The present disclosure describes a server computer system having a chassis, a carrier, and a pivot member configured to connect the carrier to the chassis. The pivot member further permits the carrier to rotate between a first position with a first carrier end within the chassis, and a second position with the first carrier end extending out of the chassis.

An electronics module mounting system includes a baseplate with a main wall, opposite left and right ends spaced apart from each other along an X axis, and opposite first and second spaced-apart edges extending between the left and right ends. The first and second edges are spaced apart along a Y axis. The baseplate includes a first channel that projects outwardly from the main wall and includes a mounting leg that projects outwardly from the main wall and that forms a mounting recess. A module mounting base is connected to the baseplate and includes a mounting tab located in the mounting recess. The mounting base includes a front face to receive and retain an electronics module and a rear face located opposite the front face. A channel recess is located in the rear face and extends between opposite left and right edges of the mounting base. The channel of the baseplate is located in the channel recess. The mounting base includes first and second electrical connectors that are aligned with each other and aligned with the channel recess. A fastener extends through the mounting base at a location aligned with the channel recess such that the fastener is engaged with the channel of the baseplate.

A vehicle power module assembly including an array of stacked switch unit assemblies, a front cover, first and second side rails, and an end cover is provided. Each of the assemblies may include a power stage frame having a mid-cutout located at a substantially central side frame region such that a mid-cutout region is defined along each side of the array. The front cover may be disposed at a first end of the array. The first and second side rails may each extend from the front cover and each may be disposed within one of the mid-cutout regions such that an outer surface of each side rail is substantially flush with an outer surface of a respective power stage frame. The end cover may be arranged with the front cover to retain the assemblies therebetween. The assembly may further include a clamping plate and a spring element.

An electronics module mounting system includes a baseplate with a main wall, opposite left and right ends spaced apart from each other along an X axis, and opposite first and second spaced-apart edges extending between the left and right ends. The first and second edges are spaced apart along a Y axis. The baseplate includes a first channel that projects outwardly from the main wall and includes a mounting leg that projects outwardly from the main wall and that forms a mounting recess. A module mounting base is connected to the baseplate and includes a mounting tab located in the mounting recess. The mounting base includes a front face to receive and retain an electronics module and a rear face located opposite the front face. A channel recess is located in the rear face and extends between opposite left and right edges of the mounting base. The channel of the baseplate is located in the channel recess. The mounting base includes first and second electrical connectors that are aligned with each other and aligned with the channel recess. A fastener extends through the mounting base at a location aligned with the channel recess such that the fastener is engaged with the channel of the baseplate.

A field controller adapter includes a bracket that includes a plate having a first side and a second side with a plurality of feet extending therefrom, and a connector assembly coupled to the second side. The connector assembly includes a circuit board, a terminal block coupled to the circuit board, and a connector coupled to the circuit board with a plurality of wires. The first side is configured to facilitate coupling a field controller thereto. The connector is configured to electrically couple the field controller to the circuit board. The plurality of feet are configured to engage with mounts on a housing of a base unit to facilitate mechanically coupling the bracket thereto. The terminal block is configured to engage with a corresponding terminal block on a base circuit board disposed within the housing of the base unit to electrically couple the circuit board to the base circuit board.

A vehicle power module assembly including an array of stacked switch unit assemblies, a front cover, first and second side rails, and an end cover is provided. Each of the assemblies may include a power stage frame having a mid-cutout located at a substantially central side frame region such that a mid-cutout region is defined along each side of the array. The front cover may be disposed at a first end of the array. The first and second side rails may each extend from the front cover and each may be disposed within one of the mid-cutout regions such that an outer surface of each side rail is substantially flush with an outer surface of a respective power stage frame. The end cover may be arranged with the front cover to retain the assemblies therebetween. The assembly may further include a clamping plate and a spring element.

A modularly assembled automation system includes a main unit with a plug-in bus port connector, a plurality of modules each with a plug-in bus connector and a plug-in signal connector, a backplane bus board in a layered structure with bus conductor tracks, a motherboard on which a plurality of connector elements are arranged, wherein the plug-in signal connectors of the modules are arranged in the connector elements and the connector elements are in electrical contact with conductor tracks of the motherboard, the bus conductor tracks and the layered structure of the backplane bus board are configured such that a layer stack forming the bus conductor tracks and core material contains features necessary for maintaining signal integrity of the signals on the backplane bus board and thus, with respect to the signal integrity of the signals on the backplane bus board, this is arranged separately on the motherboard.

An electronic box fastening mechanism includes a box body, a first hook, a second hook and a resilient hook. The box body includes a mounting surface. The first hook and the second hook are at two opposite sides of the mounting surface, and they form an installation space for receiving a guide rail. The resilient hook is at one side of the second hook. The resilient hook includes a resilient arm, a contact section and a deformation space. When pressed by the guide rail, the contact section bends toward the deformation space to allow the guide rail to be inserted in the installation space, the contact section resiliently contacts the guide rail by using an elastic restoring force of the resilient arm, and the first hook and the second hook block the guide rail, so that the guide rail is prevented from being detached from the installation space.

An electronics module includes a housing having a mounting foot or component suitable for mounting on a support rail and for fastening the electronics module to the support rail which is mounted on a mounting base. At least one spring element is provided in the lower region of the housing facing the mounting base when mounted. The at least one spring element is configured to provide a damping effect when the housing vibrates relative to the mounting base.

A control system for mounting to a vertically-extending rail. The control system includes a plurality of bases, each having a channel formed therein that is adapted for mounting to the rail. A plurality of modules are provided for removable mounting to the bases, respectively. Each module has circuitry for processing control signals and a housing enclosing the circuitry. At least a bottom end of each housing has openings therein to permit air to flow into the housing and over the circuitry. A plurality of air flow deflectors are provided for mounting to the bases, respectively. When the modules and the air flow deflectors are mounted to the bases, the air flow deflectors form pockets with the bottom ends of the modules. The pockets have enlarged openings disposed parallel to sides of the modules.