Cyan 165; Magenta 45; Yellow 90 Black 105
175 line screen, 2540 dpi
I just realized that when Sierra was set up the black and magenta were switched. The default is Magenta 105 and Black 45. I am going to give that a try on a job and see what happens.
OK, you say that the moiré is happening in light areas of skin colors. You need to determine which colors are clashing and causing the moiré.
Keep in mind that when two colors are less than 30º apart there is a risk of moiré. In your case that would be K and Y which are just 15° apart. Also, normally the Y lpi is run at an lpi about 108% to minimize the visibility of the moiré caused by being just 15° away from its neighbour color (typically C or M - but K in your example). I.e. if your using 175 lpi your Y is running at 189 lpi. Y being very light means the moiré it causes should be very light and hence less visible. However, if the Y gets contaminated it goes darker and the moiré becomes more visible. With K just 15° away from Y it's quite possible that your Y ink is being contaminated by the K printer causing the moiré to become visible. Check the Lab values of your Y ink to see if that's happening.
The least visible color, Yellow, is usually placed at the most visible angle 0° (90°). Then the most visible color, Black, is placed at 45° since its screen pattern is very noticeable when positioned at 0° and is least visible when rotated 45° (that's a human vision issue). The cyan and magenta are then placed between those two. Cyan at 15° (105°) and magenta at 75°. These angles represent a best all around compromise for most pictures and represent the standard, most commonly used screen angles. They also form the least objectionable moiré – the rosette pattern.
The standard CMYK U.S. screen angle set is:
15, 75 (same angle as 165) , 0, 45 (that causes a possible moiré in greens since C and Y are only 15º apart)
Standard CMYK European screen angle set is:
15, 45, 0, 75 (same angle as 165) (possible moiré in greens since C and Y are only 15º apart)
If you run M at 105° you will get an M/Y moiré as they are only 15° apart. That could be a problem with skin colors which typically have a lot of Y and M. I would suggest running the C at 105° and the M at 75°. That will mean that C and Y are just 15° apart and therefore cause a moiré in the greens - however that's not usually a problem because greens are typical of subjects like grass and tree leaves which, unlike skin tones, don't have an area large enough to reveal the C/Y moiré.
Another possible (but not common) cause of moiré is called single channel moiré. It's highly unlikely to appear with a modern screen - but it is possible. Single channel moiré is a moiré within one color. It can happen when the LPI (e.g. 175 lpi) is not an even divisor of the dpi of the RIP (e.g. 2540 dpi). In that situation each halftone dot can have an extra pixel, or not, as the RIP tries to reconcile not being able to image a half pixel. I.e. 175/2540 = 14.5 the RIP can't image a .5 pixel so it averages out that .5 by having one halftone dot have an extra pixel while the next halftone dot doesn't. If those extra pixels repeat with a fixed frequency then they can harmonically beat with the screen and you'll get a moiré pattern in that one color - usually Black because it's the most visible color. The RIP vendor's fix is to offset the screens by 7.5° which introduces noise into the screen and eliminates the repeating pattern and hence the moiré.
I hope all this makes some kind of sense.
