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Laptop trips GFI
All of my 110 outlets on the boat are protected through GFI. Whenever I plug
my laptop charger in or turn on the computer with it plugged in, it trips the GFI. If I reset it a time or two or three, it will hold and work fine until the next time. Interestingly, it will even trip the GFI on a parallel circuit. I am guessing that it has something to do with the large capacitor in the charging unit charging up. Does anyone have an explanation and/or solution? thanks john |
Laptop trips GFI
Obvious questions:
I assume you have GFI outlets and not a GFI breaker. Anything else plugged in to that outlet when the computer trips the GFI? Is anything else plugged into the laptop when the GFI trips? SSB? radio? printer? NMEA stuff? Have you tested the GFI with the "test" button? Have you tried the laptop in other GFI outlets? The only thing that is supposed to trip one is a differential current in the hot and neutral wires. The unequal current is almost always because the appliance has found an additional return path through its grounding conductor back to the service entrance. If such a problem exists with your laptop, it should be corrected. Alternatively, a new GFI outlet might cure the problem. Good luck! Chuck johnhh wrote: All of my 110 outlets on the boat are protected through GFI. Whenever I plug my laptop charger in or turn on the computer with it plugged in, it trips the GFI. If I reset it a time or two or three, it will hold and work fine until the next time. Interestingly, it will even trip the GFI on a parallel circuit. I am guessing that it has something to do with the large capacitor in the charging unit charging up. Does anyone have an explanation and/or solution? thanks john |
Laptop trips GFI
Thanks, it's the laptop and only the laptop. The only thing I haven't tried
yet is another GI outlet. I need to remember to bring the thing home to do that. At any rate, it is only a minor inconvenience that will go away after I wire up the 12v supply I have for it. I just find it curious. John "chuck" wrote in message ink.net... Obvious questions: I assume you have GFI outlets and not a GFI breaker. Anything else plugged in to that outlet when the computer trips the GFI? Is anything else plugged into the laptop when the GFI trips? SSB? radio? printer? NMEA stuff? Have you tested the GFI with the "test" button? Have you tried the laptop in other GFI outlets? The only thing that is supposed to trip one is a differential current in the hot and neutral wires. The unequal current is almost always because the appliance has found an additional return path through its grounding conductor back to the service entrance. If such a problem exists with your laptop, it should be corrected. Alternatively, a new GFI outlet might cure the problem. Good luck! Chuck johnhh wrote: All of my 110 outlets on the boat are protected through GFI. Whenever I plug my laptop charger in or turn on the computer with it plugged in, it trips the GFI. If I reset it a time or two or three, it will hold and work fine until the next time. Interestingly, it will even trip the GFI on a parallel circuit. I am guessing that it has something to do with the large capacitor in the charging unit charging up. Does anyone have an explanation and/or solution? thanks john |
Laptop trips GFI
If it has 3-wire grounded plug on it, plug it into a ground buster and see
if it stops. The input filters on some of the switching supplies allows enough AC to ground pin to trip them. I've had some ground loops trip mine here at home from certain printers plugged into the outlets on other circuits than what the computer is plugged into. "johnhh" wrote in : All of my 110 outlets on the boat are protected through GFI. Whenever I plug my laptop charger in or turn on the computer with it plugged in, it trips the GFI. If I reset it a time or two or three, it will hold and work fine until the next time. Interestingly, it will even trip the GFI on a parallel circuit. I am guessing that it has something to do with the large capacitor in the charging unit charging up. Does anyone have an explanation and/or solution? thanks john -- Larry |
Laptop trips GFI
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Laptop trips GFI
Excellent point!
"Larry" wrote in message ... "johnhh" wrote in news:7oKdnZGx0aASWtzeRVn- : I need to remember to bring the thing home Oh, oh....needs attitude adjustment.... The laptop IS already home. You just need to bring it "to the house" to test it. There....that's better....(c; -- Larry |
Laptop trips GFI
Good idea, I'll try that.
"Larry" wrote in message ... If it has 3-wire grounded plug on it, plug it into a ground buster and see if it stops. The input filters on some of the switching supplies allows enough AC to ground pin to trip them. I've had some ground loops trip mine here at home from certain printers plugged into the outlets on other circuits than what the computer is plugged into. "johnhh" wrote in : All of my 110 outlets on the boat are protected through GFI. Whenever I plug my laptop charger in or turn on the computer with it plugged in, it trips the GFI. If I reset it a time or two or three, it will hold and work fine until the next time. Interestingly, it will even trip the GFI on a parallel circuit. I am guessing that it has something to do with the large capacitor in the charging unit charging up. Does anyone have an explanation and/or solution? thanks john -- Larry |
Laptop trips GFI
A ground buster would be one way to check for excessive leakage to
ground. But exercise caution: the GFI is tripping either because it is defective or because there is a potentially dangerous leakage. We tend to immediately suspect a more or less constant borderline leakage such as might occur in the case of a defective or poorly designed filter as Larry suggests. Or it could be a less-likely but very serious intermittent condition like a short. If so, with a ground buster in the circuit, your body could well supply the leakage path to ground. But most of the chargers use 2-wire, "polarized" ac cords in which case the ground buster would have no effect. With a 2-wire cord and a properly functioning GFI and nothing else plugged into the receptacle or the computer, a trip can occur only if you provide the path to ground. If it trips while you are not touching it and it is fully insulated from the boat's ac ground, the GFI is probably defective. You still haven't told us if your GFI is a breaker type in the main panel or a receptacle. If the latter, why not just plug the computer into one of the other protected outlets on the boat? If the former, complex grounding or wiring situations could cause the problem. Good luck. Chuck Larry wrote: If it has 3-wire grounded plug on it, plug it into a ground buster and see if it stops. The input filters on some of the switching supplies allows enough AC to ground pin to trip them. I've had some ground loops trip mine here at home from certain printers plugged into the outlets on other circuits than what the computer is plugged into. "johnhh" wrote in : All of my 110 outlets on the boat are protected through GFI. Whenever I plug my laptop charger in or turn on the computer with it plugged in, it trips the GFI. If I reset it a time or two or three, it will hold and work fine until the next time. Interestingly, it will even trip the GFI on a parallel circuit. I am guessing that it has something to do with the large capacitor in the charging unit charging up. Does anyone have an explanation and/or solution? thanks john |
Laptop trips GFI
--It is a GFI receptacle, not a breaker.
--The charger (110AC to 18.5v DC) has a 3 wire plug. --It only occurs with the laptop and always occurs with the laptop --It makes no difference what else is connected to the laptop or AC. --It occurs whenever the computer is turned on or the charger is plugged into an already running computer. --It always recovers after one to three resets. --It is far too consistent to be an intermittent condition like a short. --It usually, but not always, trips both the GFI it is plugged into and the other one on a parallel circuit. --I have two different AC circuits off of the same breaker but each protected by a GFI outlet. I am not sure of the exact wiring of these as I haven't traced the wires down. --No matter how much information I think I give or imply, I always seem to leave something out. --I'll try it on the second GFI on the boat, but will be very surprised if it works there. --I'll bring it to the house at the next opportunity and try it there. --I'll try a ground buster. I am of the belief that there is really nothing wrong with anything. Larry's induced current theory sounds reasonable. These chargers have a very large capacitance that take a second or so to charge up. I believe it has to do with that charging somehow. "chuck" wrote in message ink.net... A ground buster would be one way to check for excessive leakage to ground. But exercise caution: the GFI is tripping either because it is defective or because there is a potentially dangerous leakage. We tend to immediately suspect a more or less constant borderline leakage such as might occur in the case of a defective or poorly designed filter as Larry suggests. Or it could be a less-likely but very serious intermittent condition like a short. If so, with a ground buster in the circuit, your body could well supply the leakage path to ground. But most of the chargers use 2-wire, "polarized" ac cords in which case the ground buster would have no effect. With a 2-wire cord and a properly functioning GFI and nothing else plugged into the receptacle or the computer, a trip can occur only if you provide the path to ground. If it trips while you are not touching it and it is fully insulated from the boat's ac ground, the GFI is probably defective. You still haven't told us if your GFI is a breaker type in the main panel or a receptacle. If the latter, why not just plug the computer into one of the other protected outlets on the boat? If the former, complex grounding or wiring situations could cause the problem. Good luck. Chuck Larry wrote: If it has 3-wire grounded plug on it, plug it into a ground buster and see if it stops. The input filters on some of the switching supplies allows enough AC to ground pin to trip them. I've had some ground loops trip mine here at home from certain printers plugged into the outlets on other circuits than what the computer is plugged into. "johnhh" wrote in : All of my 110 outlets on the boat are protected through GFI. Whenever I plug my laptop charger in or turn on the computer with it plugged in, it trips the GFI. If I reset it a time or two or three, it will hold and work fine until the next time. Interestingly, it will even trip the GFI on a parallel circuit. I am guessing that it has something to do with the large capacitor in the charging unit charging up. Does anyone have an explanation and/or solution? thanks john |
Laptop trips GFI
"johnhh" wrote in
: I am of the belief that there is really nothing wrong with anything. Larry's induced current theory sounds reasonable. These chargers have a very large capacitance that take a second or so to charge up. I believe it has to do with that charging somehow. I'm also leaning, because it trips a GFI it's not connected to, that the switcher is sending lots of RF noise back up the power line. Take a small portable AM radio and put it near the power supply. Tune up and down the band and listen for "hash" when the supply is plugged in. The hash fed back into the GFI may also be what's tripping it...and the other one. Terrible designs do make it to market from China. -- Larry |
Laptop trips GFI
johnhh wrote:
All of my 110 outlets on the boat are protected through GFI. Whenever I plug my laptop charger in or turn on the computer with it plugged in, it trips the GFI. If I reset it a time or two or three, it will hold and work fine until the next time. Interestingly, it will even trip the GFI on a parallel circuit. I am guessing that it has something to do with the large capacitor in the charging unit charging up. Does anyone have an explanation and/or solution? thanks john All gfi protected circuit branches the same? If so, a laptop fault, potentially dangerous should be investigated by a professional. Is your laptop connected to external speakers, or other accessories, possibly interconnected with equipment on a different phase of mains power? Most laptops use only 2 wire plugs, so cannot have a current imbalance in the cableset typically the cause of gfi tripping. You may have a bad gfi. You may have a salty moist sweat stain on plug terminal, wire, grip, etc, to some earthed part of the boat. Clean the plug end with a mild detergent and dry thoroughly. If yours has a 3 wire plug, it may have a marginal leakage path from a hot terminal to the safety ground. This can be difficult to prove, as the current is so small, and it trips so fast. You could test with a 2 wire extension cord, to see if this stops the tripping. It might not be safe to use it regularly without repairing the cause. You might be best to use insulating gloves while doing this test. It seems unlikely there is an electrical contact on the case of the laptop that might be in contact with an earth or even your hand, but that too would only indicate an internal leakage through the power supply or charger, which could be lethal, if circumstances get right. As to why it might cause tripping a gfi in some other part of the power system, you got me there, buddy, unless one gfi is feeding the other, and they are just taking turns at tripping;-) I think startup current surges would not affect a gfic, first because as far as I know, they are not designed to be overcurrent circuit breakers, except insofar as safety imbalance current is concerned and second, no laptop should draw so large a surge. If so, I would suspect a resistive or reactive neutral or hot connection path. Do you have galvanic diode blockers in your shoreside earth line connector path? Do you have a wireless card in your laptop? Are you, as did a friend of mine, amazingly still alive, using a 110 v device in series with a 220 v flourescent ballast circuit? Stranger things exist in truth than in fiction. Very curious. Terry K |
Laptop trips GFI
Reflects my sentiments also, Terry.
Depending on the nature of any leakage, it may show up with a simple ohmmeter test. If the resistance between the ground prong on the plug and either of the other terminals is anywhere in the vicinity of 20,000 ohms (6 mA @ 120 v) that is the problem. Ideally, your ohmmeter should indicate an open circuit. These devices use disk ceramic capacitors that frequently develop troublesome leakage resistance. Chuck Terry Spragg wrote: johnhh wrote: All gfi protected circuit branches the same? If so, a laptop fault, potentially dangerous should be investigated by a professional. Is your laptop connected to external speakers, or other accessories, possibly interconnected with equipment on a different phase of mains power? Most laptops use only 2 wire plugs, so cannot have a current imbalance in the cableset typically the cause of gfi tripping. You may have a bad gfi. You may have a salty moist sweat stain on plug terminal, wire, grip, etc, to some earthed part of the boat. Clean the plug end with a mild detergent and dry thoroughly. If yours has a 3 wire plug, it may have a marginal leakage path from a hot terminal to the safety ground. This can be difficult to prove, as the current is so small, and it trips so fast. You could test with a 2 wire extension cord, to see if this stops the tripping. It might not be safe to use it regularly without repairing the cause. You might be best to use insulating gloves while doing this test. It seems unlikely there is an electrical contact on the case of the laptop that might be in contact with an earth or even your hand, but that too would only indicate an internal leakage through the power supply or charger, which could be lethal, if circumstances get right. As to why it might cause tripping a gfi in some other part of the power system, you got me there, buddy, unless one gfi is feeding the other, and they are just taking turns at tripping;-) I think startup current surges would not affect a gfic, first because as far as I know, they are not designed to be overcurrent circuit breakers, except insofar as safety imbalance current is concerned and second, no laptop should draw so large a surge. If so, I would suspect a resistive or reactive neutral or hot connection path. Do you have galvanic diode blockers in your shoreside earth line connector path? Do you have a wireless card in your laptop? Are you, as did a friend of mine, amazingly still alive, using a 110 v device in series with a 220 v flourescent ballast circuit? Stranger things exist in truth than in fiction. Very curious. Terry K |
Laptop trips GFI
I'll run the resistance test when I get back to the boat, but I don't see
that it is going to tell me anything since the leakage only occurs when a load is first applied to the DC side of the power brick. Even at that, it takes more than just applying a load since there is a load charging the batteries even if the laptop is not turned on. I haven't been back to the boat since I started this thread, but will get more info the next time I go up. thanks for all of your feedback. John "chuck" wrote in message ink.net... Reflects my sentiments also, Terry. Depending on the nature of any leakage, it may show up with a simple ohmmeter test. If the resistance between the ground prong on the plug and either of the other terminals is anywhere in the vicinity of 20,000 ohms (6 mA @ 120 v) that is the problem. Ideally, your ohmmeter should indicate an open circuit. These devices use disk ceramic capacitors that frequently develop troublesome leakage resistance. Chuck Terry Spragg wrote: johnhh wrote: All gfi protected circuit branches the same? If so, a laptop fault, potentially dangerous should be investigated by a professional. Is your laptop connected to external speakers, or other accessories, possibly interconnected with equipment on a different phase of mains power? Most laptops use only 2 wire plugs, so cannot have a current imbalance in the cableset typically the cause of gfi tripping. You may have a bad gfi. You may have a salty moist sweat stain on plug terminal, wire, grip, etc, to some earthed part of the boat. Clean the plug end with a mild detergent and dry thoroughly. If yours has a 3 wire plug, it may have a marginal leakage path from a hot terminal to the safety ground. This can be difficult to prove, as the current is so small, and it trips so fast. You could test with a 2 wire extension cord, to see if this stops the tripping. It might not be safe to use it regularly without repairing the cause. You might be best to use insulating gloves while doing this test. It seems unlikely there is an electrical contact on the case of the laptop that might be in contact with an earth or even your hand, but that too would only indicate an internal leakage through the power supply or charger, which could be lethal, if circumstances get right. As to why it might cause tripping a gfi in some other part of the power system, you got me there, buddy, unless one gfi is feeding the other, and they are just taking turns at tripping;-) I think startup current surges would not affect a gfic, first because as far as I know, they are not designed to be overcurrent circuit breakers, except insofar as safety imbalance current is concerned and second, no laptop should draw so large a surge. If so, I would suspect a resistive or reactive neutral or hot connection path. Do you have galvanic diode blockers in your shoreside earth line connector path? Do you have a wireless card in your laptop? Are you, as did a friend of mine, amazingly still alive, using a 110 v device in series with a 220 v flourescent ballast circuit? Stranger things exist in truth than in fiction. Very curious. Terry K |
Laptop trips GFI
All appliances have leakage. Leakage that should be so low
as to not add up to a problem. It is doubtful that laptop is leaking milliamps on startup. IOW there would be something else on the circuit leaking so much that just a little laptop leakage could trip the GFCI. Unlikely that you will find leakage with the ohm meter. Try. But eliminating other items from the circuit, then powering on the laptop will probably provide better information. Informative may be a current measurement of that circuit's ground wire. How much current (in AC milliamps and DC milliamps) is flowing down that ground wire for various powered on appliances on that circuit? johnhh wrote: I'll run the resistance test when I get back to the boat, but I don't see that it is going to tell me anything since the leakage only occurs when a load is first applied to the DC side of the power brick. Even at that, it takes more than just applying a load since there is a load charging the batteries even if the laptop is not turned on. I haven't been back to the boat since I started this thread, but will get more info the next time I go up. |
Laptop trips GFI
It is especially troublesome that the GFCI trips only when the laptop is
plugged into the power supply. There is supposed to be substantial electrical isolation between the so-called "hot" and "cold" grounds (i.e., between the AC and DC grounds). Unless that isolation (usually an opto-isolator) is compromised, I can't imagine a mechanism by which the laptop itself could trip a GFCI, even if it were hanging overboard and immersed in seawater while connected! Not so for the power supply, of course. Larry's theory of a monster-sized common-mode switching noise signal propagating through the AC lines to trip both GFCI outlets is looking more attractive. At least that theory supports a mechanism by which plugging in the laptop causes a GFCI trip: going from no-load to full-load would cause a change in switching characteristics that might produce more noise on the line. 20,000 ohms or less of leakage can easily be measured on a DMM and leaking RF filter capacitors are common. It would be a good idea to measure leakage with and without the laptop connected to the power supply. Chuck w_tom wrote: All appliances have leakage. Leakage that should be so low as to not add up to a problem. It is doubtful that laptop is leaking milliamps on startup. IOW there would be something else on the circuit leaking so much that just a little laptop leakage could trip the GFCI. Unlikely that you will find leakage with the ohm meter. Try. But eliminating other items from the circuit, then powering on the laptop will probably provide better information. Informative may be a current measurement of that circuit's ground wire. How much current (in AC milliamps and DC milliamps) is flowing down that ground wire for various powered on appliances on that circuit? |
Laptop trips GFI
First, to have a common mode noise (leakage), the computer
must have separate incoming and outgoing electrical paths. Incoming is AC electric. What is the outgoing path? Second, leakage through a resistance is rare. Leakage occurs more often through reactive devices. That means the ohm meter will not measure leakage through components whose conductivity increases with frequency and voltage. IOW these leaks would appear as high resistance (notice I did not say impedance) to the meter. Third, all appliances have leakage. GFCI trip is not just from one device. Sometimes it is leakage from numerous devices combined. And yet the meter would test every device and see no leakage from any of them. To put numbers to what was posted - appliances typically leak less than 150 microamps when working normally. Show me the meter that will measure this 800 Kilohm or 1 Megohm resistor? Meter will declare infinite resistance (more than tens of megohms) when leakage says 'impedance' (not resistance) is lower. Not mentioned is the brand name and model of that laptop. Not mentioned is whether that power brick is from the manufacturer or from a third party. Not mentioned is whether a useless power strip protector is being used. I am not sure whether the power brick is two prong or three - another critical fact. But this is certain. Whether the laptop starts up or is powered constantly, the current coming in one wire will always equal the current going out the other - if hardware is working properly. For those two currents to be different, then current must have another (third) path out of the laptop / power brick system. So where is that third path? And how much current in that third path. Notice - without numbers then one can only speculate. Get numbers. How much current is in the safety ground wire for the entire GFCI circuit? Does the laptop cause this problem when it is the only item on that GFCI circuit? Contrary to what that meter will say - all appliances have some leakage - which is why the ohm meter cannot report 'real' amount of leakage. chuck wrote: It is especially troublesome that the GFCI trips only when the laptop is plugged into the power supply. There is supposed to be substantial electrical isolation between the so-called "hot" and "cold" grounds (i.e., between the AC and DC grounds). Unless that isolation (usually an opto-isolator) is compromised, I can't imagine a mechanism by which the laptop itself could trip a GFCI, even if it were hanging overboard and immersed in seawater while connected! Not so for the power supply, of course. Larry's theory of a monster-sized common-mode switching noise signal propagating through the AC lines to trip both GFCI outlets is looking more attractive. At least that theory supports a mechanism by which plugging in the laptop causes a GFCI trip: going from no-load to full-load would cause a change in switching characteristics that might produce more noise on the line. 20,000 ohms or less of leakage can easily be measured on a DMM and leaking RF filter capacitors are common. It would be a good idea to measure leakage with and without the laptop connected to the power supply. Chuck w_tom wrote: All appliances have leakage. Leakage that should be so low as to not add up to a problem. It is doubtful that laptop is leaking milliamps on startup. IOW there would be something else on the circuit leaking so much that just a little laptop leakage could trip the GFCI. Unlikely that you will find leakage with the ohm meter. Try. But eliminating other items from the circuit, then powering on the laptop will probably provide better information. Informative may be a current measurement of that circuit's ground wire. How much current (in AC milliamps and DC milliamps) is flowing down that ground wire for various powered on appliances on that circuit? |
Laptop trips GFI
w_tom wrote:
First, to have a common mode noise (leakage), the computer must have separate incoming and outgoing electrical paths. Incoming is AC electric. What is the outgoing path? Well, that's why I lack enthusiasm for the common mode noise explanation. But it can and does happen, of course. The question is, as you suggested, what are the numbers. Simply imagine some capacitance to ground on the AC lines. This forms the return circuit for the high-frequency noise that trips the GFCI. The SMPS power bricks are supposed to contain filtering to prevent this kind of "interference" but the filter caps might have dried out. Second, leakage through a resistance is rare. Leakage occurs more often through reactive devices. That means the ohm meter will not measure leakage through components whose conductivity increases with frequency and voltage. IOW these leaks would appear as high resistance (notice I did not say impedance) to the meter. I think the leakage resistance is easier to understand if you consider that all real-world capacitors and inductors contain some resistance. You can imagine a real capacitor as a perfect capacitor (no resistance or inductance) in parallel with a perfect resistor. That resistance is called series resistance or leakage resistance. Sometimes it is frequency-sensitive, but that is not what I believe we are seeing here. The ohmmeter will readily measure this resistance (if it is not too high) because it is quite real. Third, all appliances have leakage. GFCI trip is not just from one device. Sometimes it is leakage from numerous devices combined. And yet the meter would test every device and see no leakage from any of them. Yes, I agree fully. However, it was established in an earlier post that nothing but the computer was connected to this GFCI receptacle. And that nothing was connected to the computer. To put numbers to what was posted - appliances typically leak less than 150 microamps when working normally. Show me the meter that will measure this 800 Kilohm or 1 Megohm resistor? Meter will declare infinite resistance (more than tens of megohms) when leakage says 'impedance' (not resistance) is lower. Not sure what you are saying here. Almost any meter will measure 1 megohm of resistance. I don't believe the leakage causing the problem is due to a low-reactance condition between the hot wire and the grounding conductor. I believe the problem may be due to a (relatively) low resistance between the hot wire and the grounding conductor. I believe that resistance may be leakage resistance in a capacitor in the power brick. It is a lot more common, I think, for appliances to develop "low" resistance leakages to ground and relatively uncommon for them to develop "low" reactances to ground. Not mentioned is the brand name and model of that laptop. Not mentioned is whether that power brick is from the manufacturer or from a third party. Not mentioned is whether a useless power strip protector is being used. I am not sure whether the power brick is two prong or three - another critical fact. It appears a 3-prong plug is being used. But this is certain. Whether the laptop starts up or is powered constantly, the current coming in one wire will always equal the current going out the other - if hardware is working properly. For those two currents to be different, then current must have another (third) path out of the laptop / power brick system. So where is that third path? And how much current in that third path. Yes. And the only path I can imagine is as described earlier. Notice - without numbers then one can only speculate. Get numbers. How much current is in the safety ground wire for the entire GFCI circuit? That shouldn't matter. The GFCI will work as well without a ground wire as with one carrying 20 amps! It is not even connected to the ground wire. As long as there is no net current in the hot and grounded conductor pair, the GFCI shouldn't trip. Does the laptop cause this problem when it is the only item on that GFCI circuit? Yes. Contrary to what that meter will say - all appliances have some leakage - which is why the ohm meter cannot report 'real' amount of leakage. If we measure a leakage on the power brick of 20,000 ohms, then regardless of what is happening with other appliances, we have established that the power brick is capable of tripping the GFCI all by itself and we need look no further. An alternative to using the ohmmeter is to use a sensitive clamp-meter (or even an AC ammeter) on the grounding conductor. Keeping in mind, of course, that these instruments are not likely to give a meaningful measurement of the high-frequency, common-mode noise that is the other candidate explanation for the tripping. An oscilloscope or spectrum analyzer would be more useful. Since there are no other appliances on that GFCI circuit, then other appliances are irrelevant to this particular problem. Hope I haven't added to the confusion. Chuck |
Laptop trips GFI
w_tom wrote in :
First, to have a common mode noise (leakage), the computer must have separate incoming and outgoing electrical paths. Incoming is AC electric. What is the outgoing path? The ground in the computer is hooked to the ground in the NMEA bus, the printer through the printer cable, the computer's own troublesome charger. Because of any NMEA connections, it's also connected to that AC battery charger under the quarterberth, which is also hooked to AC ground. How many paths does it need?? Second, leakage through a resistance is rare. Leakage occurs more often through reactive devices. That means the ohm meter will not measure leakage through components whose conductivity increases with frequency and voltage. IOW these leaks would appear as high resistance (notice I did not say impedance) to the meter. This troublesome computer has a 3-prong grounded power plug, so we may assume it also has in input double pi line filter, or at least some disc ceramics in the .01 to .05 uF range between "hot" and neutral and ground. The ac current differential caused by the input filter's capacitors is more than enough to cause trips, which is why I wanted him to first plug the computer into a ground buster to eliminate the connection between the computer power supply ground and the boat AC ground to isolate this type of tripping. If the ground buster fixes the problem, he merely leaves it plugged into the ground buster and goes about his business, occasionally getting a tingle from the ground on the RS-232C shell, maybe. He'd be fine. Then, I was going to have him measure the voltage between the unconnected ground pin and boat ground to see how hot it was. You can imagine the $24 switching power supply of the bargain laptop has nothing but the finest, mil-spec line filter parts....totaling, probably, 10 cents, tops.... Third, all appliances have leakage. GFCI trip is not just from one device. Sometimes it is leakage from numerous devices combined. And yet the meter would test every device and see no leakage from any of them. Maybe nothing else is plugged into this OUTLET GFI. It could serve more than one outlet from its internal terminals, though. The GFI outlet in my bathroom services the AC outlet on the side of my house, too. Notice - without numbers then one can only speculate. Everything we do on this newsgroup is speculation...an exchange of guesses and ideas that usually come up with a solution or prod the asking party into taking a different path to the solution than the one he was taking.... |
Laptop trips GFI
No, NOTHING was plugged into the computer. Certainly no NMEA devices. That
said, I probably lied; I use a wireless mouse that MAY have been plugged in to a USB port every time. The laptop is a SONY VGN-A190 with Sony AC brick with a 3 wire plug. In a year of use, I cannot remember it ever starting up without tripping the GFI - EXCEPT TODAY! This is totally unreal. I came up to the boat this afternoon and made sure everything was turned off and nothing else plugged into the AC - only the ships battery charger was on, even the DC was off. I fired up the AC outlets and tuned on the computer, No fault. I turned off the computer, turned everything on and tried again. Still no fault I tried 4 times and can't cause it to fault. I'll try again in the morning after it has been off over night. "Larry" wrote in message ... w_tom wrote in : First, to have a common mode noise (leakage), the computer must have separate incoming and outgoing electrical paths. Incoming is AC electric. What is the outgoing path? The ground in the computer is hooked to the ground in the NMEA bus, the printer through the printer cable, the computer's own troublesome charger. Because of any NMEA connections, it's also connected to that AC battery charger under the quarterberth, which is also hooked to AC ground. How many paths does it need?? Second, leakage through a resistance is rare. Leakage occurs more often through reactive devices. That means the ohm meter will not measure leakage through components whose conductivity increases with frequency and voltage. IOW these leaks would appear as high resistance (notice I did not say impedance) to the meter. This troublesome computer has a 3-prong grounded power plug, so we may assume it also has in input double pi line filter, or at least some disc ceramics in the .01 to .05 uF range between "hot" and neutral and ground. The ac current differential caused by the input filter's capacitors is more than enough to cause trips, which is why I wanted him to first plug the computer into a ground buster to eliminate the connection between the computer power supply ground and the boat AC ground to isolate this type of tripping. If the ground buster fixes the problem, he merely leaves it plugged into the ground buster and goes about his business, occasionally getting a tingle from the ground on the RS-232C shell, maybe. He'd be fine. Then, I was going to have him measure the voltage between the unconnected ground pin and boat ground to see how hot it was. You can imagine the $24 switching power supply of the bargain laptop has nothing but the finest, mil-spec line filter parts....totaling, probably, 10 cents, tops.... Third, all appliances have leakage. GFCI trip is not just from one device. Sometimes it is leakage from numerous devices combined. And yet the meter would test every device and see no leakage from any of them. Maybe nothing else is plugged into this OUTLET GFI. It could serve more than one outlet from its internal terminals, though. The GFI outlet in my bathroom services the AC outlet on the side of my house, too. Notice - without numbers then one can only speculate. Everything we do on this newsgroup is speculation...an exchange of guesses and ideas that usually come up with a solution or prod the asking party into taking a different path to the solution than the one he was taking.... |
Laptop trips GFI
Not unreal. For example, some leakage could be between
wires inside an electric box that become more conductive when humidity increases. Not conductive enough alone to trip a GFCI, but conductive enough when combined with leakage from the laptop. Also the battery charger was on - but was it charging when tests were conducted. All appliances have galvanic isolation. That means (in theory) low voltage circuits are isolated from AC mains - not leakage. In reality, even galvanic isolation has microamp leakage. I have even seen where a low voltage light causes just enough leakage to create rare and intermittent GFCI trips only when other appliances were powered just because a chipmunk chewed into insulation of that low voltage (and buried) wire. You have a battery charger on the circuit. How much is it leaking? The numbers, such as the normal leakage into safety ground wire where that safety ground wire connects to breaker box, are so important to those who would answer your posts. Again, what was humidity then verses today? How long since the last rain or a last boat hose down? And even what was powered from the battery when you were testing previously? Search for alternative circuits for current leakage - and that even includes the battery charger. GFCI says you have leakage somewhere. Now all we need do is find that leakage. Its easy to say - and so damn difficult to put into reality. Nothing unreal about your problem. Have solved these things so many times that I have no belief in ghosts. But then others long since give up before I do. My sympathies for your frustration and my envy for your challenge. JohnHH wrote: No, NOTHING was plugged into the computer. Certainly no NMEA devices. That said, I probably lied; I use a wireless mouse that MAY have been plugged in to a USB port every time. The laptop is a SONY VGN-A190 with Sony AC brick with a 3 wire plug. In a year of use, I cannot remember it ever starting up without tripping the GFI - EXCEPT TODAY! This is totally unreal. I came up to the boat this afternoon and made sure everything was turned off and nothing else plugged into the AC - only the ships battery charger was on, even the DC was off. I fired up the AC outlets and tuned on the computer, No fault. I turned off the computer, turned everything on and tried again. Still no fault I tried 4 times and can't cause it to fault. I'll try again in the morning after it has been off over night. |
Laptop trips GFI
Another lie, the power brick is only two wire and the prongs aren't
polarized. Funny how different things look when you look at them. Maybe it was the Dell that had the three wire plug. "Larry" wrote in message ... w_tom wrote in : First, to have a common mode noise (leakage), the computer must have separate incoming and outgoing electrical paths. Incoming is AC electric. What is the outgoing path? The ground in the computer is hooked to the ground in the NMEA bus, the printer through the printer cable, the computer's own troublesome charger. Because of any NMEA connections, it's also connected to that AC battery charger under the quarterberth, which is also hooked to AC ground. How many paths does it need?? Second, leakage through a resistance is rare. Leakage occurs more often through reactive devices. That means the ohm meter will not measure leakage through components whose conductivity increases with frequency and voltage. IOW these leaks would appear as high resistance (notice I did not say impedance) to the meter. This troublesome computer has a 3-prong grounded power plug, so we may assume it also has in input double pi line filter, or at least some disc ceramics in the .01 to .05 uF range between "hot" and neutral and ground. The ac current differential caused by the input filter's capacitors is more than enough to cause trips, which is why I wanted him to first plug the computer into a ground buster to eliminate the connection between the computer power supply ground and the boat AC ground to isolate this type of tripping. If the ground buster fixes the problem, he merely leaves it plugged into the ground buster and goes about his business, occasionally getting a tingle from the ground on the RS-232C shell, maybe. He'd be fine. Then, I was going to have him measure the voltage between the unconnected ground pin and boat ground to see how hot it was. You can imagine the $24 switching power supply of the bargain laptop has nothing but the finest, mil-spec line filter parts....totaling, probably, 10 cents, tops.... Third, all appliances have leakage. GFCI trip is not just from one device. Sometimes it is leakage from numerous devices combined. And yet the meter would test every device and see no leakage from any of them. Maybe nothing else is plugged into this OUTLET GFI. It could serve more than one outlet from its internal terminals, though. The GFI outlet in my bathroom services the AC outlet on the side of my house, too. Notice - without numbers then one can only speculate. Everything we do on this newsgroup is speculation...an exchange of guesses and ideas that usually come up with a solution or prod the asking party into taking a different path to the solution than the one he was taking.... |
Laptop trips GFI
Thanks for your feed back. I have been getting it to fail again by
unplugging the adapter from the wall, waiting a minute and plugging it back in. It seems like it happens far more consistantly if any other 110 appliance is running - like the refrigerator or heater or network router, but not 100% consistant. It's raining cats and dogs today so I am sure I have experienced it in every weather condition. By the way, my digital multimeter measures about 40 meg ohms before it goes to infinity. I am one of those who is going to give it up. I don't think it is serious and I'm losing interest. The problem will go away anyway when I replace the AC-DC converter with a DC-DC one. I'm not really frustrated, I was just curious. I fully expected someone to say, oh yea, that always happens with those power bricks. I'm going to bag this thing for now. Thanks to all of you who replied, it's been informative. John "w_tom" wrote in message ... Not unreal. For example, some leakage could be between wires inside an electric box that become more conductive when humidity increases. Not conductive enough alone to trip a GFCI, but conductive enough when combined with leakage from the laptop. Also the battery charger was on - but was it charging when tests were conducted. All appliances have galvanic isolation. That means (in theory) low voltage circuits are isolated from AC mains - not leakage. In reality, even galvanic isolation has microamp leakage. I have even seen where a low voltage light causes just enough leakage to create rare and intermittent GFCI trips only when other appliances were powered just because a chipmunk chewed into insulation of that low voltage (and buried) wire. You have a battery charger on the circuit. How much is it leaking? The numbers, such as the normal leakage into safety ground wire where that safety ground wire connects to breaker box, are so important to those who would answer your posts. Again, what was humidity then verses today? How long since the last rain or a last boat hose down? And even what was powered from the battery when you were testing previously? Search for alternative circuits for current leakage - and that even includes the battery charger. GFCI says you have leakage somewhere. Now all we need do is find that leakage. Its easy to say - and so damn difficult to put into reality. Nothing unreal about your problem. Have solved these things so many times that I have no belief in ghosts. But then others long since give up before I do. My sympathies for your frustration and my envy for your challenge. JohnHH wrote: No, NOTHING was plugged into the computer. Certainly no NMEA devices. That said, I probably lied; I use a wireless mouse that MAY have been plugged in to a USB port every time. The laptop is a SONY VGN-A190 with Sony AC brick with a 3 wire plug. In a year of use, I cannot remember it ever starting up without tripping the GFI - EXCEPT TODAY! This is totally unreal. I came up to the boat this afternoon and made sure everything was turned off and nothing else plugged into the AC - only the ships battery charger was on, even the DC was off. I fired up the AC outlets and tuned on the computer, No fault. I turned off the computer, turned everything on and tried again. Still no fault I tried 4 times and can't cause it to fault. I'll try again in the morning after it has been off over night. |
Laptop trips GFI
"JohnHH" wrote in
news:1128650796.e0315dfd2c551b142d05eb9a0bd4ebdf@t eranews: This is totally unreal. I came up to the boat this afternoon and made sure everything was turned off and nothing else plugged into the AC - only the ships battery charger was on, even the DC was off. I fired up the AC outlets and tuned on the computer, No fault. I turned off the computer, turned everything on and tried again. Still no fault I tried 4 times and can't cause it to fault. I'll try again in the morning after it has been off over night. See there? I knew we could fix it on the newsgroup!...(c; Ok, next problem to solve....... -- Larry |
Laptop trips GFI
JohnHH wrote:
Another lie, the power brick is only two wire and the prongs aren't polarized. Funny how different things look when you look at them. Maybe it was the Dell that had the three wire plug. So, progress, eh? It's easier to see when you use your eyes. It's easier to think when you don't put garbage into your brain. So, with a 2 wire cableset, unpolarised, did you try it plugged in both ways? Does it do "it" both ways? Is there a great bloody gash and bare wires hanging out the cableset? Covered with black tape? "Sealed up" with smunge from years of handling? Smunge is that black goo that costs so much when spread thinly, hundreds of coats, on "antique" furniture. It comes from human hands and exhalations, sometimes called "patina." If only one way, there is probably a .01 uf "decoupling" capacitor from charger "chassis" ground to one side of the supply, depending on which way it's plugged in. It will be leaky, or possibly open. Replace it with a good one. Don't ask how I know, I've been told I get too technical. The device might have internal transformer caused eddy currents or switching transients capable of tunnelling through the insulation into the ether. Otherwise, there ain't no way this thing can pop a gfci unless there is leakage through the electrocutee. That's you. Try it again with rubber boots on, and rubber gloves. If that solves the problem look for something like an almost dried puddle of puke somewhere near where your hand contacts the case or perhaps a salty damp berth cushion and sweaty underpants, all too close to the wire mesh ssb "ground" plane or something really strange. Reroute the power cableset, away from where it usually is. Try again. Does it happen at only one one outlet / location? Laugh if you want, but this is the real world talking, and truth is stranger than friction, as they try to say... Does this thing have an antistatic plastic case, possibly conductive enough to allow this leakage? Paint it with a good insulating varnish, or keep it in a plastic baggie. Buy a different brand of gfci, maybe a cheaper one will serve better. Terry K "Larry" wrote in message ... w_tom wrote in : First, to have a common mode noise (leakage), the computer must have separate incoming and outgoing electrical paths. Incoming is AC electric. What is the outgoing path? The ground in the computer is hooked to the ground in the NMEA bus, the printer through the printer cable, the computer's own troublesome charger. Because of any NMEA connections, it's also connected to that AC battery charger under the quarterberth, which is also hooked to AC ground. How many paths does it need?? Second, leakage through a resistance is rare. Leakage occurs more often through reactive devices. That means the ohm meter will not measure leakage through components whose conductivity increases with frequency and voltage. IOW these leaks would appear as high resistance (notice I did not say impedance) to the meter. This troublesome computer has a 3-prong grounded power plug, so we may assume it also has in input double pi line filter, or at least some disc ceramics in the .01 to .05 uF range between "hot" and neutral and ground. The ac current differential caused by the input filter's capacitors is more than enough to cause trips, which is why I wanted him to first plug the computer into a ground buster to eliminate the connection between the computer power supply ground and the boat AC ground to isolate this type of tripping. If the ground buster fixes the problem, he merely leaves it plugged into the ground buster and goes about his business, occasionally getting a tingle from the ground on the RS-232C shell, maybe. He'd be fine. Then, I was going to have him measure the voltage between the unconnected ground pin and boat ground to see how hot it was. You can imagine the $24 switching power supply of the bargain laptop has nothing but the finest, mil-spec line filter parts....totaling, probably, 10 cents, tops.... Third, all appliances have leakage. GFCI trip is not just from one device. Sometimes it is leakage from numerous devices combined. And yet the meter would test every device and see no leakage from any of them. Maybe nothing else is plugged into this OUTLET GFI. It could serve more than one outlet from its internal terminals, though. The GFI outlet in my bathroom services the AC outlet on the side of my house, too. Notice - without numbers then one can only speculate. Everything we do on this newsgroup is speculation...an exchange of guesses and ideas that usually come up with a solution or prod the asking party into taking a different path to the solution than the one he was taking.... |
Laptop trips GFI
Thanks Terry, you know the first thing I was going to do when I realized it
wasn't a grounded plug is try reversing it, but I never got around to it, but I will the next time at the boat. As I said, this is more a nuisance than a problem. I don't consider it a safety issue and thus I'm not planning on putting a lot of effort into solving it--bigger issues to focus on. John "Terry Spragg" wrote in message ... JohnHH wrote: Another lie, the power brick is only two wire and the prongs aren't polarized. Funny how different things look when you look at them. Maybe it was the Dell that had the three wire plug. So, progress, eh? It's easier to see when you use your eyes. It's easier to think when you don't put garbage into your brain. So, with a 2 wire cableset, unpolarised, did you try it plugged in both ways? Does it do "it" both ways? Is there a great bloody gash and bare wires hanging out the cableset? Covered with black tape? "Sealed up" with smunge from years of handling? Smunge is that black goo that costs so much when spread thinly, hundreds of coats, on "antique" furniture. It comes from human hands and exhalations, sometimes called "patina." If only one way, there is probably a .01 uf "decoupling" capacitor from charger "chassis" ground to one side of the supply, depending on which way it's plugged in. It will be leaky, or possibly open. Replace it with a good one. Don't ask how I know, I've been told I get too technical. The device might have internal transformer caused eddy currents or switching transients capable of tunnelling through the insulation into the ether. Otherwise, there ain't no way this thing can pop a gfci unless there is leakage through the electrocutee. That's you. Try it again with rubber boots on, and rubber gloves. If that solves the problem look for something like an almost dried puddle of puke somewhere near where your hand contacts the case or perhaps a salty damp berth cushion and sweaty underpants, all too close to the wire mesh ssb "ground" plane or something really strange. Reroute the power cableset, away from where it usually is. Try again. Does it happen at only one one outlet / location? Laugh if you want, but this is the real world talking, and truth is stranger than friction, as they try to say... Does this thing have an antistatic plastic case, possibly conductive enough to allow this leakage? Paint it with a good insulating varnish, or keep it in a plastic baggie. Buy a different brand of gfci, maybe a cheaper one will serve better. Terry K "Larry" wrote in message ... w_tom wrote in : First, to have a common mode noise (leakage), the computer must have separate incoming and outgoing electrical paths. Incoming is AC electric. What is the outgoing path? The ground in the computer is hooked to the ground in the NMEA bus, the printer through the printer cable, the computer's own troublesome charger. Because of any NMEA connections, it's also connected to that AC battery charger under the quarterberth, which is also hooked to AC ground. How many paths does it need?? Second, leakage through a resistance is rare. Leakage occurs more often through reactive devices. That means the ohm meter will not measure leakage through components whose conductivity increases with frequency and voltage. IOW these leaks would appear as high resistance (notice I did not say impedance) to the meter. This troublesome computer has a 3-prong grounded power plug, so we may assume it also has in input double pi line filter, or at least some disc ceramics in the .01 to .05 uF range between "hot" and neutral and ground. The ac current differential caused by the input filter's capacitors is more than enough to cause trips, which is why I wanted him to first plug the computer into a ground buster to eliminate the connection between the computer power supply ground and the boat AC ground to isolate this type of tripping. If the ground buster fixes the problem, he merely leaves it plugged into the ground buster and goes about his business, occasionally getting a tingle from the ground on the RS-232C shell, maybe. He'd be fine. Then, I was going to have him measure the voltage between the unconnected ground pin and boat ground to see how hot it was. You can imagine the $24 switching power supply of the bargain laptop has nothing but the finest, mil-spec line filter parts....totaling, probably, 10 cents, tops.... Third, all appliances have leakage. GFCI trip is not just from one device. Sometimes it is leakage from numerous devices combined. And yet the meter would test every device and see no leakage from any of them. Maybe nothing else is plugged into this OUTLET GFI. It could serve more than one outlet from its internal terminals, though. The GFI outlet in my bathroom services the AC outlet on the side of my house, too. Notice - without numbers then one can only speculate. Everything we do on this newsgroup is speculation...an exchange of guesses and ideas that usually come up with a solution or prod the asking party into taking a different path to the solution than the one he was taking.... |
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