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LMHAE572C
Novanta IMS LMHAE572C is a stepper motor within the high-torque stepper motors sub-range, featuring an integrated driver and high-torque DC stepper motor. It is designed with an absolute multi-turn encoder, double (2) motor stack, and operates on closed-loop hMTechnology. This part offers a variety of connection types including a 4-pin M12 male connector, a 12-pin M12 male connector, and a 5-pin M12 male connector. It supports Ethernet/IP and Modbus TCP communication protocols. The supply voltage ranges from 12Vdc to 60Vdc, with 24Vdc and 48Vdc being typical. It is mounted via a 57x57mm flange and has a degree of protection rated at IP65. The moment of inertia is 0.22kg.cm^2, and it provides a stall torque of 186N.cm. The resolution is defined by a 1.8° step angle.
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LMHAE572
Novanta IMS LMHAE572 is a stepper motor that falls under the high-torque stepper motors sub-range, featuring an integrated driver and high-torque DC stepper motor. It is designed with an absolute multi-turn encoder, double motor stack, and operates on closed-loop hMTechnology. For connections, it offers a 2-pin screw-lock connector, a 7-pin spring-clamp connection, and a 9-pin D-sub male connector. The LMHAE572 supports Ethernet/IP and Modbus TCP communication protocols. It requires a supply voltage ranging from 12Vdc to 60Vdc, with optimal performance at 24Vdc or 48Vdc. The motor is mounted via a 57x57mm flange and has an IP20 degree of protection. Its moment of inertia is rated at 0.22kg.cm^2, with a stall torque of 186N.cm, and it operates with a resolution of a 1.8° step angle.
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LMDOP852C
Novanta IMS LMDOP852C is a stepper motor that falls under the hybrid stepper motors sub-range, featuring an integrated driver and hybrid DC stepper motor with Pulse/Direction I-O functionality. It is designed as a double motor stack open-loop system and offers a variety of connection types including a 4-pin M12 male connector, a 12-pin M12 male connector, and a 5-pin M12 male connector. The motor operates on a supply voltage ranging from 12Vdc to 70Vdc, with optimal performance at 24Vdc and 48Vdc. It is designed for mounting with an 85x85mm flange and is rated with a degree of protection of IP65. The LMDOP852C has a moment of inertia of 1.35kg.cm^2, which is standard torque, and a stall torque of 339N.cm. It achieves a resolution of 1.8° step angle.
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LMHAA571C
Novanta IMS LMHAA571C is a stepper motor characterized by its integration of a driver and a high-torque DC stepper motor within the high-torque stepper motors sub-range. It features an absolute multi-turn encoder, a single motor stack, and operates on closed-loop hMTechnology. The connection is facilitated through a 4-pin M12 male connector, a 12-pin M12 male connector, and a 5-pin M12 male connector, supporting CANopen communication protocol. This motor is designed for a supply voltage range of 12Vdc to 60Vdc, with optimal performance at 24Vdc and 48Vdc. It mounts via a 57x57mm flange and is rated with an IP65 degree of protection against dust and water ingress. The LMHAA571C has a moment of inertia of 0.14kg.cm^2 and delivers a stall torque of 107N.cm. Its resolution is defined by a 1.8° step angle.
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LMDOP573
Novanta IMS LMDOP573 is a stepper motor within the hybrid stepper motors sub-range, featuring an integrated driver and hybrid DC stepper motor with Pulse/Direction I-O functionality. This model is designed as a triple (3) motor stack open-loop system. It offers various connection types, including a 2-pin screw-lock connector, a 7-pin spring-clamp connection, and a 9-pin D-sub male connector. The LMDOP573 operates on a supply voltage range of 12Vdc to 60Vdc, with optimal performance at 24Vdc or 48Vdc. It is mounted using a 57x57mm flange and has a degree of protection rated at IP20. The motor's moment of inertia is 0.46kg.cm2, and it provides a stall torque of 171N.cm. The resolution is defined by a 1.8° step angle.
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LMDOM853
Novanta IMS LMDOM853 is a stepper motor designed for applications requiring integrated drive functionality and hybrid DC stepper motor capabilities. This part falls under the sub-range of hybrid stepper motors and features a triple motor stack open-loop system. It offers various connection types, including a 2-pin screw-lock connector, a 7-pin spring-clamp connection, and a 9-pin D-sub male connector, catering to diverse installation requirements. The LMDOM853 supports RS-422 and RS-485 communication protocols, ensuring compatibility with a wide range of control systems. It operates on a supply voltage range of 12Vdc to 70Vdc, with 24Vdc and 48Vdc being typical values. The motor is designed for mounting with an 85x85mm flange and has an IP20 degree of protection. With a moment of inertia of 2.7kg.cm^2 and a stall torque of 650N.cm, it is engineered to deliver standard torque performance. The resolution is specified as a 1.8° step angle, providing precise control over motor positioning.
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LMDOM852C
Novanta IMS LMDOM852C is a stepper motor that falls under the hybrid stepper motors sub-range, featuring an integrated driver and a hybrid DC stepper motor design with a double (2) motor stack in an open-loop system. It offers various connection types, including a 4-pin M12 male connector, a 12-pin M12 male connector, and a 5-pin M12 male connector. The motor supports RS-422 and RS-485 communication protocols. It operates on a supply voltage ranging from 12Vdc to 70Vdc, with 24Vdc and 48Vdc being typical values. The LMDOM852C is designed for mounting with an 85x85mm flange and has an IP65 degree of protection, making it suitable for environments where dust and water resistance are necessary. The moment of inertia is specified at 1.35kg.cm2, indicating standard torque, and it has a stall torque of 339N.cm. The resolution of the motor is defined by a 1.8° step angle.
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LMDOE853
Novanta IMS LMDOE853 is a stepper motor within the hybrid stepper motors sub-range, featuring an integrated driver and hybrid DC stepper motor design. This model is configured as a triple (3) motor stack open-loop system. It offers a variety of connection types, including a 2-pin screw-lock connector, a 7-pin spring-clamp connection, and a 9-pin D-sub male connector. The LMDOE853 supports Ethernet/IP and Modbus TCP communication protocols. It operates on a supply voltage range of 12Vdc to 70Vdc, with 24Vdc and 48Vdc being typical values. The motor is designed for mounting with an 85x85mm flange and has an IP20 degree of protection. The moment of inertia is rated at 2.7kg.cm^2, indicating standard torque, and it has a stall torque of 650N.cm. The resolution is defined by a 1.8° step angle.
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MDO1FSD17B4-N
Novanta IMS MDO1FSD17B4-N is a stepper motor featuring an integrated driver and a 2-phase DC stepper motor with SPI communication. It is designed for mounting with a 42x42mm flange and operates within an ambient air temperature range of 0 to +85°C. This motor is part of the Stepper motors sub-range and comes with a rear control knob and a double motor stack in its Plus version, which includes standard features. It connects via 30cm / 12" bare end flying leads to a 10-pin IDC non-locking connector. The MDO1FSD17B4-N offers a degree of protection rated at IP20 and requires a supply voltage between 12Vdc and 48Vdc, typically at 24Vdc. It delivers a stall torque of 42N.cm and has a moment of inertia of 0.057kg.cm^2. The resolution of this motor is defined by a 1.8° step angle.
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LMDCE852C
Novanta IMS LMDCE852C is a stepper motor that falls under the hybrid stepper motors sub-range, featuring an integrated driver and a hybrid DC stepper motor design. It incorporates an incremental magnetic encoder, double motor stack, and operates on closed-loop hMTechnology. The connection options include a 4-pin M12 male connector, a 12-pin M12 male connector, and a 5-pin M12 male connector, supporting Ethernet/IP and Modbus TCP communication protocols. This stepper motor is designed for a supply voltage range of 12Vdc to 70Vdc, with optimal performance at 24Vdc and 48Vdc. It mounts via an 85x85mm flange and offers a degree of protection rated at IP65. The moment of inertia is specified at 1.35kg.cm^2 for standard torque, with a stall torque of 339N.cm and a resolution characterized by a 1.8° step angle.
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BRS39BW771FBA
Schneider Electric BRS39BW771FBA is a 3-phase DC stepper motor within the Stepper motors sub-range, featuring an incremental encoder with 1000 points per turn and a woodruff key shaft (single shaft end) with a holding brake. It operates at a supply voltage of 325Vdc and has a rated current of 2.25A. The motor is designed with a 73mm centering collar, a 14mm shaft diameter, and screw-clamp connections for connectivity. It offers a degree of protection rated at IP41 and IP56, suitable for various environments. The stepper motor is mountable via an 85x85mm flange, with dimensions specifying a net height of 85mm, a length of 128mm, a net depth of 127.5mm, and a net width of 85mm. It operates efficiently within an ambient air temperature range of -25 to +40°C and can be stored in temperatures ranging from -25 to +70°C. The motor provides a resolution with step angles of 1.8°, 0.9°, 0.72°, 0.36°, 0.18°, 0.09°, 0.072°, and 0.036°, a stall torque of 6.78Nm at standstill (MH), a nominal torque of 6Nm (MN), and a moment of inertia of 3.3kg.cm^2.
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BRS397W660ACB
Schneider Electric BRS397W660ACB is a 3-phase DC stepper motor within the Stepper motors sub-range, featuring a woodruff key shaft design with dual shaft ends. It operates on a supply voltage of 325Vdc and is equipped with a 4-pin connector for connection. This motor has a 60mm centering collar, a 12mm shaft diameter, and offers a degree of protection rated at IP41/IP56. It has a rated current of 1.75A and is designed for mounting with an 85x85mm flange. The dimensions include a net height of 85 mm, a length of 68mm for the motor, a net depth of 67.5 mm, and a net width of 85 mm. It operates efficiently within an ambient air temperature range of -25 to +40 °C and can be stored in temperatures ranging from -25 to +70 °C. The motor provides a resolution with step angles of 1.8° / 0.9° / 0.72° / 0.36° / 0.18° / 0.09° / 0.072° / 0.036°, a stall torque of 2.26Nm at standstill (MH), a nominal torque of 2Nm (MN), and a moment of inertia of 1.1kg.cm2.
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BRS397W570FCA
Schneider Electric BRS397W570FCA is a 3-phase DC stepper motor within the Stepper motors sub-range, featuring a woodruff key shaft with a single shaft end and a holding brake. It operates on a supply voltage of 325Vdc and has dimensions including a 73mm centering collar and a 9.5mm shaft diameter. This motor utilizes a 4-pin connector for its connection type and offers a degree of protection rated at IP41 IP56. The rated current for this part is 1.75A, and it is designed for mounting with an 85x85mm flange. The net dimensions are 85 mm in height, 67.5 mm in depth, and 85 mm in width, with the motor length being 68mm. It can operate in ambient air temperatures ranging from -25 to +40 degrees Celsius and can be stored in temperatures ranging from -25 to +70 degrees Celsius. The stepper motor provides resolution options of 1.8° / 0.9° / 0.72° / 0.36° / 0.18° / 0.09° / 0.072° / 0.036° step angles. It has a stall torque of 2.26Nm at standstill (MH) and a nominal torque of 2Nm (MN), with a moment of inertia of 1.1kg.cm^2.
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BRS397W260ACA
Schneider Electric BRS397W260ACA is a 3-phase DC stepper motor within the Stepper motors sub-range, featuring a smooth shaft design with a single shaft end. It operates on a supply voltage of 325Vdc and comes with a 60mm centering collar and a 9.5mm shaft diameter. This motor is equipped with a 4-pin connector for its connection type and offers a degree of protection rated at IP41 IP56. It has a rated current of 1.75A and is designed for mounting with an 85x85mm flange. The dimensions include a net height of 85 mm, a length of 68mm for the motor, a net depth of 67.5 mm, and a net width of 85 mm. It operates efficiently within an ambient air temperature range of -25 to +40 °C for operation and -25 to +70 °C for storage. The stepper motor offers resolution options of 1.8° / 0.9° / 0.72° / 0.36° / 0.18° / 0.09° / 0.072° / 0.036° step angles, a stall torque of 2.26Nm at standstill (MH), a nominal torque of 2Nm (MN), and a moment of inertia of 1.1kg.cm^2.
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BRS397H271ABA
Schneider Electric BRS397H271ABA is a 3-phase DC stepper motor within the Stepper motors sub-range, featuring an incremental encoder with 1000 points per turn and a smooth shaft with a single shaft end. It operates on a 48Vdc supply voltage and is designed with a 73mm centering collar and a 9.5mm shaft diameter. The connection is facilitated through screw-clamp connections, and it offers a degree of protection rated at IP41 and IP56. The rated current for this motor is 5.8A, and it is mounted via an 85x85mm flange. The dimensions include a net height of 85mm, a length of 68mm for the motor, and a net depth and width of 68mm and 85mm, respectively. It supports operation in ambient air temperatures ranging from -25 to +40°C and storage temperatures from -25 to +70°C. The stepper motor provides resolution options of 1.8° / 0.9° / 0.72° / 0.36° / 0.18° / 0.09° / 0.072° / 0.036° step angles, with a stall torque of 1.92Nm at standstill (MH) and a nominal torque of 1.7Nm (MN). The moment of inertia is rated at 1.1kg.cm^2.
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BRS2571A240
Schneider Electric BRS2571A240 is a 2-phase DC stepper motor within the Stepper motors sub-range, featuring a smooth shaft design with a single shaft end and a single motor stack. It operates on a supply voltage range of 12Vdc to 48Vdc, with an optimal performance at 24Vdc, and connects via bare end flying leads. This stepper motor is designed with a 57x57mm flange for mounting, has a net height of 56.4 mm, a depth of 45 mm, and a width of 56.4 mm. It offers a resolution of 1.8° step angle, operates efficiently within an ambient air temperature range of -25 to +40 °C for operation and -25 to +70 °C for storage. The BRS2571A240 is rated for a current of 2.4A, features a degree of protection rated at IP20, achieves a rotational speed of 1800 rpm, delivers a stall torque of 0.64Nm, and has a moment of inertia of 0.18kg.cm^2.
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ILT2V573MC0A
Schneider Electric ILT2V573MC0A is a stepper motor characterized by its integrated driver and 2-phase stepper motor with Pulse/Direction I-O functionality. It features a pulse sensing device with a zero marker, a smooth shaft, and a triple (3) motor stack designed for medium rotation speed and medium torque. The connection is facilitated through an industrial connector, and it operates on a supply voltage ranging from 24Vdc to 48Vdc. This stepper motor is designed for mounting with a 57x57mm flange. The dimensions include a net height of 75.2 mm, a net width of 56.4 mm, and a net depth of 118.6 mm. It achieves a rotational speed of 300rpm at 24Vdc and 450rpm at 48Vdc, with a stall torque of 1.44Nm.
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ILS1V852PC1A0
Schneider Electric ILS1V852PC1A0 is a stepper motor characterized by its integrated driver and 3-phase stepper motor functionality, designed to operate with a 5V pulse/direction input-output. It features a pulse sensing device with a zero marker and a double motor stack, optimized for medium rotation speed and medium torque. The connection is facilitated through an industrial connector, and it includes a Safe Torque OFF (STO) protection function. This stepper motor operates on a supply voltage ranging from 24Vdc to 36Vdc and is mounted via an 85x85mm flange. The dimensions are 119.6 mm in height, 85 mm in width, and 170.6 mm in depth. It delivers a maximum torque of 4Nm and achieves a rotational speed of 200rpm at 36Vdc, with a stall torque of 4Nm.
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BRS39AWH61FCA
Schneider Electric BRS39AWH61FCA is a 3-phase DC stepper motor within the Stepper motors sub-range, featuring an incremental encoder with 1000 points per turn, a holding brake, and a single-shaft end design. It operates on a supply voltage of 325Vdc and has a rated current of 2A. This motor is designed with a 60mm centering collar and connects via a 4-pin connector. It is mountable using an 85x85mm flange and has a motor length of 98mm. The BRS39AWH61FCA can operate in ambient air temperatures ranging from -25 to +40°C and can be stored in temperatures from -25 to +70°C. It offers resolution options of 1.8°, 0.9°, 0.72°, 0.36°, 0.18°, 0.09°, 0.072°, and 0.036° step angles. The motor provides a stall torque of 4.52Nm at standstill (MH) and a nominal torque of 4Nm (MN), with a moment of inertia of 2.2kg.cm^2.
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ILP2R361MN1A
Schneider Electric ILP2R361MN1A is a stepper motor designed with an integrated driver and operates as a 2-phase stepper motor. It features a pulse sensing device with a zero marker and a smooth shaft. This single motor stack is tailored for applications requiring medium rotation speed and medium torque. It connects via a printed circuit board (P.C.B.) connector and utilizes an RS-485 communication protocol. The supply voltage ranges from 24Vdc to 48Vdc. For mounting, it comes with a 36x36mm flange. The dimensions include a net height of 52 mm, a net width of 35.6 mm, and a net depth of 48.5 mm. The motor achieves a rotational speed of 700rpm at 24Vdc and 900rpm at 48Vdc, with a stall torque of 0.11Nm.
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Stepper Motors
General Guide & Overview
Stepper motors are powerful electromechanical devices that play a crucial role in precise and controlled mechanical movement. They are commonly used in various industries and applications that require accurate position control. But what exactly is a stepper motor, and how does it work? In this comprehensive guide, we will delve into the intricacies of stepper motors, explore their different types, discuss the advantages they offer, and touch upon the importance of stepper motor controllers.
So, what is a stepper motor? A stepper motor, also known as a step or stepping motor, is an electromechanical device that converts electrical pulses into precise mechanical movement. Unlike conventional motors, stepper motors rotate in fixed angular increments. They are designed to move in steps, making them ideal for applications that require precise control over position and speed.
Now that we know what a stepper motor is, how do stepper motors work? Stepper motors receive digital pulses that trigger the motor to rotate in fixed step increments. Each pulse corresponds to a specific rotational step, and the motor moves in either a clockwise or counterclockwise direction depending on the pulse sequence. This allows for precise control over the motor's movement, making it an excellent choice for systems that demand accuracy.
There are different types of stepper motors available, each with its own unique characteristics and advantages. Some of the common types include Variable Reluctance, Permanent Magnet, and Hybrid Stepper Motors. These motors offer varying levels of performance, allowing engineers and designers to choose the most suitable option for their specific requirements.
Stepper motors are widely used in industrial applications, robotics, and other systems that require precise motion control. They are known for their accuracy, quick response times, and the ability to handle both low and high speeds with ease. Additionally, stepper motor controllers play a vital role in enabling seamless communication and coordination between stepper motors and the control systems.
How Stepper Motors Work
Stepper motors are fascinating electromechanical devices that operate based on digital pulses. These pulses control the motor's movement by initiating fixed step increments. With each pulse, the motor rotates a specific angular step, allowing for precise control over its position. The direction of rotation, whether clockwise or counterclockwise, is determined by the pulse sequence applied to the motor.
The speed at which a stepper motor rotates can be regulated by adjusting the frequency of the input pulses. By increasing or decreasing the pulse frequency, you can control the motor's rotational speed to suit your specific application requirements.
One of the key factors that contribute to the performance of stepper motors is their motor windings configuration. Different stepper motor models have varying setups for their winding arrangements, which impact their operation and characteristics. Understanding the motor windings configuration is crucial in harnessing the full potential of stepper motors and optimizing their performance.
To accurately determine the behavior and capabilities of a stepper motor, various stepper motor formulas can be used. These formulas offer insights into essential parameters such as the number of steps per revolution, step angle, and other critical specifications. By utilizing stepper motor formulas, you can tailor your stepper motor system to meet your specific needs and achieve the desired level of precision and control.
Types of Stepper Motors
Stepper motors are widely used in various industries and applications and come in different types to suit specific requirements. The three main types of stepper motors are Variable Reluctance (VR) stepper motors, Permanent Magnet (PM) stepper motors, and Hybrid stepper motors.
Variable Reluctance (VR) Stepper Motors: VR stepper motors are designed with multiple soft iron rotors and a wound stator. These motors operate on the principle of magnetic flux finding the lowest reluctance pathway through a magnetic circuit. They offer precise control and are commonly used in applications where high torque is required.
Permanent Magnet (PM) Stepper Motors: PM stepper motors have a permanent magnet rotor with no teeth. They operate by energizing the four phases in sequence, producing accurate and reliable motion control. PM stepper motors are known for their simplicity and high torque output.
Hybrid Stepper Motors: Hybrid stepper motors combine the features of both VR and PM stepper motors, making them versatile and efficient. They provide an increase in detent torque and performance enhancement in terms of step resolution, torque, and speed. Hybrid stepper motors are widely used in applications that require precise positioning and smooth operation.
Each type of stepper motor has its own advantages and is suitable for different applications. By understanding the characteristics of each type, engineers and system designers can select the most appropriate stepper motor for their specific requirements and achieve optimal performance.
Stepper motors are versatile and precise electromechanical devices that find extensive applications in various industries. With their ability to provide accurate position control and quick response times, stepper motors are indispensable in systems that require precise motion control. Their capability to handle both low and high speeds make them suitable for a wide range of applications.
Stepper motors are widely used in robotics, CNC machines, 3D printers, and medical equipment, among other applications. The different types of stepper motors, including Variable Reluctance, Permanent Magnet, and Hybrid, offer unique performance characteristics to cater to specific requirements.
When designing and using stepper motor systems, it is essential to consider the availability of stepper motor accessories for seamless integration and enhanced functionality. Additionally, environmental considerations, such as temperature and humidity, should be taken into account to ensure optimal performance and longevity of the stepper motors.
In summary, stepper motors are a reliable choice for applications that demand precise control and accuracy. Their versatility, combined with a wide range of available accessories, allows for seamless integration into various industries and systems. By considering environmental factors and selecting the appropriate stepper motor type for specific requirements, engineers and designers can harness the full potential of stepper motors in their applications.
FAQ
What is a stepper motor?
A stepper motor is an electromechanical device that converts electrical pulses into precise mechanical movement in fixed angular increments.
How do stepper motors work?
Stepper motors work by receiving digital pulses that move the motor in fixed step increments, with each pulse corresponding to a specific rotational step.
What are the types of stepper motors?
The main types of stepper motors are Variable Reluctance, Permanent Magnet, and Hybrid stepper motors.
What is the function of a stepper motor?
The function of a stepper motor is to provide accurate position control without requiring feedback for maintaining position.
What are stepper motors used for?
Stepper motors are used in various industries and applications such as robotics, CNC machines, 3D printers, and medical equipment.
How can stepper motors be controlled?
Stepper motors can be controlled through digital instructions using stepper motor controllers.
What are the advantages of stepper motors?
Stepper motors offer advantages such as accurate position control, quick response times, and the ability to handle both low and high speeds.
What is the motor windings configuration in a stepper motor?
Stepper motors have different configurations for their motor windings, which affect their performance and characteristics.
Are there formulas to calculate stepper motor performance?
Yes, there are stepper motor formulas that can help determine important parameters such as the number of steps per revolution and step angle.
What is a Variable Reluctance stepper motor?
A Variable Reluctance stepper motor has multiple soft iron rotors and a wound stator, operating based on the principle of magnetic flux finding the lowest reluctance pathway.
What is a Permanent Magnet stepper motor?
A Permanent Magnet stepper motor has a permanent magnet rotor with no teeth and operates by energizing the four phases in sequence.
What is a Hybrid stepper motor?
A Hybrid stepper motor combines the features of Variable Reluctance and Permanent Magnet stepper motors, offering increased detent torque and performance enhancement in terms of step resolution, torque, and speed.