Implementation and validation of a CubeSat laser transmitter

Author(s)

Kingsbury, R. W.; Caplan, D. O.; Cahoy, K. L.

Abstract

The paper presents implementation and validation results for a CubeSat-scale laser transmitter. The master oscillator power amplifier (MOPA) design produces a 1550 nm, 200mW average power optical signal through the use of a directly modulated laser diode and a commercial fiber amplifier. The prototype design produces high-fidelity M-ary pulse position modulated (PPM) waveforms (M=8 to 128), targeting data rates > 10 Mbit/s while meeting a constraining 8W power allocation. We also present the implementation of an avalanche photodiode (APD) receiver with measured transmitter-to-receiver performance within 3 dB of theory. Via loopback, the compact receiver design can provide built-in self-test and calibration capabilities, and supports incremental on-orbit testing of the design.

Date issued

2016

URI

http://hdl.handle.net/1721.1/110953

Publisher

SPIE

Citation

Kingsbury, R., Caplan, D., & Cahoy, K. (2016). Implementation and validation of a CubeSat laser transmitter. Proceedings Of The SPIE, 9739973905. doi:10.1117/12.2217990

ISSN

0277-786X

Keywords

built-in self-test, receiver design, APD receiver, avalanche photodiode receiver, PPM, M-ary pulse position modulated, commercial fiber amplifier, directly modulated laser diode, MOPA design, master oscillator power amplifier design, CubeSat laser transmitter, power 200 mW