dance191
|
|
April 17, 2015, 05:54:09 AM |
|
Hey Phil,
Long story short, all of your PSUs will not be able to use 3 phase, so you will either give them 2 of the phases and a ground, or 1 phase + 1 neutral + 1 ground. Always go with 2 phases and a ground as you will need less outlets, wire, etc when using the higher voltage that is from 2 of the phases.
It sounds like you have a high leg delta system, so I believe one of the legs will be 240, off the top of my head I think the other 2 legs will be 208. I have never used a delta system, they are older and were for supplying extra volts to start motors. Your a smart guy, grab a multimeter and you will figure it out quickly (just be careful with live wires).
|
|
|
|
philipma1957 (OP)
Legendary
Offline
Activity: 4256
Merit: 8572
'The right to privacy matters'
|
|
April 17, 2015, 10:47:42 AM |
|
Hey Phil,
Long story short, all of your PSUs will not be able to use 3 phase, so you will either give them 2 of the phases and a ground, or 1 phase + 1 neutral + 1 ground. Always go with 2 phases and a ground as you will need less outlets, wire, etc when using the higher voltage that is from 2 of the phases.
It sounds like you have a high leg delta system, so I believe one of the legs will be 240, off the top of my head I think the other 2 legs will be 208. I have never used a delta system, they are older and were for supplying extra volts to start motors. Your a smart guy, grab a multimeter and you will figure it out quickly (just be careful with live wires).
that is the plan
|
|
|
|
sloopy
|
|
April 17, 2015, 11:51:50 AM Last edit: April 17, 2015, 12:04:56 PM by sloopy |
|
Do not be so fast to assume Phillip's gear did not have a gain in performance. If he says it did be more optimistic. I have seen this first hand and there are examples posted not only on this forum but all over the internet. It is easily explainable by confirming the unit's were not receiving "enough" voltage and amperage prior to the move Or The units have specific design qualities which utilize the new scenario.
Phillip has shown his knowledge of the miner side. Just because he asks a few questions on the 3 phase does not mean he presents data without factual basis.
For a real world example imagine you under power a lot of S3s with a power supply which regulates the output evenly (I say evenly, but it regulates somewhat without bursting into flames across all S3s), even when "overdrawn", IE the 2880. You can load that baby up with significantly more S3's than you should and she happily hums along lowering the output to each. Most of the S3's may run at 400 a couple at 440, one or two at 390, but they run. Performance is impacted. Remove enough S3's and alacazam, you get 450 and 500 out of your poor little beasts.
Edit for safety: Do not overload any power supply, it simply isn't safe and most go pop. (Same for any power source, calculate your supply VS your draw, add 20% safety factor) Power cycle after any significant change to any electronic device Keep your hands away from anything with live voltage, IE do not connect live wires to miners.
Your Mileage Will Vary, depending on several things.
|
Transaction fees go to the pools and the pools decide to pay them to the miners. Anything else, including off-chain solutions are stealing and not the way Bitcoin was intended to function. Make the block size set by the pool. Pool = miners and they get the choice.
|
|
|
Finksy
Legendary
Offline
Activity: 1022
Merit: 1003
|
|
April 17, 2015, 07:57:56 PM |
|
short term I will be doing 240 volt in house. long term I have to see exactly how his shop is wired.
I would love to have a 30 amp circuit .
His shop is 1 large room around 1200 square feet . It has 16 foot ceilings. 7 cent power. Would be nice to run a lot of gear .
5 evga 1300's could do a lot. Even 4 would be nice.
Don't waste your money on the EVGA's Phil, come to the dark side. 2880 Virgin Watts await you in the kingdom of 240 volts... Sloopy, I'm not doubting his claim, I was asking if he had come up with any reasoning, since AC input voltage theoretically should not greatly influence DC output voltage, which is why I asked if he measured the output to see if there was a difference.
|
|
|
|
GrumpyBear2
Newbie
Offline
Activity: 27
Merit: 0
|
|
April 17, 2015, 08:35:06 PM |
|
The IBM 2880 looks enticing to me too (240 volt). One reason I have not moved to the single IBM 2880 with the breakout board is that it introduces a 'single point of failure' for all the miners running on that power supply. If it goes, "poof" one night all those miners quit working (100% dead). I'll probably just install a pair of heavy duty 20 amp (120 volt) circuits in the garage this summer and those miners will heat the garage in winter.
|
|
|
|
alh
Legendary
Offline
Activity: 1846
Merit: 1052
|
|
April 17, 2015, 09:29:07 PM |
|
Isn't it pretty loud over there on the dark side? I haven't seen a server power supply that even pretends to be quiet. The ATX EVGA supplies seem pretty quiet to me. That's only based on a sample size of one. My bet is that by now, all the server PSU designers are hearing impaired from the noise.
|
|
|
|
sloopy
|
|
April 17, 2015, 10:54:39 PM |
|
short term I will be doing 240 volt in house. long term I have to see exactly how his shop is wired.
I would love to have a 30 amp circuit .
His shop is 1 large room around 1200 square feet . It has 16 foot ceilings. 7 cent power. Would be nice to run a lot of gear .
5 evga 1300's could do a lot. Even 4 would be nice.
Don't waste your money on the EVGA's Phil, come to the dark side. 2880 Virgin Watts await you in the kingdom of 240 volts... Sloopy, I'm not doubting his claim, I was asking if he had come up with any reasoning, since AC input voltage theoretically should not greatly influence DC output voltage, which is why I asked if he measured the output to see if there was a difference. My apologies and actually I should have looked who posted and I would have realized your intent. I replied after first waking up. Probably not a good choice And yes Phil I will agree with Fin on the 2880 now that I hear you have access to a shop and it would not be in your home. I know not everyone can have the howlers in their home but I sleep with a couple of them. alh there are fan mods in the works. I haven't looked lately, but Jabber and Fin were working on some things. I plan to order again soon Fin, I will PM.
|
Transaction fees go to the pools and the pools decide to pay them to the miners. Anything else, including off-chain solutions are stealing and not the way Bitcoin was intended to function. Make the block size set by the pool. Pool = miners and they get the choice.
|
|
|
philipma1957 (OP)
Legendary
Offline
Activity: 4256
Merit: 8572
'The right to privacy matters'
|
|
April 17, 2015, 11:44:53 PM |
|
Do not be so fast to assume Phillip's gear did not have a gain in performance. If he says it did be more optimistic. I have seen this first hand and there are examples posted not only on this forum but all over the internet. It is easily explainable by confirming the unit's were not receiving "enough" voltage and amperage prior to the move Or The units have specific design qualities which utilize the new scenario.
Phillip has shown his knowledge of the miner side. Just because he asks a few questions on the 3 phase does not mean he presents data without factual basis.
For a real world example imagine you under power a lot of S3s with a power supply which regulates the output evenly (I say evenly, but it regulates somewhat without bursting into flames across all S3s), even when "overdrawn", IE the 2880. You can load that baby up with significantly more S3's than you should and she happily hums along lowering the output to each. Most of the S3's may run at 400 a couple at 440, one or two at 390, but they run. Performance is impacted. Remove enough S3's and alacazam, you get 450 and 500 out of your poor little beasts.
Edit for safety: Do not overload any power supply, it simply isn't safe and most go pop. (Same for any power source, calculate your supply VS your draw, add 20% safety factor) Power cycle after any significant change to any electronic device Keep your hands away from anything with live voltage, IE do not connect live wires to miners.
Your Mileage Will Vary, depending on several things.
okay here is my avalon 4.1 running on the intel at 240 volts dc volts out = 12.15 : error rate is under 0.100 the intel prefers 240 volts as it rates at 1200 watts at 240 volts and at 1000 watts at 120 volts pdu = 1.5 /1.6 amps 240 volts so 360 to 384 watts more shots at links below http://imagizer.imageshack.us/v2/1024x768q90/673/G0Ssrh.jpghttp://imagizer.imageshack.us/v2/1024x768q90/673/bFzOFA.jpghttp://imagizer.imageshack.us/v2/1024x768q90/538/PmAssZ.jpg
|
|
|
|
judypug1956
|
|
April 18, 2015, 12:42:49 AM |
|
So you show the 240 volt numbers with the Intel server psu, please show us the 120 volt numbers.
|
1956jUdYPFwiBSzt9AECdWj3KE4WV7taiM I can't do 1957philma.. for btc address the i are not allowed This is a secondary account for Philipma1957, don't do business with this account deal with philipma1957
|
|
|
philipma1957 (OP)
Legendary
Offline
Activity: 4256
Merit: 8572
'The right to privacy matters'
|
|
April 18, 2015, 12:44:10 AM Last edit: April 18, 2015, 12:56:07 AM by philipma1957 |
|
I will now uplug the intel and do a 120 volt input.
dc reads 12.16 which is better
power reads 369 on one kwatt meter. Since I have 2 kwatt meters and 1 other watt meter I know I will get 369 369 and about 380. which will be most likley just a tad higher then the 240 watt pdu amp gauge gave.
I am 5 minutes into testing with 120 volts
|
|
|
|
Finksy
Legendary
Offline
Activity: 1022
Merit: 1003
|
|
April 18, 2015, 02:25:19 AM |
|
Isn't it pretty loud over there on the dark side? I haven't seen a server power supply that even pretends to be quiet. The ATX EVGA supplies seem pretty quiet to me. That's only based on a sample size of one. My bet is that by now, all the server PSU designers are hearing impaired from the noise. Yes, they are loud. Not for the faint of heart. Sloopy claims he sleeps with them, but I'm not convinced he actually sleeps. LOL! Yes, J4bber has already been successful with a fan design that keeps noise lower than an S3 running. I just received a couple PWM fans this weekend that I'm going to rig up and see both how much lower I can get the noise while still supporting full 2880W. I'll let J4bber comment further on his design, but I am excited for allowing more people to take advantage of them for still quite reasonably. If only they could work on 120V, we'd be in great shape. Sloopy, it's all good. Again, I've always known 240V is superior for PSU's in almost every way, but I always thought the DC output voltage was stable regardless of input. If it does have a positive effect on the hardware, that's an even bigger reason for people to make the switch. Phillip, keep us updated.
|
|
|
|
philipma1957 (OP)
Legendary
Offline
Activity: 4256
Merit: 8572
'The right to privacy matters'
|
|
April 18, 2015, 04:31:20 AM |
|
Isn't it pretty loud over there on the dark side? I haven't seen a server power supply that even pretends to be quiet. The ATX EVGA supplies seem pretty quiet to me. That's only based on a sample size of one. My bet is that by now, all the server PSU designers are hearing impaired from the noise. Yes, they are loud. Not for the faint of heart. Sloopy claims he sleeps with them, but I'm not convinced he actually sleeps. LOL! Yes, J4bber has already been successful with a fan design that keeps noise lower than an S3 running. I just received a couple PWM fans this weekend that I'm going to rig up and see both how much lower I can get the noise while still supporting full 2880W. I'll let J4bber comment further on his design, but I am excited for allowing more people to take advantage of them for still quite reasonably. If only they could work on 120V, we'd be in great shape. Sloopy, it's all good. Again, I've always known 240V is superior for PSU's in almost every way, but I always thought the DC output voltage was stable regardless of input. If it does have a positive effect on the hardware, that's an even bigger reason for people to make the switch. Phillip, keep us updated. I can not duplicate results using dicus fish pool that I got using ck's solo pool. so I suspect I have a pool skew no not a pool cue. I will test more. As for servers the intel 1000/1200 server is quiet up to 650 watts when my amp meter read 2.7 for 240 volts = 648 watts it was quiet . Of course go past 750 watts it is loud and go to 1000 watts it screams and at 1200 watts it wails. All the spots I can mine need quiet or medium loud miners.
|
|
|
|
|
philipma1957 (OP)
Legendary
Offline
Activity: 4256
Merit: 8572
'The right to privacy matters'
|
|
April 18, 2015, 02:47:36 PM |
|
Thanks for the info. I will read up on it so that when I drive back to my friends shop I will have an idea of what I am doing.
|
|
|
|
MrTeal
Legendary
Offline
Activity: 1274
Merit: 1004
|
|
April 18, 2015, 08:30:18 PM |
|
Generally, a 240V 3 phase system will be configured as a delta, while 120V/208V systems are configured as a wye. Either way, you just want to balance the load across the phases. Run the PDUs in multiples of 3, and try to keep the draw on each even.
|
|
|
|
philipma1957 (OP)
Legendary
Offline
Activity: 4256
Merit: 8572
'The right to privacy matters'
|
|
April 18, 2015, 08:35:08 PM |
|
Generally, a 240V 3 phase system will be configured as a delta, while 120V/208V systems are configured as a wye. Either way, you just want to balance the load across the phases. Run the PDUs in multiples of 3, and try to keep the draw on each even.
I have 3 pdu's and many psu's should be able to do this in very early may.
|
|
|
|
dance191
|
|
April 19, 2015, 08:01:13 AM Last edit: January 04, 2016, 04:23:27 AM by dance191 |
|
Hey Phil,
Long story short, all of your PSUs will not be able to use 3 phase, so you will either give them 2 of the phases and a ground, or 1 phase + 1 neutral + 1 ground. Always go with 2 phases and a ground as you will need less outlets, wire, etc when using the higher voltage that is from 2 of the phases.
It sounds like you have a high leg delta system, so I believe one of the legs will be 240, off the top of my head I think the other 2 legs will be 208. I have never used a delta system, they are older and were for supplying extra volts to start motors. Your a smart guy, grab a multimeter and you will figure it out quickly (just be careful with live wires).
that is the plan Also grab one of those amp meters you can put around each of the phases (to see how many amps are being used). They will allow you to answer weird questions like say you are using 10 amps on each phase, and you add another 5 amp psu (using say 1200 watts) to 2 of the phases or 1 phase and neutral. Does that increase each leg by 5 amps, 2.89 amps, or 2.5 amps? 5 minutes of testing and it will all make sense.
|
|
|
|
philipma1957 (OP)
Legendary
Offline
Activity: 4256
Merit: 8572
'The right to privacy matters'
|
|
April 19, 2015, 11:06:33 AM |
|
Hey Phil,
Long story short, all of your PSUs will not be able to use 3 phase, so you will either give them 2 of the phases and a ground, or 1 phase + 1 neutral + 1 ground. Always go with 2 phases and a ground as you will need less outlets, wire, etc when using the higher voltage that is from 2 of the phases.
It sounds like you have a high leg delta system, so I believe one of the legs will be 240, off the top of my head I think the other 2 legs will be 208. I have never used a delta system, they are older and were for supplying extra volts to start motors. Your a smart guy, grab a multimeter and you will figure it out quickly (just be careful with live wires).
that is the plan Also grab one of those amp meters you can put around each of the phases (to see how many amps are being used). They will allow you to answer weird questions like say you are using 10 amps on each phase, and you add another 5 amp psu (using say 1200 watts) to 2 of the phases or 1 phase and neutral. Does that increase each leg by 5 amps, 2.89 amps, or 2.5 amps? 5 minutes of testing and it will all make sense, have fun, 3 phase is good stuff! the pdu's have built in amp meters so I will attempt to have each one at 4
|
|
|
|
ssateneth
Legendary
Offline
Activity: 1344
Merit: 1004
|
|
April 19, 2015, 04:03:09 PM |
|
I believe using 1 of the 3 phases is fine (along with a neutral and a ground), but using 2 of the 3 phases may cause bad things to happen. In a normal 2 phase configuration, the 2 hots are orientated 180 degrees from each other. But if you use 2 phases from a 3 phase line, the orientation is different, being in a 120 degree / 240 degree rotation. This causes the net difference in voltage between the 2 phases to be much lower, and I have concerns that the circuitry inside the power supply only expects a certain waveform of net voltage.
Ninja edit: After some shenanigans with wolfram, turns out the waveform of 2 phase power coming from 3 phase is exactly the same as a normal 2 phase coming from 2 phase with just different net voltages. Assuming the peak voltage of 240v 3 phase is 240v between all 3 phases, each phase is 120v. Putting 2 of the phases as hots in an ATX power supply, you have 208v @ 60hz. So what you are proposing is perfectly fine. Just make sure your PSU input looks something like 100v-264v. If its 115/230v, bad things might happen.
I'm electrically stupid. But not that stupid.
|
|
|
|
philipma1957 (OP)
Legendary
Offline
Activity: 4256
Merit: 8572
'The right to privacy matters'
|
|
April 19, 2015, 04:33:29 PM |
|
I believe using 1 of the 3 phases is fine (along with a neutral and a ground), but using 2 of the 3 phases may cause bad things to happen. In a normal 2 phase configuration, the 2 hots are orientated 180 degrees from each other. But if you use 2 phases from a 3 phase line, the orientation is different, being in a 120 degree / 240 degree rotation. This causes the net difference in voltage between the 2 phases to be much lower, and I have concerns that the circuitry inside the power supply only expects a certain waveform of net voltage.
Ninja edit: After some shenanigans with wolfram, turns out the waveform of 2 phase power coming from 3 phase is exactly the same as a normal 2 phase coming from 2 phase with just different net voltages. Assuming the peak voltage of 240v 3 phase is 240v between all 3 phases, each phase is 120v. Putting 2 of the phases as hots in an ATX power supply, you have 208v @ 60hz. So what you are proposing is perfectly fine. Just make sure your PSU input looks something like 100v-264v. If its 115/230v, bad things might happen.
I'm electrically stupid. But not that stupid.
I am going back to his place in May I will report back on results.
|
|
|
|
|