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Motion Controller Product List and Ranking from 34 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

Motion Controller Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. テクノ Saitama//Industrial Electrical Equipment
  2. コスモテックス Kanagawa//Electronic Components and Semiconductors
  3. スマートホールディングス Tokyo//Automobiles and Transportation Equipment
  4. 4 新光電子 Tokyo//Electronic Components and Semiconductors
  5. 5 東阪電子機器 Osaka//Industrial Electrical Equipment

Motion Controller Product ranking

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. Product Introduction: PLC Motion Controller テクノ
  2. [Example] Roll Tension Control テクノ
  3. Pitch error correction function that adds pitch error values during drive for positioning. コスモテックス
  4. 4 Product Introduction: PC-Based Fine Motion テクノ
  5. 4 EtherCAT-compatible master "PXEP-CN" now supports Python. コスモテックス

Motion Controller Product List

31~45 item / All 175 items

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[Case Study] Winding Machine

We will introduce a case where we achieved a tact-up and became able to challenge ourselves to further tact-ups!

We have received a consultation from a company that manufactures winding machines in-house and produces its own products at its factories both domestically and internationally. They encountered issues that could not be resolved with the general-purpose controller they had been using for many years. The company had received requests from customers to lower the unit price of their products, which necessitated an increase in production volume through takt time improvement. They had been working on takt time improvement while consulting with the controller manufacturer, but unexpected defects had occurred. As a solution, they changed the controller and were able to increase the takt time by nearly 20% while maintaining their in-house know-how, eliminating any issues after implementation. 【Challenges】 ■ Continuation of in-house know-how and originality ■ Minimizing the time until the introduction of a new controller ■ Increasing production volume through takt time improvement ■ Eliminating defects caused by takt time improvement ■ Making it easier to investigate issues when they arise ■ Convenience of operational programming *For more details, please refer to the related links or feel free to contact us.

  • ?巻取線 画像2.png
  • controller

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[Case Study] Research and In-house Production of Nozzle-Winding Type Winding Machines

We will introduce a case that achieved benefits such as accurately executing a series of nozzle winding operations and the ability to specially define the turnaround section!

I would like to introduce a case study on the research and in-house production of a nozzle-winding type winding machine. In-house production was necessary to reduce costs and establish a dedicated winding method, so the machine was manufactured in-house, but it was difficult to produce the controller internally, necessitating a purchase. Using a fine motion controller and dedicated EXCEL software, we were able to accurately execute a series of nozzle winding operations, easily define complex continuous movements in EXCEL, and achieve benefits such as smooth and precise continuous linear interpolation. [Challenges] ■ Free and easy winding programming (easily trial new winding methods) ■ High-precision winding operations with the nozzle (continuous interpolation of three or more axes) ■ Inability to verify accuracy *For more details, please refer to the related links or feel free to contact us.

  • ?ノズル巻き式巻線機の研究・内製化 画像2.png
  • controller

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[Case Study] Scalar Robot Control

Introducing examples of achieving precise movements with smooth and accurate trajectory control!

We would like to introduce a case of controlling a scalar robot. There was no good robot controller for the dedicated scalar mechanism, it was not possible to purchase just the controller from the robot manufacturer, and the controllers that could be purchased had issues such as "not moving smoothly" and "unstable operation." After our company's intervention, we were able to perform mechanism transformation for each control cycle, command in an orthogonal system, and achieve accurate contour movements. We also flexibly adapted to both left-hand and right-hand systems, realized stable operation, and enabled precise movements with smooth and accurate trajectory control. [Challenges] - Ability to operate stably - Ability to perform smooth and accurate trajectory control - Ability to incorporate mechanism transformation and command in an orthogonal system - Ability to interface with PLC ladder - The entire system is controlled by a ladder, within which the robot operates - Capability for diverse applications such as screw tightening, welding, assembly, and deburring *For more details, please refer to the related links or feel free to contact us.

  • ?スカラーロボット制御 画像2.png
  • controller

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[Case Study] Custom-built Vertical Multi-Joint Robot Reduces Costs Without Control Panel

We will introduce a case that achieved high trajectory accuracy usable not only for transportation and assembly but also for processing!

We would like to introduce a case where a vertical multi-joint robot was self-made, allowing for cost reduction without a control panel. Challenges arose such as wanting to implement a motion controller suited to our own robot mechanism and operational purposes, wanting to demonstrate uniqueness, wanting to use both robot language and G-code, and wanting to operate directly from dedicated CAM. After our company's support, we achieved mechanism conversion processing tailored to the vertical multi-joint robot mechanism (6 axes). It became possible to operate easily with G-code and Techno language (robot language), resulting in the integration of a wide range of functions that can be utilized as a general automation machine in production sites. 【Features】 ■ Introduce a motion controller suited to our own robot mechanism and operational purposes to demonstrate uniqueness ■ A 6-axis mechanism conversion function is essential for commanding and operating in Cartesian coordinates ■ Want to use both robot language and G-code (also want to use G-code) ■ Want to operate directly from dedicated CAM or operate with CAM output files ■ Want to use for precision machining with motion accuracy exceeding that of assembly and transport robots *For more details, please refer to the related links or feel free to contact us.

  • ?垂直多関節ロボットを自作・制御盤なしでコストダウン 画像2.png
  • controller

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[Case Study] Integration of XYθ Plane Parallel Mechanism Control and Image Processing

We will introduce examples that enable collaboration with image processing and realize tasks such as work alignment adjustments!

We would like to introduce a case study on the collaboration between XYθ plane parallel mechanism control and image processing. In the XYθ plane parallel mechanism, three-axis parallel control is essential. Conventional servo controllers lack the functionality for mechanism transformation and could not issue operation commands in the orthogonal system of XYθ. This challenge was addressed with the one-board motion controller "SLM4000." By incorporating dedicated mechanism transformation processing within this product, we achieved command execution in the orthogonal system (XYθ), allowing for advantages such as utilization as an automated machine through G-code and Techno language. [Challenges] - Issue commands in the orthogonal system (XYθ) - Operate precisely with high-accuracy trajectory control - Function as an automated machine (production machine) compatible with G-code and robot language - Easily integrate with image processing *For more details, please refer to the related links or feel free to contact us.

  • ?XYθ平面パラレルメカニズム制御と画像処理の連携 画像2.png
  • controller

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[Case Study] Achieving Precise Control & Cost Reduction

We will introduce examples that offer significant benefits, such as reduced costs and a smaller control panel size!

We will introduce a case study on controlling multiple robots using "PC-based Fine Motion." Typically, one robot is controlled by one motion controller, making it difficult to achieve synchronized control with conveyors or between robots. However, in the case of our PC-based Fine Motion, it can control multiple units, allowing for synchronized control, reducing costs, and minimizing the size of the control panel, providing significant advantages. [Case Overview] - Objective: Control of multiple robots - Challenge: Difficulties in synchronized control with conveyors and between robots - Product Used: PC-based Fine Motion - Result: Control of three robots and a conveyor with one unit *For more details, please refer to the related links or feel free to contact us.

  • controller

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[Case Study] Achieving multiple applications such as discharge machining, cutting, and grinding with a single device.

Examples of simplifying design, reducing manufacturing costs, and expanding the market.

We would like to introduce a case where a single device achieved multiple applications such as electrical discharge machining, cutting, and grinding. A certain equipment manufacturer aimed to develop a device that could be used for multiple applications to enhance its competitive edge over other companies. To achieve this, they developed the necessary functions for multiple applications within the motion controller, allowing the device to be used for various purposes simply by changing the head. 【Case Overview】 ■Challenges - To realize the control functions necessary for various applications such as electrical discharge machining (drilling, micro-drilling, die sinking), cutting (milling, drilling), and grinding. ■Solution - Developed the necessary functions for multiple applications within the motion controller (customization). *For more details, please refer to the related links or feel free to contact us.

  • controller
  • Electric discharge machine
  • Grinding Machine

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[Case Study] Control of 5-Axis Machining Center

With a motion controller that supports TCP functionality, you can perform machining without changing the operation program by simply modifying the parameters!

We would like to introduce a control case of the XYZAC (table rotation) type 5-axis machining machine. The customer requested the implementation of the TCP function on the motion controller side. By fully utilizing existing functions such as tool length compensation and tool diameter compensation, we achieved machining accuracy equivalent to that of major NC manufacturers. 【Case Overview】 ■ Solutions - Realization of TCP function - Full utilization of existing functions such as tool length compensation and tool diameter compensation ■ Benefits - Achieved machining accuracy equivalent to that of major NC manufacturers *For more details, please refer to the related links or feel free to contact us.

  • controller
  • Other processing machines

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PLC Direct Motion Controller 'PI-2300'

You can build a motion network that combines servo motors and stepping motors.

The "PI-2300" is a controller that can realize advanced high-speed motion networks at a low cost under PLC control. It controls and monitors multi-axis motors solely through numerical operations on data registers. There is no need to create ladder programs for communication on the PLC side. Additionally, we offer RTEX-compatible two-phase micro-stepping drivers such as the "D4610" and "D4620." 【Features】 ■ Realizes advanced high-speed motion networks at a low cost under PLC control ■ Direct access to PLC ■ Simple motion control through data register operations *For more details, please refer to the PDF materials or feel free to contact us.

  • controller

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PLC Direct Motion Controller "PI Series"

Reduce the burden of ladder programs! It can flexibly accommodate changes in the number of hardware axes.

The "PI Series" is a PLC direct motion controller that does not require a positioning unit. By adopting AE-LINK (RS-485) for motion linking, it is possible to build a cost-effective motion system. Additionally, it allows for the control and monitoring of multi-axis motors simply by manipulating numerical values in data registers. 【Features】 ■ No positioning unit required ■ Reduces the burden of ladder programming ■ Direct access to PLC ■ Simple motion control through data register manipulation ■ Easy setup with included software *For more details, please refer to the PDF materials or feel free to contact us.

  • controller

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PCI-compliant high-speed line driver output 8-axis motion control board

Capable of multi-axis independent control with a maximum pulse output of 9.8Mpps.

This is a PCI bus-compliant motion control board capable of positioning stepping motors and servo motors (with pulse train input method). It features positioning, home return, linear interpolation, and S-curve acceleration/deceleration functions, allowing for linear interpolation between multiple axes and the ability to override speed and position. It can be used in a wide range of applications such as semiconductor manufacturing equipment, inspection equipment, multi-axis robots, or X-Y robots. 【Main Features】 ● Independent multi-axis control with a maximum pulse output of 9.8Mpps ● Control of continuous operation, positioning operation, and home return operation through constant speed, linear acceleration/deceleration, and S-curve acceleration/deceleration ● Diverse output and input formats that can be connected to encoder inputs and pulse output circuits ● Synchronization control function for multiple axes, allowing for alignment of operation start and stop timings ● Ability to override speed and position ● Comparator circuit enables comparison between set values and counter values

  • smc-8dl-pci_conn_rgb_96dpi_500x500.jpg
  • smc-8dl-pci_up_rgb_96dpi_500x500.jpg
  • Expansion Boards
  • Embedded Board Computers

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Cosmotex manufactured EtherCAT communication compatible series

EtherCAT communication-compatible board equipped with Cosmotex's proprietary development "PGS" & EtherCAT communication-compatible 5-phase integrated stepping driver.

The EtherCAT communication-compatible master multifunction motion control board 'PXEP-CN' is equipped with the pulse generation software 'PGS' developed independently by Cosmotex. We also offer the slave 5-phase integrated stepping drivers 'CTDR-0514ES-2LS' and 'CTDR-0514ES-4LS', which can be easily controlled via simple I/O control from the PXEP-CN. If you have any questions, please check the catalog or PDF. Additionally, feel free to contact us if you have any inquiries.

  • controller

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RTEX compatible PGS equipped CSRC-32CN-RP

Equipped with PGS! Control is possible with a notebook PC → Achieving multifunctionality and high performance in a compact device!

This is a multifunctional motion control unit equipped with the pulse generation software "PGS," which is the core technology of Cosmotex, and is compatible with Realtime Express (RTEX). Since it is a USB-controlled type, it can be operated with a laptop. As a result, it has become possible to achieve multifunctionality and high performance in compact devices! Please also make use of the various RTEX-compatible modules developed by our company!

  • controller

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Interpolation function that allows for changes and corrections to the arrival position, as well as the temporary suspension of interpolation operations at any time.

The motor controller function "Interpolation Control Function" delivered by Cosmotex.

This is the "Interpolation Control Function" available in the series equipped with the unique development of Cosmotex, 'PGS (Pulse Generation Software)'. Within PGS, interpolation data can be recorded up to a maximum of 5000 steps, allowing for changes to the interpolation data during operation, modifications and corrections to the target position, and temporary pauses in interpolation operations at any time. Additionally, it is possible to restart from a pause and switch interpolation axes (from XY axis to XZ axis). ■ Types of Interpolation - Linear, circular, and elliptical interpolation, helical interpolation, 3D interpolation ■ Others - Speed/acceleration time can be overridden during step switching - Up to 8 sets of interpolation patterns can be executed simultaneously - Up to 5000 steps can be executed (total of 8 buffers) *For more details, please download the PDF or feel free to contact us.

  • controller

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Light landing function that enables the protection of machinery, materials, and work.

The motor controller feature "Soft Landing Function" brought to you by Cosmotex.

This is the "soft landing function" enabled by the unique development of Cosmotex's 'PGS (Pulse Generation Software)' series. In bonding devices, impacts can occur due to overshoot during stopping, which may damage components. However, by overriding to a low speed after driving to the designated position, overshoot during stopping can be minimized, protecting the machine, materials, and workpieces. *For more details, please download the PDF or feel free to contact us.

  • controller

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