Yaskawa iQpump1000 AC Drive Quick Start User Manual Page 202
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Duplex System with Fine Tuning Application Example
The customer would like to run the second drive for 10 to 20 seconds at minimum speed then shut it off, letting the first drive
run at maximum. This will then run the second drive again and the cycle will repeat. The customer must also account for
system losses when running both pumps by boosting the setpoint by 5 PSI. In the event that the pressure exceeds 125 PSI, the
second drive should de-stage if both drives are running. If the pressure exceeds 140 PSI, a high feedback fault should occur
and stop the drive.
There are multiple methods to handle the pump cycling problem:
• Lower the lag fixed speed (P9-06)
• Decrease the lag fixed speed delay (P9-07)
• Increase the staging frequency level (P9-09)
• Increase the staging delay time (P9-11)
• Increase the de-staging delay time (P9-15)
• Increase the stabilization time (P9-16)
• Increase both the Add Freq Level and Add Dly Time
Table 4.11 Related Parameters for Duplex System with Fine Tuning Application Example
Description
Drive A
<1>
Drive B
<1>
Run Source: 1 (Terminals) b1-02 = 1 b1-02 = 1
Node Address H5-01 = 1 H5-01 = 2
Highest Node Address P9-25 = 2 P9-25 = 2
Pump Mode: 3 (Network) P1-01 = 3 P1-01 = 3
Feedback Source: 0 (Analog) P9-02 = 0 P9-02 = 0
Lag Fixed Speed P9-06 = 54.0 Hz P9-06 = 54.0 Hz
Setpoint U5-99 = 100 PSI U5-99 = 100 PSI
Start Level P1-04 = 140 PSI P1-04 = 140 PSI
High Feedback Quick De-Stage P9-18 = 89.3% P9-18 = 89.3%
Setpoint Modifier P9-17 = 5.0 PSI P9-17 = 5.0 PSI
Add Drive Frequency Level P9-09 = 59.0 Hz P9-09 = 59.0 Hz
Add Drive Delay P9-11 = 12.0 s P9-11 = 12.0 s
<1> All other multiplexing and alternation parameters are set to default settings.
Duplex System with Jockey Pump Example
A customer requires a pump system with the following requirements:
• One small pump (the Jockey pump) will run the system during off-peak times.
• Two larger pumps will run the system when the demand is higher.
• The Jockey pump should not run when the two larger pumps are running.
• Pump wear is still an issue, but it is expected that the small pump will run longer hours and will always run first after a loss
of power.
• The feedback scale is 145 PSI.
• There is only one feedback transducer in the system.
4.5 iQpump Presets and Functions
202
YASKAWA TOEP YAIP1W 01B YASKAWA AC Drive - iQpump1000 Quick Start Guide
- Quick Start Guide 1
- Simple Setup Procedure 3
- Identification and Mounting 4
- Changing Parameters and 6
- Monitoring the iQpump 6
- P1-02 Feedback Unit 8
- START / DRAW DOWN LEVEL 8
- Start Pump System 8
- Auto/Hand Operation 9
- Auto Operation 9
- Go to Sleep 9
- FEEDBACK SIGNAL CHECK 10
- HAND MODE 11
- Table of Contents 13
- Preface & General Safety 21
- Applicable Documentation 22
- Terms and Abbreviations 22
- Trademarks 22
- Installation 27
- Settings 27
- General Handling 27
- Standard Induction Motors 28
- Specialized Motors 28
- Single-Phase Motor 29
- Restrictions 30
- Receiving 31
- Nameplate 32
- P W 2 A 33
- 2.1 Mechanical Installation 36
- Single Drive Installation 37
- Figure 2.7 38
- Remote Operation 40
- +0.5 (0.02) 42
- SECTION A-A 55
- Figure 2.26 Model 4A0031 67
- SECTION A-A 74
- Unit: in. [mm] 100
- FRONT VIEW 101
- Flange Type Heat Loss Data 102
- Mechanical Installation 103
- This Page Intentionally Blank 116
- Electrical Installation 117
- Removing the Jumper 123
- Application Notes 123
- 3.3 Terminal Cover 125
- Removing the Terminal Cover 126
- Removing the HOA Keypad 127
- Reattaching the HOA Keypad 127
- Removing the Front Cover 127
- HookHook 128
- Front cover 128
- Free hooks on both 128
- Reattaching the Front Cover 129
- 3.5 Top Protective Cover 130
- 3.6 Main Circuit Wiring 131
- Insulation Barrier 133
- Three-Phase 200 V Class 134
- Three-Phase 400 V Class 136
- Three-Phase 600 V Class 139
- Ground Wiring 141
- 3.7 Control Circuit Wiring 143
- Output Terminals 144
- Ferrule-Type Wire Terminals 146
- 3.8 Control I/O Connections 148
- Transducer Wiring 150
- 3.9 Connect to a PC 153
- Start-Up Checklist 156
- Start-Up Programming 157
- & Operation 157
- 4.2 Powering Up the Drive 158
- 4.3 Using the HOA Keypad 162
- LCD Display 163
- ALARM (ALM) LED Displays 164
- Menu Structure for HOA Keypad 166
- 4.4 Pump Application Presets 169
- G eo the rm al S lee p 180
- A1 A2 A3 182
- Current Limit 185
- Required Control Wiring 188
- P re -C ha rg e 192
- Pressure Feedback 196
- P1-01 = 1 196
- (Contactor Multiplex) 196
- RS-485 Network 197
- Process Supply 197
- Reservoir 197
- 100.0PSI 198
- U5-99= 100.0 199
- U1-01= 59.41 200
- U1-01= 55.00 200
- U1-01= 51.37 200
- U1-01= 48.00 200
- <1> 202
- Multiplexing Stop History 204
- De-Scale/De-Ragging 205
- A1-01: Access Level Selection 207
- A1-03: Initialize Parameters 207
- 2-Wire Control 208
- 3-Wire Control 208
- Jumper S1 210
- A1/A2/A3 210
- Voltage/Current 210
- Selection 210
- Figure 5.4 211
- E2-01: Motor Rated Current 216
- E2-04: Number of Motor Poles 216
- <2> 218
- P1-01: Pump Mode 223
- P1-02: System Units 224
- Setting 1: Alarm 226
- Setting 2: Digital out only 226
- P1-11: High Feedback Level 227
- P2-01: Sleep Level Type 228
- P2-02: Sleep Level 228
- P4-17: Utility Start Delay 233
- P5-02: HAND Reference 1 233
- 4.7 Test Run with No Load 236
- Checklist Before Operation 237
- Troubleshooting 239
- 5.2 Fault Detection 241
- 5.3 Alarm Detection 260
- Fault Reset Methods 284
- 5.8 Auto-Tuning 285
- Auto-Tuning Operation Example 286
- Entry Accepted 287
- Starting Auto-Tuning 288
- 6.1 Inspection 290
- Periodic Inspection & 291
- Maintenance 291
- 6.2 Periodic Maintenance 292
- Related Drive Parameters 293
- 6.3 Drive Replacement 294
- Installing the Drive 295
- 7.1 Option Card Installation 298
- NS MS 300
- TX RX 300
- Appendix: A 303
- A.1 Power Ratings 304
- Specifications 305
- A.2 Drive Specifications 313
- 2 <9> 314
- A.3 Drive Watt Loss Data 315
- A.4 Drive Derating Data 317
- Parameter Settings 322
- Altitude Derating 323
- Appendix: B 325
- OLVOLVOLVOLV 326
- A2: User Parameters 327
- Parameter List 327
- B.2 b: Application 328
- B.3 C: Tuning 334
- C6: Carrier Frequency 336
- B.4 d: References 337
- B.5 E: Motor Parameters 340
- E2: Motor 1 Parameters 341
- B.6 F: Options 343
- <1> 358
- H6: Pulse Train Input 359
- B.8 L: Protection Function 360
- L3: Stall Prevention 362
- L4: Speed Detection 363
- L5: Fault Restart 364
- L6: Torque Detection 365
- B.9 n: Special Adjustment 368
- B.11 P: Pump Parameters 373
- P2: Pump Protection 375
- P3: Contactor Multiplexing 377
- P4: Pump Advanced 379
- P5: Pump HAND Mode 381
- P6: Flow Meter Setup 382
- P7: Anti-Jam 384
- P8: De-Scale / De-Ragging 385
- P9: Network Options 385
- Q1: Preset Setpoint 390
- Q2: Geothermal Mode Setup 390
- Q3: Output Current Limit 391
- Q4: Water Level Control 391
- Q5: Suction Pressure Control 392
- B.13 S: Special Application 395
- S6: Protection 399
- B.15 U: Monitors 401
- 00000000 403
- U3: Fault History 405
- U4: Maintenance Monitors 406
- U5: PID Monitors 409
- Appendix: C 411
- Master (PLC or other) 412
- Slave (Drive) 412
- MEMOBUS/Modbus 413
- Communications 413
- IG R+ R- S+ S 414
- RS-485 Interface 415
- RS-422 Interface 416
- H5-07: RTS Control Selection 418
- Observing the Drive Operation 420
- Controlling the Drive 420
- C.6 Communications Timing 421
- C.7 Message Format 422
- D 1 4 0 423
- (Lower) (Upper) 423
- C.8 Message Examples 424
- Writing to Multiple Registers 425
- C.9 MEMOBUS/Modbus Data Table 426
- Monitor Data 428
- Broadcast Messages 440
- Fault Trace Contents 440
- Alarm Register Contents 442
- C.10 Enter Command 444
- C.11 Communication Errors 445
- C.12 Self-Diagnostics 446
- Appendix: D 447
- D.1 European Standards 448
- Grounding 450
- EMC Filter Installation 450
- Standards Compliance 451
- EMC Filters 453
- D.2 UL and CSA Standards 456
- Drive Short Circuit Rating 463
- Revision History 468
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