Yaskawa Matrix Converter User Manual Page 199
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- Table of contents
- TROUBLESHOOTING
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6-34
Fig 6.34 Slip Compensation Limit
Selecting Slip Compensation Function during Regeneration
Set the MxC to enable or disable the slip compensation function during regeneration.
Activating slip compensation during regeneration will help improve speed control.
Selecting Output Voltage Limit Operation
If output voltage saturation occurs while the output voltage limit operation is disabled, the output current will
not change, but torque control accuracy will be lost. If torque control accuracy is required, change the settings
to enable the output voltage limit operation.
If the output voltage limit operation is enabled, motor magnetic flux current is controlled automatically, and
torque control accuracy is maintained to limit the output voltage references. Consequently, the output current
will increase by approximately 10% maximum (with rated load) compared with when the output voltage limit
operation is disabled, so check the margin of the MxC rated current.
Setting Precautions
• It is not necessary to change the output voltage limit operation if using the device at medium to low speed
only, if the power supply voltage is 10% or more higher than the motor rated voltage, or if the torque con-
trol accuracy at high speeds is insufficient.
• If the power supply voltage is too low compared with the motor rated voltage, torque control accuracy may
be lost even if the output voltage limit operation is enabled.
Compensating for Insufficient Torque at Startup and Low-Speed Opera-
tion (Torque Compensation)
The torque compensation function detects that the motor load has increased, and increases the output torque.
V/f Control Method calculates and adjusts the motor primary loss voltage according to the output voltage (V),
and compensates for insufficient torque at start up and during low-speed operation. Calculate the compensa-
tion voltage as follows: motor primary voltage loss × parameter C4-01.
Vector control separates the motor excitation current and the torque current by calculating the motor primary
current, and controlling each of the two separately.
Calculate the torque current as follows: Calculated torque reference × C4-01
Slip compensation limit
Output frequency
E1-06: Base Frequency
E1-04: Maximum Output Frequency
E1-06 E1-04
C3-03
× C3-03
E1-04
E1-06
- Varispeed AC 1
- General Precautions 3
- Safety Information 4
- Safety Precautions 5
- Setting Parameters 6
- Test Run 6
- Maintenance and Inspection 7
- MxC is operating 8
- °C for 30 9
- AVERTISSEMENT 10
- Warranty Information 11
- Registered Trademarks 12
- Contents 13
- Revision History 19
- MxC Physical Installation 20
- MxC Introduction 21
- MxC Models 22
- Confirmations upon Delivery 23
- MxC Model Numbers 24
- MxC Specifications 24
- Component Names 25
- Installation Site 29
- IMPORTANT 30
- Removing the Terminal Cover 31
- Attaching the Terminal Cover 32
- Front Cover 33
- Attaching the Front Cover 34
- Connecting Peripheral Devices 36
- Connection Diagram 37
- Terminal Block Configuration 39
- Charge indicator 40
- Control circuit terminals 40
- Ground terminal 40
- Main circuit terminals 40
- Wiring Main Circuit Terminals 41
- Ter mi na l 42
- Line voltage drop (V) = 43
- Main Circuit Configurations 44
- Standard Connection Diagrams 45
- Wiring Main Circuit Inputs 46
- Inductive 48
- Ground Wiring 50
- Wiring Method 52
- External + 24 V 56
- CIMR-ACA2011 57
- Wiring Check 59
- Wiring 64
- or less 65
- Wiring Terminal Blocks 66
- PG power supply 67
- Digital Operator and Modes 69
- Digital Operator 70
- Digital Operator Keys 70
- Lit Blinking Not lit 71
- Operation Modes 73
- MxC Modes 73
- Switching Between Modes 74
- Drive Mode 75
- Quick Programming Mode 77
- Advanced Programming Mode 78
- Setting Parameters 79
- U1- 01=60.00Hz 79
- Entry Accepted 79
- Verify Mode 81
- Auto-Tuning Mode 82
- Test Run 84
- Test Run Procedure 85
- Test Run Procedures 86
- Switching the Power On 86
- Checking the Display Status 86
- Basic Settings 87
- Overview of Settings 89
- Setting the Control Method 90
- Parameter 94
- Application Settings 95
- No-load Operation 95
- Loaded Operation 95
- Saving Parameters 96
- Notes on Tuning the MxC 97
- VC = × Vmax × K 98
- Parameters and Settings 101
- Parameter Descriptions 102
- Torque Control 103
- Description 104
- Control 104
- Parameter Tables 107
- b: Application 109
- b2: DC Injection Braking 110
- b3: Speed Search 111
- b4: Timer Function 112
- b5: PID Control 112
- b6: Dwell Functions 114
- b7: Droop Control 114
- b9: Zero-servo 115
- C: Auto-Tuning 116
- C3: Motor Slip Compensation 117
- C4: Torque Compensation 118
- C5: Speed Control (ASR) 119
- C6: Carrier Frequency 119
- d: Reference 120
- d2: Reference Limits 121
- d3: Jump Frequencies 122
- d4: Reference Frequency Hold 122
- d5: Torque Control 123
- d6: Field Weakening 124
- E: Motor Parameter 125
- E2: Motor Setup 126
- E3: Motor 2 V/f Pattern 127
- E4: Motor 2 Setup 127
- F: Option 129
- F2: Analog Reference Card 130
- F3: Digital Reference Card 131
- F4: Analog Monitor Cards 131
- H: Terminal Function 134
- Function 136
- H3: Analog Inputs 139
- H3-05, H3-09 Settings 140
- H5: MEMOBUS Communications 142
- L: Protection Function 143
- L2: Power Loss Ridethrough 144
- L3: Stall Prevention 145
- L4: Reference Detection 146
- L5: Fault Restart 147
- L6: Torque Detection 147
- Regenerative 148
- L8: Hardware Protection 149
- n: Special Adjustments 150
- n5: Feed Forward 151
- o: Digital Operator 152
- o3: Copy Function 154
- T: Motor Auto-Tuning 155
- U: Monitors 157
- U1-10= 0000 158
- U2-25= 161
- 00000000 161
- U2: Fault Trace 162
- U3: Fault History 163
- Setting Range Unit 164
- Parameter Settings by 166
- Frequency Reference 167
- Related Parameters 170
- • Step 1 171
- • Step 2 171
- • Step 3 171
- Run Command 172
- MxC Functions 172
- Stopping Methods 176
- Decelerate to Stop 177
- Coast to Stop 178
- DC Braking Stop 179
- Coast to Stop with Timer 179
- Using DC Injection Braking 180
- Commands 183
- 1 V 2 V 5 V 10 V 184
- Time Chart 187
- Setting Precautions 187
- Deceleration Function) 188
- Limiting Minimum Frequency 195
- Improved Operating Efficiency 197
- Hunting-Prevention Function 201
- Machine Protection 203
- Model: CIMR-ACA4022 204
- Models: CIMR-ACA4110 and 4160 204
- Reverse 207
- Stall Prevention during Run 208
- Control Methods 209
- Detecting Motor Torque 213
- Setting Example 214
- Yes Yes Ye s 215
- Motor Overload Protection 216
- Rotation speed (%) 217
- Continuing Operation 221
- Speed Search 224
- Speed Search Selection 226
- Estimated Speed Search 227
- Application Precautions 230
- MxC Protection 231
- Input Terminal Functions 232
- Application Precautions 235
- Precautions 235
- (FJOG/RJOG) 240
- (External Fault Function) 241
- Output Terminal Functions 242
- Monitor Parameters 244
- Individual Functions 247
- Using MEMOBUS Communications 247
- Message Format 250
- MEMOBUS Message Example 251
- Data Tables 253
- Monitor Data 254
- ENTER Command 256
- Error Codes 257
- Slave Not Responding 257
- Using the Timer Function 258
- Using PID Control 259
- PID Control Applications 260
- Monitor Functions 261
- PID Control Methods 262
- PID Input Methods 262
- Adjusting PID Settings 263
- Fine Tuning PID 263
- Select PID Output 265
- Level Selection 265
- PID Feedback Loss Detection 266
- PID Sleep 266
- Setting Motor Parameters 267
- Setting the V/f Pattern 269
- Setting V/f Pattern 270
- Torque Control 273
- Speed Limit Bias Setting 277
- Speed Control (ASR) Structure 280
- Droop Control Function 286
- Zero-Servo Function 288
- Digital Operator Functions 290
- Copying Parameters 293
- A1 - 00=1 294
- Setting a Password 298
- Using PG Speed Control Card 301
- Setting Number of PG Pulses 301
- Detecting PG Disconnect 302
- Using Digital Output Cards 303
- DI-08 Reference Ranges 310
- Brake On/Off Sequence 311
- Auto-Tuning 312
- Control Related Adjustments 314
- Dwell Function at Start 316
- • Lifting 318
- PCB Board 321
- Troubleshooting 322
- Fault Detection 323
- CIMR-ACA4160 326
- Does the fan rotate 326
- Alarm Detection 332
- Operation Errors 336
- Errors During Auto-Tuning 337
- Trouble Setting Parameters 339
- If the Motor Does Not Operate 340
- Motor Overheat 344
- Mechanical Oscillation 346
- Maintenance and 348
- Inspection 348
- Maintenance and Inspection 349
- Limited Warranty 349
- Daily Inspection 349
- Periodic Inspection 349
- Periodic Maintenance of Parts 350
- Front cover 351
- Terminal cover 351
- BackFront 353
- Mounting screws for fan cover 357
- Fan cover 357
- Mounting screws for 357
- Front cover 1 358
- Mounting screws B 358
- Mounting screws A 358
- Fan unit 358
- Fan cable relay connectors 358
- Mounting screws 359
- Fan Replacement 360
- 3. Reverse the fan unit 361
- Removal 362
- Installation 363
- Specifications 364
- Standard MxC Specifications 365
- Common Specifications 366
- * 2. Under development 370
- Appendix 371
- MxC Control Methods 372
- Control Methods and Features 372
- V/f Control (A1-02 = 0) 374
- MxC Application Precautions 375
- Selection 375
- Installation 378
- Settings 378
- Handling 379
- Motor Application Precautions 380
- Wiring Examples 382
- Fig 10.5 383
- Fig 10.6 384
- External 385
- Fig 10.8 386
- Parameters 387
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