Stepper Motor

Approx. Rs 5,800 / PieceGet Latest Price

Product BrochureProduct Details:

The 250W Electric Stepper Motor is a high-torque, high-efficiency hybrid stepper motor designed for precision motion control in automation, CNC, and robotics systems. Delivering up to 250 watts of mechanical output power, this motor is built to handle medium-load applications requiring reliable step-by-step rotation, precise positioning, and smooth speed control.

Key Features:

• Power Output: 250W

• Step Angle: 1.8° per step (200 steps/rev standard)

• Voltage Rating: 24V–48V DC (driver-dependent)

• Current Rating: 4.0A to 6.0A per phase (depending on model)

• Torque Output: Up to 3.0–6.0 Nm holding torque (varies with frame size)

• Speed Range: 0 to 1000+ RPM

• Wiring Type: 4-wire bipolar configuration

• Frame Size: Typically NEMA 23 or NEMA 34

• Shaft: 8–12 mm diameter, keyed or D-cut

• Motor Type: Hybrid stepper with permanent magnet rotor

Construction:

• Body Material: High-grade aluminum alloy housing

• Cooling Type: Natural convection or fan-assisted (based on enclosure)

• Bearings: Dual-sealed ball bearings

• Enclosure Protection: IP40–IP54 (model-dependent)

• Insulation Class: Class B or F

Performance Benefits:

• High efficiency and torque density in a compact form

• Excellent low-speed torque and response

• Compatible with microstepping drivers for smooth motion

• Stable positioning without feedback (open-loop control)

• Ideal for repetitive, accurate movement cycles

Applications:

• CNC routers, mills, and laser engraving machines

• 3D printers and plotters

• Pick-and-place robotic arms

• Packaging and labeling machines

• Textile machinery and feeders

• Medical and laboratory automation equipment

• XY gantry and linear motion systems

Driver Compatibility:

• Suitable with DM556, DM860, Leadshine AM882, and similar

• Supports microstepping (up to 1/256 steps)

• Can be controlled via PLC, Arduino, Mach3, GRBL, etc.

Optional Add-ons:

• Integrated encoder for closed-loop feedback

• Gearbox or planetary gearhead for increased torque and resolution

• Brake unit for vertical motion applications

• Custom cable and shaft configurations

• Vibration dampers for ultra-smooth motion

Approx. Rs 5,000 / PieceGet Latest Price

Product BrochureProduct Details:

The 2-Phase Hybrid Stepper Motor is a precision motion control device that combines the features of both permanent magnet and variable reluctance stepper motors. With two-phase excitation and typically 200 steps per revolution (1.8° per step), it offers high torque, accurate positioning, and excellent step resolution. It is ideal for CNC machines, 3D printers, robotics, medical instruments, textile machines, and other automation systems requiring reliable open-loop control.

Key Features:

• Step Angle: 1.8° (200 steps/rev standard), optional 0.9° (400 steps/rev)

• Phase Type: Bipolar or unipolar 2-phase

• Holding Torque: Ranges from 0.3 Nm to 12 Nm (based on frame size)

• Current Rating: Typically 1.2A to 6A per phase

• Voltage Rating: Low voltage (2V–5V typical coil voltage; depends on driver used)

• Frame Sizes:

  • NEMA 17 (42 mm) – compact, up to 0.5 Nm

  • NEMA 23 (57 mm) – medium, up to 3 Nm

  • NEMA 34 (86 mm) – large, up to 12 Nm

• Wiring Configuration: 4, 6, or 8 leads for flexible wiring

• Accuracy: ±5% per step (non-cumulative)

Construction:

• Rotor: Laminated structure with permanent magnets

• Shaft: Stainless steel, with optional flat or keyway

• Bearings: Pre-lubricated, sealed ball bearings

• Housing: Steel or aluminum alloy with black anodized or painted finish

• Mounting: Standard NEMA flange with tapped mounting holes

Advantages:

• Precise position and speed control without feedback (open-loop)

• High torque at low speeds without gearing

• Simple control logic using step/direction signals

• Long life with no brushes or commutators

• Compatible with a wide range of stepper drivers

• Cost-effective alternative to servo motors

Applications:

• CNC routers, lathes, and engraving machines

• 3D printers and filament extruders

• Robotics and XY stages

• Pick-and-place machines and automation tools

• Textile and embroidery machinery

• Medical analyzers and dispensing systems

• Camera sliders and lens focus control

Optional Features:

• Integrated optical or magnetic encoder (for closed-loop control)

• Matched stepper driver (digital, microstepping, or closed-loop)

• Custom shaft, lead wires, or connectors

• Planetary or worm gearbox integration

• Heat sink or fan for high-duty applications

Approx. Rs 8,500 / PieceGet Latest Price

Product BrochureProduct Details:

A Torque Stepper Motor is a specially designed stepper motor optimized to deliver high holding and dynamic torque at low to moderate speeds with precise position control. Unlike standard stepper motors, torque stepper motors are built with enhanced magnetic circuits, higher winding currents, and robust rotor designs to meet the demands of applications requiring powerful movement in open-loop or closed-loop systems.

Key Features:

• High Holding Torque: Ranges from 1 Nm to 30+ Nm (depending on motor size)

• Step Angle: Standard 1.8° (200 steps/rev); other angles available (e.g., 0.9°, 0.72°)

• Voltage & Current: Designed to operate at higher currents (up to 6A or more per phase)

• Winding Type: Bipolar or unipolar configurations

• Frame Sizes:

  • NEMA 17 (42 mm) – up to 0.5 Nm

  • NEMA 23 (57 mm) – up to 3 Nm

  • NEMA 34 (86 mm) – up to 12 Nm

  • NEMA 42 (110 mm) – up to 30 Nm

• Microstepping Support: Smooth motion with 1/2 to 1/256 microsteps

• Rotor Inertia: Engineered for high dynamic response

• Shaft Type: Single or double shaft with optional flat or keyway

Technical Specifications:

• Insulation Class: Class B or F

• Step Accuracy: ±5% (non-cumulative)

• Operating Temperature: -10°C to +50°C

• Torque Ripple: Minimized with advanced magnetic design

• Noise Level: Low (further reduced with microstepping)

• Encoder Option: Can be combined with encoder for closed-loop control

• Cooling: Natural convection; optional heat sink or fan cooling for high-duty usage

Advantages:

• High torque density at low speeds

• Precise and repeatable positioning without feedback (in open-loop mode)

• Excellent for direct-drive systems (no need for gearbox in many cases)

• Compatible with a wide range of stepper drivers and controllers

• Maintenance-free operation

Typical Applications:

• CNC machines and laser engravers

• 3D printers and extruders

• Packaging and labeling systems

• Medical imaging and diagnostic equipment

• Robotics arms and rotary stages

• Textile and embroidery machines

• Automated valves and actuators

Optional Add-ons:

• Planetary gearbox for increased torque and lower speed

• Encoder for closed-loop operation

• Brake unit for vertical load holding

• Matched stepper driver/controller

• Heat sinks or fan kits for thermal management

Approx. Rs 3,000 / PieceGet Latest Price

Product BrochureProduct Details:

An Industrial Stepper Motor is a high-torque, precision motion control device designed to perform incremental, accurate rotational or linear movements in demanding industrial environments. Using electromagnetic pulses to rotate in discrete steps, this motor enables precise open-loop positioning without needing feedback sensors. It is ideal for CNC machinery, robotics, packaging systems, pick-and-place machines, and textile automation where high reliability, torque, and positioning accuracy are critical.

Key Features:

• Motor Type: Hybrid or variable reluctance stepper

• Phases: Typically 2-phase bipolar (4-wire), with 3-phase and 5-phase options available

• Step Angle: 1.8° (200 steps/rev) standard; options include 0.9°, 0.72°, etc.

• Torque Range: From 1 Nm to over 20 Nm, depending on frame size

• Frame Sizes: NEMA 23, 24, 34, 42, and larger IEC-equivalent formats

• Mounting: Flange or foot mountable, with custom shaft options

• Microstepping Compatibility: Supports up to 1/256 microstepping with matched driver

Performance Characteristics:

• High Holding Torque: Ideal for stationary load holding without drift

• High Positioning Accuracy: ±5% per step (non-cumulative error)

• Speed Range: Operates effectively from 0 to 1000+ RPM

• Response Time: Instantaneous start/stop without ramp-up delay

• Detent Torque: Provides holding force even when not energized

Construction:

• Housing: Rugged cast aluminum or steel for heat dissipation

• Shaft: Hardened steel, available with keyway, D-shaft, or dual shaft

• Bearings: Sealed, long-life ball bearings

• Cooling: Natural convection or optional fan-cooling

• Enclosure Protection: IP40–IP65 (based on model)

Advantages:

• Precise control without the need for encoders or feedback loops

• Excellent torque at low speeds

• Rugged design suited for 24/7 industrial environments

• Easy integration with PLCs, motion controllers, and CNC systems

• Cost-effective alternative to servo motors in many applications

Applications:

• CNC routers, laser cutters, and milling machines

• Automated packaging and labeling systems

• Pick-and-place robotic arms

• Textile and embroidery equipment

• Medical and laboratory devices

• Industrial conveyor drives and linear actuators

Optional Features:

• Integrated encoder for closed-loop stepper systems

• Brake system for holding position when unpowered

• Gearbox attachment for increased torque and resolution

Approx. Rs 2,100 / PieceGet Latest Price

Product BrochureProduct Details:

A Microstepping Stepper Motor is a high-precision 2-phase or 3-phase stepper motor driven by a compatible microstepping driver that divides each full step into smaller increments—known as microsteps. This results in smoother motion, quieter operation, reduced vibration, and greater positioning accuracy, making it ideal for CNC machinery, 3D printers, robotics, camera systems, and scientific instruments.

Key Features:

• Step Angle:

  • Standard: 1.8° per full step (200 steps/rev)

  • Microstepping: Up to 1/256 microsteps (e.g., 0.007°/step with driver)

• Motor Types:

  • 2-phase hybrid stepper (common for NEMA 17/23/34)

  • 3-phase variants for industrial-grade systems

• Torque Range:

  • From 0.2 Nm to 12 Nm, depending on size (NEMA 17 to NEMA 34+)

• Wiring Configuration:

  • 4-wire bipolar (typical for microstepping)

  • Compatible with matched microstepping drivers

• Microstepping Driver Compatibility:

  • A4988, DRV8825, TMC2209, TB6600, DM542, DM556T, etc.

Benefits of Microstepping:

• Smoother Rotation: Eliminates the “jerky” motion of full-step driving

• Higher Precision: Ideal for applications needing sub-millimeter movement

• Reduced Resonance & Noise: Quieter operation with minimal vibration

• Better Position Control: Especially useful in open-loop systems

• Improved Torque Linearization: More consistent torque across speed range

Applications:

• 3D printers: Extruder and motion axes

• CNC routers and mills: High-precision cutting and engraving

• Robotics: Smooth arm movement and joint control

• Camera sliders and focus rings

• Medical equipment: Diagnostic and dosing machines

• Laboratory automation and XY stages

Important Considerations:

• Microstepping requires a compatible driver – motor alone does not determine step size

• Current control is essential – proper tuning prevents overheating and underperformance

• High-resolution control may reduce available torque at very fine microsteps

• Use matched power supplies and shielding for reliable operation

Optional Features:

• Integrated encoder for feedback (closed-loop microstepping)

• Gearbox attachment for increased torque and finer resolution

• Dual shaft for sensors or manual control knobs

Approx. Rs 3,300 / PieceGet Latest Price

Product BrochureProduct Details:

The NEMA 17 Stepper Motor is a compact, high-precision 2-phase hybrid stepper motor with a 1.8° step angle (200 steps/rev) and a standard 1.7 × 1.7 inch (43.2 × 43.2 mm) faceplate. It offers excellent torque output, reliability, and positioning accuracy, making it a popular choice for 3D printers, CNC machines, camera sliders, robotics, and automation systems.

Key Features:

• Motor Type: 2-Phase Hybrid Stepper Motor

• Step Angle: 1.8° (200 steps/revolution)

• Holding Torque: Typically 20 to 60 N·cm (0.2 to 0.6 Nm) depending on model

• Current Rating: 1.0A to 2.0A per phase (varies by winding)

• Voltage Rating: 2.8V – 4.5V nominal (controlled via current-regulated drivers)

• Shaft Type: 5 mm or 6.35 mm diameter, D-cut or round shaft

• Lead Wires: 4-wire bipolar (some models come with 6 or 8 wires)

• Frame Size: 42 × 42 mm (1.7 inch), standard mounting holes (NEMA 17)

• Body Length: Ranges from 34 mm to 60 mm depending on torque rating

Technical Specifications:

• Rotor Inertia: Low for fast response

• Detent Torque: Present for holding position when unpowered

• Accuracy: ±5% per step (non-cumulative)

• Operating Temperature: -10°C to +50°C

• Insulation Class: Class B or F

• Lifespan: >10,000 hours under standard use

Advantages:

• Compact and lightweight for tight spaces

• Precise open-loop control with no feedback required

• Widely supported by hobbyist and industrial motion controllers

• Cost-effective motion solution for light to medium-duty applications

• Excellent heat dissipation and durable build

Applications:

• 3D Printers (extruder, X/Y/Z axes)

• Small CNC machines and laser cutters

• Robotics and automation arms

• Textile and labeling machinery

• Camera sliders, focus systems, and dolly rigs

• Laboratory and dispensing equipment

• Educational and DIY mechatronics projects

Optional Features:

• Integrated planetary or spur gearboxes for high torque

• Dual shaft for encoder or handwheel installation

• Built-in encoder for closed-loop operation

• Matched stepper drivers (e.g., A4988, DRV8825, TMC2208)

Approx. Rs 2,000 / PieceGet Latest Price

Product BrochureProduct Details:

A Bipolar Stepper Motor is a 2-phase stepper motor that operates using two coils (phases) and requires bi-directional current flow in each winding to create motion. Known for their higher torque and better efficiency than unipolar motors of similar size, bipolar stepper motors are widely used in CNC machines, 3D printers, robotics, textile machines, and automation systems that demand precise positioning and smooth control.

Key Features:

• Winding Configuration: 2 coils, 4-wire system

• Step Angle: Typically 1.8° per step (200 steps/revolution); other options: 0.9°, 0.72°

• Torque Range: From 0.2 Nm to 12 Nm (based on frame size)

• Voltage Range: 2V to 5V nominal (current-controlled through driver)

• Current Rating: Typically 1.2A to 6.0A per phase

• Microstepping Support: Compatible with 1/2 to 1/256 microstepping for smooth motion

• Rotor Type: Permanent magnet or hybrid design for higher torque

• Detent Torque: Holds position when powered off (useful for static applications)

Advantages:

• Higher torque output than unipolar motors

• Better efficiency and less power loss due to full coil utilization

• Compact design – no center tap required

• Precise open-loop control without feedback (in most applications)

• Works with a wide range of bipolar stepper drivers (A4988, DRV8825, TMC series, etc.)

Common Frame Sizes:

• NEMA 17 (42 mm) – Compact, popular in 3D printers & light-duty robotics

• NEMA 23 (57 mm) – Standard for CNC routers, engravers, automation tools

• NEMA 34 (86 mm) – High torque for industrial-grade applications

Applications:

• CNC routers, laser cutters, and 3D printers

• Robotics and automation arms

• Pick-and-place and packaging machines

• Camera sliders and pan-tilt systems

• Textile, embroidery, and labeling machines

• Laboratory equipment and medical analyzers

Driver Compatibility:

• Requires H-bridge based bipolar driver

• Compatible drivers include:

  • A4988 / DRV8825 (low-current applications)

  • TB6600 / DM542 / 2D68MH (medium-to-high current applications)

  • TMC2208 / TMC5160 for silent motion with advanced features

Optional Features:

• Integrated encoder for closed-loop feedback

• Gearbox attachment for increased torque and resolution

• Dual shaft for encoder or manual handwheel

Approx. Rs 5,500 / PieceGet Latest Price

Product BrochureProduct Details:

A 3-Phase Variable Reluctance Stepper Motor (VRSM) is a type of stepper motor that operates based on the principle of minimum magnetic reluctance. Unlike hybrid stepper motors, it has a non-magnetized toothed rotor and a stator with multiple windings that are energized in a sequence to rotate the rotor in discrete steps. Known for their simple construction, high reliability, and fast stepping, VR stepper motors are used in applications where speed, cost-efficiency, and lightweight design are priorities.

Key Features:

• Phases: 3-phase excitation

• Step Angle: Typically 15° to 30° per step (varies with rotor/stator pole count)

• Rotor: Soft iron, toothed, non-permanent magnet

• Stator: Laminated core with distributed windings for each phase

• Operation Mode: Sequential phase energizing to rotate rotor

• Drive Type: Requires special 3-phase stepper controller or pulse generator

• No Brushes or Permanent Magnets – long operational life with minimal wear

• Rotation Direction: Determined by the phase energizing sequence

Technical Specifications:

• Step Resolution: 12 to 24 steps/revolution (coarser than hybrid types)

• Supply Voltage: Typically 12V–48V (controller dependent)

• Control Interface: Step/clock and direction inputs or phase-by-phase logic control

• Response Time: Fast stepping, suitable for rapid start/stop operations

• Accuracy: ±5% per step (non-cumulative)

• Torque Output: Moderate holding torque; not suitable for high-load applications

• Efficiency: High due to low rotor inertia

Advantages:

• Simple and rugged construction

• Lightweight rotor – enables high-speed stepping

• Low cost – ideal for basic positioning systems

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Approx. Rs 3,500 / PieceGet Latest Price

Product BrochureProduct Details:

A Bipolar Stepper Motor is a type of stepper motor that uses two coils (phases) and requires reversing current direction through the coils to change magnetic polarity. It provides higher torque and better efficiency than unipolar motors, making it suitable for precision motion control applications.

⚙️ Key Features:

• Typically has 4 wires (two coils without center taps)

• Requires H-bridge driver (like A4988, DRV8825, etc.) for operation

• Delivers more torque per winding compared to unipolar motors

• Common step angle: 1.8° (200 steps/rev) or 0.9° (400 steps/rev)

• Supports microstepping for smooth and precise motion

⚡ Electrical Specs (Typical):

• Voltage: 2V to 48V DC

• Current: 1A to 4A depending on motor size

• Available in NEMA sizes (e.g., NEMA 17, NEMA 23, etc.)

🧰 Applications:

• 3D printers and CNC machines

• Robotics and automation systems

• Medical equipment

• Camera sliders and pan/tilt systems

• Textile and laser cutting machines

Approx. Rs 4,000 / PieceGet Latest Price

Product BrochureProduct Details:

A Linear Stepper Motor is a type of stepper motor that directly produces linear motion instead of rotational motion, eliminating the need for mechanical conversion systems like lead screws or rack and pinion. It combines the precision of stepper technology with linear actuation for high-accuracy positioning.

Key Features:

• Converts electrical pulses directly into precise linear steps

• Available in can-stack, hybrid, and tubular designs

• High resolution and repeatability

• Operates in open-loop mode (no feedback system needed)

• Low maintenance and compact structure

Applications:

• 3D printers and CNC machines

• Medical devices and lab automation

• Pick-and-place systems

• Optical and semiconductor equipment

• Linear actuators in robotics

Approx. Rs 5,500 / PieceGet Latest Price

Product BrochureProduct Details:

A Hybrid Stepper Motor is a high-precision electric motor that combines features of both Permanent Magnet (PM) and Variable Reluctance (VR) stepper motors. It offers better torque, speed, and resolution, making it ideal for applications requiring accurate and repeatable positioning.

⚙️ Key Features:

• Step angle typically 1.8° (200 steps/rev) or 0.9° (400 steps/rev)

• Rotor has permanent magnets + toothed structure for finer control

• Operates in open-loop (no feedback) or closed-loop (with encoder)

• High torque-to-size ratio and excellent detent torque

• Supports microstepping for smooth motion

⚡ Electrical Specs:

• Available in bipolar and unipolar configurations

• Voltage range: 2V – 48V DC (typically)

• Current: 0.5A to 5A depending on motor size

• Compatible with digital stepper drivers and controllers

🧰 Applications:

• 3D printers and CNC machines

• Robotics and automation systems

• Medical and laboratory instruments

• Surveillance cameras and stage lighting

• Textile and packaging machinery

Approx. Rs 5,500 / PieceGet Latest Price

Product BrochureProduct Details:

A Torque Stepper Motor refers to a stepper motor specifically designed or selected for its ability to deliver high holding and dynamic torque, ensuring powerful and precise motion control, especially under load. These motors are commonly used in industrial and automation applications where strong torque is essential at low speeds.

⚙️ Key Features:

• High holding torque (can maintain position without movement under load)

• Available in standard NEMA sizes (e.g., NEMA 23, NEMA 34, NEMA 42)

• Step angle typically 1.8° (200 steps/rev) or finer with microstepping

• Designed for high-performance applications requiring torque at low RPMs

• Compatible with high-current stepper drivers (e.g., DM542, DM860, etc.)

Approx. Rs 5,500 / PieceGet Latest Price

Product BrochureProduct Details:

The NEMA 23 Closed Loop Integrated Stepper Motor Kit is a compact and high-performance motion control solution that combines a stepper motor, encoder, and driver into a single integrated unit. Designed for precise motion control in CNC, robotics, 3D printing, and automation systems, this kit offers the reliability of a stepper motor with the feedback accuracy of a servo system—eliminating missed steps, overheating, and resonance issues.

Key Components:

1. NEMA 23 Stepper Motor (57mm Frame Size)

2. Integrated Digital Driver/Controller

3. High-Resolution Encoder (1000–2500 PPR)

4. Cables & Connectors (for power, signal, and communication)

5. Optional: Power Supply Unit (24V–60V DC)

Key Features:

• Motor Frame Size: NEMA 23 (57 x 57 mm)

• Holding Torque: 2.0 Nm to 3.0 Nm (varies by model)

• Voltage Input: 24V to 60V DC

• Max Current: Typically 4A to 6A

• Encoder Type: Optical incremental encoder with 1000–2500 pulses/rev

• Position Feedback: Real-time closed loop with automatic error correction

• Control Modes: Pulse/Direction, RS485, Modbus, CANopen, or standalone (depending on model)

• Protection Features: Over-voltage, over-temperature, over-current, stall detection

• Built-in Microstepping: Up to 256 microsteps per step

• Communication: UART/RS232/RS485 (on supported models)

Advantages Over Open-Loop Systems:

• No missed steps – 100% accurate positioning

• Reduced heat and power consumption

• Self-tuning algorithm for optimized performance

• Smooth motion with reduced vibration and noise

• Plug-and-play integration with many controllers and PLCs

Typical Applications:

• CNC routers and laser engraving machines

• 3D printers and pick-and-place machines

• Robotics and automated machinery

• Packaging and labeling equipment

• Camera sliders and motion control rigs

• Textile and embroidery machines

What's Included in the Kit:

• 1 × NEMA 23 Closed Loop Stepper Motor (with Encoder)

• 1 × Integrated Stepper Driver/Controller

• Encoder Feedback Cable

• Power and Signal Cables

• (Optional) 24–60V DC Power Supply

Approx. Rs 3,200 / PieceGet Latest Price

Product BrochureProduct Details:

The 1.8° Step Angle Hybrid Stepper Motor is a precision-engineered motion control motor that combines the benefits of both permanent magnet and variable reluctance stepper motors. With a standard step resolution of 200 steps per revolution (1.8° per step), this hybrid motor offers high accuracy, smooth motion, and excellent torque performance, making it ideal for CNC machines, 3D printers, robotics, medical devices, and automation equipment.

Key Features:

• Step Angle: 1.8° (200 steps/revolution)

• Motor Type: Hybrid Stepper Motor (2-phase or 4-phase)

• Holding Torque: Ranges from 0.3 Nm to 3.0 Nm (varies by model)

• Current Rating: Typically 1.2A to 4.2A per phase

• Voltage Rating: Varies by model (low to medium voltage – 2V to 12V typical coil rating)

• Rotor Inertia: Optimized for quick response and low resonance

• Shaft Type: Single or double shaft available

• Microstepping Support: Compatible with drivers supporting up to 1/256 microsteps

Technical Specifications:

• Step Accuracy: ±5% (non-cumulative)

• Insulation Resistance: ≥100 MΩ at 500V DC

• Dielectric Strength: 500V AC for 1 minute

• Insulation Class: Class B or F

• Operating Temperature: -10°C to +50°C

• Shaft Diameter: Typically 6.35 mm (custom options available)

• Frame Sizes:

  • NEMA 17 (42mm)

  • NEMA 23 (57mm)

  • NEMA 34 (86mm)

Advantages:

• Precise positioning with full or microstepping

• High torque at low speeds

• Open-loop control simplifies system design

• Compact design with minimal maintenance

• Cost-effective compared to servo systems

• Compatible with most stepper drivers and controllers

Applications:

• CNC routers, plasma cutters, and laser machines

• 3D printers and filament extruders

• Medical diagnostic and dispensing equipment

• Robotics arms and precision automation

• Surveillance camera positioning systems

• Textile and embroidery machines

Optional Add-ons:

• Planetary or worm gearboxes for increased torque

• Integrated encoders for closed-loop feedback

• Cooling fans or heat sinks for high-duty operations

• Flexible couplers and mounts

• Matching bipolar stepper drivers

Approx. Rs 3,500 / PieceGet Latest Price

Product BrochureProduct Details:

A Linear Stepper Motor is a type of stepper motor that converts digital pulses into precise linear motion without the need for additional rotary-to-linear mechanical components like screws or belts. Designed for high-precision, repeatable movement, linear stepper motors are ideal for applications in automation, robotics, CNC systems, medical equipment, and semiconductor manufacturing.

They are available in two main configurations:

• External Linear Stepper Motor (rotor moves a lead screw through the motor body)

• Non-captive and Captive Linear Actuators (rotating nut inside moves shaft in or out)

Key Features:

• Motion Type: Direct linear motion from step pulses

• Step Resolution: As low as 0.01 mm/step depending on pitch and microstepping

• Step Angle (Motor): Typically 1.8° (200 steps/rev)

• Force Output: 10 N to 2000 N (varies with motor size and type)

• Travel Range: Customizable – from a few mm to several hundred mm

• Lead Screw Options: Multiple pitch and diameter options (e.g., 2mm, 4mm, 8mm lead)

• Drive Method: Bipolar or unipolar drive control

• Microstepping Support: Up to 1/256 step for smoother motion

• Lubrication: Self-lubricating or externally greased (depends on model)

Types Available:

1. Non-Captive Linear Stepper Motor

   • Shaft moves through the motor body

   • No anti-rotation feature built-in (requires external guide)

2. Captive Linear Stepper Motor

   • Shaft attached to an anti-rotation sleeve

   • Integrated guide for limited linear stroke

3. External Linear Stepper Motor (Actuator)

   • Lead screw protrudes from motor; nut moves the payload externally

   • Ideal for open-frame motion systems

Advantages:

• No backlash compared to motor + belt/screw systems

• Precise positioning with repeatability up to ±0.01 mm

• Simplified mechanical design – fewer components

• Quiet operation with minimal wear

• Maintenance-free in most applications

• Compatible with standard stepper drivers

Typical Applications:

• Precision dispensing machines

• 3D printers and laser engravers

• Pick-and-place systems

• Laboratory automation and diagnostics

• CNC stages and XY tables

• Valve actuators and focus adjustment systems

Optional Add-ons:

• Integrated encoder for closed-loop feedback

• Limit switches or home sensors

• Anti-backlash nuts for higher precision

• Custom stroke length or lead screw type

• Controller/driver with USB or Modbus interface

Approx. Rs 4,500 / PieceGet Latest Price

Product BrochureProduct Details:

A Stepper Motor Interface refers to the electronic and signal connection setup that allows a controller (like a microcontroller or PLC) to communicate with and control a stepper motor driver, which in turn powers the stepper motor. It ensures precise control of position, speed, and direction.

🔌 Key Components in the Interface:

1. Controller

   • Microcontroller (Arduino, Raspberry Pi, STM32) or PLC

   • Sends logic-level signals (step and direction pulses)

2. Stepper Motor Driver

   • Receives signals from the controller

   • Controls motor coil current and sequencing

   • Examples: A4988, DRV8825, TB6600, DM542, DM556T

3. Stepper Motor

   • Bipolar or unipolar

   • Moves in discrete steps based on pulse input

🔄 Common Interface Signals: ⚙️ Control Method Examples:

• Manual: Using switches and timers for basic control

• Digital: Using Arduino, ESP32, or Raspberry Pi via GPIO

• CNC Systems: Using GRBL-based boards for G-code control

• PLC Interface: Using high-speed outputs (pulse/direction mode)

🧰 Applications:

• CNC machines and 3D printers

• Robotics and automation

• Camera sliders and gimbal controls

• Textile machines and pick-and-place systems

Approx. Rs 7,500 / PieceGet Latest Price

Product BrochureProduct Details:

A Permanent Magnet Motor is an electric motor that uses permanent magnets embedded in or attached to the rotor to create the magnetic field, instead of using windings or external power for excitation. These motors are efficient, compact, and deliver high torque with excellent speed control.

Key Features:

• Uses high-strength permanent magnets (e.g., Neodymium)

• Operates on DC or AC (as PMDC or PMAC motors)

• High efficiency and torque-to-weight ratio

• Quick acceleration and precise control

• Low maintenance due to fewer moving parts

Applications:

• Electric vehicles and robotics

• HVAC systems

• CNC machines

• Home appliances

• Industrial automation systems