yongmin capacitor
Newbie level 6
With the development of artificial intelligence, big data, sensor technology and advanced drive technology, humanoid robots have shown great potential in the fields of manufacturing, medical care, service industry and home assistant. Its core competitiveness lies in high-precision motion control, powerful computing and decision-making capabilities, and autonomous task execution in complex environments. In the realization of these functions, capacitors are key components to stabilize the power supply, ensure the smooth flow of current, and provide support for the servo motor driver, controller and power module of humanoid robots.
01 Humanoid Robot-Servo Motor Driver
The servo motor is the "heart" of the humanoid robot. Its startup and operation depend on the precise control of current by the servo driver. Capacitors play a vital role in this process, providing a stable current supply to ensure efficient and stable operation of the servo motor.
In order to meet the high requirements of servo motor drivers for capacitors, YMIN has launched laminated polymer solid aluminum electrolytic capacitors and polymer hybrid aluminum electrolytic capacitors, which provide excellent current stability and vibration resistance, and support the efficient operation of humanoid robots in complex environments.
Laminated polymer solid aluminum electrolytic capacitors·Application advantages & selection recommendations
· Vibration resistance:
Humanoid robots experience frequent mechanical vibrations when performing tasks. The vibration resistance of the laminated polymer solid aluminum electrolytic capacitor ensures that it can still work stably under these vibrations, and is not prone to failure or performance degradation, thereby improving the reliability and service life of the servo motor drive.
· Miniaturization and thinness:
The miniaturization and thinness design enable it to provide stronger capacitance performance in a limited space, which helps to reduce the size and weight of the motor drive and improve the space utilization efficiency and movement flexibility of the overall system.
· High ripple current resistance:
The laminated polymer solid aluminum electrolytic capacitor has excellent high ripple current resistance capability. Its low ESR characteristics effectively filter out high-frequency noise and ripples in the current, avoiding the influence of power supply noise on the precise control of the servo motor, thereby improving the power quality of the drive and the motor control accuracy.
Polymer hybrid aluminum electrolytic capacitors·Application advantages & selection recommendations
· Low ESR (equivalent series resistance):
The low ESR characteristics can effectively reduce energy loss in the application of servo motor drives, ensure the stability and accuracy of motor control signals, and thus achieve more efficient power management.
· High allowable wave current:
Polymer hybrid aluminum electrolytic capacitors have excellent performance in high allowable wave current. In servo motor drives, they can effectively filter out noise and ripples in the current, ensuring the stability and accuracy of robots under high-speed and complex operations.
· Small size and large capacity:
Providing large-capacity capacitor performance in a limited space not only reduces space occupancy, but also ensures that the robot can continuously and stably supply power when performing high-load tasks, meeting the needs of efficient driving.
02 Humanoid Robot-Controller
As the "brain" of the robot, the controller is responsible for processing complex algorithms and accurately directing movements and operations. To ensure that the controller operates stably under high load, the internal electronic components are crucial. In response to the stringent requirements of servo motor drivers for capacitors, YMIN has launched two high-performance solutions: polymer solid aluminum electrolytic capacitors and liquid chip aluminum electrolytic capacitors, which provide excellent current stability, anti-interference ability and reliability, ensuring the precise control of humanoid robots in complex environments.
Polymer solid aluminum electrolytic capacitors·Application advantages & selection recommendations
·Ultra-low ESR:
Humanoid robot controllers will face current fluctuations under high-speed and complex movements, especially under high-frequency and high-load movements. The ultra-low ESR characteristics of polymer solid aluminum electrolytic capacitors can reduce energy loss, quickly respond to current changes, ensure power supply stability, and maintain the best performance of the robot control system.
· High allowable ripple current:
Polymer solid aluminum electrolytic capacitors have the advantage of high allowable ripple current, helping robot controllers maintain a stable power supply in complex dynamic environments (rapid start, stop or turn), avoiding damage caused by capacitor overload.
· Small size and large capacity:
Polymer solid aluminum electrolytic capacitors are characterized by small size and large capacity, which greatly optimizes the design space of robot controllers, provides sufficient power support for compact robots, and avoids the burden of volume and weight.
Liquid chip type electrolytic capacitor·Application advantages & selection recommendation·Small volume and large capacity: The miniaturization characteristics of liquid chip type aluminum electrolytic capacitors effectively reduce the size and weight of the power module. During rapid startup or load changes, it can provide sufficient current reserves to avoid control system response delays or failures caused by insufficient power supply.
· Low impedance:
Liquid chip type aluminum electrolytic capacitors can effectively reduce energy loss in the power supply circuit and ensure efficient transmission of electric energy. This optimizes the response speed of the power supply system and enhances the real-time performance and stability of the controller, especially in the case of large load fluctuations, which can better cope with complex control requirements.
· High ripple current resistance:
Liquid chip type aluminum electrolytic capacitors can withstand large current fluctuations, effectively avoid the instability caused by current fluctuations, and ensure that the controller power supply can still operate stably under high load, thereby optimizing the stability and reliability of the robot system.
· Ultra-long life:
Liquid chip type aluminum electrolytic capacitors provide long-lasting reliability for robot controllers with their ultra-long life. In a high temperature environment of 105°C, the lifespan can reach 10,000 hours, which means that the capacitor can maintain stable performance under various harsh working conditions, reducing maintenance costs and replacement frequency.
03 Humanoid Robot-Power Module
As the "heart" of humanoid robots, power modules play a key role in providing stable, continuous and efficient power to various components. Therefore, the selection of capacitors in power modules is crucial for humanoid robots.
Liquid lead electrolytic capacitors·Application advantages & selection recommendations· Long life: Humanoid robots need to operate for a long time and at high intensity. Traditional capacitors are prone to unstable power modules due to performance degradation. YMIN liquid aluminum electrolytic capacitors have excellent long life characteristics and can work stably under harsh conditions such as high temperature and high frequency, significantly extending the service life of power modules, reducing maintenance and replacement costs, and improving system reliability.
· Strong ripple current resistance:
When working under high load, the robot power module will generate large current ripples. YMIN liquid aluminum electrolytic capacitors have strong ripple resistance, can effectively absorb current fluctuations, avoid ripple interference to the power system, and maintain stable power output.
· Strong transient response capability:
When humanoid robots perform sudden actions, the power system needs to respond quickly. YMIN liquid aluminum electrolytic capacitors have excellent transient response capabilities, quickly absorb and release electrical energy, meet instantaneous high current requirements, ensure that robots can move accurately and the system is stable in complex environments, and improve flexibility and response speed.
· Small size and large capacity:
Humanoid robots have strict requirements on volume and weight. YMIN liquid aluminum electrolytic capacitors achieve a balance between volume and capacity, save space and weight, and make robots more flexible and adaptable to complex application scenarios.
Conclusion
Today, as intelligence is developing day by day, humanoid robots, as representatives of high precision and high intelligence, cannot achieve their functions without the support of high-performance capacitors. YMIN's various high-performance capacitors have the advantages of ultra-low ESR, high allowable ripple current, large capacity, and small size, which can meet the needs of high-load, high-frequency, and high-precision control of robots and ensure the long-term stability and reliability of the system.
01 Humanoid Robot-Servo Motor Driver
The servo motor is the "heart" of the humanoid robot. Its startup and operation depend on the precise control of current by the servo driver. Capacitors play a vital role in this process, providing a stable current supply to ensure efficient and stable operation of the servo motor.
In order to meet the high requirements of servo motor drivers for capacitors, YMIN has launched laminated polymer solid aluminum electrolytic capacitors and polymer hybrid aluminum electrolytic capacitors, which provide excellent current stability and vibration resistance, and support the efficient operation of humanoid robots in complex environments.
Laminated polymer solid aluminum electrolytic capacitors·Application advantages & selection recommendations
· Vibration resistance:
Humanoid robots experience frequent mechanical vibrations when performing tasks. The vibration resistance of the laminated polymer solid aluminum electrolytic capacitor ensures that it can still work stably under these vibrations, and is not prone to failure or performance degradation, thereby improving the reliability and service life of the servo motor drive.
· Miniaturization and thinness:
The miniaturization and thinness design enable it to provide stronger capacitance performance in a limited space, which helps to reduce the size and weight of the motor drive and improve the space utilization efficiency and movement flexibility of the overall system.
· High ripple current resistance:
The laminated polymer solid aluminum electrolytic capacitor has excellent high ripple current resistance capability. Its low ESR characteristics effectively filter out high-frequency noise and ripples in the current, avoiding the influence of power supply noise on the precise control of the servo motor, thereby improving the power quality of the drive and the motor control accuracy.
Polymer hybrid aluminum electrolytic capacitors·Application advantages & selection recommendations
· Low ESR (equivalent series resistance):
The low ESR characteristics can effectively reduce energy loss in the application of servo motor drives, ensure the stability and accuracy of motor control signals, and thus achieve more efficient power management.
· High allowable wave current:
Polymer hybrid aluminum electrolytic capacitors have excellent performance in high allowable wave current. In servo motor drives, they can effectively filter out noise and ripples in the current, ensuring the stability and accuracy of robots under high-speed and complex operations.
· Small size and large capacity:
Providing large-capacity capacitor performance in a limited space not only reduces space occupancy, but also ensures that the robot can continuously and stably supply power when performing high-load tasks, meeting the needs of efficient driving.
02 Humanoid Robot-Controller
As the "brain" of the robot, the controller is responsible for processing complex algorithms and accurately directing movements and operations. To ensure that the controller operates stably under high load, the internal electronic components are crucial. In response to the stringent requirements of servo motor drivers for capacitors, YMIN has launched two high-performance solutions: polymer solid aluminum electrolytic capacitors and liquid chip aluminum electrolytic capacitors, which provide excellent current stability, anti-interference ability and reliability, ensuring the precise control of humanoid robots in complex environments.
Polymer solid aluminum electrolytic capacitors·Application advantages & selection recommendations
·Ultra-low ESR:
Humanoid robot controllers will face current fluctuations under high-speed and complex movements, especially under high-frequency and high-load movements. The ultra-low ESR characteristics of polymer solid aluminum electrolytic capacitors can reduce energy loss, quickly respond to current changes, ensure power supply stability, and maintain the best performance of the robot control system.
· High allowable ripple current:
Polymer solid aluminum electrolytic capacitors have the advantage of high allowable ripple current, helping robot controllers maintain a stable power supply in complex dynamic environments (rapid start, stop or turn), avoiding damage caused by capacitor overload.
· Small size and large capacity:
Polymer solid aluminum electrolytic capacitors are characterized by small size and large capacity, which greatly optimizes the design space of robot controllers, provides sufficient power support for compact robots, and avoids the burden of volume and weight.
Liquid chip type electrolytic capacitor·Application advantages & selection recommendation·Small volume and large capacity: The miniaturization characteristics of liquid chip type aluminum electrolytic capacitors effectively reduce the size and weight of the power module. During rapid startup or load changes, it can provide sufficient current reserves to avoid control system response delays or failures caused by insufficient power supply.
· Low impedance:
Liquid chip type aluminum electrolytic capacitors can effectively reduce energy loss in the power supply circuit and ensure efficient transmission of electric energy. This optimizes the response speed of the power supply system and enhances the real-time performance and stability of the controller, especially in the case of large load fluctuations, which can better cope with complex control requirements.
· High ripple current resistance:
Liquid chip type aluminum electrolytic capacitors can withstand large current fluctuations, effectively avoid the instability caused by current fluctuations, and ensure that the controller power supply can still operate stably under high load, thereby optimizing the stability and reliability of the robot system.
· Ultra-long life:
Liquid chip type aluminum electrolytic capacitors provide long-lasting reliability for robot controllers with their ultra-long life. In a high temperature environment of 105°C, the lifespan can reach 10,000 hours, which means that the capacitor can maintain stable performance under various harsh working conditions, reducing maintenance costs and replacement frequency.
03 Humanoid Robot-Power Module
As the "heart" of humanoid robots, power modules play a key role in providing stable, continuous and efficient power to various components. Therefore, the selection of capacitors in power modules is crucial for humanoid robots.
Liquid lead electrolytic capacitors·Application advantages & selection recommendations· Long life: Humanoid robots need to operate for a long time and at high intensity. Traditional capacitors are prone to unstable power modules due to performance degradation. YMIN liquid aluminum electrolytic capacitors have excellent long life characteristics and can work stably under harsh conditions such as high temperature and high frequency, significantly extending the service life of power modules, reducing maintenance and replacement costs, and improving system reliability.
· Strong ripple current resistance:
When working under high load, the robot power module will generate large current ripples. YMIN liquid aluminum electrolytic capacitors have strong ripple resistance, can effectively absorb current fluctuations, avoid ripple interference to the power system, and maintain stable power output.
· Strong transient response capability:
When humanoid robots perform sudden actions, the power system needs to respond quickly. YMIN liquid aluminum electrolytic capacitors have excellent transient response capabilities, quickly absorb and release electrical energy, meet instantaneous high current requirements, ensure that robots can move accurately and the system is stable in complex environments, and improve flexibility and response speed.
· Small size and large capacity:
Humanoid robots have strict requirements on volume and weight. YMIN liquid aluminum electrolytic capacitors achieve a balance between volume and capacity, save space and weight, and make robots more flexible and adaptable to complex application scenarios.
Conclusion
Today, as intelligence is developing day by day, humanoid robots, as representatives of high precision and high intelligence, cannot achieve their functions without the support of high-performance capacitors. YMIN's various high-performance capacitors have the advantages of ultra-low ESR, high allowable ripple current, large capacity, and small size, which can meet the needs of high-load, high-frequency, and high-precision control of robots and ensure the long-term stability and reliability of the system.
