Hi,
In the Vicor DCM3623 DCDC module datasheet (below) , page 21, there is, at Figure 23, an LC input filter to some DCM3623 modules in parallel. Each Inductor of this LC filter has a 0.3 Ohm resistor across it.
The Capacitors (“C1_x”) are all ceramic capacitors.
Do you agree that the 0.3 ohm resistor across the filter inductor is basically there to stop LC ringing at the sudden application of Vin?…ie, this 0.3R resistor is there to prevent overvoltage damage to the DCM3623 DCDC module?
I say this because the 0.3R resistor is almost shorting out the inductor, ruining the effectiveness of the input LC filter and potentially jeopardising EMC.
Would you agree that a better way (from an EMC viewpoint), would be to have a much higher value resistor across the inductor, and then to damp out the startup LC ringing by adding an RC damping circuit across the input, just downstream of the LC input filter?
….Or…Alternatively, a comparator “looking” at a divider across the input, which then turns on a FET which switches a low-ish value resistor across the input would be another way to dampen the LC ringing without ruining the EMC performance.? (the FET would only be switched on for the very brief overvoltage ring)
DCM3623 DCDC module datasheet
https://www.vicorpower.com/documents/datasheets/DCM3623x50M53C2yzz_ds.pdf