一種轉換器,特別是一種再生能源算力轉換器。A converter, in particular a renewable energy computing power converter.
先前技術的多數個處理器,裝置在規劃算力資源時,處理器越多耗電量越高、算力越高。 處理器越少,耗電量越低,算力越低。沒有整合式算力資源以及電力資源的有效交互管理。In most processors of previous technologies, when planning computing resources, the more processors a device has, the higher the power consumption and the higher the computing power. The fewer processors, the lower the power consumption and the lower the computing power. There is no effective interactive management of integrated computing resources and power resources.
先前技術再生能源,如太陽能板,都是利用密集安裝並利用逆變器架構來產生電力並併入電網,先前技術架構容易造成能源轉換效率不高,造成電力的浪費,所以再生能源大都是採用高密度安裝的方式才能有發電效益。Previous technologies for renewable energy, such as solar panels, all used dense installation and inverter architecture to generate electricity and connect it to the power grid. Previous technology architectures easily resulted in low energy conversion efficiency and waste of electricity, so renewable energy mostly uses high-density installation to achieve power generation efficiency.
本發明是一種再生能源算力轉換器, 包括:至少一處理器,執行算力運算;一電源管理模組,電性連結該至少一處理器、市電、內建的儲能設備、外接的備用電源、以及再生能源供應器,藉以控制電力分配;一通訊模組,電性訊號連結有線或無線的網路;一I/O介面,電性訊號連結遠端的主機、以及電器設備;一充電管理模組,電力分配充電至內建的該儲能設備;以及一任務分配器,電性連結該至少一處理器,當需要執行較高的算力運算輸出,該任務分配器會將需要計算運算的算力資源,分配到該至少一處理器的系統中,並經由該電源管理模組去分配電力資源,其中該任務分配器藉由算力資源控制電力資源,保持該至少一處理器算力運算最大化。The present invention is a renewable energy computing power converter, comprising: at least one processor, which performs computing power calculations; a power management module, which electrically connects the at least one processor, the mains, a built-in energy storage device, an external backup power supply, and a renewable energy supplier to control power distribution; a communication module, which electrically connects a wired or wireless network; an I/O interface, which electrically connects a remote host and electrical equipment; and a charging management module, which controls power distribution and charging. to the built-in energy storage device; and a task distributor electrically connected to the at least one processor. When a higher computing power output is required, the task distributor will distribute the computing power resources required for the calculation to the system of the at least one processor, and distribute the power resources through the power management module, wherein the task distributor controls the power resources through the computing power resources to maximize the computing power of the at least one processor.
以及一任務分配器,電性連結該至少一處理器,當需要執行較高的算力運算輸出,該任務分配器會將需要計算運算的算力資源,分配到該至少一處理器的系統中,並經由該電源管理模組去分配電力資源,其中該任務分配器藉由算力資源控制電力資源,保持該至少一處理器算力運算最大化。And a task distributor electrically connected to the at least one processor. When a higher computing power output is required, the task distributor will distribute the computing power resources required for the calculation to the system of the at least one processor, and distribute the power resources through the power management module, wherein the task distributor controls the power resources through the computing power resources to maximize the computing power of the at least one processor.
本發明是一種再生能源算力轉換器,其中該至少一處理器,當算力運算量大時,該電源管理模組,控制電力分配給該至少一處理器,當算力運算量小時,該電源管理模組,控制該充電管理模組,電力分配充電至內建的該儲能設備。The present invention is a renewable energy computing power converter, wherein the power management module controls the power distribution to the at least one processor when the computing power is large, and controls the charging management module to distribute the power to the built-in energy storage device when the computing power is small.
本發明是一種再生能源算力轉換器,其中相同的該再生能源算力轉換器,相串聯第1個該再生能源算力轉換器結構下,任務分配器執行任務分配到相同的該再生能源算力轉換器內,執行串聯結構下,整體串聯系統藉由算力資源控制電力資源,保持該至少一處理器算力運算最大化。The present invention is a renewable energy computing power converter, wherein the same renewable energy computing power converter is connected in series with the first renewable energy computing power converter structure, and the task distributor executes the task allocation to the same renewable energy computing power converter. When the series structure is executed, the entire series system controls the power resources through the computing power resources to maintain the maximum computing power operation of at least one processor.
本發明是一種再生能源算力轉換器,其中當內建的該儲能設備、外接的該備用電源、以及該再生能源供應器,都無電力供應時,啟動該市電供應電力給該再生能源算力轉換器、藉以控制電力分配保持該至少一處理器算力運算最大化。The present invention is a renewable energy computing power converter, wherein when the built-in energy storage device, the external backup power source, and the renewable energy supplier are all without power supply, the city power supply is activated to supply power to the renewable energy computing power converter, thereby controlling power distribution to keep the computing power of at least one processor maximized.
本發明是一種再生能源算力轉換器在規劃算力資源時會依照再生能源瓦數來規劃能安裝的處理器數量,本發明再生能源算力轉換器,處理器實際運作的數量,會依照電源管理模組與任務分配器,來交替控制算力資源、以及電力資源,保持該至少一處理器算力運算最大化。並達到市電、內建的儲能設備、外接的備用電源、以及再生能源供應器之間節能的有效能源控制。The present invention is a renewable energy computing power converter that plans the number of processors that can be installed according to the wattage of renewable energy when planning computing power resources. The renewable energy computing power converter of the present invention, the number of processors actually operating, will alternately control computing power resources and power resources according to the power management module and the task distributor to maximize the computing power operation of at least one processor. And achieve effective energy control for energy saving between the mains, built-in energy storage equipment, external backup power supply, and renewable energy supplier.
如圖1至圖3所示,本發明是一種再生能源算力轉換器10的實施例, 包括:至少一處理器13,執行算力運算;一電源管理模組15,電性連結該至少一處理器13、市電24、內建的儲能設備22、外接的備用電源23、以及再生能源供應器21,藉以控制電力分配;一通訊模組11,電性訊號連結有線或無線的網路;一I/O介面12,電性訊號連結遠端的主機31、以及電器設備32;以及一任務分配器14,電性連結該至少一處理器13,當需要執行較高的算力運算輸出,該任務分配器14會將需要計算運算的算力資源,分配到該至少一處理器13的系統中,並經由該電源管理模組15去分配電力資源,其中該任務分配器14藉由算力資源控制電力資源,保持該至少一處理器13算力運算最大化。其中,輸入設備的電器設備32,可以是監視器、水質監測感測器、環境監測的攝影機、或是影像辨識的攝影機321。但不以此為限。As shown in FIG. 1 to FIG. 3, the present invention is an embodiment of a renewable energy computing power converter 10, comprising: at least one processor 13, which performs computing power calculations; a power management module 15, which electrically connects the at least one processor 13, a mains 24, a built-in energy storage device 22, an external backup power supply 23, and a renewable energy supplier 21 to control power distribution; a communication module 11, which electrically connects a wired or wireless network; an I/O interface 12, which electrically connects a remote host 31 and an electrical device 3 2; and a task distributor 14, electrically connected to the at least one processor 13, when a higher computing power output is required, the task distributor 14 will distribute the computing power resources required for computing to the system of the at least one processor 13, and distribute the power resources through the power management module 15, wherein the task distributor 14 controls the power resources through the computing power resources to maximize the computing power of the at least one processor 13. Among them, the electrical device 32 of the input device can be a monitor, a water quality monitoring sensor, an environmental monitoring camera, or an image recognition camera 321. But it is not limited to this.
如圖1至圖3,本發明是一種再生能源算力轉換器10的實施例,其中該至少一處理器13,當算力運算量大時,該電源管理模組15,控制電力分配給該至少一處理器13,當算力運算量小時,該電源管理模組15,控制該充電管理模組16,電力分配充電至內建的該儲能設備22。As shown in Figures 1 to 3, the present invention is an embodiment of a renewable energy computing power converter 10, wherein the at least one processor 13, when the computing power calculation amount is large, the power management module 15 controls the power distribution to the at least one processor 13, and when the computing power calculation amount is small, the power management module 15 controls the charging management module 16 to distribute the power to charge the built-in energy storage device 22.
如圖4,本發明是一種再生能源算力轉換器10的實施例,其中相同的該再生能源算力轉換器10,相串聯第1個該再生能源算力轉換器10結構下,任務分配器14執行任務分配到相同的該再生能源算力轉換器10內,執行串聯結構下,整體串聯系統藉由算力資源控制電力資源,保持該至少一處理器13算力運算最大化。As shown in FIG4 , the present invention is an embodiment of a renewable energy computing power converter 10, wherein the same renewable energy computing power converter 10 is connected in series with the first renewable energy computing power converter 10, and the task distributor 14 executes the task distribution to the same renewable energy computing power converter 10. When the series structure is executed, the entire series system controls the power resources through the computing power resources to maintain the maximum computing power operation of the at least one processor 13.
如圖1至圖4,本發明是一種再生能源算力轉換器10的實施例,其中當內建的該儲能設備22、外接的該備用電源23、以及該再生能源供應器21,都無電力供應時,啟動該市電24供應電力給該再生能源算力轉換器10、藉以控制電力分配保持該至少一處理器13算力運算最大化。As shown in Figures 1 to 4, the present invention is an embodiment of a renewable energy computing power converter 10, wherein when the built-in energy storage device 22, the external backup power supply 23, and the renewable energy supplier 21 are all without power supply, the city power 24 is started to supply power to the renewable energy computing power converter 10, so as to control the power distribution to keep the computing power of at least one processor 13 maximized.
如圖1至圖4,本發明是一種再生能源算力轉換器10的實施例,其中每一組模組都有自己的內建的該儲能設備22和運算單元 而每個模組間又可以用通訊方式連接,這樣可以節省到主機31(如PC)的接線。 外部電源沒有的要求,直接供電即可。其中通訊模組11連接到主機31,讓主機31和再生能源算力轉換器10的模組連線,分配計算工作。其中 I/O介面12的用途是,如果不是連接主機31,也可以獨立運作,例如現在有一個水質監控的需求,可以連接一個水質感測器(SENSOR)到再生能源算力轉換器10的模組, 這樣就可以自己運算監控, 並利用無線連接方式將結果送出,不用其他主機31或是網路線。通訊通訊模組11的接口,可連接到下一級的通訊模組11的接口,例如,5個模組的模組間,可以自行連接,對接到主機31只要一條網路線即可。As shown in Figures 1 to 4, the present invention is an embodiment of a renewable energy computing power converter 10, in which each module group has its own built-in energy storage device 22 and computing unit, and each module can be connected by communication, which can save the wiring to the host 31 (such as a PC). There is no requirement for external power supply, and direct power supply is sufficient. The communication module 11 is connected to the host 31, allowing the host 31 and the module of the renewable energy computing power converter 10 to be connected to distribute computing work. The purpose of the I/O interface 12 is that if it is not connected to the host 31, it can also operate independently. For example, if there is a need for water quality monitoring, a water quality sensor (SENSOR) can be connected to the module of the renewable energy computing power converter 10, so that it can perform calculations and monitoring by itself, and send the results using a wireless connection without other hosts 31 or network cables. The interface of the communication module 11 can be connected to the interface of the communication module 11 of the next level. For example, the modules of 5 modules can be connected to each other by themselves, and only one network cable is needed to connect to the host 31.
以上之敘述以及說明僅為本發明之較佳實施例之說明,對於此項技術具有通常知識者當可依據以下所界定申請專利範圍以及上述之說明而作其他之修改,惟此些修改仍應是為本發明之創作精神而在本發明之權利範圍中。The above description and explanation are only the description of the preferred embodiment of the present invention. Those with ordinary knowledge in this technology can make other modifications according to the scope of the patent application defined below and the above description. However, these modifications should still be within the scope of the invention's creative spirit and within the scope of the invention.
10:再生能源算力轉換器10: Renewable Energy Computing Power Converter
11:通訊模組11: Communication module
12:I/O介面12:I/O Interface
13:處理器13: Processor
14:任務分配器14:Task Dispatcher
15:電源管理模組15: Power Management Module
16:充電管理模組16: Charging management module
21:再生能源供應器21: Renewable energy supplier
22:儲能設備22: Energy storage equipment
23:備用電源23: Backup power supply
24:市電24: City electricity
31:主機31:Host
32:電器設備32: Electrical equipment
321:攝影機321:Camera
圖1本發明再生能源算力轉換器的結構示意圖。 圖2本發明再生能源算力轉換器的與遠端的主機組合示意圖。 圖3本發明再生能源算力轉換器的與攝影機組合示意圖。 圖4本發明再生能源算力轉換器的串聯組合示意圖。Figure 1 is a schematic diagram of the structure of the renewable energy computing power converter of the present invention.Figure 2 is a schematic diagram of the combination of the renewable energy computing power converter of the present invention and a remote host.Figure 3 is a schematic diagram of the combination of the renewable energy computing power converter of the present invention and a camera.Figure 4 is a schematic diagram of the series combination of the renewable energy computing power converter of the present invention.
10:再生能源算力轉換器10: Renewable energy computing power converter
11:通訊模組11: Communication module
12:I/O介面12: I/O interface
13:處理器13: Processor
14:任務分配器14:Task Allocator
15:電源管理模組15: Power management module
16:充電管理模組16: Charging management module
21:再生能源供應器21: Renewable energy supplier
22:儲能設備22: Energy storage equipment
23:備用電源23: Backup power supply
24:市電24: City electricity
31:主機31: Host
32:電器設備32: Electrical equipment
| Application Number | Priority Date | Filing Date | Title |
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| TW113120051ATWI875601B (en) | 2024-05-30 | 2024-05-30 | Renewable energy computing power converter |
| Application Number | Priority Date | Filing Date | Title |
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| TW113120051ATWI875601B (en) | 2024-05-30 | 2024-05-30 | Renewable energy computing power converter |
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| TWI875601Btrue TWI875601B (en) | 2025-03-01 |
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| TW113120051ATWI875601B (en) | 2024-05-30 | 2024-05-30 | Renewable energy computing power converter |
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