An engineered system is a system designed or adapted to interact with an anticipated operational environment to achieve one or more intended purposes while complying with applicable constraints. incose.org, accessed may 5, 2022 test station test system dut dut test fixture. Place high power units within the rack above the pxi system (s) where possible. use racks with open sides and or rear panels. use fan trays within the rack, including at the top and bottom of the rack, to increase overall air flow, which results in reduced ambient temperatures within the rack.
Developed by national instruments corp., ate core configurations help simplify the design, procurement, assembly, and deployment of smarter test systems at a lower cost and shorter time to market by empowering test organizations with a platform for standardization. the configurations are designed to let users obtain both instrumentation and. Ate core configurations streamline the design, procurement, assembly, and deployment of rack based automated test systems through standardized mechanical, power, and safety system infrastructure. these off the shelf systems reduce lead times and simplify standardization and global deployment. Figure 4 depicts the production test system from different viewpoints. figure 4.multiple views of a software defined production test system first the guide focuses on best practices for choosing your test system hardware. topics in this section range from making instrument decisions for your test system to choosing your rack type and power. Ate core configurations start with a simple idea: off the shelf rack assemblies with the mechanical, power and safety infrastructure as a launch platform for creating your test system. these 19 in. (24u and 40u) rack assemblies have three sets of mounting rails, removable side walls and an accessible rear door, so it shouldn’t be hard to plug.
Figure 4 depicts the production test system from different viewpoints. figure 4.multiple views of a software defined production test system first the guide focuses on best practices for choosing your test system hardware. topics in this section range from making instrument decisions for your test system to choosing your rack type and power. Ate core configurations start with a simple idea: off the shelf rack assemblies with the mechanical, power and safety infrastructure as a launch platform for creating your test system. these 19 in. (24u and 40u) rack assemblies have three sets of mounting rails, removable side walls and an accessible rear door, so it shouldn’t be hard to plug. The test system. for instance, not leaving enough empty space in the test rack can lead to a complete test system redesign, which can cost thousands of dollars and result in months of downtime. some key factors that you should consider when designing rack mounted test systems include rack type, rack size, power distribution within the enclosure. Ni (national instruments) reports that its new ate core configurations help simplify and accelerate the design, procurement, assembly and deployment of smarter ate (automated test equipment) systems at a lower cost and shorter time to market by empowering test organizations with a platform for standardization. ate core configurations deliver.
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