Which is better - 30 AMP 220V circuit or 60 AMP 120V circuit

You are getting the same amount of 'power' either way (120V x 60A = 240V x 30A), so from an electrical "power" standpoint it is a wash--either one will support the same amount of equipment in the rack...

You should do some research to be certain, but most modern computer equipment is equiped with switching power supplies that accommodate a wide range of voltages (manufacurers don't need to stock a separate power supply for each country; instead, they simply ship the appropriate power cord for the destination country). Given that, your equipment most likely will not care whether they have a 120V or 208V or 240V input--so long as you have the appropriate power cord to connect the system to the power distribution module.

My understanding from engineers at colocation facilities I've worked with is that most switching power supplies are a bit more efficient with a high voltage input (e.g. they produce less heat, which is wasted energy) which can save a bit on both power air conditioning load. The wire gague required to carry the same power at 240V is smaller and more flexible than the heavier wire required at 120V, which may be a convenience when routing cables within the rack.

I would confirm that all of your equipment is capable of accepting high-voltage power; if so, obtain the appropriate power distribution module and cordage to connect your equipment to the 240V 30A circuit.

Remember, too, that a 30A circuit should not be loaded up with 30A of equipment--you need to leave some "head room" to ensure that the circuit is not overloaded (I believe the rule is to stay below 80% of the maximum rated capacity (e.g. maximum 16A continuous load on a 20A circuit; no more than 24A continuous load on a 30A circuit).

Practically these are roughly equivalent services: 6.6KW (which is a LOT of power - I start seeing heat problems above 3.5KW in my racks), which is why the price is the same. As a co-lo customer this is all you really care about and the rest of this is all "datacenter management" stuff.

Heat and efficiency wise, 220V service is "better" -- Power supplies tend to have a better efficiency at the higher voltage (you may be able to squeeze one more server into the supply) & run slightly cooler.

If you are mounting an in-rack UPS system you can probably cut heat dissipation by 1/4 to 1/3 by using 220V power.

If your datacenter is not supplying your PDU you will have an easier time finding 220V equipment.

The real savings with 220V power comes from inductive loads (motors: Air conditioning), which if you're co-locating you don't care about.

My Bottom line recommendation: Go with 220V unless you have a bunch of 110V-only equipment.

30 amp cable is a lot cheaper than 60 amp cable for the same length, so all else being equal it's more economical to go for the 220V.

Certain larger devices will require the 220V circuit - AC, UPSes, etc.

Also, the larger plugs can be lockable. Larger, heavier gauge wiring as well, should be better suited to the needs of a large, full rack.

Each machine is going to be needing 120V still though, so you'll need a converter - the UPS would handle that.

What voltage do your devices expect? Run whichever one you have more of.

In Australia we run almost exclusively on 240v 10 or 15 amps, and (on most of my equipment anyway) the power supplies are not easily exchanged for different voltages.

30 Amps at 220v is a LOT of power. I've run entire racks on less than that.

Make your life easier and go with whichever one your equipment supports!

Its really dependent on what your hardware is expecting.

AFAIK; 220V is frequently used as a three-phase a/c for transmitting from the power plant to the grid and subsequently the destination node. Its then stepped down to 120V single phase a/c when it reaches its destination. Three phase is more efficient for long distance transmission and more efficient motor operation [as three coils can be used to create a continuously moving magnetic field, instead of a constantly inverting field with two-phase]. Frequently a 220V line is also left for devices requiring a larger voltage to operate.

It really boils down to what your devices expect. If you have the choice of hardware, I would recommend going with 120VAC as it is more standard and prevalent (at least in the states). Additionally, given what you've said - your colo is willing to provide more 'power' if you go with 120V. You'll be getting 7200W (120V*60A) instead of 6600W (220V * 30A).

The simple answer is that the cost of wire is higher for 120vac. The 60 amp load requires more expensive, larger guage wire. The 30 amp load requires smaller guage, less expensive wire. The savings is in the size of the wire you'll buy for the smaller amp load.