Sorry for being slow to understand this, but I can't quite see the rationale for exempting the USB port from having double insulation between the USB port and the 60V circuit.
For discussion purposes, imagine a single circuit board with the following characteristics: 1) The board contains a SELV circuit and a SELV-to-60V voltage step-up converter. Both the SELV circuit and the step-up converter share the same return path (loosely called "circuit ground" but not necessarily grounded). 2) Aside from functional insulation, there is no isolation whatsoever between the components of the SELV circuit and the 60V circuit. 3) The SELV circuit has an accessible USB connector While it might take multiple faults to make it happen, one could imagine a scenario where the 60V output gets shorted to one of the USB data pins. Now we have 60V present between two pins on the USB connector. One could argue that a fault analysis might show that at least two independent faults would be required to make the 60V appear on the USB connector, thereby providing two safeguards. However, Class 2 construction does not allow the manufacturer to rely on just a fault analysis. Class 2 specifically states that "double insulation" be provided to prevent electric shock. At present, I do not see a way around this if the 60V circuit is indeed classified as hazardous. Joe Randolph Telecom Design Consultant Randolph Telecom, Inc. 781-721-2848 (USA) <mailto:j...@randolph-telecom.com> j...@randolph-telecom.com <http://www.randolph-telecom.com> http://www.randolph-telecom.com From: John Woodgate [mailto:j...@woodjohn.uk] Sent: Wednesday, January 15, 2020 2:57 PM To: EMC-PSTC@LISTSERV.IEEE.ORG Subject: Re: [PSES] Touch current in IEC 60335-1 for Household Appliances Double insulation applies only to one pole of the supply, except the mains supply, where both poles are regarded as live. If one pole is double insulated, clearly no shock hazard can occur due to both poles being touched, because one can't be touched. On 2020-01-15 19:49, Joe Randolph wrote: Hi Rich: Thanks for the feedback. Right now it appears that my Option 3 would be the simplest approach because it does not require double insulation anywhere. I don't presently have a working sample of the product, but I plan to perform the "protective impedance" tests after I obtain a working sample. As I noted earlier, just from an inspection of the circuit diagram and knowledge of the load that the 60V circuit is driving, I think it has a 50/50 chance of meeting the requirements for protective impedance. If the outcome is that the circuit does not meet the protective impedance requirements and double insulation has to be provided, I have a question about your statement that that it is okay for the 60 V circuit to share a common return with the USB circuit. Somewhere (possibly in relation to using 60950-1), I recall that ports for connection to SELV circuits were treated as being accessible even if the connector could not be reached by the accessibility probe. This suggests that the USB connector would be treated as an accessible part, even if it is recessed and guarded to make it inaccessible to the probe. If such reasoning applies for 60335-1, it would appear that double insulation must be provided between the 60V circuit and USB connector. I suspect that a fault analysis could show that at least two faults would be required to place the 60V output on the USB port, but "double insulation" is "double insulation," and creepage/clearance requirements would seem to apply between the 60V circuit and the USB port. Is there a compliance path through the standard that would not require double insulation between the 60V circuit and the USB port? So far I have not found such a path. Joe Randolph Telecom Design Consultant Randolph Telecom, Inc. 781-721-2848 (USA) j...@randolph-telecom.com <mailto:j...@randolph-telecom.com> http://www.randolph-telecom.com From: Richard Nute [mailto:ri...@ieee.org] Sent: Tuesday, January 14, 2020 9:45 PM To: EMC-PSTC@LISTSERV.IEEE.ORG <mailto:EMC-PSTC@LISTSERV.IEEE.ORG> Subject: Re: [PSES] Touch current in IEC 60335-1 for Household Appliances Hi Joe: Some points: 1. The 60-volts need not be isolated from the low voltage; it has a common point (ground) which is better. The lone (not both) 60-volt conductor and circuit components should be double-insulated from accessible conductive parts. 2. Please note that the dielectric strength voltage test is to maintain insulation in the event of a power-line transient voltage from a lightning strike or power switching. A battery-power circuit is not subject to power-line transients. Clearance dimensions are based on the dielectric strength test voltage. A creepage distance for low voltages cannot be less than the clearance distance. Air does not break down at less than 330 volts peak (Paschen's Law). 3. If you load the 60 volts with 1500-ohms, the current would be 40 mA and the power would be 2.4 watts if the circuit does not collapse. If the 60-volt circuit can provide 0.5 mA ohms, the source resistance would be 120,000 ohms. Neither condition seems reasonable from a battery source. As I said, I believe the circuit will collapse when tested with 1500 ohms. This would enable you to use option 3. Best regards, Rich From: Joe Randolph <j...@randolph-telecom.com <mailto:j...@randolph-telecom.com> > Sent: Tuesday, January 14, 2020 10:10 AM To: ri...@ieee.org <mailto:ri...@ieee.org> ; EMC-PSTC@LISTSERV.IEEE.ORG <mailto:EMC-PSTC@LISTSERV.IEEE.ORG> Subject: RE: [PSES] Touch current in IEC 60335-1 for Household Appliances Hi Rich: Thanks, I think I am starting to better understand my options. Following is my current understanding: 1) If the internal non-SELV circuit does not meet the requirements in clause 8.1.4 for "protective impedance," the product will be Class 2 per clause 3.3.10 and double insulation will be required around the internal non-SELV circuit. This includes meeting all the criteria for double insulation, including creepage distance, clearance distance, distance through solid insulation, and an electric strength. 2) Even if the internal non-SELV circuit does meet the requirements in clause 8.1.4 for "protective impedance," I still can't use the Class 3 classification per clause 3.3.2, due to the way that clause 3.3.12 is presently worded. 3) However, if the internal non-SELV circuit does meet the requirements in clause 8.1.4 for "protective impedance," I can use the Class 2 classification per clause 3.3.10, but also use the "protective impedance" provisions in clause 8.1.4. The key distinction is that with the protective impedance provisions, the internal non-SELV circuit would not be considered to be a "live part." And, if it is not a "live part," no insulation is required. What I would like to avoid is the requirement to separate the internal non-SELV circuit from accessible parts (including the USB port) with double insulation. It appears to me that the physical construction requirements for double insulation would require considerable changes to the present design. At present, the internal non-SELV circuit shares the same return path as the USB circuit, so there is no isolation between the two circuits. Your explanation of how an electric shock risk requires that current flow through the human body is very helpful for understand the underlying principles. It would appear that with only one pole of the internal non-SELV circuit accessible (at the USB port), it would not be difficult to prevent current from flowing when performing the accessibility tests. However, to keep a test lab happy, I also need to demonstrate compliance with the actual wording of 60335-1. If it turns out that I have to provide double insulation, it is not clear to me that I can avoid placing a double insulation barrier between the internal non-SELV circuit and the accessible USB port. Based on the underlying principles of electric shock, it would appear that the internal non-SELV circuit could share the same return path as the USB port, provided that double insulation is provided between the internal non-SELV circuit and all other accessible parts. With this construction, there would be no path for current to flow. I'm just not sure whether a test lab, when performing a construction review of the required double insulation, would agree that no insulation is required between the internal non-SELV circuit and the USB port. My preference would be to use the approach outlined in item 3 above, where there would be no requirement for insulation at all (only a requirement for the "protective impedance"). I plan to have some tests performed to determine whether the internal non-SELV circuit can be classified as having a "protective impedance." Based on just a review of the circuit diagram, I think it has a 50/50 chance of meeting the requirement for protective impedance. If it does meet the requirement for protective impedance, do you think that the approach described in Item 3 above would be acceptable under 60335-1? Thanks, Joe Randolph Telecom Design Consultant Randolph Telecom, Inc. 781-721-2848 (USA) j...@randolph-telecom.com <mailto:j...@randolph-telecom.com> http://www.randolph-telecom.com From: Richard Nute [mailto:ri...@ieee.org] Sent: Friday, January 10, 2020 10:05 PM To: EMC-PSTC@LISTSERV.IEEE.ORG <mailto:EMC-PSTC@LISTSERV.IEEE.ORG> Subject: Re: [PSES] Touch current in IEC 60335-1 for Household Appliances Hi Joe: Electric shock requires both voltage and current. If the voltage exceeds the specified limit, the current must not exceed its specified limit. The 60335 standard as well as the 60950 standard concentrated on voltage. But, there was some recognition that if the voltage was too high but if the current was low, the construction was acceptable, hence the requirements for limited current circuits. See attached discussion of how some standards addressed this reality. As I mentioned, I am guessing that your 60-volts is a limited current circuit. You can easily test this with a 1500-ohm resistor across the 60 volts and measure the voltage. My guess is that it will be near zero. More later, Rich From: Joe Randolph <j...@randolph-telecom.com <mailto:j...@randolph-telecom.com> > Sent: Friday, January 10, 2020 10:07 AM To: EMC-PSTC@LISTSERV.IEEE.ORG <mailto:EMC-PSTC@LISTSERV.IEEE.ORG> Subject: Re: [PSES] Touch current in IEC 60335-1 for Household Appliances I agree that there are several opportunities to add some interlocks (physical or electrical) that would power down the high voltage circuit under certain conditions. If that were all that is necessary to comply with 60335-1, it would probably be quite manageable. i The main problem I'm concerned about is the apparent requirement in a Class 2 appliance to provide double insulation between the high voltage circuit and accessible parts. In particular, the creepage and clearance distances required for the double insulation would be a challenge to achieve without major changes to the physical design. Presumably, with a sufficient number of interlocks, it would be possible to ensure that the high voltage circuit is disabled under certain circumstances, and this might possibly help to avoid double insulation in certain areas. However, the fact remains that when this handheld product is actually in use (no battery charger connected, battery compartment closed, and user-replaceable module installed), there is a non-SELV voltage being generated within the device, and 60335-1 seems determined to require a double-insulation barrier around that circuit. In other standards such as 60950-1 and 62368-1, circuits with non-SELV voltage but limited current can be classified as a "limited-current circuit" (60950-1) or "ES2 circuit" (62368-1). Circuits that qualify have no accessibility restrictions whatsoever. In terms of accessibility, they are treated like SELV. For the product in question, this would be a much easier way to demonstrate compliance. I think that clause 8.1.4 in 60335-1 is intended to provide this option, but the unusual wording of clause 3.3.12 appears to prevent this option. I agree that it can take a very long time to get an official interpretation issued or, worse yet, get a standard changed. Fortunately for me, the product in question is not my product and I was not involved in designing it. I've simply been asked to evaluate the product for compliance with 60335-1. When I made my initial post on this topic, I was just trying to find out if clause 3.3.12 had been (or might soon be) revised to remove the apparent contradiction in the 2009 edition. From some preliminary feedback I have received, it sounds like the answer is "no." In the meantime, the responses I have received here have identified some useful approaches for trying to demonstrate compliance as a Class 2 appliance per 60335-1, and I plan to think carefully about those approaches. Right now, the main sticking point is the apparent requirement to provide double insulation, with its attendant creepage and clearance distances. Joe Randolph Telecom Design Consultant Randolph Telecom, Inc. 781-721-2848 (USA) j...@randolph-telecom.com <mailto:j...@randolph-telecom.com> http://www.randolph-telecom.com <http://www.randolph-telecom.com/> From: John Woodgate [ <mailto:j...@woodjohn.uk> mailto:j...@woodjohn.uk] Sent: Friday, January 10, 2020 11:43 AM To: Joe Randolph < <mailto:j...@randolph-telecom.com> j...@randolph-telecom.com> Subject: Re: [PSES] Touch current in IEC 60335-1 for Household Appliances Can that be done while the product is powered-up? If not, how long does it take after power-down for the 60 V to disappear from the accessible poles? Can you cover up the accessible poles? Basic insulation might be enough, but reinforced insulation might not be too bulky. It would almost certainly take years to get 60335-1 modified. There is a very small chance of an Interpretation Sheet being agreed, but even that takes about 18 months minimum. I suppose you are in USA. If so, go to this page on the IEC web site and send an email explaining your problem to Ms R K Myers and ask for advice how to try to get a clarification: <https://www.iec.ch/dyn/www/f?p=103:29:13970009729823::::FSP_ORG_ID,FSP_LANG _ID:1236,25#3> https://www.iec.ch/dyn/www/f?p=103:29:13970009729823::::FSP_ORG_ID,FSP_LANG_ ID:1236,25#3 You will probably be referred to the chair of the ANSI committee. You can still do that if you are not in the USA. but there is a different path if you are not. On 2020-01-10 16:03, Joe Randolph wrote: 4) Lastly, there is a user-replaceable module that, when removed, allows both poles of the high voltage supply to be accessible. - ---------------------------------------------------------------- This message is from the IEEE Product Safety Engineering Society emc-pstc discussion list. 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