 | Realtime information includes: - Altitude (m) - R/C receiver signal quality (V) - Direction to home (degrees) - Battery voltage (V) - Instant power (W) - Battery use (mAh) - GPS Coordinates (latitude / longitude) - Battery instant current (A) - Distance to home (m) - Direction (Left / Right) - Bearing to home (degrees) - Satellites in view - Flight duration (mm:ss) - Ground speed (km/h) |
| Further than providing great information like altitude and speed, it is a safety device that will prevent you from: | |
| Getting lost (too far, too low, in an unknown area...). In case you got lost, simply follow the arrow (top middle of the screen) and you will get back home. Distance to home is also provided. Getting a flat battery: at anytime, you know how many amps have been used. If you are using a 2000mA battery and 1700mA have been used, it's definitely time to land. | Getting a radio control out of range
situation: you see the receiver's voltage level. Generally
speaking, at 0.6V it's time to make a U-Turn ;) Finding out your model in case of a crash: FPV is a very submesive way to fly. We remember gliding just over the tree's canopy when we discovered a bit too late that a tree was slightly higher than the others. Plane immediately got stucked at the top of the highest tree of the forest and if we had the GPS coordinates (right bottom on the display), things would have been way easier to recover it. |
| Technical details: - Dual processor RISC architecture - Fast 5Hz GPS - High sensitivity: 158 dBm - Reduced time to fix: 1s (warm), 41s (cold). - 50A or 100A current sensor - No proprietary display chip but quick & efficient assembler / C code. - 60mA consumption - Using a noise suppressor, specifically designed for FPV is recommended. |  |  |
