Modular edge power systems
地域:
Taipei City
摘要
A modular edge power system is provided. The modular edge power system includes a housing and multiple edge modules. Each edge module is adapted to be removably inserted into the housing and provide, through a corresponding bus and with one or more power equipment submodules, power to one or more compute devices in a rack. Each bus is adapted to provide sufficient power to enable operation of every compute device in the rack.
說明書
The present application claims the benefit of U.S. Provisional Patent Application No. 62/784,352, filed Dec. 21, 2018, the entirety of which is incorporated herein by reference.
In typical data centers, such as those utilized in a cloud or edge architecture, compute devices (e.g., executing functions in virtualized environments, such as in virtual machines or containers, on behalf of client devices) are arranged in racks and power is delivered to each compute device in each rack by corresponding power electronics. Those power electronics may be integrated into each rack or located in one or more bays of the rack. If all or a portion of the power electronics in a rack fails or otherwise needs maintenance, the power to all of the compute devices in the rack may be interrupted, thereby reducing the ability of the data center to execute operations on behalf of client devices (e.g., pursuant to a service level agreement, in which the client agrees to pay a defined amount of money for a defined quality of service (QoS)). As such, the operator of the data center may forego a significant amount of money when performing maintenance operations on the power electronics in a rack.
In one aspect, the present disclosure provides a modular edge power system. The modular edge power system includes a housing and multiple edge modules. Each edge module is adapted to be removably inserted into the housing and provide, through a corresponding bus and with one or more power equipment submodules, power to one or more compute devices in a rack. Each bus provides sufficient power to enable operation of every compute device in the rack.
權利要求
The invention claimed is:1. A modular edge power system comprising:a housing having (i) a top and a bottom separated by a height of the housing, (ii) a first side and a second side separated by a width of the housing, and (iii) a front and a back separated by a depth of the housing; a plurality of bus assemblies; and a plurality of edge modules, each having (i) a length that extends substantially between the top and the bottom of the housing at one of the first side and the second side of the housing, and (ii) a width that extends at least partially between the front and the back of the housing, wherein each edge module further comprises:a plurality of power equipment submodules, wherein the plurality of power equipment submodules comprise:at least one rectifier submodule that includes circuitry configured to convert an alternating current into a direct current; and at least one battery submodule that includes circuitry configured to store energy; and a plurality of bays, wherein each bay is sized to receive one of the plurality of power equipment submodules therein, wherein each edge module is configured to supply power to a corresponding bus assembly of the plurality of bus assemblies, wherein each edge module is adapted to be removably inserted into the housing, wherein each edge module provides, through the corresponding bus assembly, power to one or more compute devices in a rack positioned outside the housing, and wherein each edge module is adapted to provide sufficient power to enable operation of every compute device in the rack such that when one edge module is removed, the remaining edge modules continue to supply the sufficient power to the compute devices in the rack, thereby providing redundancy in the edge modules to the modular edge power system. 2. The modular edge power system of claim 1 , further comprising the rack. 3. The modular edge power system of claim 2 , wherein the housing is configured to connect to a side of the rack. 4. The modular edge power system of claim 1 , further comprising circuitry to identify the edge modules and monitor an operational status of each edge module. 5. The modular edge power system of claim 4 , wherein the circuitry is further to provide, through a communication protocol, the operational status to a building management system. 6. The modular edge power system of claim 5 , wherein the circuitry is to provide the operational status through a simple network management protocol (SNMP). 7. The modular edge power system of claim 5 , wherein the circuitry is further to:determine, as a function of the monitored operational status, whether one of the edge modules should be replaced; and provide, in response to a determination that one of the edge modules should be replaced, an alert to the building management system that the edge module should be replaced. 8. The modular edge power system of claim 1 , further comprising circuitry to connect the housing to a second housing of a second modular edge power system having one or more additional edge modules. 9. The modular edge power system of claim 1 , wherein each bus is an Open Compute Project (OCP) bus. 10. The modular edge power system of claim 9 , wherein each edge module includes a connector configured to interface with and electrically couple to a corresponding one of the OCP buses. 11. The modular edge power system of claim 1 , wherein each bus is a 48 volt bus. 12. The modular edge power system of claim 1 , wherein the housing further comprises first guide rails proximate to the top and the bottom of the housing that are configured to guide each edge module into the housing. 13. The modular edge power system of claim 12 , wherein the first guide rails are configured to interface with second guide rails of each edge module. 14. A modular edge power system comprising:a housing having (i) a top and a bottom separated by a height of the housing, and (ii) a front and a back separated by a depth of the housing, the housing further comprising:first guide rails positioned proximate to the top and the bottom of the housing, the first guide rails extending at least partially from the front to the back of the housing; and a fixed edge assembly positioned proximate to the back of the housing, the fixed edge assembly further comprising a plurality of fixed bus assemblies; and a plurality of edge modules, each edge module having (i) a top and a bottom separated by a length of the edge module, and (ii) a front and a back separated by a width of the edge module, wherein each edge module further comprises:second guide rails positioned on the top and the bottom of the edge module, the second guide rails extending from the front to the back of the edge module; a plurality of connectors positioned on the back of the edge module that faces the fixed edge assembly; a plurality of power equipment submodules; and a plurality of bays sized to receive one of the plurality of power equipment submodule therein, wherein each edge module is adapted to be removably inserted into the housing by interfacing the second guide rails of the edge module with the first guide rails of the housing, wherein when each edge module is removably inserted into the housing, each edge module interfaces with the fixed edge assembly via the plurality of connectors being electrically coupled with a corresponding fixed bus assembly, wherein when each edge module is removably inserted into the housing, the length of each edge module extends substantially between the top and the bottom of the housing, wherein each edge module provides, through the corresponding fixed bus assembly, power to one or more compute devices in a rack, wherein each bus is adapted to provide sufficient power to enable operation of every compute device in the rack. 15. The modular edge power system of claim 14 , further comprising the rack. 16. The modular edge power system of claim 15 , wherein the housing is configured to connect to a side of the rack. 17. The modular edge power system of claim 14 , further comprising circuitry to identify the edge modules and monitor an operational status of each edge module. 18. The modular edge power system of claim 17 , wherein the circuitry is further to provide, through a communication protocol, the operational status to a building management system. 19. The modular edge power system of claim 18 , wherein the circuitry is to provide the operational status through a simple network management protocol (SNMP). 20. The modular edge power system of claim 18 , wherein the circuitry is further to:determine, as a function of the monitored operational status, whether one of the edge modules should be replaced; and provide, in response to a determination that one of the edge modules should be replaced, an alert to the building management system that the edge module should be replaced.
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