> On May 4, 2017, at 8:59 AM, Jon Elson <[email protected]> wrote: > > On 05/04/2017 10:36 AM, Guy Sotomayor Jr via cctalk wrote: >>> >> OK, that’s not helping. Here’s what I have (from IBM site planning docs >> GC22-7064-10 and GC22-7069-2): >> 3340-A2 DASD: 2.2 kVA 3-phase >> 3340-B2 DASD: 1.7 kVA 3-phase (powered from 3340-A2) >> 3803 Tape Control unit: 1.8 kVA 3-phase >> 3420 Tape drive: 2.9 kVA 3-phase (powered from 3803) (x2) >> 2821 control unit: 1.4 kVA 3-phase >> 1403N1 Printer: 1.5 kVA 3-phase (powered from 2821) >> 2540 card reader/punch: 1.2 kVA 3-phase (powered from 2821) >> >> So I have 3 potential power feeds: >> DASD: 3.9 kVA >> Tape: 10.5 kVA >> I/O: 4.1 kVA >> >> For a total of 18.5 kVA >> >> So the several $1000 question is how do the kVA’s map into 208v 3-phase amps? > 18.5 KVA /208 = 88.94 > 88.94 / 1.732 = 51 A > > Since this is given as KVA, it should include the power factor. >> Depending upon how that works out I need to figure out if 2/3 converters >> make sense or just one big one. >> >> My simple minded conversion is to take the 18.5kVA, multiply by 1000 and >> divide by 208. That gives me just shy of 90A. Do I then divide by 3 to get >> A/phase? If so, then it’s 30A per phase which seems reasonable. But I >> don’t know if that’s the correct formulation. > It isn't. See above. A lot of this is circulating current, so the real > power draw from the mains will be less. Still, most likely over 10 > real-power KW from your 240 V single-phase mains.
Thanks. So if I want to run it off of one converter, that needs to be able to supply 51A. If I split it, then I would end up with: Tape: 30A DASD: 11A I/O: 12A So at this point it comes down to cost. If I can find one that can supply 60A that’s reasonable that would work. Otherwise I’d likely get either 2 30A converters or 1 30A and 2 15A (if they come in those sizes). ;-) I’ll just have to figure out what makes the most sense cost wise. Thanks. TTFN - Guy
