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SINAMICS G120X
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Siemens SINAMICS G120X - Page 1063
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3.
Remove 2 screws (TX-25) of the front cover.
1P
7;
7;
4.
Remove the front cover.
5.
Remove the fan connector.
Corrective maintenance
10.2 Replacing spare parts
SINAMICS G120X converter
Operating Instructions, 06/2019, FW V1.01, A5E44751209B AC
1061
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1064
Table of Contents
Main Page
Default Chapter
4
Legal Information
4
Proper Use of Siemens Products
4
Warning Notice System
4
Table of Contents
5
1 Fundamental Safety Instructions
13
General Safety Instructions
13
Equipment Damage Due to Electric Fields or Electrostatic Discharge
19
Warranty and Liability for Application Examples
20
Industrial Security
21
Residual Risks of Power Drive Systems
23
2 Description
25
About the Manual
25
What Is the Meaning of the Symbols in the Manual?
25
Who Requires the Operating Instructions and What For?
25
About the Converter
26
Use for the Intended Purpose
26
Use of Openssl
26
Use of Third-Party Products
26
Scope of Delivery
27
3-Phase 380 V AC to 480 V AC
28
3-Phase 500 V AC to 690 V AC
29
Example for a Rating Plate
30
Rating Plate
30
Directives and Standards
31
Device Disposal
33
Recycling and Disposal
33
External Line Filter
34
Optional Components
34
Article Number
35
Line Reactor
35
Requirements for Line Reactors
36
Line Harmonics Filter
37
Output Reactor
38
Special Restrictions for Converter FSG
38
Sine-Wave Filter
40
DV/Dt Filter Plus VPL
41
Mounting the Converter with the Push-Through Mounting Kit
43
Push-Through Mounting Kit
43
Procedure, FSA ... FSC
44
Procedure, FSD ... FSG
44
Mounting the Shield Connection Kit for the Power Module
45
IP21 Top Cover
46
Mounting Grips for Push-Through Mounted Converters
46
Mounting Instructions
46
I/O Extension Module
47
IP21 Top Cover Dimensions - MM (Inch)
47
Mounting Kit for Line-Side Cable Connection, Left (FSH Only)
47
Interface Overview
48
Outline Dimensions
48
Mounting
49
Operator Panel
49
Wiring the Terminal Strips
49
SINAMICS G120 Smart Access
50
Motors and Multi-Motor Drives that Can be Operated
51
Permissible Power of Standard Induction Motors
51
Siemens Motors that Can be Operated
51
Third-Party Motors that Can be Operated
51
Adhesive Label with Danger and Warning Notes for North America
53
Installing the Label for the North American Market
53
3 Mounting
53
EMC-Compliant Setup of the Machine or Plant
54
EMC Zones
54
Inside the Control Cabinet
54
Outside the Control Cabinet
54
Control Cabinet
55
Control Cabinet Assembly
55
Measures Required for Several Control Cabinets
55
Cables
56
Cable Routing Inside the Cabinet
57
Routing Converter Cables Inside and Outside a Control Cabinet
57
Electromechanical Components
58
Routing Cables Outside the Control Cabinet
58
Requirements Relating to Shielded Cables
58
Surge Voltage Protection Circuit
58
Power Losses and Air Cooling Requirements
59
Mounting the Converter
61
Basic Installation Rules
61
General Installation Conditions
61
Converters for Systems in the United States/Canada (Ul/Cul)
61
Protection against the Spread of Fire
62
Dimension Drawings and Drill Patterns
63
Mounting Position
63
Mounting the Converter on the Mounting Panel
64
Dimensions and Clearance Distances - MM (In)
64
Drill Patterns - MM (In)
65
FSH and FSJ
66
Mounting the Converter Utilizing Push-Through Technology (FSA to FSG Only)
66
Mounting Dimensions - MM (In)
67
Cutouts and Drilling Patterns - MM (In)
68
Mounting the Shield Connection Kits
69
Mounting the Shield Connection Kit for the Control Unit
69
Additional Mounting Instructions for FSD
71
Hoisting Gear
72
For Cabinet Panel Mounted Converters
72
For Push-Through Mounted Converters
72
Mounting Grips
73
Additional Mounting Instructions, FSH/FSJ
74
Removing the Pallet
74
Lifting the Converter into the Cabinet
74
Mounting the Optional Components
75
4 Wiring
77
Line Supply and Motor
77
Permissible Line Supplies
77
TN System
77
Converter Operated on a TN System
78
TT System
79
Converter Operated on a TT System
79
IT System
80
Removing Functional Grounding of the Converter
80
Converter Operated on an IT System
80
Removing Screw for Functional Grounding, FSG
81
Disconnecting the Basic Interference Suppression Module, FSH/FSJ
81
Minimum Cross-Section of the Protective Conductor
82
Maximum Permissible Motor Cable Length
84
400 V Converter
84
EMC Category According to en 61800‑3
84
Maximum Permissible Motor Cable Length Depending on EMC Category
85
Ferrite Sleeves on the Connecting Cables
86
690 V Converter
87
Connecting the Converter and Converter Components
89
Connecting Converters FSA … FSG and Their Optional Components
90
Connection Overview
90
Connnecting Converters
91
Connections for the Line Supply, Motor and DC Link Terminals
91
Removing the Connection Cover, FSD/FSE
92
Removing the Connection Cover and Making Openings, FSF/FSG
92
Connections for the Line Supply and Motor
93
Additional Information When Connecting FSG Converters
94
Connecting Converters, FSH/FSJ
94
Removing the Front Cover
94
Cable Cross-Sections and Screw Tightening Torques
96
Cable Lug
97
Connecting the Cable Shields (FSA
98
Connecting the Motor to the Converter in a Star or Delta Connection
100
Operating the Motor in a Star Connection
100
Operating the Motor in a Delta Connection with 87 Hz Characteristic
100
Control Interfaces
101
Overview of the Interfaces
101
Fieldbus Interface Allocation
102
Converter with 3C3 Certification
102
Interfaces at the Lower Side of the Control Unit
102
Number of Inputs and Outputs
102
Terminal Strips
103
Terminal Strips with Wiring Example
103
Additional Options for Wiring the Digital Inputs
104
Terminals Strips for I/O Extension Module
105
Wiring I/O Extension Module
105
Connecting P-Switching Contacts
106
Connecting M-Switching Contacts
106
Factory Interface Settings
107
Converters with PROFINET or PROFIBUS Interfaces
107
Factory Setting for Converters with PROFINET or PROFIBUS Interfaces
107
Converters with RS 485 Fieldbus Interfaces
108
Default Setting of the Interfaces (Macros)
109
Terminal Strip X9
128
Additional Digital Inputs and Digital Outputs on Converters FSH and FSJ
128
Terminal Strip X9 with Internal 24 V Supply
129
"Safe Torque Off" Safety Function
130
Terminals and Switches for the "STO" Function
131
Application Examples for "Safe Torque Off"
134
Function Description
135
Prerequisites for SIL 2/PL D
135
Prerequisites for SIL 3/PL E
135
SIRIUS 3SK1 Safety Relay
135
SIRIUS 3SK2 Safety Relay
136
Connection 3SK1 Inside a Control Cabinet for FSH, FSJ
136
Connection 3SK2 Inside a Control Cabinet for FSA … FSG
136
Dynamic Monitoring of STO Feedback for FSA … FSG
137
Connection 3SK2 Inside a Control Cabinet for FSH and FSJ
137
Connection 3RK3 Inside a Control Cabinet for FSA … FSG
138
Connection 3RK3 Inside a Control Cabinet for FSH and FSJ
139
Connecting the SIMATIC S7-1500 in a Control Cabinet for FSA … FSG
139
Wiring the Terminal Strips
141
Wiring the Terminal Strip in Compliance with EMC
142
Permissible Cable and Wiring Options
142
Connecting to PROFINET and Ethernet
143
Communication Via PROFINET IO and Ethernet
143
The Converter as Ethernet Node
143
PROFINET Protocols
144
Protocols Used
144
Ethernet/Ip Protocols
145
Connection-Oriented Communication Protocols
145
Connecting the PROFINET Cable to the Converter
146
What Do You Have to Set for Communication Via PROFINET
146
Configuring PROFINET Communication in the I/O Controller
146
Device Name
146
Installing GSDML
147
Connect Converter to Ethernet/Ip
147
What Do You Need for Communication Via Ethernet/Ip
148
RS485 Interface for the Fieldbus
148
Connection with the Fieldbus Via RS485
148
Connecting to PROFIBUS
149
Maximum Cable Length
149
Connecting the PROFIBUS Cable to the Converter
150
What Do You Have to Set for Communication Via PROFIBUS
150
Configuring PROFIBUS Communication
150
Setting the Address
150
Installing the GSD
151
Commissioning Guidelines
153
Tools
154
Preventing Misuse of the Operator Panel
154
Compliance with the General Data Protection Regulation
154
Preparing for Commissioning
155
Collecting Motor Data
155
Data for a Synchronous Reluctance Motor
156
Example of a Type Plate for a Reluctance Motor
156
Forming DC Link Capacitors
157
Production Year and Month
157
Forming the DC Link Capacitors
157
Converter Factory Setting
159
Motor
159
Converter Interfaces
159
Switching the Motor on and off
159
Minimum and Maximum Speed
160
Operate the Motor in the Factory Setting
160
Jogging the Motor in the Factory Setting
160
Quick Commissioning Using the BOP-2 Operator Panel
161
Fitting the BOP-2 to the Converter
161
Overview of Quick Commissioning
162
Start Quick Commissioning and Select the Application Class
163
Selecting an Application Class
164
Standard Drive Control
165
Minimum and Maximum Motor Speed
166
Ramp-Up and Ramp-Down Time of the Motor
166
Dynamic Drive Control
167
Expert
169
Motor Cooling
170
Select the Appropriate Application
170
Select the Control Mode
170
Identifying the Motor Data and Optimizing the Closed-Loop Control
173
Restoring the Factory Settings
175
Why Restore the Factory Settings?
175
Resetting to Factory Setting with the BOP-2 Operator Panel
175
Handling the BOP-2 Operator Panel
176
Menu of the BOP-2
176
Other Keys and Symbols of the BOP-2
176
Changing Settings Using BOP-2
177
Changing Indexed Parameters
178
Directly Entering the Parameter Number and Value
179
Entering the Parameter Value Directly
179
A Parameter Cannot be Changed
180
When Cannot You Change a Parameter?
180
6 Advanced Commissioning
181
Overview of the Converter Functions
181
Drive Control
181
Safety Functions
181
Setpoints and Setpoint Conditioning
182
Technology Controller
182
Motor Control
182
Drive Protection
182
Brief Description of the Parameters
183
Brief Parameter Description
183
Sequence Control When Switching the Motor on and off
184
Drive Control
184
Converter States
185
Commands for Switching the Motor on and off
186
Fp 2610
187
Adapt the Default Setting of the Terminal Strips
188
Digital Inputs
190
Analog Input as Digital Input
193
Fp 2256
194
Digital Outputs
195
Frequently Used Binector Outputs (BO) of the Converter
196
Fp 2244
197
Analog Inputs
198
Define the Analog Input Type
198
Default Settings Via Parameter P0756
198
Defining the Function of an Analog Input
199
Frequently Used Connector Inputs (CI) of the Converter
199
Fp 2251
200
Adjusting Characteristics for Analog Input
201
Setting the Deadband
202
Analog Outputs
204
Frequently Used Connector Outputs (CO) of the Converter
204
Fp 2261
206
Adjusting Characteristics for Analog Output
207
Drive Control Via PROFINET or PROFIBUS
208
Receive Data and Send Data
208
Cyclic Data Exchange
208
Parameters for the Scaling Characteristic
208
Setting the Address
208
Telegram Structure
209
Profidrive and Telegram Numbers
209
16-Bit Speed Setpoint
209
16-Bit Speed Setpoint for VIK-Namur
209
16-Bit Speed Setpoint with Torque Limiting
210
16-Bit Speed Setpoint for PCS7
210
16-Bit Speed Setpoint with Reading and Writing to Parameters
210
16-Bit Speed Setpoint for PCS7 with Reading and Writing to Parameters
210
Control Word 1 (STW1)
211
Status Word 1 (ZSW1)
212
Control Word 3 (STW3)
213
Status Word 3 (ZSW3)
214
Fault Word According to the VIK-NAMUR Definition (MELD_NAMUR)
214
Parameter Channel
215
Structure of the Parameter Channel
215
AK: Request and Response ID
215
Response Identifiers
216
Error Numbers for Response Identifier 7
216
PNU (Parameter Number) and Page Index
217
Subindex
217
Parameter Value or Connector
217
Parameter Channel for Read Request from P7841[2]
218
Parameter Channel to Assign Digital Input 2 with ON/OFF1
219
Expanding or Freely Interconnecting Telegrams
220
Interconnection of the Process Data
220
Interconnection of the Receive Data
221
Extending the Telegram
221
Acyclically Reading and Writing Converter Parameters
222
Reading and Changing Parameters Via Data Set 47
222
Reading Parameter Values
222
Request to Read Parameters
222
Converter Response to a Read Request
223
Changing Parameter Values
224
Request to Change Parameters
224
Response, if the Converter Has Executed the Change Request
224
Error Values
225
Error Value in the Parameter Response
225
Drive Control Via Ethernet/Ip
226
Configuring Communication Via Ethernet/Ip
227
Communication Settings
227
Supported Objects
228
Communication Via the SINAMICS Profile
228
Communication Via the ODVA AC/DC Drive Profile
228
Identity Object, Instance Number: 1 Hex
229
Instance Attribute
229
Explanation of No. 5 of the Previous Table
230
Class Attribute
230
Connection Manager Object, Instance Number: 6 Hex
231
Motor Data Object, Instance Number 28 Hex
232
Supervisor Object, Instance Number: 29 Hex
233
Drive Object, Instance Number: 2A Hex
234
Siemens Drive Object, Instance Number: 32C Hex
235
Siemens Motor Data Object, Instance Number: 32D Hex
237
TCP/IP Interface Object, Instance Number: F5 Hex
238
Link Object, Instance Number: F6 Hex
239
Instance Number: 401 Hex
241
Supported ODVA AC/DC Assemblies
241
Assembly Basic Speed Control, Instance Number: 20, Type: Output
242
Assembly Basic Speed Control, Instance Number: 70, Type: Input
242
Create Generic I/O Module
242
Integrating a Converter into an Ethernet Network
243
Additional Options of Integrating Converters into Ethernet
243
The Converter as Ethernet Node
243
Drive Control Via Modbus RTU
244
Activating Communication Via Fieldbus
244
ON/OFF Commands Via Modbus RTU
245
Parameters for Setting Communication Via Modbus RTU
246
Setting the Address
246
Interconnecting Analog Outputs
247
Modbus RTU Telegram
249
Modbus with Delay Times
249
Baud Rates and Mapping Tables
250
Permissible Baud Rates and Telegram Delay
250
Modbus Register and Control Unit Parameters
250
Assigning the Modbus Register to the Parameters - Process Data
251
Mapping Tables - Converter Data
252
Acyclic Communication Via Modbus RTU
255
Overview of Acyclic Communication
255
Error Codes
255
Write and Read Access Using Function Codes
256
Function Codes Used
256
Structure of a Read Request Via Modbus Function Code 03
256
Slave Response to the Read Request, Example
257
Invalid Read Request
257
Structure of a Write Request for Slave Number 17, Example
257
Slave Response to the Write Request
258
Reading and Writing Parameters Acyclically Via FC 16
258
Example: R0002 Read Acyclically
259
Response for Successful Read Operation
259
Communication Procedure
261
Response for Successful Write Operation
261
Response for Unsuccessful Write Operation
261
Procedure for Communication in a Normal Case
261
Logical Error
262
Maximum Processing Time, P2024[0]
262
Process Data Monitoring Time (Setpoint Timeout), P2040
262
Application Example
262
Drive Control Via USS
263
ON/OFF Commands Via USS
263
Activating Communication Via Fieldbus
263
Setting the Address
264
Telegram Structure
264
Specify User Data of Telegram
265
USS Telegram - User Data Structure
265
USS Process Data Channel (PZD)
266
Process Data Channel
266
Telegram Monitoring
269
Character Runtime
269
Start Delay and Response Delay
269
Start Delay
269
Telegram Monitoring of the Master
270
Telegram Monitoring of the Converter
270
USS Parameter Channel
270
Telegram for a Read Request from P7841[2]
275
Drive Control Via Bacnet MS/TP
276
Bacnet Properties
276
Telegram, to Activate the Automatic Restart with P1210 = 26
276
Telegram, to Assign DI 2 with ON/OFF1
276
Data Exchange with the Client
277
Activating Communication Via Fieldbus
277
Setting the Address
278
Parameters for Setting Communication Via Bacnet
279
Bacnet Communication Parameter
279
Setting the Cov_Increments
279
Device Name - Default Setting, Change, Restore Factory Setting
279
Changing Device Names - Procedure
280
Restoring Factory Settings
280
Interconnecting Analog Outputs, Restoring Factory Settings
280
Reset to the Factory Setting for Bacnet
280
Supported Services and Objects
281
Bibbs Used by the Converter
281
Overview of the BIBB Used and the Associated Services
281
Object Types in Bacnet
282
Object Properties of the "Device" Object Type
282
Properties of the Other Object Types
282
Binary Input BI
283
Binary Output BO
283
Analog Input AI
284
Analog Output AO
284
Binary Value BV
284
Analog Value AV
286
Multi-State Input MSI
289
Acyclic Communication (General Parameter Access) Via Bacnet
290
Write Parameter Request Via OSV0
290
Read Parameter Content Via OSV1
290
Read Parameter Content Again Via OSV1
291
Overview of the Error Codes
291
Jogging
292
Behavior of the Motor When "Jogging"
292
Switching over the Drive Control (Command Data Set)
294
Command Data Set (CDS)
294
Changing the Number of Command Data Sets
294
Copying Command Data Sets
294
Selecting Physical Units
296
Motor Standard
296
Selection Options and Parameters Involved
296
Unit System
296
Technological Unit of the Technology Controller
297
Special Features
297
Reference Variables
297
Options When Selecting the Technological Unit
297
Safe Torque off (STO) Safety Function
298
The Distinction between EMERGENCY off and EMERGENCY STOP
300
Setting the Feedback Signal for Safe Torque off
300
Feedback Signal "STO Is Active" Via Digital Outputs
301
Pump Control
302
Multi-Pump Control
302
Low-Voltage Circuit Breakers
303
Mains Circuit
303
External Relay Control Circuit
303
Pump Switch-In/Switch-Out
305
Pump Switch-Out Based on the Fixed Sequence (P29522 = 0)
308
Pump Switch-Out Based on the Absolute Operating Hours (P29522 = 1)
309
Stop Mode
310
Pump Switchover
313
Service Mode
315
Frost Protection
318
Condensation Protection
320
Cavitation Protection
322
Deragging
324
Interaction with Other Functions
325
Pipe Filling
326
Setpoints and Setpoint Processing
329
Setpoint Sources for the Converter
329
Analog Input as Setpoint Source
330
Specifying the Setpoint Via the Fieldbus
331
Setting with Receive Word PZD02 as Setpoint Source
331
Fieldbus as Setpoint Source
331
Motorized Potentiometer as Setpoint Source
332
Function Chart of the Motorized Potentiometer
332
Fp 3020
333
Basic Setup of Motorized Potentiometer
334
Extended Setup of Motorized Potentiometer
334
Direct Selection of the Fixed Speed Setpoint
335
Directly Selecting a Fixed Speed Setpoint
335
Fixed Speed Setpoint as Setpoint Source
335
Resulting Setpoint
335
Selecting the Fixed Speed Setpoint, Binary
336
Fp 3011
337
Overview
340
Setpoint Processing
340
Application Examples Showing How a Setpoint Is Inverted
341
Invert Setpoint
341
Enable Direction of Rotation
342
Minimum Speed
343
Skip Frequency Bands and Minimum Speed
343
Fd 3050
344
Parameters for the Speed Limitation
346
Speed Limitation
346
Extended Ramp-Function Generator
347
Ramp-Function Generator
347
Fp 3070
348
Additional Parameters to Set the Extended Ramp-Function Generator
349
Setting the Extended Ramp-Function Generator
349
Dual Ramp Function
350
PID Technology Controller
352
Simplified Representation of the Technology Controller
353
Limiting the Output of the Technology Controller
354
Fp 7950
355
Fp 7951
356
Fp 7954
357
Fp 7958
358
Basic Settings
359
Adapting the Actual Value of the Technology Controller
360
PID Technology Controller, Fixed Values (Binary Selection)
360
PID Technology Controller, Fixed Values (Direct Selection)
361
PID Technology Controller, Motorized Potentiometer
361
Autotuning the PID Technology Controller
363
Autotuning Using Closed-Loop Level Control as Example
363
Example for Speed Setpoint and Actual Process Value for Autotuning
364
Executing Autotuning
364
Enable PID Autotuning
365
Adapting Kp and Tn
366
Controller Adaptation
366
Fp 7959
367
Free Technology Controllers
369
Parameters for the Free Technology Controller 0
369
Cascade Control
370
Interaction with the "Hibernation Mode" Function
374
Accept the Real-Time Clock in the Alarm and Fault Buffer
375
Real Time Clock (RTC)
375
Example of the Response of the Time Switch
377
Principle of Operation of the Time Switch (DTC)
377
Settings for the Example with DTC1
377
Time Switch (DTC)
377
Motor Control
378
Reactor, Filter and Cable Resistance at the Converter Output
378
Simplified Function Diagram of the U/F Control
379
U/F Control
379
V/F Control
379
U/F Characteristics of the Converter
380
Characteristics for Special Applications
381
Linear and Parabolic Characteristics
381
Fp 6300
382
Optimizing Motor Starting
384
Setting the Voltage Boost for U/F Control
384
The Resulting Voltage Boost Using a Linear Characteristic as Example
384
Fp 6301
386
Fp 6310
387
Characteristics after Selecting Standard Drive Control
389
U/F Control with Standard Drive Control
389
Optimizing the Motor Start-Up for Application Class Standard Drive Control
391
Encoderless Vector Control
393
Structure of Vector Control Without Encoder (Sensorless)
393
Fp 6040
395
Fp 6050
396
Fp 6060
397
Optimizing the Speed Controller
398
Control Optimization Required
399
Electrically Braking the Motor
400
Encoderless Speed Control
400
Mastering Critical Applications
400
Compound Braking
401
DC Braking
401
Main Features of the Braking Functions
401
DC Braking When a Fault Occurs
402
DC Braking When Falling below a Starting Speed
402
Configuring DC Braking as a Response to Faults
403
DC Braking Initiated by a Control Command
403
DC Braking When the Motor Is Switched off
403
Settings for DC Braking
403
Motor Brakes with and Without Active Compound Braking
404
Pulse Frequency Wobbling
405
Setting and Enabling Compound Braking
405
Drive Protection
406
I-Max Controller Parameters
406
Overcurrent Protection
406
Converter Protection Using Temperature Monitoring
408
Monitoring Types
408
Overload Response for P0290 = 0
408
Overload Response for P0290 = 3
409
KTY84 Sensor
411
Motor Protection with Temperature Sensor
411
Sensor Monitoring
411
Temperature Monitoring
411
Bimetallic Switch
412
Pt100 Sensor
412
Pt1000 Sensor
412
PTC Sensor
412
Additional Parameters for Pt100
413
Analog Output AO and Analog Input AI
413
General Parameters
413
Motor Protection by Calculating the Temperature
414
Thermal Motor Model 2 for Induction Motors
414
Thermal Motor Model 1 for Reluctance Motors
415
Thermal Motor Model 1 for Synchronous Reluctance Motors
415
Motor and Converter Protection by Limiting the Voltage
416
Protecting the Motor and Converter against Overvoltage
416
Monitoring the Driven Load
417
Parameters for U/F Control
417
Parameters for Vector Control
417
Functions for Monitoring the Driven Load
418
No-Load Monitoring
419
Stall Protection
419
Blocking Protection
420
Torque Monitoring
421
Blocking Protection, Leakage Protection and Dry-Running Protection
422
Function Plan and Time Response of the Speed Monitoring
424
Rotation Monitoring
424
Drive Availability
425
Flying Restart – Switching on While the Motor Is Running
425
Principle of Operation of the "Flying Restart" Function
425
Automatic Restart
427
Automatic Restart Modes
427
Setting the Automatic Restart Function
427
Advanced Settings
428
Kinetic Buffering (VDC Min Control)
430
Principle Mode of Operation of Kinetic Buffering
430
Essential Service Mode
431
Automatic Restart During Active Essential Service Mode
432
Interaction for Bypass and Essential Service Mode
432
Reaction to Faults During Active Essential Service Mode
432
Setpoint During Active Essential Service Mode
432
Procedure: Commissioning the Essential Service Mode
433
Efficiency Optimization
436
Efficiency Optimization by Changing the Motor Flux
436
Energy Saving
436
Determining the Optimum Flux from the Motor Thermal Model
437
Qualitative Result of Efficiency Optimization
437
Reduce the Flux Setpoint in the Partial Load Range of the Motor
438
ECO Mode
439
ECO Mode Activation
439
ECO Mode Deactivation
439
Bypass
441
Bypass Control Via Converter
441
Switching from Converter Operation to Line Operation
442
Switching from Line Operation to Converter Operation
442
Changeover Depending on the Speed
443
Changeover When Activating Via a Control Signal
443
How Is the Changeover Triggered?
443
Fp 7035
445
Converter Control
446
Disconnecting the Converter from the Line Supply
446
Temperature Monitoring for the Motor
446
Hibernation Mode
447
Hibernation Mode after Switching on the Converter
447
Hibernation Mode Using Technology Setpoint as Main Setpoint with Boost
448
Interaction of the Function with the Cascade Control
448
Activating the Hibernation Mode with External Setpoint Input
449
Hibernation Mode Using an External Setpoint with Boost
449
Hibernation Mode Using an External Setpoint Without Boost
449
Setting the Hibernation Mode
450
Activating the Line Contactor Control
453
Line Contactor Control
453
Line Contactor Control Via DO 0 with Feedback Signal Via DI 3
453
Line Contactor Control with Feedback Signal
453
Calculating the Energy Saving for Fluid Flow Machines
455
Flow Control with Pump and Converter
455
Factory Setting of the Flow Characteristic
456
Flow Meter
457
Profienergy
458
Control Commands
459
Disable Profienergy
459
Minimum Pause Time P5602
459
Transition to Energy-Saving Mode
459
Error Values and Measured Values
460
Status Queries
460
Drive Data Sets (DDS)
462
Switchover between Different Settings
462
Copying the Drive Data Sets
463
Selecting the Number of Drive Data Sets
463
Explanations of the Function Diagrams
464
Symbols in the Function Diagrams
464
Binary and Analog Blocks
465
Analog Blocks
466
Example of a Block: Motorized Potentiometer (MOP)
466
Interconnecting Signals in the Converter
466
Binectors and Connectors
467
Example: Signal Interconnection of Two Blocks for Digital Input 0
467
Interconnecting Signals
467
When Must You Interconnect Signals in the Converter?
467
How Much Care Is Required When You Change the Signal Interconnection?
468
Principle When Connecting BICO Blocks Using BICO Technology
468
Where Can You Find Additional Information?
468
Explanation of the Detailed Parameter List
469
Parameter Description
469
Parameter Number
469
Data Type
470
Scaling
470
Unit Group and Unit Selection
470
Access Level / Acc_Level
472
Drive Operating Display / Drv Op_Display
472
Parameter List
472
Drive Commissioning Parameter Filter / Drv Comm. Par_Filt
473
Macro Drive Unit / Macro Drv Unit
473
Control Unit Firmware Version / Firmware Version
474
Speed Setpoint Smoothed / Speed Setpoint
474
Actual Speed Rpm Smoothed / Actual Speed
475
CO: Actual Speed Smoothed / Actual Speed
475
Output Frequency Smoothed / Output Frequency
475
CO: Absolute Actual Current Smoothed / Motor Current
476
CO: DC Link Voltage Smoothed / DC Link Voltage
476
CO: Output Voltage Smoothed / Output Voltage
476
Actual Torque Smoothed / Actual Torque
477
Current Actual Value Field-Generating Smoothed / Id_Act Smooth
477
Current Actual Value Torque-Generating Smoothed / Iq_Act Smooth
477
Modulation Depth Smoothed / Mod_Depth Smth
477
CO: Active Power Actual Value Smoothed / Power
478
CO: Motor Utilization Thermal / Mot_Util Therm
478
CO: Motor Temperature / Mot Temp
479
CO: Power Unit Overload I2T / PM Overload I2T
479
CO: Power Unit Temperatures / PM Temperatures
479
Power Factor Smoothed / Cos Phi Smooth
481
CO: Energy Display / Energy Display
482
CO: Process Energy Display / Proc Energy Disp
482
Energy Consumption Saved / Energy Cons Saved
482
Reset Energy Consumption Display / Energy Usage Reset
482
BI: Enable Energy Usage Display / Enab Energy Usage
483
CO/BO: Missing Enable Signal / Missing Enable Sig
483
Display Values Smoothing Time Constant / Disp_Val T_Smooth
483
CO/BO: Command Data Set CDS Effective / CDS Effective
487
CO/BO: Drive Data Set DDS Effective / DDS Effective
487
CO/BO: Status Word 1 / ZSW 1
487
CO/BO: Status Word 2 / ZSW 2
488
CO/BO: Control Word 1 / STW 1
490
CO/BO: Supplementary Control Word / Suppl STW
490
CO/BO: Status Word, Closed-Loop Control / ZSW Cl-Loop Ctrl
492
CO: Speed Setpoint before the Setpoint Filter / N_Set before Filt.
492
CO: Actual Speed / Actual Speed
493
CO: Speed Controller System Deviation / N_Ctrl Sys Dev
493
CO: Speed Setpoint after the Filter / N_Set after Filter
493
Slip Frequency / F_Slip
493
CO: Absolute Current Actual Value / I_Act Abs Val
494
CO: Output Current Maximum / Current Max
494
CO: Output Frequency / F_Outp
494
CO: Phase Current Actual Value / I_Phase Act Val
494
CO: Actual DC Link Voltage / VDC Act Val
495
Maximum Output Voltage / Voltage Max
495
CO: Current Setpoint Field-Generating / Id_Set
496
CO: Modulat_Depth / Mod_Depth
496
CO: Output Voltage / U_Output
496
Maximum Modulation Depth / Modulat_Depth Max
496
CO: Current Actual Value Field-Generating / Id_Act
497
CO: Current Actual Value Torque-Generating / Iq_Act
497
CO: Current Setpoint Torque-Generating / Iq_Set
497
CO: Torque Setpoint / M_Set
497
CO: Active Power Actual Value / P_Act
498
CO: Flux Actual Value / Actual Flux
498
CO: Flux Setpoint / Flex Setp
498
CO: Torque Actual Value / Actual Torque
498
Actual Phase Voltage / U_Phase Act Val
499
Application Class / Appl_Class
499
CO: Actual Power Factor / Cos Phi Act
499
CU Detection Via LED / CU Detection LED
500
IEC/NEMA Standards / IEC/NEMA Standards
500
Motor Configuration / Motor Config
501
Number of Command Data Sets (CDS) / CDS Count
501
Number of Drive Data Sets (DDS) / DDS Count
501
BIOS/EEPROM Data Version / BIOS/EEPROM Vers
502
Bootloader Version / Bootloader Vers
502
Power Unit Code Number / PU Code no
502
Power Unit Code Number Actual / PU Code No. Act
502
Actual Power Unit Type / PU Actual Type
503
Power Unit Application / PU Application
504
Power Unit Hardware Properties / PU HW Property
504
Rated Power Unit Current / PU Pi_Rated
505
Rated Power Unit Power / PU P_Rated
505
Drive Unit Line Supply Voltage / U_Connect
506
Power Unit Maximum Current / PU I_Max
506
Rated Power Unit Line Supply Voltage / PU U_Rated
506
Drive Filter Type Motor Side / Drv Filt Type Mot
507
Power Cable Length Maximum / Cable Length Max
508
Power Unit Motor Reactor / PU Mot Reactor
508
Internal Power Unit Resistance / PU R Internal
509
Motor Reactor in Series Number / L_Mot in Seriesqty
509
Power Unit Sine-Wave Filter Capacitance / PU Sine Filter C
509
Voltage Measurement Configuring / U_Mes Config
509
Maximum Operating Time Power Unit Fan / PU Fan T_Oper Max
510
Operating Hours Counter Power Unit Fan / PU Fan T_Oper
510
Operating Hours Counter Power Unit Fan Inside the Converter
510
CO: Maximum Power Unit Output Current / PU I_Outp Max
511
Ground Fault Monitoring Thresholds / Gnd Flt Threshold
511
Power Unit Overload Response / PU Overld Response
511
Fan Run-On Time / Fan Run-On Time
513
Power Unit Alarm with I2T Overload / PU I2T Alrm Thresh
513
Power Unit Temperature Alarm Threshold / PU T_Alrm Thresh
513
DC Link Voltage Overvoltage Threshold / VDC U_Upper_Thresh
514
DC Link Voltage Undervoltage Threshold / VDC U_Lower_Thresh
514
Motor Type Selection / Mot Type Sel
514
Motor Code Number Selection / Mot Code No. Sel
517
Rated Motor Current / Mot I_Rated
517
Rated Motor Voltage / Mot U_Rated
517
Number of Motors Connected in Parallel / Motor Qty
518
Rated Motor Power / Mot P_Rated
518
Rated Motor Efficiency / Mot Eta_Rated
519
Rated Motor Frequency / Mot F_Rated
519
Rated Motor Power Factor / Mot Cos Phi Rated
519
Rated Motor Speed / Mot N_Rated
520
Motor Pole Pair Number / Mot Pole Pair No.
521
Motor Pole Pair Number, Actual (or Calculated) / Mot Polepairno Act
521
Motor Torque Constant / Mot Kt
521
Maximum Motor Speed / Mot N_Max
522
Motor Rated Magnetizing Current/Short-Circuit Current
522
Motor Stall Current / Mot I_Standstill
522
Maximum Motor Current / Mot I_Max
523
Motor Pole Position Identification Current 1St Phase
523
Optimum Motor Load Angle / Mot Phi_Load Opt
523
Motor Pole Position Identification Current / Mot Polid Current
524
Motor Reluctance Torque Constant / Mot Kt_Reluctance
524
Rated Motor Slip / Mot Slip_Rated
524
Actual Motor Magnetizing Current/Short-Circuit Current
525
Motor Cooling Type / Mot Cool Type
525
Rated Motor Torque / Mot M_Rated
525
Automatic Calculation Motor/Control Parameters / Calc Auto Par
526
Rated Motor EMF / Mot Emf_Rated
526
Motor Moment of Inertia / Mot M_Mom of Inert
527
Motor Weight (for the Thermal Motor Model) / Mot Weight Th Mod
528
Nominal Motor Starting Time / Mot T_Start_Rated
528
Rated Motor Current Identified / Mot I_Rated Ident
528
Ratio between the Total and Motor Moment of Inertia
528
Motor De-Excitation Time / Mot T_De-Excitat
529
Motor Excitation Build-Up Time / Mot T_Excitation
529
Motor Stator Resistance Cold / Mot R_Stator Cold
529
Cable Resistance / R_Cable
530
Motor Rotor Resistance Cold / Mot R_R Cold
530
Motor Rotor Leakage Inductance / Mot L_Rot Leak
531
Motor Stator Inductance D Axis / Mot L_Stator D
531
Motor Stator Leakage Inductance / Mot L_Stator Leak.
531
Motor Magnetizing Inductance / Mot Lh
532
Motor Saturation Characteristic Flux 1 / Mot Saturat.flux 1
532
Motor Saturation Characteristic Flux 2 / Mot Saturat.flux 2
532
Motor Saturation Characteristic Flux 3 / Mot Saturat.flux 3
533
Motor Saturation Characteristic Flux 4 / Mot Saturat.flux 4
533
Motor Saturation Characteristic I_Mag 1 / Mot Sat. I_Mag 1
533
Motor Saturation Characteristic I_Mag 2 / Mot Sat. I_Mag 2
534
Motor Saturation Characteristic I_Mag 3 / Mot Sat. I_Mag 3
534
Cable Resistance / Mot R_Cable
535
Motor Rated Stator Resistance / Mot R_Stator Rated
535
Motor Saturation Characteristic I_Mag 4 / Mot Sat. I_Mag 4
535
Motor Leakage Inductance Total / Mot L_Leak Total
536
Motor Magnetizing Inductance Transformed / Mot L_Magn Transf
536
Motor Rotor Time Constant / Damping Time Constant D Axis
536
Rated Motor Rotor Resistance / Mot Rated R_Rotor
536
Actual Rotor Resistance / R_Rotor Act
537
Actual Stator Resistance / R_Stator Act
537
Motor Stator Leakage Time Constant / Mot T_Stator Leak
537
Technology Application / Tec Application
538
Technological Application (Dynamic Drive Control) / Techn Appl DDC
540
Technological Application (Standard Drive Control) / Techn Appl SDC
540
Scaling-Specific Reference Values / Scal Spec Ref Val
542
Selecting the System of Units / Unit Sys Select
542
Scaling Specific Parameters Referred to P0514[0] / Scal Spec P514[0]
543
Scaling Specific Parameters Referred to P0514[1] / Scal Spec P514[1]
543
Scaling Specific Parameters Referred to P0514[2] / Scal Spec P514[2]
543
Scaling Specific Parameters Referred to P0514[3] / Scal Spec P514[3]
543
Inhibit Automatic Reference Value Calculation / Inhibit Calc
547
Technological Unit Selection / Tech Unit Select
547
Technological Unit Reference Quantity / Tech Unit Ref Qty
548
Motor Temperature Sensor Type / Mot_Temp_Sens Type
549
Mot_Temp_Mod 2/Sensor Alarm Threshold / Mod 2/Sens A_Thr
549
Motor Overtemperature Response / Mot Temp Response
550
Mot_Temp_Mod 1/2/Sensor Threshold and Temperature Value
550
I2T Motor Model Thermal Time Constant / I2T Mot_Mod T
551
Mot_Temp_Mod Activation / Mot_Temp_Mod Act
551
Mot_Temp_Mod 1/3 Ambient Temperature / Mod 1/3 Amb_Temp
552
Mot_Temp_Mod 1 (I2T) Fault Threshold / I2T F Thresh
553
Thermal Resistance Adaptation Reduction Factor / Therm R_Adapt Red
553
Identification Stator Resistance after Restart / Rst_Ident Restart
554
Thermal Adaptation, Stator and Rotor Resistance / Mot Therm_Adapt R
554
Motor Ambient Temperature During Commissioning / Mot T_Ambient
556
Motor Excitation Time for Rs_Ident after Switching on Again
556
Rs Identification Stator Resistance after Switch on Again
556
Motor Overtemperature Rotor / Mot T_Over Rotor
557
Motor Overtemperature, Stator Core / Mot T_Over Core
557
Motor Overtemperature, Stator Winding / Mot T_Over Stator
557
Mot_Temp_Mod Ambient Temperature / Mod T_Ambient
558
Mot_Temp_Mod Stator Iron Temperature / Mod T_Stator
558
Stator Resistance Reference / R_Stator Ref
558
CI: Current Limit, Variable / Curr Lim Var
559
Current Limit / Current Limit
559
Mot_Temp_Mod Rotor Temperature / Mod Rotor Temp
559
Mot_Temp_Mod Stator Winding Temperature / Mod T_Winding
559
Actual Motor Operating Hours / Oper Hours Motor
560
Current Limit Excitation Induction Motor / Imax Excitat ASM
560
IO Extension Module Status / IO Module Status
560
Motor Operating Hours Maintenance Interval / Mot T_Op Maint
560
CU Digital Inputs Terminal Actual Value / CU DI Term Act Val
561
CU Number of Inputs and Outputs / CU I/O Count
561
CO/BO: CU Digital Inputs Status / CU DI Status
562
CO/BO: CU Digital Inputs Status Inverted / CU DI Status Inv
562
BI: CU Signal Source for Terminal DO 0 / CU S_S DO 0
563
CU Digital Inputs Debounce Time / CU DI T_Debounce
563
BI: CU Signal Source for Terminal DO 1 / CU S_S DO 1
564
BI: CU Signal Source for Terminal DO 2 / CU S_S DO 2
564
BI: CU Signal Source for Terminal DO 3 / CU S_S DO 3
565
BI: CU Signal Source for Terminal DO 4 / CU S_S DO 4
565
BI: CU Signal Source for Terminal DO 5 / CU S_S DO 5
566
CU Digital Outputs Status / CU DO Status
566
BO: CU Analog Inputs Status Word / CU AI Status Word
567
CU Invert Digital Outputs / CU DO Inv
567
CO: CU Analog Inputs Actual Value in Percent / CU AI Value in %
568
CO: CU Analog Inputs Input Voltage/Current Actual / CU AI U/I_Inp Act
568
CU Analog Inputs Smoothing Time Constant / CU AI T_Smooth
568
CU Analog Inputs Type / CU AI Type
569
CU Analog Inputs Characteristic Value X1 / CU AI Char X1
571
CU Analog Inputs Characteristic Value Y1 / CU AI Char Y1
571
CU Analog Inputs Characteristic Value X2 / CU AI Char X2
572
CU Analog Inputs Characteristic Value Y2 / CU AI Char Y2
572
CU Analog Inputs Wire Breakage Monitoring Response Threshold
572
CU Analog Inputs Dead Zone / CU AI Dead Zone
573
CU Analog Inputs Wire Breakage Monitoring Delay Time
573
CI: CU Analog Outputs Signal Source / CU AO S_S
574
CU Analog Outputs Output Value Currently Referred / CU AO Outp Act Ref
574
CU Analog Outputs Smoothing Time Constant / CU AO T_Smooth
574
CU Analog Outputs Activate Absolute Value Generation
575
CU Analog Outputs Output Voltage/Current Actual / CU AO U/I_Outp
575
CU Analog Outputs Type / CU AO Type
575
CU Analog Outputs Characteristic Value X1 / CU AO Char X1
576
CU Analog Outputs Characteristic Value Y1 / CU AO Char Y1
576
BI: CU Analog Outputs Invert Signal Source / CU AO Inv S_S
577
CU Analog Outputs Characteristic Value X2 / CU AO Char X2
577
CU Analog Outputs Characteristic Value Y2 / CU AO Char Y2
577
BO: CU Analog Outputs Status Word / CU AO ZSW
578
CO: Fieldbus Analog Outputs / Fieldbus AO
578
CU Digital Inputs Simulation Mode / CU DI Simulation
578
CU Digital Inputs Simulation Mode Setpoint / CU DI Simul Setp
579
CU Analog Inputs Simulation Mode / CU AI Sim_Mode
580
CU Analog Inputs Simulation Mode Setpoint / CU AI Sim Setp
580
Data Transfer: Memory Card as Source/Target / Mem_Card Src/Targ
580
Data Transfer Start / Data Transf Start
581
Data Transfer: Device Memory as Source/Target / Dev_Mem Src/Targ
581
BI: Inhibit Master Control / Pcctrl Inhibit
584
BO: Master Control Active / Pcctrl Active
584
BI: Command Data Set Selection CDS Bit 0 / CDS Select., Bit 0
585
Copy Command Data Set CDS / Copy CDS
585
BI: Command Data Set Selection CDS Bit 1 / CDS Select., Bit 1
586
BI: Drive Data Set Selection DDS Bit 0 / DDS Select., Bit 0
586
Copy Drive Data Set DDS / Copy DDS
586
BI: Drive Data Set Selection DDS Bit 1 / DDS Select., Bit 1
587
CO/BO: Data Set Changeover Status Word / DDS_ZSW
587
Motor Changeover Motor Number / Mot_Chng Mot No.
587
CO/BO: Command Data Set CDS Selected / CDS Selected
588
CO/BO: Drive Data Set DDS Selected / DDS Selected
588
BI: Enable Operation/Inhibit Operation / Enable Operation
593
BI: Control by Plc/No Control by PLC / Master Ctrl by PLC
594
Power Unit Monitoring Time / PU T_Monit
595
BI: Line Contactor Feedback Signal / Line Contact Feedb
596
CO/BO: Drive Coupling Status Word/Control Word / Couplezsw/Stw
596
Line Contactor Monitoring Time / Linecontact T_Mon
596
Power Unit Main Contactor Holding Time after OFF1
597
Power Unit Thyristor Rectifier Wait Time / PU Thy_Rect T
597
Sequence Control Configuration / Seq_Ctrl Config
597
BI: Close Main Contactor / Close Main Cont
598
CO/BO: Control Word Sequence Control / STW Seq_Ctrl
598
CO/BO: Status Word Sequence Control / ZSW Seq_Ctrl
598
PROFIBUS Address / PB Address
599
Profidrive PZD Telegram Selection / PZD Telegr_Sel
599
CO: Counter for Fault Buffer Changes / Fault Buff Change
600
Fault Code / Fault Code
600
Fault Code List / Fault Code List
600
Fault Cases Counter / Fault Cases Qty
601
Fault Number / Fault Number
601
Fault Time Received in Milliseconds / T_Fault Recv Ms
601
Fault Value / Fault Value
601
Device Identification / Device Ident
602
PROFIBUS Baud Rate / PB Baud Rate
602
Profidrive Profile Number / PD Profile Number
604
Reset Drive Parameters / Drive Par Reset
604
System Runtime Relative / T_System Relative
604
Drive Unit Reset / Drv_Unit Reset
605
Save Parameters / Save Par
605
List of Existing Parameters 1 / List Avail Par 1
606
List of Existing Parameters 2 / List Avail Par 2
606
List of Existing Parameters 10 / List Avail Par 10
607
List of Modified Parameters 1 / List Chang Par 1
607
List of Modified Parameters 2 / List Chang Par 2
607
List of Modified Parameters 10 / List Chang Par 10
608
Speed Setpoint Selection / N_Set Sel
608
CO: Fixed Speed Setpoint 1 / N_Set_Fixed 1
611
CO: Fixed Speed Setpoint 2 / N_Set_Fixed 2
611
CO: Fixed Speed Setpoint 3 / N_Set_Fixed 3
611
CO: Fixed Speed Setpoint 4 / N_Set_Fixed 4
611
CO: Fixed Speed Setpoint 5 / N_Set_Fixed 5
612
CO: Fixed Speed Setpoint 6 / N_Set_Fixed 6
612
CO: Fixed Speed Setpoint 7 / N_Set_Fixed 7
612
CO: Fixed Speed Setpoint 8 / N_Set_Fixed 8
612
CO: Fixed Speed Setpoint 10 / N_Set_Fixed 10
613
CO: Fixed Speed Setpoint 11 / N_Set_Fixed 11
613
CO: Fixed Speed Setpoint 12 / N_Set_Fixed 12
613
CO: Fixed Speed Setpoint 9 / N_Set_Fixed 9
613
CO: Fixed Speed Setpoint 13 / N_Set_Fixed 13
614
CO: Fixed Speed Setpoint 14 / N_Set_Fixed 14
614
CO: Fixed Speed Setpoint 15 / N_Set_Fixed 15
614
Fixed Speed Setpoint Select Mode / N_Set_Fix Select
614
BI: Fixed Speed Setpoint Selection Bit 0 / N_Set_Fixed Bit 0
615
BI: Fixed Speed Setpoint Selection Bit 1 / N_Set_Fixed Bit 1
615
BI: Fixed Speed Setpoint Selection Bit 2 / N_Set_Fixed Bit 2
615
BI: Fixed Speed Setpoint Selection Bit 3 / N_Set_Fixed Bit 3
616
BO: Fixed Speed Setpoint Status / N_Setp_Fix Status
616
CO: Fixed Speed Setpoint Effective / Speed Fixed Setp
616
BI: Motorized Potentiometer Setpoint Raise / Mop Raise
617
Motorized Potentiometer Configuration / Mop Configuration
617
BI: Motorized Potentiometer Lower Setpoint / Mop Lower
618
BI: Motorized Potentiometer Inversion / Motp Inv
619
Motorized Potentiometer Maximum Speed / Motp N_Max
619
Motorized Potentiometer Minimum Speed / Motp N_Min
619
Motorized Potentiometer Starting Value / Mop Start Value
619
BI: Motorized Potentiometer Accept Setting Value / Motp Acc Set Val
620
BI: Motorized Potentiometer Manual/Automatic / Mop Manual/Auto
620
CI: Motorized Potentiometer Automatic Setpoint / Mop Auto Setpoint
620
CI: Motorized Potentiometer Setting Value / Mop Set Val
620
CO: Motorized Potentiometer Setpoint after Ramp-Function Generator
621
Motorized Potentiometer Ramp-Down Time / Mop Ramp-Down Time
621
Motorized Potentiometer Ramp-Up Time / Mop Ramp-Up Time
621
CI: Speed Limit RFG Negative Direction of Rotation / N_Limit RFG Neg
622
CI: Speed Limit RFG Positive Direction of Rotation / N_Limit RFG Pos
622
Jog 1 Speed Setpoint / Jog 1 N_Set
623
CI: Main Setpoint / Main Setpoint
624
Jog 2 Speed Setpoint / Jog 2 N_Set
624
Setpoint Channel Speed Limit / Setp_Chan N_Lim
624
CI: Main Setpoint Scaling / Main Setp Scal
625
CI: Supplementary Setp / Suppl Setp
625
CI: Supplementary Setpoint Scaling / Suppl Setp Scal
625
CO: Main Setpoint Effective / Main Setpoint Eff
625
CO: Supplementary Setpoint Effective / Suppl Setpoint Eff
626
CO: Total Setpoint Effective / Total Setpoint Eff
626
Interpolator Clock Cycle for Speed Setpoints / Interp_Cyc N_Set
626
Minimum Speed / N_Min
626
Maximum Speed / N_Max
627
Maximum Speed Scaling / N_Max Scal
627
CO: Speed Limit in Positive Direction of Rotation / N_Limit Pos
628
CI: Speed Limit in Positive Direction of Rotation / N_Limit Pos
629
CO: Speed Limit in Negative Direction of Rotation / N_Limit Neg
629
CO: Speed Limit Negative Effective / N_Limit Neg Eff
629
CO: Speed Limit Positive Effective / N_Limit Pos Eff
629
Skip Speed 1 / N_Skip 1
630
Skip Speed 2 / N_Skip 2
630
Skip Speed 3 / N_Skip 3
630
Skip Speed 4 / N_Skip 4
630
CI: Skip Speed Scaling / N_Skip Scal
631
CO/BO: Skip Band Status Word / Skip Band ZSW
631
Skip Speed Bandwidth / N_Skip Bandwidth
631
BI: Total Setpoint Selection / Total Setp Sel
632
CI: Minimum Speed Signal Source / N_Min S_S
632
CI: Total Setpoint / Total Setp
632
BI: Inhibit Negative Direction / Inhib Neg dir
633
BI: Inhibit Positive Direction / Inhib Pos dir
633
BI: Setpoint Inversion / Setp Inv
633
CO: Speed Setpoint after Minimum Limiting / N_Set Aft Min_Lim
633
CO: Ramp-Function Generator Setpoint at the Input / RFG Setp at Inp
634
CO: Setpoint after the Direction Limiting / Setp after Limit
634
Ramp-Function Generator Ramp-Up Time / RFG Ramp-Up Time
634
Ramp-Function Generator Ramp-Down Time / RFG Ramp-Down Time
635
BI: Bypass Ramp-Function Generator / Bypass RFG
636
Ramp-Function Generator Minimum Ramp-Down Time / RFG T_Rd Min
636
Ramp-Function Generator Minimum Ramp-Up Time / RFG T_Ru Min
636
OFF3 Ramp-Down Time / OFF3 T_Rd
638
Ramp-Function Generator Rounding-Off Type / RFG Round-Off Type
638
OFF3 Initial Rounding-Off Time / RFGOFF3 T_Strt_Rnd
639
CI: Ramp-Function Generator Setting Value / RFG Setting Value
643
Ramp-Function Generator Tracking Intensity. / RFG Track Intens
643
CO: Ramp-Function Generator Acceleration / RFG Acceleration
644
CO: Speed Controller Setpoint Sum / Speed Setpoint Sum
644
Fixed Speed Setpoint Number Actual / N_Set_Fixed no Act
644
CO/BO: Control Word Setpoint Channel / STW Setpoint Chan
645
CO/BO: Ramp-Function Generator Status Word / RFG ZSW
645
Flying Restart Operating Mode / Flyrest Op_Mode
645
BI: Flying Restart Enable Signal Source / Fly_Res Enab S_S
646
Flying Restart Search Current / Flyrest I_Srch
646
CO/BO: Flying Restart U/F Control Status / Flyrest Uf St
647
Flying Restart Search Rate Factor / Flyrst V_Srch Fact
647
CO/BO: Flying Restart Vector Control Status / Flyrest Vector St
648
Automatic Restart Faults Not Active / AR Fault Not Act
649
Automatic Restart Mode / AR Mode
650
Automatic Restart Delay Time Start Attempts / AR T_Wait Start
651
Automatic Restart Start Attempts / AR Start Attempts
651
Automatic Restart Monitoring Time / AR T_Monit
652
CO/BO: Automatic Restart Status / AR Status
652
Threshold for Zero Speed Detection / N_Standst N_Thresh
653
BI: DC Braking Activation / DC Brake Act
654
Pulse Suppression Delay Time / Pulse Suppr T_Del
654
Zero Speed Detection Monitoring Time / N_Standst T_Monit
654
DC Braking Braking Current / DCBRK I_Brake
655
DC Braking Configuration / DCBRK Config
655
CO/BO: DC Braking Status Word / DCBRK ZSW
656
DC Braking Time / DCBRK Time
656
Speed at the Start of DC Braking / DCBRK N_Start
656
VDC Controller Configuration (Vector Control) / VDC Ctr Config Vec
657
Vdc_Max Controller Switch-In Level / Vdc_Max On_Level
657
Vdc_Max Controller Dynamic Factor / Vdc_Max Dyn_Factor
658
Vdc_Min Controller Switch-In Level (Kinetic Buffering)
658
VDC Controller Integral Time / Vdc_Ctrl Tn
659
VDC Controller Proportional Gain / Vdc_Ctrl Kp
659
Vdc_Max Controller Speed Threshold / Vdc_Max N_Thresh
659
VDC Controller Rate Time / Vdc_Ctrl T_Rate
660
Vdc_Max Controller Automatic on Level Detection / Vdc_Max Senseonlev
660
Vdc_Min Controller Response (Kinetic Buffering) / Vdc_Min Response
660
Vdc_Min Controller Time Threshold / Vdc_Min T_Thresh
660
Bypass Configuration / Bypass Config
661
CO/BO: Bypass Control/Status Word / Bypass STW / ZSW
661
CO: VDC Controller Output / Vdc_Ctrl Output
661
Vdc_Min Controller Speed Threshold / Vdc_Min N_Thresh
661
Bypass Dead Time / Bypass T_Dead
662
Bypass Delay Time / Bypass T_Del
662
Debypass Delay Time / Debypass T_Del
662
BI: Bypass Control Command / Bypass Command
663
Bypass Changeover Source Configuration / Chngov_Src Config
663
Bypass Speed Threshold / Bypass N_Thresh
663
BI: Bypass Switch Feedback Signal / Bypass FS
664
Flying Restart Configuration / Fly Restart Config
664
Flying Restart Maximum Frequency for the Inhibited Direction
664
Bypass Switch Monitoring Time / Switch T_Monit
665
VDC Controller Configuration (U/F) / Vdc_Ctr Config U/F
665
VDC Controller Configuration / VDC Ctrl Config
666
Vdc_Max Controller Dynamic Factor (U/F) / Vdc_Max Dyn_Factor
666
Vdc_Max Controller Switch-In Level (U/F) / Vdc_Max On_Level
666
Vdc_Max Controller Time Threshold (U/F) / Vdc_Max T_Thresh
667
Vdc_Min Controller Switch-In Level (Kinetic Buffering) (U/F)
667
VDC Controller Integral Time (U/F) / Vdc_Ctrl Tn
668
VDC Controller Proportional Gain (U/F) / Vdc_Ctrl Kp
668
VDC Controller Rate Time (U/F) / Vdc_Ctrl T_Rate
668
Vdc_Min Controller Time Threshold (U/F) / Vdc_Min T_Thresh
668
CO: VDC Controller Output (U/F) / Vdc_Ctrl Output
669
Open-Loop/Closed-Loop Control Operating Mode / Op/Cl-Lp Ctrl_Mode
669
Vdc_Min Controller Response (Kinetic Buffering) (U/F)
669
Vdc_Min Controller Speed Threshold (U/F) / Vdc_Min N_Thresh
669
Open-Loop/Closed-Loop Control Operating Mode
670
U/F Control Configuration / U/F Config
670
Starting Current (Voltage Boost) Permanent / I_Start (Ua) Perm
671
Starting Current (Voltage Boost) When Accelerating / I_Start Accel
672
Starting Current (Voltage Boost) When Starting / I_Start Start
672
U/F Control FCC Starting Frequency / U/F FCC F_Start
673
Voltage Boost Total / U_Boost Total
673
Voltage Limiting / U_Lim
673
Slip Compensation Scaling / Slip Comp Scal
674
U/F Control Slip Compensation Starting Frequency / Slip Comp Start
674
CO: Actual Slip Compensation / Slip Comp Act Val
675
Slip Compensation Limit Value / Slip Comp Lim Val
675
U/F Mode Resonance Damping Filter Time Constant / Uf Res_Damp T
675
U/F Mode Resonance Damping Gain / Uf Res_Damp Gain
675
CO: I_Max Controller Frequency Output / I_Max_Ctrl F_Outp
676
I_Max Frequency Controller Integral Time / I_Max_Ctrl Tn
676
I_Max Frequency Controller Proportional Gain / I_Max_Ctrl Kp
676
CO: U/F Control Eco Factor Actual Value / U/F Eco Fac Act V
677
I_Max Controller Voltage Output / I_Max_Ctrl U_Outp
677
I_Max Voltage Controller Integral Time / I_Max_U_Ctrl Tn
677
I_Max Voltage Controller Proportional Gain / I_Max_U_Ctrl Kp
677
Saturation Limit for Flux Setpoint / Max Fluxsaturation
678
Speed Control Configuration / N_Ctrl Config
678
U/F Mode Resonance Damping Maximum Frequency / Uf Res_Damp F_Max
678
Flux Control Configuration / Flux Ctrl Config
679
Closed-Loop Current Control and Motor Model Configuration
680
CO/BO: Status Word Current Controller / ZSW I_Ctrl
681
CO/BO: Status Word Speed Controller / ZSW N_Ctrl
681
CO: Actual Speed Smoothed / N_Act Smooth
682
CO: Speed Controller Speed Setpoint / N_Ctrl N_Set
682
Speed Controller Speed Actual Value Smoothing Time (Sensorless)
682
Speed Setpoint Filter 1 Time Constant / N_Set_Filt 1 T
682
Speed Controller Adaptation Speed Lower / N_Ctrl N Lower
683
Speed Controller Adaptation Speed Upper / N_Ctrl N Upper
683
Speed Controller Kp Adaptation Speed Upper Scaling
683
Speed Controller Tn Adaptation Speed Upper Scaling
683
CO: Speed Controller P-Gain Effective / N_Ctr Kp Eff
684
Speed Controller Encoderless Operation Integral Time
684
Speed Controller Encoderless Operation P-Gain / N_Ctrl SL Kp
684
Speed Controller Integral Time Effective / N_Ctr Tn Eff
684
Acceleration Precontrol Scaling / A_Prectrl Scal
685
CO: Moment of Inertia Total, Scaled / M_Inert Tot Scal
685
CO: Speed Controller I Torque Output / N_Ctrl I-M_Outp
685
Accelerating Torque Smoothing Time Constant / M_Accel T_Smooth
686
CO: Accelerating Torque / M_Accel
686
CO: Torque Limit Upper / M_Max Upper
686
CO: Torque Setpoint before Supplementary Torque / M_Set Bef. M_Suppl
686
CI: Torque Limit Upper / M_Max Upper
687
CO: Torque Limit Lower / M_Max Lower
687
CI: Torque Limit Lower / M_Max Lower
688
CO: Torque Limit Lower Scaling / M_Max Lower Scal
688
CO: Torque Limit Upper Without Offset / M_Max up W/O Offs
688
CO: Torque Limit Upper/Motoring Scaling / M_Max Up/Mot Scal
688
CI: Torque Limit Lower Scaling / M_Max Lower Scal
689
CI: Torque Limit Upper Scaling / M_Max Upper Scal
689
CO: Torque Limit Lower Without Offset / M_Max Low W/O Offs
689
Current Limit Maximum Torque-Generating Current / Isq_Max
690
Current Limit Torque-Generating Total / Iq_Max Total
690
Power Limit Motoring / P_Max Mot
690
Power Limit Regenerative / P_Max Gen
690
CO: Lower Effective Torque Limit / M_Max Lower Eff
691
CO: Torque Limit for Speed Controller Output / M_Max Outp N_Ctrl
691
CO: Upper Effective Torque Limit / M_Max Upper Eff
691
Current Limit Minimum Torque-Generating Current / Isq_Min
691
CI: Torque Limit Lower Scaling Without Offset / M_Max Low W/O Offs
692
CI: Torque Limit Upper Scaling Without Offset / M_Max up W/O Offs
692
CO: Stall Current Limit Torque-Generating Maximum / Isq_Max Stall
692
Stall Limit Scaling / Stall Limit Scal
692
CO: Synchronous Reluctance Motor Flux Channel / RESM Flux Channel
693
Magnetization Rate Time Scaling / Mag Tv Scale
693
Voltage Reserve Dynamic / U_Reserve Dyn
694
Flux Reduction Flux Build-Up Time Constant / Flux Red Incr T
695
Flux Reduction Flux Decrease Time Constant / Flux Red Dec T
695
Voltage Target Value Limit / U_Tgt Val Lim
695
Efficiency Optimization / Efficiency Opt.
696
Flux Reduction Factor / Flux Red Factor
696
Flux Setpoint Smoothing Time / Flux Setp T_Smth
696
Field Weakening Characteristic Scaling / Field Weak Scal
697
Field Weakening Operation Flux Setpoint Smoothing Time
697
Flux Controller Integral Time / Flux Controller Tn
697
Flux Controller P Gain / Flux Controller Kp
697
CO: Field Weakening Controller / Flux Controller Output
698
CO: Field Weakening Controller Output / Field_Ctrl Outp
698
Field Weakening Controller Additional Setpoint
698
Field Weakening Controller Integral-Action Time / Field_Ctrl Tn
698
Additional Acceleration Torque (Sensorless) / M_Suppl_Accel
699
Current Injection Ramp Time / I_Inject T_Ramp
699
Torque Setpoint Static (Sensorless) / M_Set Static
699
Current Setpoint Smoothing Time / I_Set T_Smooth
700
EMF Maximum / EMF Max
700
Field-Generating Current Setpoint (Steady-State) / Id_Set Stationary
700
Field-Generating Current Setpoint Total / Id_Setp Total
700
Curr. Setpoint Torque-Gen. Smoothing Time Field Weakening Range
701
Current Controller Integral-Action Time / I_Ctrl Tn
701
Current Controller P Gain / I_Ctrl Kp
701
Isq Current Controller Precontrol Scaling / Isq_Ctr_Prectrscal
701
CO: Direct-Axis Voltage Setpoint / Direct U Set
702
Current Controller D Axis Integral Time / I_Ctrl D-Axis Tn
702
Isd Controller Combination Current Time Component
702
Isd Controller Integral Component Shutdown Threshold
702
CO: Quadrature-Axis Voltage Setpoint / Quad U Set
703
Gain Resonance Damping for Encoderless Closed-Loop Control
703
Motor Model Error Signal Stall Detection / Motmod Sig Stall
703
Motor Model Error Threshold Stall Detection / Motmod Threshstall
703
Motor Model Configuration / Motmod Config
704
Motor Model Status / Motmod Status
706
Motor Model Changeover Speed Encoderless Operation
707
Motor Model Changeover Speed Hysteresis Encoderless Operation
707
Motor Model Changeover Delay Time Closed/Open-Loop Control
708
Motor Model Changeover Delay Time Open/Closed-Loop Control
708
Motor Model Without Encoder Speed Adaptation Kp
708
Motor Model Without Encoder Speed Adaptation Tn
708
CO: Motor Model Speed Adaptation Proportional Component
709
Motor Model Changeover Delay Time Closed-Loop Control
709
Motor Model Adaptation Configuration / Motmod Adapt Conf
710
Motor Model Status Signals / Motmod Status Sig
710
Motor Model Feedback Scaling / Motmod Fdbk Scal
711
Motor Model Lh Adaptation Kp / Motmod Lh Kp
711
Motor Model Lh Adaptation Corrective Value / Motmod Lh Corr
712
Motor Model Lh Adaptation Integral Time / Motmod Lh Tn
712
Pulse Frequency Setpoint / Pulse Freq Setp
712
CO: Pulse Frequency / Pulse Frequency
713
Modulator Mode / Modulator Mode
713
Maximum Modulation Depth / Modulat Depth Max
714
CO: Modulator Mode Actual / Modulator Mode Act
715
Filter Time Constant VDC Correction / T_Filt Vdc_Corr
715
Modulator Configuration / Modulator Config
715
Power Unit Line Phases Monitoring Tolerance Time / PU Ph Monit T_Tol
716
Pulse Frequency Wobbulation Amplitude / Puls Wobb Ampl
716
Reverse the Output Phase Sequence / Outp_Ph_Seq Rev
716
Compensation Valve Lockout Time Phase U / Comp T_Lock Ph U
717
Compensation Valve Lockout Time Phase V / Comp T_Lock Ph V
717
Converter Valve Threshold Voltage / Threshold Voltage
717
CO/BO: Gating Unit Status Word 1 / Gating Unit ZSW1
718
Compensation Valve Lockout Time Phase W / Comp T_Lock Ph W
718
Dead Time Compensation Current Level / T_Dead_Comp I_Lev
718
Test Pulse Evaluation Configuration / Test Puls Config
721
Test Pulse Evaluation Status / Test Puls Ev Stat
722
Motor Data Identification Control Word / Motid STW
723
Motor Data Identification Selection / Motid Selection
724
Identified Stator Resistance / R_Stator Ident
726
Identified Nominal Stator Inductance / L_Stator Ident
727
Identified Rotor Time Constant / T_Rotor Ident
727
Identified Threshold Voltage / U_Threshold Ident
727
Identified Total Leakage Inductance / L_Total_Leak Ident
727
Identified Effective Valve Lockout Time / T_Lock_Valve ID
728
Identified Rotor Resistance / R_Rotor Ident
728
Rotating Measurement Configuration / Rot Meas Config
728
Rotating Measurement Selection / Rot Meas Sel
729
Saturation Characteristic Speed to Determine / Sat_Char N Determ
730
Speed_Ctrl_Opt Speed / N_Opt Speed
730
Speed_Ctrl_Opt Dynamic Factor / N_Opt Dyn_Factor
731
Speed_Ctrl_Opt Dynamic Factor Actual / N_Opt Dyn_Fact Act
731
Speed_Ctrl_Opt Moment of Inertia Determined / N_Opt M_Inert Det
731
CO/BO: Polid Diagnostics / Polid Diag
732
Polid Technique / Polid Technique
732
Speed_Ctrl_Opt Saturation Characteristic Rotor Flux Maximum
732
Speed_Ctrl_Opt Vibration Test Vibration Frequency Determined
732
Polid Circle Center Point / Polid Circ Center
733
Reference Speed Reference Frequency / N_Ref F_Ref
733
Reference Current / I_Ref
734
Reference Voltage / Reference Voltage
734
Reference Power / P_Ref
735
Reference Torque / M_Ref
735
Comm if Address / Comm Add
736
Comm if Baud Rate / Comm Baud
736
Reference Temperature / Ref Temp
736
CI: Comm if USS PZD Send Word / Comm USS Send Word
737
Comm if Error Statistics / Comm Err
737
Field Bus Interface Baud Rate / Field Bus Baud
737
Field Bus Int USS PZD No. / Field Bus USS PZD
738
Field Bus Interface Address / Field Bus Address
738
Field Bus Interface USS PKW Count / Field Bus USS PKW
739
Fieldbus Interface Times / Fieldbus Times
739
Fieldbus Interface Bacnet COV Increment / Bacnet COV Incr
740
Fieldbus Interface Bacnet Settings / Bacnet Setting
740
Field Bus Interface Protocol Selection / Field Bus Protocol
743
Fieldbus Interface MODBUS Parity / Modbus Parity
744
Master Control Control Word Effective / Pcctrl STW Eff
744
Profidrive STW/ZSW Interface Mode / PD STW/ZSW if Mode
745
Profidrive STW1.10 = 0 Mode / PD STW1.10=0
745
Select Debug Monitor Interface / Debug Monit Select
745
BO: Profidrive PZD State / PD PZD State
746
Fieldbus Interface Monitoring Time / Fieldbus T_Monit
746
PROFIBUS Ident Number / PB Ident No.
746
CO: Profidrive PZD Receive Word / PZD Recv Word
747
PROFIBUS Additional Monitoring Time / PB Suppl T_Monit
747
Profidrive Fault Delay / PD Fault Delay
747
CI: Profidrive PZD Send Word / PZD Send Word
748
Profidrive Diagnostics Send PZD Word / Diag Send Word
749
CO: Profidrive PZD Receive Double Word / PZD Recv DW
750
PROFIBUS Diagnostics Standard / PB Diag Standard
750
PROFIBUS Status / PB Status
750
CI: Profidrive PZD Send Double Word / PZD Send DW
751
Profidrive Diagnostics PZD Send Double Word / Diag Send DW
752
Profidrive Diagnostics Bus Address PZD Receive / Diag Addr Recv
753
Profidrive Diagnostics Telegram Offset PZD Receive / Diag Offs Recv
753
PZD Maximum Interconnected / Pzdmaxintercon
753
Profidrive Diagnostics Telegram Offset PZD Send / Diag Offs Send
754
PROFIBUS Diagnostics Peer-To-Peer Data Transfer Addresses
755
Profidrive PZD Telegram Selection Extended
755
BI: Binector-Connector Converter Status Word 1 / Bin/Con ZSW1
756
BI: Binector-Connector Converter Status Word 2 / Bin/Con ZSW2
757
BI: Binector-Connector Converter Status Word 3 / Bin/Con ZSW3
758
BI: Binector-Connector Converter Status Word 4 / Bin/Con ZSW4
758
BI: Binector-Connector Converter Status Word 5 / Bin/Con ZSW5
759
Invert Binector-Connector Converter Status Word / Bin/Con ZSW Inv
759
BO: Profidrive PZD1 Receive Bit-Serial / PZD1 Recv Bitw
761
CO: Send Binector-Connector Converter Status Word / Bin/Con ZSW Send
761
BO: Profidrive PZD2 Receive Bit-Serial / PZD2 Recv Bitw
762
BO: Profidrive PZD3 Receive Bit-Serial / PZD3 Recv Bitw
763
BO: Profidrive PZD4 Receive Bit-Serial / PZD4 Recv Bitw
763
BO: Connector-Binector Converter Binector Output / Con/Bin Outp
764
CI: Connector-Binector Converter Signal Source / Con/Bin S_S
765
Inverter Connector-Binector Converter Binector Output
765
Change Fault Response Fault Number / Chng Resp F_No
766
Change Fault Response Response / Chng Resp Resp
766
BI: 1St Acknowledge Faults / 1St Acknowledge
767
BI: 2Nd Acknowledge Faults / 2Nd Acknowledge
768
BI: 3Rd Acknowledge Faults / 3Rd Acknowledge
768
BI: External Fault 1 / External Fault 1
768
BI: External Fault 2 / External Fault 2
769
BI: External Fault 3 / External Fault 3
769
Fault Time Removed in Milliseconds / T_Flt Resolved Ms
769
Alarm Counter / Alarm Counter
770
Alarm Number / Alarm Number
770
BI: External Alarm 1 / External Alarm 1
770
System Runtime Total / Sys Runtime Tot
770
BI: External Alarm 2 / External Alarm 2
771
BI: External Alarm 3 / External Alarm 3
771
Change Message Type Message Number / Chng Type Msg_No
772
Change Message Type Type / Change Type Type
772
CO: Counter Alarm Buffer Changes / Alrm Buff Changed
772
CO: Sum of Fault and Alarm Buffer Changes / Sum Buffer Changed
772
Alarm Code / Alarm Code
773
Alarm Time Received in Milliseconds / T_Alarm Recv Ms
773
Alarm Value / Alarm Value
773
Alarm Time Removed in Milliseconds / T_Alarm Res Ms
774
Change Acknowledge Mode Fault Number / Chng Ackn F_No
774
Change Acknowledge Mode Mode / Chng Ackn Mode
774
CO/BO: Faults/Alarms Trigger Word / F/A Trigger Word
775
Faults/Alarms Trigger Selection / F/A Trigger Sel
775
CO: Actual Alarm Code / Actual Alarm Code
776
CO: Actual Fault Code / Act Fault Code
776
Fault Time Received in Days / T_Fault Recv Days
776
Fault Value for Float Values / Fault Val Float
776
Alarm Value for Float Values / Alarm Value Float
777
CO/BO: Control Word Faults/Alarms / STW Fault/Alarm
777
CO/BO: Status Word Faults/Alarms 2 / ZSW Fault/Alarm 2
777
Fault Time Removed in Days / T_Flt Resolv Days
777
CO/BO: Status Word Faults/Alarms 1 / ZSW Fault/Alarm 1
778
Hysteresis Speed 2 / N_Hysteresis 2
778
Alarm Time Received in Days / T_Alarm Recv Days
779
BI: Motor Stall Monitoring Enable (Negated) / Mot Stall Enab Neg
779
Hysteresis Speed 1 / N_Hysteresis 1
779
Speed Threshold 1 / N_Thresh Val 1
779
Alarm Time Removed in Days / T_Alarm Res Days
780
BI: RFG Active / RFG Active
780
Monitoring Configuration / Monit Config
780
CI: Speed Setpoint for Messages/Signals / N_Set for Msg
781
Hysteresis Speed 3 / N_Hysteresis 3
781
Speed Actual Value Filter Time Constant / N_Act_Filt T
781
Hysteresis Speed N_Act > N_Max / Hyst N_Act>N_Max
782
On Delay Comparison Value Reached / T_On Cmpr Val Rchd
782
Speed Threshold 2 / N_Thresh Val 2
782
Speed Threshold 3 / N_Thresh Val 3
782
Hysteresis Speed 4 / N_Hysteresis 4
783
Load Monitoring Stall Monitoring Upper Threshold / Stall_Mon up Thr
783
Speed Threshold 4 / N_Thresh Val 4
783
CO: Actual Speed Smoothed Signals / N_Act Smth Message
784
Load Monitoring Stall Monitoring Torque Threshold / Stall_Mon M_Thresh
784
Off Delay N_Act = N_Set / T_Del_Off N_I=N_So
784
Switch-On Delay N_Act = N_Set / T_On N_Act=N_Set
784
Current Threshold Value / I_Thres
785
Current Threshold Value Reached Delay Time / I_Thresh Rch T_Del
785
DC Link Voltage Comparison Delay Time / T_Del VDC
785
DC Link Voltage Threshold Value / VDC Thresh Val
785
Motor Blocked Delay Time / Mot Lock T_Del
786
Motor Stalled Delay Time / Mot Stall T_Del
786
Output Load Identification Current Limit / Outp_Ld Iden I_Lim
786
Load Monitoring Response / Load Monit Resp
787
Load Monitoring Speed Threshold Value 1 / N_Thresh 1
787
Output Load Detection Delay Time / Out_Load Det T_Del
787
Load Monitoring Speed Threshold Value 2 / N_Thresh 2
788
Load Monitoring Speed Threshold Value 3 / N_Thresh 3
788
Load Monitoring Torque Threshold 1 Upper / M_Thresh 1 Upper
788
Load Monitoring Torque Threshold 1 Lower / M_Thresh 1 Lower
789
Load Monitoring Torque Threshold 2 Lower / M_Thresh 2 Lower
789
Load Monitoring Torque Threshold 2 Upper / M_Thresh 2 Upper
789
Load Monitoring Torque Threshold 3 Upper / M_Thresh 3 Upper
789
Load Monitoring Configuration / Load Monit Config
790
Load Monitoring Delay Time / Load Monit T_Del
790
Load Monitoring Torque Threshold 3 Lower / M_Thresh 3 Lower
790
Load Monitoring Torque Threshold no Load / M_Thresh no Load
790
CO/BO: Status Word Monitoring 1 / ZSW Monitor 1
791
CO/BO: Status Word Monitoring 2 / ZSW Monitor 2
792
CO/BO: Status Word Monitoring 3 / ZSW Monitor 3
792
BI: Technology Controller Enable / Tec_Ctrl Enable
793
CO: Technology Controller Fixed Value 1 / Tec_Ctrl Fix Val1
793
CO: Technology Controller Fixed Value 2 / Tec_Ctr Fix Val 2
793
CO: Technology Controller Fixed Value 3 / Tec_Ctr Fix Val 3
794
CO: Technology Controller Fixed Value 4 / Tec_Ctr Fix Val 4
794
CO: Technology Controller Fixed Value 5 / Tec_Ctr Fix Val 5
794
CO: Technology Controller Fixed Value 6 / Tec_Ctr Fix Val 6
794
CO: Technology Controller Fixed Value 10 / Tec_Ctr Fix Val 10
795
CO: Technology Controller Fixed Value 7 / Tec_Ctr Fix Val 7
795
CO: Technology Controller Fixed Value 8 / Tec_Ctr Fix Val 8
795
CO: Technology Controller Fixed Value 9 / Tec_Ctr Fix Val 9
795
CO: Technology Controller Fixed Value 11 / Tec_Ctr Fix Val 11
796
CO: Technology Controller Fixed Value 12 / Tec_Ctr Fix Val 12
796
CO: Technology Controller Fixed Value 13 / Tec_Ctr Fix Val 13
796
CO: Technology Controller Fixed Value 14 / Tec_Ctr Fix Val 14
796
BI: Technology Controller Fixed Value Selection Bit 0
797
BI: Technology Controller Fixed Value Selection Bit 1
797
BI: Technology Controller Fixed Value Selection Bit 2
797
CO: Technology Controller Fixed Value 15 / Tec_Ctr Fix Val 15
797
BI: Technology Controller Motorized Potentiometer Raise Setpoint
799
Ramp-Function Generator Always Active
799
Technology Controller Motorized Potentiometer Setpoint Memory
799
BI: Technology Controller Motorized Potentiometer Lower Setpoint
800
Technology Controller Motorized Potentiometer Maximum Value
800
Technology Controller Motorized Potentiometer Minimum Value
800
Technology Controller Motorized Potentiometer Starting Value
800
CO: Technology Controller Motorized Potentiometer Setpoint after RFG
801
Technology Controller Mode / Tec_Ctrl Mode
801
Technology Controller Motorized Potentiometer Ramp-Up Time
801
CI: Technology Controller Setpoint 1 / Tec_Ctrl Setp 1
802
Technology Controller Configuration / Tec_Ctrl Config
802
CI: Technology Controller Setpoint 2 / Tec_Ctrl Setp 2
803
Technology Controller Ramp-Up Time / Tec_Ctrl T_Ramp-Up
803
Technology Controller Setpoint 1 Scaling / Tec_Ctrl Set1 Scal
803
Technology Controller Setpoint 2 Scaling / Tec_Ctrl Set2 Scal
803
CI: Technology Controller Actual Value / Tec_Ctrl Act Val
804
CO: Technology Controller Setpoint after Ramp-Function Generator
804
Technology Controller Setpoint Filter Time Constant
804
Technology Controller Type / Tec_Ctrl Type
804
CO: Technology Controller Actual Value after Filter
805
Technology Controller Actual Value Filter Time Constant
805
Technology Controller Lower Limit Actual Value / Tec_Ctrl L_Lim Act
805
Technology Controller Upper Limit Actual Value / Tec_Ctrl U_Lim Act
805
CO: Technology Controller Actual Value Scaled / Tech_Ctrl Act Scal
806
Technology Controller Actual Value Function / Tec_Ctr Actval Fct
806
Technology Controller Actual Value Inversion (Sensor Type)
806
CO: Technology Controller System Deviation / Tec_Ctrl Sys_Dev
807
Technology Controller Differentiation Time Constant
807
Technology Controller Integral Time / Tec_Ctrl Tn
807
Technology Controller Proportional Gain / Tec_Ctrl Kp
807
BI: Hold Technology Controller Integrator / Tec_Ctr Integ Hold
808
BI: Technology Controller Limiting Enable / Tec_Ctrl Lim Enab
808
CI: Technology Controller Precontrol Signal / Tec_Ctr Prectr_Sig
808
CO: Technology Controller Maximum Limiting / Tec_Ctrl Max_Lim
808
CI: Technology Controller Output Scaling / Tec_Ctrl Outp Scal
809
CO: Technology Controller Output Scaling / Tec_Ctrl Outp Scal
809
CO: Technology Controller Output Signal / Tec_Ctrl Outp_Sig
809
Technology Controller Ramp-Up/Ramp-Down Time / Tec_Ctr T_Ru/Rd
809
CI: Technology Controller Limit Offset / Tech_Ctrl Lim Offs
810
CI: Technology Controller Minimum Limit Signal Source
810
Technology Controller Output Signal Starting Value / Tec_Ctr Start Val
810
CI: Technology Controller Kp Adaptation Input Value Signal Source
811
Technology Controller Kp Adaptation Lower Value / Kp Adapt Lower Val
811
Technology Controller System Deviation Inversion / Tec_Ctr Sysdev Inv
811
CI: Technology Controller Kp Adaptation Scaling Signal Source
812
Technology Controller Kp Adaptation Lower Starting Point
812
Technology Controller Kp Adaptation Upper Starting Point
812
Technology Controller Kp Adaptation Upper Value / Kp Adapt Upper Val
812
CO: Technology Controller, Kp Adaptation Output / Kp Adapt Outp
813
Technology Controller Tn Adaptation Lower Value / Tn Adapt Lower Val
813
Technology Controller Tn Adaptation Upper Value / Tn Adapt Upper Val
813
CO: Technology Controller Tn Adaptation Output / Tn Adapt Output
814
Techn. Controller Threshold Value F. I Comp. Hold for Skip Speed
814
Technology Controller Tn Adaptation Lower Starting Point
814
Technology Controller Tn Adaptation Upper Starting Point
814
CO: Technology Controller Last Speed Setpoint (Smoothed)
815
Technology Controller Fault Response / Tech_Ctrl Flt Resp
815
CO/BO: Technology Controller Status Word / Tec_Ctrl Status
816
Enable PID Autotuning / PID Autotuning
816
Closed-Loop Cascade Control Enable / Csc_Ctrl Enab
817
PID Autotuning Monitoring Time / PID Tuning T_Monit
817
PID Autotuning Offset / PID Autotun.offset
817
Closed-Loop Cascade Control Configuration / Csc_Ctrl Config
818
Closed-Loop Cascade Control Mode Motor Selection / Csc_Ctrl Mode
818
Closed-Loop Cascade Control Switch-In Delay / Csc_Ctrl T_In_Del
819
Closed-Loop Cascade Control Switch-In Threshold / Csc_Ctrl Sw-In Thr
819
Closed-Loop Cascade Control Interlocking Time / Csc_Ctrl T_Interl
820
Closed-Loop Cascade Control Overcontrol Threshold
820
Closed-Loop Cascade Control Switch-In/Switch-Out Speed
820
Closed-Loop Cascade Control Switch-Out Delay / Csc_Ctrl T_Out_Del
820
Closed-Loop Cascade Control Max Time for Continuous Operation
821
Closed-Loop Cascade Control Operating Hours / Csc_Ctrl Op_Hrs
821
Closed-Loop Cascade Control Operating Time Limit
821
CO/BO: Closed-Loop Cascade Control Status Word / Csc_Ctrl ZSW
821
Closed-Loop Cascade Control Holding Time Switch-In Speed
822
Closed-Loop Cascade Control Motor Switch-Off Delay
822
Closed-Loop Cascade Control Motor Switch-On Delay / Csc_Ctr T_Del_On
822
Closed-Loop Cascade Control Switch-Out Sequence / Csc_Ctr Sw-Out Seq
822
Hibernation Mode Delay Time / Hib Mode T_Delay
823
Hibernation Mode Restart Value with Technology Controller
823
Speed Start of Hibernation Mode / Hib Mode N_Start
823
Hibernation Mode Boost Speed / Hib Mode N_Boost
824
Hibernation Mode Boost Time Period / Hib Mode T_Boost
824
Hibernation Mode Restart Speed Relative W/O Techn Controller
824
CO: Hibernation Mode Output Speed Actual / Hib N_Outp Act
825
Hibernation Mode Max. Shutdown Time / Hib T_Off Max
825
Hibernation Mode Operating Type / Hib Mode Op_Type
825
CO/BO: Hibernation Mode Status Words / Hib ZSW
826
CO: Fixed Value 1 [%] / Fixed Value 1 [%]
826
CO: Fixed Value 2 [%] / Fixed Value 2 [%]
827
CO: Fixed Value M [Nm] / Fixed Value M [Nm]
827
CO: Fixed Values [%] / Fixed Values [%]
827
External Fault 3 Switch-On Delay / Ext Fault 3 T_On
828
Flux Model Value Display / Psi_Mod Val Displ
828
BI: External Fault 3 Enable / Ext Fault 3 Enab
829
BI: External Fault 3 Enable Negated / Ext Flt 3 Enab Neg
829
CO/BO: NAMUR Message Bit Bar / NAMUR Bit Bar
829
Change Safety Message Type / Ch. si Mess Type
830
Component Alarm / Comp Alarm
831
Component Fault / Comp Fault
831
Diagnostic Attribute Fault / Diag_Attr Fault
831
Diagnostic Attribute Alarm / Diag_Attr Alarm
832
CO: Actual Component Number / Comp_No Act
833
CO: Actual Fault Value / Act Fault Val
833
BI: Load Monitoring Failure Detection / Load_Moni Fail_Det
834
CI: Load Monitoring Speed Actual Value / Load Monit N_Act
834
Load Monitoring Speed Deviation / Load Monit N_Dev
834
Torque Actual Value Filter Time Constant / M_Act_Filt T
834
Efficiency Optimization 2 Maximum Flux Limit Value / Max Flux Lim Val
835
Efficiency Optimization 2 Minimum Flux Limit Value / Min Flux Lim Val
835
Efficiency Optimization 2 Optimum Flux / Optimum Flux
835
Phase Failure Signal Motor Monitoring Time / Ph_Fail T_Monit
835
Fluid Flow Machine Power Point 1 / Fluid_Mach P1
836
Fluid Flow Machine Power Point 2 / Fluid_Mach P2
836
Fluid Flow Machine Speed Point 1 / Fluid_Mach N1
836
Fluid Flow Machine Power Point 3 / Fluid_Mach P3
837
Fluid Flow Machine Speed Point 2 / Fluid_Mach N2
837
Fluid Flow Machine Speed Point 3 / Fluid_Mach N3
837
Fluid Flow Machine Power Point 4 / Fluid_Mach P4
838
Fluid Flow Machine Power Point 5 / Fluid_Mach P5
838
Fluid Flow Machine Speed Point 4 / Fluid_Mach N4
838
Fluid Flow Machine Speed Point 5 / Fluid_Mach N5
838
BI: 2/3 Wire Control Command 1 / 2/3 Wire CMD 1
839
BI: 2/3 Wire Control Command 2 / 2/3 Wire CMD 2
839
BI: 2/3 Wire Control Command 3 / 2/3 Wire CMD 3
839
CO/BO: 2/3 Wire Control Control Word / 2/3 Wire STW
839
2/3 Wire Control Selection / 2/3 Wire Select
840
BI: Limit Switch Plus / Lim Switch Plus
840
BI: Limit Switch Start / Lim Switch Start
840
BI: Limit Switch Minus / Lim Switch Minus
841
CO/BO: Limit Switch Status Word / Lim Sw ZSW
841
Forming Activation/Duration / Form Act/Duration
842
Forming Remaining Time / Forming T_Remain
842
Compound Braking Current / Compound I_Brake
843
DC Quantity Controller Configuration / Rect_Ctrl Config
843
CO/BO: Compound Braking/DC Quantity Control Status Word
844
DC Quantity Controller Integral Time / Dc_Ctrl Tn
844
DC Quantity Controller P Gain / Dc_Ctrl Kp
844
BI: ESM Activation Signal Source / ESM Act S_S
845
ESM Setpoint Source / ESM Setp_Src
845
BI: ESM Direction of Rotation Signal Source / ESM Rot dir S_S
846
ESM Setpoint Source Alternative / ESM Setp_Src Alt
846
CI: ESM Setpoint Technology Controller / ESM Setp Tech_Ctrl
847
CO/BO: ESM Status Word / ESM ZSW
847
ESM Number of Activations/Faults / ESM Act/Fault Qty
847
ESM Reset Number of Activations/Faults / ESM Act/F Qty R
847
Completion of Quick Commissioning / Compl Quick_Comm
848
Identification Final Display / Ident Final_Disp
848
Voltage Generation Alternating Base Voltage Amplitude
849
Options for Electrical Cabinets / Opt Elec Cabinet
851
Power Unit EEPROM Characteristics / PU Characteristics
851
Acknowledge Drive Object Faults / Ackn DO Faults
852
BICO Counterdevice / BICO Counterdevice
852
Drive Unit Status Word / Drv_Unit ZSW
852
Service Parameter / Serv Par
852
Boot State / Boot_State
853
Master Control Mode Selection / Pcctrl Mode Select
853
Number of Parameters / Param Count
853
Parameter Write Inhibit Status / Par_Write Inhib St
854
CO/BO: PM330 Digital Inputs Status / PM330 DI Status
855
CO/BO: PM330 Digital Inputs Status Inverted / PM330 DI Stat Inv
855
PM330 Digital Outputs Status / PM330 DO Status
855
Mot_Temp_Mod 1/3 Boost Factor at Standstill / Standst Boost_Fact
856
PM330 Digital Inputs Simulation Mode / PM330 DI Sim_Mode
856
PM330 Digital Inputs Simulation Mode Setpoint / PM330 DI Sim Setp
856
CO/BO: Mot_Temp Status Word Faults/Alarms / Mot_Temp ZSW F/A
857
Mot_Temp_Mod 1/3 Alarm Threshold / a Thresh
858
Mot_Temp_Mod 1/3 Fault Threshold / F Thresh
858
Pe Energy-Saving Mode ID / Pe Mode ID
859
Pe Energy-Saving Mode Pause Time Minimal / Pe Mod T_Pause Min
859
Pe Energy-Saving Mode Time of Maximum Stay / Pe T_Max_Stay
859
CO/BO: Pe Energy-Saving Active/Inactive / Pe Save Act/Inact
860
Pe Energy-Saving Properties General / Pe Properties Gen
860
Pe Energy-Saving Properties Mode-Dependent / Pe Properties Mod
860
BI: Pe Set Switching on Inhibited Signal Source / Pe Sw-On_Inh S_S
861
Fieldbus Interface Bacnet Device Name / Bacnet Device Name
861
KHP Control Unit Reference Serial Number / KHP CU Ref Ser_No
861
KHP Control Unit Serial Number / KHP CU Ser_No
861
CO/BO: Write Protection/Know-How Protection Status / Wr_Prot/Khp Stat
862
KHP OEM Exception List / KHP OEM Excep List
863
KHP OEM Exception List Number of Indices for P7764 / KHP OEM Qty P7764
863
Write Protection / Write Protection
863
Write Protection Multi-Master Fieldbus System Access Behavior
863
KHP Configuration / KHP Config
864
KHP Password Input / KHP Passw Input
864
KHP Memory Card Reference Serial Number / KHP Mem Ref Ser_No
865
KHP Password Confirmation / KHP Passw Confirm
865
KHP Password New / KHP Passw New
865
NVRAM Data Backup/Import/Delete / NVRAM Backup
866
Power Module Serial Number / PM Serial No.
866
Memory Card Serial Number / Mem_Card Ser.no
867
Memory Card/Device Memory Firmware Version / Mem_Crd/Dev_Mem FW
867
Hardware Sampling Times Still Assignable / HW T_Samp Free
868
RTC Time / RTC Time
868
Sampling Times / T_Sample
868
RTC Date / RTC Date
869
RTC Daylight Saving Time Setting / RTC DST
869
RTC Actual Daylight Saving Time Difference / RTC Act DST
870
RTC Weekday / RTC Weekday
870
Activate/Deactivate RTC Alarm A01098 / RTC A01098 Act
871
RTC DTC Activation / RTC DTC Act
871
RTC DTC1 Weekday of Activation / RTC DTC1 Day Act
871
RTC DTC1 off Time / RTC DTC1 T_Off
872
RTC DTC1 Switch-On Time / RTC DTC1 T_On
872
BO: RTC DTC1 Output / RTC DTC1 Output
873
RTC DTC2 Weekday of Activation / RTC DTC2 Day Act
873
BO: RTC DTC2 Output / RTC DTC2 Output
874
RTC DTC2 off Time / RTC DTC2 T_Off
874
RTC DTC2 Switch-On Time / RTC DTC2 T_On
874
RTC DTC3 Switch-On Time / RTC DTC3 T_On
875
RTC DTC3 Weekday of Activation / RTC DTC3 Day Act
875
BO: RTC DTC3 Output / RTC DTC3 Output
876
RTC DTC3 off Time / RTC DTC3 T_Off
876
BO: STW1 from IOP in the Manual Mode / STW1 IOP
877
CO: Speed Setpoint from the IOP in the Manual Mode / N_Set IOP
877
BI: Active STW1 in the BOP/IOP Manual Mode / STW1 Act OP
878
CI: Active Speed Setpoint in the BOP/IOP Manual Mode / N_Act Act OP
878
BI: Select IOP Manual Mode / Sel IOP man Mode
879
IOP Speed Unit / IOP Speed Unit
879
Macro Binector Input (BI) / Macro BI
879
Macro Drive Object / Macro DO
879
Identification and Maintenance 1 / I&M 1
880
Identification and Maintenance 4 Configuration / I&M 4 Config
880
Macro Connector Inputs (CI) for Torque Setpoints / Macro CI M_Set
880
Macro Execution Actual / Macro Executed
880
Identification and Maintenance 2 / I&M 2
881
Identification and Maintenance 3 / I&M 3
881
Identification and Maintenance 4 / I&M 4
882
PROFINET Read Diagnostics Channel / PN Diag_Chan Read
882
PROFINET State / PN State
882
PN Device ID / PN Device ID
883
PROFINET Identification Data / PN Ident Data
883
PN Default Gateway / PN Def Gateway
884
PN IP Address / PN IP Addr
884
PN Name of Station / PN Name Stat
884
PN Subnet Mask / PN Subnet Mask
884
Activate PN Interface Configuration / PN if Config
885
PN DHCP Mode / PN DHCP Mode
885
PN Default Gateway Actual / PN Def Gateway Act
886
PN IP Address Actual / PN IP Addr Act
886
PN Name of Station Actual / PN Name Stat Act
886
PN Subnet Mask Actual / PN Subnet Mask Act
886
Ethernet/Ip ODVA STOP Mode / Eth/Ip ODVA STOP
887
Ethernet/Ip Profile / Eth/Ip Profile
887
Pn Dap ID / Pn Dap ID
887
PN MAC Address / PN MAC Addr
887
Ethernet/Ip ODVA Speed Scaling / Eth/Ip ODVA N Scal
888
Ethernet/Ip ODVA Torque Scaling / Eth/Ip ODVA M Scal
888
Safely Remove Memory Card / Mem_Card Rem
889
USB Functionality / USB Fct
889
USB Memory Access / USB Mem Acc
889
CO/BO: Safely Remove Memory Card Status / Mem_Card Rem Stat
890
PS File Parameter Number Parameter Not Transferred
890
Number of Parameters to be Saved / Qty Par to Save
891
PS File Fault Code Parameter Not Transferred / PS Fault Code
891
PS File Parameter Index Parameter Not Transferred / PS Parameter Index
891
Actual Macro / Actual Macro
892
BICO Interconnections Search Signal Source / BICO S_S Srch
892
BICO Interconnections Signal Source Search Count / BICO S_S Srch Qty
892
Units Changeover Adapted Parameters / Unit_Chngov Par
892
BICO Interconnections Signal Source Search First Index
893
Firmware Check Status / FW Check Status
893
Firmware File Incorrect / FW File Incorr
893
BO: POWER on Delay Signal / POWER on T_Delay
894
Save System Logbook EEPROM / SYSLOG EEPROM Save
894
System Logbook Activation / SYSLOG Activation
894
System Logbook Module Selection / SYSLOG Mod Select.
894
BI: Free Tec_Ctrl 0 Enable / Ftec0 Enab
895
Software Error Internal Supplementary Diagnostics / Sw_Err Int Diag
895
System Utilization Measured / Sys Util Meas
895
Free Tec_Ctrl 0 Unit Selection / Ftec0 Unit Sel
896
CO/BO: Free Tec_Ctrl 0 Status Word / Ftec0 Stat_Word
897
Free Tec_Ctrl 0 Sampling Time / Ftec0 T_Samp
897
Free Tec_Ctrl 0 Unit Reference Quantity / Ftec0 Unit Ref
897
CI: Free Tec_Ctrl 0 Setpoint Signal Source / Ftec0 Setp S_S
898
CO: Free Tec_Ctrl 0 Setpoint after Ramp-Function Generator
898
Free Tec_Ctrl 0 Setpoint Ramp-Down Time / Ftec0 Setp T_R-Dn
898
Free Tec_Ctrl 0 Setpoint Ramp-Up Time / Ftec0 Setp T_R-Up
898
CI: Free Tec_Ctrl 0 Actual Value Signal Source / Ftec0 Act V S_S
899
Free Tec_Ctrl 0 Actual Value Lower Limit / Ftec0 Act V lo Lim
899
Free Tec_Ctrl 0 Actual Value Smoothing Time Constant / Ftec0 Act V T
899
Free Tec_Ctrl 0 Actual Value Upper Limit / Ftec0 Act V up Lim
899
CO: Free Tec_Ctrl 0 Actual Value after Limiter / Ftec0 Act V Af Lim
900
CO: Free Tec_Ctrl 0 System Deviation / Ftec0 Sys Dev
900
Free Tec_Ctrl 0 Actual Value Inversion / Ftec0 Act V Inv
900
Free Tec_Ctrl 0 Differentiation Time Constant / Ftec0 D Comp T
900
CO: Free Tec_Ctrl 0 Limit Maximum / Ftec0 Lim Max
901
CO: Free Tec_Ctrl 0 Limit Minimum / Ftec0 Lim Min
901
Free Tec_Ctrl 0 Integral Time / Ftec0 Tn
901
Free Tec_Ctrl 0 Limit Ramp-Up/Ramp-Down Time / Ftec0 Lim R-U/R-Dn
901
CI: Free Tec_Ctrl 0 Limit Maximum Signal Source / Ftec0 Lim Max S_S
902
CI: Free Tec_Ctrl 0 Limit Minimum Signal Source / Ftec0 Lim Min S_S
902
CI: Free Tec_Ctrl 0 Limit Offset Signal Source / Ftec0 Lim Offs
902
CO: Free Tec_Ctrl 0 Output Signal / Ftec0 Out_Sig
902
Free Tec_Ctrl 1 Unit Selection / Ftec1 Unit Sel
903
CO/BO: Free Tec_Ctrl 1 Status Word / Ftec1 Stat_Word
904
Free Tec_Ctrl 1 Sampling Time / Ftec1 T_Samp
904
Free Tec_Ctrl 1 Unit Reference Quantity / Ftec1 Unit Ref
904
CI: Free Tec_Ctrl 1 Setpoint Signal Source / Ftec1 Setp S_S
905
CO: Free Tec_Ctrl 1 Setpoint after Ramp-Function Generator
905
Free Tec_Ctrl 1 Setpoint Ramp-Down Time / Ftec1 Setp T_R-Dn
905
Free Tec_Ctrl 1 Setpoint Ramp-Up Time / Ftec1 Setp T_R-Up
905
CI: Free Tec_Ctrl 1 Actual Value Signal Source / Ftec1 Act V S_S
906
Free Tec_Ctrl 1 Actual Value Lower Limit / Ftec1 Act V lo Lim
906
Free Tec_Ctrl 1 Actual Value Smoothing Time Constant / Ftec1 Act V T
906
Free Tec_Ctrl 1 Actual Value Upper Limit / Ftec1 Act V up Lim
906
CO: Free Tec_Ctrl 1 Actual Value after Limiter / Ftec1 Act V Af Lim
907
CO: Free Tec_Ctrl 1 System Deviation / Ftec1 Sys Dev
907
Free Tec_Ctrl 1 Actual Value Inversion / Ftec1 Act V Inv
907
Free Tec_Ctrl 1 Differentiation Time Constant / Ftec1 D Comp T
907
CO: Free Tec_Ctrl 1 Limit Maximum / Ftec1 Lim Max
908
CO: Free Tec_Ctrl 1 Limit Minimum / Ftec1 Lim Min
908
Free Tec_Ctrl 1 Integral Time / Ftec1 Tn
908
Free Tec_Ctrl 1 Limit Ramp-Up/Ramp-Down Time / Ftec1 Lim R-U/R-Dn
908
CI: Free Tec_Ctrl 1 Limit Maximum Signal Source / Ftec1 Lim Max S_S
909
CI: Free Tec_Ctrl 1 Limit Minimum Signal Source / Ftec1 Lim Min S_S
909
CI: Free Tec_Ctrl 1 Limit Offset Signal Source / Ftec1 Lim Offs
909
CO: Free Tec_Ctrl 1 Output Signal / Ftec1 Out_Sig
909
Free Tec_Ctrl 2 Unit Selection / Ftec2 Unit Sel
910
CO/BO: Free Tec_Ctrl 2 Status Word / Ftec2 Stat_Word
911
Free Tec_Ctrl 2 Sampling Time / Ftec2 T_Samp
911
Free Tec_Ctrl 2 Unit Reference Quantity / Ftec2 Unit Ref
911
CI: Free Tec_Ctrl 2 Setpoint Signal Source / Ftec2 Setp S_S
912
CO: Free Tec_Ctrl 2 Setpoint after Ramp-Function Generator
912
Free Tec_Ctrl 2 Setpoint Ramp-Down Time / Ftec2 Setp T_R-Dn
912
Free Tec_Ctrl 2 Setpoint Ramp-Up Time / Ftec2 Setp T_R-Up
912
CI: Free Tec_Ctrl 2 Actual Value Signal Source / Ftec2 Act V S_S
913
Free Tec_Ctrl 2 Actual Value Lower Limit / Ftec2 Act V lo Lim
913
Free Tec_Ctrl 2 Actual Value Smoothing Time Constant / Ftec2 Act V T
913
Free Tec_Ctrl 2 Actual Value Upper Limit / Ftec2 Act V up Lim
913
CO: Free Tec_Ctrl 2 Actual Value after Limiter / Ftec2 Act V Af Lim
914
CO: Free Tec_Ctrl 2 System Deviation / Ftec2 Sys Dev
914
Free Tec_Ctrl 2 Actual Value Inversion / Ftec2 Act V Inv
914
Free Tec_Ctrl 2 Differentiation Time Constant / Ftec2 D Comp T
914
CO: Free Tec_Ctrl 2 Limit Maximum / Ftec2 Lim Max
915
CO: Free Tec_Ctrl 2 Limit Minimum / Ftec2 Lim Min
915
Free Tec_Ctrl 2 Integral Time / Ftec2 Tn
915
Free Tec_Ctrl 2 Limit Ramp-Up/Ramp-Down Time / Ftec2 Lim R-U/R-Dn
915
CI: Free Tec_Ctrl 2 Limit Maximum Signal Source / Ftec2 Lim Max S_S
916
CI: Free Tec_Ctrl 2 Limit Minimum Signal Source / Ftec2 Lim Min S_S
916
CI: Free Tec_Ctrl 2 Limit Offset Signal Source / Ftec2 Lim Offs
916
CO: Free Tec_Ctrl 2 Output Signal / Ftec2 Out_Sig
916
Multi-Pump Control Enable / Mpc Enab
917
Multi-Pump Control Motor Configuration / Mpc Mtr Num Config
917
Multi-Pump Control Motor Selection Mode / Mpc Mtr Sel Mode
917
Multi-Pump Control Overcontrol Threshold / Mpc Overctrl Thr
918
Multi-Pump Control Switch-In Delay / Mpc_Ctrl T_In_Del
918
Multi-Pump Control Switch-In Threshold / Mpc Sw_In Thr
918
Multi-Pump Control Switch-Out Delay / Mpc Sw_Out del
918
CO/BO: Multi-Pump Control Status Word / Mpc ZSW
919
Multi-Pump Control Interlocking Time / Mpc T_Interl
919
Multi-Pump Control Switch-Out Speed Offset / Mpc Sw_Out Offset
919
Multi-Pump Control Absolute Operating Hours / Mpc Op_Hrs
920
Multi-Pump Control Maximum Time for Continuous Operation / Mpc T_Max
920
Multi-Pump Control Switch-Off Sequence / Mpc Sw_Off Seq
920
Multi-Pump Control Disconnection Lockout Time / Mpc T_Disc_Lockout
921
Multi-Pump Control Pump Switchover Enable / Mpc Sw-Over Enab
921
Multi-Pump Control Service Mode Enable / Mpc Sermode Enab
921
Multi-Pump Control Variable-Speed Motor / Mpc Driven Mtr
921
BI: Multi-Pump Control Motor under Repair / Mpc Mtr_Und_Ser
922
CO/BO: Multi-Pump Control Service Mode Interlock Manually
922
Multi-Pump Control Index of Motors under Repair / Mpc Mtr und Repair
922
CO/BO: Multi-Pump Control Bypass Command / Mpc Bypass CMD
923
Multi-Pump Control Continuous Operating Hours / Mpc Conti_Oper_Hrs
923
Multi-Pump Control Deviation Threshold / Mpc Devia Thres
923
CO/BO: Multi-Pump Control Feedback Signal for Contactor
924
Ramp-Up Scaling 1 / Rmpupscaling1
924
Ramp-Up Scaling 2 / Rmpupscaling2
924
Threshold Speed 2 / Thresh_2_Ramp
924
CO: Ramp-Down Scaling Output / Rmpdnscale Output
925
CO: Ramp-Up Scaling Output / Rmpupscale Output
925
Ramp-Down Scaling 2 / Rmpdnscaling2
925
Threshold Speed 3 / Thresh_3_Ramp
925
BI: Dual Ramp Enable / Dualrmp en
926
CI: Ramp-Down Scaling Input / Rmpdn Scale Input
926
CI: Ramp-Up Scaling Input / Rmpup Scale Input
926
Deragging Mode / Derag Mod
926
BI: Deragging Enable / Derag en
927
Deragging Forward Speed / Derag Fw Spd
927
Deragging Ramp up Time / Derag Rup
927
Deragging Reverse Speed / Derag Rev Spd
927
Deragging Forward Time / Derag Fw Time
928
Deragging Ramp down Time / Derag Rdn
928
Deragging Reverse Time / Derag Rev Tim
928
Number of Deragging Cycles / Derag Cycs
928
Pipe Filling Mode / PF Mode
929
Pipe Filling Speed / PF Spd
929
Pipe Filling Threshold / PF Thresh
929
Pipe Filling Time / PF Time
929
BI: Frost Protection Enable / Fro en
930
Cavitation Protection Enable / Cavi en
930
Condensation Protection Current / Cond Current
930
Frost Protection Speed / Fro Spd
930
Cavitation Protection Threshold / Cavi Thresh
931
Cavitation Protection Time / Cavi Time
931
CO/BO: Status Word: Application / App Status Word
931
Keep-Running Operation Enable / Keeprun
931
CO/BO: Extented Setpoint Channel Selection Output / Setp Selection
932
Flow Meter Calculated Flow / Flowm_Calc Flow
932
Flow Meter Pump Flow / Flowm_Flow
932
Flow Meter Pump Power / Flowm_Power
932
BI: Ramp-Function Generator, Accept Setpoint / Total Setp Sel
933
CI: Ramp-Function Generator Setpoint Input / Total Setpoint
933
CO: Extented Setpoint Channel Setpoint Output / Setp Output
933
DI Selection for ON/OFF2 / DI Sel ON/OFF2
933
Bi: On/Off1 (Off1) / On/Off1 (Off1)
934
Bi: On/Off2 (Off2) / On/Off2 (Off2)
934
CO/BO: Command Word / CMD Word
934
Temperature Sensor Type / Tempsen Type
934
CI: Temperature Sensor Voltage Input Source / Tempsen V_Src
935
CO: Temperature Sensor Actual Value / Tempsen T_Actual
935
Equivalent Wire Resistance / Tempsen R_Wire
935
CO: Temperature Sensor Exciting Current Output / Tempsen I_Out
936
CO: Temperature Sensor Resistance Value / Tempsen R
936
Profidrive Reference Speed Reference Frequency / PD N_Ref F_Ref
936
Temperature Sensor Exiting Current Set / Tempsen I_Exit
936
PROFINET IP of Station / PN IP of Station
937
PROFINET Name of Station / PN Name of Station
937
ASCII Table
938
Permissible Characters
938
8 Saving the Settings and Series Commissioning
941
Memory Card
942
Recommended Memory Cards
942
Memory Card to Back up Converter Settings
942
Saving Setting on a Memory Card
942
Automatic Backup
943
Accidental Damage to the Converter Firmware
943
Accidental Overwrite of the Converter Settings
943
Manual Backup
944
Procedure with BOP-2
944
Transferring the Setting from the Memory Card
944
Automatic Transfer
944
Manually Transferring
945
Procedure with the BOP-2
945
Safely Remove the Memory Card
946
Message for a Memory Card that Is Not Inserted
947
Activate Message
947
Deactivate Message
947
Backup Using the Operator Panel
948
Transfer to the Converter
948
Other Ways to Back up Settings
950
Series Commissioning
951
Write Protection
952
Know-How Protection
954
Know-How Protection Requires a Password
954
Locked Functions
955
Executable Functions
955
Know-How Protection Without Copy Protection
955
Know-How Protection with Basic Copy Protection
955
Parameters that Can be Read with Active Know-How Protection
956
Extending the Exception List for Know-How Protection
957
Absolute Know-How Protection
957
Activating and Deactivating Know-How Protection
958
Activating Know-How Protection
958
9 Warnings, Faults and System Messages
961
Alarms and Faults
961
Identification & Maintenance Data (I&M)
961
Led
961
Basic States
962
Explanation of Symbols for the Following Tables
962
Operating States Indicated on Leds
962
PROFINET Fieldbus
962
Communication Via Modbus or USS
963
Fieldbuses Via RS 485 Interface
963
System Runtime
964
Identification & Maintenance Data (I&M)
965
Alarm Buffer
966
Alarms, Alarm Buffer, and Alarm History
966
Alarm History
967
Parameters of the Alarm Buffer and the Alarm History
967
Shifting Removed Alarms into the Alarm History
967
Extended Settings for Alarms
968
Fault Buffer
969
Faults, Alarm Buffer and Alarm History
969
Fault History after Acknowledging the Faults
970
Extended Settings for Faults
971
Parameters of the Fault Buffer and the Fault History
971
Fault Codes and Alarm Codes
972
Internal Software Error
972
List of Fault Codes and Alarm Codes
972
Overview of Faults and Alarms
972
Acknowledgment Delay When Accessing the Memory
973
N01004 (F, A) Internal Software Error
973
CU: Control Module Overtemperature
974
Drive Type Unknown
974
File Upload/Download Error
974
Booting Has Been Interrupted Several Times
975
Component Lists Changed
975
Firmware Changed
975
Removable Data Medium as USB Data Storage Medium from the PC Used
976
Software Timeout (Internal)
976
Writing to RAM Disk Unsuccessful
976
Writing to the Removable Data Medium Unsuccessful
976
ACX: Parameter Back-Up File Corrupted
977
Configuration Error
977
Sign-Of-Life Failure for Master Control
977
Units Changeover: Reference Parameter Value Invalid
977
ACX: Loading the Parameter Back-Up File Unsuccessful
978
ACX: Parameter Back-Up File Missing
978
ACX: Writing to the Parameter Back-Up File was Unsuccessful
979
Save Parameter Settings and Carry out a POWER on
979
Fatal Error at Project Download
980
Parameter Error During Project Download
980
Configuring Data Invalid
981
CU: Descriptive Data Error
981
Buffer Memory: 100 % Fill Level Reached
982
Buffer Memory: 70% Fill Level Reached or Exceeded
982
CU: System Limit Exceeded
982
CU: Data Memory Memory Overflow
983
Memory Card Restored from the Backup Copy
983
Parameter Backup and Device Incompatible
983
POWER on Required for Backup Copy on Memory Card
983
CU: Insufficient Memory
984
CU: Memory Card Not Available
984
RTC: Date and Time Setting Required
984
Save to Memory Card Unsuccessful
984
CU: CU-EEPROM Incorrect Read-Only Data
985
CU: Invalid Constellation of Drive Object Types
985
CU: Time Slice Overflow
985
Terminal Initialization Has Failed
985
CU: Firmware Version out of Date
986
Topology: too Many Components on One Line
986
BICO: Interconnection Cannot be Established
987
BICO: Interconnection with Different Scalings
987
BICO: Signal Source Is Not Float Type
987
BICO: Error When Writing During a Reconnect
988
BICO: no Scaling Available
988
F01513 (N, A) BICO: Interconnection Cross DO with Different Scalings
988
BICO: Writing to Parameter Not Permitted as Master Control Is Active
989
Drive: Motor Maintenance Interval Expired
989
Error Internal Communications
989
PROFIBUS: Configuration Telegram Error
989
PROFIBUS: Connection to the Publisher Aborted
990
PROFIBUS: Connection to the Publisher Failed
990
PROFIBUS: Interruption Cyclic Connection
990
Trace: Start Not Possible
990
Trace: Recording Cycle too Short
991
Trace: Recording Not Possible as a Result of Know-How Protection
991
Trace: Recording Time too Short
991
Trace: Time Slice Clock Cycle Invalid
991
Trace: Invalid Data Type
992
Trace: Invalid Signal
992
Trace: Invalid Trigger Signal
992
Trace: Signal to be Traced Missing
992
Mtrace 0: Cannot be Saved
993
Mtrace 0: Multiple Trace Cannot be Activated
993
Trace: Parameter Cannot be Changed
993
Trace: Pretrigger Time too Long
993
Mtrace 1: Cannot be Saved
994
Mtrace 1: Multiple Trace Cannot be Activated
994
OA: Application Cannot be Loaded
994
Trace: Insufficient Control Unit Memory
994
NVRAM Fault on Action
995
OA: Insufficient Memory
995
OA: Internal Software Error
995
A03510 (F, N) Calibration Data Not Plausible
996
F03505 (N, A) Analog Input Wire Breakage
996
NVRAM Checksum Incorrect
996
A03520 (F, N) Temperature Sensor Fault
997
Power Unit: Air Intake Overtemperature
997
Power Unit: Overtemperature Depletion Layer Chip
997
Power Unit: Overtemperature Heat Sink AC Inverter
997
A05065 (F, N) Voltage Measured Values Not Plausible
998
Power Unit: Internal Overtemperature
998
Power Unit: Overtemperature Thermal Model
998
Power Unit: Rectifier Overtemperature
998
Braking Resistor Phase Asymmetry
999
Braking Resistor Phase Failure
999
Drive: Motor Overtemperature
999
Supply Voltage (P0210) Incorrectly Parameterized
999
Drive: Motor Temperature Model 1/3 Overtemperature
1000
Drive: Motor Temperature Model Configuration Alarm
1000
Drive: Incorrect Control Parameter
1001
Drive: Motor Temperature Sensor Alarm
1001
Drive: Motor Temperature Sensor Fault
1001
Macro: Execution Not Possible
1001
Macro: ACX File Not Found
1002
Macro: Condition for Waituntil Not Fulfilled
1002
Drive: Master Control on Command Present
1003
General Parameter Limit Violation
1003
Units Changeover: Parameter Limit Violation Due to Units Changeover
1003
Bypass Line Side Switch
1004
Bypass Motor Switch
1004
Drive: Line Contactor Feedback Signal Missing
1004
F07220 (N, A) Drive: Master Control by PLC Missing
1004
Drive: Automatic Restart Active
1005
Drive: Automatic Restart Interrupted
1005
Flying Restart: Measured Search Current too Low
1005
Drive: DC Quantity Control Deactivated
1006
Drive: Limit Switch Signals Not Plausible
1006
Flying Restart: Function Not Supported
1006
Flying Restart: Maximum Speed Reduced
1006
Drive: DC Link Capacitor Forming Active
1007
Drive: DC Link Voltage Maximum Controller Active
1007
Drive: DC Link Voltage Maximum Controller Deactivated
1007
Drive: DC Link Voltage Minimum Controller Active
1007
Drive: Current Controller Output Limited
1008
Drive: U/F Control, Current Limiting Controller Active
1008
F07405 (N, A) Drive: Kinetic Buffering Minimum Speed Fallen below
1008
F07406 (N, A) Drive: Kinetic Buffering Maximum Time Exceeded
1008
Drive: Flux Controller Configuration
1009
Technology Controller Actual Value Limited
1009
Drive: Setting Ramp-Function Generator for Sensorless Vector Control
1010
Free Tec_Ctrl 0 Actual Value Limited
1010
Motor Switch-In Alarm
1010
Technology Controller Parameterizing Error
1010
Drive: Drive Data Set DDS Not Present
1011
Free Tec_Ctrl 2 Actual Value Limited
1011
PID Autotuning Canceled
1011
PID Autotuning Is Activated
1011
Drive: Infeed or Power Unit Not Ready
1012
Drive: Motor Overcurrent
1012
Drive: no Power Unit Present
1012
Drive: Power Unit Overload I2T
1013
Drive: Regenerative Power Limit Exceeded (F3E)
1013
Drive: Short-Circuit/Ground Fault Detected
1013
Drive: Power Unit EEPROM Without Rated Data
1014
External Alarm
1014
External Fault
1014
Drive: Load Monitoring Pump/Fan Blocked
1015
Drive: Load Monitoring Pump/Fan no Load Condition
1015
Drive: Load Monitoring Pump Leakage
1016
F07900 (N, A) Drive: Motor Blocked
1016
Drive: Motor Overspeed
1017
Drive: Motor Speed Deviation
1017
F07902 (N, A) Drive: Motor Stalled
1017
Drive: Torque/Speed too High
1018
Drive: Torque/Speed too Low
1018
Drive: Envelope Curve Parameter Invalid
1019
Drive: Torque/Speed out of Tolerance
1019
DC Braking Active
1020
Drive: Load Failure
1020
Drive: no Motor Detected
1020
Drive: Incorrect Pole Position Identification
1021
Drive: Lq-Ld Measurement Incorrect
1021
Motor Parameter Incorrect
1021
Drive: Enable Signals for the Rotating Measurement Missing
1023
Drive: Rotating Measurement Activated
1023
Drive: Rotating Measurement Saturation Characteristic
1023
Drive: Speed Controller Optimization, Moment of Inertia
1024
Drive: Speed Controller Optimization (Oscillation Test)
1025
Drive: Incorrect Motor Data Identification
1026
Drive: Rotating Measurement Ramp-Function Generator
1026
Drive: Rotating Measurement, no Configuration Selected
1026
Drive: Motor Data Identification Activated
1027
A07994 (F, N) Drive: Motor Data Identification Not Performed
1028
F08010 (N, A) CU: Analog-To-Digital Converter
1028
F08501 (N, A) PROFINET: Setpoint Timeout
1028
PROFINET: Monitoring Time Sign-Of-Life Expired
1028
PN/COMM BOARD: Syntax Error in the Configuration File
1029
Profienergy Energy-Saving Mode Active
1029
PROFINET: Consistency Error Affecting Adjustable Parameters
1029
PROFINET: no Cyclic Connection
1029
Know-How Protection: Copy Protection Cannot be Activated
1030
Know-How Protection: Copy Protection Error
1030
Licensing OA Application Not Licensed
1030
Know-How Protection: Consistency Error of the Protected Data
1031
Power Unit: Overcurrent
1031
Power Unit: DC Link Voltage Overvoltage
1032
Power Unit: DC Link Voltage Undervoltage
1032
Power Unit: Line Phase Failure in Main Circuit
1033
Power Unit: Overload I2T
1033
F30015 (N, A) Power Unit: Phase Failure Motor Cable
1034
Power Unit: Load Supply Switched off
1034
Power Unit: Temperature Sensor Heat Sink Short-Circuit
1034
Power Unit: Temperature Sensor Heat Sink Wire Breakage
1034
Power Unit: Ground Fault
1035
Power Unit: Hardware Current Limit Has Responded too Often
1035
Power Unit: Chip Overtemperature
1036
Power Unit: Monitoring U_Ce
1036
Power Unit: Precharging DC Link Time Monitoring
1037
Power Unit: Hardware Current Limiting in Phase U
1039
Power Unit: Hardware Current Limiting in Phase V
1039
Power Unit: Internal Overtemperature Alarm
1039
Power Unit: Hardware Current Limiting in Phase W
1040
Power Unit: Fan Has Reached the Maximum Operating Hours
1041
EEPROM Data Error
1042
Power Unit: Braking Chopper Overcurrent
1042
Power Unit: Internal Fan Faulty
1042
Power Unit: Motor Holding Brake Short Circuit Detected
1042
A30065 (F, N) Voltage Measured Values Not Plausible
1043
No New Actual Values Received from the Power Module
1043
Power Unit: Line Asymmetry
1043
Power Unit: Undertemperature Inverter Heat Sink
1043
Communication Error between the Control Unit and Power Module
1044
Configuration of the Power Unit Unsuccessful
1044
Power Unit: Current Increasing too Quickly
1044
Setpoints Can no Longer be Transferred to the Power Module
1044
Power Unit: Switching Operations too Frequent
1045
PU: Actual Value Sensing Fault
1045
Error in Internal Communications
1046
Error While Booting
1046
Power Unit: DC Link Overvoltage
1046
Power Unit: Group Signal
1046
F30804 (N, A) Power Unit: CRC
1047
Power Unit: EEPROM Checksum Error
1047
Power Unit: Switching Information Not Valid
1047
Power Unit: Watchdog Timer
1047
A30999 (F, N) Power Unit: Unknown Alarm
1048
Power Unit: I2C Bus Error Occurred
1048
Power Unit: Internal Software Error
1048
Temperature Sensor Fault
1048
Cavitation Protection Failure
1049
Cavitation Protection Warning
1049
Ethernet/Ip: Configuration Error
1049
Mpc no Motor Available
1050
Mpc One Motor Available
1050
Mpc Operating Time Limit Exceeded
1050
Mpc PID Deviation Exceeded
1050
Corrective Maintenance
1051
Overview of How to Replace a Converter
1052
Permissible Replacement
1052
Replacing a Defective Converter
1052
Replacing the Converter
1052
Replacing a Converter with Data Backup
1053
Replacing a Converter with Data Backup on a Memory Card
1053
Replacing a Converter with Data Backup in the Operator Panel
1054
Replacing a Converter Without Data Backup
1054
Continuous Development Within the Scope of Product Maintenance
1056
Replacing Spare Parts
1056
Spare Parts Compatibility
1056
Spare Parts Overview
1056
Fan Units
1057
When Must the Fan Unit be Replaced?
1057
Replacing the Fan Unit, FSA ... FSC
1059
Replacing the Fan Unit, FSD ... FSG
1060
Replacing the Fan Unit, FSH/FSJ
1061
Replacing the Internal Fan, FSH/FSJ Only
1062
Assemblies for FSH and FSJ
1065
Replacing the Power Supply Board
1065
Installing the Power Supply Board
1067
Removing the FPI Board
1068
Replacing the Free Programmable Interface (FPI)
1068
Installing the FPI Board
1070
Replacing the Current Sensor
1071
Firmware Upgrade and Downgrade
1075
Overview of the Firmware Upgrade and Firmware Downgrade
1075
Preparing the Memory Card
1076
Upgrading the Firmware
1077
Firmware Downgrade
1079
Correcting an Unsuccessful Firmware Upgrade or Downgrade
1081
Technical Data of Inputs and Outputs
1083
Base Load
1086
Load Cycles and Overload Capability
1086
Load Cycles and Typical Applications
1086
Low Overload
1086
Permissible Converter Overload
1087
General Converter Technical Data
1088
Technical Data Dependent on the Power
1091
Current Derating as a Function of the Installation Altitude
1094
Derating Data
1094
Permissible Line Supplies Dependent on the Installation Altitude
1094
Current Derating as a Function of the Ambient Temperature
1095
400 V Converters
1096
Current Derating as a Function of the Input Voltage for FSA … FSG
1096
Current Derating as a Function of the Input Voltage for FSH, FSJ
1096
Current Derating as a Function of the Line Voltage
1096
690 V Converters
1097
Current Derating as a Function of the Pulse Frequency
1098
Low Frequency Performance
1100
Data Regarding the Power Loss in Partial Load Operation
1101
Definition of Terms
1102
Electromagnetic Compability of the Converter
1102
High-Frequency Interference Emissions EMC Category C3
1103
Operation in the Second EMC Environment
1103
Current Harmonics
1104
High-Frequency Interference Emissions EMC Category C2
1104
Operation in the First EMC Environment
1105
Current Harmonics of Individual Devices
1106
High-Frequency, Conducted Interference Emissions, EMC Category C1
1106
Line Harmonics Filter (LHF) for Reducing Current Harmonics
1107
Harmonics at the Power Supply Connection Point Acc. to IEC 61000-2-2
1108
Harmonics at the Power Supply Connection Point Acc. to IEEE 519
1108
Minimum Distances to the Converter
1110
Protecting Persons from Electromagnetic Fields
1110
Manuals and Technical Support
1111
Index
1115
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