Mar. 20, 2026
The flight performance of drones depends on the performance of the power system, and the precise detection of indicators such as thrust, torque, speed, and efficiency of the motor as the power core is a key link in the development, production, and quality inspection of drones. WING FLYING (TIANJIN) TECHNOLOGY CO., LTD. is deeply engaged in the field of drone power testing and has created the LY-Micro-MAX series drone power testing platform, which provides one-stop coverage for LY Micro (micro), LY-10KGF, LY-30KGF, LY-70KGF, and supports a maximum range of 1000KGF testing requirements. With high-precision collection, full dimensional detection, intelligent control, and multiple safety protections as its core advantages, it has become a professional standard for drone motor power testing and provides industry customers with a full process power testing solution from research and development to mass production.
The LY-Micro-MAX series breaks the single range limitation and creates a multi-specification stepped testing matrix. From micro motors to high thrust and high-power motors, from consumer grade drones to industrial grade and heavy-duty drone power systems, they can be accurately adapted to meet the testing needs of different scenarios and motor specifications.
LY-MICRO High Precision Thrust Stand
Adapt to small and lightweight drone micro motors, accurately capture small range power parameters, and provide data support for consumer and small industrial unmanned aerial vehicle power research and development.
Balancing portability and testing accuracy, the compact design of the entire machine is suitable for mainstream power units of small and medium-sized drones, making it the preferred choice for research and development laboratories and small production enterprises.
Main focus is on high thrust power testing, suitable for high-power motors of medium and large unmanned aerial vehicles, to meet the power testing needs of high load and long endurance unmanned aerial vehicles.
LY-QZ-MAX Tilt Power Test Bench
Customized large-scale testing platform, designed for ultra large and special unmanned aerial vehicles with high torque and thrust motors, to achieve precise measurement of ultimate power parameters.
The entire series of test benches are equipped with WING FLYING self-developed core components, with deep adaptation of software and hardware. Whether it is small-scale fine testing or large-scale extreme testing, the accuracy and stability of data can be guaranteed.
As a professional level drone motor power testing system, the LY-Micro-MAX series takes "hardware high precision + software full analysis" as its core, realizing synchronous acquisition and accurate measurement of the motor power system in all dimensions and multiple parameters, making every power indicator clear and measurable.
The system is equipped with the Ez test acquisition card independently developed by WING FLYING, with a 24-bit high-resolution ADC acquisition and a gain error as low as ±0.01%, achieving millisecond level accurate data capture; Standard configuration includes sensors for thrust, torque, voltage, current, temperature, commutation speed, photoelectric speed, etc., and optional sensors for airspeed, flow rate, pressure difference, etc. can be selected as needed, covering the core parameters of the motor operation process in all aspects, from basic power indicators to environmental adaptation parameters, all in one network.
EZ-TEST Acquisition System
The acquisition card is also equipped with rich standard and reserved interfaces, supporting PWM signal output/reading, 422 high-speed communication, customizable CAN communication, adaptable to different testing equipment and expansion needs, balancing professionalism and flexibility.
Equipped with MET-V professional testing software, the collected raw data can be processed and analyzed in real time. It not only intuitively displays basic parameters such as thrust, torque, speed, voltage, and current, but also automatically calculates core performance parameters such as electric power, shaft power, system force effect, propeller force effect, and electric drive efficiency. It can also calculate advanced parameters such as line loss power, corrected total power, thrust coefficient, and power coefficient, accurately mining the energy efficiency performance and matching degree of the motor power system, providing scientific data support for power optimization, blade matching, and electric tuning selection.
MET-V Series Software
The series fully balances professionalism and usability in its control design. The MET-V testing software has a simple interface and modular functions, making it easy to perform both manual and automatic batch testing, greatly improving testing efficiency and reducing operational barriers.
The software has 7 built-in automatic testing modes: Increase, Loop, Custom, Sine, Linear, Step, and Sine Sweep Frequency. Parameters can be freely set according to different needs of research and quality inspection. During the research and development stage, the dynamic response characteristics of the motor can be captured through step and sweep frequency testing. During the mass production stage, batch standardized testing can be achieved through growth and loop testing. The custom mode also supports Excel editing of throttle points to meet personalized testing needs. After unlocking the throttle, one-click automatic testing is initiated, and the software automatically completes throttle adjustment, data collection, and log recording without the need for real-time manual intervention, greatly saving labor costs.
In response to the refined testing requirements during the research and development process, the software provides advanced throttle control functions, with throttle adjustment accuracy of up to 0.1% and 1 μs, achieving precise fine-tuning of power parameters.
At the same time, it is equipped with quick operations such as torque reset, power consumption reset, and one-click reset. Before testing, one-click calibration is performed to ensure data accuracy, Point sampling, point sampling and new functions can quickly capture instantaneous data under specific working conditions, providing accurate data for key node dynamic analysis.
The software creates a multi-window real-time monitoring system, and the real-time data window can synchronously display 35 channels of data, with core parameters presented intuitively. The real-time chart window supports synchronous drawing of 4 sets of data curves, with clear trends in parameters such as thrust, torque, and speed. It also has automatic data adjustment function and can adapt to the vertical coordinate range in real time according to data changes. The environmental parameter window displays real-time temperature, humidity, atmospheric pressure, and air density, providing environmental references for the calibration and analysis of test data, making the entire testing process visualized and traceable.
During the motor testing process, there are certain safety risks associated with the high-speed rotating propeller and high-power power output. The LY-Micro-MAX series has built multiple safety protection systems from hardware design, software settings, and operating standards to comprehensively safeguard the safety of operators and equipment, making testing more reassuring.
The MET-V software is equipped with comprehensive safety protection settings, which can set upper limits for 9 core parameters such as thrust, voltage, current, speed, infrared temperature, and total power. It supports two modes: "Alarm" and "Throttle Protection". When the parameter reaches the threshold, the software immediately emits an audible and visual alarm. If the throttle protection is turned on, it will automatically perform a gradual throttle reduction (if it is above 20%, the throttle will be reduced to 20%, and if it is below 20%, it will be locked directly), preventing equipment damage and safety accidents caused by motor overtravel operation from the source; When the throttle is unlocked, pressing the space bar can achieve emergency locking, making emergency situations more efficient.
The test bench adopts a modular structure design, with clear division of labor for the installation areas of the motor, electric controller, and propeller. It is equipped with standard mounting seats and fastening accessories to ensure a secure installation of the power system. The acquisition card is equipped with a running indicator light and buzzer, and there are sound and light prompts for device power on, communication connection, and throttle unlocking/locking, making the device status clear at a glance. The test bench needs to be fixed in an open and independent space to avoid the risk of personnel accidental contact from the environment.
A detailed user manual and operation guide are provided to clarify the standardized operating procedures before, during, and after testing. From fixing the test bench, connecting the lines, setting software parameters, to powering on the power system, installing the propeller, and even disconnecting and maintaining the equipment after testing, there are clear guidelines. Even novice operators can quickly master the standardized operating methods.
The core value of testing lies in the analysis and application of data. The LY-Micro-MAX series is equipped with DataAnalyzer professional data analysis software, which enables deep mining, analysis, and output of test data, transforming raw data into the core basis for research and development optimization, mass production quality inspection. The software supports multi-view viewing of raw data for testing, with the ability to switch between chart view, data view, and throttle mean view, allowing for intuitive analysis of the performance changes of the motor under different throttle conditions. Automatically calculate the average throttle point, support data export to Excel format, facilitate comparison and analysis with other test data, and accurately locate the direction of power optimization; It can also customize report settings, automatically generate standardized test reports, including core parameters, performance curves, test information, etc., saving time in data organization and report writing, and improving the efficiency of R&D and quality inspection work.
As a high-precision testing equipment, reasonable maintenance and upkeep are the key to ensuring its long-term stable operation and testing accuracy. The LY-Micro-MAX series is equipped with clear maintenance and upkeep standards, distinguishing between pre-test inspection and regular inspection and maintenance. The operation is simple and easy to execute, reducing equipment maintenance costs.
Before testing, the testing environment, equipment fixation, line connection, software parameter settings, and other items can be checked according to the standardized checklist to ensure that the testing conditions meet the standards and the accuracy of the testing data is guaranteed from the source.
Regular inspection and maintenance have defined the inspection cycle for different projects (each test / each disassembly / 3 months / 1 year), covering bolt tightening, linear bearing lubrication, sensor calibration, etc. Among them, core sensors such as thrust, torque, current, and voltage support professional calibration upon return to the factory to ensure that the equipment maintains high-precision testing status for a long time, providing customers with long-term stable testing services.
WING FLYING always adheres to the concept of "Professionalism Creates Quality, Customer First" and continues to invest in research and innovation in the field of unmanned aerial vehicle power testing. The LY-Micro-MAX series is a masterpiece of the company's deep industry cultivation. From product design, core component research and development to software and hardware adaptation, it is fully controlled by a professional team to ensure the professionalism and reliability of the products. Provide customers with comprehensive after-sales service support, complete technical materials, operation manuals, and video tutorials. If any problems are encountered during equipment use and testing, professional technical support can be obtained through a dedicated service email to solve various problems in a timely manner.
At the same time, customized testing bench modification and function expansion services can be provided according to customers' special testing needs, truly achieving "On-Demand Customization and Precise Adaptation". From micro drone motors to large-scale special drone power systems, from performance optimization in the research and development stage to quality inspection in the production stage, the WING FLYING LY-Micro-MAX series motor testing platform has become a professional choice for drone power testing due to its core advantages of full range coverage, full dimensional testing, intelligent control, and high safety protection. In the future, we will continue to deeply cultivate the field of drone power testing, continuously innovate products and services, and use more professional testing equipment and more comprehensive solutions to help the drone industry create a more efficient and reliable power core!
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