We have spent hours of testing to improve the very well established 4525 series. The result is an even better overall performing motor and increased efficiency. This all will provide you a cooler running motor and also more consistent power delivery over the full flight. The Xnova V3 lightning series is the highest level of motor performance money can buy nowadays.
Xnova brushless high performance outrunner motor designed for extrem 3D, 630-690mm bladesize helicopter where highest power to weight ratio is important. It is a extreme power plant specially developed for the new SAB-black-thunder Goblin 650 helicopter. The 560KV version is a superb choice for 2 blade and 3 blade setups.
Improved higher efficiency with thinner stator lamination, designed with integrated cooling system resulting in lower temperature.
Increased power output by the use of thicker hand wound YY single strand copper wires, heat resistant up to 300 degrees C.
High-performance neodymium magnets, heat resistant up to 180 degrees C.
All other features same as XTS series.
Features:
Designed for extreme 3D flying
Developed for 630-700mm helicopters
Optimized for 12S applications
High quality Neo Magnets, heat resistant up to 150 degree C
Specialized wires, heat resistance up to 300 degree C
Precise balanced
High performance stator metal sheet
High quality NMB bearings
Marked leading high efficiency up to 94%
Cooler running
Superb quality and machining of CNC parts
Improved torque and power output
1.5mm thick wire
Specifications: Slots & Poles: 12n10p Winding T: YY with thick wire rpm/V: 560 Weight (without connector): 510g Body Length (no shaft): 56mm Diameter: 55.7mm Shaft Length: 36mm (Shaft A) Shaft Dia.: 6mm Mounting Holes CTC Distance: 30mm Mounting Screw: 4x07 Max Continuous Power (Watts): 4600 Peak Continuous Power (Watts): 10000 Max Continuous Current (A): 110
Xnova LIGHTNING 4525 series ( thick Wire)
Designed for extrem 3D 630-690mm blade size helicopter where highest power to weight ratio is important. From 10S up to 12S ( KV related )
SHAFT TYPE SELECTION BASED ON THE ILLUSTRATION BELOW A,C,F