High temperature avionic line replaceable units and aircraft systems containing the same

What is claimed is: 1. An avionic Line Replaceable Unit (LRU) configured to be removably mounted to an avionic LRU receptacle having a receptacle connector interface and a receptacle terminal array, the LRU comprising: a microelectronic device; an LRU housing, comprising: an inner cavity within which the microelectronic device is located; and an electrically-routed housing wall bounding a portion of the inner cavity and to which the microelectronic device is bonded; an LRU connector interface projecting from the LRU housing and having a first LRU terminal array electrically coupled to the microelectronic device through the electrically-routed housing wall, the LRU connector interface configured to matingly engage the receptacle connector interface when the avionic LRU is removably mounted to the avionic LRU receptacle. 2. The avionic LRU of claim 1 wherein the electrically-routed housing wall comprises: a first principal surface to which the microelectronic device is bonded; and a second principal surface opposite the first principal surface as taken along a centerline of the avionic LRU, the first LRU terminal array extending from the second principal surface of the electrically-routed housing wall. 3. The avionic LRU of claim 2 wherein the LRU connector interface comprises an annular collar extending around the first LRU terminal array, as taken about the centerline of the avionic LRU. 4. The avionic LRU of claim 3 wherein the annular collar terminates adjacent and extends away from the second principal surface of the electrically-routed housing wall along the centerline of the avionic LRU. 5. The avionic LRU of claim 1 wherein the LRU housing comprises: a main housing body bounding a periphery of the inner cavity and having an open end portion; and a cover piece positioned over the open end portion to sealingly enclose the inner cavity. 6. The avionic LRU of claim 5 further comprising a bond layer joining the cover piece to the main housing body and forming a hermetic seal therebetween, the bond layer composed predominately of inorganic materials by weight. 7. The avionic LRU of claim 6 wherein the bond layer is essentially free of organic materials. 8. The avionic LRU of claim 1 wherein the LRU housing comprises a main housing body bounding a periphery of the inner cavity; and wherein the LRU connector interface comprises a guide member projecting from the main housing body in a direction away from the electrically-routed housing wall, the LRU connector interface physically engaging the receptacle connector interface when the avionic LRU is removably mounted to the avionic LRU receptacle. 9. The avionic LRU of claim 8 wherein the guide member and the main housing body are integrally formed as a single ceramic structure. 10. The avionic LRU of claim 1 wherein the LRU housing comprises a main housing body bounding a periphery of the inner cavity, the main housing body having an inner annular ledge on which the electrically-routed housing wall seats. 11. The avionic LRU of claim 10 further comprising a bond layer joining the electrically-routed housing wall to inner annular ledge and forming a hermetic seal therebetween, the bond layer composed predominately of at least one inorganic material by weight. 12. The avionic LRU of claim 1 wherein the electrically-routed housing wall comprises: electrically-conductive routing features electrically coupling the microelectronic device to the first LRU terminal array; and an inorganic dielectric body in which the electrically-conductive routing features are at least partially embedded. 13. The avionic LRU of claim 1 further comprising a second LRU connector interface located substantially opposite the first LRU connector interface as taken along a centerline of the avionic LRU. 14. An avionic Line Replaceable Unit (LRU), the LRU comprising: a microelectronic device; an LRU housing enclosing a hermetically-sealed cavity in which the microelectronic device is located; an LRU connector interface projecting from the LRU housing and having a LRU terminal array electrically coupled to the microelectronic device; and a ceramic carrier containing electrical routing features electrically coupling the microelectronic device to the LRU terminal array, the ceramic carrier forming a wall of the LRU housing. 15. The avionic LRU of claim 14 wherein the ceramic carrier comprises: an inner principal surface to which the microelectronic device is bonded; and an outer principal surface from which the LRU terminal array projects. 16. The avionic LRU of claim 15 wherein the LRU connector interface further comprises an annular collar circumscribing the LRU terminal array and extending away from the outer principal surface substantially parallel to the LRU terminal array. 17. The avionic LRU of claim 15 further comprising a bonding material joining the annular collar to the outer principal surface of the ceramic carrier, the bonding material predominately composed of at least one inorganic material by weight. 18. The avionic LRU of claim 13 wherein the LRU housing further comprises: an upper edge portion; a cover piece positioned over the upper edge portion to sealingly enclose the hermetically-sealed cavity; and a hermetic bonding material joining the upper edge portion to the cover piece, the hermetic bonding material essentially free of organic materials. 19. A Line Replaceable Unit (LRU) containing aircraft system, comprising: a first avionic LRU, comprising: a LRU housing containing an inner cavity and an electrically-routed housing wall, which bounds a portion of the inner cavity; a first microelectronic device contained in the inner cavity and mounted to the electrically-routed housing wall; and a first LRU terminal array electrically coupled to the first microelectronic device through the electrically-routed housing wall; and a second avionic LRU configured to be removably mounted to the first LRU, the second LRU comprising: a second microelectronic device; and a second LRU terminal array electrically interconnected with the first LRU terminal array when the second avionic LRU is removably mounted to the first avionic LRU. 20. The LRU-containing aircraft system of claim 19 wherein the first microelectronic device comprises a semiconductor die on which control circuitry is formed, and wherein the second microelectronic device comprises one or more of the group consisting of avionic actuators and avionic sensors.