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controller - メーカー・企業40社の製品一覧とランキング

更新日: 集計期間:Sep 24, 2025~Oct 21, 2025
※当サイトの各ページの閲覧回数を元に算出したランキングです。

controllerのメーカー・企業ランキング

更新日: 集計期間:Sep 24, 2025~Oct 21, 2025
※当サイトの各ページの閲覧回数を元に算出したランキングです。

  1. null/null
  2. 岡谷精立工業 Tokyo//Industrial Machinery
  3. 武蔵 武蔵エスアイ株式会社 Tokyo//Information and Communications
  4. 4 ITWジャパン Tokyo//Machine elements and parts
  5. 5 日本サーモスタット Tokyo//Machine elements and parts

controllerの製品ランキング

更新日: 集計期間:Sep 24, 2025~Oct 21, 2025
※当サイトの各ページの閲覧回数を元に算出したランキングです。

  1. Underfloor heating controller 日本サーモスタット
  2. Programmable Controller KV-8000 Series
  3. Web guide controller (winding correction device) マクセスジャパン株式会社(旧ファイフジャパン株式会社) 本社(千葉稲毛)、関西事務所(兵庫県)
  4. 4 【Continued Supply of Semiconductor EOL Products】Catalog of Renesas Discontinued Products Available
  5. 5 Multi-Device Controller 'MDC-70T' 武蔵 武蔵エスアイ株式会社

controllerの製品一覧

91~105 件を表示 / 全 2334 件

表示件数

[Example] Scalar Robot Control

Control of a SCARA robot that can be operated in G language and robot language.

This is an example of controlling a SCARA robot that can be operated with G-code or robot language. The theme is "SCARA Robot Control," and the challenges include "stable operation," "smooth and accurate trajectory control," "integrating mechanism conversion (kinematics) to command in an orthogonal system," "integration with PLC ladder," "controlling the entire system with a ladder while the robot operates within it," and "efficiently responding to various applications such as screw tightening, welding, assembly, and deburring." For more details, please contact us.

  • controller
  • SCARA Robot

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[Example] Torque Command / Servo Press

Precise control of torque, speed, and position.

Torque control is essential in molding machines such as servo presses. The quality of control can lead to inconsistent results. Techno's motion controllers accurately link torque, speed, and position control, benefiting servo presses and molding machines.

  • controller
  • Other processing machines

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[Optional Feature] Dual Axis of the Same Command (Parallel Axis/Gantry Control)

High-precision control of parallel axes (gantry) with general-purpose servos.

With the increase in the size and precision of stages, a gantry structure and parallel axis drive mechanisms are required. If the center of the table is driven when operating the mechanism, the resistance in the driving direction will occur evenly on both sides. In contrast, if one side is driven due to the mechanism's configuration, twisting (yawing) of the table will inevitably occur. This yawing will lead to inaccuracies in the position of the workpiece on the table. Additionally, there may be cases where central driving is not possible due to the size of the table or structural constraints. In such cases, the key point is how to drive the table without yawing. The "dual-axis with identical commands" function is useful in such situations.

  • controller

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[Customization] If it's analog measurement

Easily realize "adaptive control" by applying AD functions and macro operations.

In Fine Motion, "learning control" can be easily realized by applying AD functions and macro calculations. In PLC motion, it will be combined with the FAM3 AD module. For more details, please contact us.

  • controller

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Tool diameter correction

Functions effective for laser processing and milling processing.

Tool diameter compensation is an effective function for laser processing and milling (end mill) processing. Although the operating program is created with the finished shape (as it is easier to visualize and simpler), it functions by having the tool path go outside the finished shape by the radius of the laser spot or tool.

  • controller
  • Other processing machines

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High-speed and high-precision interpolation

The motion controller of Techno has interpolation accuracy of 1 pulse even at high speeds.

The techno motion controller allows for high-precision trajectory and speed control in interpolation and synchronous operations. The accuracy is about 1 pulse. If we assume the pulse unit is nm, the command error would be 1 nm. While there are error factors in the actual operation, including the entire servo system comprising the servo amplifier, motor, encoder, and mechanism, the motion controller on the command side can control very accurately and smoothly. The accuracy analysis function (TPC logging) can also be used for easy evaluation and verification. Here, we will introduce examples of "accuracy verification of linear interpolation trajectory and speed" and "torque measurement." For more details, please contact us.

  • controller

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[Case Study 1 of Problem Solving] Time Reduction from Design to Operation

Introduction of a case study that addresses the customer's desire to shorten the total time from design, development, to operation!

【Design】 Techno's motion controllers come equipped with a wealth of standard features and operational applications. Additionally, Techno staff can assist customers, reducing design time. 【Development】 By developing in Techno language or G language, development time can be shortened. For example, some customers have managed to reduce their time to one-tenth compared to using only ladder language. 【Operation】 In the case of Techno, the trial operation conducted before actual use typically takes just one day. Customers can focus on the actual operation of the machine. *For more details, please download the catalog or contact us!

  • controller

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Fine Motion

We can customize and provide what you want to achieve specifically for you!

"Fine Motion" is a high-end motion controller developed based on technology and knowledge in NC (Numerical Control). To enable communication with software other than motion (such as HMI, PLC, image processing, etc.), we have made the interface public. This allows customers to integrate the motion controller with the products and software they wish to use. Additionally, we have pursued the compactness of the motion controller to allow for a smaller control panel size. We have also aimed for standalone operation that does not necessarily require a PC or PLC. 【Features】 ■ Achieves smooth trajectories by maintaining a constant composite speed even with continuous small linear interpolation. ■ Immediate operation possible with a setting PC. ■ Readable operation programs using G/T code. ■ Equipped with functions that can be used for a wide variety of applications. *For more details, please refer to the related links or feel free to contact us.

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  • controller

ブックマークに追加いたしました

ブックマーク一覧

ブックマークを削除いたしました

ブックマーク一覧

これ以上ブックマークできません

会員登録すると、ブックマークできる件数が増えて、ラベルをつけて整理することもできます

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PC-based fine motion

By consolidating multiple machines into one, it is possible to reduce the installation area and shorten the takt time!

The "PC-Based Fine Motion" is a motion controller that ensures reliability even on general-purpose PCs, thanks to the "Fine Motion" accumulated over many years and the RTOS (Real-Time OS) INtime. This product demonstrates overwhelming performance with the powerful CPU capabilities of a PC. It can simultaneously control a variety of machines, including precision machining, semiconductor manufacturing, high-speed assembly, robotics, molding, servo presses, roll/tension control, winding machines, and laser processing. Additionally, by making some source interfaces public, it is possible to incorporate the customer's control logic into the motion. 【Features】 ■ Cost reduction ■ Machine interconnection ■ Increased productivity ■ Ease of operation ■ Control of different machines (multi-machine control) *For more details, please refer to the related links or feel free to contact us.

  • controller

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[Case Study] Achieving High Productivity with In-House Dedicated Machines

Introducing examples of achieving productivity that surpasses general-purpose machines, with benefits such as double the takt time and quality compared to conventional machines!

We would like to introduce a case where the introduction of our PLC motion controller "PLMC-M II EX" has achieved high productivity with an in-house dedicated machine. Previously, we were producing with a general-purpose polishing machine, but we felt limited in improving productivity. To develop more advanced in-house production technology, we needed a flexible NC that could incorporate our internal know-how. Additionally, networking for production management was also important. By implementing this product, we were able to achieve sufficient processing accuracy, confidentiality that cannot be imitated by other companies, cost advantages, costs similar to general-purpose PLCs, and integration with production management systems. [Challenges] - Precision as a machine tool and precision processing - Productivity exceeding that of general-purpose machines (tact and quality) - Flexibility and confidentiality to incorporate know-how - Cost advantages - Integration with production management - Utilization of our accumulated software technology *For more details, please refer to the related links or feel free to contact us.

  • controller

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[Case Study] Semiconductor Manufacturing Equipment

We will introduce examples of accumulated technology to win against overseas manufacturers in competition!

We would like to introduce a case where our PLC motion controller "PLMC-M II EX/M3EX" was used to control this machine and the robot collectively. Traditionally, our customer purchased completed robots from various robot manufacturers and combined them for semiconductor manufacturing equipment. However, they faced issues such as "high costs" and "lack of flexibility," and were looking for a motion controller manufacturer to take charge of robot control while in-house manufacturing the robot mechanisms. Tekno introduced a mechanism suited to the robot structure into our product. This made it easy to achieve advanced motion control such as force control, complete synchronization control, and robot mechanism calculations. [Challenges and Requests] ■ They wanted the mechanism of the in-house manufactured robot to be integrated into the motion controller (control software). ■ They wanted to operate the robot, assembly, and bonding devices in close collaboration/synchronization. ■ Advanced motion control was also necessary, including control of film tension, force, and compensation control for changes in film roll inertia. *For more details, please refer to the related links or feel free to contact us.

  • controller

ブックマークに追加いたしました

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ブックマーク一覧

これ以上ブックマークできません

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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.

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  • 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.

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  • controller

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[Case Study] Robots can be controlled like automated machines for assembly and processing.

We will introduce a case where robots can be controlled like automatic machines!

We would like to introduce a case where we received a request for a takt-up from external manufacturers of robots and robot application devices. They adopted our controller due to feeling limitations in the performance of their old controller and the manufacturer's support, as well as being unable to realize a robot controller. After implementation, they were able to control the robot like an automated machine, and they expressed their satisfaction with the integrated servo amplifier controller, as well as their joy from achieving the takt-up from E/U. 【Challenges】 ■ The ability to perform basic operations as a robot controller (such as teaching points). ■ Easy maintenance of parameters and operating programs. ■ Being a controller manufacturer that can respond to additional feature requests from E/U. *For more details, please refer to the related links or feel free to contact us.

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  • 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.

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  • controller

ブックマークに追加いたしました

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