5th Generation Carbon Face
The lightweight yet durable 60-layer carbon face improves energy transfer efficiency, increasing ball
speed.
A newly designed rounded face roll helps stabilize launch conditions by reducing spin variation.
Twist Face technology also enhances accuracy on off-center hits.
TAS Weight for Trajectory Control
TAS weights are installed across all models.
Adjusting the weight position allows fine-tuning of ball flight.
Moving the weight forward produces a stronger, lower-spin trajectory,
while positioning it at the back increases MOI for more forgiveness and higher launch.
Find the Perfect Shaft for You
A new approach to shaft selection based on over 11 million swing data points.
The newly developed "REAX™" shaft, created with Mitsubishi Chemical,
delivers improved stability and distance when matched to your swing.
Dual Carbon Fly Wrap
A new design uses carbon materials in both the crown and sole,
redistributing weight to the rear of the head.
Achieves the highest MOI in PING history for outstanding stability.
The sole is approximately 7% lighter than the previous model.
Free Hosel Design
By reducing weight in the hosel area, the center of gravity is lowered
to create a powerful launch condition.
Delivers high launch and maximum distance.
Approximately 13% lighter than the previous model.
Adjustable High-Density Weight
Newly redistributed weight is positioned at the rear of the head.
With adjustable weighting, it allows precise control over trajectory
for maximum distance with improved stability.
Multi-Layer Face Construction
To further increase ball speed, the titanium face has been re-engineered.
To overcome durability challenges and thickness limitations,
Callaway developed a multi-layer face structure.
TRI-FORCE Face
Developed through over 59,000 prototypes and more than 2.27 million simulations, the TRI-FORCE Face uses a three-layer structure to maintain durability while dramatically improving ball speed and performance.
Enhanced AI-Designed Trajectory Correction
With a thinner titanium face that flexes more at impact,
AI-designed control points are further optimized.
This improves trajectory correction and helps maintain ideal spin rates.



