The Yaskawa CIMR-V7CC4OP2 is a compact general-purpose inverter from the VS-606V7 series designed for precise AC induction motor control across industrial applications. This unit delivers sine wave PWM control with selectable V/f or sensorless vector control modes, enabling flexible deployment in diverse motor-driven systems. The inverter supports frequency control from 0.1 to 400 Hz and can sustain 150% of rated output current for one minute, making it suitable for demanding transient load conditions.
Technical Specifications
• Input Voltage: 200 VAC (single-phase or three-phase) or 400 VAC (three-phase)
• Output Power Range: 0.1 kW to 7.5 kW (three-phase)
• Frequency Control Range: 0.1 to 400 Hz
• Control Method: Sine wave PWM with V/f control or sensorless vector control (parameter-selectable)
• Acceleration/Deceleration Time: 0.01 to 6000 seconds (independently programmable)
• Overcurrent Capability: 150% of rated output current for one minute
• Dimensions: Compact profile with 128 mm height for efficient panel integration
• Mounting: Vertical orientation recommended for optimal thermal management
• Compliance: UL/cUL and CE certified
– Key Features
• Motor Protection: Instantaneous overcurrent, overload, overvoltage, undervoltage, and stall prevention
• Control Functions: PID control, energy-saving control, restart after momentary power loss, speed search, and constant copy functionality
• Torque Characteristics: Sensorless vector technology provides strong starting torque and stable low-speed operation
• Braking: Optional braking resistor integration for high braking power
– Network Communication
• Speed: 9.6 kbps to 12 Mbps
• Transmission Distance: Up to 1200 m at 9.6 kbps; down to 100 m at 12 Mbps
• Data Format: 2, 6, or 12 bytes
• Remote I/O: 32 inputs; 32 outputs
• Remote Registers: 4 words RWr; 4 words RWw
• Network Capacity: Up to 127 nodes (inverter: 1–99 nodes)
• Optional Communication Units: CC-Link (SI-C/V7*2), MECHATROLINK, DeviceNet
– Typical Applications
Motor speed control in machine tools, HVAC systems, conveyor drives, and process automation requiring adaptive torque delivery and low-speed precision.
