I have an application where I'm sizing a feeder to an air compressor's industrial control panel (ICP). The ICP contains a large VFD for the 400HP compressor motor, (3) contactors for small fan motors, and the controller. Note that the nameplate below only indicates (2) small fans but there are (3).
Nameplate for the ICP lists a "total panel rating" of 482 A, but no minimum circuit ampacity (MCA) is provided. NEC 409.20 requires the MCA for the feeder to the ICP to be calculated using motor FLC's from the nameplate (125% of largest + 100% of other loads). Using the motor FLC's from the nameplate, I get: 774.25 A
An existing circuit breaker is available to serve this load but the max conductor size we can terminate on the breaker is (2) sets of 500kcmil, which is rated at 760 A using Table 310.16. The MCA is 14 A higher than the conductor rating. Based on the panel rating of 482 A, I'm not worried about this feeder handling the actual load.
Has anyone successfully calculated conductor ampacity, for an installation similar to this, using the formula provided in 310.14(B)?
I have the first three variables, but I'm not sure where to go next for Yc or Rca. Is it possible to determine values for these variables that are accurate enough to trust plugging into the 310.14(B) formula? Looking to see if this is a possible path to gown down before we go buy a larger breaker. Thanks in advance for any help you can provide!
Nameplate for the ICP lists a "total panel rating" of 482 A, but no minimum circuit ampacity (MCA) is provided. NEC 409.20 requires the MCA for the feeder to the ICP to be calculated using motor FLC's from the nameplate (125% of largest + 100% of other loads). Using the motor FLC's from the nameplate, I get: 774.25 A
An existing circuit breaker is available to serve this load but the max conductor size we can terminate on the breaker is (2) sets of 500kcmil, which is rated at 760 A using Table 310.16. The MCA is 14 A higher than the conductor rating. Based on the panel rating of 482 A, I'm not worried about this feeder handling the actual load.
Has anyone successfully calculated conductor ampacity, for an installation similar to this, using the formula provided in 310.14(B)?
I have the first three variables, but I'm not sure where to go next for Yc or Rca. Is it possible to determine values for these variables that are accurate enough to trust plugging into the 310.14(B) formula? Looking to see if this is a possible path to gown down before we go buy a larger breaker. Thanks in advance for any help you can provide!
