M432074 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種機相電源監控系統’尤其是一種無線的主機殼電源 監控系統。 【先前技術】 目則的主機殼電源監控系統一般都爲有線電源監控系統,其工作過程 如圖1所示,由電源輸出線端口連接進入檢測模組31,直接由顯示模組i 向檢測模組31取資料,該檢測系統一次只檢測—個電源輸出信號,處理後 直接通過h號線送給顯示模組1顯示。即使還有另外的檢測模組%,該系 統也只能重複這一過程,進行另一路電源的檢測。 現有技術的監控系統整個在電源外部,檢測的是電源輸出線端的狀 態,而且,整個系統内置在主機殼内部,只能隨著主機殼移動而移動,不 方便查看。 【新型内容】 針對上述問題’本新型提出一種機箱電源監控系統,所述監控系統包 括主機殼和遙控器’所述遙控器内包括第一無線模組,用於與所述主機殼 進行無線通訊;所述主機殼内進一步包括: 第二無線模組’與所述第一無線模組無線電信號連接,用於相互接收 與發送無線電通訊信號; 檢測資料處理模組’與所述第二無線模組連接,用於接收和傳遞所述 第二無線模組的信號’同時將接收的電源信號傳送給所述第二無線模組; 3 M432074 取樣檢測電路;與所述檢測資料處理模組電連接,用於接收所述檢測 資料處理模組傳遞的信號’並將檢測的電源信號傳送給所述檢測資料處理 模組。 所述監控魏的X作過程可描述如下:所述第—無線模組收到檢測指 令後’從接《令赋_魏指令模式,並無職職令發送至所 述第二無線模組;所述第二無線模組接收指令後,生成標諸位元;所述檢 測資料處理模組檢_所述第二無線模組的標鼓'位元後,將標諸位元清 除並根據‘ 7 ’收集所述取樣檢測電路模組所檢測到的電源信號,並將 電源信號傳遞給所述第二無雜組;所述第二無線模組收到職電源信號 後,將所述電源信號資料加人前導碼和CRC校驗,並用無線電方式將資料 發送出去;所述第-無線模嫌測接收檢測_電源信號;延時一段時間 後,所述第-無線模組又㈣制指令發送指令賴,縣-個無線監控 循環,實現對主機殼電源的即時監控。 所述取樣檢測電路可以採用電流檢測霍爾IC元件,比傳統的霍爾元件 檢測電路麟更爲準麵先進,優選地,可湖AllegIOMierosystems公司 最新的電流檢測霍爾1C。 所述取·樣檢測電路可以包括至少兩組可同時監控電流/電壓信號的監控 接口,以實現同時監控多路電壓或電流信號。 所述檢測貧料處理模組可採用單片機進行處理,所述取樣檢測電路將 檢測的電源信號傳送給所述單片機,單片機處理後通過所述第二無線模組 反饋給所述第一無線模組。 所述檢測資料處理模組内可進一步包括穩壓模組,所述穩壓模組一端 與_主軸梢機連接, 爲所述第二無 'U'檢測#料處理模師取樣檢測電路提供穩定的I作電廢。 Μα魄步包細*倾處理㈣賴組所述顯示資 顺理模組與所述第—無線模組電連接,接收並處理所述第—無線模組的 °’u所麵吨轉所雜*資料處職組電連接,接⑽細示資 料處理模_處理後的錢,其顯示出來。 所述顯示触優舰爲LCD2GG2,所職村猶㈣相應地包 括LCD2002軌接σ,將需要顯示的信息發送至所述·〇〇2。 所述顯7F餅處理模組優選地,包括電源關遙控按鍵,其通過所述 第-無線模組和第二無__所紐_料處理歡連接,用於遙控主 機殼的開關機。 本新型的线殼電源監控祕顧遙㈣馳线殼的《,整個監 控系統分成兩大部分,-部分在電源内部,檢測的是電源内部狀態,另一 部分在主機殼外部’並且可以自由移動,方便查看;而且可同時監控多路 電壓電流彳5號,比如主板、風扇、顯卡等的電壓;還可通過遙控器控制主 機殼電源的開啓和關閉。 為使貴審查委員能更進一步瞭解本創作為達成預定目的所採取之技 術、手段及功效,茲舉一較佳可行之實施例,並配合圖式詳細說明如后, 相信本創作之目的、特徵與優點,當可由此得_深入且具體之瞭解。 【實施方式】 請參見圖2,本新型提出一種機箱電源監控系統,所述監控系統包括 主機殼8和遙控器9,遙控器9内包括第一無線模組3,用於與主機殼8進 M432074 行無線通訊;主機殼8内進—步包括第二無線模組4、檢測資料處理脸$ 和取樣檢測電路6 ;當第-無線模組3收到檢測指令後,從接收指令模式轉 到發送指令模式,並·無線電難令發送至第二無線模組4 ;第二無線模 組4接收指令後,生成標输元;檢測#料處理模組5檢_第二無線模 組4的標tt㈣後,將標输元清除,並根據指令,收集取樣檢測電路6 所檢測到的電源信號,並將電源信號傳遞給第二無線模組4 ;第二無線模組 4收到所«聽號後’將所述電驗號轉加人前導碼和crc校驗,並 用無線電方式將資料發送出去;第_無線馳3檢測接收檢測到的電源信 號,其信號的流向參見圖4帽頭A_>G的方向。延時—段時間後第一無 線板組3又根據檢測指令發送指令資料,參見箭頭H的方肖,形成一個無 線監控循環,實現對機箱電源的即時監控。 參見圓3-圖4所示的優選實施例,遙控器9内包括顯示資料處理模組2和 顯示模組1,顯示資料處理模組2與第-無線模組3電連接,接收並處理第 一無線模組3的電信號;顯示模組1與顯示資料處理模組2電連接,接收 顯示資料處理模組2的處理後的信號,並將其顯示出來。 所述顯示模組爲LCD2002,相應地所述顯示資料處理模組内包括LCD2〇〇2 通訊接口,將需要顯示的信息發送至所述LCD2002。所述第一無線模組和 第一'無線模組均爲nRF24L01 ^ nRF24L01無線模組和LCD2002顯示模組均 是經過實踐測試過的成熟的穩定模組。 該優選實施例的具體工作原理和步驟如下: 1、顯示資料處理模組2傳送一條取PC電源狀態資料(或者開/關機指令) 的指令到第一無線模組3中,並傳輸一條發送的指令; M432074 2、第-無線模組3收到顯示資料處理模組2的發送指令,將顯示模組ι送 來的取資料指令自動加入前導瑪和CRC校驗。隨即,第一無線模組3從接 收模式轉到發送模式,彻無線電方式發送出去,並等待接收端應答信號, ㈣奴是^重新發送,無線電傳輸鮮在丨_2臟間; 3處在接收模摘第一無線模組4檢測到有資料並接收。接收完畢後,確 定正域發送應答4號給第一無線模組3,確定接收完畢。同時,生成標諸 位元;檢測資料處理模組5到第二無線模組4的標諸位元,將標结位元清 Φ 除後,取第一無線模組4襄接收到的指令資料; 4檢測·貝料處理模組5根據指令,收集取樣檢測電路6所檢測到的資料(或 者動作開/關機)’進行處理’並將處理後的資料送給第二無線模組4,並 傳輸一條發送指令; 5第一無線模組4收到檢測資料處理模組5的發送指令將檢測的資料加 月】導%和CRC&驗。第_無線模組4從接收模式轉發送模式用無線電 方式發送出S f待確s忍接收應答信號,以確定是否重新發送。 • 6、第一無線模組3檢測到有資料,並接收。接收完畢後,發應答信號。 並生成標誌、位元,通知顯示資料處理模組2。 7 不資料處雜組2檢測到第—無線模組3的銳位元,將標諸位元清 除後取帛.,.、線模級3裏接收到的檢測資料,還原冑料原本,送到顯示 模組1進行顯示。 8貝料王。隨不儿畢後,延時1秒左右的時間告知顯示資料處理模組2, .,.,頁示資料處理模& 2再明第丨個步驟,發送指令資料,形^個無線監 控循環,實現對PC電源的即時監控。 7 M432074 圖5爲該優選實施例的取樣檢測電路6,圖中右側的jp os爲資料轉接跳 線,由1到8 口,依次是: 1、 +12vl輸出電流檢測反饋信號輸出; 2、 +12v2輸出電流檢測反饋信號輸出; 3、 +5v輪出電流檢測反饋信號輸出; 4、 +3·3ν輸出電流檢測反饋信號輸出; 5、 +12vl輸出電壓反饋信號輸出; 6、 +5ν輸出電壓反饋信號輸出; 7、 +3.3ν輸出電壓反饋信號輸出; 8、 檢測IC+5v VCC供電輸入。 圖中左側的J1-J10分別爲圖4中所示的AJ、ΒΙ、α、〇1接口,依次分別是 +12vl輸入、+12v2輸入、+5v輸入、+3 3v輸入。jib_ji〇b分別爲圖*中 的AO、B0、C0、D0接口 ’依次分別是+12vl輸出、+ι2ν2輸出' +5v輸 出、+3.3v輸出。圖中右下角的JGND接口爲接地端,與電源地相連接。該 取樣檢測電路6可同時監控八路以上的不同輸出電壓或電流信號。 本電路採用Allegro Mi⑽yStems公51最新的糕檢測霍爾IC,比傳統霍 爾元件檢測電路技術更爲準確,更爲先進。 圖6爲該優選實施例的電源_機電路圖,圖中左侧的_p端口是用來連 接檢測資料處理模組5的開/關機控制端口。右側爪端口中的i和3,或者 2寿4任意-組分別用來連接主板開關口和主機殼開關控制按鍵,用來實 現通過遙㈣9遙控關機和域殼按糊關機並用功能。 圖7爲本優選實施例的檢測:雜處理模組5,圖中左下角的FENG端口爲風 M432074 扇轉速電信號輸入端口;左上角JPAD端口中的1_8接口依次分別是: 1、 檢測IC+5v VCC供電輸出。 2、 +3·3ν輸出電壓反饋信號輸入; 3、 +5ν輸出電壓反饋信號輸入; 4、 +12vl輸出電壓反饋信號輸入; 5、 +3.3ν輸出電流檢測反饋信號輸入; 6、 +5ν輸出電流檢測反饋信號輸入; 7、 +12ν2輸出電流檢測反饋信號輸入; 8、 +12vl輸出電流檢測反饋信號輸入; 數值標示上與圖6所示的檢測取樣電路6的信號輸出相反。 圖示中部的UAD爲16位單片機,有五組I/O 口,分別爲p〇、p卜p2、p3、 P4 ’可擴展空間大。單片機uad的上方,有端口 c〇mp,爲電腦開關電路 控制端口。 單片機UAD右上方的接口 adp爲整個模組的供電電源,由pc電源sb電 壓引出的大於5伏的·,其後連接的仙祝是+〜穩壓糾,爲檢測資 料處理模組5提供敎的&電舰電。其下㈣他曹是+3 3v穩壓芯 片,爲第二無線模組4提供穩定的3.3v供電。 端口 JPTX是第二無線模組4的通訊端口,其中丨爲電源地端,2電源心 端’ 3-8是無線通信端口。 圖8爲本優選實施例的顯示資料處理模組2,其採用與檢測資料處理模組$ 相同的單片機。圖左上方的JPRX是第__無線模組3的通信端口,其中工 爲電源地端,2爲電源3.3v端,3_8爲通信端口。右下方的LCD-O是LCD2002 9 M432074 電源(+5v) ’ 3對比度調整,4 顯示模組1的通信端口,包括1電源地, ’ 7-14資料總線,15背光燈正 指令/資料控制’ 5讀/寫控制,6使能信號口 極’㈣光燈負極。其下方的LCD_V是LCD顯示對比度調整的可調電阻。 圖中早片機上方的LCD-33V爲+3·3ν穩壓器,爲第—無線模組3供電;1 右方與其連接的LCDP爲連接電池(9ν)的供電口,LCDp供電口的右方的 LCD-5V疋+5v穩壓ϋ ’爲整個顯示資料處理模組2提供穩定電壓。 本新型的無線《監控系統的檢測部分在域納部,控卿分在主機殼 外部’移動和查看方便;其中的第—無線模組3和第二無線模組4可採用 現有的無_訊模組,並不局限於所示的優選實_中的;同時 還°通遙控器9控制主機殼電源的開啓和關閉。而且,該新型的取樣檢 測電路6和單片機結合可實現多路電壓電流信號的監控。 以上所述為本創作之較佳實施例之詳細說明與圖式,並非用來限制本 創作本卿之所有範®應以下述之專利賴為準,凡專利範圍之精神與 其類似變化之實麵與近健構,皆應包含於賴作之中。 M432074 【圖式簡單說明】 圖1爲現有技術的有線電源監控系統模組連接圖; 圖2爲本新型的機箱電源監控系統模組連接圖; 圖3爲本新型優選實施例的模組連接示意圖; 圖4爲本新型優選實施例的工作原理方塊圖; 圖5爲本新型優選實施例的取樣檢測電路圖; 圖6爲本新型優選實施例的電源開關機電路圖; 圖7爲本新型優選實施例的檢測資料處理模組; 圖8爲本新型優選實施例的顯示資料處理模組。 【主要元件符號說明】 1顯示模組 2顯示資料處理模組 31,32檢測模組 3第一無線模組 4第二無線模組 5檢測資料處理模組 6取樣檢測電路 8主機殼 9遙控器M432074 V. New Description: [New Technology Field] This creation is about a machine-phase power monitoring system, especially a wireless mainframe power supply monitoring system. [Prior Art] The main chassis power monitoring system is generally a wired power monitoring system. The working process is shown in Figure 1. The power output line port is connected to the detection module 31, which is directly detected by the display module i. The module 31 takes the data, and the detection system detects only one power output signal at a time, and directly sends it to the display module 1 through the h line. Even if there is another % of the detection module, the system can only repeat this process and perform another power supply test. The monitoring system of the prior art is entirely outside the power supply, and detects the state of the power output line end. Moreover, the entire system is built in the inside of the main body casing, and can only move as the main casing moves, which is inconvenient to view. [New content] In view of the above problems, the present invention provides a chassis power monitoring system, which includes a main body casing and a remote controller. The remote controller includes a first wireless module for performing with the main casing. Wireless communication; the host housing further includes: a second wireless module connected to the first wireless module radio signal for receiving and transmitting radio communication signals with each other; detecting a data processing module 'and the first a wireless module connection, configured to receive and transmit a signal of the second wireless module, and simultaneously transmit the received power signal to the second wireless module; 3 M432074 sampling detection circuit; and the detection data processing module The electrical connection is configured to receive the signal transmitted by the detection data processing module and transmit the detected power signal to the detection data processing module. The monitoring process of the Wei can be described as follows: after receiving the detection command, the first wireless module sends a command to the second wireless module; After the second wireless module receives the instruction, the target bit is generated; after the detection data processing module detects the drum of the second wireless module, the target bit is cleared and collected according to the '7' The sampling detection circuit module detects the power signal and transmits the power signal to the second no-missing group; after receiving the power signal, the second wireless module adds the power signal data to the Preamble and CRC check, and send the data by radio; the first-wireless mode is suspected to receive the detection_power signal; after a delay, the first-wireless module sends a command to the fourth command. - A wireless monitoring loop for real-time monitoring of the main chassis power supply. The sampling detection circuit can use a current detecting Hall IC component, which is more advanced than the conventional Hall element detecting circuit. Preferably, the latest current detecting Hall 1C of Lake AllegIOMierosystems. The sample detection circuit can include at least two monitoring interfaces that can simultaneously monitor current/voltage signals to simultaneously monitor multiple voltage or current signals. The detecting poor material processing module may be processed by a single chip, and the sampling detecting circuit transmits the detected power signal to the single chip, and the single chip is processed and fed back to the first wireless module by the second wireless module. . The detection data processing module may further include a voltage stabilizing module, and one end of the voltage stabilizing module is connected with the _ spindle tip machine to provide stability for the second non-U's detecting material processing mode sampling detection circuit. I made electricity waste. Μα魄步包细*倾处理(4) The display module of the Lai group is electrically connected to the first wireless module, and receives and processes the ' u 所 of the first wireless module * Data is connected to the service group, and (10) details the data processing module _ processed money, which is displayed. The display touch-up ship is LCD2GG2, and the resident village (4) correspondingly includes the LCD2002 track connection σ, and sends the information to be displayed to the 〇〇2. Preferably, the display 7F cake processing module comprises a power-off remote control button, which is connected to the switchboard of the main body casing through the first-wireless module and the second non-contact device. The new type of wire-shell power supply monitoring secrets the remote (four) Chi cable shell, the entire monitoring system is divided into two parts, - part inside the power supply, detecting the internal state of the power supply, the other part is outside the main housing ' and can move freely It is convenient for viewing; it can also monitor multiple voltages and currents 彳5, such as the voltage of the motherboard, fan, graphics card, etc.; also can control the power supply of the main chassis to be turned on and off through the remote control. In order to enable your review committee to further understand the techniques, means and functions of this creation for the purpose of achieving the intended purpose, a better and feasible embodiment is presented, and the detailed description of the drawings is followed, and the purpose and characteristics of the creation are believed. And the advantages, when you can get _ deep and specific understanding. [Embodiment] Referring to FIG. 2, the present invention provides a chassis power monitoring system, which includes a main body casing 8 and a remote controller 9, and the remote controller 9 includes a first wireless module 3 for use with a main body casing. 8 into the M432074 line wireless communication; the host shell 8 step-by-step includes the second wireless module 4, the detection data processing face $ and the sampling detection circuit 6; when the first wireless module 3 receives the detection command, the slave receives the command The mode is transferred to the sending command mode, and the radio hard command is sent to the second wireless module 4; after receiving the command, the second wireless module 4 generates the standard transmitting element; the detecting #material processing module 5 detects the second wireless module After the standard tt (4) of 4, the target transmission element is cleared, and according to the instruction, the power supply signal detected by the sampling detection circuit 6 is collected, and the power supply signal is transmitted to the second wireless module 4; the second wireless module 4 receives the «After the listening number', the electric test number is transferred to the human preamble and crc check, and the data is sent out by radio; the _Wireless Chi 3 detects the detected power signal, and the flow of the signal is shown in Figure 4. The direction of the head A_>G. Delay—The first panelless group 3 sends the command data according to the detection command after the period of time. See the square of the arrow H to form a wireless monitoring loop to realize real-time monitoring of the chassis power. Referring to the preferred embodiment shown in the circle 3 to FIG. 4, the remote controller 9 includes a display data processing module 2 and a display module 1. The display data processing module 2 is electrically connected to the first wireless module 3, and receives and processes the first The electrical signal of the wireless module 3; the display module 1 is electrically connected to the display data processing module 2, and receives the processed signal of the display data processing module 2 and displays it. The display module is an LCD 2002. Correspondingly, the display data processing module includes an LCD2〇〇2 communication interface, and sends information to be displayed to the LCD2002. Both the first wireless module and the first 'wireless module' are both nRF24L01^nRF24L01 wireless module and LCD2002 display module, which are mature and stable modules that have been tested and tested. The specific working principle and steps of the preferred embodiment are as follows: 1. The display data processing module 2 transmits a command for taking PC power status data (or an on/off command) to the first wireless module 3, and transmits a transmitted message. Command; M432074 2. The first-wireless module 3 receives the transmission command of the display data processing module 2, and automatically adds the data acquisition instruction sent by the display module to the pre-matrix and the CRC check. Then, the first wireless module 3 goes from the receiving mode to the transmitting mode, sends out in radio mode, and waits for the receiving end to respond to the signal, (4) the slave is re-sent, the radio transmission is fresh in the 丨_2 dirty; 3 is receiving The first wireless module 4 is molded to detect the presence and reception of data. After the reception is completed, it is determined that the positive domain sends a response number 4 to the first wireless module 3, and it is determined that the reception is completed. At the same time, the target bits are generated; the data processing module 5 is detected to the standard bits of the second wireless module 4, and after the standard bits are cleared, the instruction data received by the first wireless module 4 is taken; The detection and bedding processing module 5 collects the data (or the operation on/off) detected by the sampling detection circuit 6 to perform processing according to the instruction, and sends the processed data to the second wireless module 4, and transmits one. Sending an instruction; 5 The first wireless module 4 receives the transmission instruction of the detection data processing module 5, and adds the detected data to the monthly and CRC& The _wireless module 4 wirelessly transmits a Sf-to-receive acknowledgment response signal from the receive mode to the transmit mode to determine whether to resend. • 6. The first wireless module 3 detects that there is data and receives it. After receiving, an answer signal is sent. And generating a flag and a bit, and notifying the display data processing module 2. 7 The data unit 2 detects the sharp bit of the first wireless module 3, removes the marked bits, and takes the detection data received in the 帛.,., line mode level 3, restores the original material, and sends it to the original. The display module 1 performs display. 8 shell king. After the completion of the delay, the delay of about 1 second tells the display data processing module 2, .,., page data processing module & 2 to clear the first step, send the command data, form a wireless monitoring loop, Real-time monitoring of PC power. 7 M432074 FIG. 5 is the sampling detection circuit 6 of the preferred embodiment. The jp os on the right side of the figure is a data transfer jumper, which is from 1 to 8 ports, which are: 1, +12 vl output current detection feedback signal output; +12v2 output current detection feedback signal output; 3, +5v wheel current detection feedback signal output; 4, +3·3ν output current detection feedback signal output; 5, +12vl output voltage feedback signal output; 6, +5ν output voltage Feedback signal output; 7, +3.3ν output voltage feedback signal output; 8, detection IC + 5v VCC power supply input. J1-J10 on the left side of the figure are the AJ, ΒΙ, α, 〇1 interfaces shown in Fig. 4, which are +12vl input, +12v2 input, +5v input, and +3 3v input, respectively. Jib_ji〇b is the AO, B0, C0, and D0 interfaces in Figure *, respectively, which are +12vl output, +ι2ν2 output, +5v output, and +3.3v output. The JGND interface in the lower right corner of the figure is the ground terminal and is connected to the power ground. The sampling detection circuit 6 can simultaneously monitor different output voltages or current signals of more than eight channels. This circuit uses Allegro Mi (10) yStems 51 latest cake detection Hall IC, which is more accurate and more advanced than the traditional Hall component detection circuit technology. Fig. 6 is a circuit diagram of the power supply unit of the preferred embodiment. The _p port on the left side of the figure is used to connect the on/off control port of the detection data processing module 5. The i and 3 in the right claw port, or the 2 life 4 arbitrary-group are used to connect the main board switch port and the main body switch control button, respectively, to realize the remote shutdown through the remote (four) 9 and the domain shell to close the paste and use the function. 7 is the detection of the preferred embodiment: the miscellaneous processing module 5, the FENG port in the lower left corner of the figure is the wind M432074 fan speed electrical signal input port; the 1_8 interface in the upper left corner JPAD port is respectively: 1. Detection IC+ 5v VCC power supply output. 2, +3·3ν output voltage feedback signal input; 3, +5ν output voltage feedback signal input; 4, +12vl output voltage feedback signal input; 5, +3.3ν output current detection feedback signal input; 6, +5ν output current Detect feedback signal input; 7, +12ν2 output current detection feedback signal input; 8, +12vl output current detection feedback signal input; the numerical value is opposite to the signal output of the detection sampling circuit 6 shown in FIG. The UAD in the middle of the figure is a 16-bit single-chip microcomputer with five sets of I/O ports, which are p〇, p, p2, p3, and P4'. Above the microcontroller uad, there is a port c〇mp, which is the computer switch circuit control port. The interface aDP on the upper right side of the single chip UAD is the power supply for the whole module. The voltage from the pc power supply sb is greater than 5 volts. The connection is then +~ voltage regulation, which provides the detection data processing module 5. & electric ship. Underneath (four), he is a +3 3v regulator chip, providing a stable 3.3v power supply for the second wireless module 4. The port JPTX is the communication port of the second wireless module 4, where 丨 is the power ground, and the 2 power center '3-8 is the wireless communication port. FIG. 8 is a display data processing module 2 of the preferred embodiment, which uses the same single chip as the detection data processing module $. The JPRX at the top left of the figure is the communication port of the __Wireless Module 3, where the power supply is the ground terminal, 2 is the power supply 3.3v terminal, and 3_8 is the communication port. LCD-O on the lower right is LCD2002 9 M432074 power supply (+5v) '3 contrast adjustment, 4 display module 1 communication port, including 1 power ground, '7-14 data bus, 15 backlight positive command / data control' 5 read/write control, 6 enable signal port '(four) light negative. The LCD_V below it is an adjustable resistor for LCD display contrast adjustment. In the figure, the LCD-33V above the early machine is a +3·3ν regulator, which supplies power to the first wireless module 3; 1 the LCDP connected to the right is the power supply port for connecting the battery (9ν), and the right of the LCDp power supply port. The square LCD-5V 疋 +5v voltage regulator ϋ 'provides a stable voltage for the entire display data processing module 2. The wireless "monitoring part of the monitoring system is in the domain part, the control unit is located outside the main casing" to move and view conveniently; the first - the wireless module 3 and the second wireless module 4 can be used without existing _ The module is not limited to the preferred one shown; at the same time, the remote controller 9 controls the opening and closing of the power of the main casing. Moreover, the novel sampling detection circuit 6 and the single chip microcomputer can realize the monitoring of the multi-channel voltage and current signals. The above descriptions of the preferred embodiments of the present invention are not intended to limit the scope of the patents of the present invention, which should be based on the following patents. And the near-behavior should be included in the work. M432074 [Simplified schematic diagram] FIG. 1 is a connection diagram of a wired power supply monitoring system module of the prior art; FIG. 2 is a connection diagram of a module power supply monitoring system module of the present invention; FIG. 3 is a schematic diagram of a module connection according to a preferred embodiment of the present invention; 4 is a block diagram of a working principle of a preferred embodiment of the present invention; FIG. 5 is a circuit diagram of a sampling and detecting circuit of a preferred embodiment of the present invention; FIG. 6 is a circuit diagram of a power switch of the preferred embodiment of the present invention; Detection data processing module; Figure 8 is a display data processing module of the preferred embodiment of the present invention. [Main component symbol description] 1 display module 2 display data processing module 31, 32 detection module 3 first wireless module 4 second wireless module 5 detection data processing module 6 sampling detection circuit 8 host shell 9 remote control Device