jn,
What about Line conditioners in Surge Protectors and stand alone Line Conditioners
That always depends on the specific devices, so you'd have to take it case by case.
and last question, is it safe to daisy chain one surge protector into another surge protector for the assumed benefit of doubling joule ratings ( i.e. 1500 joules in each bar x 2 = 3000 joule of protection) and line conditioning ( i.e. -30db of reduction in line noise from one and another -30db from the other protector = -60 db in total of noise reduction)
It is indeed safe to daisy chain from an electrical point of view. However, it is not a recommended practice. All the ele guys hate to make a Christmas tree out of cords and adapters. But I understand your question regarding the math, so I'll answer that directly.
If you purchase two SPD's with the same voltage rating, there will be a range of voltages that they will clamp at. And they will never be the same. The lower one will generally take the brunt of the hit, and the higher one may or may not see any current at all, depending on how loose the first MOV is clamp-wise.
If the one taking the brunt eventually fails, it will usually fail into a shorted condition, and pop either the unit's breaker/fuse, or the load panel at your house AC in location. If it fails by opening, then the second would be a belts and suspenders safety. But generally, you will be no better off by just buying two and plugging them together, you have no control over the coordination of the current paths.
The whole house one works with multiport branch spd's because it is in the 400 volt range, and the endpoint branch ones typically 330.
Line conditioners (filters) are generally not designed to work with other line conditioners. It may add benefits in terms of filtering as you describe, but I wouldn't count on it. Many filters stop the noise by sending it to ground or neutral, and having a second one do the same may not benefit.
I'd recommend one unit at a specific location, and a whole house at the load panel.
Thats pretty much all the questions I have on this topic which is just so poorly handled on the web so thanks a bunch for giving some insight
Your welcome. There are so many like w-dude out there, that actual engineers who do it for a living shy away because of the abuse they will get from the un-informed.
There is of course, misinformation out there as well, and it tends to take on a life of it's own.
Can I take this information and apply it in practice at home then?
Of course.
If you find that a line conditioner fails to quiet down a system, there is a very good possibility that it's ground loop intrusion causing the problem and not line voltage quality.
Edit: BTW, if you choose to modify any house wiring to reduce loops, keep in mind that you would be better served having a licensed electrician do the work. Code varies from place to place, and an experienced guy will know local code. Putting cable in the same conduit, box, or sometimes even very close (within the walls), while reducing loop area, may violate local code. Try not to violate local code, as code is there to protect you.
Some things, like running the cable in the next stud bay over from the AC runs as opposed to the other side of the house can make big differences both in noise and in near strike survivability.
Your only wire loop recourse that doesn't concern code, is the wiring on the living side of the sheetrock. Sometimes wire dress there makes a difference, but again, is dependent on what mechanism is intercepting the noise.
jn
