Overview
330X-S was designed based on UAV , which emphasizes the advantages are:
• Flight Efficiency: Standard Battery (2S2000mAh) time of flight for more than 12min, with a high-capacity battery, the flight time will be more than 20 min or more (available spreadsheet calculation)
• Excellent wind resistance: the efficiency and load of propeller are perfectly optimized, so the wind resistance will be better than general electric aircraft
• High stability: contains GU344 (three-axis stabilizing system) for the beginner or the FPV flying, it is a very stable Vehicle
• Additional payload capabilities: payload up to 700g (including battery), can freely install cameras and video recorder, and other general system
• System Extensibility: can be used with GPS positioning system and navigation system on 330X-S without any change
• Operation mode and flight characteristics are same as helicopter, but no complex transmission
• Collapsible body design, greatly reduce the damage rate, Which can be repaired easily without adjustment.
The Gaui Quad Flyer is one of first affordable quad-copters on the market. With its high payload carrying capability and stable flying it makes a great FPV (First Person View) or AP (Aerial Photography) platform. The Quad Flyer has a 700g or 24oz payload capacity including the weight of the battery. Almost any lipo from a 2S 2000mah to a 3S 5000mah lipo can be used and it still has capacity left over for more weight. When loading the Quad up with additional payload something like a 3S 2200mah lipo is recommended which still leaves over 500g or over a pound of payload carrying capability.
The Gaui Quad Flyers Kit comes unassembled but is a very easy build that takes about 2 hours (really!). It includes 4 Brushless Motors, 4 Brushless ESCs, a 3-Axis Gyro, normal/reverse 8”props, and all hardware needed to complete the kit. All you need to provide is a battery and a 4-channel or more receiver. Any simple 4-channel airplane radio will work but a 5-channel or more computer radio is recommended so you can remotely control the mode and gain on the gyro from your transmitter. With a 4-channel setup you can still manually set the gain and mode on the gyro itself. The gyro has two different modes for hovering and sport flying. In hover mode when you center your sticks the quad will come to a stop while in sport mode it will act more like a helicopter and keep going until the opposite input is given. In general the Quad flies much like a helicopter. It is more stable and easier to fly than most single rotar helicopters, but not as stable as a dual-rotar heli. If you’ve flown a couple helis you’ll find the controls very familiar and catch on quickly.
Specifications
Flying Weight (g) |
Pay load (g) |
Power consumption
(w) |
Efficiency value (g/w) |
500
|
100g(2S2000mAh)
|
50
|
10 |
550
|
150g(3S2000mAh) |
63 |
8.73 |
600
|
200 |
75 |
8 |
650
|
250 |
84 |
7.7 |
700
|
300 |
92 |
7.6 |
750
|
350 |
102 |
7.4 |
800
|
400 |
111 |
7.2 |
850
|
450 |
120 |
7.1 |
900
|
500 |
130 |
6.9 |
950
|
550 |
142 |
6.7 |
1000
|
600 |
155 |
6.5 |
1050
|
650 |
162 |
6.5 |
1100
|
700 |
170 |
6.5 |
For example, while equipping 330X with a HD camera (350g), you would like to use a 3S2000mAh Lipo battery, so the total payload will be 500g (flying weight of 900g), and hovering consumption of power for 130w (see above) and your total battery charge for the 11.1X2 (A) X60 (min) = 1332
1332/130 = 10.2 (min) 10.2X75% (battery safety coefficient) = 7.7 (min)
If you want to use two groups 3S2000mAh the Lipo battery, then your total payload of 650 (flying weight of 1050g), so the total charge for the 11.1X2 (A) X60 (min) X2 = 2662, but now hovering consumption power for the 162w so the flight time (2662/162) X75% = 12.3min