Abstract: A fluid cooled enclosure includes a fluid conduit that provides a fluid coolant path between sides of a housing. Optionally, the fluid conduit can provide bi-directional fluid coolant paths. In another example, an interface block can be provided with a first interface surface engaging an interface surface of a first end portion of the fluid conduit. In another example, a first end portion of the fluid conduit is fabricated with a first material composition and the interface block is fabricated with a second material composition that has a higher thermal conductivity than the first material composition. In further examples, methods of cooling a conduction cooled circuit module comprise the steps of mounting an interface block to a conduction cooled circuit module, mounting the interface block with respect to the fluid conduit, and cooling the electrical circuits of the conduction cooled circuit module by flowing fluid coolant through the fluid conduit.

Abstract: A circuit card apparatus includes a circuit card and a heat dissipation device in thermal contact with the circuit card at a thermal interface to conduct heat from the circuit card. An adjustable spacing element is adjustably coupled to one of the heat dissipation device and the circuit card. The adjustable spacing element is configured to be adjusted to set a minimum spaced distance between a portion of the circuit card and a portion of the heat dissipation device. A locking element is coupled to the adjustable spacing element to lock the minimum spaced distance. In further examples, methods of manufacturing a circuit card apparatus include the step of adjusting a spacing element to set the spaced distance as a minimum spaced distance between a portion of a heat dissipation device and a portion of a circuit card. The method further comprises the step of locking the minimum spaced distance.

Abstract: A tamper respondent module includes a basecard adapted to be inserted into a slot in a rack enclosure comprising at least one guide edge, at least one electrical coupler, a surface and at least one electronic component that contains information in an electronic format. In one example, an outer cover is coupled to the basecard and includes at least five sides. The outer cover is arranged in a covering relationship over the at least one electronic component. In another example, an anti-tamper apparatus is disposed between the outer cover and the surface. In another example, an anti-tamper circuit is electrically coupled to the at least one electronic component. In another example, a thermal frame is thermally coupled to the at least one electronic component.

Abstract: A tamper respondent module includes a basecard adapted to be inserted into a slot in a rack enclosure comprising at least one guide edge, at least one electrical coupler, a surface and at least one electronic component that contains information in an electronic format. In one example, an outer cover is coupled to the basecard and includes at least five sides. The outer cover is arranged in a covering relationship over the at least one electronic component. In another example, an anti-tamper apparatus is disposed between the outer cover and the surface. In another example, an anti-tamper circuit is electrically coupled to the at least one electronic component. In another example, a thermal frame is thermally coupled to the at least one electronic component.

Abstract: A tamper respondent module includes a basecard adapted to be inserted into a slot in a rack enclosure comprising at least one guide edge, at least one electrical coupler, a surface and at least one electronic component that contains information in an electronic format. In one example, an outer cover is coupled to the basecard and includes at least five sides. The outer cover is arranged in a covering relationship over the at least one electronic component. In another example, an anti-tamper apparatus is disposed between the outer cover and the surface. In another example, an anti-tamper circuit is electrically coupled to the at least one electronic component. In another example, a thermal frame is thermally coupled to the at least one electronic component.

Abstract: One or more heat pipes are connected between a component on a circuit card and the frame of a circuit card assembly for transfer of heat to the frame of the circuit card assembly. Circuit cards are typically held in place in channels in a chassis by an expansion type retention device. The circuit cards also include a heat frame for collecting the heat produced by the card components and channeling the heat from the card through the heat frame to the chassis. The retention device presses the heat frame in to thermal contact with one side of the channel. Heat collector can be attached to the heat generating components of a circuit card between the heat pipe and the component to provide improved thermal transfer. A number of heat collectors with pairs of heat pipes extending in opposite directions from the collector to the frame can be used to allow the heat pipes to effectively dissipate heat form the circuit card assembly regardless of the orientation of the circuit card assembly.