Citation
Abstract
Deep Space communication systems require extremely sensitive receiving systems. The NASA Deep Space Network is investigating the use of higher operational frequencies for improved performance. Noise temperature and noise figure concepts are used to describe the noise performance of these receiving systems. It is proposed to modify present noise temperature definitions for linear amplifiers so they will be valid over the range (hf/kT) <<1 << (hf/kT). This is important for systems operating at high frequencies and low noise temperatures, or systems requiring very accurate calibrations. The suggested definitions are such that for an “ideal” amplifier, T, = (hf(k) = Ty and F=1. These definitions revert to the present definition for (hf/kT)<<1. Noise temperature calibrations are illustrated with a detailed example. These concepts are applied to system signal-to-noise analysis. The fundamental limit to a receiving system sensitivity is determined by the thermal noise of the source and the quantum noise limit of the receiver. The sensitivity of a receiving system consisting of an “ideal” linear amplifier with a 2.7K source, (~194.3 dBm/Hz assuming (hf/kT )<< 1) degrades significantly at higher frequencies..
Details
- Volume
- 42-67
- Published
- February 15, 1982
- Pages
- 100–111
- File Size
- 507.7 KB