System Gain Calibration

From EOVSA Wiki
Revision as of 20:42, 18 September 2016 by Dgary (Talk | contribs)

Jump to: navigation, search

Gain Control "Knobs"

EOVSA Gain Control "Knobs"
Non-solar radio interferometers can make the assumption that the system noise is dominated by the relatively uniform sky, but this is not at all valid for the Sun--the Sun dominates the system noise, and can be highly variable, especially during flares and other radio outbursts. This is a main reason why it is necessary to design solar-dedicated instruments for observing the Sun. In order to cope with the high and variable noise from the Sun, EOVSA is equipped with a series of attenuators, two RF attenuators in the frontend, and an IF attenuator in the analog downconverter. In addition, it is possible to change the gain via parameters (ADC Attenuation, FFT Shift, and Equalizer Coefficients) in the digital correlator. The table above lists the various gain control points, their purpose, and other relevant information.

Setting Front End Power

There are power detectors in each of the two channels in each front end, just before the optical link, which measure a voltage proportional to the RF power level (integrated over the full 2.5-18 GHz range). To convert these voltage to power measurements, in dBm (decibel-milliwatts), the input of each front end is terminated with a room temperature 50-ohm load, and the output just before the optical link is connected to a power meter. Then the attenuation is stepped both with and without the ND turned on, to range over a wide range of voltages and powers. Both voltage and power are measured in this lab setting, and the resultant

Gain Calibration Procedure