Key Specs
About this product
Elevate your RC aircraft performance with this lightweight Xfly digital servo, engineered for precision control in radio controlled planes. At just 4.3 grams, it delivers the responsiveness you need without compromising on weight distribution. The positive servo design ensures reliable directional input, whilst the extended 200mm lead provides flexible installation options across various airframes. Whether you’re flying trainers or performance models, this compact Xfly RC component offers excellent value for the discerning hobbyist in the UK.
- Ultra-lightweight 4.3g design for minimal impact on flight characteristics
- Digital servo technology for precise control response
- Extended 200mm lead for convenient mounting flexibility
- Ideal for RC hobby enthusiasts upgrading their aircraft
Frequently Asked Questions
This 4.3g servo is designed for RC planes, particularly trainers and performance models where weight is a consideration. The exact aircraft compatibility depends on your specific airframe, so check your plane's manual or specifications to confirm it can accommodate a servo of this weight and size.
The servo comes with a 200mm lead attached. For a complete list of any additional items such as mounting hardware or control arms, please check the product manual or contact our customer service team.
This is a digital servo, which offers faster response times and more precise control compared to analogue servos. Digital servos are better suited to performance flying and provide smoother, more accurate directional input.
The servo has a 200mm lead, which provides flexible installation options across various airframes. This extended length gives you more freedom in positioning the servo within your aircraft without requiring lead extensions.
This servo weighs just 4.3 grams, making it ultra-lightweight for RC aircraft applications. The minimal weight helps preserve your plane's weight distribution and flight characteristics, which is particularly important in trainers and performance models.
