Difference between revisions of "LFI design, qualification, and performance"
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g <math>V_{sky}</math>, <math>V_{load}</math> signals at the frequency of the phase switch. By changing the phase switches configuration, the output can be a sequence of either <math>V_{sky}</math> or <math>V_{load}</math> signals. | g <math>V_{sky}</math>, <math>V_{load}</math> signals at the frequency of the phase switch. By changing the phase switches configuration, the output can be a sequence of either <math>V_{sky}</math> or <math>V_{load}</math> signals. | ||
| − | + | a tunable ''offset'', <math>O_{DAE}</math>, then it amplifies the signal with a tunable ''gain'', <math>G_{DAE}</math>, | |
| + | |||
| + | == LFI Ground Tests == | ||
| + | |||
| + | == LFI In-flight Calibration == | ||
| + | |||
| + | == LFI Performance == | ||
Revision as of 13:20, 18 October 2012
Contents
Overview[edit]
The first :
- uno
- due
- tre
- quattro
Only a.
The LFI description[edit]
Each LFI radiometer g , signals at the frequency of the phase switch. By changing the phase switches configuration, the output can be a sequence of either or signals.
a tunable offset, , then it amplifies the signal with a tunable gain, ,
LFI Ground Tests[edit]
LFI In-flight Calibration[edit]
LFI Performance[edit]
(Planck) Low Frequency Instrument
LFI Data Acquisition Electronics
