Fly More & Record in HD Be the first to review this product Availability: Back Order available to ship when back in stock. Email to a FriendExtend your flying experience with the AR.Drone 2.0 Power Edition’s exclusive box content. With 36 minutes total flight time provided by the 2 high density Lithium-Polymer batteries, release all the potential of your Parrot AR.Drone 2.0 Power Edition and become the master of the skies! Get an exclusive look with the matt black hulls and use the 4 sets of coloured propellers to customize the AR.Drone 2.0 and create an even more unique aircraft!Fly & Record in HD – Take off with the AR.Drone 2.0 Power Edition and enjoy a unique flying experience! View the Earth from above, in high definition, and share your experience with others.FreeFlight piloting App and you are ready to fly! Become a daring pilot and perform flip moves by simply hitting a button. Keep track of your flights data, location, photos and videos and share them with a community of other pilots from all over the world thanks to the AR.

Drone Academy.Key Features:• Quadricopter remotely controlled with your smartphone or tablet• Live video streaming and HD video recording• Share your videos directly on YouTube and pictures on Google+• Robust structure and interchangeable hulls for both indoor and outdoor use• AR.FreeFlight App provides intuitive controls (Free download from App Store, Google Play & Windows Store)• Program automatic movement and create high-quality & stable movie shots with Director Mode (*In-App purchase on AR.Freeflight)• Fully reparable: all parts and instructions for repairing available on Parrot Website• 2 HD Batteries for 36 minutes of flying time• 4 sets of propellers for customization (black, red, orange, blue)• Exclusive indoor and outdoor hulls in Black matt• 1 "circlip remover" tool to allow users change propellers • HD Camera: 720p 30fps• Wide angle lens : 92° diagonal• Store flight footage directly onto a remote device via Wi-Fi or directly to a USB key via the on-board port.• JPEG photo capture• Expanded Polypropylene (EPP) hulls• Carbon fibre tubes : Total weight 380g with outdoor hull, 420g with indoor hull• 3 elements 1.000 mA/H LiPo rechargeable battery• 4 brushless in runner motors.

14.5 watt and 28 500 rpm when hovering• Low noise Nylatron gears for 8.625 propeller reductor• Emergency stop controlled by software• Water resistant motor’s electronic controller• 1GHz 32 bit ARM Cortex A8 processor with 800MHz video DSP TMS320DMC64x• 1Gbit DDR2 RAM at 200MHz • Wi-Fi™ b/g/n• 3 axis accelerometer +/- 50mg precision• 3 axis gyroscope 2000°/second precision• Pressure sensor +/- 10 Pa precision (80 cm at sea level)• 60 fps vertical QVGA camera for ground speed measurement• 3 axis magnetometer parrot ar drone 2006°precision• Ultrasound sensors for ground altitude measurement• USB 2.0 high speed for extensionlong range drone copter 450 x 290 mm (with outdoor hull) / 520 x 520 (with indoor hull)380g (with outdoor hull) / 420g (with indoor hull)parrot ar drone for gopro

• 2x Removable & rechargeable High Density Lithium-Polymer 1500mAh battery• Battery life: up to 18 minutes• Full recharge: about 2.5 hoursDrone 2.0• 1 Outdoor hull• 1 Indoor hull• 2 HD Batteries 1500 mAh• 1 Charger• 3 sets of coloured propellers• 1 Quick start guide *Summary of Your Review Someone who has the AR.Drone 1.0 and wants to fly and repair them. Own an Android or Iphone Fly drone through some obstacles indoors with height limit set in the software and repair the drones.parrot ar drone demo The bottom plate has been removed from the Quadcopter by removing the four attaching screwsar drone 2 simulator A closer view of the internal circuitry with the bottom removedblack ops 2 quad drone The first chip and the two black spacers have been removed from the quadcopter after removing a second set of four screws which held the first chip to the small bracketsar drone 2 antenne

The optics cable needs to be removed first before the removal of the second chip A view of the small breakage in the optic cable of Ji's Quadcopter The removal of the second chip with the first chip adjacent for size comparisson A close up view of the mounting bracket after the circuitry has been removed The propeller mount's plastic midsection has completely split in half due to its fragility compared to the carbon fiber in the rest of the frame. A close up of the midsection of the split propeller mount. In this view you can see how the main bunch of wires splits off into the four motors. The new propeller mount that will be placed into the AR drone Using the disc is removed by placing the tool at the open part of th.e disc and then pressing hard. The disc will most likly fly off so it is recommended to have a second hand ready to prevent this. The propeller assembly is removed in the order of disc, propeller, gear, rod. The screws on the bottom of the motor will need to be removed using a Phillip's head screwdriver and are located at the bottom and top of the motor circuitry and hold the motor circuitry to the mount.

The screw on the top of the motor also require a Phillip's head screwdriver. After the motor's screws have been removed the wiring needs to be carefully pulled out if it cannot be grabbed using fingers a pair of tweezers or needle nose pliers is recommended. On the new mount, the wires must be attached to the motor first. The motor is put in place laying on top of the wires bending them underneath of it. The top three screws are put in first because they ensure that the main part of the motor will be put in straight, afterwards the bottom three screws are screwed into the motor circuitry. The propeller rod is inserted from the bottom of the mount. The correct propellers and gears are placed on the rods, A and B propellers in front, and C and D propellers in back. Using the flipped side of the tool the disc is placed back on the notch in the rod. All Circuitry should be removed from the body of the AR drone. The main board should first be connected to the propeller mount like shown.

The propeller mount should be placed in the slots of the foam siding then the circuitry reassembled inside of the body. The green lights from the motors show that all motors are responsive and connected to the propeller mount meaning the quadcopter is now ready to fly. Printed a replacement cross piece to repair AR Drone frame found on thingiverse. MakerBot printing in 3-D. It makes a 3-D shape by layering thin lines on top of each other. This leg piece is at about 50% completion.This is the central cross piece. The central cross member for the quadcopter printed using the MakerBot. The piece is not solid plastic. It has a honey-comb design on the inside reducing weight while maintaining strength. Quadcopter Central cross Diagonal Quadcopter Central cross Side The bottom is completely flat. The working motor is the cylinder in the middle of the page directed vertically. The motor is the cylindrical tube in the middle of the page that is slanted.

It should be vertical. The motor's misalignment caused the gear at the top of the motor shaft to come off. The smaller of the two gears, the bronze-colored gear, is the gear that is attached to the motor's shaft. There should be a small bronze-colored gear at the top of the motor's shaft. This is can be seen by looking at the round space next to the black gear. It is missing the smaller gear. Broken motor left by previous group. The bronze gear needs to be removed from the shaft. Tried prying with a small flathead. Top view of motor after three screws retaining the cover have been moved. Motor's core being taken out of the motor housing. Using a hammer and vice-grip wrench, force was applied in opposite directions. The motor's cover was used to both protect the soft metal gear and to allow the nail remover to grasp on to it. A good pull was required to free the gear from the shaft. No damage to gear. Motor after removal of gear. The hoop had a leak, and thus was unable to remain inflated.