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Another Modular Focal Plane: Part 2
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Base-plate rib structure simpler than FEA model. 7. Focal plane ... wiring, baffles, shields. optimize design for loads and material (ribs, thicknesses, etc) ... – PowerPoint PPT presentation
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Title: Another Modular Focal Plane: Part 2
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Another Modular Focal PlanePart 2 FP assembly
- Bruce C. Bigelow
- University of Michigan
- Department of Physics
- 5/17/04
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Modular focal plane assembly
- Motivations
- install/remove single detectors from front of
FP - assemble detectors in modules of 3 x 3
- simplify assembly, integration, and test
- reduce part counts, simplify part design
- simplify part fabrication
- individual module thermal control (Vis vs. IR)
- optimize materials for detector packages (CTE)
- local, discrete control of focal plane surface
height - minimize mechanical mass
- minimize thermal time constants
- minimize gravity deflections for ground testing
- maximize resonant frequencies
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Focal Plane Baseplate
- Requirements
- final focal plane flatness /- 25 microns
- detector temperature stability /- 1K
- high stiffness high first resonance
- This talk
- sample base-plate designs
- two materials examined
- base-plate FEA
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FP Baseplate design and FEA
- Design of baseplate
- consider Al 7075 and Moly MZT materials
- three mounting points to optics bench via
bipods - bipods not included in design or FEA
- cut-outs for detector access
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Focal plane base-plate - front
Note webs in access holes not in FEA models
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Focal plane base-plate - back
Base-plate rib structure simpler than FEA model
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Focal plane fully populated
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FP Baseplate design and FEA
- FEA
- consider Al 7075 and Moly MZT materials
- Moly plate is 50 mm thick 31 Kg
- Al. plate is 75 mm thick 13 Kg
- sub-array loads modeled with point masses
- static and dynamic analyses completed
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FP Baseplate FEA
rib thickness red - 6 mm purple - 5 mm cyan
- 6 mm blue - 10 mm
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FP Baseplate FEA
sub-modules as point masses
1.0 kg
0.5 kg
16 Kg total sub- module mass
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FP Baseplate FEA Al 7075
(meters)
Gy, Y deflections 1.8 microns max
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FP Baseplate FEA Al 7075
(meters)
Gy, Z deflections 2.1 microns PV
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FP Baseplate FEA Al 7075
(meters)
Gz, Z deflections 4.8 microns
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FP Baseplate FEA Al 7075
- Mode/Freq.
- 227 Hz
- 238 Hz
- 261 Hz
- 325 Hz
- 522 Hz
Dynamic analysis first mode
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FP Baseplate FEA MZT
(meters)
Gy, Y deflections 0.8 microns PV
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FP Baseplate FEA MZT
(meters)
Gy, Z deflections 1.1 microns PV
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FP Baseplate FEA MZT
(meters)
Gz, Z deflections 4.2 microns PV
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FP Baseplate FEA MZT
- Mode/Freq.
- 249 Hz
- 258 Hz
- 290 Hz
- 491 Hz
- 654 Hz
Dynamic analysis first mode
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Baseplate FEA Summary
Mat. Mass Thick Gy-Uy Gy-Uz Gz-Uz Fn
Al 7075 13 Kg 75 mm 1.8um 2.1um 4.8um 227 Hz
MZT 31 Kg 50 mm 0.8um 1.1um 4.2um 249 Hz
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FP Modular Baseplate
- Conclusions
- sample designs stiff, high resonances
- flatness specs met in two orientations (and
probably all) - consider other substrate materials (Ti, CF)?
- refine interfaces
- spectrograph, BITE sources, cryostat mounts
- thermal links, detect. wiring, baffles, shields
- optimize design for loads and material (ribs,
thicknesses, etc)
