Thinking of getting this UPS / protector for my Home Theater.

[Crow550]

http://www.monoprice.com/products/p...=10839&cs_id=1083901&p_id=4153&seq=1&format=2

Also functions as a UPS.

Anyways the reviews are good. The price seems right. Should I snag this deal or is there anything better?

 

[richardycc]

there is always something better for more money...I like the APC S15, "only" $299 shipped from Vann's. MSRP was $1.5k, some places are still selling it for $750....it's 900watts vs 500watts like the one from monoprice.

 

[s44]

For pure surge protection purposes, a unit like that can't touch a Brickwall. Not sure the UPS aspect does much for you...

 

[Crow550]

Well I think for under $200 it's good. Or uh good enough? My area usually has surges and power outages in the Winter and sometimes in the spring.

Yeah the UPS may not be needed. However if the PS3 is downloading something or whatever.

Just need something to take the stress off the chips from power fluctuations and such.

 

[s44]

Sorry, meant to link the Brickwall (or the OEM)

 

[Crow550]

Hmmmm.....I will take a look.

 

[westom]

Hmmmm.....I will take a look.

Which is why you only look at the manufacture numeric specifications that list protection from each type of surge. And good luck.

Legal is to lie in advertising. Only relevant conclusion is provided in specs - with numbers.

View that UPS. How many joules does it absorb? A thousand? Destructive surges are hundreds of thousands of joules. Near zero joules means near zero protection. And hyped as 100% protection in sales brochures. Did you read the specs? Or is hearsay a reliable source?

So view those specs. "Simulated sine wave". This 120 volt UPS has a similar output. That means it outputs 200 volt square waves with a spike of up to 270 volts between those square waves. As you might remember from high school math, that output is nothing more than a sum of sine waves. Also called simulated, modified, or stepped sine wave.

Some of the 'dirtiest' power electronics will see. Harmful to some small electric motors and power strip protectors. And perfectly ideal power for electronics. All electronics must make even 'dirtier' power irrelevant. All electronics contain protection so robust as to make 'dirtiest' power from a UPS irrelevant.

Why do some new supplies with PFC have problems when a UPS goes into battery backup mode? UPS power is so 'dirty' as to confuse some PFC circuits. And power is 'cleanest' when a UPS connects electronics directly to AC mains.

So where is all this surge protection?

Define what you want to solve. That UPS solves one problem. To protect data and operations from blackouts. Even voltage variation is made irrelevant by better circuits already inside all electronics.

 

[0roo0roo]

Sorry, meant to link the Brickwall (or the OEM)

lol audiophile surge protectors

 

[Modelworks]

I wouldn't buy a surge protection device from monoprice. They typically buy things from the lowest bidder and that isn't something I want when considering power protection.

A $15 apc, belkin or other model with light to indicate the mov haven't failed will work just as good.

 

[westom]

A $15 apc, belkin or other model with light to indicate the mov haven't failed will work just as good.

Learn what the light actually reports. MOVs must only degrade. That means voltage changes by 10%. But to promote sales to the most naive, MOVs are so grossly undersized to fail catastrophically.

A protector that does its job - earths even direct lightning strikes without anyone knowing a surge existed - will never be promoted by the technically naive. The naive cannot recommend something that works - and therefore does not fail. Protectors that are ineffective are undersized - to fail catastrophically.

That light only report a catastrophic - unacceptable - type failure. The protector disconnected as fast as possible. Left the surge connected to an appliance. What kind of protection is that? Grossly undersized so that the technically most naive will recommend it.

Look. Destructive surges are hundreds of thousands of joules. How much energy can that apc or belkin absorb? Near zero. Why does its manufacturer specs not even list protection from each type of surge? They are selling a scam. Apparently you ignored the numbers. Where does apc or belkin list protection from each type of surge? Where are those numbers? They will not even discuss what the light reports.

That light also reports another fact. That one 'whole house' protector was not earthed. Every appliance is protected by one 'whole house' protector (for about $1 per appliance). Even power strip protectors (that cost tens or 100 times more money) need that effective protector that also costs so many times less money. Its light only reports a protector so grossly undersized as to be defective when purchased.

 

[Crow550]

So a basic surge protector is usually sufficient enough?

It seems the one from Monoprice would fit my needs. It offers coax cable protection for my outdoor antenna and Ethernet for my powerline network.

Plus battery backup so when I get a Home Theater PC is has time to shut off.

Monoprice offers a 1 year Warranty then the company of the UPS will offer it's own 2 year Warranty.

I could always try it for 30 days. Then if something better does come along?

I haven't had a problem with any of the products I got from Monoprice so far.
I was wary of surge protectors too.

Until I got this Belkin power strip at Office Depot and it was scraping my power plugs! WTF? So I returned it and got this one at Monoprice: http://www.monoprice.com/products/p...=10247&cs_id=1024705&p_id=7059&seq=1&format=2

It was built better than the Belkin one. 6FT cord too. No complaints. Works great.

I have taken a gamble with a few other products and they have delivered. I have only had one item I had to exchange a Wii charger because one of the batteries was a dud. They were quick to replace it.

So in my experience they do test the products before they sell em. I check em out and price compare with other places and have gotten some excellent products from them.

Or should I seek out the APC S15 as it offers more watts? Hrmmm....

 

[westom]

Monoprice offers a 1 year Warranty then the company of the UPS will offer it's own 2 year Warranty.

That protector makes no protection claims in its numeric specs. You can ignore that fact to be scammed. Or you could also read the warranty fine print. The warranty is just as bogus once you learn of its so many exemptions.
Or read how others did as you did and learned the hard way. Newsman in "SONY TiVo SVR-2000"
> I got a Belkin surge protector with phone line protection soley for Tivo purposes.
> Yet my Tivo's modem still failed. And the '$20,000 connected devices warranty'
> did not help me. I jumped through many hoops, including finding the original
> recept for the surge protector (just under a year old) and I sent my surge
> protector to Belkin (paid for shipping), and was denied my warranty. They gave
> me a ton of crap, ... Eventually it boiled down to a line in the warranty that said
> "Belkin at it's sole discretion can reject any claim for any reason".

If it does protection, then the numbers in its numeric specs says so. It protects from surges that typically do not damage. And know the naive will spend tens of times more money on that Belkin. Did you want surge protection? Or to be so easily deceived even by the warranty?

 

[Crow550]

Protection of course & I know protection warranties are bogus. It would only be useful if the battery died pre-maturely that's about it.

The protection claim is 3000 Joules? Or am I confused about something?

 

[s44]

Only a series mode protector will give you actual protection against a real surge (e.g. lightning strike)...

 

[westom]

The protection claim is 3000 Joules? Or am I confused about something?

Why are you having trouble with numbers posted repeatedly?

First, 3000 joules means it uses only 1000 joules and never more that 2000 for protection. Second, destructive surges are hundreds of thousands of joules. How do hundreds of joules magically absorb hundreds of thousands of joules?

Air is a least conductive material. How does lightning conduct through three miles of sky? And then get magically stopped by tiny parts inside a series mode filter or a miracle power strip? It does not. Stopping surges is classic junk science. Does not happen. Cannot happen. A surge even uses a wooden church steeple to electrically conduct to earth (Ben Franklin). At what point does anything stop or block what three miles of sky could not? Does not happen no matter how many protectors claim to do that.

And finally, where is any numeric spec that lists protection from each type of surge in numbers? The only number cited - 3000 joules - means it is near zero surge protection. They would not even provide that number except that UL requires it. No problem. No specifications claim surge protection. And still an overwhelming majority ignore it? It makes no protection claims. Why then do so many recommend it for surge protection?

 

[Modelworks]

Learn what the light actually reports. MOVs must only degrade. That means voltage changes by 10%. But to promote sales to the most naive, MOVs are so grossly undersized to fail catastrophically.

MOV are produced by companies that have no reason to falsify data. Most of the manufacturers are certified and anyone is free to dispute the testing. I haven't heard of any manufacturer that falsifies MOV data.

That light only report a catastrophic - unacceptable - type failure. The protector disconnected as fast as possible. Left the surge connected to an appliance. What kind of protection is that? Grossly undersized so that the technically most naive will recommend it.

It is better than nothing

Look. Destructive surges are hundreds of thousands of joules. How much energy can that apc or belkin absorb? Near zero. Why does its manufacturer specs not even list protection from each type of surge? They are selling a scam. Apparently you ignored the numbers. Where does apc or belkin list protection from each type of surge? Where are those numbers? They will not even discuss what the light reports.

I know you are on a some sort of crusade about surges but the rest of the worlds everyday users just wants to know what they can buy that will help them with the most common form of surge, that is the spikes that rarely break 1KV and are 50-100ns in duration. The kind of surge that MOV are good at.

That light also reports another fact. That one 'whole house' protector was not earthed. Every appliance is protected by one 'whole house' protector (for about $1 per appliance). Even power strip protectors (that cost tens or 100 times more money) need that effective protector that also costs so many times less money. Its light only reports a protector so grossly undersized as to be defective when purchased.

Assuming that the surge entered at the power entrance that would be true. Whole house does not stop other points of entry like cable or phone lines or the OTA antenna. The light helps users determine if the strip has failed , it is better to have one than not have one. We are not talking about direct strikes.

 

[Modelworks]

Protection of course & I know protection warranties are bogus. It would only be useful if the battery died pre-maturely that's about it.

The protection claim is 3000 Joules? Or am I confused about something?

The protection rating that surge protectors list is usually the rating of the MOV used internally. MOV are rated in how many Joules they can take before failure. The price of course increases with the capacity.

My method of protection is:
Surge protector ----> UPS-----> equipment

Some ups makers do not like that and will tell you not to plug the ups into the surge protector, mainly because they do not know what surge protector you may be using and it may hinder the UPS performance. I have an electronics background and know what is in my protector. UPS can be designed pretty well to take on the role of the surge protector but in my experience they are
usually rated lower than a dedicated protector because the intent is that if the surge goes too high the UPS will switch to battery .

 

[westom]

I know you are on a some sort of crusade about surges but the rest of the worlds everyday users just wants to know what they can buy that will help them with the most common form of surge, that is the spikes that rarely break 1KV and are 50-100ns in duration. The kind of surge that MOV are good at.

Everything I have posted is also found in MOV data sheets. They did not lie. You simply did not read those datasheets.

An MOV does not make a 1kV spike magically disappear. The NIST (US government research agency) says exactly what an MOV does when used properly:
> You cannot really suppress a surge altogether, nor "arrest" it. What these
> protective devices do is neither suppress nor arrest a surge, but simply
> divert it to ground, where it can do no harm.

So what happens when a 1kV voltage exists across MOVs. Well, view MOV datasheets. If 1kV exists across an MOV, then current is so massive as violate MOV manufacturer maximum parameters. IOW an MOV fails catastrophically - a completely unacceptable failure mode as I defined previously. A typical MOV operating as the manufacturer required means 800 volts max. What is that surge current? About 1000 amps.

Include additional facts. That means 1000 amps must seek earth ground via a safety ground wire. A wire of less than 0.2 ohms resistance is also about 120 ohms impedance. 1000 times 120 is 120,000 volts. So where does that 1000 amps go. Obviously it cannot seek earth via a safety ground wire. Current finds destructive paths; ie blows through nearby electronics.

Same point made in so many IEEE papers and other sources. And that is what we engineers discovered by literally replacing every damaged IC to trace the surge and fix electronics. MOVs at 800 volts, too far from earth ground and too close to electronics, means it finds paths destructively via nearby appliances. MOV simply made surge damage easier.

Yes, it is 800 volts across the MOV. An IEEE brochure also shows 8,000 volts destructively through the nearby TV.

Once energy is inside, then nothing can stop a destructive hunt for earth. Those 6000 and 5200 volts will find earth destructively any appliance it chooses. Which is why some appliances are damaged and others are not. Protection is always - as in you have no choice - always about where energy dissipates.

Surge protection means near zero voltage because massive currents obtains earth harmlessly outside the building. Or 6000 and 5200 volts because some protector at 800 volts is ineffective. Protection is always about where energy dissipates. Always - as in your every post must discuss energy dissipation to have validity. Energy must dissipate harmlessly in earth.

The NIST defined protectors without earthing:
> A very important point to keep in mind is that your surge protector will
> work by diverting the surges to ground. The best surge protection in
> the world can be useless if grounding is not done properly.

Either is connects that 1000 amps within feet to earth ground. Or it can only protect using myths. At what point does the word "useless" get attention?

Effective protection means thousands of amps must not enter a building. No way around that reality. A protector (MOVs) is only as effective as its earth ground. Numbers are directly from MOV datasheets. Datasheets did not lie. You have not yet read those datasheets. And did not always ask the important question - where does energy dissipate? Every informed consumer knows this: a protector is only as effective as its earth ground.

Another number - it switches to battery? Surges are done in microseconds. See that even in MOV datasheets. By the time a UPS switches to batteries, then 300 consecutive surges have already passed through that UPS to do damage. That switches to battery lies is very popular when wild speculation replaces facts and numbers. Being so slow, no UPS manufacturer lists protection in its numeric specs.

Another famous and popular urban myth. How does a millimeter gap in a relay stop a surge? It doesn't. Only the most easily deceived claim millimeters will stop what three miles of sky could not. Another reason why that UPS manufacturer claims no protection in numeric specs. Its easier to get consumers to promote the junk science - which means making claims without numbers. How does that millimeter gap stop a surge? I doesn't.

Reason after reason it ignore anyone promoting a UPS for surge protection. Best called a scam exposed when one learns numbers – such as that manufacturer spec. Or why the informed consumer spends about $1 per protected appliance for the well proven and effective solution - one 'whole house' protector. Then MOVs actually do surge protection.

 

[Modelworks]

A typical MOV operating as the manufacturer required means 800 volts max. What is that surge current? About 1000 amps.

Very few surges that enter a home are 1000A. Most don't exceed 10A at voltages over 600volts. That is what MOV are good for. They can shunt the voltage spikes that are most common.

Same point made in so many IEEE papers and other sources. And that is what we engineers discovered by literally replacing every damaged IC to trace the surge and fix electronics. MOVs at 800 volts, too far from earth ground and too close to electronics, means it finds paths destructively via nearby appliances. MOV simply made surge damage easier.

I don't know what engineers you refer to but all the ones I have worked with place MOV at the devices power input right next to the rest of the circuits. MOV do not make the damage easier, they shunt the surge and dissipate the energy as heat. Try getting a power supply through UL labs without using any MOV on the input stage.

Once energy is inside, then nothing can stop a destructive hunt for earth. Those 6000 and 5200 volts will find earth destructively any appliance it chooses. Which is why some appliances are damaged and others are not. Protection is always - as in you have no choice - always about where energy dissipates.

A surge will take the path of least resistance until the MOV clamps the lines, at which point the path of least resistance is the MOV.

Surge protection means near zero voltage because massive currents obtains earth harmlessly outside the building. Or 6000 and 5200 volts because some protector at 800 volts is ineffective. Protection is always about where energy dissipates. Always - as in your every post must discuss energy dissipation to have validity. Energy must dissipate harmlessly in earth.

Surge protection means diverting the energy to another path other than the protected circuit. You can convert it to heat, light, or send it into the ground. A tvs diode can stop a surge by shunting it to ground , and a MOV does it by heat.

Effective protection means thousands of amps must not enter a building. No way around that reality. A protector (MOVs) is only as effective as its earth ground. Numbers are directly from MOV datasheets. Datasheets did not lie. You have not yet read those datasheets. And did not always ask the important question - where does energy dissipate? Every informed consumer knows this: a protector is only as effective as its earth ground.

Unless you have a lightning rod on the roof connected to your breaker box the chances of thousands of amps entering the home are very low. You are more likely to receive transients left over from the protectors employed in the distribution network than you are to see anything close to what a direct strike produces. For an MOV to be effective all it needs is to be connected between the wire with the surge and a wire with an opposing current. Sometimes that is ground, sometimes that is another phase of the power lines. Earth ground is necessary when you are dealing with surges by diverting them into the ground. It is not necessary when you are dealing with surges by shunting the path to the circuit as well as the return because the current cannot flow once the shunt is in place. The energy becomes heat across the shunt. How are you going to divert a surge on the secondary of a transformer into ground ? You can't because the current out of the secondary has no relationship to ground. You could connect it to a 100 mile deep ground rod and it wouldn't matter.

Another number - it switches to battery? Surges are done in microseconds. See that even in MOV datasheets. By the time a UPS switches to batteries, then 300 consecutive surges have already passed through that UPS to do damage. That switches to battery lies is very popular when wild speculation replaces facts and numbers. Being so slow, no UPS manufacturer lists protection in its numeric specs.

Surges most common to offices and homes are in the 20 to 100us range. Mov and tvs diodes are designed to divert the current long enough to allow the slower parts of the design like switching to battery to take place. A UPS can complete the switch in about 25ms. Add in inductors and capacitors and you can delay the surge from reaching the rest of the UPS even longer.

Another famous and popular urban myth. How does a millimeter gap in a relay stop a surge? It doesn't. Only the most easily deceived claim millimeters will stop what three miles of sky could not. Another reason why that UPS manufacturer claims no protection in numeric specs. Its easier to get consumers to promote the junk science - which means making claims without numbers. How does that millimeter gap stop a surge? I doesn't.

It doesn't need to. The surge by the time it has passed through MOV, diodes, inductors, capacitors is nowhere near what it was earlier. By the time it reaches the point of the switchover relay it is a small percentage of what it needs to be to jump the gap.

Reason after reason it ignore anyone promoting a UPS for surge protection. Best called a scam exposed when one learns numbers – such as that manufacturer spec. Or why the informed consumer spends about $1 per protected appliance for the well proven and effective solution - one 'whole house' protector. Then MOVs actually do surge protection.

One whole house protector will not stop surges completely. They are a good investment but will not prevent surges from other sources like cable lines, phone lines, even drain pipes can be a source. They also will not protect against over voltage that are too low to trigger a MOV. If a home experiences 240VAC on a 120VAC circuit a surge protector would do nothing to help. The UPS though can detect the voltage exceeding the preset limit and disconnect the mains and switch to battery.

The ultimate protection would be a home powered off an isolation transformer. Unfortunately the step down transformers used in the USA for power distribution are center tapped with the tap grounded making the homes power have a direct connection with ground.

 

[Emulex]

if you can afford the waste, use a SMT smart ups double conversion model. The SUA line is a pure sine wave but not double conversion so a certain level of noise is passed through.

I've got the SUA2200 with the 4 car-battery option and it runs about 400 minutes @ 40% load.

 

[westom]

Very few surges that enter a home are 1000A. Most don't exceed 10A at voltages over 600volts. That is what MOV are good for. They can shunt the voltage spikes that are most common.

You defined transients made irrelevant by protection inside every appliance. Be concerned only with transients that cause damage. Hundreds of joules is a near zero surge made irrelevant by protection even inside every dimmer switch and kitchen GFCI. Please learn numbers for damage.

100+ amp surges are destructive. And again do the math. 100 amps times 120 ohms impedance means an appliance approaching 12,000 volts. Either that 100 amps must be earthed before entering the building – near zero volts. Or 100 amps is seeking earth destructively (8000 volts through the adjacent TV in an IEEE brochure).

Then learn what all protector systems must protection from. A late 1970s IEEE paper shows lighting striking wires down the street. Therefore 20,000 amps was entering the house. Welcome to what surge protection is really about.

Meanwhile, you also *know* UL does not care whether any protector does protection. UL is about human safety. Telling me how to think when you did not even know that? Your posts are intentionally insulting. You did not even know what UL tests for. Protectors could even fail during UL1449 testing. And still be listed. As long as failure does not threaten human life. Please stop posting nonsense – such as UL test whether a protector does protection. UL does not care. That is not what UL tests for.

So a surge will take the path of least resistance? The high school physics equation is simple.
W = I^2 * R

If the MOV decreases resistance, then is absorbs less energy. But you claim protectors work by absorbing surges as heat? Which is it? You cannot have it both ways. And since you did not ask such damning questions, you are now trying to teach me how electricity works?

How do MOVs at hundreds of joules absorb surges that are hundreds of thousands of joules? Remember, I designed protectors. You did not. I asked this question repeatedly. To avoid admitting to being scammed, you avoided those numbers. Now you are telling me that ad men know more than engineers? That spin doctors are smarter? Again, please stop insulting me with lies. Ask how a protector works. Do you also tell your doctor how to diagnosis cancer?

A tvs diode will stop a surge? How does it stop what three miles of sky could not? Again, either apologize for not knowing this stuff. Or tell me how a tvs diode blocks what three miles of sky could not. If a tvs diode blocks surges, then you need no surge protection. Because every appliance has protection even better than that.

Look. Apparently you should step back and learn what even Franklin demonstrated. That surge seeks earth ground. What was the best path to earth? 20,000 amps via a wooden church steeple. Yes, wood is an electrical conductor. But wood is not a superb electrical conductor. So 20,000 amps creates a high voltage in that wood. The math is simple. 20,000 amps times high voltage means high energy. Church destroyed. Nothing stops a surge. Neither wood nor less conductive air stops surges. And certainly not a tvs diode.

Franklin installed a lightning rod. Then the naive argued over pointed verses blunt rods. They ignore what they could not see. Only earth ground makes that lighting rod effective. A conductive path to earth means a near zero voltage is created. 20,000 amps times near zero voltage means near zero energy. Now a direct lightning strike conducts harmlessly to earth. And so the always ‘must be answered’ question. Where does energy dissipate?

Effective protectors absorb even less energy. And make a connection to earth as conductive as possible Only those without electrical knowledge foolishly think a protector will stop or absorb surges. That is what spin doctors teach them. Meanwhile, those trained by spin ignore hard facts. Why does that plug-in protector not list protection in its numeric specs? That is everything you need know. Because it does not claim to protect from typically destructive surges. It claims to protect from surges too small to overwhelm protection already inside each appliance.

Meanwhile an IEEE paper in the late 1970s defined how surges enter a home. Lighting striking wires down the street means 20,000 amps entering a home. Speculate all you want about mythical 10 amp surges. But surges that do damage are hundreds or thousands of amps.

Your only number – 10 amps – says a surge so trivial as to cause no appliance damage. I was probably doing this stuff long before you even existed. It is one thing to ask why contradictions exist. Why do advertisements claim protection that is not defined in numeric specs? It is another to tell me knowledge that also says you did not even take even one circuits course. Tell me what wire impedance is and why it is important.

Knowledge means surge protection even for 20,000 amp surges without even a damaged protector. UL is only about human safety – not surge protection. A tvs diodes never stopped what miles of sky cannot. Surges even conduct through wood. Protection is always about where energy dissipates. W=I^2 * R . A protector is only as effective as its earth ground. Only one of us designed these things at the ‘solder the parts’ level – using datasheets, with numbers, and without damage during each direct lightning strike. Please stop trying to educate me using myths, lies, and no numbers. That is only insulting.

No protector works by absorbing a destructive surge. If it did, then protection inside every appliance is the only protection needed.

 

[MarkGinger]

Well I think for under $200 it's good. Or uh good enough? My area usually has surges and power outages in the Winter and sometimes in the spring.

Yeah the UPS may not be needed. However if the PS3 is downloading something or whatever.

Just need something to take the stress off the chips from power fluctuations and such.

For $200 there's no point of getting any surge protector. Your best bet is always to buy a proper UPS that will protect your equipment from power problems, give you time to shut down and function as an awesome surge protector. Get the most for your money.

 

[MarkGinger]

if you can afford the waste, use a SMT smart ups double conversion model. The SUA line is a pure sine wave but not double conversion so a certain level of noise is passed through.

I've got the SUA2200 with the 4 car-battery option and it runs about 400 minutes @ 40% load.

A double conversion model is the biggest overkill for any household. So few businesses use them that it's completely impractical. The most common line that's used in data centers across the US is SUA. It's the most optimized UPS.


The SUA2200 with 4 car batteries which provides 400 minutes of run time is a tank!

 

[Modelworks]

Meanwhile, you also *know* UL does not care whether any protector does protection. UL is about human safety. Telling me how to think when you did not even know that? Your posts are intentionally insulting. You did not even know what UL tests for. Protectors could even fail during UL1449 testing. And still be listed. As long as failure does not threaten human life. Please stop posting nonsense – such as UL test whether a protector does protection. UL does not care. That is not what UL tests for.

UL refuses designs with lack of protection on the input as part of the safety design of the product. The reason being that if the product were to encounter a surge during normal use it cannot fail in a way that would harm the user. It isn't about if the device fails but in how it fails.

If the MOV decreases resistance, then is absorbs less energy. But you claim protectors work by absorbing surges as heat? Which is it? You cannot have it both ways. And since you did not ask such damning questions, you are now trying to teach me how electricity works?

Take a 1 ohm resistor and short the AC outlet , what path did the electricity take and why did the resistor get hot ? The electricity took the path of least resistance across the resistor. That heat consumed part of the energy. When designing a circuit I had to account for every bit of energy, not just the theoretical based on part values, but losses from heat in the pathways, the solder connections, even the length of the leads to the components .

How do MOVs at hundreds of joules absorb surges that are hundreds of thousands of joules? Remember, I designed protectors. You did not.

Some of the energy gets converted into heat. As for what I designed here are my credentials.

Masters in Electrical Engineering -NC State University
Aviation Electronics and Power production - US Navy
Supercomputer networking interconnects - Sandia National Labs
Consumer Electronics Production and Design -General Electric
Product failure analysis - Sharp

I asked this question repeatedly. To avoid admitting to being scammed, you avoided those numbers. Now you are telling me that ad men know more than engineers? That spin doctors are smarter? Again, please stop insulting me with lies. Ask how a protector works. Do you also tell your doctor how to diagnosis cancer?

I don't get into numbers because people visiting here do not want to hear theory, they want advice on what they can buy not a lecture on electrical theory.

A tvs diode will stop a surge? How does it stop what three miles of sky could not? Again, either apologize for not knowing this stuff. Or tell me how a tvs diode blocks what three miles of sky could not. If a tvs diode blocks surges, then you need no surge protection. Because every appliance has protection even better than that.

tvs diode conduct when the limit is reached, similar to a zener providing an alternate path for the surge.

Neither wood nor less conductive air stops surges. And certainly not a tvs diode.

You seem to keep getting stuck on every surge being a direct strike and that isn't the case at all. Do you think that companies like Eaton and APC do not test their products ? Do you think they just say lets throw some mov and tvs diodes on here, and oh lets put some inductors and capacitors for the hell of it and ship it ? Of course not, they both send huge amounts of surge currents , brownouts, overvoltage, through products to verify they do work for their intended use.

And so the always ‘must be answered’ question. Where does energy dissipate?

Part of the energy is dissipated as heat or even physical force moving the conductors when large discharges occur. Other times it also is dissipated as light, hopefully not in the home

Why does that plug-in protector not list protection in its numeric specs? That is everything you need know. Because it does not claim to protect from typically destructive surges. It claims to protect from surges too small to overwhelm protection already inside each appliance.

Most protectors do list their specifications, or at least the ones I buy do.

Meanwhile an IEEE paper in the late 1970s defined how surges enter a home. Lighting striking wires down the street means 20,000 amps entering a home. Speculate all you want about mythical 10 amp surges. But surges that do damage are hundreds or thousands of amps.

Again , surges are created in more ways than lightning strikes. Lightning is a small part of the surges that occurs in power systems.

Your only number – 10 amps – says a surge so trivial as to cause no appliance damage.

A surge of 3A @ 600V will destroy most power supplies that convert to DC without some form of protection. The sound of capacitors blowing would sound like fireworks

I was probably doing this stuff long before you even existed. It is one thing to ask why contradictions exist. Why do advertisements claim protection that is not defined in numeric specs? It is another to tell me knowledge that also says you did not even take even one circuits course. Tell me what wire impedance is and why it is important.

I have spent more time with circuits than I did with people . I did read the work of that Kirchhoff guy, it was a bit long winded and I didn't care for the plot much but the characters were pretty detailed and the ending didn't leave me hanging like that Maxwell guys stuff. Still Tesla is where its at if you want some really good reading.

UL is only about human safety – not surge protection.

They are not exclusive. A product cannot fail in testing in such a way as to start a fire or pass a surge current through an exposed surface should it fail.

A tvs diodes never stopped what miles of sky cannot.

It isn't supposed to. It can divert surges within its rating though.

Surges even conduct through wood. Protection is always about where energy dissipates. W=I^2 * R .

And when the surge conducts through the wood why isn't the energy that dissipates into ground the same as the source ? Why does the wood heat up ? What produced the heat ?

A protector is only as effective as its earth ground.

A protector does not rely on earth ground. It relies on an alternate current pathway that can take many forms not jusst earth ground. A surge on a DC power source provided by batteries cannot make use of earth grounding but still can use surge protection . An AC source out of a transformer can not make use of earth ground. If I took a 1:1 transformer and powered several TV and one of those TV failed in a way as to induce a surge in the power then no amount of earth grounding would matter to the other TV. MOV could still stop the surge and no earth grounding is needed. Large motors use surge protection circuits and are powered off lines that have no earth ground.

Only one of us designed these things at the ‘solder the parts’ level – using datasheets, with numbers, and without damage during each direct lightning strike. Please stop trying to educate me using myths, lies, and no numbers. That is only insulting.

Me thinks he doth protest too much.”. I am not going to get into a pissing match over what you know or don't know because I don't know you personally. I will say again that people coming for answers are not looking for a lecture in electrical theory with formulas and lab experiments, you only put off the person asking when you do that. I see it time and again , someone wants information on something or is wanting to try something new and people reply with information that is so complex and overwhelming that it scares the person away . So many people are turned off by learning electronics because the first thing they hear when asking questions is all the math and physics and not the practical side. For example someone asked about learning microprocessors. They got replies telling them about CISC, RISC, clock speeds, emulators , compilers, ADC, etc. The person almost gave up. Instead I told them to buy an arduino kit, download the software that is free and try some simple things like blinking an LED. There is a place for theory and formulas , but using it for beginners is going to just get an okay response without helping much.

No protector works by absorbing a destructive surge. If it did, then protection inside every appliance is the only protection needed.

Any resistive element can absorb a surge. The energy is converted to heat if the element is large enough it can absorb the entire surge.

 

[Modelworks]

A double conversion model is the biggest overkill for any household. So few businesses use them that it's completely impractical. The most common line that's used in data centers across the US is SUA. It's the most optimized UPS.


The SUA2200 with 4 car batteries which provides 400 minutes of run time is a tank!

I think it depends on your local power quality. Where I live I haven't figured out what the issue really is but I swear the wind can blow the wrong direction and the power will drop out for about 1 second almost every day. It never drops for more than 5 seconds, just long enough to make the clock blink 12:00 I asked the local utility but they said there wasn't anything specific they could point to but in my situation an online UPS is almost a requirement.