M241880 捌、新型說明 【新型所屬之技術領域】 本創作係關於一種可程式化電源輸出之不斷電裝置,特 別是指一種可藉由電腦、PDA或其他設備透過通訊介面加以 設定電源排程之不斷電裝置。 【先前技術】 一般習用之不斷電裝置(UPS),係在於輸入電源不正常 時,能瞬時由内部之電池電源加以轉換,接續電力傳送輸 出’以達到不斷電之功能;但是此類習用之不斷電裝置,大 多只擁有於斷電時可接續電力的功能,若要應用於系統整合 之輸出電源管理時,則習用之不斷電裝置皆無法單獨達成電 源的管理,必須藉由其他主機端與不斷電裝置以〇N-LINE的 方式加以配合,並由主機端來控制輸出電源的排程,當輸入 電源不正常時,則轉由不斷電裝置接續電力的供應,但排程 的控制仍需由主機端加以執行。 由此可見,上述習用不斷電裝置應用系統整合之電源管 理時仍有諸多缺失,實非一良善之設計者,而亟待加以改良。 本案創作人鑑於上述習用之不斷電裝置所衍生的各項缺 點,乃亟思加以改良創新,並經多年苦心孤詣潛心研究後, 終於成功研發完戒本件可程式化電源輸出之不斷電裝置。 【新型目的】 M241880 本創作之目的即在於提供一種可程式化電源輸出之不斷 電裝置’可應用於糸統整合的電源管理,藉由外部設備加以 没疋輸出電源之排程’並將該排程館存於不斷電裝置之排程 記錄器中,以達成輸出電源的管控。 本創作之次一目的係在於提供一種可程式化電源輸出之 不斷電裝置,另可δχ有一控置裝置,除可直接設定排程外, 並可即時控制電源的輸出狀態。 本創作之另一目的係在於提供一種可程式化電源輸出之 不斷電裝置,該控制裝置之權力高於原先設定之電源輸出的 排程狀態,使得於緊急狀況時,可由該控制裝置立即設定電 源是否輸出。 本創作之又一目的係在於提供一種可程式化電源輸出之 不斷電裝置,無論輸入電源是否正常,皆可依照所設定之電 源輸出的排程,輸出電源至設備端。 【技術内容】 可達成上述新型目的之可程式化電源輸出之不斷電裝 置’其中包括有:一通訊介面、一微處理器、一排程記錄器、 時鐘產生器、一輸入電壓電流偵測電路、一 DC/AC轉換器、 一電池、一充電電路、一切換開關以及輸出電源控制開關; 本創作可利用電、竭、PDA或其他設備,透過通訊介面加以設 定電源輸出之排程,並由微處理器將所設定之棑程儲存於排 M241880 程記錄器中,藉由時鐘產生器的時間與排程記錄器之排程加 以配合,以控制輸出電源控制開關是否輸出電源;當外部輪 入之電源不正常時,可由内部之電池電源透過轉換後,將電 源依照設定的排程加以輸出。 【實施方式】 請參閱圖一所示,本創作之輸入電源係接於一般之AC電 源’並利用電腦、PDA或其他設備心定電源輸出之排程, 並將所設定之排程加以儲存於本創作之内部,以控制電源是 否輸出至設備端13;當外部輸人之AC電料正料,可由 内部之電池電源透過轉換後,將電源依照設定的排程加以輸 出至設備4 13 ;另外,本創作可增設—控制設肖丨2,可於 緊急需要時,直接由控制設備12加以控制電源是否輪出至 設備端13。 請參閱圖二所示,本創作所提供之可程式化電源輸出之 不斷電裝置,主要包括有··一通訊介面2(Π、一微處理器2〇2、 一排程記錄器203、一時鐘產生器204、一輸入電壓電流偵 測電路205、一 DC/AC轉換器206、一電池2(>7、一充電電路 208、一切換開關209以及輸出電源控制開關21〇;其中該切 換開關209係包括有a、b、c三個接點,該a點係接於一般 之AC電源,b點與DC/AC轉換器206相接,c點與輸出電源 控制開關21 0及充電電路208相接; 7 M241880 該輸入電壓電流偵測電路209,係偵測所接收之AC電 源’並將偵測結果送至微處理器202 ; 邊時鐘產生器204係用以產出時間資料,並將時間資料 送至微處理器202 ; 該通訊介面201係可與電腦、pDA或其他設備丨丨相連接, 且可藉由電腦、PDA或其他設備1丨加以設定排程,並透過該 通訊介面201將所設定之排程送至微處理器2〇2 ; 该排程記錄器203係用以存儲所設定之排程; 該電池207係與充電電路2〇8及DC/AC轉換器2〇6相接, 係用以接收充電電路2〇8之充電電源或將電源送至轉 換器; 田般輸入之AC電源正常時,該輸入電壓電流偵測器 205將感測結果送至微處理器2()2,並由微處理器⑼2送出 一控制訊號至切換開關209,使切換開關2〇9呈a、c兩點連 接之狀態,以將AC電源送至輸出電源控制開關21〇以及充 電電路208,且該微處理器m另料出_控制訊號使充電 電路208將充電電源送至電池謝充電;當輸入之ac電源 異常時,該輸入電壓電流镇測器2〇5將感測結果送至微處理 器202,並由微處理器2〇2送出一控制訊號至切換開關2〇9, 使切換開目209、呈b、c兩點連接之狀能,且該微處理器2〇2 另外送出一控制訊號至DC/AC轉換器2〇6,使此/舵轉換器 M241880 206將電池2〇7t源加以轉換後送至輸出電源控制開關21。; 該微處理器202係依據排程記錄器2〇3所儲存之排程, 加以控制輸出電 並配合時鐘產生器204所產生的時間資料, 源控制開關21 0是否將電源傳送至設備端; 另外,本創作除了所設定輸出電源之排程外,另可設有 -控置裝置211,該控置裝置211可為控制面板、控制開關 或其他相關控制裝置,除可直接藉由該控置裝置透過微處理 器202設定排程外,並可立即透過微處理器2〇2控制電源的 輸出以便即4控制電源輸出的狀態,且該控制裝置211之 權力南於原先設定之電源輸出的排程狀態,使得於緊急狀況 時,可由該控制裝置211立即設定電源是否輸出。 請參閱圖三所示,該排程記錄器2〇3或時鐘產生器2〇4 可直接設於微處理器中。 【特點及功效】 本創作所提供之可程式化電源輸出之不斷電裝置,與前 述引證案及其他習用技術相互比較時,更具有下列之優點·· 1 ·本創作提供一種可程式化電源輸出之不斷電裝置,可 應用於系統整合的電源管理,藉由外部設備加以設定輸出電 源之排程,並將該排程儲存於不斷電裝置之排程記錄器中, 以達成輸出電源的管控,不需另設一主機以〇N-LINE的方式 加以控制電源輸出的排程。 M241880 2 ·本創作提供一種可程式化電源輸出之不斷電裝置,另 可設有一控置裝置,除可直接設定排程外,並可即時控制電 源的輸出狀態。 3.本創作提供一種可程式化電源輸出之不斷電裝置,該 控置裝置之權力高於原先設定之電源輸出的排程狀態,使得 於緊急狀況時,可由該控制裝置立即設定電源是否輸出。 4 ·本創作提供一種可程式化電源輸出之不斷電裝置,無 哪輸入電源是否正常,皆可依照所設定之電源輸出的排程, 輸出電源至設備端。 上列詳細說明係針對本創作之一可行實施例之具體說 明,惟该實施例並非用以限制本創作之專利範圍,凡未脫離 本創作技藝精神所為之等效實施或變更,均應包含於本案之 專利範圍中。 綜上所述,本案不但在空間型態上確屬創新,並能較習 用物品增進上述多項功效,應已充分符合新穎性及進步性之 法定新型專利要件,爰依法提出申請,懇請貴局核准本件 新型專利申請案,以勵創作,至感德便。 【圖式簡單說明】 請參閱以下有關本創作一較佳實施例之詳細說明及其附 圖,將可進一步瞭解本創作之技術内容及其目的功效;有關 該實施例之附圖為: M241880 圖一為本創作可程式化電源輸出之不斷電裝置的之應用 實施示意圖; 圖二為該可程式化電源輸出之不斷電裝置之第一實施電 路方塊圖;以及 圖三為該可程式化電源輸出之不斷電裝置之第二實施電 路方塊圖。 【主要部分代表符號】 11電腦、PDA或其他設備 12控制設備 13設備端 201通訊介面 202微處理器 203排程記錄器 204時鐘產生器 205輸入電壓電流偵測電路 206 DC/AC轉換器 207電池 208充電電路 209切換開關 210輸出電源控制開關 211控置裝置M241880 新型, new type description [Technical field to which new type belongs] This creation is about a non-stop device with programmable power output, especially a power supply schedule that can be set by a computer, PDA, or other device through a communication interface UPS device. [Previous technology] Generally used uninterruptible power supply (UPS) is that when the input power is abnormal, it can be instantly converted by the internal battery power and connected to the power transmission output to achieve the function of uninterrupted power; but such conventional use Most of the uninterruptible power devices only have the function of connecting power when the power is off. If they are to be applied to the integrated power output management of the system, the conventional uninterruptible devices cannot achieve power management independently. The host side and the uninterruptible power supply cooperate with the ON-LINE mode, and the host side controls the scheduling of the output power. When the input power is abnormal, the uninterruptible power supply is connected to the power supply. Control of the process still needs to be performed by the host. It can be seen that there are still many shortcomings in the power management of the conventional uninterruptible device application system integration, which is not a good designer and needs to be improved urgently. In view of the various shortcomings derived from the conventional uninterruptible power device mentioned above, the creator of this case was eager to improve and innovate. After years of painstaking and meticulous research, he finally successfully developed or realized this programmable power output uninterruptible power device. [New purpose] M241880 The purpose of this creation is to provide a programmable power output uninterruptible device 'can be applied to integrated power management, the external device to schedule the output power' and The schedule hall is stored in the schedule recorder of the uninterruptible power device to achieve the control of the output power. The second purpose of this creation is to provide a programmable power output uninterruptible device. In addition, δχ has a control device. In addition to directly setting the schedule, it can also control the power output status in real time. Another purpose of this creation is to provide a programmable power output uninterruptible device. The power of the control device is higher than the original scheduled power output status, so that in an emergency, the control device can be set immediately. Whether the power is output. Another purpose of this creation is to provide a programmable power output uninterruptible device. Regardless of whether the input power is normal, it can output power to the device according to the set power output schedule. [Technical content] A programmable power output uninterruptible device that can achieve the above-mentioned new purposes, including: a communication interface, a microprocessor, a schedule recorder, a clock generator, and an input voltage and current detection Circuit, a DC / AC converter, a battery, a charging circuit, a switch, and an output power control switch; this creation can use electricity, exhaustion, PDA or other equipment to set the power output schedule through the communication interface, and The set process is stored in the scheduler M241880 by the microprocessor, and the time of the clock generator and the schedule of the scheduler are matched to control whether the output power control switch outputs power; when the external wheel When the input power is abnormal, it can be converted by the internal battery power and output the power according to the set schedule. [Implementation] Please refer to Figure 1. The input power of this creation is connected to a normal AC power source, and the schedule of the power output is determined by a computer, PDA, or other equipment, and the set schedule is stored in The interior of this creation is to control whether the power is output to the device 13; when the external AC power input is normal, it can be converted by the internal battery power and the power is output to the device 4 13 according to the set schedule; This creation can be added-control device Xiao 2, which can be directly controlled by the control device 12 to control whether the power is turned out to the device end 13 in an emergency. Please refer to Figure 2. The programmable power output uninterruptible device provided by this creation mainly includes a communication interface 2 (Π, a microprocessor 202, a schedule recorder 203, A clock generator 204, an input voltage and current detection circuit 205, a DC / AC converter 206, a battery 2 (> 7, a charging circuit 208, a changeover switch 209, and an output power control switch 21); of which The switch 209 includes three contacts a, b, and c. The point a is connected to a normal AC power source, the point b is connected to the DC / AC converter 206, and the point c is connected to the output power control switch 2 10 and charging. Circuit 208 is connected; 7 M241880 The input voltage and current detection circuit 209 detects the AC power received and sends the detection result to the microprocessor 202. The side clock generator 204 is used to generate time data. And send the time data to the microprocessor 202; the communication interface 201 can be connected with a computer, pDA or other equipment, and can be scheduled by a computer, PDA or other equipment, and through the communication The interface 201 sends the set schedule to the microprocessor 202; the schedule is recorded The recorder 203 is used to store the set schedule; the battery 207 is connected to the charging circuit 208 and the DC / AC converter 206, and is used to receive the charging power of the charging circuit 208 or to connect the power When the AC input power is normal, the input voltage and current detector 205 sends the sensing result to the microprocessor 2 () 2, and the microprocessor ⑼2 sends a control signal to the switch 209. So that the changeover switch 209 is in a state of two points a and c connected, so that the AC power is sent to the output power control switch 21 and the charging circuit 208, and the microprocessor m separately predicts that the control signal causes the charging circuit 208 Send the charging power to the battery and charge it. When the input AC power is abnormal, the input voltage and current tester 205 sends the sensing result to the microprocessor 202, and the microprocessor 202 sends a control signal. To the switch 20, to enable the switch to open the eye 209, the two points b, c can be connected, and the microprocessor 20 also sends a control signal to the DC / AC converter 206, so that / The rudder converter M241880 206 converts the battery 207t source and sends it to the output power control switch 21 .; The processor 202 is based on the schedule stored in the schedule recorder 203, controls the output power and cooperates with the time data generated by the clock generator 204. Whether the source control switch 2 10 transmits power to the device side; In addition to the schedule of the set output power, the creation can also be provided with a control device 211. The control device 211 can be a control panel, a control switch, or other related control devices. The processor 202 sets the schedule, and can immediately control the output of the power supply through the microprocessor 202 so that the state of the power output is controlled by 4, and the power of the control device 211 is lower than the originally set status of the power output. In an emergency situation, the control device 211 can immediately set whether the power is output. Please refer to FIG. 3, the schedule recorder 203 or the clock generator 204 can be directly set in the microprocessor. [Features and effects] When compared with the aforementioned citations and other conventional technologies, the uninterruptible power supply device with programmable power output provided by this creation has the following advantages. · 1 · This creation provides a programmable power supply The output uninterruptible device can be applied to the integrated power management of the system. The output power schedule is set by an external device, and the schedule is stored in the schedule recorder of the uninterruptible device to achieve the output power. Management and control, there is no need to set up another host to control the power output schedule in the ON-LINE manner. M241880 2 · This creation provides a programmable power output uninterruptible power supply device. It can also be equipped with a control device. In addition to directly setting the schedule, it can also control the power output status in real time. 3. This creation provides a programmable power output uninterruptible device. The power of the control device is higher than the original scheduled power output status, so that in an emergency, the control device can immediately set whether the power output . 4 · This creation provides a programmable power output uninterruptible device. No matter whether the input power is normal, you can output power to the device according to the set power output schedule. The above detailed description is a specific description of one of the feasible embodiments of this creation, but this embodiment is not intended to limit the scope of patents for this creation. Any equivalent implementation or change that does not depart from the spirit of this creation technique should be included in Within the scope of the patent in this case. In summary, this case is not only innovative in terms of space type, but also enhances the above-mentioned multiple effects over conventional items. It should have fully complied with the novel and progressive statutory new patent requirements, apply in accordance with the law, and ask your office for approval This new type of patent application is inspired by creativity and is of great virtue. [Brief description of the drawings] Please refer to the following detailed description of a preferred embodiment of the present invention and the accompanying drawings, which will further understand the technical content of this creation and its purpose and effect; the drawings related to this embodiment are: M241880 One is a schematic diagram of the application and implementation of a programmable power output for a non-stop device; Figure two is a block diagram of the first implementation of the programmable power output for a non-stop device; and Figure three is the programmable Circuit block diagram of the second embodiment of the uninterruptible power output device. [Representative symbols of main parts] 11 Computer, PDA or other equipment 12 Control equipment 13 Device side 201 Communication interface 202 Microprocessor 203 Schedule recorder 204 Clock generator 205 Input voltage and current detection circuit 206 DC / AC converter 207 Battery 208 charging circuit 209 switch 210 output power control switch 211 control device