I prefer Salas' version, about DIYers. All best new shiny bright products available in stores were initially made in garages, and this is the ever repeated proof of his version.
...by people who "don't amplify power".
If you prefer to read Salas' post that way, that’s ok by me, I don’t care.
We usually amplify power. 😉
I would like to measure the 317 output spectrum by Agilent 2GHz analyzer soon, probably tomorrow.
Good for you, PMA. Let's see some measurements!
It is little understood by many, that the power line in their homes can be polluted with lots of RFI at least to 50MHz, depending on time and location. Much of this can come from their kitchen electric stoves! A long report with measurements was published in one of the IEEE Transactions by IBM, between 10-15 years ago, on this very topic. I can't find it here, with all the other Transactions that I have stored here, maybe someone could do a topic search.
It is little understood by many, that the power line in their homes can be polluted with lots of RFI at least to 50MHz, depending on time and location. Much of this can come from their kitchen electric stoves! A long report with measurements was published in one of the IEEE Transactions by IBM, between 10-15 years ago, on this very topic. I can't find it here, with all the other Transactions that I have stored here, maybe someone could do a topic search.
I think it was in the 'IEEE Transactions on Consumer Electronics'. I hope that this helps narrow the search.
My point is to show that 'clean' power supply is an issue. It needs careful design, both circuit and box/shielding.
The PSU is pretty conventional, EI 30VA transformer + SB260 bridge + 2200uF + 100nF + LT1084-3.3 + 220uF + 100nF.
The signal is analyzed at PSU PCB DC output terminals. There is no shielding enclosure for the PCB. 3.3V PSU output is loaded by 2.26 ohm.
The output PSU terminal is also connected to RG-58 analyzer cable, this cable terminated by 50ohm analyzer input impedance.
The PSU is pretty conventional, EI 30VA transformer + SB260 bridge + 2200uF + 100nF + LT1084-3.3 + 220uF + 100nF.
The signal is analyzed at PSU PCB DC output terminals. There is no shielding enclosure for the PCB. 3.3V PSU output is loaded by 2.26 ohm.
The output PSU terminal is also connected to RG-58 analyzer cable, this cable terminated by 50ohm analyzer input impedance.
BTW, the worst peak in the measured power spectra is the equivalent of about 45 microvolts (-74dBm in 50 ohm).
Should anybody be scared of this RF voltage on the supply lines?
Should anybody be scared of this RF voltage on the supply lines?
I would ask at that level how much of the noise is being introduced by the presence of the probe? These measurements are much harder to make with confidence than they seem.
The presence of the RF itself is less of an issue that the modulation on the RF. If the modulation is significant (and coming from a switching supply it may be) any nonlinearity will down-convert it to audio. That down conversion can happen at any stage in the chain.
Seeing this much RF is not uncommon any more. Any populated location in the US is alive with RF. Getting a really RF quiet location is difficult for making open field EMI measurements.
The presence of the RF itself is less of an issue that the modulation on the RF. If the modulation is significant (and coming from a switching supply it may be) any nonlinearity will down-convert it to audio. That down conversion can happen at any stage in the chain.
Seeing this much RF is not uncommon any more. Any populated location in the US is alive with RF. Getting a really RF quiet location is difficult for making open field EMI measurements.
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