Changzhou Holry Electric Technology Co., Ltd. is located in Changzhou, China, which has developed economy and convenient transportation.
Since 2010, we specialize in the development and production of Spindle Motors, Brushless Motors, Stepper Motors, AC Servo Motors, Gearboxes and Drive systems and currently has two brands, Bohong and Holry.
Our company is an enterprise with strong strength and high-quality service. We focus on providing customers with all-round solutions and high-quality services. Our team is composed of a group of passionate and innovative professionals with rich experience and excellent technical level.
OEM and ODM orders are also welcomed. Our products are mainly involved in industrial robots, medical equipment, office automation, electronics, printing equipment, textile machinery, monitoring systems, computers, advertising equipment, stage lighting, CNC machine tools and other industries.
We insist on quality first, innovation and social responsibility as our development philosophy, and continue to provide professional control motor manufacturing and R&D services for global customers.
The above is an overall overview of our company, if you are interested in our company, you can contact us.
In the video, we can see the overall appearance and operation steps of our factory. We have a professional team and technical consultants, have our own factory, and have been specialized in motor manufacturing for many years.
Our company is an enterprise with strong strength and high-quality service. We have a dynamic and innovative team, through professional technical support and quality service, to provide customers with the best solutions. No matter what challenges we face, we have the ability and confidence to provide customers with the best service and support.
This team building activity video is a true portrayal of our company's teamwork. The video shows our various challenges and activities in the event, shows the collaboration and tacit understanding among our team members, and allows people to better understand our company and our team culture.
Through this team building activity, we got to know each other better and enhanced the trust and cooperation between the teams. During the event, we overcame many challenges, unlocked our inner potential, and improved our individual and team capabilities. We believe this event will have a positive impact on our future work and growth. The same is true for us at work, we will bring the most professional service attitude to our customers.
A stepper motor is an electric motor whose main characteristic is that its shaft is rotated by steps, i.e. moved by a fixed number of degrees. This function is thanks to the internal structure of the motor and the exact angular position of the shaft can be known by simply counting the number of steps taken without the need for sensors. This feature also makes it suitable for a wide range of applications. Stepper motors can also be used in many fields, please consult us for detailed product information.
Stepper motors can be divided into the following categories according to their structure:
Single-phase stepper motor: The single-phase stepper motor is the simplest type of stepper motor. Its stator has only one set of coils and two magnetic poles on the rotor to generate rotational torque. The advantages of single-phase stepping motors are simple structure and low cost, but the torque is small and the precision is not high.
Two-phase stepper motor: A two-phase stepper motor is a common stepper motor with two sets of coils on the stator and multiple magnetic poles on the rotor to generate rotational torque. The advantage of the two-phase stepper motor is that it has a large torque and high precision, and is suitable for some applications that require high-precision position control.
Multiphase stepper motors: Multiphase stepper motors typically have higher step angles and higher control accuracy due to the higher number of poles and coils on the rotor. Multiphase stepper motors are often used in applications that require very high precision control.
Stepper motors can be divided into the following two types according to the control method:
Full stepper motor: Full stepper motor is the simplest way to control a stepper motor. It controls the rotation direction and speed of the motor by alternately energizing the circuit. The advantage of the full stepper motor is that the control is simple, the cost of the controller is low, but the control accuracy is low.
Micro-stepping motors: Micro-stepping motors control the rotation direction and speed of the motor by gradually applying power to the circuit. The advantage of the micro-stepping motor is that the control precision is high, and it can realize very fine position control, but the cost is high.
42 HB 40 F 105 B- -06 ○1 ○2 ○3 ○4 ○5 ○6 ○7
○1: 42: Motor frame: 42*42mm
○2: HB: Hybrid stepping motor
○3: 40: Length of motor body
○4: F: Number of leads: four lines, S: six lines, E: 8 lines
○5: 105: Motor rated current value 1.5A
○6: B: There is a flat wire on the motor shaft, CL stands for gear D stands for double output shaft PJ stands for keyway
○7: 06: Derivative number
Stepper motors can be divided into the following categories according to the step angle:
A 1.8 degree stepper motor is the most common type of stepper motor, and each pulse turns the motor 1.8 degrees. The 1.8-degree stepper motor is suitable for some applications that require higher precision control.
The 0.9-degree stepper motor is the one with the smallest step angle among stepper motors, and each pulse makes the motor rotate 0.9 degrees. The 0.9 degree stepper motor is suitable for some applications that require very high precision control, such as 3D printers, medical equipment, etc.
A 0.36 degree stepper motor has a smaller step angle and each pulse turns the motor 0.36 degrees. The 0.36 degree stepper motor is suitable for some applications that require very high precision control, such as precision instruments, etc.
The above is the introduction to the classification of stepper motors. Generally speaking, we recommend 1.8°stepper motors because it has the following advantages:
The step angle of the 1.8-degree stepping motor is relatively small, and each pulse makes the motor rotate at a small angle, so more precise position control can be achieved. This makes the 1.8-degree stepper motor ideal for applications that require precise position control, such as CNC machine tools, medical equipment, automated robots, and more.
The control of the 1.8-degree stepper motor is relatively simple, and usually only the pulse signal is needed to control the rotation direction and speed of the motor. This makes the controller for the 1.8 degree stepper motor low cost and easy to implement.
Compared with some other stepper motors, the 1.8 degree stepper motor has a larger torque, so it can withstand a larger load. This makes the 1.8-degree stepper motor suitable for some applications that need to withstand loads, such as printing machines, automated robots, etc.
The price of the 1.8-degree stepper motor is relatively moderate compared to other stepper motors. It is not only suitable for some high-end applications, but also suitable for some low-end applications. This makes the 1.8-degree stepper motor one of the mainstream products in the stepper motor market.
The best stepper motor will be capable of delivering your required torque while also being fast enough.I tell you my best picks depending on the category of the stepper motor: