Wednesday, 4 July 2018

current - Electric shock from laptop due to capacitive coupling?



If a person touches an exposed wire (the wire has a ground-prong) on the 20V side of a power cable while barefoot, I heard that it is possible to receive a shock of higher than 20V due to capacitive coupling. Could anyone explain how this is possible, if it's true?



Answer




If a person touches an exposed wire (the wire has a ground-prong) on the 20V side of a power cable while barefoot, I heard that it is possible to receive a shock of higher than 20V due to capacitive coupling. Could anyone explain how this is possible, if it's true?



Such problems are usually caused by the lack of a ground lead on the input connection with power supplies designed to need a ground connection to operate as designed.


Input ground connected: Such power supplies are required by law to have (and may or may not have in practice) "Y" line filtering capacitors from each leg of the input power lead to circuit ground. That ground may be connected to the lug you mention. Such systems are intended to have an input ground lead. If they do the two Y capacitors are connected to ground and all is well.


Input ground not connected: If the input lead OR an extension lead OR the power point used does not have a ground connection then the two Y capacitors are NOT connected to ground. The two capacitors form a capacitive divider and the centre point between them is at half mains supply.
If you touch the grounding lug in such cases then you, too, will be at half mains supply.
If you now stand on a surface that has conductivity to ground (as most surfaces do) or if you touch a grounded object you may wish that you had not.



The capacitors used are usually in the 0.001 uF to 0.01 uF range. Actual values will vary with regulatory requirements and/or manufacturer's choices. With 110 VAC mains the maximum current is well under 1 mA and designed not to be lethal for most people in most cases.


You can still feel an annoying shock (ask me how I know).


Equipment exposed to this half mains voltage may be damaged or destroyed. I once had a new printer destroy a PC printer port due to this cause.




Notes:


The actual coupling is via capacitors inside the power supply and so is independent of the state of the cable.


Any contact between any electrically conductive part of the equipment powered which is electrically connected to any part of the power supply output will be capacitively coupled at half mains potential relative to true ground.


A frayed cable that allows access to either output conductor qualifies as above.


I have experienced laptops which were (literally) shocking if used on your lap - adding an insulating layer such as a tray or even a sheet of paper helped greatly.


No comments:

Post a Comment

arduino - Can I use TI's cc2541 BLE as micro controller to perform operations/ processing instead of ATmega328P AU to save cost?

I am using arduino pro mini (which contains Atmega328p AU ) along with cc2541(HM-10) to process and transfer data over BLE to smartphone. I...