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NxTest augments legacy military ATE 总被引:3,自引:0,他引:3
Typical military automatic test equipment (ATE) usually consists of a number of single channel stimulus and measurement devices connected to the UUT with a switch matrix, providing; traditional serial, parametric test with its lengthy test times. Functional test methodology tests a unit by simulating its environment and verifying that the unit operates correctly in that environment. This requires simultaneous stimulus and measurement capability not usually found in traditional military ATE. Boeing Support Systems is currently in the process of augmenting an existing military test station to provide functional test capability through the use of NxTest technology. This paper will discuss our approach to adding functional test capability to an existing piece of equipment. 相似文献
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This paper is a proposal for a future method of avionics data communication. The need for this proposal results from the shortcomings in the current avionics architecture, video distribution network, and in the MIL-STD-1553 data communication system. The separately wired video and data communication systems can be combined to save weight, which is especially critical for rotorcraft. Aircraft, once fielded, have limited capacity for modification and improvement due to fixed computer throughput and processing performance, network bandwidth, and space available in the avionics equipment bays. The changes proposed by this paper are to be made in conjunction with the replacement of the redundant computer boxes with open system avionics functions on industry standard circuit cards. This open architecture approach was developed over the last ten years and is now being implemented in many aircraft applications including the F-22 and the RAH-66 programs. The V-22 rotorcraft, which although just entering production, is being modified for joint service customers where modern computer performance and expanded data network bandwidth is needed. The changes of this proposal will fill this need, reduce the weight of upcoming production models, and provide growth or spare capability so that additional video and data components can be added with minimal effect on existing components. This paper examines the current V-22 avionics video and data communication hardware and wiring and propose a new implementation of open system architecture standards with integrated digital video and data communication based on ANSI standard copper fibre channel 相似文献
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