Single Detector Design

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Presentation transcript:

Single Detector Design

Single Detector Design

Single Detector Design Clamped to 3 mm thick ceramic Sits on six ceramic dowel pins Inner length 6.811” Inner width 0.945” Inner depth 0.305’’ from detector face to ground plane Thickness 0.031’’ (1 mm)

Dual Detector Design Same idea as single detector except with much less space to work with Strip line detector is two detectors on one piece of kapton. I used a “2 in 1” clamp design for the barrier between the two detectors. The tall middle barrier is placed with pins, then the ceramic is place on same pins then stripline is clamped down and the ends tack welded to the enclosure. See next slide for detail

Dual Detector Design Same idea as single detector except with much less space to work with Strip line detector is two detectors on one piece of kapton. I used a “2 in 1” clamp design for the barrier between the two detectors. The tall middle barrier is placed with pins, then the ceramic is place on same pins then stripline is clamped down and the ends tack welded to the enclosure. See next slide for detail

Dual Detector Design Install clamp base pins and clamp base plate Install one piece ceramic Place stripline detector

Inner width of each detector box is 0.764” Install barrier clamp & tack weld ends Install circuit edge clamp. Tack weld in place. Nominal gaps are 0.002” Inner width of each detector box is 0.764”

Dual detector on beam pipe

Possible weld issue? Only 0.416’’ between SMA connect edges.

Possible weld issue. Only 0 Possible weld issue? Only 0.3’’ between dual detector and cooling channel

Stainless BPM Vacuum Chamber Design Cooled flanges Extruded copper cooling channel (0.31 diam). Delta P is 1.18 psi. (32’’ H20)

Vacuum Chamber Design Round to taper joint is welded. ¼’’ horizontal taper in pipe

Chamber Heat Load Conditions: 250 mA operation - 0.97 W/mm2 heat flux input. 0.67 mm tall strip 40 oC water temperature of cooling channel 20 oC water temperature of cooling channels in flanges Results Safety factor of yield stress is 1.667 vs. the preferred 3 100 Celsius max temp of inside of pipe

Cooling Channel L= 40.2’’ Flush with inside of pipe entire length