Last Updated: Aggregation Period:Feb 04, 2026~Mar 03, 2026
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:Feb 04, 2026~Mar 03, 2026
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:Feb 04, 2026~Mar 03, 2026
This ranking is based on the number of page views on our site.
1~30 item / All 174 items
Robots and programs that encourage innovative thinking.
Peritech offers new robotics using Denso Wave's multi-joint arm robots and the graphical programming language LabVIEW.
Reduction of residual vibration! An 8-axis motion control board that enables shorter positioning times.
Due to the effects of S-curve acceleration and deceleration, residual vibrations are reduced, and positioning time is shortened during servo motor control. Shock damping during startup and stopping is improved, extending the lifespan of mechanical components. Since acceleration in the high-speed range is reduced, the motor can operate at higher frequencies.
A 4-axis motion control board that enables speedy system construction. It is ideal for semiconductor equipment, inspection devices, and robots.
Evolves faster than conventional products. Additionally, 12 general-purpose input/output points with switchable functions have been added. Manual pulse input can also be switched.
Consolidating the functions of the motion controller onto a single board!
Consolidate the functions of a motion controller onto a single board! It operates as a motion controller simply by connecting the power supply (no PC required). It can be used for various applications such as grinding, cutting, polishing, cutting, drilling, laser processing, welding, dispensing, assembly, transportation, robotics, winding, 3D measurement, inspection machines, and more. Control that was previously impossible can now be achieved using a one-board motion controller.
MECHATROLINK-II/III compatible motion controller
This is a dedicated motion controller for the PLC (Yokogawa Electric FA-M3). It allows for easy use of NC control and robot control from the PLC. It is in a class of its own compared to general positioning module control. Despite being a PLC module, it integrates and operates independently with functions for multi-axis interpolation, synchronous control, contour control, and electronic cam, enabling control of processing machines, multi-axis robots, winding machines, and more without the burden of ladder logic. The PLMC offers a variety of convenient motion functions that can accommodate all types of automation equipment, helping to realize the know-how of machine and equipment manufacturers and promoting differentiation in automated systems. Additionally, with the use of multi-tasking capabilities, a single PLMC can easily control various stations such as transport, processing, assembly, and inspection in a line control setup. For more details, please contact us.
![[Example] High-speed pressing and synchronous machine](https://image.mono.ipros.com/public/product/image/c4b/2000018130/IPROS5288977249597416537.jpg?w=280&h=280)
[Example] Press-fitting parts synchronized with a 3000rpm spindle.
This is an example of controlling a high-speed press-fitting and assembly machine with a spindle speed of 3000 rpm. It can continuously and rapidly press-fit components into the workpiece. The press-fit pitch is approximately 0.5 to 2 mm. It continuously press-fits dozens of components into the workpiece. Fine Motion is equipped with measurement and analysis means to verify synchronization accuracy in micrometer units. Optimal adjustment of phase control is also easy. For more details, please contact us.
![[Example] Roll Tension Control](https://image.mono.ipros.com/public/product/image/ca6/2000018134/IPROS33565073694973384796.jpeg?w=280&h=280)
An example of roll tension control utilizing torque control.
In film feeding and layering, it is necessary to synchronize the feeding and winding rollers, as well as to accurately control the film's tension and speed. Techno's motion controllers enable synchronization of the rollers and precise tension (torque) control. Additionally, with the application of synchronized operation of dozens of axes and NC/robot control functions, it is also possible to manage the entire system collectively. For more details, please contact us.
![[Example] Precision control of large stages for FPD and solar cell manufacturing.](https://image.mono.ipros.com/public/product/image/d1c/2000018139/IPROS1915262169619777100.jpg?w=280&h=280)
Precision control of large-scale stages such as FPD and solar cell manufacturing.
Fine motion is used for precise control of large stages in FPD and solar cell manufacturing. With the increase in size and precision of stages, mechanisms for correcting yaw, sway, and perpendicularity have become important. Additionally, it is realized through precise motion control and a wealth of motion functions, including parallel axis (gantry) control, special multi-axis control, and head control synchronized with axis movements. It is suitable for FPD manufacturing equipment, solar cell manufacturing equipment, high-speed and high-precision stages, and high-speed laser processing machines. For more details, please contact us.
![[Example] Pipe Bender](https://image.mono.ipros.com/public/product/image/8b0/2000018219/IPROS30144137532864655879.jpeg?w=280&h=280)
Introduction of a case study on controlling a pipe bender (which deforms the pipe by pressing it against a bending mold to create the desired bend shape).
We press the pipe against a bending mold to create the desired bending shape through plastic deformation. The pusher axis and bending axis are linked to achieve precise bending. Additionally, by adding a rotating axis, continuous three-dimensional bending processing is possible. We have created a database of optimal bending conditions that take into account factors such as springback. Furthermore, adjustments can be made on-site to modify that database. For more details, please contact us.
![[Example] Servo press / Injection molding machine](https://image.mono.ipros.com/public/product/image/b80/2000018222/IPROS73706358898287345141.jpeg?w=280&h=280)
This is a case where a servo press was introduced for injection molding.
Servo presses, injection molding, benders, and precision molding may involve torque control. At Fine Motion, there are differences depending on the product, but commands can be issued at a minimum cycle of 125 μsec. Therefore, it is possible to specify the changes from position commands to torque commands in detail. In devices like molding machines, where the molding results can vary depending on the points at which torque control is switched, this offers a significant advantage. For more details, please contact us.
![[Example] Spring forming machine](https://image.mono.ipros.com/public/product/image/de6/2000018233/IPROS95966828079961905028.jpeg?w=280&h=280)
This is an example of a spring forming machine that has been introduced.
This is an example of a spring forming machine (forming machine) that has been implemented. In spring forming machines with many axes, controlling each axis with cams allows for the desired forming results to be achieved. Fine Motion can be said to be a very suitable motion controller.
Control using a data pattern that digitizes repetitive operations of multi-axis synchronization such as pressing and high-speed transport.
The "Electronic Cam and Synchronized Motion Controller" controls multi-axis synchronized repetitive operations, such as pressing and high-speed transport, using data-based motion patterns. It is a fully functional system that can be operational immediately after installation. It boasts high-speed synchronization (with a proven record of 3000 rpm spindle speed and 20 ms cycle synchronization). Optimal adjustments are easy with quantitative accuracy analysis. The combination of electronic cam and tech language allows for simple operation. Please contact us for more details.
![[Example] Multifunctional Desktop Processing Machine using PLMC-M3EX](https://image.mono.ipros.com/public/product/image/d3c/2000018241/IPROS4767645839537070297.jpg?w=280&h=280)
[Example] Multi-functional desktop processing machine using PLMC-M3EX
This is a multifunctional processing machine that maximally embodies the philosophy of DTF (Desktop Factory). It flexibly accommodates production of various types, layout changes, and new methods. It can be easily used in factories or laboratories with space limitations. Its multipurpose nature reduces investment risks. It can be transformed into various processing machines with head exchanges. For more details, please contact us.
![[Example] Glass Cutting Machine](https://image.mono.ipros.com/public/product/image/789/2000018312/IPROS76961820582077490441.jpeg?w=280&h=280)
This is an example of the glass cutting machine that has been introduced. It can cut free shapes and CAM output diagrams accurately.
Fine Motion can cut complex shapes with precise trajectories. It has a θ-axis correction function for the blade tip. For more details, please contact us.
![[Optional Feature] DNC (Direct NC)](https://image.mono.ipros.com/public/product/image/cf3/2000018318/IPROS53350352078349815873.jpeg?w=280&h=280)
Used for long hours of precision machining (lens polishing, optical molding, dental processing) with vast amounts of data output from CAD/CAM, etc.
The Techno motion controller is primarily a standalone type that does not require a PC. For example, the one-board motion controller (SLM8000) can be used as an NC simply by powering on the main unit (board). This means it can be used with processing machines even without a PC. However, for instance, the data output from CAD/CAM may be expected to be large in size. ======= If we consider the command time for one instruction (linear interpolation) to be 0.1 seconds and the processing time to be 10 hours (36,000 seconds), the number of commands would be 360,000. Assuming one command is 64 bytes, the operating program would be approximately 22 MB. ======= In such cases, it is not possible to store all G-code programs in the memory of the motion controller. Therefore, DNC is used.
![[Example] High-speed synchronous control machine](https://image.mono.ipros.com/public/product/image/005/2000071484/IPROS07511189440377238457.gif?w=280&h=280)
High-speed synchronization of intricate motions like those of an electronic cam across multiple axes.
"Multi-head assembly machines linked on a circular table" and "sheet winding" require multi-axis synchronous control. Traditionally, synchronization was achieved through mechanical cams and linkage mechanisms, but there are increasing examples of replacing this with servo and electronic cam control. The electronic cam method offers various advantages compared to the mechanical cam method. However, to truly benefit from these advantages, it largely depends on the functions and performance of the motion controllers and servos. In specialized electronic component manufacturing, there may be cases where precise repetitive motion is required at high tact rates of several tens of milliseconds. Additionally, there are multi-axis synchronous systems with nearly 100 axes. At Fine Motion, we can achieve the industry's fastest synchronous control and ultra-multi-axis synchronization with a combination of general-purpose servos. For more details, please contact us.
![[Example] Multi-axis, multi-head transport machine](https://image.mono.ipros.com/public/product/image/dd9/2000071487/IPROS80489532435344433424.jpeg?w=280&h=280)
High-speed and precise transport of electronic components, wafers, and glass.
In automated production lines, efficient transportation and stocking of workpieces (products) between stations such as assembly, processing, and inspection is an important theme. As the demand for fine, high-density, and high-speed transportation increases, not only simple positioning but also precise trajectory control becomes necessary. Additionally, due to the limitations of the mechanism's rigidity and the mass and inertia of moving parts, it is essential to achieve the highest speed and high precision through optimal acceleration and deceleration control for smooth operation. There are many combinations with image processing for work inspection and alignment, and further integration of assembly, implementation, transportation, processing, and inspection within the same system is progressing. Fine Motion realizes a high-value precision transportation system characterized by "precise motion," "multi-task processing," "flexible customization," and "real-time linkage between PC and PLC." For more details, please contact us.
![[Example] Intermittent Feeding Alignment](https://image.mono.ipros.com/public/product/image/f2c/2000071521/IPROS59828802938906369157.jpeg?w=280&h=280)
This is an example of a winding machine characterized by precise contour control.
This is an example of a winding machine characterized by precise contour control. Theme "Alignment and hollow (core) winding with ultra-fine wire (winding for ultra-small motors)" Challenges "Both intermittent feeding alignment winding and standard spiral winding are required" "Automatic switching from intermittent feeding to spiral winding" "Easy programming with winding commands" "Simple on-site reconfiguration according to variations in wire diameter" "Sufficient winding accuracy even with ultra-fine wire." For more details, please contact us.
![[Example] Desktop Precision Machining and Multipurpose Machine](https://image.mono.ipros.com/public/product/image/cf9/2000071528/IPROS80233121618313936107.jpeg?w=280&h=280)
Camera/image-based digitizing, alignment correction, precision machining.
This is an example of digitizing, alignment correction, and precision machining using a camera/image. The theme is "Dedicated tabletop processing machines and multipurpose machines like digitizers," and the challenges include "communication from dedicated software of machine manufacturers to Fine Motion for operation," "integration with simple cameras and image processing," "automatic operation using G-code," "high-precision contour control and diameter correction equivalent to NC functions," and "manual operation using manual pulse generators or switches." For more details, please contact us.
![[Example] Torque Command / Servo Press](https://image.mono.ipros.com/public/product/image/c09/2000071560/IPROS98269922903034475945.jpeg?w=280&h=280)
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.
![[Optional Feature] Dual Axis of the Same Command (Parallel Axis/Gantry Control)](https://image.mono.ipros.com/public/product/image/3a7/2000071672/IPROS97707144248868656739.jpeg?w=280&h=280)
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.
![[Customization] If it's analog measurement](https://image.mono.ipros.com/public/product/image/abd/2000071677/IPROS78702682391635023019.png?w=280&h=280)
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.
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.
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.
![[Case Study 1 of Problem Solving] Time Reduction from Design to Operation](https://image.mono.ipros.com/public/product/image/e01/2000484385/IPROS20186951382783560658.png?w=280&h=280)
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!
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.
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.
![[Case Study] Achieving High Productivity with In-House Dedicated Machines](https://image.mono.ipros.com/public/product/image/b03/2001539271/IPROS6417721043038887488.png?w=280&h=280)
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.
![[Case Study] Semiconductor Manufacturing Equipment](https://image.mono.ipros.com/public/product/image/4bc/2001539276/IPROS5453705601597828283.png?w=280&h=280)
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.
![[Case Study] Winding Machine](https://image.mono.ipros.com/public/product/image/f83/2001539280/IPROS282648448395389133.png?w=280&h=280)
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.
