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Qingdao AIP Intelligent Instrument Co., Ltd
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Your Professional & Reliable Partner.
Qingdao AIP Intelligent Instrument Co., Ltd., a leading provider of motor testing machine. Founded as a professional company for producing motor testing machine in 2009, AIP has developed to one of the leading manufacturers of this industry in China.Our products can be applied to control the quality of the motor in the production line and testing the motor of home appliance, electric tool, automotive, industrial etc.Headquartered in Qingdao Shandong province in China, we have branch offices ...
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Million+
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China Qingdao AIP Intelligent Instrument Co., Ltd Factory
AIP focus on global motor testing, we have self-owned production factory, AIP offers door-to-door technical consulting and sales, and we welcome worldwide customer to visit us at our plant.
China Qingdao AIP Intelligent Instrument Co., Ltd R&D group
AIP has a strong R&D team in motor testing field, which consisting of 40+ experienced engineers. The team members are all technical authorities in the fields of electrical technical research and application, software development, industrial and structural design. the company has huge budget in R&D work and aims to keep ahead of the technology.
China Qingdao AIP Intelligent Instrument Co., Ltd After sales
AIP has 15 branches worldwide to respond to customers' after-sales needs in real time; AIP engineers provide you with 24/7 support, 365 days a year, responding quickly to your service requests and working. We record and track service requests through our systematic service platform to ensure they are handled promptly and effectively.
China Qingdao AIP Intelligent Instrument Co., Ltd Remote service
Whenever and wherever your system encounters an unexpected situation or emergency, our technical support engineers will identify the fault quickly by remote diagnosis and provide a solution through a reliable network connection, minimizing the production stop and ensuring production productivity.

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BLDC Motor Working Principle And Application
The most basic motor is "DC motor (brushed motor)". Place a coil in a magnetic field. Through the flowing current, the coil will be repelled by the magnetic pole on one side and attracted by the magnetic pole on the other side at the same time, and it will continue to rotate under this effect. During the rotation, the current to the coil flows in the opposite direction, so that it continues to rotate. There is a part of the motor called "commutator" that is powered by the "brush". The position of the "brush" is above the "diverter" and moves continuously with the rotation. By changing the position of the brush, the direction of the current can be changed. The commutator and brushes are indispensable structures for the rotation of DC motors (Figure 1). Figure 1: DC motor (brushed motor) running   The commutator switches the flow of current in the coil and reverses the direction of the magnetic poles so that it always rotates to the right. The brushes supply electricity to the commutator rotating with the shaft.   Motors in different industry   The motor can be classified according to the type of power source and the principle of rotation. Let's take a brief look at the characteristics and application of various motors. The DC motor (brush motor), which has a simple structure and is easy to operate, is usually used for "opening and closing of disc trays" in home appliances. Or it can be used in the "opening and closing and direction control of electric rearview mirrors" of automobiles. Although it is cheap and can be used in many fields, it also has drawbacks. Since the commutator will be in contact with the brush, its life is very short, the brush must be replaced regularly.   The stepper motor will rotate with the number of electrical pulses sent to it. Its movement depends on the number of electrical pulses sent to it, so it is suitable for position adjustment. It is usually used for "paper feeding of fax machines and printers" in the family. Since the paper feeding procedure of the fax machine depends on the specifications (engraving, fineness), the stepping motor that rotates with the number of electric pulses is very easy to use. It is easy to solve the problem that the machine will stop temporarily once the signal stops.   Synchronous motors whose number of revolutions vary with the frequency of the power supply are used for applications such as "rotating tables for microwave ovens". There is a gear reducer in the motor unit to get the number of revolutions suitable for heating food. Induction motors are also affected by the power frequency, but the frequency and the number of rotations is not consistent. Previously, this type of AC motor was used in fans or washing machines.   It can be seen that various motors are active in many fields. Among them, what are the characteristics of BLDC motors (brushless motors) that make them so versatile?   How does the BLDC motor rotate? The "BL" in BLDC motor means "brushless", that is, the "brush" in the DC motor (brush motor) is gone. The role of brushes in DC motors (brush motors) is to energize the coils in the rotor through the commutator. So how does a BLDC motor without brushes energize the coils in the rotor? The original BLDC motor uses permanent magnets as the rotor, and there is no coil in the rotor. Since there are no coils in the rotor, no commutator and brushes for energization are needed. Instead, the coil is used as the stator (Figure 3).   The magnetic field created by the fixed permanent magnet in the DC motor (brush motor) is immobile, and it rotates by controlling the magnetic field generated inside the coil (rotor). To change the number of rotations by changing the voltage. The rotor of the BLDC motor is a permanent magnet, and the rotor is rotated by changing the direction of the magnetic field generated by the surrounding coils. The rotation of the rotor is controlled by controlling the direction and magnitude of the current to the coil. Figure 3: BLDC motor running   BLDC motors use permanent magnets as the rotor. Since there is no need to energize the rotor, there is no need for brushes and commutators. The electricity to the coil is controlled from the outside.   BLDC motor advantages There are three coils on the stator of the BLDC motor, each coil has two wires, and there are six lead wires in the motor. In fact, due to internal wiring, usually only three wires are needed, but there is one more than the previously mentioned DC motor (brush motor). Purely by connecting the positive and negative poles of the battery will not move. As for how to run the BLDC motor, it will be explained in the second part of this series. This time we are going to focus on the advantages of BLDC motors.   The first feature of BLDC motors is "high efficiency". It can control its turning force (torque) to always maintain the maximum value. In the case of a DC motor (brush motor), the maximum torque can only be maintained for a moment during rotation, and cannot always be maintained at the maximum value. If a DC motor (brush motor) wants to get the same torque as a BLDC motor, it can only increase its magnet. This is why a small BLDC motor can also generate great power.   The second feature is "good control", which is related to the first. The BLDC motor can get the expected torque and rotation speed precisely. The BLDC motor can give feedback of the target rotation number, torque, etc. Through precise control, the heat generation and power consumption of the motor can be suppressed. If it is battery driven, the drive time can be extended through careful control.   In addition, it is durable and has low electrical noise. The above two points are the advantages brought by brushless. The DC motor (brushed motor) will be worn for a long time due to the contact between the brush and the commutator. Sparks will also be generated at the contacted part. Especially when the gap of the commutator touches the brush, there will be huge sparks and noise. If you do not want to generate noise during use, you can consider to use a BLDC motor.   BLDC motor application What’s the application of the BLDC motors with high efficiency, diversified control and long service life? It is often applied in products that can give play to its high efficiency and long life and are working continuously. For example: home appliances. People have used washing machines and air conditioners for a long time. Recently, BLDC motors have also been adopted in electric fans, and they have successfully reduced power consumption. The power consumption reduced exactly due to the high efficiency.   BLDC motors are also used in vacuum cleaners. In one case, the rotating speed increased significantly by changing the control system. This example reflects the good controllability of the BLDC motor.   As an important storage medium, the hard disk also uses a BLDC motor in its rotating part. Since it is a motor that needs to run for a long time, durability is vital importance. Of course, it also has the purpose of suppressing power consumption. The high efficiency here is also related to the low power consumption.   There are many other applications for BLDC motors BLDC motors are expected to be used in a wider range of fields. BLDC motors will be widely used in small robots, especially "service robots" that provide services in areas other than manufacturing. "Positioning is very important for robots. Shouldn't you use a stepper motor that runs with the number of electrical pulses?" Someone might think so. But in terms of power control, BLDC motors are more suitable. In addition, if a stepper motor is used, a structure such as a robot wrist needs to provide a considerable amount of current to be fixed in a certain position. If it is a BLDC motor, it can cooperate with external forces to provide the required power and reduce the power consumption.   It can also be used for transportation. For a long time, simple DC motors have been mostly used in electric vehicles or golf carts for the elderly, but recently they have begun to use high-efficiency BLDC motors with good controllability. The duration of the battery can be extended by fine control. BLDC motors are also suitable for drones. Especially for UAVs with multi-axis racks, since it controls the flight by changing the number of rotations of the propellers, the BLDC motor that can precisely control the rotation.   BLDC motor is a high-quality motor with high efficiency, good controllability and long life. However, in order to maximize the power of the BLDC motor, proper control is required. How to do it?   The inner rotor type BLDC motor is a kind of typical BLDC motor, and its appearance and internal structure are as follows (Figure 1). Brushed DC motors (hereafter referred to as DC motors) have coils on the rotor and permanent magnets on the outside. The rotor of the BLDC motor has permanent magnets, and the outside has coil. The rotor of the BLCD motor has no coils and is a permanent magnet, so there is no need to energize the rotor. A "brushless type" without a brush for energization is realized.   On the other hand, control becomes more difficult compared with DC motors. It's not only to make the cable on the motor connected to the power supply. Even the number of cables is different. It is different from the method of "connect the positive (+) and negative (-) to the power supply". Figure1 BLDC motor appearance and structure   Change the direction of magnetic flux   In order to rotate the BLDC motor, the current direction and timing of the coil must be controlled. Figure 2-A is the result of modeling the stator (coil) and rotor (permanent magnet) of the BLDC motor. Think about the rotor working with reference to the following picture. Consider the case of using 3 coils. Although there are actually cases where 6 or more coils are used, based on the principle, one coil is placed every 120 degrees and three coils are used. The motor converts electricity (voltage, current) into mechanical rotation. How does the BLDC motor in Figure 2-A rotate? Let's take a look at what happens in the motor first. Figure 2-A: BLDC motor rotate principle A coil is placed every 120 degrees in the BLDC motor, and a total of three coils are placed to control the current of the energized phase or coil. As shown in Figure 2-A, the BLDC motor uses 3 coils. These three coils are used to generate magnetic flux after energization, and they are named U, V, and W. Give it try to energize the coil. The current path on the coil U (hereinafter referred to as "coil") is marked as U phase, V is recorded as V phase, and W is recorded as W phase. Next, take a look at the U phase. After the U phase is energized, the magnetic flux in the direction of the arrow shown in Figure 2-B will be generated.   But in fact, the U, V, and W cables are all connected to each other, so it is impossible to energize the U phase only. Here, energizing from the U phase to the W phase will generate magnetic flux at U and W as shown in Figure 2-C. Combining the two magnetic fluxes of U and W becomes the larger magnetic flux as shown in Figure 2-D. The permanent magnet will rotate so that the resultant magnetic flux is in the same direction as the N pole of the permanent magnet (rotor) in the center. Energize from U phase to W phase. Firstly, pay attention to the coil U, you will find the generated magnetic flux like arrow. Figure 2-C: BLDC motor rotate principle Energize from U phase to W phase, 2 magnetic flux with different direction will be generated. Figure 2-D: BLDC motor rotate principle Energize from U phase to W phase, two magnetic flux will be generated.   If the direction of the synthetic magnetic flux is changed, the permanent magnet will also change accordingly. According to the position of the permanent magnet, switch the energized phase among U-phase, V-phase, and W-phase to change the direction of the combined magnetic flux. Continuously performing this operation, the resultant magnetic flux will rotate, thereby generating a magnetic field, and the rotor will rotate.   Figure 3 shows the relationship between the energized phase and the resultant magnetic flux. In this example, if the energization mode is changed from 1-6 in order, the resultant magnetic flux will rotate clockwise. By changing the direction of the synthesized magnetic flux and controlling the speed, the rotation speed of the rotor can be controlled. The control method for switching these 6 energization modes and controlling the motor is called "120-degree energization control".     Figure 3: The permanent magnet of the rotor will rotate as if pulled by the synthetic magnetic flux, and the shaft of the motor will also rotate accordingly   Use sine wave control for smooth rotation Next, although the direction of the combined magnetic flux will rotate under the 120-degree energization control, there are only six directions. For example, if the "energization mode 1" in Figure 3 is changed to "energization mode 2," the direction of the combined magnetic flux will change by 60 degrees. Then the rotor will rotate as if attracted. Next, change from "energization mode 2" to "energization mode 3", the direction of the resultant magnetic flux will change 60 degrees again. The rotor will be attracted by this change again. This phenomenon will repeat itself. This action will become blunt. Sometimes this action will make noise.   It is the "sine wave control" that can eliminate the shortcomings of 120-degree energization control and achieve smooth rotation. In the 120-degree energization control, the combined magnetic flux is fixed in 6 directions. In the example of Figure 2-C, U and W generate the same magnetic flux. However, if the U-phase, V-phase, and W-phase can be controlled well, the coils can generate magnetic fluxes of different sizes, and the direction of the combined magnetic flux can be precisely controlled. The currents of the U-phase, V-phase, and W-phase are adjusted to generate a composite magnetic flux. By controlling the continuous generation of this magnetic flux, the motor can rotate smoothly.     Figure 4: sine wave control   The sine wave control can control the current on the 3 phases, generate synthetic magnetic flux, and realize smooth rotation. It can generate synthetic magnetic flux in a direction that cannot be generated by 120-degree energization control.     Inverter control motor What about the currents on the U, V, and W phases? For ease of understanding, let's recall the case of 120-degree energization control. Please see Figure 3 again. In power-on mode 1, current flows from U to W; in power-on mode 2, current flows from U to V. It can be seen that whenever the combination of the coils with current flowing changes, the direction of the synthetic magnetic flux arrow also changes.   Next, look at power-on mode 4. In this mode, the current flows from W to U, opposite to the direction of energization mode 1. In a DC motor, the current direction conversion like this is performed by a combination of a commutator and a brush. However, BLDC motors do not use such contact type methods. Use an inverter circuit to change the direction of current. When controlling a BLDC motor, an inverter circuit is generally used.   In addition, the inverter circuit can change the applied voltage in each phase and adjust the current value. In voltage adjustment, PWM (Pulse Width Modulation=Pulse Width Modulation) is commonly used. PWM is a method of changing the voltage by adjusting the pulse ON/OFF time length. What is important is the change in the ratio (duty cycle) of the ON time and the OFF time. If the ON ratio is high, the same effect as increasing the voltage can be obtained. If the ON ratio decreases, the same effect as the voltage decrease can be obtained (Figure 5).     In order to realize PWM, there are now microcomputers equipped with dedicated hardware. When performing sine wave control, it is necessary to control the voltage of three phases, so the software is slightly more complicated than the 120-degree energization control with only two phases energized. The inverter is a necessary circuit for driving the BLDC motor. Inverters are also used in AC motors, but it can be considered that the "inverter type" referred to in home appliances almost uses BLDC motors.   Change the ON time within a certain period of time to change the effective value of the voltage. The longer the ON time, the closer the effective value is to the voltage when 100% voltage is applied (when it is ON).   BLDC motor using position sensor The above is an overview of the control of the BLDC motor. The BLDC motor changes the direction of the synthetic magnetic flux generated by the coil to change the permanent magnet of the rotor.   In fact, there is one more point not mentioned in the above description. That is, the presence of sensors in BLDC motors. The control of the BLDC motor is coordinated with the position (angle) of the rotor (permanent magnet). Therefore, a sensor to obtain the rotor position is necessary. If no sensor knows the direction of the permanent magnet, the rotor may turn to an unexpected direction. If there are sensors to provide information, this will not happen.   Table 1 shows the main types of sensors for position detection of BLDC motors. Depending on the control method, the required sensors are also different. In the 120-degree energization control, in order to determine which phase to energize, a Hall-effect sensor that can input a signal every 60 degrees is equipped. On the other hand, high-precision sensors such as angle sensors or photoelectric encoders are effective for "vector control" (explained in the next item) that precisely controls the synthesized magnetic flux.   The position can be detected by using these sensors, but it also brings some disadvantages. The sensor is weak against dust and maintenance is indispensable. The usable temperature range will also be reduced. The use of sensors or the increase in wiring for this will cause the cost to rise, and the high-precision sensors themselves are expensive. Thus, the "sensor less" approach was introduced. It does not use position detection sensors to control costs and does not require sensor-related maintenance. But for the purpose of explaining the principle this time, let's assume that information has been obtained from the position sensor.   Sensor type Main application Feature Hall sensor 120-degree power supply control Acquire signal every 60 degree. Lower cost, poor heat endurance Optical encoder Sine wave control, vector control High resolution, poor anti-dust ability. Angle sensor Sine wave control, vector control High resolution.   Maintain high efficiency at all times through vector control The sine wave is controlled to be energized in three phases, which smoothly changes the direction of the synthesized magnetic flux, so the rotor will rotate smoothly. The 120-degree energization control switches 2 phases among U-phase, V-phase, and W-phase to make the motor rotate, while sine wave control requires precise control of the 3-phase current. Moreover, the controlled value is an AC value that changes all the time, so the control becomes more difficult.   Here is vector control. Vector control can use coordinate transformation to calculate the 3-phase AC value as the 2-phase DC value, so the control can be simplified. However, vector control calculation requires rotor position information at high resolution. There are two methods for position detection, that is, a method using a position sensor such as a photoelectric encoder or a rotation angle sensor, and a senseless method that estimates based on the current value of each phase. Through this coordinate transformation, the current value related to the torque (rotational force) can be directly controlled, so as to achieve efficient control without excess current.   However, vector control requires coordinate transformation using trigonometric functions or complex calculation processing. Therefore, in most cases, a microcomputer with strong computing power is used as a control microcomputer, such as a microcomputer equipped with an FPU (floating point arithmetic unit).   The above is about the brushless DC motor and the normal use method shared by the editor of AIP. However, if you want to improve the quality of the brushless DC motor and reduce the defective rate of motor production, you also need to use the motor testing machine in the motor production process. The product launched by the editor of AIP today is: BLDC motor testing machine.   This series of products are mainly used for rapid and accurate testing of the electrical performance parameters of brushless motors in automobiles, fans, air conditioners, washing machines and other products. The system is composed of test tooling, industrial computer, test host, system control software and various functional modules. It can realize the safety performance test and load test of the complete brushless motor. After the equipment is started, the programed tests are done in sequence according to the test process. After the test is completed, it will give pass or fail instructions and sound and light alarms.   AIP focus on the electric motor testing and devoted to provide one-stop motor testing solutions for different industries. If you want to know more about electric motor test, please contact by e-mail: international@aipuo.com Tel: +86-532-87973318
Electric motor testing introduction
We all know that the motor testing machine is actually a general term, and different motor testing machines are quite different, but there are some basic standard requirements for the test items. Here we would share some principles to check electric motor.   DC winding resistance: in physics, resistance can be directly detected by Ohm's law. AIP tester adopts the four-wire measuring method, which can effectively avoid line resistance and ensure the accuracy of the test.   Hipot: include AC Hipot and DC Hipot (AC Hipot is more common). The difference is the outputted voltage during the Hipot test. During the Hipot test, the tester applies high voltage between the motor frame and power supplied part to check if there is breakdown current. The upper and lower limit would be preset, and the fail alarm would be triggered if the measured breakdown current out of the preset limit.   Insulation resistance: test principle is similar with Hipot test. The tester output DC current to test the insulation between the power supplied part and motor frame. The test result is determined by the insulation resistance.   Surge/layer short: apply oscillation impulse voltage to motor coil an detect its oscillation waveform. Compare the tested waveform with the master’s, and the difference would indicate the layer short insulation of the tested product.   Low voltage start: output 0.86 rated voltage to the tested product and test the electrical parameter. Check if the motor works normally under low voltage status.   Locked rotor/stall test: as the name implied, locked rotor is to lock the rotor and test its electrical parameters. However, this actual lock method cannot fulfill the production line requirements for safety and efficiency. AIP tester simulates the locked rotor to test the consistency, which improves the efficiency on the basis of guarantee the test accuracy.   Power test: supply rated power to the motor and test the electrical parameters, mainly test the current, and calculate the power.   Electric motor is also a general term. Some customers would ask if they manufactured pump, fan or compressor can be tested as motor. Although the core part of the above-mentioned product is motor, it cannot be tested as motor completely. Some of the products have loading device, and the safety test, such as, leakage current, ground test etc. shall be performed as well.   If you want to know more about electric motor test, please contact by e-mail: international@aipuo.com Tel: +86-532-87973318
Cast Aluminum Rotor Inspection Manufacturers
With the continuous innovation and development of science and technology, the user's requirements for the performance of the motor gradually improve, and the motor factory test is also more and more refined and rigorous. Now the motor companies abandoned the overall complexity of the previous test and chose to test the motor in stages, the motor stator, motor rotor, and motor machine were tested, each stage of the strict control. Cast aluminum rotor is a kind of motor rotor, its factory inspection is very important. So how to choose the cast aluminum rotor inspection manufacturer is what will be shared this time.     The following cast aluminum rotor testing manufacturers from the "hard power" and "soft power" as a reference to select the testing equipment manufacturers. Ⅰ. cast aluminum rotor testing manufacturers of "hard power" Cast aluminum rotor testing manufacturers of "hard power" mainly contain manufacturers of the production environment, manufacturers of technical after-sales strength, and product sales range. 1, cast aluminum rotor testing manufacturers' production environment Cast aluminum rotor inspection manufacturers should adopt the "6S" management mode, cast aluminum rotor inspection system production site personnel, machines, materials, methods, safety, and other effective management, to improve the overall quality of work. AIP applies the "6S" management mode to refine the management of the overall company environment, the company structure is refined into a technology center, marketing center, and supply chain center of the three modules, ten production modules, the implementation of digital management, all digital systems, in-depth application of the ERP system, covering sales CRM system, R & D PDM system, production MES system, warehouse WMS system. ERP system, covering sales CRM system, R & D PDM system, production MES system, warehouse WMS system, clear functions, and high efficiency. 4000 square meters of office production area, north-south ventilation to achieve dozens of sets of cast aluminum rotor inspection system at the same time production debugging to ensure that the production cycle of the inspection system.     2, cast aluminum rotor testing manufacturers' technical after-sales strength The quality of cast aluminum rotor inspection systems depends overwhelmingly on the technical strength of the company itself. AIP Technology Center has a separate microcontroller department, software department, electrical department, mechanical department, process department, standardization section, and other types of technical departments, whether it is in the cast aluminum rotor detection system before the production of technical review, assembly and commissioning period of technical support or after-sales links of the remote assistance, the division of labor of each department is clear, and hand in hand on the cast aluminum rotor detection system to provide strong technical support for the quality of the high quality of the technical support. Cast aluminum rotor inspection system adopts international advanced detection technology, the use of special sensors, according to the traditional theory to support the use of digital signal processing methods to automatically detect the quality of cast aluminum rotor guide bar judgment. Applicable to cast aluminum, cast copper, and other types of squirrel cage rotor, the rotor guide bar broken bars, thin bars, pores, bubbles, air gaps, leakage, eccentricity, offset, and so on to detect, conventional 5s to get the test results, efficient and fast.     3、Cast aluminum rotor testing manufacturers' product sales range AIP focuses on global motor testing and has deep cooperation with more than 3,000 motor enterprises at home and abroad. In addition to the headquarters in Shandong, it has offices in Changzhou, Hangzhou, Shenzhen and other 8 places in China, global distributors, 6 continents after-sales service points, and close to the motor enterprises to provide timely and powerful technical after-sales service support.     Ⅱ. cast aluminum rotor testing manufacturers of "soft power" Generally speaking, the soft power of cast aluminum rotor testing manufacturers mainly includes the manufacturer's corporate culture, enterprise development planning, and other aspects. AIP always adheres to the customer-oriented, motor test solutions as the center, decades continue to provide global customers with motor test solutions in various industries, including cast aluminum rotor test, the entire motor test, motor stator test, armature rotor test, permanent magnet rotor test, FCT test, and other motor factory test solutions, which are widely used in automotive motors, household motors, pump motors, power tool motors, industrial motors, servo motors, military motors, and other industries, widely praised by users.     Overall. AIP as a professional, scientific, modular elite team, adheres to the "customer-centric" service concept and strives to provide users with a high-quality cast aluminum rotor inspection system and perfect after-sales service, urgent customer needs, research customer needs, and the majority of partners to work together for a win-win future!    

2024

03/19

AIP's Women's Day
To celebrate the arrival of the 114th International Women's Day and to let every female employee of AIP receive good wishes in this exclusive festival, AIP carried out a micro-landscaping DIY art and crafts salon activity on March 8, in which more than 50 female employees from various departments gathered together to enter into the wonderful world of micro-landscaping and create their small world with their hands. They came together to enter the marvelous world of micro-landscapes and crafted their small world with their hands.     At the activity site, cozy milk tea, sweet cakes, fresh fruits, and various snacks added a unique festive atmosphere to this special day. With the official opening of the micro-landscape DIY activity, everyone picked their favorite green plants, filling soil, color matching, planting, paving ...... each procedure tested everyone's care and patience. The atmosphere of the scene was warm, everyone exchanged ideas with each other and shared planting skills. With the gradual completion of a pot of exquisite small potted plants, the scene also added a few spring colors.     Although succulents do not have the delicate fragrance of flowers, they epitomize the spirit of struggle of AIP's female workers with their tenacity and quiet perseverance. On the road of AIP's development, female workers, with the attitude of women, have silently plowed and continued to struggle, fully demonstrating their unique value and strength, and becoming a powerful driving force to promote the company's continuous progress.     AIP has always been adhering to the core values of being "Struggle-oriented", and this activity is also a concrete demonstration of this concept in the construction of corporate culture. It also strengthens the emotional connection between employees, deepens the team cohesion, and further enhances the sense of belonging and centripetal force of employees.     In the future, AIP will continue to pay attention to the growth and development of female employees and provide them with a broad stage and unlimited space for development. At the same time, AIP will continue to strengthen the construction of corporate culture and create a more harmonious and positive working atmosphere, so that every employee can feel the warmth and strength in the big family of AIP.     AIP focuses on global motor testing, and customized motor testing solutions to meet all kinds of motor testing needs!

2024

03/14