Application Demos

Pick-and-Place Machine With Rotation
<p> This pick-and-place machine utilizes both a Nippon Pulse Linear Shaft Motor and one of the company's rotary tin-can stepper motors.</p>

This pick-and-place machine utilizes both a Nippon Pulse Linear Shaft Motor and one of the company's rotary tin-can stepper motors.

Four Linear Shaft Motors in Parallel
<p> With a travel distance of 2 m/s and an acceleration of 2G, four Linear Shaft Motors run in parallel off of just one encoder and one servo drive.</p>

With a travel distance of 2 m/s and an acceleration of 2G, four Linear Shaft Motors run in parallel off of just one encoder and one servo drive.

Two Linear Shaft Motors in Parallel
<p> Two Linear Shaft Motors can be used in parallel using only one encoder, one driver, and one controller.</p>

Two Linear Shaft Motors can be used in parallel using only one encoder, one driver, and one controller.

Three-Axis Stepper Demo Unit
<p> This video highlights three Nippon Pulse stepper motors in use together as a three-axis demo.</p>

This video highlights three Nippon Pulse stepper motors in use together as a three-axis demo.

Linear Shaft Motor in Harsh Environments
<p> This video highlights the ability of the Linear Shaft Motor to be used in harsh environments as a result of its non-critical air gap.</p>

This video highlights the ability of the Linear Shaft Motor to be used in harsh environments as a result of its non-critical air gap.

MCH-3 and LINEARSTEP® in Syringe Application
<p> Motion Checker MCH-3, a palm size controller with built-in integrated driver circuit, controls and drives a non-captive PFCL25-48P4-048 LINEARSTEP® motor. The motor plunges on syringe pump to dispense.</p>

Motion Checker MCH-3, a palm size controller with built-in integrated driver circuit, controls and drives a non-captive PFCL25-48P4-048 LINEARSTEP® motor. The motor plunges on syringe pump to dispense.

Single Linear Shaft with Four Forcers
<p> Four forcers moving along a single linear shaft is shown in this demonstration. Because each forcer can be controlled/driven by its own electronics, four different movements can be achieved with he single shaft.</p>

Four forcers moving along a single linear shaft is shown in this demonstration. Because each forcer can be controlled/driven by its own electronics, four different movements can be achieved with he single shaft.

Linear Shaft Motor (S080D-200)
<p> This video illustrates a “Multi-drive system,” which uses one Linear Shaft Motor (S080D-200) with two forcers to perform individual movements.</p>

This video illustrates a “Multi-drive system,” which uses one Linear Shaft Motor (S080D-200) with two forcers to perform individual movements.

Two PFCL25-48P4-96 LINEARSTEP®
<p> One common longer lead screw shaft and two PFCL25-48P4-96 LINEARSTEP® motors operate as a gripper, grabbing a plastic sample tube.</p>

One common longer lead screw shaft and two PFCL25-48P4-96 LINEARSTEP® motors operate as a gripper, grabbing a plastic sample tube.

Two PFL35-48P4-120 LINEARSTEP®
<p> Two PFL35-48P4-120 LINEARSTEP® motors are used to demonstrate a sample X-Y system set-up.</p>

Two PFL35-48P4-120 LINEARSTEP® motors are used to demonstrate a sample X-Y system set-up.

A PFCL25-48C4-120 LINEARSTEP®
<p> A PFCL25-48C4-120 LINEARSTEP® motor drives a pump to aspirate and dispense a liquid.</p>

A PFCL25-48C4-120 LINEARSTEP® motor drives a pump to aspirate and dispense a liquid.

Linear Shaft Motors (S200T-200)
<p> This Cartesian gantry system is a bio-medical handling system. There is a multi-drive system on the X-axis where a Linear Shaft Motor (S160T-350) with two forcers, for two independent movements, is used.</p>

This Cartesian gantry system is a bio-medical handling system. There is a multi-drive system on the X-axis where a Linear Shaft Motor (S160T-350) with two forcers, for two independent movements, is used.

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Phone Number
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