Subject: Interpreting spectrum analyser plots From: Marconi Date: 1998/07/24 Message-ID: <35B8BE5F.6565@irational.org> Newsgroups: alt.radio.pirate Perhaps it would be useful for you to familiarise yourself with the interpretation of spectrum analyser plots. Let's take http://www.irational.org/sic/radio/bc500meg.gif for example. You will see that I have set the analyser controls so that the fundamental of this exciter is at the top of the screen. I have then selected a relative scale on the left axis. This measures dBc down from the carrier. The next most significant component occurs at +98MHz above the fundamental - it's the 2nd harmonic. This signal is -60dBc down on the fundamental. In power terms, 60dBc is 1 million times less power. Seeing as the fundamental is at 1W (30dBm), the level of this harmonic is 1 millionth of a watt, or 1 microwatt (1uW) or -30dBm. This power is not going to bring down any aircraft. All the other harmonics and sub-harmonics are even smaller than this. The solid green block at the bottom of the picture is the analyser noise floor. If I'd used trace averaging, this block would have collasped to a single horizontal line. The level of this noise floor is at -80dBc, so we can see any unwanted frequency component down to -80dBc. As for http://www.silcom.com/~dschmidt/fmtxtxt.html, lets look at http://www.silcom.com/~dschmidt/veron1.jpg for example. The noise floor of this measurement is about 55dBc down on the fundamental. So in my measurement I can see another 25dB down. Not that this matters in this particular case, as the http://www.silcom.com/~dschmidt/veron1.jpg picture is perfectly good enough to show the levels of the harmonics and 3f/2 tones.