Grounding SMPS Power Supply: R, C, & Shock Risk

In summary: The "Y" caps are there to filter out common mode noise, but they need to be discharged after power is removed or you can get a surprising (and potentially dangerous) shock.In summary, the role of the R and C connected to case ground in a 2 pin connector for an SMPS power supply is to help minimize unwanted EM Interference radiated by the product. The R is usually in Megaohms and the C is around 0.1uF, 2KV. However, there is a risk of shock when the case is touched if the product does not have a 3-prong power plug and meet "double-insulation" requirements. The
  • #1
likephysics
636
2
Assuming a 2 pin connector for an SMPS power supply, what is the role of the R and C that are connected to Case ground. Usually R is in Megaohms and C around 0.1uF,2KV.
IS there a risk of shock when the case is touched?
 
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  • #2
If the product has a 2-prong power plug (in the US at least), it must meet "double-insulation" requirements for isolating the AC Mains voltages from any SELV (safety extra-low voltage) areas, like things that people can touch. When you meet the double-insulation requirements, then you don't have to Earth ground your metal enclosure, for example.

But to help minimize unwanted EM Interference radiated by your product, you may need to make a "ground" connection from your circuitry to your metal enclosure. This can be done with a capacitor (for low impedance at RF frequencies), and you will often parallel up a bleed resistor with the RF cap. The bleed resistor helps to keep static charge from building up between the metal case and the circuitry inside of it.
 
  • #3
The Power supply in question is a off line SMPS with 24VDC output. If I don't connect the ground pin, the Voltage between Neutral and Ground wall socket is about 100V. I am running it on 220VAC.
This seems too high.
 
  • #4
likephysics said:
The Power supply in question is a off line SMPS with 24VDC output. If I don't connect the ground pin, the Voltage between Neutral and Ground wall socket is about 100V. I am running it on 220VAC.
This seems too high.

What country are you in? Can you post a picture of this power supply and it's safety agency approval label?

You said in your OP that the power supply has a 2-prong power plug, but in this post you talk about a "ground pin". What ground pin? On the 2-prong plug, or in the wall socket?

And you are saying that the wall outlet has that large voltage between the Neutral pin and Ground pin? In the US that would be a fault, and quite dangerous. Do you have access to a wall socket electrical tester like the one shown here?

http://www.liberty-hi-railers.com/images/outlet_tester.jpg
outlet_tester.jpg
 
  • #5
berkeman said:
What country are you in? Can you post a picture of this power supply and it's safety agency approval label?

Country is India.
The Power supply is Cosel KHNA120F-24
It has all the typical compliance certificates - CE, UL, TuV

You said in your OP that the power supply has a 2-prong power plug, but in this post you talk about a "ground pin". What ground pin? On the 2-prong plug, or in the wall socket?
I was just curious how the grounding was done in a 2 pin power supply vs a 3 pin power supply.
The Ground pin I am referring to here, is the wall socket ground pin.

And you are saying that the wall outlet has that large voltage between the Neutral pin and Ground pin? In the US that would be a fault, and quite dangerous. Do you have access to a wall socket electrical tester like the one shown here?

The wall socket voltages look normal. Ground to Neutral about 2VAC, Line to Neutral about 219VAC.
For the Power supply in question, if I use a 2 pin plug(instead of 3 pin) and measure the voltage between the Wall Ground and Power supply neutral, I get about 100VAC.
Is this normal?
The Neutral and Ground should be shorted at the utility box. right?
 
  • #6
likephysics said:
The wall socket voltages look normal. Ground to Neutral about 2VAC, Line to Neutral about 219VAC.
For the Power supply in question, if I use a 2 pin plug(instead of 3 pin) and measure the voltage between the Wall Ground and Power supply neutral, I get about 100VAC.
Is this normal?
The Neutral and Ground should be shorted at the utility box. right?

So with nothing plugged into the wall socket, you get about 2Vrms from Neutral to Ground (sounds reasonable). But when you plug your 2-prong power supply cord into the outlet, that voltage chages to 100Vrms?
 
  • #7
berkeman said:
So with nothing plugged into the wall socket, you get about 2Vrms from Neutral to Ground (sounds reasonable). But when you plug your 2-prong power supply cord into the outlet, that voltage chages to 100Vrms?

Yes about 100Vrms.
I just found out the reason - it's the Y capacitor at the input of the SMPS.
The Y caps are acting as voltage divider, which is why I get about half of the input voltage.
Aren't the Y Caps a shock hazard?
 
  • #8
likephysics said:
Yes about 100Vrms.

That makes no sense; I must be misunderstanding you. If Neutral and Ground are tied at the breaker panel, how can plugging in a 2-prong plug into Hot and Neutral impress a large 100Vrms AC voltage between Neutral and Ground in the wall socket?

I just found out the reason - it's the Y capacitor at the input of the SMPS.
The Y caps are acting as voltage divider, which is why I get about half of the input voltage.
Aren't the Y Caps a shock hazard?

This also makes no sense. You don't have a Y capacitor in a power supply input that has only a 2-prong plug. What would the bottom of the Y cap connect to?
 
  • #9
berkeman said:
That makes no sense; I must be misunderstanding you. If Neutral and Ground are tied at the breaker panel, how can plugging in a 2-prong plug into Hot and Neutral impress a large 100Vrms AC voltage between Neutral and Ground in the wall socket?



This also makes no sense. You don't have a Y capacitor in a power supply input that has only a 2-prong plug. What would the bottom of the Y cap connect to?

The Power supply has 3 prong plug. In this case, the Earth pin is not connected (purposfully).
The Y caps are connected to the Power supply case.
 
  • #10
likephysics said:
The Power supply has 3 prong plug. In this case, the Earth pin is not connected (purposfully).
The Y caps are connected to the Power supply case.

That is dangerous. Do not "cheat" 3-prong equipment by disconnecting the ground pin. That can create a serious shock hazard. There are better ways to get isolation from Hot and Neutral -- you can use an Isolation Transformer, for example.
 
  • #11
berkeman said:
That is dangerous. Do not "cheat" 3-prong equipment by disconnecting the ground pin. That can create a serious shock hazard. There are better ways to get isolation from Hot and Neutral -- you can use an Isolation Transformer, for example.

I had to do it purposefully just to double check.
The first time it happened was when a tech ignored the Earth terminal and used a 2 pin prong.

In this case, how would Isolation transformer help. It has Earth ground connection too.
 
  • #12
likephysics said:
I had to do it purposefully just to double check.
The first time it happened was when a tech ignored the Earth terminal and used a 2 pin prong.

In this case, how would Isolation transformer help. It has Earth ground connection too.

Why do you want to purposely disconnect safety ground from your SMPS?

An isolation transformer gives you an isolated Hot & Neutral that are not galvanically connected to Earth in any way. They are used in testing TVs for example, which generally have 2-prong plugs and often have a "Hot Chassis". When you power the TV with an isolation transformer, you can connect your oscilloscope ground to the chassis and make your measurements normally. If you did that without the Iso Transformer, you would blow up your 'scope probe and maybe part of your 'scope.
 
  • #13
I tried connecting to a Variable transformer, thinking it should be similar to isolation transformer. But I still got 100Vrms between PS Neutral and transformer Earth ground.
 
  • #14
likephysics said:
I tried connecting to a Variable transformer, thinking it should be similar to isolation transformer. But I still got 100Vrms between PS Neutral and transformer Earth ground.

A variac is not isolated.

Why are you wanting to cheat the power cord ground?
 
  • #15
If this is the power supply
http://www.cosel.co.jp/en/products/pdf/SFE_KH.pdf

i see two terminals for AC in and no Earth (chassis ) terminal
one terminal labelled "PE" ( : maybe Power Enable? Spec sheet says elsewhere it has remote on-off... no hint how to use it though)

and a case described only as oops wrong line [STRIKE] FR-4 which wikipedia claims is fiberglass.[/STRIKE] PBT which Dupont claims is great stuff
DuPont™ Crastin® polybutylene terephthalate PBT resin offers cost-effective stiffness, toughness, heat resistance, and dimensional stability. Crastin® also has excellent electrical insulation properties and surface finishes.

So i suspect it's "double insulated" as per Berkeman's first post with no provision to Earth its chassis
and those capacitors are the reason for the 10 ma current from input to output on AC isolation test. As well as your 100 volts to earth. A lower impedance meter should give lower readings, have you a cheap analog one?

You have the actual specimen - could this be right ?

old jim
 
Last edited:
  • #16
PE is Protective Earth = GND.
 
  • #17
berkeman said:
PE is Protective Earth = GND.


Aha ! That makes sense now .
The block diagram shows PE tied into the input noise filter
which doubtless includes the junction of the across-the-line capacitive voltage divider
thereby providing a short circuit for RF interference normal mode
and a return to Earth for common mode, keeping both out of the power lines

and an "earth" for whatever metal needs to be connected there.

The high megohm resistor is there to prevent static voltage buildup. You'll find one also in those "static wrist guards" sold for handling electronic parts on assembly lines. It is low enough to drain static yet high enough to prevent current that you could feel, the ones I'm familiar with used a ten meg...

Assuming a 2 pin connector for an SMPS power supply, what is the role of the R and C that are connected to Case ground. Usually R is in Megaohms and C around 0.1uF,2KV.
IS there a risk of shock when the case is touched?

0.1uf at 60 hz 120volts should pass no more than ~4 milliamps
which you can definitely feel but it won't hurt a lot
and i doubt you'd notice unless your fingers were moist
might they be even smaller, 0.01 uf?
Shock risk would be signiificant only if something else were wrong.


Thanks guys !
 
  • #18
berkeman said:
PE is Protective Earth = GND.
Interesting. Never ran across these Protective Earth or Noiseless Earth symbols.

fuPYB.png
 
  • #19
Interesting. I hadn't heard of Noisless Earth before. :smile:

I ran into PE on some European customers' devices that I helped debug a while back (EMC issues).
 
  • #20
berkeman said:
Interesting. I hadn't heard of Noisless Earth before. :smile:

I ran into PE on some European customers' devices that I helped debug a while back (EMC issues).

PE is new to me too, and pleasantly so.
I do like and encourage use of "earth" for Earth ground and "common" for powr supply return as opposed to "ground" . You've both heard me beat that drum around here plenty.
I'm glad to see "Protective Earth" used because it leads the mind directly to what is the purpose of the connection.

IMHO, stateside EE curricula need a one hour course on the IEEE Green Book . It is embarrassing how many graduate EE's don't understand the basics.

old jim
 
  • #21
berkeman said:
A variac is not isolated.

Why are you wanting to cheat the power cord ground?

I don't want to cheat the power cord ground. It was a mistake by the tech.
I was just curious why there was 100Vrms between PS Neutral and wall socket Earth ground.
The 100Vrms did not make sense, until I figured out it was because of the Y cap.

Do you have links to schematics of Variac vs Isolation transformer?
 
  • #22
berkeman said:
So with nothing plugged into the wall socket, you get about 2Vrms from Neutral to Ground (sounds reasonable). But when you plug your 2-prong power supply cord into the outlet, that voltage chages to 100Vrms?


Berkeman
Finally i see what you've been saying all along


Upon re-read of thread

Does that not sound like an open "ground" connection in the wall socket?
An unterminated ground will float up to potential of the PE terminal, somwhere between L and N.
When he attempts to measure at the outlet with nothing plugged in, because of the open "ground" he's effectively only connected one voltmeter lead so the meter obediently reports almost no voltage..

That outlet checker you pictured is only 5 bucks at my local Wal-Mart. No household should be without at least one.

I'd wager somebody didn't connect the "ground" wire immediately behind his receptacle.
If the receptacles in his house are "daisy chained, several of them may be open.


Likephysics:
A low impedance meter is better for electrical work. I use the $10 analog type.
41LSHpRXCRL.jpg



You ought to find out whether that receptacle is connected properly. Can you shut off the breaker and check for continuity between N and Ground?

They both should be earthed someplace.
http://www.hyvac.com/tech_support/electrical_sources_worldwide.pdf fig 6 page 2
 
  • #23
likephysics said:
I don't want to cheat the power cord ground. It was a mistake by the tech.
I was just curious why there was 100Vrms between PS Neutral and wall socket Earth ground.
The 100Vrms did not make sense, until I figured out it was because of the Y cap.

Do you have links to schematics of Variac vs Isolation transformer?

http://instrumentation-central.com/staco/EngineeringDrawings/3PN1010B.pdf
 

1. What is grounding and why is it important for SMPS power supplies?

Grounding is the process of connecting an electrical circuit or device to the earth or a common reference point. It is important for SMPS power supplies because it helps to prevent electrical shocks, reduce electromagnetic interference, and improve the overall safety and performance of the system.

2. How does grounding work in SMPS power supplies?

In SMPS power supplies, grounding is usually achieved by connecting the metal case or chassis of the power supply to the earth or a designated grounding point. This allows any excess current or voltage to flow safely to the ground instead of through a person or sensitive equipment.

3. What is the role of R and C in grounding SMPS power supplies?

R and C refer to resistance and capacitance, respectively. In grounding SMPS power supplies, R and C play a crucial role in reducing the risk of electrical shock. The resistance helps to limit the flow of current and the capacitance helps to reduce any high voltage spikes that may occur.

4. How do I determine the appropriate R and C values for grounding a SMPS power supply?

The appropriate R and C values for grounding a SMPS power supply will depend on various factors such as the power supply's voltage and current ratings, the type of load it will be connected to, and the specific safety standards that need to be met. It is recommended to consult a professional or refer to the power supply's datasheet for guidance in selecting the appropriate values.

5. What are the potential shock risks associated with grounding SMPS power supplies?

If the grounding of a SMPS power supply is not properly implemented, there is a risk of electrical shock to anyone who touches the power supply or any connected equipment. This can be especially dangerous in high voltage or high current applications. It is important to follow proper grounding procedures and regularly inspect and maintain the grounding system to minimize the risk of shock.

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