Products
Frequency Inverter MX2

Specifically created for your application, the MX2 was developed to harmonise advanced motor and machine control. Thanks to its advanced design and algorithms, the MX2 provides smooth control down to zero speed, plus precise operation for cyclic operations and torque control capability in open loop. Ratings: 200 V single-phase from 0.1 to 2.2 kW, 200 V three-phase from 0.1 to 15.0 kW, 400 V three-phase from 0.4 to 15.0 kW.

  • High starting torque: 200% at 0.5 Hz
  • Torque control in open loop vector
  • Double rating VT 120%/1 min and CT 150%/ 1 min
  • IM & PM motor control
  • Safety conforming to ISO13849-1 Category
  • 3 performance level PLD
  • Built-in Logic programming
  • Positioning functionality
  • Integrated at Omron machine Automation solution
  • Fieldbus communications: EtherCAT, Modbus, DeviceNet, Profibus, CompoNet, MECHATROLINK-II and EtherNet/IP
Frequency Inverter RX

Omron realises that you need quality and reliability, plus the ability to easily and quickly customise your inverter to the application in hand. And with the RX, you have the perfect tool for the job. Naturally it combines the same high level of quality and performance for which Omron is renowned. It also has abundant application functionality on board and you can customise it yourself to match your precise requirements.

  • Ratings up to 132 kW
  • Full torque at 0 Hz in closed loop
  • Sensor-less and vector closed-loop control
  • Built-in EMC filter, logic programming and application functionality
  • Fieldbus communications: Modbus, DeviceNet, PROFIBUS, MECHATROLINK-II, EtherCAT and CompoNet
  • Regenerative solutions as optionCE, cULus, RoHS
Frequency Inverter A1000

Ratings 200 V Class three-phase 0.4 to 110 kW 400 V Class three-phase 0.4 to 630 kW

  • Current vector control, with or without PG
  • High starting torque (200% / 0.3 Hz, spd range 1:200 OLV), (200% at 0 r/min, spd range 1:1500 CLV)
  • Double rating ND 120%/1min and HD 150%/1 min
  • Advanced Auto-Tuning for IM & PM Motors
  • Open Loop Control of PM Motors
  • Low-noise Low carrier technology
  • 10 years lifetime design
  • Screw-less terminals
  • Control Terminals with memory backup
  • 24 VDC control board power supply option
  • Fieldbus communications: Modbus, Profibus, CANopen, DeviceNet, ML-II, PROFINET, EtherCAT and EtherNet/IP
  • Safety embedded: EN954-1 safety cat. 3, stop category 0, IEC EN 61508 SIL 2 and EN61800-5-1 with EDM
  • Regenerative solutions as option
  • CE, UL, cUL and TUV
Motion Controller NY51-A

IPC Programmable Multi Axis Controlle

  • Intel® Core™ i7-4700EQ processor with fan for active cooling
  • 128 axes motion control
  • Up to 250 μs cycle time
  • Flexible function development capability (G-Code/ANSI C/original programming language)
  • Multi-tasking of Motion Control and Windows applications
  • Hypervisor allows to continue to control even if OS crashes

 

Motion Controller CK3E
  • 32, 16 or 8 axes motion control
  • Up to 250 μs cycle time
  • Compatible with standard G-Code functions
  • Save space & wiring thanks to compact design
  • CAD/CAM for easy motion control
  • EtherCAT for flexible configuration

 

Motion Controller CK3M

The modular design allows you to freely combine the CK3M with up to two axial interface units to enable a variety of applications.

  • Local axes for nanoscale precision
  • Ultra high-speed synchronous control (50µs/5 axes)
  • Custom servo regulation algorithms
  • Flexibility on using multi-vendor actuators and encoders
  • Flexibility on programming on G-code, ANSI C or original programming language
  • EtherCAT for flexible configuration
  • Modular design and DIN rail mounting
Motion Controller Trajexia

The stand-alone Trajexia controller TJ2-MC64 together with an EtherCAT master TJ2-ECT provides a significant improvement in machine performance and accuracy allowing you to run your machines faster. Controlling all 64 axes with a minimum system cycle time and with the use of 64 bit integers,Trajexia TJ2 ensures the fastest operation at the highest accuracy.

  • Perfect motion control of up to 64 axes
  • Supports position, speed and torque control
  • Multi-tasking controller capable running up to 22 tasks simultaneously
  • Advanced motion control such as linear, circular, helical or spherical interpolation, electronic cams and gearboxes via simple motion commands
  • Control of servos, inverters, vision systems and distributed I/O over a single EtherCAT network
  • Support for EtherNet/IP communications
  • Advanced debugging tools including data trace and oscilloscope functions
  • Open communication: Serial and EtherNet/IP built-in, PROFIBUS-DP, DeviceNet and CANopen
Motion Controller Trajexia PLC

Trajexia adds more scalability with a motion controller, based on CJ PLC platform. The controller is capable of controlling up to 30 physical axes; the CPU offers a compact solution, including digital I/Os, encoder port and MECHATROLINK-II master connection in one module.

  • Models with 4 or 30 MECHATROLINK-II axes
  • Selectable cycle time from 0.5 ms to 4 ms
  • Control of servos and inverters over a single motion network
  • Supports position, speed and torque control
  • Advanced motion control such as CAM control, registration control, interpolation and axes synchronization via simple motion commands
  • Serial port for master encoder axis
  • Embedded digital I/Os
  • I/O data exchange with the PLC CPU
  • Same instructions set as Trajexia stand-alone
Motion Controller NC EtherCAT

In the minimum of space you can have a complete and powerful position control system when combining the Omron CJ2 PLC, the CJ1W-NC EtherCAT unit and the G5 servo drives with EtherCAT built-in.

  • Position control units with 2, 4, 8 or 16 axes
  • NC_82 models support up to 64 additional nodes: inverters, vision systems and distributed I/Os
  • Linear and circular interpolation
  • Linear and infinite axes management
  • Programming languages: ladder and function blocks
  • Certified PLCopen motion control function blocks
  • The unit can perform various operation sequences in the memory, operation data
  • CX-Programmer software for unit setup, EtherCAT network configuration and PLC programming
Motion Controller NC MECHATROLINK-II

NC MECHATROLINK-II is a powerful controller for point-to-point applications. It is based on MECHATROLINK-II Motion Bus, which reduces programming and development and maintenance costs. Supports PLC Open Function Blocks.

  • Position control units with 2, 4 or 16 axes
  • High-speed bus MECHATROLINK-II is specially designed for motion control
  • Supports position, speed and torque control
  • Programming languages: ladder, function blocks. Supports PLC Open Function Blocks
  • Smart active parts for Omron HMI terminals reduce engineering time
  • Access to the complete system from one point. Network setup, servo drives configuring and monitoring, and PLC programming
Motion Controller CJ1W-NC_3

The NC motion controllers support positioning control via pulse-train outputs. Positioning is performed using trapezoidal or S-curve acceleration and deceleration. Ideal for controlling simple positioning in stepper motors and servos with pulse-train input.

  • Positioning can be done by direct ladder commands
  • Position and speed control
  • Linear interpolation
  • Interrupt feeding function
  • Positioning of 100 points done from memory
  • Positioning data is saved in internal flash memory, eliminating the need to maintain a backup battery.
Motion Controller CJ1W-NC_4

The NC motion controllers support positioning control via pulse-train outputs. Positioning is performed using trapezoidal or S-curve acceleration and deceleration. Ideal for controlling simple positioning in stepper motors and servos with pulse-train input. When the CJ1W-NC__4 unit is used in a CJ2 CPU, it can perform also synchronous operation by use of electronic CAMs and other function blocks.

  • Position and speed control
  • Linear interpolation and feeder control function
  • Electronic CAM profiles and axes synchronisation
  • Positioning of 500 points done from memory
  • Programming languages: ladder, function blocks