Yaskawa Matrix Converter User Manual
Varispeed ac, Instruction manual
Varispeed AC
Matrix Converter for Environmentally Friendly Motor Drives
Instruction Manual
MANUAL NO. TOEP C710636 00G
Upon receipt of the product and prior to initial operation, read these instructions
thoroughly, and retain for future reference.
Type: CIMR-ACA
Models: 200 V Class: 5.5 to 45 kW ( 9 to 63 kVA)
400 V Class: 5.5 to 160 kW (10 to 209 kVA)
Table of contents
Document Outline
- Front Cover
- Safety Information
- Safety Precautions
- Location of Warning Information
- Warranty Information
- Registered Trademarks
- Contents
- 1 MxC Physical Installation
- 2 Wiring
- 3 Digital Operator and Modes
- 4 Test Run
- 5 Parameters and Settings
- Parameter Descriptions
- Digital Operation Display Functions and Levels
- Parameter Tables
- A: Initialization
- b: Application
- C: Auto-Tuning
- d: Reference
- E: Motor Parameter
- F: Option
- H: Terminal Function
- L: Protection Function
- n: Special Adjustments
- o: Digital Operator
- T: Motor Auto-Tuning
- U: Monitors
- Default Settings that Change with the Control Method (A1-02)
- Defaults for Various MxC Capacities (o2-04)
- 6 Parameter Settings by Function
- Frequency Reference
- Run Command
- Stopping Methods
- Acceleration and Deceleration Characteristics
- Adjusting Frequency References
- Speed Limit (Frequency Reference Limit Function)
- Improved Operating Efficiency
- Machine Protection
- Reducing Noise and Leakage Current
- Limiting Motor Torque (Torque Limit Function)
- Stall Prevention during Run
- Changing Stall Prevention Level during Run Using an Analog Input
- Using Frequency Detection: L4-01 to L4-05
- Detecting Motor Torque
- Changing Overtorque and Undertorque Detection Levels Using an Analog Input
- Motor Overload Protection
- Setting Motor Protection Operation Time
- Motor Overheating Protection Using PTC Thermistor Inputs
- Limiting Motor Rotation Direction
- Continuing Operation
- MxC Protection
- Input Terminal Functions
- Temporarily Switching Operation between Digital Operator and Control Circuit Terminals
- Blocking MxC Outputs (Baseblock Commands)
- Stopping Acceleration and Deceleration (Accel/Decel Ramp Hold)
- Raising and Lowering Frequency References Using Contact Signals (UP/ DOWN)
- Accelerating and Decelerating Parameter Frequencies in the Analog References (+/- Speed)
- Hold Analog Frequency Using User-set Timing
- Switching Operations between a Communications Option Card and Control Circuit Terminals
- Jog Frequency Operation without Forward and Reverse Commands (FJOG/RJOG)
- Stopping the MxC by Notifying Programming Device Errors to the MxC (External Fault Function)
- Output Terminal Functions
- Monitor Parameters
- Individual Functions
- Digital Operator Functions
- Options
- Elevator and Hoist Type Applications
- Brake On/Off Sequence
- Auto-Tuning
- Momentary Power Loss Ridethrough
- Torque Limit
- I/O Phase Loss Protection and Overtorque Detection
- External Baseblock Signal
- Acceleration/Deceleration Time
- Output Side Magnetic Contactor
- Control Related Adjustments
- Reducing Shock at Start/Stop and during Acceleration/Deceleration
- Confirming Start Up Current and Reducing Carrier Frequency
- Maintenance Timer Display Function
- 7 Troubleshooting
- Protective and Diagnostic Functions
- Troubleshooting
- Trouble Setting Parameters
- If the Motor Does Not Operate
- Direction of the Motor Rotation is Reversed
- Motor Does Not Produce Torque or Acceleration is Slow
- Motor Operates Faster than the Frequency Reference
- Slip Compensation Function has Low Speed Precision
- Low Speed Control Accuracy at High-Speed Rotation in Open Loop Vector Control Method
- Insufficient torque during Rotational Auto-Tuning in Flux Loop Vector
- Speed fluctuation during Rotational Auto-Tuning in Flux Loop Vector
- Motor Deceleration is Too Slow
- Motor Overheat
- Noise is Produced from an AM Radio or when the MxC is Started
- Ground Fault Interrupter Operates while the MxC is Running
- Mechanical Oscillation
- Torque Generated for the Motor is Insufficient (Insufficient Power)
- Motor Rotates Even When MxC Output is Stopped
- OV or OC is Detected when the Fan is Started or Stalls
- Output Frequency does not Reach the Specified Frequency Reference
- 8 Maintenance and Inspection
- 9 Specifications
- 10 Appendix
- MxC Control Methods
- MxC Application Precautions
- Motor Application Precautions
- Wiring Examples
- Using a VS Operator
- Using Transistors for Input Signals and a 0 V Common in Sinking Mode with an Internal Power Supply
- Using Transistors for Input Signals and a +24 V Common in Sourcing Mode
- Using Transistors for Input Signals and a 0 V Common in Sink Mode with an External Power Supply
- Using Contact and Open Collector Outputs
- Parameters
- Index
- Revision History
- Back Cover