Program assumes channel 1 = H1, channel 2 = C13, and channel 3 = N15
Program assume that the H1 center is 4.772 ppm unless explicitly entered
Referencing should be performed using the *_0 frequency
Note that some values may give bogus results if they do not exist, such as sw3 and ni3
sw	   =  8000.0000 (Hz)
sw	   =    13.3420 (ppm)
sw1	   =  3016.0000 (Hz)
sw1 (H1)   =     5.0299 (ppm)
sw1 (N15)  =    49.6397 (ppm)
sw1 (C13)  =    20.0038 (ppm)
sw2	   =  2200.0000 (Hz)
sw2 (H1)   =     3.6691 (ppm)
sw2 (N15)  =    36.2093 (ppm)
sw2 (C13)  =    14.5916 (ppm)
sw3	   =     1.0000 (Hz)
sw3 (H1)   =     0.0017 (ppm)
sw3 (N15)  =     0.0165 (ppm)
sw3 (C13)  =     0.0066 (ppm)
sfrq	   =   599.6114 (MHz)
sfrq_0	   =   599.6085 (MHz) (Use for Referencing)
dfrq	   =   150.7748 (MHz)
dfrq_0	   =   150.7713 (MHz) (Use for Referencing)
dfrq2	   =    60.7650 (MHz)
dfrq2_0	   =    60.7578 (MHz) (Use for Referencing)
H1 center  =     4.7682 (ppm)
C13 center =    23.0822 (ppm)
N15 center =   117.9834 (ppm)
np	   =       2048 (Real + Imaginary Points)
ni	   =         80 (Complex Points) (2D)
ni2	   =          1 (Complex Points) (3D)
ni3	   =          1 (Complex Points) (4D)
nt	   =        256 scans
array	   =         "phase"
gain	   =         20
rp(phase0) =         397.596050003
lp(phase1) =        -28