Xiaomi Electric Precision ScrewdriverTwo-speed torque precise control, discover unlimited possibilitiesTwo-speed torque adjustableMagnetic storage container24 x S2 steel precision screwdriving bits400+ precision screws on one full charge
    All-metal gearbox
    Powerful magnetic motor
    High-quality rechargeable lithium battery
    S2 steel screwdriving bits
    Universal Type-C charging port
    Aluminium alloy case
    Push pop-up , magnetic StorageClassic award-winning designThe Mi Precision Screwdriver has won five international design awards; namely the iF, Red Dot, Japan Good Design, IDEA and Chicago Good Design awards. The Xiaomi Electric Precision Screwdriver uses the same popup design, featuring a convenient, push-to-release mechanism.* The image on the left shows the Xiaomi Electric Precision Screwdriver, and the image on the right shows the Mi Precision Screwdriver. This image is used only to illustrate the different dimensions of the two products.
    Electric precision screwdriverEnhanced precision efficiencyThanks to the powerful magnetic motor with a speed of up to 170rpm*. and the all-metal gearbox, the screwdriver has a screwdriving bit concentricity of no more than 0.2mm* when rotating, for greater precision efficiency.
    Powerful magnetic motor speed
    screwdriving bit concentricity
    Compact design with an extra-long battery life400+ precision screws on one full chargeThe screwdriver has a shaft diameter of just 0.65 in.* (16.4 mm). The built-in rechargeable lithium battery is powerful and long-lasting and can process 400+ precision screws on one full charge*.
    0.65 inch
    shaft diameter
    400+ Pieces
    precision screws
    * Artistic rendering of the interior construction, which does not correspond exactly to the actual interior.
    24 x S2 steel precision screwdriving bits in 9 major typesThe 24 x high-quality S2 tool steel screwdriving bits are durable and tough and have a hardness of up to 60HRC*.The 24 types of precision screwdriving bit are ideal for dismantling and assembling most standard electronics and new small household appliances.
    Gaming consoles
    Handheld devices
    6 commonly used 1.77 inch long screwdriving bitsfor complex deep-hole applications6 commonly used screwdriving bits out of the 24 are 1.77 inch (45 mm) long for use in a wide range of complex applications, such as deep holes and narrow spaces.
    1.77 inch long screwdriving bits
    1.1 inch short screwdriving bits
    Two-speed precise torque adjustment Precision screw protection
    0.05Nm* for precision objects such as smartphones, watches and glasses
    0.2Nm* for electronic products such as smart speakers and laptops
    Turning off the power prevents accidental operation and facilitates manual screwing
    Intuitive button designSoft touch with effortless pressingLearn how to use it in no time at all: Simply press the front R button to screw in and the rear L button to unscrew. The button is made of TPU soft rubber and requires soft finger pressure, which conserves your energy when operating for a long time.
    L: unscrew
    R: screw in
    Low centre of gravity for greater controlNon-slip texture for easy gripThe internal structure of the main body of the screwdriver has been adjusted over and over to provide a balanced centre of gravity and improved handling. The 3D non-slip texture on the grip increases friction for a more secure hold of the screwdriver during use.
    Unibody aluminium alloy caseAluminium alloy anodising processThe storage case and the screwdriver body are both made of high-quality aluminium alloy, making them comfortable to hold. The anodised surface finish is non-slip and sweat resistant, and is less prone to rust.
    Universal Type-C charging portWorry-free charging alert indicatorThe Type-C charging port is compatible with charging cables of popular electronic products, making charging more convenient. The indicators next to the charging port instantly alert you when the battery is low and display the charging status.
    13 battery safety tests and 3 charging safety protection features for enhanced safety*
    External short circuit test at room temperature
    Overcharge test
    Temperature cycling test
    Forced discharge test
    Low pressure test
    Thermal abuse test
    External short circuit test at high temperature
    Vibration test
    Crush test
    Drop test
    Acceleration impact test
    Heavy weight impact test
    Combustion test
    Overheating charging protection
    Overvoltage charging protection
    Overcurrent charging protection
    *0.008 inch fine bristles: Diameter data from the Shenzhen Silver Star Intelligent Technology Co., Ltd. lab. 10 individual bristles were measured using a micrometer with a precision of 0.0004 inch. Results indicate a bristle diameter of 0.008 inch, with a variation of 土0.002 inch.* Spindle runout (i.e. precision bit concentricity) test method: A standard test rod is inserted into the output shaft. A laser diameter gauge is used to measure the runout at a distance of 1 inch from the end surface of the output shaft.* The dimensions stated may vary or be inaccurate due to different measurement conditions.* Screwing test method: The device is fully charged until the white lamp is illuminated. The ST2 x 0.2 inch self-tapping screw is then driven into the pine board until the battery runs out.* Hardness varies by ±2HRC. Screwdriving bit hardness tests were conducted by the National Light Industry Tool Hardware Quality Supervision & Testing Station, Shanghai. Report No.: G20200215.* Torque at level I varies by ±0.03Nm and torque at level II varies by ±0.08Nm. Torque test method: The fully charged device is run without load for 2 minutes and a torque tester is then used to measure the torque at levels I and II.* The battery was tested by the Southern Testing Company of the China Certification & Inspection Group. Report No.: SET2019-08673. The battery protection tests were conducted by Precise Testing & Certification (Guangdong) Co., Ltd.; Report No.: PTC20032303001S-GB01.* Unless otherwise indicated, all data referred to on this page is from the HOTO Laboratory. Data may vary or be inaccurate due to differences in the objective environment and other factors.