之產品性能測 試中提高效率及準確性。 [0019] 綜上所述,本發明符合發明專利要件,爰依法提出專利 申請。惟,以上所述者僅為本發明之較佳實施例,本發 明之範圍並不以上述實施例為限,舉凡熟悉本案技藝之 人士援依本發明之精神所作之等效修飾或變化,皆應涵 蓋於以下申請專利範圍内。 【圖式簡單說明】 099128392 表單編號A0101 第8頁/共14頁 0992049870-0 201209424 '[0020] 圖1為本發明較佳實施方式之可攜式電子裝置測試系統之 功能框圖。 [0021] 圖2為圖1所示可攜式電子裝置測試系統中時序控制卡與 開關元件及控制主機之電氣連接圖。 【主要元件符號說明】 [0022] 可攜式電子裝置測試系統:100 [0023] 時序控制卡:10 [0024] Θ 可攜式電子裝置:300 [0025] 主控制單元:12 [0026] 時序選擇單元:13 [0027] 控制主機:20 [0028] 開關元件:S0-S127 [0029] 測試設備:K0-K127 [0030] 〇 [0031] 資料傳輸單元:U0-U15 時序選擇埠:P〇. 0-P0. 7 [0032] 訊號控制埠:PI. 0-P1. 7 [0033] 訊號選擇輸入端:A0-A3 [0034] 訊號選擇輸出端:Y0-Y15 [0035] 資料登錄埠:BO-B7 [0036] 資料輸出埠:C0-C7 099128392 表單編號A0101 第9頁/共14頁 0992049870-0 201209424201209424 ' VI. Description of the Invention: [Technical Field] [0001] The present invention relates to a portable electronic device testing system, and more particularly to controlling operation timing when testing multiple performances of a portable electronic device Portable electronic device test system. [Prior Art] [0002] Consumer electronics such as notebook computers and mobile phones require a number of performance tests in the design and manufacturing process, such as wireless communication performance, camera performance, and user interface (UI) performance. test. [0003] However, due to the diversification of the functions of electronic products, performance testing projects involved in performance testing are generally more. 'When using automated test equipment such as computers to test products, in order to improve test efficiency and accuracy, Make multiple tests in strict timing. In the absence of a complete test timing control device, it is easy to cause confusion when sending test instructions and receiving test data, and it is difficult to accurately identify the test 对应 project corresponding to each test result, which affects test efficiency and accuracy. SUMMARY OF THE INVENTION [0004] In view of the above, it is necessary to provide a portable electronic device testing system that can control the operation timing of testing the multi-function of a portable electronic device. [0005] A portable electronic device testing system for testing a plurality of performances of a portable electronic device, the portable electronic device testing system comprising a timing control card, a set of switching elements and a set of testing devices, The group test equipment is connected to the portable electronic device, and one of the group of switch elements is 099128392. The form description A0101 % 3 14 Ά 0992049870-0 201209424 is respectively connected to the timing control card, and the other end is connected to the corresponding test device, and The switching element is turned on according to the timing control card, and then drives the corresponding test equipment to operate, so that the test equipment of the group can detect the multiple performances of the portable electronic device according to the timing. [0006] Compared with the prior art, the switching components in the portable electronic device test system of the present invention can be turned on according to a certain timing under the control of the timing control card, thereby driving the corresponding test equipment to work, so that the The test equipment detects the plurality of performances of the portable electronic device according to a certain timing. The portable electronic device testing system of the invention has a simple structure, and a plurality of performance tests for controlling the electronic product are performed according to strict timing, which is beneficial to improving efficiency and accuracy in large-scale product performance testing. [0007] Referring to FIG. 1, a portable electronic device test system 100 according to a preferred embodiment of the present invention includes a timing control card 10, a set of switching elements S0-S127, and a set of test devices K0-K127. One of the switching elements S0-S127 is connected to the timing control card 10, and the other end is connected to a corresponding test device. The test devices K0-K127 are connected to a portable electronic device 300. The portable electronic device Device 300 can be a mobile phone. The switching elements S0-S1 27 can be turned on according to a certain timing under the control of the timing control card 10, thereby driving the corresponding test equipment to work, so that the test equipment K0-K127 can be used for the portable electronic device 300 according to a certain timing. Performance, such as wireless communication performance, camera performance, and user interface (UI) board performance are tested separately. Referring to FIG. 2 together, the timing control card 10 includes a main control unit 12, 099128392, form number A0101, page 4/14 pages, 0992049870-0 201209424 [0009] [0010] Ο ❹ [0011] 099128392 — The timing selection unit 13 and a set of data transmission units U0-U15. The main control unit 12 can be a wafer of the type AT89S52, including a power terminal (not shown), a set of timing options 〇. 〇-Ρ〇. 3, a set of signal control 埠Ρ 1. Ο-Pi. 7 , a signal receiving end RXD. The power terminal can be connected to a conventional 5V battery (not shown). The timing selection unit 13 can be a 4-wire-16-line decoder of the type DM74LS154N, which includes a set of signal selection inputs A0-A3 and a set of signal selection outputs Y0~Y15. The signal selection input terminals A0-A3 are respectively connected with the timing selection 埠ρ〇·〇_Ρ〇3 one by one, and are used for selecting 埠Ρ0·0-Ρ0. 3 output high and low level according to the timing to control the signal selection. The output Υ0-Υ15 output voltage. The timing selection 埠Ρ〇. 〇_Ρ〇. 3 is four-digit 埠', so there are 16 different arrangement and combination states, when the timing selection 埠Ρ〇. 0-Ρ0. 3 is one of the arrangement and combination states, it will According to the digit represented by the state, the signal selection output terminal Υ0-Υ15 having the corresponding digit number is output to the corresponding low level. For example, when ρο. (Jp〇. 3 is 〇〇〇〇ί ( ί ' 'corresponding signal selection output 4 Υ 0 output a low level, other signals select output Y1, Y15 output two high power, flat; when P 〇. 0-P0. When 3 is 0001, 'the corresponding signal selects the output terminal Υ1 to output a low level, and the other signals select the output terminals Υ0 and Υ2-Υ15 to output a high level. And so on. The model of the unit U0-U15 can be SN74LS245N, and each data transmission unit includes a set of data registration 埠Β0-Β7, a set of data output 埠C0-C7 and two data output enable terminals D, DIR. The data registration 埠Β0-Β7 is connected with the signal control 埠PI. 0-Ρ1. 7 of the main control unit 12. The data output enable 〇Ε, DIR are respectively the form number Α0101 5th page/total 14 pages 0992049870 -0 201209424 Connected to the corresponding signal_output terminal, taking the connection of the data transfer single paste and the main transmission method of the example 13 as an example, and the timing selection unit material-recording data transmission list Zhongzhi Ziqiu Lui-B7 and the main control unit 12 signal control 蟑 ' PI' 0-P 1' 7--corresponding to the connection 'when the data is turned to be connected to the edge of the message is 0000', the signal selects the output terminal γ〇% « material input energy, DIR 嶋 low level, the == As early as U0 starts. _ No. control 埠 P1. G_P1.7 information is registered in 埠B0-B7 round, and this time is 4 唬. 唬 can be taken from the 并 藉 藉 埠 埠 埠 埠 C0-C7 rim The corresponding component is turned off. When the state of the Pu_PG 3 is not the coffee, the signal outputs the paste output - the high level, and the signal is transmitted. [0012] In the embodiment, the switching element SG_sm is a relay. The ends of the switching elements S0-S127 are respectively connected to the corresponding data output 埠C0-d of the data transmission unit 阳 Yang, and the other end is respectively corresponding to the test equipment K0-K127. The portable electronic device test system 1 further includes a control host 2, which can be a computer, which can be connected to a corresponding switching component by a _FPC (flexiMe printed circuit) or the like. S0-S1 27 is electrically connected. The control host 2 is provided with a signal transmitting terminal TXD. The signal transmitting terminal TXD and the main The signal receiving end RXD of the unit 12 is connected. 099128392 It can be understood that the portable electronic device testing system 100 of the present invention can also be provided with a transfer interface (not shown), and the interface can be connected to the sixth by FPC. Page/Total 14 Page Form No. A0101 0992049870-0 [0014] 201209424 [0015] The components S0-S127 and the control host 20 are separated. The following two details describe the working principle of the portable electronic device money measuring system 100 of the preferred embodiment of the present invention: [0016] Ο ^ 'first' the test equipment Κ 0-Κ 127 and the portable electronic The corresponding components within device 300 are connected. For example, a test device κ〇 for testing the portable electronic device in comparison with the internal imaging performance of the portable electronic device is connected to the camera in the portable electronic device 3〇0; it will be used to test the portable electronic device 3〇〇 The test device for the performance of the inner motor is connected to the motor in the portable electronic device 3, and the like. The test devices Κ0-Κ127 are then respectively connected to their respective switching elements S〇-S127: the switching elements S0-S127 are connected to the control unit 20 by means of an FPC or the like. When the various performances in the portable electronic device 3 are tested according to a certain timing, the control host 20 first edits according to the timings, and controls the main control unit 12 by means of control commands. The operation is performed according to the timing. For example, when the portable electronic device 300 needs to be tested according to the timing of testing the line communication performance and then detecting the imaging performance, since the test device is connected to the switching element s, Therefore, the control host 20 will send a corresponding control command to the main control unit 12 via the signal transmitting terminal TXD to control the operation of the main control unit 12, and make the status of the output Α·Α0-Α3 And then the signal selects the output? The voltage of the 〇 is low, and the output of the remaining signal selection output γι_γ ΐ 6 is high, and the data transmission unit U0 is turned on. At this time, the control host 20 controls the signal control 埠Ρ1. 0_Ρ1. 7 the output state is 1〇〇〇〇〇(), because the data transmission unit U0 is turned on, so the signal control 埠Ρ1. 〇_ρι. 7 The control signal will be output from the data transmission unit U0, 埠C0-C7, output 099128392, form number Α0101, page 7 / total U stomach 0992049870-201209424, so that the data output of the data transmission unit U0 淳CO voltage is high Flat, the rest of the data output 埠 voltage is low. Further, the switching element so electrically connected to the data output 埠C0 in the data transfer unit U0 is turned on to drive the test device K0 to start testing the corresponding performance of the portable electronic device 300. After the performance test is completed, the portable electronic device 300 transmits the test data to the control host 20 by the switching element SO. The control host 20 receives the test data and determines that the corresponding performance in the portable electronic device 300 has been tested. At this time, the control host 20 will resend the next control command to the main control unit 12 according to the program stored in advance to control the next corresponding test device K1 to the corresponding other item in the portable electronic device 300. Performance is tested. [0018] It is obvious that the switching element SO-S127 in the portable electronic device testing system 100 of the present invention can be turned on according to a certain timing under the control of the timing control card 10, thereby driving the corresponding testing device K0-K127. Working, the test equipment K 0 - K12 7 detects a plurality of performances of the portable electronic device 300 according to a certain timing. The portable electronic device test system 100 of the present invention has a simple structure, and a plurality of performance tests for controlling electronic products are performed according to strict timing, which is advantageous for improving efficiency and accuracy in large-scale product performance tests. [0019] In summary, the present invention complies with the requirements of the invention patent and submits a patent application according to law. The above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited to the above-described embodiments, and equivalent modifications or variations made by those skilled in the art in light of the spirit of the present invention are It should be covered by the following patent application. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a functional block diagram of a portable electronic device test system according to a preferred embodiment of the present invention. FIG. 1 is a block diagram of a portable electronic device test system according to a preferred embodiment of the present invention. 2 is an electrical connection diagram of a timing control card, a switching element, and a control host in the portable electronic device test system of FIG. 1. [Main component symbol description] [0022] Portable electronic device test system: 100 [0023] Timing control card: 10 [0024] Θ Portable electronic device: 300 [0025] Main control unit: 12 [0026] Timing selection Unit: 13 [0027] Control host: 20 [0028] Switching element: S0-S127 [0029] Test equipment: K0-K127 [0030] 〇 [0031] Data transmission unit: U0-U15 Timing selection 埠: P〇. 0 -P0. 7 [0032] Signal Control 埠: PI. 0-P1. 7 [0033] Signal selection input: A0-A3 [0034] Signal selection output: Y0-Y15 [0035] Data registration 埠: BO-B7 [0036] Data output 埠: C0-C7 099128392 Form number A0101 Page 9 / Total 14 pages 0992049870-0 201209424
[0037] 資料輸出使能端:OE、DIR[0037] Data output enable: OE, DIR
[0038] 訊號接收端:RXD[0038] Signal receiving end: RXD
[0039] 訊號發送端:TXD 0992049870-0 099128392 表單編號A0101 第10頁/共14頁[0039] Signal Transmitter: TXD 0992049870-0 099128392 Form Number A0101 Page 10 of 14