Last Updated: Aggregation Period:May 20, 2026~Jun 16, 2026
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:May 20, 2026~Jun 16, 2026
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:May 20, 2026~Jun 16, 2026
This ranking is based on the number of page views on our site.
61~90 item / All 171 items
Diverse motion control is possible with low volume. A rich interface and user-friendly PC software are provided.
The FAULHABER motion controller, MCST 3601, is equipped with a USB interface and can be operated with a supply voltage of 9...36 (VDC) and a maximum current of 5 (A).
Diverse motion control is possible with low volume. A rich interface and user-friendly PC software are provided.
The FAULHABER motion controller V3.0, MC 3001 B, is equipped with RS232/CAN interfaces and can be operated with a supply voltage of 6 ... 30 (VDC) and a maximum current of 5 (A).
Diverse motion control is possible with low volume. A rich interface and user-friendly PC software are available.
The FAULHABER motion controller V3.0, MC 3001 P, is equipped with RS232/CAN interfaces and can be operated with a supply voltage of 6 ... 30 (VDC) and a maximum current of 5 (A).
Universal Motion Control NUSCO-400/400SS
The NUSCO-400 is a motion control system that moves the tool to the target position and performs positioning. In contrast, the 400SS perceives the entire process of moving the tool to the target position as the target position itself, and it is a servo control system for the trajectory (i.e., continuous change of position) and the speed of moving along that trajectory. It generates numerical commands for the trajectory and movement speed of the tool, compares these with the numerical information detected from the actual moving tool, and outputs real-time position and speed references to move the tool along the specified trajectory with the set speed curve.
Ideal for customers requiring high-precision multi-axis motion control, such as in industrial machinery and semiconductor equipment.
- High precision, maximum 64-channel multi-axis synchronous motion - Advanced and high-speed servo control algorithm - EtherCAT-based universal servo drive design - Trigger function suitable for laser applications
Supports diverse control environments! An optimal control solution for device integration.
The E-881 BIX motion controller is a modular piezo motion controller suitable for embedded device applications. It supports flexible connections via Ethernet/USB. It is compatible with various development environments such as Python, C++, and LabVIEW, allowing for smooth system development. Despite its high performance, its compact housing achieves both space-saving and high-performance control, supporting improved efficiency in device development.
EtherCAT Master Motion Controller PCIe-8338
The ADLINK PCIe-8338 is a hardware-based EtherCAT motion controller that can simultaneously support up to 64 synchronized axes and 10,000 points. The PCIe-8338 features not only general-purpose sensor inputs but also independent emergency stop inputs (EMG) with an input frequency of up to 1 MHz, as well as configurable isolated high-speed digital inputs. To optimize synchronized I/O performance for vertical automation applications such as semiconductor and electronics manufacturing, it provides optimal jitter control with a minimum cycle of 250 μs. The PCIe-8338 offers an Application Programming Interface (API) function library for generating multidimensional, highly synchronized, time-deterministic event-triggered motion and I/O control. Using ADLINK's API function library, a wide range of compatible third-party slaves can be easily designed. The ADLINK MotionCreatorPro 2 utility is fully compliant with the Microsoft Windows environment and allows for the configuration and functional evaluation of EtherCAT motion and I/O, as well as the compilation of program download functions.
4-axis pulse motion controller
The AMP-104C is a cost-effective 4-axis motion controller card equipped with a PCI Express interface that can generate pulse trains of up to 4.9MHz to control motors. With more versatile I/O and 4-channel encoder feedback inputs, the AMP-104C can be used in many scenarios and applications. As a motion controller, the AMP-104C allows for the setting of asymmetric acceleration and deceleration profiles. The AMP-104C can configure speed profile settings for asymmetric acceleration and deceleration, control T-shaped and S-shaped speed profiles, and select motion stop methods. It also supports speed changes on a single axis, linear interpolation on any two axes, and simultaneous start/stop across multiple axes.
4-axis pulse motion controller for advanced motion control of servo/stepping motors.
The AMP-304C is an advanced 4-axis motion controller card with a PCI Express interface, capable of generating pulse trains up to 9.99MHz to control motors. Not only is it more versatile, but with dedicated I/O, functional logic selection switches, and 4-channel encoder feedback inputs, the AMP-304C can be used in many scenarios and applications. As a motion controller, the AMP-304C covers all the functions of the AMP-104C, providing asymmetric speed profile settings for T-curves and S-curves, options for stopping methods, and on-the-fly speed changes. It also supports linear, circular, and helical interpolation for any 2-4 axes, 13 types of home return modes, backlash compensation, and vibration suppression. It features a highly flexible position comparison trigger function and a position latch function. The trigger function includes 16-channel output with 4-channel dedicated output that allows voltage selection via onboard jumpers, while the position latch function can be implemented with 12-channel input.
Built-in sequence function
A motor controller with built-in sequence functions, available in 1-axis, 2-axis (interpolated), and 3-axis (2-axis interpolated + 1-axis) self-propelled (standalone) types, capable of data acquisition through I/O, arithmetic operations, conditional jumps, and other functions, making it suitable for various applications.
Control of up to 15 axes is possible! Stage acceleration system that reduces the impact on the observed object.
This product is a controller that can be operated from major image processing software around the world. By attaching an expansion unit, it can connect electric XYZ, shutter, and filter wheel via plug and play. It can control up to 15 axes. 【Features】 ■ Equipped with intelligent scanning technology ■ S-curve stage acceleration system that reduces the impact on the observed object during stage acceleration and deceleration ■ Connection to PC via RS232 and USB (64-bit compatible) ■ Electric XYZ, shutter, and filter wheel can be connected via plug and play *For more details, please refer to the PDF document or feel free to contact us.
Equipped with 4-axis motion control and PLC! Compatible with G-code!
The "SNC-Ace" is a one-board CNC capable of controlling stepping motors due to its pulse output. It has standalone sequence operation and positioning control functions, allowing control of the device with a single unit. Additionally, because the CPU processes information at high speed, it can execute G-code used in NC, and customization for customer-specific programming is also easy. 【Features】 ■ G-code compatible ■ Equipped with 4-axis motion control and PLC ■ Capable of controlling stepping motors due to pulse output *For more details, please download the PDF or feel free to contact us.
Achieve multi-axis control at low cost! Ideal for stepping motor control as well.
■Achieve Multi-Axis Control at Low Cost! The 'PCIX-801' has achieved low-cost multi-axis control by simplifying and narrowing down the functions it offers. Additionally, it is equipped with flexible input terminals that allow for function selection via programming, enabling you to switch functions as needed. It can control not only stepping motors but also servo motors for up to 4 axes, making it suitable for various applications according to customer needs.
12-axis control board with AD/DA support, override capability, and cPCI bus compatibility.
■ Equipped with 4 channels each for AD/DA The cPCIX-1201A is equipped with 4 points of analog input and 4 points of analog output (12-bit resolution). ■ Override possible during positioning drive Using the extended function, it is possible to override the movement amount during positioning drive. A new movement amount can be set while driving.
![[Example] Industry's fastest synchronization control](https://image.mono.ipros.com/public/product/image/25e/2000010111/IPROS1882435677122684728.jpg?w=280&h=280)
Precise synchronized control with a control cycle of 125μsec.
The techno motion controller is capable of continuous commands (synchronous control) with a response time of 125μsec. By controlling the composite speed of each axis without deviation, it achieves high-speed synchronous control. The high level of synchronization performance is a very important factor for a wide variety of devices, including implementation, assembly, transportation, molding, processing, and robotics. For more details, please contact us.
![[Case Study] Control of a Small 6-Axis Parallel Mechanism Robot](https://image.mono.ipros.com/public/product/image/7c9/2000018041/IPROS47338156159799329502.jpeg?w=280&h=280)
Control of a special small 6-axis parallel robot used for precision machining and alignment.
Trajectory control of a special parallel mechanism using a techno motion controller. By introducing suitable kinematics (mechanism calculation formulas), users can smoothly control the stage without needing to understand the kinematics. Please contact us for more details.
![[Case Study] High-Speed Small Diameter Hole Machining](https://image.mono.ipros.com/public/product/image/66b/2000018144/IPROS95822238309655603088.jpeg?w=280&h=280)
This is an example of processing a small circle accurately in a very short time.
It accurately processes small-diameter holes in a few tens of milliseconds. It can operate as a standard automatic machine using G-code or Techno code. It can be operated on the same day with a setup PC (operating screen software). Additionally, operation using G-code output from dedicated CAM is also possible. It also has built-in functionality for precision analysis of roundness. Optimizing adjustments and quantitative evaluations of the mechanism and servo system are also straightforward.
![[Example] Quilting Machine (Embroidery and Sewing Control)](https://image.mono.ipros.com/public/product/image/edc/2000018240/IPROS11073189634939625029.jpeg?w=280&h=280)
This is an example of implementation for industrial embroidery machines and sewing machine control.
We have utilized NC control and robot control functions in industrial knitting machines, embroidery machines, and sewing machines. This is a motion controller that can be directly connected to dedicated PC software and can be operated freely from dedicated software for knitting and embroidery machines. In particular, it processes vast amounts of operational data with its DNC function. It can also specifically handle stitch back and needle up/down control. For more details, please contact us.
![[Example] Control of Hole Drilling and Rigid Tapping](https://image.mono.ipros.com/public/product/image/2f4/2000018242/IPROS32198358240593355077.jpeg?w=280&h=280)
Case study of controlling a high-precision drilling and tapping machine.
This is an example of applying high-precision NC-equivalent motion technology to a dedicated processing machine. For more details, please contact us.
![[Example] Laser Welding / Laser Cutting](https://image.mono.ipros.com/public/product/image/637/2000018309/IPROS7477455478065971817.jpg?w=280&h=280)
[Example] Integrated control of axes and laser power supply with a single-board motion controller.
You can control the axes, I/O, and laser power supply collectively with a one-board motion controller. It is capable of precise trajectory control and can handle complex shapes. Synchronous control of axis movement and laser power supply is also possible. For more details, please contact us.
![[Example] Desktop Implementation Machine (Screw Tightening / Coating)](https://image.mono.ipros.com/public/product/image/46a/2000018316/IPROS352399940651988189.jpg?w=280&h=280)
[Example] A tabletop implementation machine with a small motion and servo built into the body.
This is an example of controlling a precision machining machine on a table. It features easy operation with a tech language, motion accuracy equivalent to general-purpose NC, and uniform support for dispensing, screw tightening, riveting, drilling, and more. For more details, please contact us.
![[Example] Robot Motion Controller](https://image.mono.ipros.com/public/product/image/1c0/2000071473/IPROS18541565623499598524.jpeg?w=280&h=280)
The robot mechanism is developed by the customer, and our company is responsible for the motion controller.
There are many cases where the robot mechanism is developed by the customer, and our controller is responsible for the motion controller. The mechanisms of robots vary. They are used for tasks such as transportation, processing, welding, deburring, and assembly, just like conventional automated machines, using links and parallel machines. For more details, please contact us.
![[Example] Precision Assembly and Mounting Machine](https://image.mono.ipros.com/public/product/image/1d7/2000071477/IPROS69537253224205176086.jpeg?w=280&h=280)
Control of a dedicated assembly implementation machine specialized for specific work tasks.
An assembly and implementation machine is a machine that implements and assembles electronic components at high speed and precision, such as mounters and bonders. The tasks involved are diverse, including chip component transport, alignment, bonding, dispensing, welding, crimping, and insertion, requiring high takt time, high reliability, and parallel operation. Additionally, machines that perform high-speed and precise repetitive operations at micro-pitch, such as connector manufacturing machines, are also included. Techno's motion controllers are highly suitable for the precise and high-speed control of dedicated implementation machines specialized for these tasks. For more details, please contact us.
![[Example] Servo Press / Molding Machine](https://image.mono.ipros.com/public/product/image/19f/2000071502/IPROS74128454855536103599.jpeg?w=280&h=280)
Freely and accurately control position and torque.
Servo presses, injection molding, bending machines, and precision molding can have varying molding results depending on the accuracy of torque control, position control, and the precision of timing changes. At Fine Motion, we can switch between position commands and torque commands at a control cycle as short as 125 μsec. The operating program is also described in a very simple manner, making it an easy-to-handle controller. For more details, please contact us.
![[Case] Improvement of nozzle winding accuracy](https://image.mono.ipros.com/public/product/image/936/2000071525/IPROS58906848098492691551.jpeg?w=280&h=280)
Verification of High-Speed Nozzle Wrapping Accuracy and Improvement Trials
This is an example of a winding machine characterized by precise contour control. The theme is "Accuracy verification and improvement of high-speed nozzle winding," and the challenges are "quantitative analysis of the trajectory accuracy of nozzle winding," "efficient measurement of various patterns by changing speed and conditions," "optimal control considering the response of mechanisms and servo systems," and "ensuring stable operation at all times." For more details, please contact us.
![[Example] Precision Parts Processing Machine](https://image.mono.ipros.com/public/product/image/246/2000071566/IPROS01488750147706923265.jpeg?w=280&h=280)
Precision machining of watch parts
This is an example of processing clock components using a one-board type motion controller. For more details, please contact us.
Collaboration between Fine Motion Controller and LabVIEW
You can easily use the fine motion controller with National Instruments' LabVIEW. LabVIEW's "design and analysis tools" work in conjunction with Techno's "fine motion." This is effective for research and development of new methods and sensing technologies. For more details, please contact us.
![[Customization] Amplitude Correction Oscillation](https://image.mono.ipros.com/public/product/image/1f9/2000071669/IPROS65760357596351987911.jpeg?w=280&h=280)
By measuring and correcting the amplitude during operation, the reduction of amplitude from low speed to high speed is improved.
High-speed and high-precision reciprocating motion using the oscillation command (SWING) is useful for grinding, polishing, fine machining, cutting, and high-precision drilling. It operates in parallel with normal operation and can be controlled accurately by significantly improving amplitude reduction at high speeds through a unique amplitude correction function. For more details, please contact us.
The precise continuity of micro interpolation is the essence of motion control!
Continuous path motion is a fundamental performance requirement for motion controllers, and in precision motion control, it is a crucial point that can be considered its essence. It can be rephrased as the accurate continuity of multi-axis interpolation. Accurate continuous interpolation means "no positional error; the trajectory is precise" and "no velocity error; the speed and time are as specified." Fine and high-precision movements consist of a series of very small vectors. In processes such as machining, polishing, and winding, it is necessary to accurately maintain a large number of small interpolations continuously. The operation (processing) time T for one interpolation is determined by the feed speed F and the interpolation length L, where T = L/F. There is a limit to how small this time can be, beyond which the motion controller's control cannot keep up. This is why the minimum time for accurately continuous processing of small interpolations serves as a performance indicator for motion controllers. Techno's motion controllers can achieve continuous interpolation with a control cycle as short as 125 μsec. Accurate speed and smooth continuity are directly linked to the precision of operations and processing, significantly impacting work quality. For more details, please contact us.
