More relaxed through the sleeve, shoulder, chest and waist.
Slightly longer body length.
Model is 6’2”, 190 pounds, wearing a size medium top and 34
waist
Collections
Crown & Crown Sport
Men's Top Sizing
Size
S
M
L
XL
XXL
Chest
37-39 IN
40-42 IN
43-45 IN
46-48 IN
49-51 IN
Neck
14.5-15 IN
15.5-16 IN
16.5-17 IN
17.5-18 IN
18.5-19 IN
Sleeve
33-33.5 IN
34-35 IN
35.5-36 IN
36.5-37 IN
37.5 IN
Returns / Exchanges
Try your purchase in the comfort of your own home and, if it's not quite
right, we provide free returns and exchanges with every order.
Still not sure what size to purchase?
Email us at concierge@petermillar.com or Call us at 888-926-0255.
Quantity selection will refresh the page
Custom Embroidered Item
Please note:
Please note that custom embroidered items require additional processing prior to shipment and will deliver within 12 business days.
Description
Perfect as a lightweight layer, the St. Louis Cardinals Perth Performance Quarter-Zip is the ideal companion for game day. Designed with our signature high-performance loop terry fabric, this pullover offers four-way stretch, moisture-wicking, UPF 50+ sun protection and easy care. This style is finished with a mock collar and banded cuffs and hem.
Details
Men's 89% polyester / 11% spandex pullover
Classic Fit
Crewneck with banded cuffs and hem
Four-way stretch, moisture-wicking, easy-care
Machine wash cold with like colors; tumble dry low. Do not iron. Do not dry clean
Rated 5 out of
5 by
Askernish Fan from
Look forward to wearing it on the linksI have purchased a number of Peter Millar golf shirts. Always great style and they hold up with wear and tear. This pullover is no different. Comfortable to wear and does well in even a little rain.
Date published: 2021-05-06
Rated 4 out of
5 by
JoeSTL from
As usual, great qualityReceived this item a few days ago. Very bright red with a white logo that stands out. Looks really nice. I typically wear a size down for PM polos but I could have easily ordered true to size on this item as it doesn’t seem to run as big/baggy as the polos tend to.