Patent Application
20160268713
A motherboard is a main printed circuit board (PCB) responsible for many of the operations and functions of a computing system. As such, the motherboard may include various electrical components within a computing system, such as the central processing unit, memory, and may provide connectors for other peripherals.
In the accompanying drawings, like numerals refer to like components or blocks. The following detailed description references the drawings, wherein:
Including various electrical components on a motherboard takes up much space and volume which may limit space on the printed circuit board. Additionally, this may inhibit design flexibility of placement of the motherboard within a computing system. For example, the placement of the motherboard may be limited to areas within a computing system due to the space and volume constraints on the motherboard. Further, integrating a storage device onto the motherboard may include a separate connection to the motherboard which further impacts the space on the printed circuit board.
To address these issues, examples disclosed herein provide an assembly including a connector for securing a solid state device in an off motherboard location. The solid state device includes an electronic circuit which may provide storage and other functionality within a computing system. The off motherboard location is considered a physical location within the computing system different from a location of the motherboard. Securing the solid state device in the off motherboard location, provides flexibility to design and placement of the solid state device. This flexibility may also provide better space utilization further enabling an overall real estate reduction in a computing system. Further, securing the solid state device in the off motherboard location saves space and volume on the motherboard.
Additionally, the connector includes an electrical interface integrated with a power cable and a signal cable. The power cable provides power to the solid state device and the signal cable provides signals between the solid state device and the computing system. Providing signals and power between the solid state device and the computing system enables the connector to provide reliable electrical mating. Additionally, providing signals between the solid state device and the computing system enables the motherboard to communicate and/or access the so id state device even though the solid state device is located in a different area than the motherboard.
Further, the connector includes a mounting interface to secure the solid state device with the connector in the off motherboard location. The mounting interface brings together the connector and the solid state device providing electrical connections to the electrical interface integrated with the cables. Additionally, the mounting interface secures the solid state device to the connector in the off motherboard connection. This enables the connector with the mounting interface to be placed in several off motherboard locations within the computing system.
In another example discussed herein the solid state device provides storage within a server. In this example, a server chassis may receive the connector to align the solid state device in the off motherboard location. Providing storage within the server enables additional storage within the server when the motherboard may be limited in space. Additionally, the server chassis receiving the connector further provides flexibility to locate the connector and the solid state device where there may be available space.
In a further example discussed herein, the solid state device is located in the off motherboard location with a tolerance between the solid state device and the server chassis. The tolerance is a physical dimension of space between the solid state device and the server chassis. In this example, the server chassis may consist of an electrical conduction material, thus the tolerance may prevent the solid state device from grounding to the server chassis.
In summary, examples disclosed herein a flexible design through securing a solid state device in an off motherboard location. Securing the solid state device in the off motherboard location, saves space and volume on a motherboard which may provide overall better space utilization.
Referring now to the figures,
The connector 104 is an electrical device for bringing together electrical circuits as an interface using a mechanical assembly. The connector 104 includes the electrical interface 108 which integrates the power cable 116 and the signal cable 118. The connector 104 also includes the mounting interface 106 which connects the solid state device 110 to the connector 104. Including the electrical interface 108 and the mounting interface 106 as part of the connector 104, enables the connector 104 to form electrical connections between the solid state device 110 and the cables 116 and 118. In this implementation, the connector 104 provides reliable mating between electrical contacts on the solid state device 110 and the cables 116 and 118. In one implementation, the solid state device 110 may be directly connected into the connector 104. In this implementation, the solid state device 110 may be manually plugged into the mounting interface 106. Implementations of the connector 104 include an electrical connector, mechanical connector, power connector, or other type of assembly to provide reliable electrical contacts between the solid state device 110 and the cables 116 and 118.
The electrical interface 108 is a physical interface which joins the power cable 116 and the signal cable 118 to form part of the connector 104. The electrical interface 108 integrates the cables 116 and 118 to provide power and signals to the solid state device 110. Providing signals between the solid state device 110 and the computing system enables a motherboard to communicate and/or access the solid state device 110 even though the solid state device 110 is located in a different physical location from the motherboard.
The power cable 116 is an assembly which includes at least one electrical conductor used for a transmission of electrical power from a power supply (not illustrated) to the solid state device 110. In one implementation, the power cable 116 may be connected to the power supply in which to provide an electrical charge through the power cable 116 and to the solid state device 110. The solid state device 110 may serve as a storage device for the computing device, thus applying the electrical charge to the solid state device 110 enables operations, such as read and/or write data within the solid state device 110.
The signal cable 118 includes at least one transmission medium in which to transmit signals between the solid state device 110 and the computing system. In one implementation, the signal cable 118 is connected to the motherboard within the computing system to transmit signals between the motherboard and the solid state device 110.
The mounting interface 106 is a physical interface which brings together the solid state device 110 to the connector 104. The mounting interface 106 secures the solid state device 110 to the connector 104, thus enabling the off motherboard location of the solid state device 110. In one implementation, the mounting interface 106 includes a holding mechanism which securely holds the solid state device to the connector 104.
The solid state device 110 is a data storage device which may include integrated circuit assemblies as memory to store data persistently. As such, implementations of the solid state device 110 include flash-based memory, dynamic random access memory, solid state storage, hard drive, storage area, expansion card, or other type of memory capable of storing data persistently. In one implementation, the solid state device 110 may provide storage and other functionality within the computing device. In another implementation, the solid state device 110 includes an M.2 device which provides additional storage within the computing device. This implementation may provide a more flexible physical specification, thus reducing an overall real estate within a computing device. Although
The mechanical fastener 214 is a mechanical component that secures the solid state device 210 to prevent movement of the solid state device 210. Preventing movement of the solid state device 210 protects the solid state device 210 from suffering damage. In one implementation, the mechanical fastener 214 includes a holder in which the solid state device 210 slides into. In this implementation, a tolerance of physical space is between the underside of the solid state device 210 and the server chassis 212. This implementation is described in detail in the next figure.
The server chassis 212 is a frame for the server which receives the connector 204. The server chassis 212 aligns the solid state device 210 in the off motherboard location. In one implementation, the server chassis 212 may include a structure framework, mechanical guide, or other type of indicator in which to align the solid state device 210 to the server chassis 212. For example, in one implementation, the server chassis 212 may include a hole in which to guide the solid state device 210 to the accurate off motherboard location.
At operation 402, the power cable and the signal cable are integrated into the connector. The connector is an electrical component which provides electrical connections between components. Integrating the power cable and the signal cable into the connector provides electrical connections between the solid state device and the cables. Providing the electrical connections enables the solid state device to receive power and transmit and receive communications to and from other computing systems. The power cable is an assembly of at least one electrical conductor used for a transmission of the electrical power from a power supply to the solid state device. The signal cable is an assembly of at least one signal carrier used to transmit signals between the solid state device and another computing device. In one implementation, the signal cable carries signals between the solid state device and the motherboard. The connector is located in the off motherboard location which may include soldering and/or connecting the connector in the off motherboard location to support the connector with the integrated cables and the solid state device as at operation 404.
At operation 404, the solid state device is mounted with the connector in the off motherboard location. Mounting the solid state device with the connector enables the solid state device to connect with the connector and thus aligning the electrical contacts between the power cable, signal cable, and the solid state device in this manner, the connector brings together the solid state device and the cables. This enables the solid state device to transmit and receive power and other signals. Mounting the solid state device with the connector may include but should not be limited to placing, attaching, connecting, securing, coupling, combining, associating, linking, and/or joining. In one implementation, operation 404 may include securing the solid state device with a mechanical fastener. In another implementation, operation 404 may include aligning the solid state device with a server chassis.
At operation 502, the power cable and the signal cable are integrated into the connector. In operation 502, the connector is located in the off motherboard location. Placing the connector in the off motherboard location enables the off motherboard location for the cables and the solid state device. Operation 502 may be similar in functionality to operation 402 as in
At operation 504, the solid state device is located in the off motherboard location. In one implementation of operation 504, locating the solid state device in the off motherboard location includes providing a tolerance of space between the solid state device and the server chassis. In another implementation of operation 504 may include performing operation 510 to secure the solid state device with the mechanical fastener.
At operation 506, the solid state device is mounted in the connector in the off motherboard location. Operation 506 may be similar in functionality to operation 404 as in
At operation 508, the solid is aligned with the server chassis. In one implementation, the server chassis may include a structure framework, mechanical guide, or other type of indicator in which to align the solid state device to the server chassis. For example, the server chassis may include at least one hole in which to align to the solid state device. Aligning the solid state device to the server chassis, the method may proceed to operation 510 to secure the solid state device with a mechanical fastener to the server chassis.
At operation 510, the solid state device is further secured with the mechanical fastener to the server chassis. Securing the solid state device with the mechanical fastener prevents movement of the solid state device. In another implementation of operation 510, the server chassis receives the connector in which to align the solid state device in the off motherboard location.
At operation 512, the power cable provides power to the solid state device. In one implementation, the power cable may be connected to a power supply in which to provide an electrical charge to the solid state device. The solid state device may serve as a storage device for the server, thus applying an electrical charge to the solid state device may enable operations, such as read and/or write.
At operation 514, the signal cable integrated into the connector provides signals between the solid state device and the motherboard. Providing signals between the solid state device and the motherboard, enables communications between these devices so the motherboard may access storage within the solid state device.
In summary, examples disclosed herein a flexible design through securing a solid state device in an off motherboard location. Securing the solid state device in the off motherboard location, saves space and volume on a motherboard which may provide overall better space utilization.
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/US2013/076493 | 12/19/2013 | WO | 00 |
