TDP Development Feed Improvements Jack Welch, Matt Fleming.
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Transcript of TDP Development Feed Improvements Jack Welch, Matt Fleming.
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TDP DevelopmentTDP Development
Feed Improvements
Jack Welch, Matt Fleming
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GOALGOAL
• Lower Tsys by further cooling of the feed
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ATA Feed
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Current feed through design for ATA 1 – tip circuit board , 2 – .0085 inch wire, 3 - .014 inch hollow needle, 4&5 – Teflon matching lens, 6 – feed through into dewar.
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Heat Loads Heat Loads (in Watts)(in Watts)
IR within the dewar 0.23 W
Heat flow along the pyramid 1.70 W
Heat flow along the feed arms 1.00 W
IR load on feed arms and
Pyramid 0.11 W
LNA dissipation 0.12 W
Output cables 0.048 W
3.20 W
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Feed test facility atMinex Engineering
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Y F
acto
r
Tre
ceiv
er in
K
64
137
40
95
168
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TTsyssys Improvements Improvements• Measured receiver/feed Trcv ~ 64 K for 5-10 GHz• TLNA ~ 10 K, leaving 54 K as resistive contribution• Temperature scaling: 70/280 = 0.25• [conductivity scaling]1/2 = 0.3 • Total scaling = 0.08• 54 x 0.08 = 4 K
LNA 10 K Background 10 K Resistive losses 4 K
Anticipated total Tsys 24 K
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Left panel: results of calculations on plane wave incident onto flat glass pane. The reflection coefficient is in blue and the return loss is in red. Right panel: the results of calculation assuming two layers of anti-reflection coating with thicknesses and spacings as indicated in the inset.