JOOLA Ben Johns Perseus CFS 16 Pickleball Paddle
Ben Johns’ new paddle has been carefully engineered, utilizing direct R&D feedback from the World #1 pickleball player, to win in competition. Boasting new Charged Carbon surface technology, the JOOLA Ben Johns Perseus CFS 16 provides impressive power and pop and produces incredibly precise shots. The sweet spot-optimization expands the optimal hitting area and enhances your connection to the paddle, so that you are always in command of your game. The paddle is further bolstered by a grippy Carbon Friction textured surface to generate maximum spin. The carbon-framed design fortifies the paddle’s strength and durability to ensure a consistent playing experience game after game.
- Surface: Carbon Friction
- Core: Reactive Honeycomb
- Core (mm): 16
- Control: 94
- Power: 95
- Spin: 96
- USAPA Approved: Yes
- Average Weight: 8oz
- Paddle Length: 16.5in
- Paddle Width: 7.5in
- Grip Type: Feel-Tec Pure
- Grip Length: 5.5in
- Grip Circumference*: 4.25in
- *May vary slight
CARBON-CHARGED SURFACE
An additive bonding treatment that strengthens the surface of the paddle to provide a crisper feel with greater energy return. Results in impressive feedback with a poppier response.
REACTIVE HONEYCOMB CORE
Specially tuned for the high-level player to maximize the consistency of the bounce and feel necessary for every shot.
CARBON FRICTION SURFACE
Our CFS technology utilizes a more advanced, durable, longer lasting Carbon-Flex5 textured surface, harnessing raw power while providing maximum spin.
CARBON-FRAMED DESIGN
Fully encased Carbon frame for increased strength and durability.
SWEET SPOT-OPTIMIZED SHAPE
Specially engineered paddle shape provides a larger sweet spot for optimal hitting feel and performance
HYPERFOAM EDGE WALL
Specialized foam injected into the perimeter of the paddle adding weight and stability, increasing the sweet spot for consistent edge to edge performance
FEEL-TEC PURE
Offers a tacky feel for enhanced grip while also providing optimal comfort and increased shock absorption.