Mi Robot Vacuum-Mop 2 Lite
Xiaomi presents in the global market what may be the cheapest cleaning robot, Mi Robot Vacuum-Mop 2 Lite. An outstanding aspect is the height, since its low height, only 81.3 mm, makes it one of the most compact robots on the market, thus making it easier to clean in inaccessible areas, such as under furniture., Beds, It has an improved navigation system to which it adds a wide-angle lens, thus increasing the precision in its analysis of the environment. We must also add the 25 different types of high-precision sensors.
Gyroscope & visual-aided navigation: The built-in gyroscope in this vacuum-mop is an inertial navigation module. The camera on the top of the vacuum-mop can assist navigation visually, which allows the vacuum-mop to position better and improve the accuracy of its navigation planning.
Other similar product with inertial navigation: The similar product compared here is the domestic version of Mi Robot Vacuum-Mop Essential.* 25 high-precision sensors: Image sensor × 1, wall sensor × 2, ir sensor × 7, docking sensor × 4, cliff sensor × 4, collision sensor × 2, dust compartment sensor × 1, water tank sensor × 1, caster wheel sensor × 1, wheel speed sensor × 2.* 2,200 Pa powerful suction: When the vacuum-mop is fully charged and the battery voltage is greater than or equal to 16.5 V, seal the suction inlet with plasticine, then measure and record the maximum static pressure value of the suction inlet under the Turbo mode. The result data was 2,200 Pa.* 450 mL large dust compartment: Data provided by 3i Robotix laboratory. Fill the dust compartment with fine wood chips with a density of 0.081g/ml, then calculate the weight difference between the dust compartment filled with wood chips and the empty dust compartment.
Divide the weight difference (i. e. the weight of the filled wood chips) by the density of the wood chips to get the dust compartment capacity which was 450 mL.* 270 mL electronically-controlled water tank: Data provided by 3i Robotix laboratory. Use an electronic scale with an accuracy greater than or equal to 0.2 g to weigh the empty water tank and the full water tank (water overflows automatically). Then calculated the weight difference and divide the weight difference (i. e. the weight of the filled water) by the density of water to obtain the water tank capacity. Repeat the above steps twice to get the average value, which was 270 mL.* 81.3 mm slim design: Data provided by 3i Robotix laboratory. Place the vacuum-mop on the ground, and then use a vernier caliper with an accuracy of 0.01 mm to measure the height of the vacuum-mop, which was 81.3 mm ± 2 mm.* 20 mm powerful obstacle crossing: Data provided by 3i Robotix laboratory. Run the vacuum-mop in the vacuuming mode, and use a 20 mm high door threshold and a 20 mm diameter cylindrical aluminum stick as obstacles. The test is to see whether the fully-charged vacuum-mop could cross the door threshold and the aluminum stick within 3 minutes. The result was that the vacuum-mop successfully crossed the 20 mm high door threshold and the 20 mm diameter aluminum stick.* Mi Home/Xiaomi Home app: Currently, the app (version 6.7.200) is only compatible with iOS 10.0 and above. Please update your iOS operating system in time for a better experience.* The data presented on this page are from 3i Robotix laboratory unless stated otherwise.* Illustrations of product, accessories, and user interface on this page are for reference purposes only. Actual product and functions may vary due to product enhancements.
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