1251675 九、發明說明: 【發明所屬之技術領域】 法。 /則1中央處理器所負載之電流大小的方 【先前技術】 的功i機主板機的H輪1入系^具有可設定中央處理器電壓 應關係產生新的一的電^與電壓標示符號(v_對 哭,早始至^、、為基準電壓,再將基準電壓送到中央處理 二你雨mi過調節電路使輸出電壓與設定電壓值相當。 =電當壓的^ 值,壓標示符號電壓 ;:央處理器在執行程式時所產生的電流也不盡相= 白知技術郃無法做到顯示電流的動作。 - 【發明内容】 遂提上述之缺點’乃積極著手進行研究’ 逐七出一種電流偵測震置及方法」。 九 本發明之主要目的係為了解決習知技術 中央處理器之電壓值之缺點,而提供使用者可以出 之顯示數值,明確的看出此時中央處理器的二: 為了達成上述之目的,本發明係裎徂 “係徒供—種電流價測方 1251675 法’該方法係包括傳送-中央處理器所產生之―1251675 IX. Description of the invention: [Technical field to which the invention pertains] Law. / Then 1 the amount of current loaded by the central processing unit [Prior Art] The H-wheel 1 input system of the main board of the machine has a voltage that can be set to generate a new one. (v_Crying, starting from the beginning to ^, is the reference voltage, and then sending the reference voltage to the central processing. You rain mi over the adjustment circuit so that the output voltage is equal to the set voltage value. = The value of the voltage when the voltage is pressed, the pressure is marked Symbol voltage;: The current generated by the central processor when executing the program is not in the same phase. = [Improvement] The above-mentioned shortcomings are "proactively proceeding with research". Seven kinds of current detection and method are provided. The main purpose of the invention is to solve the shortcomings of the voltage value of the conventional central processing unit, and to provide the display value that the user can display. Processor 2: In order to achieve the above object, the present invention is a system for measuring the current price of the 1251675 method, which includes the transmission - generated by the central processor.
訊號,獲得該電流偵測訊號之一電、$值,M 书抓、J -電麗值,比較該電壓值是否大=較電流值為 之電壓值,輸出-電壓差值於—顯示早謂預設 另,本發明亦提供-種電流侦測裝置, =^單元,個以產生—電流訊號叫貞 電 性連結於該中央處理ϋ單元,用以彳貞測 '係電 所產生之該電流訊號’一轉換單元,、係電性遠:理态單元 單元,將該電流訊號轉換成一電壓值,一比貞測 係電性連結於該轉換單元,將所轉換後之 ^:元’ 較運算單元所預設之電壓值作比 一 m _值,、該比 連結於該比較運算單元,以顯示比較後之差:電性 【實施方式】 差值。 為了使貴審查委員能更進一+膝 既定目的聰取之麟、枝及功轉明為達成 明之詳細說贿關,相信本發’ a > =下有關本發 :由此得一深入且具體之瞭解,然而所附圖^^點失: 與說明用,並非用來對本發明加以限制者。 柃仏芩考 習知技術所揭露僅限於只能偵測 標示賴壓值,並不能顯示出實理器的電壓 係提供使用者可以透過一顯示單=電:值。故本發明 出此時中央處理器的負載電流大小。’、τ值’明確的看 請參考第-圖所示,第-圖係為本發 電流偵測裝置示意圖,係包括—中“也例之 以產生-電流訊號。-_單元22,元10,係用 平凡12,係電性連結於該中央 1251675 處^器單it,用則貞測該中央處理器單元所產生 訊號。一轉換單元14,係電性連結於誃 -w電抓 流訊號轉換成一電壓值。一比較運管早兀,將該電 於該轉換單元,將所轉換後之該電驗 所預設之電壓值作比較,其中該比較 ,,π早兀 比較m料兀18,係電性輕_比 又 以顯示比較後之一電壓差值,其中兮龜_ 0 #早兀’ 發光二極體。 4該顯不早元係為至少- 圖係為本發明第二實施例之 電“貞測衣置不思圖,係包括—中央處理器單元仙 以產t電流訊號…制單元12,係電性連結於該中央 處理器早兀,用以偵測該中央處理器單元所產生之、、: 訊號。-轉換單m係電性連結於該偵測單元,^該二 流訊號轉誠-電齡。-錢轉換單s 2G,係電性二 於該轉換單it ’將該電壓值由1比訊號轉換為一數位^ 號,其中該減轉換單元係為1tb/類比轉”。一射 單元18,係0電,結於該訊號轉換料,以輸出該數i訊 號’其中細不早兀係為-液晶顯示榮幕或—陰極射線管 顯示螢幕。 請參考第三圖所示’第三圖係為本發明第三實施例之 電流偵測裝置不意圖二中央處理器單元1G,係用以產生 -電流訊號。-彳貞測單7L I2,係電性連結於該中央處理器 單元,用則貞職巾域理H單元難生之該電流訊號。 -轉換單7G 14,係電性連結於該彳貞測單元,將該電流訊號 轉換成-電壓值。—控制單元22 ’係電性連結於該轉換單 元,其中該控制單元内含-軟體,該控制單元利用所内含 1251675 之軟體讀取出該電壓值。一顯示單元18,係電性連結於兮 控制單元,顯示該電壓值,其中該顯示單元係為一液晶顯 示螢幕或一陰極射線管顯示螢幕。 曰”' 請參考第四圖所示,第四圖係為本發明第一實施例之 電k偵’則方法流程圖’該方法係包括傳送一中央處理哭所 產生之一電流偵測訊號(S100),獲得該電流偵測訊號2一 電流值(S102),其中該電流值係由一偵測單元偵測及轉換 所求得者,轉換該電流值為一電壓值(S104),比較該電壓 值是否大於一比較運算單元所預設之電壓值(sl〇6),其中 該比較運算單元係為一四段比較器,若比較結果為是,則 輸出一電壓差值於一顯示單元上(S108),其中該顯示單元 係為至少一發光二極體,反之,若比較結果為否,則不作 任何的輸出動作(S110)。 於上述第一實施例之電流偵測方法流程圖係配合該第 貝加例之電流貞測裝置,本實施例係可以動態的偵測中 央處理器此時的電流負载,經過轉換單元將所偵測之電流 值轉換為電壓值,之後再去跟四段比較器去做電壓比較, 當電壓超過母一段所設計的預設電壓值時,該些發光二極 體就會被點亮,當電壓值超過第一段時亮第一顆發光二極 體,以此類推電流負載過重時燈亮的越多,輕载時可能連 燈都不亮。當電流的負載動態改變差異很大時,發光二極 體燈就會呈現出流線型燈亮燈滅,使用者就可以很清楚看 出此時中央處理器的電流負載大小。 請參考第五圖所示,第五圖係為本發明第二實施例之 電流偵測方法流程圖,該方法係包括傳送一中央處理器所 1251675 產生之一電流偵測訊號(S200),獲得該電流偵測訊號之一 笔:^值(S202) ’其中該電流值係由一摘測單元摘測及轉換 所求得者。轉換該電流值為一電壓值(S204),透過一訊號 轉換單元將该電壓值由一類比訊號轉換為一數位訊號 (S206),其中該訊號轉換單元係為一類比/類比轉換器。輸 出該數位訊號於一顯示單元上(S208),其中該顯示單元係 為一七段顯示器。 於上述第二實施例之電流偵測方法流程圖係配合該第 二實施例之電流偵測裝置,本實施例係與該第一實施例之 不同之處在於所測得之電壓值不經過比較器而是經由該類 比/類比轉換器,將所測得之類比電壓值轉換為數位電壓 值,並且將顯示單元由發光二極體變更為七段顯示器,當 獲得轉換後之數位·值再輸出至七段顯示器,由該七段 顯=器顯示出電流負載值。當電流的負載動態改變差異很 大時’會顯示在七段顯示H,使用者就可雜清楚看出此 時中央處理器的電流負載大小。 睛麥考第六圖所示 个,、同吓匈个贺、昍弟二貫孢例之 摘測方法流程圖,傳送_中央處理器所產生之一電流 貞=訊號⑻〇〇) ’獲得該電流偵測訊號之一電流值 2〇2) ’其中該電流值係由—偵測單元偵測及轉換所求得 ^換該電流值為—電壓值(s綱),藉由—軟體以讀取 值⑽6) ’顯示該電壓值於—顯示單元上⑽8), 罄〜顯不單兀係為一液晶顯示螢幕或一陰極射線管顯示 於上述第三實施例之電流偵測方法流程圖係配合該第 !251675 -實施例之電流偵測裝置, 不同之處在於用控制單元來==侍:第 取電壓值,:讀;= 的負載動=變管幕上,當電流 陰極射線管顯示螢幕上传用二在液晶顯示螢幕或一 央處理器的電流負載大小使用者就可以很清楚看出此時中 台或顆二央處理11的電流在開機或進人作業系統平 二電勺:玩遊戲時,在實際上中央處理器會負載著不 示強强《明就疋讓使用者可以透過發光二極體顯 左6^山&上的七段顯示器或顯示螢幕上顯示數值,明 顧看出此時中央處理器的負載電流大小。 羽本發明確能藉上述所揭露之技術,提供—種週然不同 ^白知者的設計’堪能提高整體之使用價值,又其申請前 未見於刊物或公概肖,誠6符合發 法提出發明專利申請。 仟犮依 准’上述所揭露之圖式、說明,僅為本發明之實施例 而已’凡精于此項技藝者當可依據上述之說明作其他種種 :=範=些改變仍屬於本發明之發明精神及以下界定 【圖式簡單說明】 第一圖係為本發明第一實施例之電流偵測裝置示意圖; 第二圖係為本發明第二實施例之電流偵測裝置示意圖; 第三圖係為本發明第三實施例之電流偵測装置示意圖; 1251675 第四圖係為本發明第一實施例之電流偵測方法流程圖; 第五圖係為本發明第二實施例之電流偵測方法流程圖;及 第六圖係為本發明第三實施例之電流偵測方法流程圖。 【主要元件符號說明】 中央處理器單元 10 偵測單元 12 轉換單元 14 比較運算單元 16 顯示單元 18 訊號轉換單元 20 控制單元 22 11Signal, obtain one of the current detection signals, the value of the power, the value of the M, and the value of the J-electricity. Compare the voltage value with the current value. The output-voltage difference is In addition, the present invention also provides a current detecting device, which is a unit for generating a current signal, which is electrically connected to the central processing unit for detecting the current generated by the system. The signal 'a conversion unit, the system is far away: the unit of the state unit converts the current signal into a voltage value, and the ratio is electrically connected to the conversion unit, and the converted ^: element' is compared The voltage value preset by the unit is a ratio of one m_, and the ratio is connected to the comparison operation unit to display the difference after the comparison: electrical [embodiment] difference. In order to enable your review board to better enter the knees, the branches and the merits of the purpose, to understand the details of the bribery, I believe that this issue 'a > = the next issue: this is an in-depth and specific It is understood that the drawings are not intended to limit the invention.习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习 习Therefore, the present invention has the magnitude of the load current of the central processing unit at this time. For the clear view of ', τ value', please refer to the figure - figure. The first figure is a schematic diagram of the current detecting device. It includes - in the case of "generating - current signal. -_unit 22, element 10 The system is electrically connected to the central unit 1251675, and is used to measure the signal generated by the central processing unit. A conversion unit 14 is electrically connected to the 誃-w electric catching signal conversion. Forming a voltage value. Comparing the operation tube early, the electricity is applied to the conversion unit to compare the voltage values preset by the converted detector, wherein the comparison, π is earlier than the comparison of the m material 兀18, The electrical light is lighter than the ratio of one of the voltages after the comparison, wherein the turtle _ 0 #早兀' light-emitting diode. 4 the display is not early - at least - the figure is the second embodiment of the present invention The "electrical device" is included in the central processing unit, and the unit 12 is electrically connected to the central processing unit to detect the central processing unit. The resulting,: signal. - The conversion meter m is electrically connected to the detection unit, and the second stream signal is converted to a power-age age. - money conversion slip s 2G, system power 2 in the conversion list it 'converts the voltage value from 1 to signal to a digit ^, where the conversion unit is 1tb / analog to turn". The system is powered by 0, and is connected to the signal conversion material to output the number i signal 'which is not too early to be - liquid crystal display screen or cathode ray tube display screen. Please refer to the third figure shown in the third figure The current detecting device of the third embodiment of the present invention is not intended to be a central processing unit 1G for generating a current signal. The test unit 7L I2 is electrically connected to the central processing unit. The current signal is difficult to generate in the H-cell of the service area. - The conversion unit 7G 14 is electrically connected to the detection unit, and converts the current signal into a voltage value. The control unit 22 is electrically connected to The conversion unit, wherein the control unit includes a software body, and the control unit reads the voltage value by using the software containing 1251675. A display unit 18 is electrically connected to the 兮 control unit to display the voltage value, wherein The display unit is a liquid crystal display screen or a cathode The ray tube displays a screen. 曰"' Please refer to the fourth figure, and the fourth figure is a flow chart of the electric k-detection method according to the first embodiment of the present invention. The method includes transmitting one of the central processing cries. The current detecting signal (S100) obtains the current detecting signal 2 and a current value (S102), wherein the current value is obtained by detecting and converting by a detecting unit, and converting the current value to a voltage value ( S104), comparing whether the voltage value is greater than a voltage value (sl〇6) preset by a comparison operation unit, wherein the comparison operation unit is a four-segment comparator, and if the comparison result is yes, outputting a voltage difference value On a display unit (S108), wherein the display unit is at least one light-emitting diode, and if the comparison result is no, no output action is performed (S110). The flow chart of the current detecting method in the first embodiment is matched with the current detecting device of the first embodiment. The current embodiment can dynamically detect the current load of the central processor at this time, and the detected unit will detect the current. The measured current value is converted into a voltage value, and then the voltage comparison is performed with the four-stage comparator. When the voltage exceeds the preset voltage value designed by the parent section, the light-emitting diodes are illuminated when the voltage is When the value exceeds the first segment, the first light-emitting diode is lit, and the more the light is light when the current load is too heavy, the light may not be bright when the light load is applied. When the dynamic change of the current load varies greatly, the LED light will appear to be off, and the user can clearly see the current load of the CPU at this time. Please refer to FIG. 5 , which is a flowchart of a current detecting method according to a second embodiment of the present invention. The method includes transmitting a current detecting signal (S200) generated by a central processing unit 1251675 to obtain a current detecting signal (S200). One of the current detecting signals: ^ value (S202) 'where the current value is obtained by a picking unit to measure and convert. The current value is converted to a voltage value (S204), and the voltage value is converted from a analog signal to a digital signal (S206) by a signal conversion unit, wherein the signal conversion unit is an analog/analog converter. The digital signal is outputted to a display unit (S208), wherein the display unit is a seven-segment display. The current detecting method of the second embodiment is in accordance with the current detecting device of the second embodiment. The difference between the embodiment and the first embodiment is that the measured voltage values are not compared. The converter converts the measured analog voltage value into a digital voltage value via the analog/analog converter, and changes the display unit from the light emitting diode to the seven-segment display, and obtains the converted digital value and then outputs the converted To the seven-segment display, the current load value is displayed by the seven-segment display. When the current change of the load of the current is very different, it will be displayed in the seven-segment display H, and the user can clearly see the current load of the CPU at this time. The figure shown in the sixth picture of the eye-catching test, the flow chart of the method of picking up the two cases of the smuggling of the Hungarian and the singer of the singer, the transmission current _ one of the current generated by the central processor 讯 = signal (8) 〇〇) One of the current detection signals has a current value of 2〇2) 'where the current value is determined by the detection unit and the conversion is obtained by changing the current value to the voltage value (s), by means of the software to read Value (10) 6) 'display the voltage value on the display unit (10) 8), 罄~ display is not a single liquid crystal display screen or a cathode ray tube is shown in the flow chart of the current embodiment of the third embodiment No. 251675 - The current detecting device of the embodiment, the difference is that the control unit is used == servant: the first taking voltage value,: reading; = the load moving = changing the tube screen, when the current cathode ray tube is displayed on the screen With the current load of the liquid crystal display screen or a central processor, the user can clearly see that the current of the middle or the binary processing 11 is at the start or enter the operating system. In fact, the central processor will be loaded with a strong Cloth allows users to explicitly left Hill & amp ^ 6 through the light emitting diode; seven segment display on the display values or display on the screen, Ming Gu load current seen at this time the central processor. Yu Ben’s invention can indeed provide the kind of design that can be improved by the above-mentioned techniques, which can improve the overall use value, and it is not found in the publication or public profile before the application. Invention patent application. The drawings and descriptions disclosed above are only for the embodiments of the present invention. Those skilled in the art can make various other forms according to the above description: = some changes still belong to the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a current detecting device according to a first embodiment of the present invention; FIG. 2 is a schematic diagram of a current detecting device according to a second embodiment of the present invention; A schematic diagram of a current detecting device according to a third embodiment of the present invention; 1251675 is a flowchart of a current detecting method according to a first embodiment of the present invention; and FIG. 5 is a current detecting according to a second embodiment of the present invention. The method flow chart; and the sixth figure are flowcharts of the current detecting method according to the third embodiment of the present invention. [Description of main component symbols] Central processing unit 10 Detection unit 12 Conversion unit 14 Comparison operation unit 16 Display unit 18 Signal conversion unit 20 Control unit 22 11