# Through which route an SMPS propagates and picks up the switching noise?

I have seen that some switch mode power supplies are injecting noise to the electrical power network. I guess this noise is common mode noise. That switching noise then propagates through and enters to another power supply and even can appear at the DC output.

1) Regarding the switching noise originates from an SMPS, does it propagate on neutral, line or earth wire?

2) And in the affected SMPS, how does it pass this switching noise all the way to its DC outputs? From its line, neutral or earth terminal?

3) Why is this type of noise is called common mode noise?

I would like to see the actual trace/path the noise travels from the injector to the receiver SMPS.

• A lot of the noise is differential; the switching mechanism in an SMPS creates a diff signal that gets conducted to the L and N wires at the top and bottom of the bridge rectifiers conduction points. Plenty of SMPS have diff filters. Dec 11 '18 at 9:03
• @Andyaka Thanks for the comment but I dont understand in real. Why do you call it differential if it is appearing both at neutral and line? And where does the noise current flow through all the way from the smps to the other smps. A illustrative answer would help a lot. Dec 11 '18 at 10:04
• Appearing on both lines simultaneously and having the same amplitude and phase is called common-mode. If either the amplitude or the phase are unequal then a combined differential and common signal is produced. The main switching element produces a signal that is largely differential. If you don't understand this then you should do some research and then adjust your question above. Dec 11 '18 at 10:09
• What I understand from your words the noise initially common at both lines but because of in balance it will become as differential. If the noise at line is 10 and the noise at neutral is 8 the difference is 2. Th CM filter still helps because if it has attenuation factor of 10 the line noise will be 1 and the neutral noise will be 0.8 resulting s differential noise of 0.2. Thats what I have in mind. Is that totally wrong. If it is I will go and do more research as you recommend. Dec 11 '18 at 10:16

Finally, you measure all these conducted perturbation with a line impedance stabilization network or LISN configured in such a way that you can isolate DM and CM noises. You have to separate CM and DM as each requires a different cure. The LISN offers a constant 50-$$\\Omega\$$ output resistance along the analyzed frequency band. The final EMI plot to check PASS or FAIL mixes them of course.