200923634 九、發明說明: 【發明所屬之技術領域】 一種電源供應器監測系統,特別是指一種測試電源供應器與回報結果 之監測系統的架構。 【先前技術】 大部份之電子產品在設計以及出廠前必定在經過長時間使用、重载、 或者重複啟閉等各樣嚴格的測試,通過測試後之產品才可確保其品質 並且在出廠剷發現產品缺失並改善,因此廠商開發之產品必須送到各種不 同類形之監測系統’而習知用於測試電源供應器的測試機台係將電源供應 器置於彳密閉之機櫃中,並該機櫃具有提供電流供該電源供應器開機測 試之測試她’且可同_魏麵巾之溫讀虛擬之貞載,該測試機板 &測母-受狀電雜應器之輸出電流、輕以及辨,並經測之 2過訊號線回傳至-資料儲存單元(如一電腦或一伺服器),由測試人員 得之測試資料判斷受測之電源供應器是否符合安規或其他耐用標 ,二t該機櫃中必定佈滿許多通過各種電流或電壓的線路,且在高溫 間工作(亦即俗稱之燒機測試),如此之環境中將產生大量靜電 狂擾吏^錢傳輸之測料有部份龍料(即網路通訊中習知用 ^定mm遺失,且讀韻包錯誤或遺失時_紐訊協定之 l,送之缝增加將拖延傳勒,過多之封 測試資料之正確性;再者,上述傳輸測試資= 與訊號線,產生佈線之困擾,且線材在如此高 老化速度較正常使用更快速 ;因此'習知涓|J言式機;二 【發明内容】 有於上述習知測試機台架構在大量靜雷丁本^ 而本發明之首要目的即在於改盖 赶傳輸錯誤之問題,因 誤並加快傳輸速度之效果,再者,更改統而達成減少傳輸錯 材老化之缺失。 更了改Q S知測試機台佈線困難以及線 本發明為—電賴__,物-娜應器並取 200923634 #、收細試資料侧試人員研狀制系統,該監測魏主要包括—於 測該電源供應器工作數據之測試機台以及取得該工作麟之終端設備 該監測系統更包括至少-無線傳輸模組以及至少一背板,其中該背板設於 該測試機台内且連接該電源供應器以取得該電源供應器之工作數據,該益 線傳輸模組係於該測試機台與該終端設備分別設有相容通訊協定之一測^ 端收發模組及-監控端收發模組,該測試端收發模組連接該背板取得該 源供應器之工作數據並產生含有該工作數據之複數資料封包,藉由通_ 定傳送複歸騎包經過該驗敝發餘送至餅端設備,藉由該測試 端收發模組與該監控敝發獅之鎌傳輸而純該:㈣封包之傳送速 度,減傾誤以及改善習知職機台佈、咖_及翁老化之缺失。、 【實施方式】 有關本發明之詳細綱及技細容,職配合圖式說明如下: 请參閱圖卜該圖所示為本發明電源供應器監測系統一實施例之架 構,本發明係應用於測試至少一電源供應器3之監測系統,其中該監測系 統包括-測試機台1以及一終端設備2,其中該測試機台】具有至少一測 試空間置放受測之電源供應器3以及控制該測試空間溫度之一溫控裝置 12 ’並且該測試空肋包括_提供該電源供應器3啟動電力之電力源^, 而該監測系統更包括至少-背板n以及至少一組無線傳輸模組,其中該 背板11設於該測試機台1内且連接該電源供應器3以取得該電源供應器3 之工作麟,而該無線傳輸模組係於該測試機台i與該終端設備2分別設 有相容通訊協定之-測試端收發模組51及一監控端收發模組52,該測試 端收發模組51連接該背板U取得該電源供應器3之工作數據並產生含有 該工作數據之複數資料封包,得以無線形式透過通訊協定(抑傳送 複數資料封包經贼驗魏雜組52触送至鱗端設備2,以達成無 線傳輸該電源供應器3之工作數據之目的;又,該測試機台】與該終端設 備2可具有不同之通訊協定(pr〇t〇c〇1),而該無線傳輸模組得相容於該測 試機台1與該終端設備2之通訊協定,並將傳輸之資料封包分別轉換為該 終端設備2或_試機台i可解讀之㈣封包;再相監控端收發模組52 衧設置於該測試機台1内,該終端設備2可設有_網路連接谭23,而該監 200923634 終微備2之W由—傳輸線—使該 所示1^魏供齡3之工條據;本發敗架構請參閱圖2 5!連接該3 η 電f供應器3之電壓或電流,該測試端收發模組 VA^ #測量之卫作絲,又綱試端收發模組51呈有- (pr〇t〇c〇〇 封^由該測试端收發模組51以無線型式傳送至該監控端收發模組&, 〇皿控端收發模組52接收該測試端收發模組51發出之資料封包,且該龄 控端收發模組52具有-微處理器521將該資料封包機為另_通訊協^ protocol)格式之負料封包,經由該傳輸線4傳送至該終端設備2 ;藉由 ί述之架構令每H 11與該監控端收發模組52之間不需佈線即可傳送 貝料,上述該監控端收發模組52與該終端設備2可分別具有一 rs_说介 面之連接埠’且連接該終端設備2與該監控端收發模組52之傳輸線4為 RS-232介面,而該終端設備2更可包括一顯示器21與至少一人機介面u 以監控該測試機台1取得之數據。 、明參閱圖3,該圖所示為本發明一較佳之實施例,於本實施例中該測 試機台1與該終端設備2可具有同一通訊協定(pr〇t〇c〇1)直接傳輸複數資 料封包,其中,該電源供應器3自該電力源13取得啟動電力而工作,該 背板11取得該電源供應器3之工作數據並由該測試端收發模組51轉換為 複數資料封包送出,而該監控端收發模組52設置於該測試機台丨外該 監控知收發模組52可設於該終端設備2上,或該監控端收發模組52可内 建於該終端設備2内,該監控端收發模組52取得該測試端收發模組51送 出之複數資料封包後直接送至該終端設備2,減少轉換資料封包格式之時 間,更加快該測試機台1與該終端設備2之資料傳送速度,該監控端收發 模組52與該終端設備2間之資料傳輸可為有線,該終端設備2亦可以無 線傳輸型式接收該監控端收發模組52回傳之資料封包。 前述架構中,該終端設備2取得資料封包的流程首先為該終端設備2 發出取得資料封包之請求,該請求透過該監控端收發模組52傳送至該測 試端收發模組51,最後由該背板11接收請求,該背板11將取得之工作數 據交由該測試端收發模組51轉換為複數資料封包送出,經由該監控端收 7 200923634 如嫩成—賴物之流程, 本發服構產生之效果增進請參糊*,為圖丨所示之實施例與習知 之功效崎表格,其巾「監㈣錄_自順組取得資料之 間;」代表該監控端收發編且52向該背板21要求取得測試資料到確收 測式資料後之時間’經實驗後證實該監控端收發模組S2 _ 模組無線傳輸方式較習知架構快了 3.45ms,「終端設傷二3 後至取仔貝料之時間」代表—個完整之齡,本發明之架構較習知架構快 竿構快了 363再清^閱圖5 ’同樣完成傳送1〇0筆封包,本發明亦較習知 木構陕了 363ms,傳送⑽筆封包發生之傳輸錯誤率,習知架構 3% ’而本發明可將傳輸錯誤率改善至低於,因而 大改 tr試機台1與該終端設備爾料傳輸之速度解確== 内之背板11不需佈線至該終端設備2而避免線材老化之困擾。 雖然本發明已以較佳實施例揭露如上,然其並刺紐定本發明 賴組51㈣之軌财可為臓_ 8G2·15標準或者為1EEE謝·16標準,任何熟習此技藝者’在 =Γ=ίΓ和範圍内,而所作之些許更動與潤飾,皆應涵蓋於本 之保護範圍當視後附之中請專利範圍所界定者為準。 及進知之架構增進上述功效,應已充分符合新顆性 件’妥依法提出申請,懇請貴局核准本件發 月專利申明案’以勵創作,至感德便。 200923634 【圖式簡單說明】 圖1為本發明一實施例之平面示意圖。 圖2為圖1之架構方塊圖。 圖3為本發明較佳實施例之平面示意圖。 圖4為本發明與習知架構之功效比對表格。 圖5為另一本發明與習知架構之功效比對表格。 【主要元件符號說明】 1 ........測試機台 11 ........背板 12 ........溫控裝置 13 ........電力源 2 ........終端設備 21 ........顯示器 22 ........人機介面 23 ........網路連接埠 3 ........電源供應器 4 ........傳輸線 51 ........測試端收發模組 511........微處理器 52 ........監控端收發模組 521........微處理器 9200923634 IX. Description of the invention: [Technical field to which the invention pertains] A power supply monitoring system, in particular, an architecture for a monitoring system for testing a power supply and returning results. [Prior Art] Most of the electronic products must be subjected to various rigorous tests such as long-term use, heavy load, or repeated opening and closing before design and delivery. The products after passing the test can ensure their quality and are shovel at the factory. Found that the product is missing and improved, so the product developed by the manufacturer must be sent to a variety of different types of monitoring systems' and the test machine used to test the power supply is to place the power supply in a closed cabinet, and The cabinet has a test for supplying current to the power supply for the test of the power supply. It can be combined with the temperature reading of the wei bread, and the output current and light of the test machine board And the detected and passed 2 signal lines are transmitted back to the data storage unit (such as a computer or a server), and the test data obtained by the tester determines whether the tested power supply meets the safety regulations or other durable standards. t The cabinet must be filled with many lines of various currents or voltages, and work at high temperatures (also known as burn-in test), so a large amount of static electricity will be generated in such an environment. There is a part of the dragon material in the measurement of the transmission of money. (That is, the network communication is conventionally used to lose the mm, and when the rhyme packet is wrong or lost, the new agreement will be delayed. The correctness of the test data is too much; in addition, the above transmission test = and the signal line, causing wiring troubles, and the wire is faster than normal use at such a high aging speed; therefore, 'Knowledge 涓|J language machine; SUMMARY OF THE INVENTION The above-mentioned conventional test machine architecture is in a large number of static and remote Ding. The primary purpose of the present invention is to replace the problem of transmission error, and to speed up the effect of transmission speed, and then change the system. And to achieve the reduction of the lack of transmission of the wrong material aging. Moreover, the QS knows the difficulty of the test machine wiring and the line of the invention is - electric Lai __, material - Na Ying and take 200923634 #, collection of test data side test personnel The monitoring system mainly includes: a testing machine for measuring the working data of the power supply and a terminal device for obtaining the working power. The monitoring system further comprises at least a wireless transmission module and at least one backplane, wherein the monitoring board Based on the test The power supply is connected to the power supply to obtain the working data of the power supply, and the benefit transmission module is provided with one of the test communication stations and the terminal device respectively. And a monitoring terminal transceiver module, the test terminal transceiver module is connected to the backplane to obtain the working data of the source provider and generates a plurality of data packets containing the working data, and the card is passed through the test敝 余 送 送 饼 饼 饼 饼 饼 饼 饼 饼 饼 饼 饼 饼 饼 饼 饼 饼 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该[Embodiment] The detailed description of the invention and the technical details are as follows: Please refer to the drawing, which shows the structure of an embodiment of the power supply monitoring system of the present invention. The invention is applied to a monitoring system for testing at least one power supply 3, wherein the monitoring system comprises a test machine 1 and a terminal device 2, wherein the test machine has at least one test space for placing the tested power supply a supplier 3 and a temperature control device 12' for controlling the temperature of the test space, and the test rib includes a power source for providing power to the power supply 3, and the monitoring system further includes at least a backplane n and at least one a wireless transmission module, wherein the backplane 11 is disposed in the testing machine 1 and connected to the power supply 3 to obtain the working power of the power supply 3, and the wireless transmission module is connected to the testing machine The terminal device 2 is provided with a compatible communication protocol-test terminal transceiver module 51 and a monitoring terminal transceiver module 52. The test terminal transceiver module 51 is connected to the backplane U to obtain the working data of the power supply device 3. And generating a plurality of data packets containing the working data, and transmitting the data through the communication protocol in a wireless manner (suppressing the transmission of the plurality of data packets to the scale device 2 by the thief test Wei Misgroup 52 to achieve wireless transmission of the working data of the power supply 3 And the purpose of the test machine can have a different communication protocol (pr〇t〇c〇1) with the terminal device 2, and the wireless transmission module is compatible with the test machine 1 and the terminal device 2 communication protocol And converting the transmitted data packet into the terminal device 2 or the (four) packet that the test machine station i can interpret; the re-phase monitoring terminal transceiver module 52 is disposed in the testing machine platform 1, and the terminal device 2 can be set There is _ network connection Tan 23, and the supervisor 200923634 final micro-second 2 W--transmission line - so that the 1 ^ Wei age 3 work article; the failure structure please refer to Figure 2 5! Connect the 3 η electric f supply device 3 voltage or current, the test terminal transceiver module VA ^ # measurement of the wire, and the test terminal transceiver module 51 has - (pr〇t〇c〇〇 sealing ^ by the test The test terminal transceiver module 51 is wirelessly transmitted to the monitoring terminal transceiver module & the container control terminal transceiver module 52 receives the data packet sent by the test terminal transceiver module 51, and the age control terminal transceiver module 52 A negative packet having a format of the microprocessor 521 in the format of another data communication protocol is transmitted to the terminal device 2 via the transmission line 4; each H 11 and the monitoring terminal are configured by the structure described in The transceiver module 52 can transmit the bedding material without wiring, and the monitoring terminal transceiver module 52 and the terminal device 2 can respectively have an rs_ The interface 4 of the interface and the transmission line 4 connecting the terminal device 2 and the monitoring transceiver module 52 are RS-232 interfaces, and the terminal device 2 further includes a display 21 and at least one human interface u to monitor the test. The data obtained by the machine 1. Referring to FIG. 3, the figure shows a preferred embodiment of the present invention. In this embodiment, the test machine 1 and the terminal device 2 can have the same communication protocol (pr〇t〇c〇1) for direct transmission. a plurality of data packets, wherein the power supply 3 is operated by the power source 13 to obtain the startup power, and the backplane 11 obtains the working data of the power supply 3 and is converted by the test terminal transceiver module 51 into a plurality of data packets. The monitoring terminal transceiver module 52 is disposed on the testing machine, and the monitoring terminal transceiver module 52 can be disposed on the terminal device 2, or the monitoring terminal transceiver module 52 can be built in the terminal device 2 The monitoring terminal transceiver module 52 obtains the plurality of data packets sent by the test terminal transceiver module 51 and directly sends the data packet to the terminal device 2, thereby reducing the time for converting the data packet format, and speeding up the testing machine 1 and the terminal device 2 The data transmission speed, the data transmission between the monitoring terminal transceiver module 52 and the terminal device 2 can be wired, and the terminal device 2 can also receive the data packet returned by the monitoring terminal transceiver module 52 in a wireless transmission mode. In the foregoing architecture, the process of obtaining the data packet by the terminal device 2 first sends a request for obtaining the data packet to the terminal device 2, and the request is transmitted to the test terminal transceiver module 51 through the monitoring terminal transceiver module 52, and finally the back device The board 11 receives the request, and the backplane 11 transfers the obtained work data to the test terminal transceiver module 51 for conversion into a plurality of data packets, and receives the data through the monitoring terminal. For the effect of the increase, please refer to the example, which is the example of the figure and the conventional effect of the form, and the towel is "supervised (four) recorded _ from the acquisition group;" on behalf of the monitoring terminal transceiver and 52 to The backplane 21 requires the time after obtaining the test data to confirm the data. After the experiment, it is confirmed that the wireless transmission mode of the module S2 _ module is 3.45 ms faster than the conventional architecture. "To the time of taking the bait" represents a complete age, the architecture of the present invention is faster than the conventional architecture. 363 and then clear Figure 5 'The same completion of the transmission of 1 〇 0 pen package, the present invention is also relatively Knowing that the wood structure has been 363ms, passed Sending (10) the transmission error rate of the pen packet, the conventional architecture is 3%' and the invention can improve the transmission error rate to be lower than the speed, so the speed of the test machine 1 and the terminal device transmission is corrected. The inner backboard 11 does not need to be routed to the terminal device 2 to avoid the aging of the wire. Although the present invention has been disclosed above in the preferred embodiment, it may be a 臓_8G2·15 standard or a 1EEE Xie 16 standard for any of the inventions of the group 51 (4), and anyone skilled in the art 'at = Γ = Γ Γ and scope, and some of the changes and refinements that are made should be covered by this scope of protection. And the structure of the knowledge to enhance the above-mentioned effects, should have fully complied with the new stipulations of the stipulations in accordance with the law, and urge you to approve the patent application for this month's patents to encourage creation, to the sense of virtue. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic plan view showing an embodiment of the present invention. 2 is a block diagram of the architecture of FIG. 1. Figure 3 is a plan view of a preferred embodiment of the present invention. Figure 4 is a table comparing the efficacy of the present invention with a conventional architecture. Figure 5 is a table of efficacy comparisons between another inventive and conventional architecture. [Main component symbol description] 1 ........Test machine 11 ........Back plate 12 ........Temperature control device 13 ........ Power Source 2 ........ Terminal Equipment 21 ........ Display 22 ........ Human Machine Interface 23 ........ Network Connection 埠 3 . .......Power Supply 4 ........Transmission Line 51 ........Test Terminal Transceiver Module 511........Microprocessor 52 ... ..... Monitoring terminal transceiver module 521........Microprocessor 9