200906153 •九、發明說明: 【發明所屬之技術領域】 本發明涉及一種手持電子設備及豆帝旦 • •其涉及-種移動通訊終端及其電量控制;制方法,尤 【先前技術】 近年來,由於網路和通迅技術的發展,使得各種移動 通訊產品體積越來越小,功能越來越齊全 而受到人們的喜愛。尤其是目前最常見的行 訊的需要外,如電話、短二 ,、同寻U功月b,亦增設了日程安排、言十算 等增值功能,這些增值功能 戲、拍'、?、 相應功能的設備,例如:時鐘、早獨攜帶具有 .,^ 才尨 at异态、相機等。 y而,現有的行動電話雖然增 是這些增值功能是與通信功能同時二=:::: 於用戶開機的時候’既啟動了增值功能模电又啟動了、甬疒 功能核組’如此’勢必消耗了-定的不必要電量,迭 行動電話的待機時間縮短,行動電 k成了 少。另外,目前的行動電話都呈有電旦於电池使用時間減 示幕上顯示-電量提示條從而提醒用;顯 =提示條只能夠模糊地提示該行動電話當前二 法確切預測行動電話的使用時間。例如 - 況下,用戶在某個時刻 :里父少的情 電話在使用過程中,會消耗-些=;的3而由於行動 量的消耗,且用戶又無法確切=二1加快了電 只j仃動電話的使用時間, 200906153 .讓用戶在使用該行動+ -用戶僅希望利用苴^_兒5吟,擔心通訊隨時會中斷。因此, 組,使得行動電:二:功能模組,而希望關閉其他功能模 1時間。 舌的電池的使用時間可延長至用戶所需要 【發明内容】 種移動通訊終端包括電+旦 組、設定槿細, ’、电里彳欢測模組、控制模 又疋杈組、功耗運算模組、比較模組 組。電源為每個功能模組供電。雨旦 t ^ ^ 源的剩餘電量。功& 里檢測杈、'且用於檢測電 且每個功二::為移動通訊終端提供各種功能’ 儿节调功此拉組具有一— 間。功乾、m 設定模組供用戶設定時 表考功: 據用戶設定的時間和剩餘電量計算出 妒模/L 鼻預設級別最高的功能模組的功耗及各功 两的總功耗。比較模組比較預設級別較高的功能 旲、,且的功耗與芩考功耗的大小。若預$級別田> 組的功耗小於參考功耗,比外rt々 能模 绵功鉍命-土 乂杲、、且比較各功能模組當前的 :^麥考功耗的大小。若各功能模組的當前的總功耗 二多考功耗,控制模組依照各功能模組的預設級別從低 到南的次序’關閉相應的功能模組,直至剩且 的總功耗小於或等於參考功耗。 、、’a —種移動通訊終端的電量控制方法,包括: 200906153 接收用戶設定的時間; 檢測電源的剩餘電量; 設定的時間計算 出 根據當前電源的剩餘電量與用戶 參考功耗; 計算預設級別最高的功能模組的功耗; 判斷預設級別最高的功能模組的功耗是否小於參考 > f預設級別最高的功能模組的功耗小於參考功耗, 計异各功能模組當前的總功耗; 判斷各功能模組當前的總功耗是否大於參考功耗; 若各功能模組當前的總功耗大於參考功耗,根據各 =能模組的預設級別從低到高的次序,關閉相應的功 能模組直至剩餘的功能模組小於或等於參考功耗。 採用上述移動通訊終端及移動通訊終端的電量控制 :法’可以根據用戶的需要設定時間,並根據用戶設定的 呀間控制各功能模組的關閉,從而降低移動通訊終端的功 耗,進而延長移動通訊終端的使用時間至用戶所需要的時 間。 【實施方式】 貝知方式之移動通訊終端及其電量控制方法為了避 免用戶擔心通訊隨時中斷,對移動通訊終端的各功能模組 進行分級處理,並由好根據需要設定時間,接著根據用 戶設定的時間以及電源的剩餘電量計算出參考功耗,然後 據。亥參考功耗關閉級別較低的功能模組,留下級別較高 200906153 的功能模組,以減少設備的功耗, •的使用時間至用戶設定的時間。其$延長移動通訊終端 移動通终端提供各種功能,例如::,各功能模組可以為 網等通信功能或日程安排、計算消息、州上 請參看圖!,其為一較佳實^等增值功能。 的功能模組圖。移動通訊終端2〇〇 :=通5fl終端20〇 模組2〇、電量提示條3〇 m ^ _ 1G、電量檢測 8〇2-------80, 耗運算模組60、比較模、组7〇 :制核组5〇、功 8〇n以及提示模組9〇,其中N為自然數 卜1)200906153 • Nine, invention description: [Technical field of invention] The present invention relates to a handheld electronic device and a device for controlling a mobile communication terminal and a power control thereof, and a method for manufacturing the same, in particular, [prior art] Due to the development of network and communication technologies, various mobile communication products are becoming smaller and smaller, and the functions are more and more complete and are favored by people. In particular, the most common needs of the current communication, such as telephone, short two, and the same U-month, also added value-added functions such as schedule, ten-country calculations, these value-added functions, shooting ',?, corresponding Functional devices, such as clocks, pre-sold with ., ^ 尨 at abnormal, camera, etc. y, while the existing mobile phone is added, these value-added functions are simultaneously with the communication function. Two =:::: When the user starts up, 'both the value-added function is activated and the function core group is activated.' It consumes a certain amount of unnecessary power, and the standby time of the mobile phone is shortened, and the mobile power k becomes less. In addition, the current mobile phone is displayed on the battery life time reduction screen - the battery prompt bar to remind the user; the display = prompt bar can only vaguely prompt the mobile phone to accurately predict the use time of the mobile phone . For example - the user at a certain moment: the father's love call in the process of using, will consume - some =; 3 and due to the consumption of the amount of action, and the user can not be exact = 2 1 speed up the electricity only j Inciting the use of the phone, 200906153. Let the user use the action + - The user only wants to use 苴^_儿5吟, worrying that the communication will be interrupted at any time. Therefore, the group makes the action electricity: two: function module, and hopes to turn off other functions modulo 1 time. The battery life of the tongue can be extended to the user's needs. [Inventive content] A kind of mobile communication terminal includes electric + denier group, setting fine, ', electric 彳 彳 test module, control mode and 疋杈 group, power consumption calculation Module, comparison module group. The power supply supplies power to each functional module. The remaining power of the rainy t ^ ^ source. In the &<> detection, & is used to detect electricity and each function 2: provides various functions for the mobile communication terminal. Power function, m setting module for user setting Table test function: Calculate the power consumption of the function module with the highest preset level of the model/L nose and the total power consumption of each function according to the time and remaining power set by the user. The comparison module compares the functions with higher preset levels, and the power consumption and the power consumption of the reference. If the power consumption of the pre-$level field> group is less than the reference power consumption, the current rt can be compared with the current rt, and the current function of each functional module is compared: ^ Maichao power consumption. If the current total power consumption of each function module is more than two test power consumption, the control module 'closes the corresponding function module according to the preset level of each function module from low to south, until the total power consumption remains. Less than or equal to the reference power consumption. , 'a — a method for controlling the power of the mobile communication terminal, including: 200906153 receiving the time set by the user; detecting the remaining power of the power source; setting the time according to the remaining power of the current power source and the user reference power consumption; calculating the preset level The power consumption of the highest function module; whether the power consumption of the function module with the highest preset level is less than the reference> f The power consumption of the function module with the highest preset level is less than the reference power consumption, and the current function modules are different. Total power consumption; determine whether the current total power consumption of each function module is greater than the reference power consumption; if the current total power consumption of each function module is greater than the reference power consumption, according to the preset level of each = energy module from low to high The order of the modules is turned off until the remaining function modules are less than or equal to the reference power consumption. The power control of the mobile communication terminal and the mobile communication terminal is adopted: the method can set the time according to the needs of the user, and control the closing of each functional module according to the setting of the user, thereby reducing the power consumption of the mobile communication terminal, thereby prolonging the movement. The communication terminal is used until the time required by the user. [Embodiment] The mobile communication terminal and the power control method thereof of the known method are designed to prevent the user from being interrupted at any time, and the functional modules of the mobile communication terminal are hierarchically processed, and the time is set according to the needs, and then set according to the user. The time and the remaining power of the power supply calculate the reference power consumption, and then according to. The reference module with low power-off level is used to leave the function module with higher level 200906153 to reduce the power consumption of the device, and the usage time to the time set by the user. Its $ extended mobile communication terminal Mobile terminal provides various functions, such as::, each function module can be a network communication function or schedule, calculation message, state please refer to the picture! It is a better value-added function. Functional module diagram. Mobile communication terminal 2:=pass 5fl terminal 20〇module 2〇, power prompt bar 3〇m ^ _ 1G, power detection 8〇2-------80, power consumption module 60, comparison mode , group 7〇: nucleus group 5〇, Gong 8〇n and prompt module 9〇, where N is the natural number 1)
N個功能模組8CH 電源10為功能模組SOi、80, 〇π 帝旦认, 80(η-ι) 、80η 供電。 电讀測模組20用於檢測電源1〇的剩餘電量。 電量提示條30用於顯示電源1〇的剩餘電量狀態。 80 °月同捋苓看圖2,其為與功能模組、 .…8〇(η-υ 、8〇n相應的預設級別的示意圖,其中, 能模組80i、802……80(^) 、80八則呈古. () n刀別具有一個預設級別, 且各功能的預設級別從低到高的次序排列,而功能模 組叫的預設級別最高,並且功能模組8〇n僅在移動通訊 終端·關機時才關閉。在本實施中,每個功能模組分別 對應一個預設級別’即存在㈣預設㈣,在其他施實例 中也可以疋多個功能模對應一個預設級別,即存在Μ個預 設级別,其中,Μ為自然數,且Μ<Ν。 根據電量提示條30顯示的剩餘電量狀態,用戶可以大 致瞭解當前電源1()的剩餘電量。若用戶擔心移動通訊終端 200的使用時間不能達到用戶所冑要的時間時,用戶可以 10 200906153 通過设定模組40設定用戶所需要的時間’此時’設定模組 40產生一時間信號。 功耗運鼻模組60接收到該時間信號後^根據用戶設定 的時間以及當前電源10的剩餘電量,計算出參考功耗,該 參考功耗表示移動通訊終端200欲達到用戶設定的時間, 其在單位時間内所消耗的電量。功耗運算模組60還計算預 設級別最高的功能模組80η的功耗,以及功能模組801、 802……80η當前的總功耗。 比較單元70首先將預設級別最高的功能模組80η的功 耗與參考功耗進行比較,若預設級別最高的功能模組80η 的功耗小於參考功耗時,比較單元70繼續將功能模組 801、802……80(η-1) 、80η當前的總功耗與參考功耗進行 比較;若功能模組801、802……80(η-1) 、80η當前的總功 耗大於參考功耗,比較單元70則發送一觸發信號至控制模 組50。 控制模組50接收到該觸發信號後,根據各功能模組的 預設級別從低到高的次序,關閉相應的功能模組,直至剩 餘的功能模組的總功耗小於或等於參考功耗。具體地,控 制模組50關閉預設級別最低的功能模組801;功耗 運算 模組60計算剩餘的功能模組802...... 80(η-1) 、80η的總功 耗;比較模組70將剩餘的功能模組802...... 80(η-1) 、80η 的總功耗與參考功耗進行比較;若剩餘的功能模組802 ...... 80(η-1) 、80η的總功耗小於或等於參考功耗,剩餘的功 能模組802……80(η-1) 、80η均正常工作;若剩餘的功能 π 200906153 杈組8〇2f.:· 8〇(n])、8〇n的總功耗大於參考功耗,控制广 '組50則繼續關閉剩餘的功能模組80 ^ 別最低的功能模組802,依次:的、80"中級 等於或小於參考功耗。 ㈣的H組的總功耗 上述貫施例t,控龍、_關 了逐級關閉的方式,在並 j相應的功^組採用 岸的功铲槿細T t e例中,控制模組50關閉相 應的力月匕松組可以採用同時關閉的方式。具體地, 組50選擇預設級別最低的 古本营土、木成 候組801,功耗運算模組60 〇十忙未被k擇的功能模組802... 〇π 。,,,、 ί 1 L Γ 選擇的功能模組叫...... 8〇(nl) ^80 ^8〇 〇Λ 丁 b車乂,右未破選擇的功能模 ㈣、δ0η當前的總功耗小嶋^ 耗,控制模組50關閉所選擇的功 ㈣ 功能模組802...... 80(ηη、8()米、, 右未被迭擇的 Μ ( 1} 8〇以珂的總功耗大於參考 耗’控制杈組50繼續在未被選摆 &擇的耗電的功能模組802.... δ〇(η-υ 、80n令選擇預設級別最 ·· 5去妯啊摇j取低的功此杈組8〇2,依次直 至未被廷擇功此杈組的總功耗小 所選擇的功能模組。 ^可力耗_ 在使用移動通訊終端的過程中,若在用戶 内個功能模組被使用’該等功能模組停止使用 進入待機狀態後,便產生一彳 , 核測“旎以觸發電量檢測模組 == 剩餘電量,功耗運算模_重新計算 ^ 此可避免因該等功能模㈣❹& 多的電讀,移動通訊終端2⑽仍以原來的參考功耗當作關 12 200906153 •閉功能模組的條件。 ' 另外,當使用移動通訊终端2 0 0時,若用戶一直未設定 時間,則移動通訊終端200的各個功能模組均正常工作,直 至移動通訊終端200關機。 此夕卜當使用移動通訊終端200時,若用戶設定時間, 二預:級別最高的功能模组叽的總功耗等於參考功耗 :二控:胸直接關閉非最高預設級別的所有的屬 高的功能模組斷的功耗大’但預設級別最 戶設定的時間,因此,功耜 這到用 力耗運异杈組60根據預設級別最高 =能模請n的功耗和當前電源1〇的剩餘電 = 矛夕動通訊終端200最長的使用眛 、 斤出 出r叙、s 才曰],亚啟動提示模組90輸 出私動通讯終端200最長的時間, 動通訊終端200的最長使用日士 、„ 僅可以々楚移 使用蚌π…广 還可以根據上述最長的 1之用呀間’重新設定—個人 模組,有效地減少間,以關閉相應的功能 _ 私動通訊終端200的總功耗,從而延具 夕動通甙終端200的使用時間。 、 請同時參看圖3,移動通 程包括以下步驟:通Λ、·^2(Κ)的電量控制方法流 步驟402,功耗運曾槿 + 建斤拉組60接收用戶設定的時間。 :驟綱,%量檢測模組2〇檢測電㈣的剩餘電旦 —ν驟406’功耗運算模組6〇根據— 里 前電源Η)的剩餘電量計算出參考功康耗。°又疋的時間和當 13 200906153 月& 模組耗功耗運算㈣崎算職㈣最高的功 步驟410,比較模組7〇判斷預設級別最高的功能模电 %的功耗是大於參考功耗,若預設級別最高的功能模电 δ〇η的功耗大於參考功耗,則以步驟412;若預設级別最 而的功能模組80η的功耗不大於參考功耗則進入步驟414。 曰步私412,功耗運异模組60根據當前電源10的剩餘電 I和預設級別最高的功能模組δ〇η的功耗,計算出移動通 ,終端200的最長的使料間,並啟動提示模組9()輸出該 最長的使用日守間’不僅可以提示用戶移動通訊終端2〇〇的 使用時間不能達到設定時間’還可以使用戶根據該使用時 間重新設置合適的時間。該最長的使用時間表示僅保留預 設級別最高的功能模組80„的情況下,移動通訊終端2〇〇的 使用時間。 步驟414,比較模組70判斷預設級別最高的功能模組 8〇n的功耗是否等於參考功耗,若預設級別最高的功能模 組80n的功耗等於參考功耗,進入步驟416 ;若預設級別最 高的功能模組80n的功耗不等於參考功耗’進入步驟418。 步驟416,控制模組50關閉非最高預設級別的所有功 能模組8〇ι、8〇2......80(η_υ。 步驟418,功耗運算模組6〇計算出功能模組8〇ι、 8〇2......、80„當前的總功耗。 步驟420 ’比較模組7〇判斷功能模組8〇1、 8〇2……、80n當前的總功耗是大於參考功耗,若功 14 200906153 能模組8 01、8 0 2......8 Ο (η _ 、8 Ο η當如的總功耗大於參考功 耗,則進入步驟422 ;若功能模組80!、802……80(η_υ、80η 當前的總功耗小於或等於參考功耗,則進入步驟430。 步驟422,控制模組50關閉功能模组80!、 8〇2……80㈨υ 、80nt預設級別最低的功能模組。 步驟424,功耗運算模組60計算剰餘的功能模組的總 功耗。 步驟426,比較模組70判斷剩餘的功能模組的總功耗 是否大於參考功耗,若剩餘的功能模組的總功耗大於參考 功耗,則進入步驟428 ;若剩餘的功能模組的總功耗小於 或等於參考功耗,則進入步驟430。 步驟428,控制模組50關閉剩餘的功能模組中預設級 別最低的功能模組,並執行步驟424。 步驟430,在用戶設定的時間内,若有功能模組被使 用,該功能模組停止使用進入待機狀態後,便發送一檢測 信號至電量檢測模組20,電量檢測模組20接收到該檢測信 號,執行步驟404 ;若沒有功能模組被使用,電量檢測模 組20則未接收到檢測信號,執行步驟430。 上述步驟持續執行,直至移動通訊終端200關機。 請參看圖4,在另一實施方式中,移動通訊終端200的電量 控制方法包括如下步驟: 步驟502,功耗運算模組60接收用戶設定的時間。 步驟504,電量檢測模組20檢測電源10的剩餘電量。 步驟506,功耗運算模組60根據用戶設定的時間和當 15 200906153 前電源ίο的剩餘電量計算出參考功耗。 步驟508 ’功粍運算模組6〇計算預設級別最高的功能 模組80„的功耗。 V 〇比較模組7 〇判斷預設級別最rfj的功能模組 80n的功耗是否大於參考功耗,若預設級別最高的功能模 ,80n的功耗大於參考功耗,則進入步驟512 ;若預設級別 取咼的功能模組8〇n的功耗不大於參考功耗則進入 514 ° 乂驟512功耗運算模組60根據當前電源1〇的剩餘電 里和預5又級別取鬲的功能模組%的功耗,計算出移動通 訊終端200的最長的使用時間,並啟動提示模組 最長的使用時間’不僅可以提示用戶移動通的 使用時間不能達到轨卞叶扣„ η旁新<罢人* 逛可以使用戶根據該使用時 設級別最高的功能广吏用時間表示僅保留預 的使用時間。m〜的情況下,移動通訊終端200 步驟514,比較模組70判斷預讯纺^丨曰古& i 队的功以否等於斷預 <級別取而的功能模組 組队的功耗等於參考功:耗’若預設級別最高的功能模 高的功能模組8Gn的功耗二=516 ;若預設級別最 步驟516,控制槎έ 於蒼考功耗,進入步驟训。 能模組88〇1、8〇2 _非最高預設級別的所有功 步驟518,功红、笛μ 8〇2……80(n 1K 8Q &,拉組6〇計算出功能模組SOi、 (0耵的總功耗。 16 200906153 •步驟52〇 ,比較模組70判斷功能模組80 、 ' 8〇2……8〇(1^)、8〇n當前的總功耗是大於參考功耗,二、 能模組8〇i、8〇2……8〇(叫、8〇n當前的總功耗大於夂2 耗,則進入步驟522 ;若功能模組88〇i、8〇2 芩功 8〇n當前的總功耗小於或等於參考功耗,則進2二:驟二、。 步驟522,控制模組5〇 = 〇 <评刀月匕拉組80^、 8〇2……8〇(叫、8化中預設級別最低的功能模纽。 步獅’功耗運算模組60計算未 :的總功耗。 刀此棋.,且 步驟526,比較模組7〇判斷未被選擇 耗是否小於參考功耗,芒去诎嗯挪 彳、.且Θ7、,.心功 於夂者#目h 未被選擇的功能模組的總功耗大 Γ j 驟528;若未被選擇的耗電的功能模 組的總功耗小於或等於參考功耗,則進入步驟530 〜及= 氏Μ二制模組50選擇未被選擇的功能模組中預 I,及別取低的功能模組,並執行步㈣。 步驟530’關閉所選擇的功能模組。 步驟532,在用戶机中 用,該功能模組二内’若有功能模組被使 信號至電量檢測模組2〇二;=職,便發送-檢測 號,則執行步驟504 .4拉組2〇接收到該檢測信 能模組被使用,電量檢測 上述二則執行步驟奶。 奸由L 丁 直至移動通訊終端200關機。 终端;以利終端及其電量控制方法’移動通訊 '電源剩餘電量,並由用戶根據需要設 17 200906153 •定時間,還根據用戶設定的時 .該參考功耗和當前移動通訊终“二参考功耗;然後將 當前移動通訊終端總功耗大於來:者進行比較;並 端強制關閉級別較低的功能模&, ^’該移動通訊終 終端的功耗至參考功耗<失老 欠可以降低移動通訊 ™用時間至以延長移動通 訊終端不能達到用戶設定的時間時向用戶提= 汛終端取長的使用時間,從而 、 {的使用時間。 了从b楚移動通訊终端 【圖式簡單說明】 ==實施方式移動通訊終端的功能模組圖。 二::各功能模組相應的預設級別的示意圖。 法流=較佳實施方式料通料端的電量控制方 法流=為第二較佳實施方式移動通訊終端的電量控制方 【主要元件符號說明】 電量檢測模組 設定模組 功耗運算模組 功能模組 移動通訊終端 402-430 電源 1〇 20 40 60 8〇ι 〜80n 200 5〇2~5 32 電量提示條 30 控制模組 50 比較模組 70 提示模組 90 移動通訊終端的電量控制方法流程 18The N functional modules 8CH power supply 10 are functional modules SOi, 80, 〇π 帝 旦, 80 (η-ι), 80η power supply. The electrical reading module 20 is configured to detect the remaining power of the power source 1〇. The battery indicator bar 30 is used to display the remaining battery state of the power source 1〇. At 80 °, see Figure 2, which is a schematic diagram of the preset level corresponding to the function module, ....8〇(η-υ, 8〇n, where the modules 80i, 802...80(^ ), 80 eight is ancient. () n knife has a preset level, and the preset level of each function is arranged from low to high, and the function module calls the highest preset level, and the function module 8 〇n is only turned off when the mobile communication terminal is turned off. In this implementation, each function module corresponds to a preset level respectively, that is, there are (four) presets (four), and in other application examples, multiple function modes may be corresponding. A preset level, that is, there are preset levels, wherein Μ is a natural number, and Μ<Ν. According to the remaining battery state displayed by the battery bar 30, the user can roughly know the remaining power of the current power source 1(). If the user is worried that the usage time of the mobile communication terminal 200 cannot reach the time required by the user, the user can set the time required by the user through the setting module 40 to set the module 40 to generate a time signal. After the nose module 60 receives the time signal According to the time set by the user and the remaining power of the current power source 10, the reference power consumption is calculated, and the reference power consumption indicates the amount of power consumed by the mobile communication terminal 200 in order to reach the time set by the user in a unit time. The group 60 also calculates the power consumption of the function module 80n having the highest preset level, and the current total power consumption of the function modules 801, 802, ... 80n. The comparison unit 70 firstly consumes the power consumption of the function module 80n having the highest preset level. Compared with the reference power consumption, if the power consumption of the function module 80n with the highest preset level is less than the reference power consumption, the comparison unit 70 continues to use the current total of the function modules 801, 802, ..., 80(n-1), 80n. The power consumption is compared with the reference power consumption; if the current total power consumption of the function modules 801, 802...80(n-1), 80n is greater than the reference power consumption, the comparison unit 70 sends a trigger signal to the control module 50. After receiving the trigger signal, the control module 50 turns off the corresponding function module according to the preset level of each function module from low to high, until the total power consumption of the remaining function modules is less than or equal to the reference power consumption. .specifically The control module 50 turns off the function module 801 with the lowest preset level; the power consumption calculation module 60 calculates the total power consumption of the remaining function modules 802...80(η-1), 80η; the comparison module 70 compares the total power consumption of the remaining functional modules 802...80(η-1), 80η with the reference power consumption; if the remaining functional modules 802 ... 80 (η- 1) The total power consumption of 80n is less than or equal to the reference power consumption, and the remaining functional modules 802...80(η-1) and 80η are all working normally; if the remaining function π 200906153 杈 group 8〇2f.:· 8总(n]), 8〇n total power consumption is greater than the reference power consumption, control wide 'group 50' will continue to close the remaining function module 80 ^ the lowest function module 802, in order: 80 " intermediate equals or Less than the reference power consumption. (4) The total power consumption of the H group is the above-mentioned example t, the control dragon, the _ off the step-by-step closing mode, and the corresponding power group in the j Closing the corresponding force month can be closed at the same time. Specifically, the group 50 selects the Guben camp soil and the wood group 801 with the lowest preset level, and the power consumption computing module 60 忙 忙 忙 功能 功能 功能 。. ,,,, ί 1 L Γ The selected function module is called... 8〇(nl) ^80 ^8〇〇Λ bb 乂, right unbroken function module (4), δ0η current total The power consumption is small, and the control module 50 turns off the selected function. (4) The function module 802... 80(ηη, 8() meters, the right is not selected Μ (1} 8〇 The total power consumption is greater than the reference power consumption. The control group 50 continues to operate the power module 802.... δ〇 (η-υ, 80n command selects the preset level most · 5 Go to 妯 妯 摇 取 取 取 取 取 取 取 取 取 取 取 取 取 取 取 取 取 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 If, after the user's function module is used, the function modules will stop using and enter the standby state, and then a test will be generated. The test will be triggered to trigger the power detection module == remaining power, power consumption calculation mode _ Recalculation ^ This avoids the power reading of the function module (4) ❹ & the mobile communication terminal 2 (10) still uses the original reference power consumption as the condition of the 12 200906153 • closed function module. ' In addition, when When the mobile communication terminal 200 is used, if the user has not set the time, the various functional modules of the mobile communication terminal 200 work normally until the mobile communication terminal 200 is turned off. Further, when the mobile communication terminal 200 is used, if the user Set the time, the second pre-function: the total power consumption of the highest-level function module is equal to the reference power consumption: two controls: the chest directly turns off the non-highest preset level of all the high-level functional modules, the power consumption is large, but the pre- Set the time set by the most household level. Therefore, the power consumption to the power consumption group 60 is the highest according to the preset level = the power consumption of the model n and the remaining power of the current power supply 1 = the longest communication terminal 200 The use of 眛, 斤出出, s 曰 ,], the sub-start prompt module 90 outputs the private communication terminal 200 for the longest time, the longest use of the mobile communication terminal 200, „ can only use 蚌π ... can also be based on the above-mentioned longest use of 'reset' - personal module, effectively reduce the interval to close the corresponding function _ private communication terminal 200 total power consumption, thereby extending the overnight communication terminal 200 Referring to FIG. 3, the mobile path includes the following steps: the power control method flow through the gateway Λ, ^2 (Κ), step 402, the power consumption 槿 槿 建 建 建 拉 60 group 60 receives the user set time : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : :疋 和 和 13 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 2009 If the power consumption of the function mode δ〇η with the highest preset level is greater than the reference power consumption, step 412 is performed; if the power consumption of the function module 80n of the preset level is not greater than the reference power consumption, the process proceeds to step 414. .曰步私412, the power consumption difference module 60 calculates the mobile terminal, the longest material between the terminals 200 according to the power consumption of the current power source 10 and the power module δ〇η of the highest preset level. And the prompting module 9 () outputs the longest use day guard 'not only can prompt the user that the mobile communication terminal 2 使用 can not reach the set time', but also allows the user to reset the appropriate time according to the use time. The longest usage time indicates that the mobile communication terminal 2 is used only when the function module 80 having the highest preset level is retained. In step 414, the comparison module 70 determines the function module having the highest preset level. Whether the power consumption of n is equal to the reference power consumption, if the power consumption of the function module 80n with the highest preset level is equal to the reference power consumption, the process proceeds to step 416; if the power consumption of the function module 80n with the highest preset level is not equal to the reference power consumption 'Entering step 418. Step 416, the control module 50 turns off all the function modules 8〇ι, 8〇2...80 (n_υ.) of the non-highest preset level. Step 418, power consumption calculation module 6〇 Calculate the total power consumption of the function modules 8〇ι, 8〇2, ..., 80„. Step 420 'Compare module 7〇 judgment function modules 8〇1, 8〇2..., 80n The current total power consumption is greater than the reference power consumption. If the power is 14 200906153, the module 8 01, 8 0 2...8 Ο (η _ , 8 Ο η when the total power consumption is greater than the reference power consumption, Then, the process proceeds to step 422. If the current total power consumption of the function modules 80!, 802...80 (n_υ, 80η is less than or equal to the reference power consumption, then step 430 is entered. 422, the control module 50 closes the function module 80!, 8〇2...80(9), and the 80nt preset function module is the lowest. Step 424, the power consumption calculation module 60 calculates the total power consumption of the remaining function modules. Step 426: The comparison module 70 determines whether the total power consumption of the remaining function modules is greater than the reference power consumption. If the total power consumption of the remaining function modules is greater than the reference power consumption, then step 428 is entered; if the remaining function modules If the total power consumption is less than or equal to the reference power consumption, the process proceeds to step 430. In step 428, the control module 50 turns off the function module with the lowest preset level among the remaining function modules, and performs step 424. Step 430, in the user setting During the time, if a function module is used, the function module stops using the standby state, and then sends a detection signal to the power detection module 20, and the power detection module 20 receives the detection signal, and performs step 404; If no function module is used, the power detecting module 20 does not receive the detection signal, and step 430 is performed. The above steps are continuously performed until the mobile communication terminal 200 is powered off. Referring to FIG. 4, in another implementation In the formula, the power control method of the mobile communication terminal 200 includes the following steps: Step 502: The power consumption calculation module 60 receives the time set by the user. In step 504, the power detection module 20 detects the remaining power of the power source 10. Step 506, power consumption The computing module 60 calculates the reference power consumption according to the time set by the user and the remaining power of the power supply ίο before 15 200906153. Step 508 'The power calculation module 6 〇 calculates the power consumption of the function module 80 „the highest level. V 〇 comparison module 7 〇 determines whether the power consumption of the function module 80n of the preset level most rfj is greater than the reference power consumption, and if the power mode of the highest level is greater than the reference power consumption, the function power of 80n is greater than the reference power consumption; If the power consumption of the function module 8〇n of the preset level is not greater than the reference power consumption, the process proceeds to 514 °. Step 512 The power consumption calculation module 60 takes the remaining power and the pre-5 level of the current power supply. The power consumption of the function module %, calculate the longest use time of the mobile communication terminal 200, and start the prompt use module for the longest use time' not only can prompt the user that the mobile communication time cannot reach the trajectory Buckle "η next to the new < strike people * visit allows the user to set the highest level of functionality officials widely expressed in time only to retain the pre-usage time is according to this use. In the case of m~, in step 514 of the mobile communication terminal 200, the comparison module 70 determines whether the power of the pre-synthesis spinning machine & the i team is equal to the power consumption of the function module teamed in the pre-level It is equal to the reference power: the power consumption of the function module 8Gn with the highest preset function level is 2 = 516; if the preset level is the most step 516, the control is controlled by the power consumption of Cang and enter the step training. The module 88〇1, 8〇2 _ is not the highest preset level of all the power steps 518, Gonghong, flute μ 8〇2...80 (n 1K 8Q &, pull group 6〇 calculate the function module SOi (0耵 total power consumption. 16 200906153 • Step 52〇, comparison module 70 judges that the total power consumption of the function module 80, '8〇2...8〇(1^), 8〇n is greater than the reference Power consumption, second, energy module 8〇i, 8〇2...8〇 (call, 8〇n current total power consumption is greater than 夂2 consumption, then go to step 522; if function module 88〇i, 8〇 2 芩 〇 8〇n The current total power consumption is less than or equal to the reference power consumption, then enter 2 2: Step 2. Step 522, control module 5 〇 = 〇 < evaluation knife 匕 组 group 80 ^, 8 〇 2...8〇 (called the lowest functional level of the preset level in the 8th. The lion's power calculation module 60 calculates the total power consumption of the not: knife., and step 526, compare module 7 〇 Judgment whether the unselected consumption is less than the reference power consumption, and the total power consumption of the unselected function module is greater than that of the reference module. If the total power consumption of the unutilized power-consuming function module is less than or equal to the reference For power consumption, go to step 530~ and == Μ2 module 50 to select pre-I in the unselected function module, and take the lower function module, and perform step (4). Step 530' close the selected The function module is as follows: Step 532 is used in the user machine, if the function module is enabled to send a signal to the power detecting module 2; if the job is sent, the detecting number is executed, and then step 504 is performed. .4 pull group 2〇 received the detection signal module is used, the power detection is performed in the above two steps. The rape is turned off by L until the mobile communication terminal 200 is shut down. Terminal; Eli terminal and its power control method 'mobile communication 'The remaining power of the power supply, and set by the user according to the need. 17 200906153 • Set the time, also according to the time set by the user. The reference power consumption and the current mobile communication end "two reference power consumption; then the total power consumption of the current mobile communication terminal is greater than : The comparison is performed; the parallel end is forced to close the lower level function module &, ^ 'the power consumption of the mobile communication terminal to the reference power consumption < the old age can reduce the mobile communication TM time to extend the mobile communication terminal Do not When the time set by the user can be reached, the user can use the terminal to take the long use time, and thus the usage time of the user. The mobile communication terminal of the mobile communication terminal [simple description] == implementation mode mobile communication terminal function module Fig. 2: Schematic diagram of the corresponding preset level of each functional module. Method flow = preferred embodiment of the material flow control method flow = the second preferred embodiment of the mobile communication terminal power control party [main components Explanation of Symbols] Power Detection Module Setting Module Power Consumption Calculation Module Function Module Mobile Communication Terminal 402-430 Power Supply 1〇20 40 60 8〇ι 〜80n 200 5〇2~5 32 Battery Tip Bar 30 Control Module 50 Comparison module 70 prompt module 90 mobile communication terminal power control method flow 18