Assembly, Integration, and Test of the Instrument for Space Astronomy Used On-board the Bright Target Explorer Constellation of Nanosatellites

Cheng, Chun-Ting

25 July 2012

The BRIght Target Explorer (BRITE) constellation is revolutionary in the sense that the same scientific objectives can be achieved smaller (cm3 versus m3 ) and lighter (< 10kg versus 1, 000kg). It is a space astronomy mission, observing the variations in the apparent brightness of stars. The work presented herein focuses on the assembly, integration and test of the instrument used on-board six nanosatellites that form the constellation. The instrument is composed of an optical telescope equipped with a Charge Coupled Device (CCD) imager and a dedicated computer. This thesis provides a particular in-depth look into the inner workings of CCD. Methods used to characterize the instrument CCD in terms of its bias level stability, gain factor determination, saturation, dark current and readout noise level evaluation are provided. These methodologies are not limited to CCDs and they provide the basis for anyone who wishes to characterize any type of imager for scientic applications.

Charge Coupled Device

Space Telescope

Instrument Characterization

BRITE

Bright Target Explorer

CCD gain

Dark current

Readout noise

bias level

saturation level

full well saturation

0538

Assembly, Integration, and Test of the Instrument for Space Astronomy Used On-board the Bright Target Explorer Constellation of Nanosatellites

Cheng, Chun-Ting

25 July 2012

The BRIght Target Explorer (BRITE) constellation is revolutionary in the sense that the same scientific objectives can be achieved smaller (cm3 versus m3 ) and lighter (< 10kg versus 1, 000kg). It is a space astronomy mission, observing the variations in the apparent brightness of stars. The work presented herein focuses on the assembly, integration and test of the instrument used on-board six nanosatellites that form the constellation. The instrument is composed of an optical telescope equipped with a Charge Coupled Device (CCD) imager and a dedicated computer. This thesis provides a particular in-depth look into the inner workings of CCD. Methods used to characterize the instrument CCD in terms of its bias level stability, gain factor determination, saturation, dark current and readout noise level evaluation are provided. These methodologies are not limited to CCDs and they provide the basis for anyone who wishes to characterize any type of imager for scientic applications.

Charge Coupled Device

Space Telescope

Instrument Characterization

BRITE

Bright Target Explorer

CCD gain

Dark current

Readout noise

bias level

saturation level

full well saturation

0538