Buying Guide for Most Forgiving Drivers

While purchasing the most forgiving driver, you need to keep certain considerations in mind. These include forgiveness, loft, shaft material, and technology. We have explained the significance of each one of these below. 


Forgiveness is the quality of a club to  “forgive” bad shots. In other words, forgiving clubs will allow for good quality strokes despite poor contact with the ball.

Cheaper golf clubs are usually less forgiving but most of the golf drivers on our list rank high in terms of forgiveness. If you are a beginner or a high handicap golfer, you should opt for a golf driver with high forgiveness. 

Shaft Material

The material of the golf driver’s shaft has a direct relationship with forgiveness and accuracy. Generally, shafts are made from steel or graphite. If you’re looking for more forgiveness, your focus is more on accuracy rather than distance. 

In that case, steel flex would be a better choice for you as they are known for high precision. On the other hand, if the distance is your priority, then a graphite shaft would be a better fit. 


The loft is the most vital aspect of any driver. It is the angle of the clubface’s slope and is critical for determining your golf shot’s trajectory.

Most drivers have a slope of 8.5 degrees to 15 degrees, however, the most commonly used drivers’ slope ranges from 9 to 12 degrees.

The loft is inversely related to your swing speed. The faster you swing, the lower loft you need. If you swing too fast then you should choose a driver with the lowest possible loft and vice versa. 


Driver brands intentionally add advanced technological enhancements to increase forgiveness and shot accuracy. These enhancements might be related to the material used in the clubhead, its aerodynamic shape, or its construction.

We have mentioned several golf drivers in this article that come with these technological features. For instance, the Callaway Golf 2021 Epic Max Driver comes with an A.I.-designed Jailbreak Speed Frame for better torsional and horizontal stability.