Application Demos

Linear Servomotor in High Speed Application
<p>  The Nippon Pulse <a href=

The Nippon Pulse Linear Shaft Motor is seen here in a high-speed, high-precision industrial application.

LSM: First Linear Servo for Ultra High Precision
<p>  Nippon Pulse’s Linear Shaft Motor is the first linear servomotor designed for the ultra-high-precision market. Its design features greater stiffness, no cogging, a non-critical air gap, and less heat generation, which allow the Linear Shaft Motor to achieve sub-micron resolution.</p>

Nippon Pulse’s Linear Shaft Motor is the first linear servomotor designed for the ultra-high-precision market. Its design features greater stiffness, no cogging, a non-critical air gap, and less heat generation, which allow the Linear Shaft Motor to achieve sub-micron resolution.

Unique Uses of the Linear Shaft Motor
<p>  This video highlights some of the unique usage options for the Linear Shaft Motor, though these are by no means the only “non-standard” applications for the linear servo motor.</p>

This video highlights some of the unique usage options for the Linear Shaft Motor, though these are by no means the only “non-standard” applications for the linear servo motor.

Nippon Pulse PFC25 Geared Stepper Motor, Small Package, High Torque
<p>  The Nippon Pulse <a href=

The Nippon Pulse geared stepper motor series offers increased torque in a small package. Here the PFC25 geared motor works off of Nippon Pulse's Motion Checker controller.

Linear Shaft Motor Integrated, Custom Stage System
<p>  This stage system, designed and built by Ibex Engineering, contains Nippon Pulse's high-precision Linear Shaft Motor.</p>

This stage system, designed and built by Ibex Engineering, contains Nippon Pulse's high-precision Linear Shaft Motor.

Motion Checker Controller Eases Prototyping
<p>  Nippon Pulse's <a href=

Nippon Pulse's Motion Checker is a palm-sized controller with an integrated driver circuit. Motion Checker eases the design and prototyping phase by eliminating the need for an electrical engineer during these early processes.

Rotary Stepper Stirrer and Syringe Applications
<p>  These three demo units highlight Nippon Pulse’s high-performance, low-cost rotary stepper motors, featuring <a href=

These three demo units highlight Nippon Pulse’s high-performance, low-cost rotary stepper motors, featuring tin-can and linear stepper motors. Nippon Pulse has been manufacturing stepper motors since 1952.

SCR075 Nanopositioning Series Linear Stage
<p>  Nippon Pulse's SCR nanopositioning stage offers the accuracy of piezo stages with the speed and performance of servo stages. The series has integrated cross-roller guides and a built-in optical linear encoder that includes standard home limit switches. SCR series stages have nanometer resolution.</p>

Nippon Pulse's SCR nanopositioning stage offers the accuracy of piezo stages with the speed and performance of servo stages. The series has integrated cross-roller guides and a built-in optical linear encoder that includes standard home limit switches. SCR series stages have nanometer resolution.

S160 Linear Shaft Motor in a Custom Stage
<p>  Nippon Pulse's <a href=

Nippon Pulse's S160D Linear Shaft Motor is built into a custom stage solution that highlights the motor's high-precision and high-speed capabilities.

SLP25 Acculine Series for Industrial Applications
<p>  The SLP25 and SLP35 Acculine stages are large, all-inclusive stages that fit into industrial applications. In this video, you can see one of our SLP25 stages with an integrated Linear Shaft Motor.</p>

The SLP25 and SLP35 Acculine stages are large, all-inclusive stages that fit into industrial applications. In this video, you can see one of our SLP25 stages with an integrated Linear Shaft Motor.

SCR Nanopositioning Stage Series
<p>  The Nippon Pulse <a href=

The Nippon Pulse SCR Nanopositioning stage series offers the accuracy of piezo driven stages with the speed and performance of servo stages. Integrated with a cross-roller guide, the SCR stage produces extremely accurate results with no loss of stability.

Stepper Motor Syringe Application
<p>  Nippon Pulse stepper motors are configured into a fluid dispensing syringe application. The unit is driven by <a href=

Nippon Pulse stepper motors are configured into a fluid dispensing syringe application. The unit is driven by linear stepper motors as well as hybrid stepper motors. The device can be programmed to perform a wide array of motion profiles.

SLP Acculine Stage Series
<p>  The Nippon Pulse <a href=

The Nippon Pulse SLP Acculine series offers high-precision stages that fit well into industrial applications. An all-inclusive stage, the SLP integrates shaft support into the housing and makes for a simplified transition from a ball screw system.

Linear Shaft Motor in a Vertical Alignment
<p>  Our <a href=

Our Linear Shaft Motor can be used in a variety of vertical applications. A vertical alignment of the Linear Shaft Motor is seen here, as are a variety of motion profiles.

Pick-and-Place Machine With Rotation
<p>  This pick-and-place machine utilizes the Linear Shaft Motor and a rotary tin-can stepper motor.</p>

This pick-and-place machine utilizes the Linear Shaft Motor and a rotary tin-can stepper motor.

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 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 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 <a href=

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 Linear Shaft Motor’s ability to be used in harsh environments as a result of its non-critical air gap.</p>

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

Single Linear Shaft with Four Forcers
<p>  In this demo video, four forcers move along a single linear shaft. Four different movements can be achieved with the single shaft, due to each forcer being controlled and driven by its own electronics.</p>

In this demo video, four forcers move along a single linear shaft. Four different movements can be achieved with the single shaft, due to each forcer being controlled and driven by its own electronics.

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

This video illustrates a multi-drive system that uses one Linear Shaft Motor 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 setup.</p>

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

Pump Application Using Linear Motors
<p>  PFCL25-48C4-120 LINEARSTEP® with Linear Servomotor drives a pump to aspirate and dispense a liquid.</p>

PFCL25-48C4-120 LINEARSTEP® with Linear Servomotor 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.