100v,115v versus 230v


Some audio technicians/ enthusiasts claiming that, high end audio equipment performs much better european 220/230v even 240 UK  voltage if that's the case why USA 110V / 120 volt AC ?
128x128sabih
Thank you all participated members & contributors , a part from safety aspects of AC  mains 120 or 230/ 240 volt, only a few audiophiles commented on benefits or advantages of running Audio equipment 230/240 volt. (ditusa  I run my amps on 230Vac.They sound better. (Improved speed and better transient response.)  which I totally agree with him , after peeling the layers decided to install 240 volt AC  mains in my new home rather then converters or step up/down devices thanks to  (JEA48 Jim.) and Ditusa how easy to install 240 volt US homes also plenty info on you tube https://www.youtube.com/watch?v=2h2XsKgkFCo
remaining problem is voltage fluctuation in US Voltage can go up to 124 volt or higher even below 120 volt , similar problem in UK  voltage can go up well above 240 even well below 240v depending on peak time, tv , washing machine etc , etc, I  believe oversize transformers may able to coop with this , but for standard transformers it may be a problem can anyone suggest adding voltage stabilizer resolve this issue.
@ JEA48= Your right about the (SMPS.) It was my thinking to. But my amps, are not (SMPS.) The amps i have are a crown studio refs one, emotiva xpa 1 gen2 mono blocks, emotiva xpa1L gen2 mono blocks. They are SS class AB amps. In my audio rig (to my ears) they sound better on 230V then 115V. That is what i said in my first post. I wanted to know if any one experienced the same thing. Cables and power cords in my audio rig make no change in sound..0. But the voltage did.! At a cost of $300.00. I was hoping the audio engineers on the audiogon form might know why.? I have not tried this with my tube amps, (yet.) The dual force called electricity is the most powerful force in the universe.. Thanks for the info on line frequency 50/60 Hz i did not know that...Mike

As the current approaches 100 milliamps, ventricular fibrillation of the heart occurs - an uncoordinated twitching of the walls of the heart's ventricles which results in death.

Above 200 milliamps, the muscular contractions are so severe that the heart is forcibly clamped during the shock. This clamping protects the heart from going into ventricular fibrillation, and the victim's chances for survival are good.

https://www.asc.ohio-state.edu/physics/p616/safety/fatal_current.html   

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ditusa133 posts  

08-16-2020 
 9:02pm  

@jea48= "I doubt any audio equipment designer/manufacturers would agree with you that feeding their equipment 240Vac is better than 120Vac for the sound from their audio equipment."
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Not to be disagreeeable but see this recommendation re voltage...see section 7. When i bought my (crown studio ref one amp) it comes with a (230V/30A) plug....

https://cdn.shopify.com/s/files/1/2572/6926/files/XPA_HC-1_User_Manual_v10.pdf?30550

It sure does!
7. IEC Power Cord Receptacle.

The XPA HC-1 can be powered by any receptacle that provides between 100 VAC and 250 VAC at 50/60 Hz. This receptacle accepts a standard removable IEC AC power cable (a high-quality commercial power cable is included).

Note: The XPA HC-1 will provide excellent performance and exceptional sound quality with any line voltage between 100 VAC and 250 VAC; however, for the absolute ultimate in performance, a 230 VAC line is recommended.
I noticed it has a Switched Mode Power Supply.
Why the designer/manufacturer recommends 230Vac? Maybe to eliminate the possibility of AC Line voltage drop. It would be interesting to see a schematic wiring diagram of the power supply of the amp.

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Glupson.
Of courseit’s safer with power off. But often units must be kept powered so that internal voltages, etc, can be checked. That’s when it’s best to keep one hand out of play.
@jea48= "I doubt any audio equipment designer/manufacturers would agree with you that feeding their equipment 240Vac is better than 120Vac for the sound from their audio equipment."
_____________________
Not to be disagreeeable but see this recommendation re voltage...see section 7. When i bought my (crown studio ref one amp) it comes with a (230V/30A) plug....

https://cdn.shopify.com/s/files/1/2572/6926/files/XPA_HC-1_User_Manual_v10.pdf?30550
"That’s why electronic technicians keep one hand behind their back when working
on circuits with high voltages."

Wouldn't they be safer by disconecting from power?
I think some of you are confused about the phenomenon of human electrocution. It’s current through your core or heart that will kill you. About 100 to 200 milliamps is all that’s needed. Since your inner body has a low resistance, it’s the contact resistance between your body (usually your hands) and the voltage source that matters. If your hands are wet and you touch the voltage source with both hands, that will produce lethal current through your heart - even if the voltage is lower than 100 volts.
If you were to use 2 fingers on the same hand, however, there would be little current through your heart. That’s why electronic technicians keep one hand behind their back when working on circuits with high voltages.
Post removed 
@ BUCKHORN_CORTEZ, BRILLIANT! That is what i did. Now i can run any amp in my rig. From 125V/250V/30A.
** Note: The Quick 220® Power Supply uses two outlets from two different circuits that are out of phase and not controlled by ground fault interupters (GFI’s). The Quick 220® Power Supply has built in circuitry to test for the out of phase circuits. A separate tester is supplied to check the outlet for a GFI. Most buildings have numerous outlets that meet these two requirements.
https://www.quick220.com/-A220-15D.html

Note the two power cords hardwired, connected, to the converter.

** Note: The Quick 220® Power Supply uses two outlets from two different circuits that are out of phase
Therein one 120V wall outlet fed from Line 1 to neutral and one 120V outlet fed from Line 2 to neutral. Difference of potential, voltage, between Line 1 and Line 2 = 240V nominal.
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Your welcome
I’ve recommended it a few time to US owners on Audiogon. But some just can’t see the forest for the trees though.
I’m in Australia where we have the best mains configuration, 50hz and 230v, and it’s well regulated, only >< 5v at my place, but it's also very deadly.

Cheers George
@GEORGEHIFI7, BRILLIANT ! it seem to me this little device is almost perfect answer.
Every house has 240 volts which you can use through a 240 volt breaker and wiring the outlet as 240 volts. However, most of the circuits in a house will be 120 volts because the breaker panel is split into two, 120 volt legs. I have four 240 volt outlets in my house. One in the kitchen for the oven, one in the laundry room for a dryer, and two in my workshop for welders and other 240 volt tools. If you want to run you equipment on 240 volts, have an electrician put in the correct wiring and an outlet.
220 is more efficient than 110.  Three phase is more efficient than 220.  110 is less likely to kill you.  The duration between pulses is longer on 110, and you will have more time to escape the grip of electricity stopping your nerve impulses.  At the same watts, amperage is lower, the lower the voltage.  That is why a car uses up to a 1000 amp fuse on a 12 volt system.  1000/12 is only about 83.33 watts  A 20 amp 110 volt circuit is 2200 watts; 240 v is double that, and can be 50 amps in a house stove or A/C, or 5500 watts of killing power.  DC gives no time in between pulses for your nerves to control muscles.:  You can't escape unless you accidentally fall and gravity pulls you away from the current source, such as a wire.
But you in the US use higher amperage fuses in your equipment and they sound better!
And the us power plug is probably a better, firmer fit in the receptacle than the round blades of Schuko in mainland Europe.
@ditusa THANK YOU,  surely will do,it has been rather educational for me , esp, how vicious 9 volt battery can be be.
The whole world should standardize on 300 volts RMS at 100 cycles.  Running at higher frequencies increases transformer efficiency.  Everything would interoperate.  Just do not stick your fingers into the outlet :-)

@ SABIH  (JEA48 Jim.)  Answered your question. When you get to Maine call a electrician. It is beyond this post for me to tell you how to run a 230V line in your house.  Or ask JEA48 Jim. He will know more about then i do. Good luck in Maine.. 
Post removed 
I’m moving to USA soon ,planning to take all my gear with me do not want sell my we91 amplifier which is 240 volt that’s why raise the question , in my humble opinion audio equipment regardless of how hungry or not performs better 240 volt operation.

I doubt any audio equipment designer/manufacturers would agree with you that feeding their equipment 240Vac is better than 120Vac for the sound from their audio equipment.


UK power.
https://en.wikipedia.org/wiki/Ring_circuit

The power system in the UK used in residential housing would not meet electrical safety codes in the US.

The UK power system is a grounded "Power System". It has a Grounded Conductor, Neutral Conductor, and an "Ungrounded Conductor", the Hot Conductor. How and where the service neutral conductor is connected to mother earth in the UK is different than where it is connected to earth here in the US, from what I understand.

Residential electrical services in the US are fed from a single phase step down transformer. The output secondary winding is called a Split Phase Winding. The single phase 240V winding has a center tap in the middle of the winding. The center tap leg is called the neutral. When connected to mother earth it becomes the Grounded Conductor. The output voltage of the split phase winding is 120/240Vac or 240/120Vac, nominal. Two Hot Ungrounded conductors and one Grounded conductor will feed the electrical service of the residential dwelling.

How does a 120/240V single phase split phase winding work?
Here is a good video on how it works.
https://www.youtube.com/watch?v=eVamt9IdQd8

Your problem if you plan on feeding your 230V audio equipment from the 240Vac mains power here the US, in the UK the 230V power has a neutral and a hot conductor + EGC (Equipment grounding Conductor). Here in the US the 240V mains are both Hot ungrounded conductors.
120V 0V 120V. The internal safety fusing for audio equipment is only on the Hot Line. The neutral Line is not fused. Which is correct when the equipment is fed from AC mains that use a neutral and hot conductor, as is the case in the UK and 120V mains here in the US. Not the case for US 240V mains power. Both  240V ungrounded Lines should be fused.
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@ditusa , please do excuse my lack of understanding is rhode island ac mains 230 volt ? because my understanding from your earlier post as if you were running your gear 230 volt and you are preferring it this way, could you educate me how do you do it ? much appreciate your help. moving to Bangor (Maine)
Post removed 
@ditusa , I thought you were living in USA, voltage sensing or switch mode power supply/analog switching amps just like Nuforce design amps works any voltage worldwide are not my main concern. I'm moving to USA soon ,planning to take all my gear with me do not want sell my we91 amplifier which is 240 volt that's why raise the question , in my humble opinion audio equipment regardless of how hungry or not performs better 240 volt operation.
That is just rubbish unless you have an amp which consumes more than about 1500 watts. Then the standard 120 volt wiring may not be adequate to carry the current. Other than that there is no basis for the claim. 
Every one in the USA has 240 Volts @ the pole YES. They had it Be for Millercarbon was on the earth....

Granted. But I fail to see what my time off Earth has to do with anything.
"240 Volts is no joke."

But it is undeniably memorable. I lived to wonder if I had used all my life credits just on those events.

I am puzzled by the post claiming someone died after licking 9V battery. Is there any kid who has not done that? 4.5V is softer, but 9V should have not killed anyone just because of the battery.
jea48,

Thanks for your reply and explanation. Of course, you are correct. Those 240V outlets are from the time whole electrical thing was redone and were made just in case, for dryer and similar appliances (not for stereo equipment). I do have a turntable with dual voltage and I switched it to 110V and it has been working just fine.
Every one in the USA has 240 Volts @ the pole YES. They had it Be for Millercarbon was on the earth....
Millercarbon was correct.

Also, the feed from the pole top transformer to a home in the USA is 240 Volts.  You actually get two 120 volt feeds at different phase angles.  Three phase systems A,B,C phases are what is generated and transmitted. This is world wide.  The higher the transmission line voltage the less power losses and consequently the less costs in power generation/transmission/delivery.

Every home in America has 240 volts at the service panel.  One can run 240 volt to outlets if desired.  The power utility does not have to do anything.  This is all from within the home.

Clear?  USA had invested early into 120 Volts and it is/was too expensive at such a late date to change the appliance/light/equipment standard to 240 Volts.  but, remember, there is 240 Volts available in all homes in the USA.  

Now, audio equipment takes whatever input operating voltage and converters it to DC voltage via the internal power supply.  That typically includes transformers taking the 240 Volts or 120 Volts input and converting it to whatever lower/higher AC voltage is needed before converting to DC Volts within the power supply.  Rectify the AC Volts and Viola, you have DC.  Add some filtering and regulation and there is your power supply.

my point, is that as long as the input voltage is adequate and the power supply is correct, there should be absolutely no difference in sound quality.  I say should be.  There will be differences if the lower input voltage and power isn't up to snuff.

Power = V x I = (V x V)/R = (I x I x R).  The power input is exactly the same whether you are using 120 Volts or 240 Volts.  The difference is the current draw changes to make sure the power stays the same.

So as long as the voltage stays fixed (basically an infinite bus), the current will change so that the power input remains fixed.  If the power fluctuates with current draw, the something is wrong.

If you take the same piece of equipment and change the input transformer so that in one case it takes in 120 Volts and the transformer/power supply in the equipment converts that voltage to the necessary internal power supply voltage and in the other case install a transformer that takes in 240 Volts and does the same thing.  There is no way there should be any difference in the operating characteristics and sound of that equipment.  Power is power. Volts are Volts and Current is Current.  

for high power amps, yes, using 240 Volts is better just because of reduces line losses on the power line and you won't need huge power cables at 240 Volts.

So, take 1000 Watts power as the requirement.  P = V x I remember?

If the line voltage is 120 Volts, then the current would be 8.33 Amps.  If the line voltage is 240 Volts, then the current would be 4.17 Amps.  So you see the savings is in the size of the conductors because the current draw is lower you don't need massive conductors when using higher voltage.  Also, keep in mind that Power and Voltage have no phase angle.  The current in this case has the phase angle based on the impedance of the circuitry.  So, with 120 Volts or 240 Volts connecting to the same circuitry, it will have the same phase angle for the current.  

Remember P= I x I x R.  make R Z (impedance) associated with Resistance, Inductance and Capacitance impedance and the power and voltage remains fixed and guess what?  The current now has a phase angle.

Lots of technical mumbo jumbo, but the point for those that care, is that as long as the conductors are up to snuff and the power supply is designed correctly, the input voltage doesn't matter.  Power is power, Volts are Volts and Current is Current.

One other point.  Safety.  using 120 Volts, you will receive a nasty shock, but won't die unless you are standing in water or some such and can't get away from it.  In the USA 60 cycles per second is just slow enough that when the cycles reach zero, guess what?  you can get away.  Unless you are standing in water and can't get away.  In other countries, 240 Volts at 50 cycles per second is very nasty and that presents an altogether different and serious problem.  240 Volts is no joke.

enjoy


@ SABIH I do not use a ( step up /down transformer. ) My amps are voltage sensing. What ever voltage they see that is what they run on....Min/100V.Max/250V....
glupson6,016 posts

08-10-2020
11:15am

jea48,

"Unless a piece of equipment, like a monster power amp, consumes more than 1440 volt-amperes continuous power it’s a violation of US electrical safety code to install a 240V branch circuit and receptacle in a US residential dwelling."

How does it go in real life? In the U.S.A., I have usual 110V outlets, but I do have a few 220V (240?), too. Granted, they are used for washer, air conditioning, etc., but I have a few unused ones, too. I have nothing to plug into them (except the tuntable that would then be too far so no need anyway), but I did not fully understand your post about "legality" of them even being there.

@ glupson

but I have a few unused ones, too. I have nothing to plug into them (except the tuntable that would then be too far so no need anyway),
Just a guess the "unused ones" were installed at the time for "220V" window air conditioners.

How does it go in real life? In the U.S.A., I have usual 110V outlets, but I do have a few 220V (240?), too.
There is a good chance if you measured the voltage at your 110V outlets it is closer to 120V than 110V. What ever it measures the hot Line 1 to hot Line 2 voltage at the electrical panel will/should measure twice that.
Example: Hot Line to neutral, 110V. Hot Line 1 to hot Line 2 will measure 220V.


Audio equipment that has dual voltage primary windings power transformer will still output the same secondary winding(s) voltage and exactly the same volt-ampere rating(s). The only thing that could influence the performance of say a power amp would be Voltage drop on the mains if a 120V branch circuit is used verses a 240V branch circuit.

Possibly another reason, for here in the US, if 240V mains power is used it basically could be considered balanced power, 120V - 0V - 120V.



As for this:
stefano_f1 posts

08-11-2020
10:50am


I note that in addition to the voltage also the frequency changes,
230-240 V 50 Hz and 110-120 V 60 Hz.
In my humble opinion, the effect of the different frequency must also be considered,
or at least postulated that this difference is considered negligible.
In a rigorous scientific study it should be proven, not in this case

A transformer designed to work optimally at 50Hz also works at 60 and vice versa, of course, but since these are non-macroscopic listening differences,
a 20% frequency difference may not be so negligible.
Thanks in advance to whoever answers me .


@ stefano_f


The frequency has nothing to do with whether the voltage is 230-240V or 110-120V. The frequency is determined by the Utility Power Company’s generating plant.
https://www.worldstandards.eu/electricity/plug-voltage-by-country/

Jim.
it has been a great discussion, I  would love to hear from designers manufacturers if there is noticeable difference better performance running 120V Audio equipment on 230 volt naturally requires step up/down as ditusa has mentioned in his post he is running his gear at 230 volt  , I run my amps on 230Vac.They sound better. (Improved speed and better transient response.) ditusa

I note that in addition to the voltage also the frequency changes,
230-240 V 50 Hz and 110-120 V 60 Hz.
In my humble opinion, the effect of the different frequency must also be considered,
or at least postulated that this difference is considered negligible.
In a rigorous scientific study it should be proven, not in this case

A transformer designed to work optimally at 50Hz also works at 60 and vice versa, of course, but since these are non-macroscopic listening differences,
a 20% frequency difference may not be so negligible.
Thanks in advance to whoever answers me .

@ JEA48..Thank’s Jim. One of my mono block amp’s draw’s, 1500 Watt’s @ 230V/6.Amp’s,@ 8ohm. ( Per your space, heater example.) GREAT...The wall plug is a leviton ( 5842-I.) Amp cord is a NEMA 6-20p to C-13 power cord,15A/250V 14/3 AWG 1ft long...
jea48,

"Unless a piece of equipment, like a monster power amp, consumes more than 1440 volt-amperes continuous power it’s a violation of US electrical safety code to install a 240V branch circuit and receptacle in a US residential dwelling."

How does it go in real life? In the U.S.A., I have usual 110V outlets, but I do have a few 220V (240?), too. Granted, they are used for washer, air conditioning, etc., but I have a few unused ones, too. I have nothing to plug into them (except the tuntable that would then be too far so no need anyway), but I did not fully understand your post about "legality" of them even being there.
clearthinker,

I remember a note in the newspaper in Germany, before 2000 for sure, that mentioned intention to go up from 220V to 230V. It said "nothing will change but you may need to change your light bulbs a little more often".

I may be mistaken but I think that whole European Union is 230V at this point.
True your power amp probably runs on 400v rails

Only if it’s a tube amp! Solid state amps usually run +- 100 V or significantly less. As I recall, a 100W (@ 8 Ohms) amp usually has around +- 50 V.

P = I x E
P = Watts, Volt-amps.
I = Current, Amps.
E = Voltage.

Will a 240V 1500 watt space heater connected to a 240V source produce more heat than a 120V 1500 watt space heater connected to a 120V source? No.....
Current, amps?
P / E = ?
1500W / 120V = 12.5 amps.
1500W / 240V = 6.25 amps.


A 120V 20 amp branch circuit is capable of supplying up to 2400 watts continuous power. The same branch circuit will supply short spurts, draws, of well over 2400 watts all day long without causing the 20 amp circuit breaker to trip open. If voltage drop is an issue, or concern, use #10awg branch circuit wiring.

Unless a piece of equipment, like a monster power amp, consumes more than 1440 volt-amperes continuous power it’s a violation of US electrical safety code to install a 240V branch circuit and receptacle in a US residential dwelling.


I doubt any manufacturer builds a home consumer sold amp for use in the US that is rated at more than 1440 watts, volt-amps, continuous power. They know the power cord plug needs to have a 5-15P 120V 15 amp plug if they want to sell the amp to a US home consumer.

NEC 210.6
(A) Occupancy Limitations. In dwelling units and guest rooms or guest room suites of hotels, motels, and similar occupancies, the voltage shall not exceed 120 volts, nominal, between conductors that supply the terminals of the following:

(2) Cord-and- plug connected loads 1440 volt-amperes, nominal or less or less than 1/4 hp.


Jim.
tednep
... you only use half the current in 220-240V hifi. Watt is watt no matter where you are. So if a amplifier is 220W it only uses 1 Amp. current in europe, but 2 Amp. in the US. So it is twice as hard on the internal of the amp ...
That is mistaken. A given appliance will draw the same current at 240VAC as it does at 120VAC - the load of the appliance doesn’t magically change because you’ve changed its input voltage.
a few observations

millercarbon  'the US is really 240v but you get 110v in your wall.
??eerrrrgh.  In UK the local substations get 7kV but it doesn't mean that is in your wall.
But yes, good contact with 220v is quite a jolt.  I know from when it was 240v and have been very careful since then.

True your power amp probably runs on 400v rails and just transforms to that from whatever it feeds on.  But an easier transformation if you start with 220v and easier to engineer distortion out.

For Glupson:  UK was 240v until 2003 when it harmonised with EU at 220v.
The French had been on 110v up to that date and changed instantaneously to 220v.  But to this day they still use the mickey-mouse thin plastic plugs and sockets AND HOUSE WIRING!!! designed to handle 110v.  This would be an issue in the USA also - if it were to move to 220v, the kit would need upgrading.

Does anyone remember using Krell 200KRS in the US?  I have these now 35 years old and refurbished.  Full Class A, they are said to draw 1.2kW per side.  On 110v ???your wall would catch fire.


I agree with you that watts are watts no matter what the voltage is. But the key thing is that in the US you guys are limited to about 1,800W out of one of your sockets, but in Europe we can get 3,000W from one.

This might make a difference to a big muscle power amp, being able to draw a lot more power out of the wall might enable it to sound better. Might. 
It is becaurse you only use half the current in 220-240V hifi. Watt is watt no matter where you are. So if a amplifier is 220W it only uses 1 Amp. current in europe, but 2 Amp. in the US. So it is twice as hard on the internal of the amp. and there is more heat that needs to get away from the unit.

230V or 110V is just as dangerous. You can die from more than 51V 0,03 Amp.here in europe. Yes, someone even died from at battery 9V. He put his tung on a new battery......
Yeah, nothing I'd like more than to run 230V in this apartment... :)

Sadly almost all American outlets are 110V, with rare exceptions for large appliances.  Still, the potential is there! I mean, high voltage = less current, less voltage sag during drops.

Of course, you could also get a Sander's MagTech amp, which does a pretty good job of compensating for this.
Two things that two people told me over time and I present them as I heard them.

1. In the U.S.A., safety was a concern (check millercarbon’s post above). That ended up with more Amperes for the same Watt number. More Amperes is allegedly somehow more problematic if anything goes bad in houses with lots of wood in their construction. More fires. Which then, just based on observation (not any kind of statistics) seems true. Houses in the U.S.A. are probably much more wood-based than those in most of the Europe.

2. Above mentioned poster is like a broken clock. He is correct twice a day. It is that time of the day, it seems.

The only way to find out the answer to OP is to cary the same amplifier to the place with both voltages. However, once you add some step-down/up transformer in the mix, are you sure you know what is influencing what you hear? I have 110 and 220 (240?) here. My turntable has both voltages. It runs the same speed at both voltages. Ok, a little cheating. It is quartz-controlled.