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ZH417 Series

ZH417-11-09

Hybrid Stepper Motor

Specifications:
  • NEMA 17 (1.650 in) Frame Size
  • 0.9° Step Angle
  • 1.100 in Length
  • 16.99 oz-in Holding Torque

Dimensions

ModelDIM. A (length) in
ZH417-11-091.100 in
Dimensions

Torque Curves

Speed

RPM
RPM

Motor Specifications

Part NumberZH417-11-09
Step Angle0.9°
Frame Size1.650 in
Body Length1.100 in
Current (AMP)0.8 AMP
Holding Torque16.99 oz-in
Resistance10.23
Rotor Inertia0.12 oz-in²
Number of leads4
Connectionbipolar
Weight0.35 lbs

Operating Specifications

Radial Play0.001 in @ 1.00 lbs
End Play0.003 in @ 3.00 lbs
Shaft Run Out0.002 TIR
Concentricity of Mounting Pilot to Shaft0.003 TIR
Perpendicularity of Mounting Pilot to Face0.003 TIR
Max Radial Load at Dimension "K" from mounting face6.00 lbs
Dimension "K"0.620 in
Max Axial Load6.00 lbs
Maximum Case Temperature176 °F maximum
Ambient Temperature-4 ° to 122 °F
Storage Temperature-4 ° to 212 °F
Humidity Range (%) 85% or less, non-condensing
Magnet Wire InsulationClass B 130 deg C
Insulation Resistance100M Ohm at 500 VDC
Dielectric Strength500 VDC for 1 min

Features & Benefits

We've Reinvented the Step Motor

Conventional hybrid stepper motor utilizes a permanent magnet in the rotor. Our patented design uses a ring magnet in the stator instead. This drastically reduces the detent torque (unenergized drag torque) because the magnetic flux path is able to reach over the stator windings and go through only the outer edge of the rotor. Reducing detent torque improves accuracy, smooth operation and reduces noise. Best of all, modifying the magnet location does not change the dynamic torque.

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Large Holow Shaft Up to 11 mm in Diameter

Conventional stepper motors cannot accommodate large diameter hollow shafts without sacrificing torque and performance. Torque is dependent on the size of the magnet placed in the rotor. A large diameter shaft reduces space available for the magnet, thus sacrificing torque.

Since we’ve moved the magnet from the rotor into the stator stack, we can accommodate a large shaft without sacrificing torque or performance.

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Extreme accuracy

Z-Series motor maintains ±1.5 arc minutes error under 64x microstepping. Industry average can range from ±4.5 to ±18 arc minutes in 0.9° step motors.
Quiet Operation

By eliminating detent torque, the motor operates substantially quieter than regular hybrid stepper motor.

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Customizations & Optimizations

Lin Engineering can ensure that your hybrid stepper motor is optimized to deliver the required performance for your specific application, whether it’s increasing torque at a specific speed range, reducing noise or vibration, or optimizing for minimal power consumption, or making specific modification  to ensure proper and native fit within your assembly.

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Customization Services Include: 

  • Optimized Winding
  • Multiple Shaft Options
  • Customized Leads & Connectors
  • Customized Housings & Mountings
  • Bearings & Lubricants
  • Mechatronic Solutions
  • Environmental Protection
  • Drivers & Controllers, Encoders, Gearboxes & Accessories

 

Learn More About Motor Customizations & Optimizations

The result is that you’ll get a motor that is fully optimized for your specific applications and configured to seamlessly fit with your assembly. This reduces your product's complexity, and increases the speed and ease of the assembly of your final product. 

 

Speak with one of our sales representatives about your specific application needs by filling out a request for a quote. 

ZH417 Series

Related Products

Downloads

Lin Engineering Catalog 2020 (PDF)
Download
Motor Numbering System (PDF)
Download
ZH417-11 3D Models (ZIP)
Download
ZH417-11-09 Datasheet (PDF)
Download

Get the motor you need

Just fill out a Request for a Quote form, and tell us about your application and your needs. One of our applications specialists will review your request, and provide you with a quote promptly.