The EVO II RTK series is a brand new RTK module integrated by Autel Robotics on the EVO II series drone body, which provides real-time centimeter-level positioning data and supports post-processing kinematics (PPK).
The EVO II RTK series includes three drones: EVO II RTK, EVO II Pro RTK and EVO II Dual 640T RTK. The three drones support high-definition photography and recording. They fly for 36 minutes and have image transmission for 9 kilometers. There is no obvious difference in the appearance of the fuselage, the difference only exists in the drone camera gimbal.
Note: Since the EVO II has been discontinued, we will not discuss it further. The EVO II series drones discussed in this article refer to the V2 version, excluding EVO II V3.
The prototype of EVO II Pro RTK is Autel EVO II Pro. Therefore, EVO II Pro RTK supports three-axis gimbal stabilization, 6K photography, 1-inch sensor, adjustable aperture of f/2.8-f/11, and a maximum still photo of 20MP.
EVO II Pro RTK can maintain a maximum flight time of 36 minutes, an image transmission distance of 5.5 miles, a maximum flight speed of 45mph, a maximum take-off altitude of 7km, and a built-in 8GB storage space. EVO II Pro RTK can create intelligent flight routes, perform intelligent tracking, and enable omnidirectional obstacle avoidance.
The prototype of EVO II Dual 640T RTK is Autel EVO II Dual 640T, therefore, EVO II Dual 640T RTK visible light camera supports 8k photography, 1/2 inch sensor, f/1.9 fixed aperture, maximum still photo 48MP. Thermal imager supports 640 *512 resolution size, refresh images at 30fps per second, support 10 color modes, and view thermal images in picture-in-picture mode.
EVO II Dual 640T RTK can maintain a maximum flight time of 36 minutes, a video transmission distance of 5.5 miles, a maximum flight speed of 45mph, a maximum take-off altitude of 7km, and a built-in 8GB storage space. EVO II Dual 640T RTK can create intelligent flight routes, perform intelligent tracking, and enable omnidirectional obstacle avoidance.
EVO II RTK aircraft can record raw satellite observation data, camera exposure parameters and various other data, which can be used to determine high-precision positioning information through cloud PPK services. The positioning system supports the A-RTK2 mobile station and the RTK network, which facilitates accurate and stable data collection in complex operating environments.
SRS airbags are safety devices installed in vehicles to protect the driver and passengers during a crash. Unlike traditional seatbelts, airbags are designed to rapidly inflate during a collision to cushion the impact of the occupants' bodies, reducing the likelihood of serious injury.
The main cause of parking brake malfunction is to short circuit or open circuit of the wires or circuits between the switch, controller, and actuator. When the brake system fails, the brake light on the dashboard will activate so the driver can detect the problem to repair it.
Modern vehicles are becoming increasingly complex, incorporating advanced systems like driver-assistance technologies, electronic control units (ECUs), and hybrid powertrains. AI bridges the gap by analyzing large volumes of data from a car’s onboard systems, helping mechanics pinpoint knots.
