Callaway Women's Rogue ST MAX OS Lite Wedge
This product listing is for individual wedges from within the women’s Callaway Rogue ST MAX OS Lite Iron Set, whether it be a replacement for a lost wedge, or a club to fill a gap in your distances.
Callaway continues to develop groundbreaking innovations that benefit golfers of all abilities. The new Rogue ST irons are no exception. We’re breaking new ground through a high strength 450 A.I. Face Cup that’s never been seen before in the golf industry. We’ve also continued to push innovation through our patented Urethane Microspheres and have massively increased our precision tungsten weighting. Rogue ST MAX OS Lite irons have a refined game-improvement shaping, with high launch, wide soles, and enhanced offset. The Lite version features more loft, lighter shafts and lighter swing weights to make these our highest launching, easiest to swing Rogue ST model.
450 A.I. Designed Flash Face Cup An industry-first, we combined high strength 450 steel with our A.I. designed Flash Face Cup. This delivers more ball speed and better ball speed consistency.
A.I. Face Optimization We’ve applied our new A.I. Face Optimization to Rogue ST MAX OS LITE. It’s unique for each model and loft to create spin rate consistency across the face. It delivers high launch and COR plus a more controlled landing angle to help hold greens.
Tungsten Weighting Our new precision tungsten weighting features up to 46g of high-density tungsten, a 188% increase over MAVRIK. This provides improved launch conditions and also maximizes speed across the face.
Patented Urethane Microspheres Our patented urethane microspheres are now pushed further up the face in Rogue ST irons (up to the 6th groove) to enhance sound and deliver pure feel while maintaining fast ball speeds.
High Launch Easy Swing Rogue ST MAX OS Lite irons are built with wide soles, enhanced offset, and a thicker topline vs. Rogue ST Max. The Lite version features more loft, lighter shafts and lighter swing weights to make these our easiest-to-swing model in the family.