摘要:
A method for designing a system includes determining minimum and maximum delay budgets for connections. Routing resources are selected for connections in response to the minimum and maximum delay budgets.
摘要:
A method for designing a system includes determining minimum and maximum delay budgets for connections. Routing resources are selected for connections in response to the minimum and maximum delay budgets.
摘要:
A method for designing a system includes generating minimum and maximum delay budgets for connections from long-path and short-path timing constraints. The system is designed in response to the minimum and maximum delay budgets.
摘要:
A headrest assembly (212) for supporting a face of a user (16) of a massage device (10) includes a support frame (226) and a resilient assembly (220). The support frame (226) is coupled to the massage device (10). The resilient assembly (220) supports the face of the user (16). The resilient assembly including a resilient subassembly (258) having an interior resilient region (472) and an outer covering (474) that surrounds and protects the interior resilient region (472). The outer covering (474) can include a bottom section (474C) that is made of a stretchable material. The bottom section (474C) can couple the resilient subassembly (258) to the rest of the headrest assembly (12) in a nonskid fashion.
摘要:
A headrest assembly (212) for supporting a face of a user (16) of a massage device (10) includes a resilient assembly (220) and a support arm assembly (222). The resilient assembly (220) supports the face (13) of the user. The support arm assembly (222) couples the resilient assembly (220) to the massage device (10). The support arm assembly (222) can include a first support arm (228) that selectively engages a headrest receiver assembly (15) of the massage device (10), a spaced apart second support arm (230) that selectively engages the headrest receiver assembly (15), and an arm connector (232) that couples the support arms (228) (230) together. The arm connector (232) can inhibit relative pivoting of the support arms (228) (230) when the support arms (228) (230) are not engaging the headrest receiver assembly (15).
摘要:
A convertible furniture assembly (10) for positioning on a floor (18) includes a furniture frame (20), a top assembly (22), and a mover assembly (24). The furniture frame (20) engages the floor (18). The top assembly (22) is generally flat. The mover assembly (24) couples the top assembly (22) to the furniture frame (20). The mover assembly (24) allows the top assembly (22) to move between a furniture configuration (12) in which top assembly (22) and the furniture frame (20) cooperate to define a piece of furniture, and a massage configuration (14) in which the top assembly (22) provides a generally flat massage upper surface (16B) for supporting a person during a massage. For example, the top assembly (22) can positioned a greater distance from the floor (18) in the massage configuration (14) than in the furniture configuration (12). With this design, the furniture assembly (10) easily converts between the piece of furniture in the furniture configuration (12) and the massage table in the massage configuration (14). As a result thereof, the furniture assembly (10) has multiple functions.
摘要:
A massage table for supporting a person above a surface during a massage includes a leg assembly and a table top assembly. The leg assembly engages the surface. The table top assembly supports the person and is supported above the surface with the leg assembly. The table top assembly includes a first table top having a frame base and a border flange. The frame base includes a generally rigid base support and a plurality of spaced apart base apertures that extend through the base support. With this design, in certain embodiments, the massage table is relatively light weight while maintaining the desired strength characteristics.
摘要:
A connector assembly for connecting a daughter printed circuit board having an internal ground plane layer to a backplane including a daughter board connector element including a plurality of first signal contacts connected to signal lines on a surface of the daughter board near the bottom of the daughter board, the signal contacts extending outward from the surface and downward, and a ground contact electrically connected to the internal ground plane layer, the ground contact extending along the bottom of the daughter board so as to overlap a plurality of the signal contacts and having an elongated exposed lower contacting portion, and a backplane connector element including a plurality of second signal contacts arranged for mating with respective first signal contacts and an elongated bus bar aligned for contacting the mating portion.
摘要:
A headrest assembly (212) for supporting a face of a user (16) of a massage device (10) includes a support frame (226) that is coupled to the massage device (10), and a resilient assembly (220) that supports the face of the user (15) and that is coupled to the support frame (226). The resilient assembly (220) includes an interior resilient region (472) and an outer covering (474) that surrounds and protects the interior resilient region (472). The interior resilient region (472) includes a first layer (472A) and a second layer (472B), with the first layer (472A) being stacked on top of the second layer (472B). The first layer (472A) can have a first stiffness that is different than a second stiffness of the second layer (472B). Further, the first layer (472A) can have a first thickness (472C) that is different than a second thickness (472D) of the second layer (472B). Additionally, the second layer (472B) can include a plurality of cut-outs (472BC) that decrease the lateral stiffness of the second layer (472B).
摘要:
A headrest assembly (212) for supporting a face of a user (16) of a massage device (10) includes a support frame (226) and a resilient assembly (220). The support frame (226) is coupled to the massage device (11). The resilient assembly (220) includes a first resilient subassembly (256) that is coupled to the support frame (226), and a second resilient subassembly (258) that engages the first resilient subassembly (256). The first resilient subassembly (256) and the second resilient subassembly (258) cooperate and act in parallel to support the face of the user (16). The first resilient subassembly (256) can include a plurality of spaced apart resilient members (360).