The Noise figure of an RF component such as a low noise amplifier or a mixer is a measure of how much it increases the noise in a system that it’s a part of. In the picture below, both signal and noise into an LNA are amplified. However the total noise level increases more than the signal level. This is due to the added internal noise from the LNA and it results in a degradation in signal-to-noise ratio.
Noise figure is more of a concern in receiver systems than it is in transmitter systems. Within the context of receivers, the lower its noise figure, the more sensitive it will be and the better its ability to detect weak signals.
Here is a comparison of the noise figure of different Software-defined radios as measured by the Libre Space Foundation team and published in their detailed report on SDRs.
| Airspy Mini | 12 dB |
| RTL-SDR | 12 dB |
| SDR Play | 5 dB |
| Pluto SDR | 5 dB |
| Lime SDR Mini | 15 dB |
Clearly the best performers are the SDR Play and Pluto SDR – by a significant 10 dB relative to the worst performer. How does this difference impact performance? At 900 MHz, the SDR Play or Pluto SDR will have nearly twice the listening range relative to the Lime SDR Mini. That’s a significant advantage!
What is the impact of Noise Figure?
The Noise Power calculator can be used to calculate the noise floor of an instrument taking into consideration the temperature and resolution bandwidth of the hardware. This calculation excludes the noise figure of the instrument.
Use the receiver sensitivity calculator to see how much noise figure can degrade the performance of a receiver. This calculator takes the noise power, noise figure and the SNR requirements of a particular modulation format.
How easy is it to reduce receiver noise figure?
In a receiver chain, the component at the front-end contributes most to noise figure. This is why the first component in a receiver chain is typically a low noise amplifier. In the case of the RTL-SDR, Airspy or Lime SDR, a low noise amplifier module can easily be connected to the RF input. This will improve performance. It’s straightforward to get significant gains in noise figure performance this way. Practically you can get between 0.5 dB to 1 dB of Noise figure with relative ease using off-the-shelf LNAs. Any improvements to get below 0.5 dB are very challenging and expensive to achieve.