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SINAMICS
Installation and Operating
Instructions SINAMICS G180
Operating Instructions
Translation of the original instructions
02/2019
4BS0751
-007
Introduction
1
Safety information
2
Description
3
Preparations for use
4
Installation
5
Electrical connection
6
Commissioning
7
Operation
8
Maintenance
9
Spare parts
10
Diagnostics, faults and
warnings
11
Service & Support
A
Quality documents
B
Technical data
C
List of abbreviations
D
ostfach 48 48
Document order number: 4BS0751
02/2019 Subject to change
Copyright © Siemens AG 2019.
All rights reserved
Legal information
Warning notice system
This manual contains notices you have to observe in order to ensure your personal safety, as well as to prevent
damage to property. The notices referring to your personal safety are highlighted in the manual by a safety alert
symbol, notices referring only to property damage have no safety alert symbol. These notices shown below are
graded according to the degree of danger.
DANGER
indicates that death or severe personal injury will result if proper precautions are not taken.
WARNING
indicates that death or severe personal injury may result if proper precautions are not taken.
CAUTION
indicates that minor personal injury can result if proper precautions are not taken.
NOTICE
indicates that property damage can result if proper precautions are not taken.
If more than one degree of danger is present, the warning notice representing the highest degree of danger will
be used. A notice warning of injury to persons with a safety alert symbol may also include a warning relating to
property damage.
Qualified Personnel
The product/system described in this documentation may be operated only by
personnel qualified
for the specific
task in accordance with the relevant documentation, in particular its warning notices and safety instructions.
Qualified personnel are those who, based on their training and experience, are capable of identifying risks and
avoiding potential hazards when working with these products/systems.
Proper use of Siemens products
Note the following:
WARNING
Siemens products may only be used for the applications described in the catalog and in the relevant technical
documentation. If products and components from other manufacturers are used, these must be recommended
or approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and
maintenance are required to ensure that the products operate safely and without any problems. The permissible
ambient conditions must be complied with. The information in the relevant documentation must be observed.
Trademarks
All names identified by ® are registered trademarks of Siemens AG. The remaining trademarks in this publication
may be trademarks whose use by third parties for their own purposes could violate the rights of the owner.
Disclaimer of Liability
We have reviewed the contents of this publication to ensure consistency with the hardware and software
described. Since variance cannot be precluded entirely, we cannot guarantee full consistency. However, the
information in this publication is reviewed regularly and any necessary corrections are included in subsequent
editions.
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 3
Table of contents
1 Introduction ............................................................................................................................................. 9
1.1 About these instructions............................................................................................................ 9
1.2 Validity ...................................................................................................................................... 9
1.3 Text format features .................................................................................................................. 9
1.4 Presentation of the display buttons in the operating instructions ........................................... 10
1.5 Specific features ..................................................................................................................... 10
2 Safety information ................................................................................................................................. 13
2.1 The five safety rules ................................................................................................................ 13
2.2 Use of tested, certified and Siemens-approved components ................................................. 14
2.3 Areas that are potentially and particularly hazardous ............................................................. 15
2.4 Notes for operator protection .................................................................................................. 16
2.5 Notes on liquid cooling ............................................................................................................ 19
2.6 Safety precautions when handling anti-freeze ........................................................................ 20
2.7 Standards and guidelines for proper use of inverters ............................................................. 21
2.8 Plant safety ............................................................................................................................. 22
2.9 Security information ................................................................................................................ 23
2.10 Components that can be destroyed by electrostatic discharge (ESD) ................................... 24
2.11 Electromagnetic fields ............................................................................................................. 26
2.12 Radio telephones and mobile telephones .............................................................................. 27
2.13 Note regarding fiber-optic cables ............................................................................................ 28
2.14 Protecting/fusing the external 230 V AC control voltage ........................................................ 28
2.15 Residual risks .......................................................................................................................... 29
3 Description ............................................................................................................................................ 31
3.1 Updating inverter software or instructions .............................................................................. 31
3.2 Order numbers / Type designations ....................................................................................... 31
3.3 Accessories ............................................................................................................................. 37
3.3.1 Use of tested, certified and Siemens-approved components ................................................. 37
3.3.2 Peripheral boards 1 to 4, -A95, option G02 to G05 ................................................................ 37
3.3.2.1 General information about the peripheral boards 1 to 4 ......................................................... 37
3.3.2.2 Electronic shutdown for "Safe halt" / PTC inputs .................................................................... 39
3.3.2.3 "Safe torque off" with single circuit trip ................................................................................... 42
3.3.2.4 "Safe torque off" with two circuit version ................................................................................. 43
3.3.2.5 Switchover, single circuit <-> two circuit tripping .................................................................... 43
3.3.2.6 Checking the "Safe halt" function ........................................................................................... 45
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4 Operating Instructions, 02/2019, 4BS0751-007
3.3.2.7 PTC inputs for motor PTC thermistor..................................................................................... 47
3.3.3 Brake transistor and brake resistor ........................................................................................ 49
3.3.3.1 Dimensioning the brake resistor ............................................................................................ 49
3.3.3.2 Connecting the brake resistor ................................................................................................ 49
3.3.4 Parameter overview ............................................................................................................... 50
3.3.5 "Factory settings" application ................................................................................................. 50
3.3.6 Protective cover IP21 for compact and compact Plus devices .............................................. 51
3.3.7 Main switch "Q 2T..." or "W 2T..." .......................................................................................... 52
3.3.8 DC link terminals for compact devices ................................................................................... 52
3.3.9 External display ...................................................................................................................... 54
3.3.10 RFI suppression filter, category C1 (class B) ........................................................................ 55
3.3.11 Strengthened du/dt filter ......................................................................................................... 55
3.3.12 Sine-wave filter....................................................................................................................... 55
3.3.13 Additional mains power protection chokes ............................................................................ 55
3.3.14 Optional fieldbus connection .................................................................................................. 56
3.3.14.1 PROFIBUS DP ....................................................................................................................... 56
3.3.14.2 PROFINET IO ........................................................................................................................ 57
3.3.14.3 Modbus RTU .......................................................................................................................... 60
3.3.14.4 Modbus TCP .......................................................................................................................... 63
3.3.15 Pre-switch mode power supply 300 W .................................................................................. 65
3.3.16 Water cooling ......................................................................................................................... 66
3.3.16.1 General information about water cooling ............................................................................... 66
3.3.16.2 Direct water cooling diagram ................................................................................................. 67
3.3.16.3 Connecting water cooling ....................................................................................................... 68
3.3.16.4 Venting the water cooling ....................................................................................................... 68
3.3.16.5 Decommissioning and shutdown ........................................................................................... 69
3.3.16.6 Cooling water additives for the closed inverter cooling with cooling unit (optional) ............... 69
4 Preparations for use .............................................................................................................................. 71
4.1 Transporting inverter .............................................................................................................. 71
4.2 Storage of the inverters .......................................................................................................... 74
4.3 EMC ....................................................................................................................................... 75
4.3.1 Install and connect in accordance with EMC. ........................................................................ 75
4.3.2 Examples for correct EMC connection .................................................................................. 76
4.3.3 Radio interference class ........................................................................................................ 78
4.3.4 EMC environment category ................................................................................................... 79
4.4 Realizing operation in the explosion-protected zone ............................................................. 80
5 Installation ............................................................................................................................................ 83
5.1 Installing inverter - General notes .......................................................................................... 83
5.2 Installing compact devices ..................................................................................................... 84
5.3 Protective cover IP21 for compact and compact Plus devices .............................................. 85
5.4 Installing cabinet units ............................................................................................................ 86
5.5 Mounting an external display (option) .................................................................................... 88
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Operating Instructions, 02/2019, 4BS0751-007 5
6 Electrical connection ............................................................................................................................. 91
6.1 General information about the electrical connection .............................................................. 91
6.2 Protecting the inverter ............................................................................................................. 92
6.3 Circuit breaker ......................................................................................................................... 92
6.4 Connecting control cable ........................................................................................................ 93
6.5 Line supply connection ........................................................................................................... 93
6.5.1 Suitable supply line configurations ......................................................................................... 93
6.5.2 Dimensioning mains power cables ......................................................................................... 94
6.5.3 RCD circuit breaker ................................................................................................................. 94
6.5.4 Connecting mains power cable to the inverter ....................................................................... 95
6.5.5 Inverter connection for different pulse operation .................................................................... 96
6.5.6 Adjusting the line voltage at the inverter ................................................................................. 97
6.6 Motor connection .................................................................................................................... 98
6.6.1 Motor selection ........................................................................................................................ 98
6.6.2 Coil load .................................................................................................................................. 99
6.6.3 Motor voltage and type of circuit ............................................................................................. 99
6.6.4 Dimensioning motor cables .................................................................................................. 100
6.6.5 Dimensioning maximum motor cable length ......................................................................... 100
6.6.6 Connecting motor cable ........................................................................................................ 102
6.6.7 Connecting the PTC thermistor of the motor to the inverter ................................................. 102
6.7 External control voltage ........................................................................................................ 103
6.7.1 Use of external control voltage ............................................................................................. 103
6.7.2 Connecting the external 230 V AC control voltage ............................................................... 103
6.7.2.1 Protecting/fusing the external 230 V AC control voltage ...................................................... 103
6.7.2.2 Switching over the hardware to an external 230 V AC control voltage ................................ 104
6.7.2.3 Preparations for accessing the "switching power supply" board .......................................... 104
6.7.2.4 Connecting the external 230 V AC for compact devices ...................................................... 111
6.7.2.5 Control voltage 230 V AC for cabinet units ........................................................................... 111
6.7.3 Connecting the external 24 V DC control voltage ................................................................. 112
6.7.3.1 Protecting/fusing the external 24 V DC control voltage ........................................................ 112
6.7.3.2 Switching over the hardware to an external 24 V DC control voltage .................................. 112
7 Commissioning ................................................................................................................................... 115
7.1 Checks without mains power supply and without motor ....................................................... 115
7.2 Checks with mains power supply and without motor ............................................................ 117
7.3 Checks with mains power supply and with motor ................................................................. 121
7.4 Checking with motor coupled to the work machine .............................................................. 122
8 Operation ............................................................................................................................................ 123
8.1 Operation .............................................................................................................................. 123
8.1.1 Function of the inverter display ............................................................................................. 123
8.1.2 Switching the unit on and off ................................................................................................. 125
8.1.3 Setting the language ............................................................................................................. 125
8.1.4 Setting the date and time ...................................................................................................... 126
8.1.5 Setting the level of detail of the inverter menu ..................................................................... 126
8.1.6 Inverter operating commands ............................................................................................... 126
8.1.7 Configuring operating sources .............................................................................................. 128
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6 Operating Instructions, 02/2019, 4BS0751-007
8.1.8 Invoking mode configurations .............................................................................................. 128
8.1.9 Communication Options ....................................................................................................... 129
8.1.10 Meaning of the abbreviations for operating functions .......................................................... 130
8.1.11 "P-fieldbus" function ............................................................................................................. 130
8.1.12 Function of "P-DIGITAL OUTPUTS" .................................................................................... 131
8.1.13 Function of "P-ANALOG OUTPUTS" ................................................................................... 131
8.1.14 Operation of several inverters on one PC ............................................................................ 131
8.1.15 Communication via PROFINET IO ...................................................................................... 132
8.1.15.1 Communication services and port numbers used for PROFINET IO .................................. 132
8.1.15.2 Overview .............................................................................................................................. 133
8.1.15.3 Network security................................................................................................................... 134
8.1.15.4 Separation between production and office networks ........................................................... 134
8.1.15.5 Network segmentation with SCALANCE S .......................................................................... 135
8.2 Standard mode settings ....................................................................................................... 135
8.2.1 Mode "std siss" ..................................................................................................................... 135
8.2.2 Mode "std sisd" .................................................................................................................... 136
8.2.3 Mode "std dids" .................................................................................................................... 137
8.2.4 Mode "std didd" .................................................................................................................... 138
8.3 NAMUR mode settings ........................................................................................................ 138
8.3.1 Operation according to NAMUR defaults ............................................................................. 138
8.3.2 Operation according to "NAMUR 1" ..................................................................................... 139
8.3.3 Operation according to "NAMUR 2" ..................................................................................... 140
8.3.4 Operation according to "NAMUR 3" ..................................................................................... 141
8.3.5 Operation according to "NAMUR 4" ..................................................................................... 142
8.3.6 Operation according to "NAMUR 5" ..................................................................................... 143
8.3.7 Operation according to "NAMUR 6" ..................................................................................... 144
8.4 Controlling the external connections of the inverter............................................................. 145
8.4.1 Function of the control cable terminals ................................................................................ 145
8.4.2 Protective separation according to EN 61800-5-1 ............................................................... 145
8.4.3 Sub-D and USB connections and DIL switches ................................................................... 148
8.4.4 USB interface ....................................................................................................................... 149
8.4.5 DIL switches "S1" and "S2" .................................................................................................. 149
8.4.6 Connecting encoders ........................................................................................................... 151
8.4.7 Connect the PC via USB at -X50B....................................................................................... 153
8.4.8 Connecting a PC to -X51 via RS 232................................................................................... 154
8.4.9 Connection for optional external display with RS 485 ......................................................... 155
8.5 Special functions .................................................................................................................. 156
8.5.1 Protective functions .............................................................................................................. 156
8.5.2 Multiple function of the analog and digital inputs ................................................................. 160
8.6 Setpoint channel and closed-loop control ............................................................................ 164
8.6.1 Specifying source for speed setpoint ................................................................................... 164
8.7 Parameterization .................................................................................................................. 164
8.7.1 Principle of operation of the configuration ........................................................................... 164
8.7.2 Protecting parameters against modification ......................................................................... 166
8.7.3 Configuration using the inverter display ............................................................................... 166
8.7.4 More documentation about parameterization ...................................................................... 167
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Operating Instructions, 02/2019, 4BS0751-007 7
8.8 Examples / Applications ........................................................................................................ 168
8.8.1 "Standard" application ........................................................................................................... 168
8.8.1.1 Standard control cable terminals .......................................................................................... 168
8.8.1.2 Control cable terminals "peripheral board 1" ........................................................................ 169
8.8.1.3 Control cable terminals "peripheral board 2" ........................................................................ 169
8.8.1.4 Control cable terminals "peripheral board 3" ........................................................................ 170
8.8.1.5 Control cable terminals "peripheral board 4" ........................................................................ 171
8.8.1.6 Mode setting of the "Standard" application ........................................................................... 171
8.8.1.7 Assignment of the digital inputs ............................................................................................ 172
8.8.1.8 Assignment of the digital outputs .......................................................................................... 172
8.8.1.9 Assignment of the analog inputs ........................................................................................... 172
8.8.1.10 Assignment of the analog outputs ........................................................................................ 173
8.8.1.11 Input "Safe torque off" / PTC thermistor inputs on peripheral board .................................... 173
8.8.2 "NAMUR" application ............................................................................................................ 175
8.8.2.1 Control cable terminals for "NAMUR" application ................................................................. 175
8.8.2.2 Control cable terminals "peripheral board 4" ........................................................................ 177
8.8.2.3 Mode setting of the NAMUR application ............................................................................... 178
8.8.2.4 Assignment of the relay outputs ........................................................................................... 178
8.8.2.5 Assignment of the analog inputs ........................................................................................... 179
8.8.2.6 Assignment of the analog outputs ........................................................................................ 179
8.8.2.7 Input "Mandatory mains power isolation" / PTC thermistor inputs on peripheral board ....... 179
9 Maintenance ....................................................................................................................................... 181
9.1 Maintenance and servicing ................................................................................................... 181
9.2 Replacing compact device .................................................................................................... 182
9.3 Replacing fans for the compact device ................................................................................. 183
9.4 Maintenance and service of water cooling (option) .............................................................. 183
9.5 Decommissioning .................................................................................................................. 183
10 Spare parts ......................................................................................................................................... 185
10.1 Non-approved spare parts .................................................................................................... 185
10.2 Spare parts ........................................................................................................................... 185
11 Diagnostics, faults and warnings ......................................................................................................... 187
11.1 Reading event log ................................................................................................................. 188
A Service & Support ............................................................................................................................... 189
A.1 Contacts in Ruhstorf an der Rott location (Germany) ........................................................... 190
B Quality documents .............................................................................................................................. 191
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Installation and Operating Instructions SINAMICS G180
8 Operating Instructions, 02/2019, 4BS0751-007
C Technical data ..................................................................................................................................... 193
C.1 Technical data for transportation ......................................................................................... 194
C.2 Technical data for storage ................................................................................................... 194
C.3 Frame sizes of compact units .............................................................................................. 195
C.4 Frame sizes of cabinet units ................................................................................................ 197
C.5 Technical data for operation ................................................................................................ 200
C.6 Tightening torques for power cables .................................................................................... 201
C.7 Technical data of the control cable terminals ...................................................................... 201
C.8 Technical data and identification of the PTC thermistor input at peripheral boards 2
and 4 .................................................................................................................................... 203
C.9 Technical data of the direct water cooling ........................................................................... 204
C.10 Permissible substance values for the cooling water ............................................................ 205
C.11 Threshold values for fan control system .............................................................................. 206
C.12 Derating ................................................................................................................................ 206
C.12.1 Current derating ................................................................................................................... 206
C.12.2 Voltage derating ................................................................................................................... 209
D List of abbreviations ............................................................................................................................. 211
Index ................................................................................................................................................... 213
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 9
Introduction
1
1.1
About these instructions
These Operating Instructions describe the device and provide you with information about
handling it - from the initial shipment up to disposal. Keep these instructions for later use.
Read these Operating Instructions and comply with the information provided in them. In this
way you can ensure safe, problem-free operation and a long service life.
Safety information and handling-related warnings are provided in these Operating
Instructions. For your own safety, the safety of other persons and to avoid material damage,
carefully follow these instructions when carrying out any work.
If you have suggestions for improving the document, please contact our Service Center.
1.2
Validity
This document is applicable for SINAMICS G180 T7 (not capable of energy recovery), Order
number "6SE01…", from software version 11C0242/CF78
1.3
Text format features
Text format features
You can find the following text format features in these instructions:
1. Handling instructions are always formatted as a numbered list. Always perform the steps
in the order given.
Lists are formatted as bulleted lists.
Lists on the second level are hyphenated.
Note
The note provides you with additional information about the product itself, handling the
product
- and the relevant documentation.
Introduction
1.4 Presentation of the display buttons in the operating instructions
Installation and Operating Instructions SINAMICS G180
10 Operating Instructions, 02/2019, 4BS0751-007
1.4
Presentation of the display buttons in the operating instructions
Table 1- 1 Presentation of the display buttons in the text
Button on the inverter display
Presentation in the text
<On>
<Off>
<P>
<S>
<I>
<ENTER>
<up arrow>
<down arrow>
1.5
Specific features
The following text formats are used in this operating manual.
Introduction
1.5 Specific features
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 11
Display buttons
Table 1- 2 Display of special markings
Description in the text
Meaning
<Arrow up>
Press the button on the control panel once.
<Arrow up_ Arrow up> Press the button on the control panel twice.
<S+I>
Press both buttons simultaneously.
Display text
"P-SYSTEM DATA"
Text shown in the control panel display is presented like this.
If you have to branch in a menu, the text will be shown as follows:
"
P-MACHINE POWER CONV/P-speed default/t-accel.". "P-MACHINE POWER CONV"
symbolizes the main menu, "P-speed default" the submenu and "t-accel." the parameter.
In this case, you parameterize the accelerating time in the corresponding menu. Several
submenus can be nested.
Introduction
1.5 Specific features
Installation and Operating Instructions SINAMICS G180
12 Operating Instructions, 02/2019, 4BS0751-007
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 13
Safety information
2
2.1
The five safety rules
For your personal safety and in order to prevent material damage it is essential that you
adhere to all the safety notices contained in your product documentation. Pay particular
attention to the safety notices on the product itself. When working on the equipment, always
observe the following five safety rules as defined by EN 50110-1 "Working in a voltage-free
state". Apply the five safety rules in the sequence stated before starting work.
Five safety rules
1. Disconnect the system.
Disconnect the auxiliary circuits, for example anti-condensation heating.
Wait until the capacitors have discharged.
2. Lockout to protect against reconnection.
3. Make sure that the equipment is de-energized and in a no-voltage condition.
4. Ground and short-circuit.
5. Cover or enclose adjacent components that are still live.
When you have finished working on the equipment, apply the measures in reverse order.
DANGER
High voltages
Potentially fatal voltages occur when this equipment is in operation which can remain
present even after the inverter is switched off.
High voltages cause death, serious injury or material damage if the safety instructions are
not observed or if the equipment is handled improperly.
Ensure that only qualified and authorized personnel perform work on the inverter.
Always observe the five safety rules specified above whenever you are carrying out any
work on the device.
Safety information
2.2 Use of tested, certified and Siemens-approved components
Installation and Operating Instructions SINAMICS G180
14 Operating Instructions, 02/2019, 4BS0751-007
2.2
Use of tested, certified and Siemens-approved components
Observe the following instructions if you would like to integrate your own components in the
system.
WARNING
Components which are not approved
It is dangerous to use components which are not tested, not certified and not approved by
Siemens. This can result in death, serious injury or material damage.
Use only components which are tested, certified and approved by Siemens.
Safety information
2.3 Areas that are potentially and particularly hazardous
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 15
2.3
Areas that are potentially and particularly hazardous
Certain areas in the inverter can represent a hazard during operation. The diagram highlights
these areas that represent a potential hazard.
Observe the following safety notices and comply with all rules and instructions.
Stopping the inverter via the display or by means of external control devices does not discon-
nect the inverter from the line voltage.
When you press the EMERGENCY OFF button, this does not mean that the converter is volt-
age-free immediately.
Danger due to hazardous voltages when the cabinet doors are open.
These voltages can remain due to self-excitation if the connection to the motor is not removed.
Some surfaces in the inverter are hot during operation and for some time afterwards. Fans in
the inverter can continue to rotate after the unit has been switched off.
After disconnection of the line voltage, hazardous voltages can persist in the DC link (with
current-source DC link converters: in the commutation capacitors) or from external or auxiliary
power sources after the converter has been disconnected from the line voltage.
Depending on parameter settings and connection of external control devices, the inverter can
start up automatically when the line voltage is connected.
Figure 2-1 Areas that are potentially and particularly hazardous
Safety information
2.4 Notes for operator protection
Installation and Operating Instructions SINAMICS G180
16 Operating Instructions, 02/2019, 4BS0751-007
WARNING
Live components
During operation and shortly after the system has been switched off with the EMERGENCY
OFF button, high voltages are still present in the converter and its components. These
voltages may remain if the connection to the motor is not removed or grounded. This
danger exists with permanent-magnet synchronous motors and synchronous motors which
are not de-excited immediately. These voltages may remain if the connection to the motor
is not removed or grounded. High voltages cause death or serious injury if the safety
instructions are not observed or if the equipment is handled improperly.
Never open the covers or doors when the system is in operation or while the DC link
capacitors are still discharging (in the case of current-source DC link inverters:
commutation capacitors). The DC link capacitors (commutation capacitors) can take up to
10 minutes to discharge (or 5 minutes with compact devices) after the EMERGENCY OFF
button is actuated.
WARNING
Automatic startup
Depending on parameter settings and connection of external control devices, the inverter
can start up automatically when the line voltage is connected. This can result in death,
serious injury or material damage.
Confirm whether or not your system is capable of automatic starting and, if appropriate,
take measures to ensure personal safety and operational readiness at the driven machine.
2.4
Notes for operator protection
Read the following information about personal protection.
The device complies with the safety requirements according to EN 61800-5-1 and UL 508 C.
Specialist personnel
Ensure that any transport, installation, operation or maintenance work is carried out by
qualified, trained staff.
The minimum qualification must be that of an electrician in
accordance with EN 50110 "Operation of electrical systems".
For the purpose of these basic safety instructions, "skilled technical personnel" means
people who are familiar with the installation, mounting, commissioning and operation of the
product. They must be properly qualified for the tasks with which they are charged. Qualified
personnel must also be thoroughly familiar with all the safety-related instructions and
measures described in the product documentation.
Safety information
2.4 Notes for operator protection
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 17
Safety-relevant information for working on the inverter
DANGER
Live, moving or rotating parts
Inverters have live, moving or rotating parts.
Death or serious injury can result if any essential covers are removed without authorization
or in the case of improper use or incorrect installation or operation.
Always take all the necessary precautions before working on the device.
DANGER
High voltages
High voltages cause death or serious injury if the safety instructions are not observed or if
the equipment is handled improperly.
Voltages of more than 50 V are present when this unit is operational. These voltages may
remain for some time after switching off or as long as the motor is turning over.
Make sure that work is only carried out by qualified personnel under due observance of the
five safety rules, the information in these operating instructions, and the instructions on the
product itself.
DANGER
Auxiliary and external supply systems
Hazardous voltages (e.g. control voltage, signal voltage, supply voltage for heaters and
fans) can persist even after the inverter has been switched off. Contact with live parts can
result in death or serious injury.
Make sure that work is only carried out by qualified personnel under due observance of the
five safety rules, the information in these operating instructions, and the instructions on the
product itself.
DANGER
Electric shock
If you carry out servicing work on the inverter without safely disconnecting the power
supply, serious injury or death due to electric shock can occur. The PTC input is not an
Emergency Off input which safely disconnects the inverter or the motor from the line
supply.
Safely and reliably disconnect the power supply before opening covers or terminal boxes at
the inverter. For example, use a main switch.
Safety information
2.4 Notes for operator protection
Installation and Operating Instructions SINAMICS G180
18 Operating Instructions, 02/2019, 4BS0751-007
DANGER
High voltages
Electrical accidents including electric shock occur when general safety instructions for
working on the device are not observed. Death, serious injury or material damage will
result.
Please note the following information for your safety:
Always observe the five safety rules whenever you are carrying out any work on the
device.
Always disconnect the equipment before working on it.
Leave the covers in place during normal operation and keep the cabinet doors closed.
Do not use any instrumentation if you know it is defective or damaged.
Secure the main circuit breaker in the OFF position so that it cannot be reconnected, for
example by removing the switch unit when working on a connected motor or the feeder
cable to the motor.
Ground the inverter cabinet and chassis units properly to ensure that no accessible
parts of the equipment are energized or connected in any way to a dangerous voltage
source.
Use an earthing spider for grounding purposes. Read the information provided in the
section "Safety instructions regarding maintenance and repairs" in "Maintenance and
servicing" in your operating instructions.
Wear personnel protective gear such as goggles, ear protection and helmet to protect
yourself against injury.
Always follow the national regulations and local specifications when working on the
equipment.
DANGER
DC link capacitor discharge time
After the mains power has been switched off, high voltages still persist in the DC link
capacitors.
These cause death or serious injury if the safety instructions are not observed or if the
equipment is handled incorrectly.
The DC link capacitors require up to 10 minutes (5 minutes for compact units) before they
are discharged to a safe value (< 60 V).
After you have switched off the main power supply, do not touch the device or carry out any
maintenance work or repair work until the discharge time of 10 minutes (5 minutes for
compact devices) have elapsed.
Measure the voltage once the discharge time has elapsed.
Safety information
2.5 Notes on liquid cooling
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 19
CAUTION
Hot surfaces
Certain components (e.g. the heat sink or filter reactor) can become very hot during
operation. These components can remain hot for a long time after operation.
The anti-condensation heating (optional) is switched on when the inverter is not operating
and the limit value set for the temperature control is reached. Once activated, the anti-
condensation heating can generate a great deal of heat.
Contact with hot surfaces can cause injuries (such as burns to the skin).
Never touch hot components just after you have switched off the inverter. Always take the
appropriate precautions before touching any components.
2.5
Notes on liquid cooling
Follow the safety instructions for liquid-cooled converters.
WARNING
Electric shock as a result of defective cooling liquid system
Short circuits can develop in electrical installations when liquid escapes from cooling
circuits. This can result in death, serious injury or material damage.
Note the technical data of the liquid cooling system. You will find this data in Chapter
"Technical data of direct liquid cooling system" (Page 204) - and the technical data
sheet.
Note the information in section "Permissible substance values for the cooling water"
(Page 205).
Note the information in section "Liquid cooling" (Page 66).
Protect the cooling liquid circuits against excess pressure, e.g. by installing a relief
valve.
Make sure that the pipework installation and pressure testing procedures comply with
local safety regulations and national safety guidelines.
Safety information
2.6 Safety precautions when handling anti-freeze
Installation and Operating Instructions SINAMICS G180
20 Operating Instructions, 02/2019, 4BS0751-007
2.6
Safety precautions when handling anti-freeze
CAUTION
Physical injury caused by burns or poisoning is possible
Antifreeze is harmful to health. Inhalation or swallowing can lead to burns or poisoning.
Observe the following health and safety precautions when handling antifreeze:
Do not inhale vapors.
Keep the antifreeze away from food and beverages.
Wear protective gloves and safety goggles.
Avoid contact with skin and eyes.
NOTICE
Leaking antifreeze has a corrosive effect and may cause short-circuits.
When a connection is disconnected in the cooling circuit, antifreeze can escape and drip
down onto lower areas. These areas can corrode and therefore cause short-circuits.
Whenever you disconnect a connection in the cooling circuit, cover lower areas. Thoroughly
remove antifreeze from areas that it has come into contact with and clean. Completely
remove all residues.
NOTICE
Impurities in the cooling circuit can cause converter modules to fail
When carrying out any work on the cooling circuit, ensure that no impurities (e.g. dust,
sand, fluff, chips, etc.) are able to enter the cooling circuit. Make sure that all containers
and hoses, with which you handle the antifreeze are clean and are exclusively used for the
antifreeze.
Safety information
2.7 Standards and guidelines for proper use of inverters
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 21
First aid measures
The following table lists the first aid measures:
Table 2- 1 Antifreeze: First aid measures
Event
Measure
Wetted clothing
Remove clothing immediately.
Skin contact Wash off immediately with plenty of water.
Eye contact Rinse thoroughly and immediately with plenty of water and seek medical
advice.
If swallowed If the affected person is completely conscious, immediately induce vomit-
ing. In any case, consult a doctor.
In addition, observe the provisions of the EC safety data sheet in accordance with
91/155/EEC, as well as the generally applicable first aid rules.
2.7
Standards and guidelines for proper use of inverters
Inverters are components which are intended for installation in electrical systems or machines.
Commissioning of the inverters is prohibited until one of the following two conditions is
verifiably fulfilled.
The machine complies with the requirements of the following directives:
Machinery directive 2006/42/EG
EMC directive 2014/30/EG
The electrical installation complies with the requirements of the following directives:
Low-voltage directive 2014/35/EG
EMC directive
The inverters comply with the requirements of the low-voltage directive 2014/35/EG and the
EMC directive 2014/30/EG.
To ensure that this equipment functions perfectly and safely, observe the following:
Transportation in accordance with proper procedures
Proper storage
Proper installation and assembly
Careful operation
Careful maintenance
The unit must only be used for the applications specified in the catalog and only in
conjunction with devices and components recommended and approved by Siemens.
Safety information
2.8 Plant safety
Installation and Operating Instructions SINAMICS G180
22 Operating Instructions, 02/2019, 4BS0751-007
Note
Familiarize yourself with the local safety requirements and national safety guidelines and
always observe them.
2.8
Plant safety
Read the following information about safeguarding the equipment.
DANGER
Unsecured installation site
This inverter is intended for use in industrial power installations and machines.
Accidents can occur if the equipment is not used for the intended purpose, is incorrectly
operated, is inadequately maintained or can be accessed by unauthorized persons. Death,
serious injury or material damage will result.
Secure the installation site against unauthorized access when using the inverter outside
industrial areas using suitable equipment (e.g. safety fences) and corresponding signage.
Install the inverter in a suitable area to which only properly trained personnel have access.
Procedure
You are responsible for the safety of the system.
You must ensure that the following requirements are fulfilled:
Basic planning and all the work involved in transporting, assembling, installing,
commissioning, maintaining and repairing the equipment is only carried out by qualified
personnel or personnel supervised by responsible skilled technicians.
The operating instructions and the complete product documentation are always available
when carrying out any work.
The technical data and specifications regarding the permissible installation, connection,
environmental, and operating conditions are observed consistently.
The system-specific installation and safety regulations are observed and measures are
taken to ensure personal safety.
It is prohibited for unqualified persons to work on these devices or in their vicinity.
The product documentation, especially the operating instructions, and the notices on the unit
itself therefore contain only the information required by qualified personnel to use the
installations or machines for their intended purpose.
Safety information
2.9 Security information
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 23
Note
Siemens Service Centers
The services and support provided by the Siemens service centers are recommended for
planning, installation, commissioning, and servicing work.
Note
Engineering information
Systems in which
the inverters are installed must be fitted with additional monitoring and
safety devices in order to comply with safety requirements (e.g. equipment and product
safety law, accident prevention regulations).
2.9
Security information
Siemens provides products and solutions with industrial security functions that support the
secure operation of plants, systems, machines and networks.
In order to protect plants, systems, machines and networks against cyber threats, it is
necessary to implement and continuously maintain a holistic, state-of-the-art industrial
security concept. Siemens’ products and solutions constitute one element of such a concept.
Customers are responsible for preventing unauthorized access to their plants, systems,
machines and networks. Such systems, machines and components should only be
connected to an enterprise network or the internet if and to the extent such a connection is
necessary and only when appropriate security measures (e.g. firewalls and/or network
segmentation) are in place.
For additional information on industrial security measures that may be implemented, please
visit
https://www.siemens.com/industrialsecurity.
Siemens’ products and solutions undergo continuous development to make them more
secure. Siemens strongly recommends that product updates are applied as soon as they are
available and that the latest product versions are used. Use of product versions that are no
longer supported, and failure to apply the latest updates may increase customer’s exposure
to cyber threats.
To stay informed about product updates, subscribe to the Siemens Industrial Security RSS
Feed under
https://www.siemens.com/industrialsecurity.
Safety information
2.10 Components that can be destroyed by electrostatic discharge (ESD)
Installation and Operating Instructions SINAMICS G180
24 Operating Instructions, 02/2019, 4BS0751-007
WARNING
Unsafe operating states resulting from software manipulation
Software manipulations (e.g. viruses, trojans, malware or worms) can cause unsafe
operating states in your system that may lead to death, serious injury, and property
damage.
Keep the software up to date.
Incorporate the automation and drive components into a holistic, state-of-the-art
industrial security concept for the installation or machine.
Make sure that you include all installed products into the holistic industrial security
concept.
Protect files stored on exchangeable storage media from malicious software by with
suitable protection measures, e.g. virus scanners.
WARNING
Malfunctions of the machine as a result of incorrect or changed parameter settings
As a result of incorrect or changed parameterization, machines can malfunction, which in
turn can lead to injuries or death.
Protect the parameterization (parameter assignments) against unauthorized access.
Handle possible malfunctions by taking suitable measures, e.g. emergency stop or
emergency off.
2.10
Components that can be destroyed by electrostatic discharge (ESD)
ESD guidelines
Material damage caused by electrostatic discharge.
Electronic components can be destroyed in the event of improper handling, transport,
storage, and shipping.
Pack the electronic components in appropriate ESD packaging; e.g. ESD foam, ESD
packaging bags and ESD transport containers.
Safety information
2.10 Components that can be destroyed by electrostatic discharge (ESD)
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 25
To protect your equipment against damage, follow the instructions given below.
Avoid physical contact with electronic components. If it is essential that you perform work
on these components, you must wear one of the following pieces of protective gear:
Grounded ESD wrist strap
ESD shoes or ESD shoe grounding strips if there is also an ESD floor.
Do not place electronic components close to data terminals, monitors or televisions.
Maintain a minimum clearance to the screen (> 10 cm).
Electronic components should not be brought into contact with electrically insulating
materials such as plastic foil, plastic parts, insulating table supports or clothing made of
synthetic fibers.
Bring components into contact only with ESD-compliant materials, e.g. ESD tables, ESD
surfaces, ESD packaging.
Only carry out measurements on the components if one of the following conditions is met:
The measuring device is grounded with a protective conductor, for example.
The measuring head of a floating measuring device has been discharged directly
before the measurement.
The necessary ESD protective measures for the entire working range for electrostatically
sensitive devices are illustrated once again in the following drawings.
Precise instructions for ESD protective measures are specified in the standard
DIN EN 61340-5-1.
a =
Conductive floor covering
1)
b =
ESD furniture
c =
ESD shoes or ESD shoe grounding strips
2)
d =
ESD clothing
e =
ESD wrist strap
f =
Cabinet ground connection
1)
Only effective in conjunction with ESD shoes or ESD shoe grounding strips
2)
Only effective in conjunction with conductive floor covering
Figure 2-2 ESD information
Safety information
2.11 Electromagnetic fields
Installation and Operating Instructions SINAMICS G180
26 Operating Instructions, 02/2019, 4BS0751-007
2.11
Electromagnetic fields
WARNING
Electromagnetic fields "electro smog"
Electromagnetic fields are produced during operation of electrical energy technology
systems, e.g. transformers, inverters, motors etc.
Electromagnetic fields can interfere with electronic devices, which could cause them to
malfunction. For example, the operation of heart pacemakers can be impaired, potentially
leading to damage to a person's health or even death. It is therefore forbidden for persons
with heart pacemakers to enter these areas.
The plant operator is responsible for taking appropriate measures (labels and hazard
warnings) to adequately protect operating personnel and others against any possible risk.
Observe the relevant nationally applicable health and safety regulations. In Germany,
"electromagnetic fields" are subject to regulations BGV B11 and BGR B11 stipulated by
the German statutory industrial accident insurance institution.
Display adequate hazard warning notices.
Place barriers around hazardous areas.
Take measures, e.g. using shields, to reduce electromagnetic fields at their source.
Make sure that personnel are wearing the appropriate protective gear.
Safety information
2.12 Radio telephones and mobile telephones
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 27
2.12
Radio telephones and mobile telephones
Safety instructions
CAUTION
Radio telephones
If you use radio communication equipment > 2 W in close proximity to the inverter, damage
to equipment of the type specified below can occur and possibly result in physical injuries to
personnel:
Missing pulses during inverter operation can occur.
Defects of the power elements can occur.
The inverter can shut down.
Contactors can chatter.
Interference on binary outputs.
Do not use radio telephones > 2 W in close proximity to the device.
Radio telephones with lower outputs must not be used at a distance of less than 1 m from
the inverter.
CAUTION
Mobile telephones
The use of mobile telephones near the inverter when it is in operation can result in the
generation of erroneous pulses and possibly give rise to physical injuries to personnel.
Switch off mobile telephones when you are near the device.
Safety information
2.13 Note regarding fiber-optic cables
Installation and Operating Instructions SINAMICS G180
28 Operating Instructions, 02/2019, 4BS0751-007
2.13
Note regarding fiber-optic cables
Fiber-optic cable systems are deployed in some inverters. Please observe the following
warning.
Figure 2-3 Photography prohibited
CAUTION
Erroneous pulses in fiber-optic cables
Erroneous pulses in fiber-optic cables caused by camera flash lights can result in
malfunction and damage to the inverter and motor and potentially result in injury to
personnel.
It is not permissible to photograph inverters with fiber-optic cable systems using a camera
flash light when they are in operation! Only photograph these types of inverters when they
are in a no-voltage state.
2.14
Protecting/fusing the external 230 V AC control voltage
WARNING
External control voltage without fuse protection
If you use an external control voltage without suitable protection (e.g. fuses), then
overloads and short-circuits can occur. This can result in death, serious injury or material
damage.
The device may only be operated with a protected external control voltage. Note the
following recommendation.
Install one of the following options to protect the external control voltage:
Miniature fuse in accordance with EN 60127: 2 A … 6 A, slow, maximum 150 VA
Miniature circuit-breaker: 2 A … 6 A, characteristic D, maximum 150 VA
Safety information
2.15 Residual risks
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 29
2.15
Residual risks
According to the EU machinery directive, machine manufacturers / plant operators must
conduct a risk assessment of their machine. Plant operators must conduct a risk assessment
of their plant. In particular, pay attention to "General Principles" of the EC Machinery
Directive.
Pay attention to the following residual risks:
1.
Unintentional movement of driven machine parts
Unintentional movements of driven machine parts can occur during commissioning,
operation, maintenance, and repair, e.g. from the following causes:
Hardware defects and/or software errors in the sensors, controllers, actuators, and
connection technology
Response times of the controller and drive
Operating and/or environmental conditions outside of the specification
Condensation/conductive contamination
Parameterization, programming, cabling, and installation errors
Use of radio devices/cellular phones in the immediate vicinity of the controller
External influences/damage
2.
High temperatures and emissions
A fault can occur as a result of the following, for example:
Component malfunctions
Software errors
Operating and/or environmental conditions outside of the specification
External influences/damage
A fault can, for example, have the following consequences both inside and outside the
drive:
Extraordinarily high temperatures, including open fires as a result of the fault
Emissions of light, noise, particles or gases
Converters with open type/IP20 degree of protection must be installed in an electrical
room or a comparable environment.
3.
Hazardous shock voltages
Hazardous shock voltages can result from the following causes, for example:
Component malfunctions
Influence during electrostatic charging
Induction of voltages in moving motors
Operating and/or environmental conditions outside of the specification
Condensation/conductive contamination
External influences/damage
Safety information
2.15 Residual risks
Installation and Operating Instructions SINAMICS G180
30 Operating Instructions, 02/2019, 4BS0751-007
4.
The release of substances and emissions that are harmful to the environment
Improper operation or the improper disposal of components can harm the environment.
5.
Hazard caused by electrical, magnetic, and electromagnetic fields
Electrical, magnetic and electromagnetic fields generated in operation that can pose a
risk to people with a pacemaker, implants, or metal replacement joints, etc., if they are
too close to the converter.
6.
Damage from pressure build-up during electric arcs in the event of a fault
If the building has not been designed correctly for the drive in terms of how it has been
dimensioned, damage can result from the pressure that can possibly build up inside.
7.
Dangerous electric arcs during internal faults
The drives are designed according to the relevant IEC standards and have been tested in
line with strict type-testing procedures. They were developed and manufactured so that
there is a very low probability of internal faults occurring. However, internal faults cannot
be completely ruled out.
WARNING
Dangerous electric arcs during internal faults
Defects such as damage to components, overvoltages, or loose parts, as well as
exceptional operating statuses, can cause a failure within the enclosure. This can result in
an internal electric arc. If an electric arc occurs and people are nearby, this could lead to
death, serious physical injury, and damage to property.
Ensure that only qualified personnel perform work on the drive.
Observe the safety and operating instructions in this documentation and on labels at the
drive for all work on the drive.
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 31
Description
3
3.1
Updating inverter software or instructions
These operating instructions are valid for SINAMICS G180, software version 00235-R16 and
higher.
Procedure
1. Check the current software version on the inverter display in the menu "I-INVERTER
DATA/Version".
2. If the inverter software version is higher than the version of the operating manual,
download the current version of the manual from this website (http://www.siemens.com).
3. If the inverter software is no longer current, then update the inverter software by using the
software "IMS".
Contact the Service Center of Siemens in Ruhstorf (Page 190) for more detailed information.
3.2
Order numbers / Type designations
The converters have the following types of identification:
Order number
Short designation
Type code
Other version designation
Description
3.2 Order numbers / Type designations
Installation and Operating Instructions SINAMICS G180
32 Operating Instructions, 02/2019, 4BS0751-007
Order number
e.g. 6SE0100-1AG31-0AA7
What the icons mean:
Example
Option
Meaning
6SE01 1st - 5th position: device type,
6SE01 SINAMICS G180
0 6th position: Mechanical design
0
Compact device with air cooling
4
Cabinet with compact units
7 Cabinet unit with water cooling
8
Cabinet unit with air cooling
0
0
all SINAMICS G180 industrial converters
-
1 8th position: Harmonic effects on
power system
0
Not relevant for cabinet
1
6-pulse input
2
12-pulse input
3
18-pulse input
4
24-pulse input
A 9th position: Number of systems
connected in parallel
A
Compact unit
B
Single device with system management
C
Multiple device with 2 parallel circuits
D
Multiple device with 3 parallel circuits
E
Multiple device with 4 parallel circuits
F
Not relevant for cabinet
G
Multiple device with 5 parallel circuits
H
Multiple device with 6 parallel circuits
J
Multiple device with 7 parallel circuits
K
Cabinet with one compact unit
L Cabinet with 2 identical compact units
M
Cabinet with 3 identical compact units
N
Cabinet with 4 identical compact units
P
Cabinet with 5 identical compact units
Q
Cabinet with 6 identical compact units
Y
Cabinet with different compact units
Description
3.2 Order numbers / Type designations
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 33
Example
Designation
Option
Meaning
G 10th position: Supply voltage
A
230 ... 415 V 3 AC TN/TT, 50 ... 60 Hz
B Restricted application: 230 ... 415 V 3 AC IT, 50 ... 60 Hz
C
230 ... 500V 3 AC TN/TT, 50 ... 60 Hz
D 230 ... 500 V 3 AC IT, 50 ... 60 Hz
G
230 ... 600/690 V 3 AC
1)
TN/TT, 50 ... 60 Hz
H
230 ... 600/690 V 3 AC
1)
IT, 50 ... 60 Hz
J
850950990 V 3 AC
K
1000 V 3 AC
L
Independent of voltage
M
1140 V 3 AC
3 11th position: Multiplier for output
current
0
* 0.01
1
* 0.1
2
* 1
3
* 10
4
* 100
1
12th + 13th position: First two
digits of output current
Two positions for approximate specification of output current,
e.g.: 11th Digit = 3, 12. Digit = 8, 13. Digit = 2 means: Output
current approx. 10 * 82 = 820 A. In the case of cabinets con-
taining multiple compact units, the output current of the largest
compact unit must be specified. It is not permissible to state
the digit 9 here. If the rated current of a converter is 940 A, for
example, the order number positions for the output current
must be reduced. ⇒ 11th Digit = 3, 12. Digit = 8, 13. Digit = 8.
This can mean that the order number of the next smaller unit
is reduced as well. If it had, for example, an output current of
890 A. ⇒ 11th Digit = 3, 12. Digit = 8, 13. Digit = 7
-
0
A 14th position: Option module
A
IEC, EN
U
NRTL-certified (by TÜV) and/or UL-certified
A 15th position: Customer or sector
design
A
Standard
B
Customized design xyz1
C
Customized design xyz2
7 16th position: Version / release
number
7 Version/release number T..7
1
With an NRTL unit ("U" in 14th position of order number), the voltage range ends at maximum 600 V, otherwise at
690 V.
Description
3.2 Order numbers / Type designations
Installation and Operating Instructions SINAMICS G180
34 Operating Instructions, 02/2019, 4BS0751-007
Short designation
e.g. T 07-30 / 400 / 12 / 6
The short designation specifies the following details:
Converter development date
Continuous shaft output of the connected motor for four-pole motors operating up to 50
Hz
Rated supply voltage
Pulse operation
What the icons mean:
Table 3- 1 Example for short designation
Example
Meaning
T
SINAMICS G180
07 Modification status
30
Continuous shaft output [kW] of the connected motor
400
Rated supply voltage [V]
12/6 Pulse operation Input /Output If this information is missing, then it is a 6 / 6-pulse
converter.
Type code
e.g. 2T 2 A- 0 7 4 0 0- 055
The type code describes the converter type in more detail. Always state the type code as
well as the serial number and other rating plate data for enquiries to the factory.
What the icons mean:
Example
Designation
Option
Meaning
2R
Device type
2R
4-quadrant voltage-source DC link converter SINAMICS G180
2T Device type
2T
SINAMICS G180 voltage-source DC link converter
2x Cabinet unit system with one or more converters. The attaina-
ble shaft outputs of all installed converters are added together.
2 Degree of protection
1
IP00
2
IP20
3
IP21
6
IP 54
7
IP55
9
Other
Description
3.2 Order numbers / Type designations
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 35
Example
Option
Meaning
A - Number of pulses in the input
A
6-pulse input
F 12-pulse input
K
18-pulse input
L 24-pulse input
0 Mechanical design
0
Compact device with air cooling
2
Compact device Plus with air cooling
3
Compact device with water cooling
7
Cabinet unit with water cooling
8
Cabinet unit with air cooling
9
Special version
7 Modification status
5
Modification status 5
6
Modification status 6
7
Modification status 7
4 Line voltage
4
400 V unit
5
500 V unit
6
690 V unit
9
950 V unit
0
systems
0
Single device without system management
1
Single device with system management
2 ... 7
Multiple device with corresponding number of parallel systems
and system management units
0-
converter systems
0
Single device without system management
1
Single device with system management
2 … 7
Multiple device with corresponding number of parallel systems
and system management units
055 Achievable shaft output [kW] for
If the first position is 9, the other two digits show the power in
kW * 100.
Other version designation
e.g. A
type code
O B D I M 4
The other version designation of the converter consists of the type code and seven other
characters. This designation is specified on the rating plate. It is used in commercial written
communication and is as follows:
Example
Designation
Option
Meaning
A Accessories
A
Standard accessories
D
Accessories with bypass for mains operation with direct activation
N Accessories according to NAMUR Guideline NE37 with Test-Normal
switch
Q
Accessories with main switch, external handle
W
Accessories with main switch, internal handle
S Accessories with main switch, main contactor, EMERGENCY STOP in
door and local/remote switch
Z
Customer-specific accessories
Description
3.2 Order numbers / Type designations
Installation and Operating Instructions SINAMICS G180
36 Operating Instructions, 02/2019, 4BS0751-007
Example
Designation
Option
Meaning
2T2A-07400-055
Type code
Type codes of the converters
O Braking device O Converter without braking device
B
Converter with braking device
Y Converter with braking device and electrical special design
Z
Converter with electrical special design, e.g. design according to ZLU
B RFI suppression
filter
O
Without filter
A
With radio interference class A filter, category C2 or C3
B
With radio interference class B filter, category C1
L
With radio interference class A filter and with LHF
M
Without RFI suppression filter and with LHF
D Converter output
filter
D
Standard du/dt filter
V
Strengthened du/dt filter
S
Sine-wave filter
I Internal converter
display
O
Without internal converter display
B
With internal and external converter display
E
With external converter display
I
With internal converter display
R
With internal Russian converter display
S
With external Russian converter display
T
With internal and external Russian converter display
M Bus board O Without bus board
C
With CAN bus board
F
With PROFINET board (SCRJ fiber optic connection)
M
With Modbus RTU board
N
With PROFINET board (RJ45 copper connection)
P
With PROFIBUS board
T With Modbus TCP-IP board
4 Peripheral board
O
Without peripheral board
1
With peripheral board 1
2
With peripheral board 2
3
With peripheral board 3
4
With peripheral board 4
Description
3.3 Accessories
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 37
3.3
Accessories
3.3.1
Use of tested, certified and Siemens-approved components
Observe the following instructions if you would like to integrate your own components in the
system.
WARNING
Components which are not approved
It is dangerous to use components which are not tested, not certified and not approved by
Siemens. This can result in death, serious injury or material damage.
Use only components which are tested, certified and approved by Siemens.
3.3.2
Peripheral boards 1 to 4, -A95, option G02 to G05
3.3.2.1
General information about the peripheral boards 1 to 4
Motherboards:
Peripheral board AO
Peripheral board DI/DO
Description
3.3 Accessories
Installation and Operating Instructions SINAMICS G180
38 Operating Instructions, 02/2019, 4BS0751-007
Daughter board:
Example:
Peripheral board PTC thermistor
Peripheral board 4
There are 4 peripheral board versions as option. These comprise a motherboard peripheral
board AO or peripheral board DI/DO and daughter board peripheral board PTC thermistor.
Either one motherboard alone can be installed - or in combination with the daughter board.
The converter functionality is expanded using a peripheral board. 1 version of the peripheral
board can be installed in each converter.
The functionality of the possible versions is listed in the following table.
Table 3- 2 Configuration of the peripheral boards
Peripheral
board 1
Peripheral
board 2
Peripheral
board 3
Peripheral
board 4
2 PTC thermistor inputs, one ATEX-certified, one
warning
motor temperature monitoring for motors in the
Ex-zone
- X - X
A "Safe torque off" digital input according to
EN ISO 13849-1:2008, Cat. 3
- - X X
9 digital inputs (DI)
-
-
X
X
3 relay outputs (DO)
-
-
X
X
2 analog outputs (AO)
X
X
X
X
Power supply unit, 24 V, 300 mA
-
-
X
X
Peripheral boards 2 and 4 are, in addition to the motherboard peripheral board AO or
peripheral board DI/DO is also equipped with a daughter board peripheral board PTC
thermistor, which accommodates the circuit for PTC thermistor inputs.
The connection diagram of these versions can be found in Chapter "Control cable terminals,
peripheral board 1 (Page 169)".
Use the digital inputs and the analog outputs of the peripheral board corresponding to the
inputs and outputs on the main terminal block. You can find additional information in Chapter
"Standard control cable terminals (Page 168)".
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Configure the three relay outputs corresponding to the relay outputs of the main terminal
block. For additional information regarding electrical (galvanic) isolation, refer to Chapter
"Protective separation in accordance with EN 61800-5-1 (Page 145)".
3.3.2.2
Electronic shutdown for "Safe halt" / PTC inputs
Standards for electronic shutdown
The electronic shutdown complies with the following standards:
EN ISO 13849-1:2016, Safety of Machinery; Safety-Related Parts of Control Systems -
Part 1: General principles for design
EN ISO 13849-2:2013, Safety of Machinery; Safety-Related Parts of Control Systems -
Part 2: Validation
EN 50495:2010, Safety devices required for the safe functioning of equipment with
respect to explosion risks
DIN EN 60947-8:2013, Low-voltage switchgear and controlgear Part 8: Tripping units
for integrated thermal protection (PTC) for rotating electrical machines
IEC 61508-1: 2010, Functional safety of electrical/electronic/programmable electronic
safety-related systems Part 1: General requirements
IEC 61508-2: 2010, Functional safety of electrical/electronic/programmable electronic
safety-related systems Part 2: Requirements placed on safety-related
electrical/electronic/programmable electronic systems
IEC 61800-5-2:2016, Functional adjustable-speed electrical power drive systems Part
5-2: Requirements placed on safety Functional safety
IEC 62061:2005 + A1:2012, Safety of machinery Functional safety of safety-related
electrical, electronic and programmable electronic control systems
IEC 62061-A2:2015, Safety of machinery Functional safety of safety-related electrical,
electronic and programmable electronic control systems; Revision 2
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General information about electronic shutdown
Using the electronic shutdown concept of the inverter, a system without main contactor can
be shut down. This also applies to motors operating in Hazardous Zone 1. In the case of a
fault, the inverter electronically interrupts the power supply to the motor.
NOTICE
Malfunctions
If the inverter is used in safety-relevant applications with visible transport damage,
malfunctions and damage to property can occur.
Do not use inverters with visible transport damage.
Peripheral boards 2/3/4 with safety-related inputs and an ATEX motor temperature
monitoring must always be replaced using certified, original parts. Only replace parts
after prior consultation with the factory.
Use the "Safe torque off" function of the inverter for induction and synchronous motors.
If two additional faults occur in the power section, for synchronous motors, this can
result in residual rotation. The residual rotation angle can be maximum 180°. Calculate
the residual rotation angle from 360° / number of poles n. Take into account residual
rotation in your design. This does not apply to induction motors.
WARNING
Shutdown only when safety circuits are opened
The inverter is only shut down with the "Safe torque off" function as long as shutdown is
initiated by opening the appropriate safety circuits. If the safety circuits are reclosed, safe
shutdown is no longer given; this applies, even if the inverter does not immediately restart.
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Shutdown concept ATEX motor temperature monitoring
Principle of operation
Peripheral board 2 / 4 evaluates the motor temperature sensed using a PTC thermistor. The
board guarantees safety and reliability as a result of the integrated short-circuit detection and
sensor cable. Function "Safe torque off" of peripheral boards 3 / 4 and function "ATEX motor
temperature monitoring" utilize the same shutdown path:
Figure 3-1 Electronic shutdown concept
The inverter control processes the peripheral board signal. In the case of an excessively high
motor temperature or for the "Safe torque off" function, the inverter inhibits the IGBT firing
signals. The supply voltage for the driver stages is additionally switched off. These two
switch-off paths ensure that the power infeed to the motor is immediately interrupted. This
rules out any additional motor temperature rise or motor rotation. You can only reset the
inverter or switch it on again if the motor has cooled down sufficiently.
If the power fails, then the inverter safely interrupts the power infeed to the motor as firing
signals are no longer transferred. If a fault was active at the moment of power failure, the
inverter remains in a fault condition, also after power returns.
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Risk comparison
In order to rule out possible risks in advance, a risk analysis according to EN 1050 or
DIN EN ISO 14121 (draft standard) has been performed for the shutdown path. This analysis
concluded that the risk of loss of the shutdown function is small due to the redundant design
of the shutdown route and the use of reliable components. However, no general risk
assessment was performed as this is usually dependent on many customer-specific
parameters. This must be taken into account for the implementation and operation of a
system. In comparison to the shutdown using contactors, only the additional hazard die to
dangerous shock currents occurred in the converter.
Due to the redundant design, it is even achieved that the shutdown is still ensured even if a
fault in the electronic shutdown route occurs. As components proven in operation are also
used, the converter is in compliance with EN ISO 13849-1:2008, Category two.
WARNING
Danger of explosion in the case of deactivated shutdown
In principle, the shutdown function can be deactivated by connecting
an appropriate resistor
instead of the PTC thermistor to the control cable terminals.
3.3.2.3
"Safe torque off" with single circuit trip
The control cable terminals -X2:19, -X2:20 provide a safety-oriented input for safe torque off
to EN ISO 13849-1:2008 category three. This input safely prevents starting the machine.
Use this input, for example for safe shutdown in the case of servicing work on the machine.
When using the input, remove the jumper inserted between the control cable terminals
-X2:19, -X2:20.
The "Safe halt" function and the ATEX-certified PTC thermistor input have a redundant
switch-off path in the converter. The implementation is performed using hardware. A relay in
the power section of the converter disconnects the power supply of the IGBT drivers. A
second circuit, also via hardware, produces a controller block. Both switch-off paths are
based on the closed-circuit principle, i.e. a failure of the control voltage results in redundant
shutdown of the converter.
WARNING
Electric shock
If you carry out maintenance or overhaul work on the converter without safely disconnecting
the power supply, serious injury or death due to electric shock can occur. The input for
"Safe halt" is not an Emergency Off input which safely disconnects the converter or the
motor from the mains power supply.
Safely and reliably disconnect the power supply before opening covers or terminal boxes at
the converter. For example, use a main switch.
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3.3.2.4
"Safe torque off" with two circuit version
In the inverter, you can also initiate the "Safe torque off" function using two safety circuits.
You must connect one circuit as NC contact at terminals -X2:19/:20 (just the same as for a
single-circuit trip). You must connect the second circuit as NC contact at terminals -X2:24/:3.
NOTICE
Malfunctions
Carefully ensure that the "Safe torque off" function in the inverter is configured for a two-
circuit trip.
3.3.2.5
Switchover, single circuit <-> two circuit tripping
The safety-related "Safe torque off" function in the inverter is purely based on a hardware-
related shutdown of the power section. The corresponding input circuits only act on the two
shutdown paths in the inverter via the hardware circuit.
NOTICE
Bail switch S3
Just bail switch S3 on peripheral board DI/DO determines whether the "Safe torque off"
function is initiated through one or two channels.
The software is not relevant for the safety analysis. It only serves to provide display and
information relating to the "Safe torque off" function. However, in order to commission the
inverter, you must appropriately set parameter "P-INVERTER DATA/STO".
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Bail switch S3 on peripheral board DI/DO
With the bail switch, you define as to whether in addition the second shutdown circuit should
be activated at terminal X2:24 - or not.
Bail switch S3 open:
single-circuit trip, only via X2:19/:20
Bail switch S3 closed:
two
-circuit trip, additionally via X2:24/:3
Figure 3-2 Position of the bail switch S3 on peripheral board DI/DO
Parameter "P-INVERTER DATA/STO"
Using this parameter, you tell the inverter software as to whether you are using the "Safe
torque off" function with single-circuit or two-circuit trip. The parameter is not relevant for the
actual safety-related shutdown via the two shutdown paths in the inverter.
Parameter "STO = X2:20":
single-circuit trip, only via X2:19/:20
Parameter "STO = X2:20/24":
two-circuit trip, additionally via X2:24/:3
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3.3.2.6
Checking the "Safe halt" function
Procedure
Test the shutdown function for the operation of the "Safe torque off" function. Proceed as
follows:
1.
Check the setting of t
he bail switch S3 on peripheral board DI/DO:
open: for single-circuit trip
closed: for two-circuit trip
2.
Connect power to the inverter.
3.
Check parameter "P
-INVERTER DATA/STO":
"X2:20": for single-circuit trip
"X2:20/24": for two-circuit trip
4.
It i
s advantageous if you track the "Status" inverter actual value. You can either do this
in the display, if you parameterize this actual value temporarily in the 4th status line or in
the IMS, if you are connected with a PC.
5.
If required, enter the necess
ary switch-on commands so that the inverter is at least in
the ready state, i.e. is in the "Status
= Rdy.f.work".
The "READY" LED is lit.
6.
(Simultaneously) open the safety circuit(s), that is/are connected as follows:
For single-circuit trip at -X2:19/:20.
For a two-circuit trip, additionally at X2:24/:3
The inverter switches into the "Switch interlock" status, LED "READY" goes dark.
The "Safe torque off" "active" message is displayed.
7.
By pressing "RESET", attempt to exit the state.
It is not permis
sible that the inverter exits the "Switch interlock" state.
The message "Safe torque off" "active" must remain active.
8.
Connect the safety circuit(s) at
X2:19/:20 and possibly at X2:24/:3.
The inverter initially stays in the "Switch interlock" state;
however, the display changes
to "!! OFF2 !!" After STO act.".
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9.
Depending on the setting of parameter "P
-INVERTER DATA/P-Monitoring/STO" to:
"Store"
The inverter remains in the "Switch interlock" state with the display
"!! OFF2 !!" "After STO act.".
Press the "RESET" of the inverter.
The inverter exits the "Switch interlock" state.
"Auto.reset"
The inverter automatically exits the "Switch interlock" state.
The inverter starts to test both shutdown paths, display "Test safe torque off" "running"
-
assuming
that the required conditions are satisfied. This means that terminal -
X2:8 must
be controlled
- and if a line contactor is being used - this line contactor must be closed.
If the required conditions are still not available, then the inverter waits until t
he appropri-
ate conditions are available, then performs the test before the inverter is switched on.
The test takes several seconds.
10.
If the test is successfully completed, then the inverter is again in the initial state.
If the test results in a fault,
then the inverter changes into the "Fault" status. The
"FAULT" LED lights up, and the display changes to "!!
Inverter fault !!" "Test safe torque
off".
In this case, it is crucial that you contact the factory.
Additional test if you use a single-circuit trip:
11.
Open terminal input X2:24 if a signal is connected.
The inverter either does not display a response, or it may only display a response that is
parameterized for input X2:24, independent of the "Safe torque off" function.
It is not permissible th
at it changes into the "Fault" state with the following displays:
"!! Fault !!" "Safe torque off trig".
"!! Inverter !!" "Test safe torque off".
"!! Fault !!" "S7 inactive".
In cases such as these, check the setting. Either switch S3 and/or the parameters
are
set to the two-circuit trip.
Additional test if you use a two-circuit trip:
12.
Only open the safety circuit at X2:24/:3.
The inverter changes into the "Fault" state. The "FAULT" LED lights up.
The display changes to "!! Fault !!" "Safe torque off trig".
13.
Reconnect the safety circuit to X2:24/:3
- and acknowledge the fault.
The inverter tests the shutdown paths according to step 9. and 10.
14.
Only open the safety circuit at X2:19/:20.
The inverter changes into the "Fault" state. The "FAULT" LED
lights up.
The display changes to "!! Fault !!" "Safe torque off trig".
15.
Reconnect the safety circuit at X2:19/:20
- and acknowledge the fault.
The inverter changes into the "Switch interlock" state. The inverter displays message "!!
OFF2 !!" "After STO act.".
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16.
Depending on parameter "P
-INVERTER DATA/P-Monitoring/STO." You must
acknowledge again. See Step 9.
17.
The inverter tests the shutdown paths according to step 9. and 10.
Resolving problems
For an incorrect setting at the bail switch S3 on peripheral board DI/DO and/or parameter
"P-INVERTER DATA/ STO" result in the following different responses. Recheck the settings.
Test step
Different response
Incorrect setting
12 The inverter either displays no response -
or just that response that is parameter-
ized for input X2:24, independent of the
"Safe torque off" function.
You have neither set switch S3 nor the
parameter to the two-circuit trip.
The inverter changes into state "Fault"
with display "!! Fault !!" "S7 inactive"
You have set switch S3 to the two-circuit
trip and the
parameter to single-circuit trip ("X2:20").
The inverter changes into state "Fault"
with display "!! Inverter fault!!" "Test safe
torque off".
You have set switch S3 to the single-
circuit trip and the
parameter to two-circuit trip ("X2:20/24").
14 The inverter changes into the "Switch
interlock" state, LED "READY" goes dark.
The "Safety torque off" "active" message
is displayed at the converter.
You have either only set the parameter or
simultaneously also switch S3 to the
single-circuit trip.
For all additional deviations when checking the "Safe torque off" function, it is crucial that you
contact a service station or the factory.
Note
The inverter tests the two shutdown paths:
After the "Safe torque off" function is tripped.
After acknowledging the fault "!! Inverter fault !!" "Test safe torque off".
After acknowledging the ATEX motor temperature monitoring "!! Fault !!" "PTC thermistor
X3:90/91".
Each time the control voltage is switched on (supply for the various boards).
If the test is initiated using parameter "P-EXTRAS/Test STO/PTC".
3.3.2.7
PTC inputs for motor PTC thermistor
The peripheral boards 2 / 4 provide two PTC thermistor inputs at the control cable terminals
-X3:90-93 for the motor temperature monitoring. When using the inputs, remove the 100 Ω
resistor connected there.
Peripheral board 1 and peripheral board 3 have control cable terminals for the PTC inputs.
However, there is no evaluation board. No monitoring is made if you connect PTC
thermistors.
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Test the PTC thermistors as described below. Consult the factory if the shutdown does not
function.
Inverters without a peripheral board provide PTC thermistor inputs at control cable terminals
-X2:27-28. If the peripheral board 2 or 4 is fitted, connect the PTC thermistors of the motor to
control cable terminal -X3.
This has the following advantages:
Sensor short-circuit monitoring
Protective separation of the PTC thermistor inputs from all other inputs up to a rated
voltage of 690 V. The control cable terminals -X2:27/28 provide protective separation
from the electronics, but no separation from the other inputs.
Input -X3:90-91 is ATEX-certified according to PTB 07 ATEX 3057 for motors located in
hazardous zones.
Redundant shutdown route, realized using hardware.
Checking the PTC thermistor shutdown function
Test the shutdown function before commissioning the board. Proceed as follows:
1. Replace the 100 Ω resistor at control cable terminals -X3:90/91 with a potentiometer with
at least 10 kΩ. Set a value of approx. 100 Ω.
2. Ensure that 24 V is applied at control cable terminal -X2:8. When required, jumper -X2:8
and -X2:3.
3. Connect power to the inverter so that the "READY" LED on the display lights up.
4. Increase the resistance at the potentiometer. The converter must go to "FAULT" at the
latest for 3,8 kΩ:
LED "READY" goes dark.
The red "FAULT" LED is lit.
The inverter displays fault message "!!Fault!! PTC thermistor -X3:90/91".
5. From this time, the converter cannot be switched on by pressing the <On> button on the
display.
6. Acknowledge the error, e.g. using the <S+I> buttons on the display. The converter checks
both the redundant shutdown routes for the acknowledgement.
If the converter returns to "READY" after the acknowledgement and does not display
any errors, the test has been completed successfully.
If the inverter remains in the "FAULT" condition and in the display "!!Inverter
fault!! Test PTC -X3:90/91" then one of the shutdown paths is not functioning
correctly. In this case, please contact the factory.
7. If the converter is ready again, then rotate the potentiometer towards 0 Ω. At the latest at
a resistance of 15 Ω the short-circuit monitoring of the sensor circuit responds. Follow the
description under points four and five.
8. The safety function is checked automatically when the control voltage of the converter
returns and when the error is acknowledged after a test.
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3.3.3
Brake transistor and brake resistor
During motor operation the electrical power flow is from the inverter to the motor. During
generator operation the electrical power flow is from the motor to the inverter.
Example: braking flywheels.
The DC link current reverses the direction. The standard version of the inverter cannot feed
energy back into the system. Kinetic energy can be converted into dissipated heat in braking
operation. Approx. 10% braking torque is available in the upper speed range. A braking
torque of up to 50% without additional equipment is achieved in the medium and lower
speed ranges by oversaturation of the motor. With the brake transistor accessory, the same
braking as driving torque is available. The energy occurring is converted to heat using a
pulsed transistor. Also connect an external brake resistor.
WARNING
Risk of fire
If the clearance between the resistors and the neighboring components is selected too
small, fire can occur due to overheating. This can result in death, serious injury or material
damage.
Maintain a minimum clearance of 200 mm.
3.3.3.1
Dimensioning the brake resistor
Select a resistance value of at least that stated in the technical data. This value corresponds
to the minimum configurable value. The maximum value is calculated from the following
equation:
R = (1.57 × Umains / Pbrake
3.3.3.2
Connecting the brake resistor
1. Using the device designation on the rating plate of the device, check whether you have a
device with the "brake resistor" option. The designation must be ...2T..-.....-...B....
For more detailed information, refer to section "Type designations" (Page 31).
2. Connect the external braking resistor at terminals -X1:R and -X1:UD2+.
3. Use shielded cables with concentric protective conductor or shielded cables to connect
the brake resistor. Connect the shield where the cable enters the inverter.
4. Set the parameter "P-INVERTER DATA/Brake" to "On".
5. Set the rated output of the resistor under "/P-BrakeRes." and the resistance value under
"/R-BrakeRes.". In this way, you prevent overloading of the resistor.
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CAUTION
Incorrect parameter settings
If you parameterize the resistance data incorrectly, you can destroy the brake transistor
or the brake resistor which can result in injury to personnel.
Input the correct data in the inverter.
Install the resistors so that the perforated plate is on the bottom, top and the front sides. The
connection box can be provided on the left or the right side.
If you require several resistors for series or parallel connection, install the resistors next to
each other. This also applies for wall mounting.
3.3.4
Parameter overview
A more detailed overview of all parameters can be found in the "IMS" software or in the
parameterization guide. You can find both on the Internet (http://www.siemens.com).
3.3.5
"Factory settings" application
Saved device settings which have been made during the internal factory device inspection
can be found in this application. For example, these can be special data for the motor or also
a complete parameter configuration.
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3.3.6
Protective cover IP21 for compact and compact Plus devices
Figure 3-3 Canopy IP21
All compact units have degree of protection IP20. The canopy with degree of protection IP21
is available as an accessory for all compact and compact Plus devices. The cover is 5 mm
wider on both sides than the inverter.. Take account of this clearance for the alignment.
Leave the outlet area at the front clear.
Proceed as follows to install the roof supplied loose:
1. Screw the inverter without cover on to a mounting plate. Do not tighten the top two
mounting screws completely.
2. Slide the cover under the not yet completely tightened mounting screws.
3. Tighten the mounting screws completely.
With degree of protection IP21, the type code changes from 2T2A.....-... to 2T3A.....-... .
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3.3.7
Main switch "Q 2T..." or "W 2T..."
Inverters can optionally be purchased with a main switch as switch disconnector. The
manual operation of the switch is on the inside for the "W" version. The switch is strictly a
maintenance switch. The switch can only be operated when the corresponding covers for
compact units or doors for cabinet units are opened.
The switch can be manually operated from the outside for the "Q" version. The handle can
be blocked in the zero position with up to three padlocks. The switch is thus protected
against being switched on again. The padlocks are not included in the delivery.
For this option, the following dimensions are produced for the individual frame sizes:
Table 3- 3 Main switch option for different frame sizes
BG K1 … BG K4
Standard device dimensions only
BG K5
Option "Q" / "W" is not possible.
BG K51 For this frame size you can integrate option "Q" / "W".
BG K6 In this case, option "Q" / "W" is only possible in a cabinet system
2X….
BG K6 BG S1 … BG S3
No different dimensions than standard device
CAUTION
Serious injury and material damage caused by arcs
If the mains power supply cable is not properly connected to the main switch for the "Q" /
"W" option, destruction due to arcs can occur. Connect the mains power supply line to the
main switch properly. Follow the connection instructions supplied by the manufacturer of
the main switch The instructions can be found in the unit or inside the door in the cabinet
pocket.
3.3.8
DC link terminals for compact devices
Features
The DC link terminals X1:UD+2 and X1:UD-2 are generally available for the small inverters
up to 2T2A07400-030 for 400 V or, up to 2T2A07500-037 for500 V. These are optionally
available for all larger inverters. The inverters only have to be connected using the DC link if
you would like to establish a DC network. Only implement the DC network if you would like
generator operation with one drive.
Example: Test station with load apparatus. In this case only the losses are supplied via the
network. The generated energy is routed via the DC link. Refer to the following graphic for
the electrical design:
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Figure 3-4 DC network
Please observe the following:
Inverter 1 and Inverter 2 must be the same type.
Connect both inverters to the mains power using a common supply line.
Operate the mains power feed-in current of each inverter at maximum 75% of the rated
current.
The mains power supply connection cables from K1:2, 4, 6 to both inverters must be the
same length and have the same cross-section.
You can use a normal cable to connect the DC link, e.g. H07VK in the cabinet, or NYY
outside the cabinet.
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Design the cross section according to the current load.
DC link current = 1.3xmains current.
Lay both lines parallel with as small as possible distance from each other.
Bind the H07VK cables together using cable ties.
For both inverters, change the parameter "P-INVERTER DATA/Brake"from "Off" to "R-
Supply".
Use a braking device if the overall drive for braking flywheels can generate electricity
for both inverters.
In this case, configure the inverter with brake resistor to "On".
NOTICE
Destruction of the inverters
If you use one of the following configurations without consulting the factory, the
inverter can be destroyed:
Two different inverters
More than two inverters
More than 75% mains power feed
Only one mains power connection.
DC network for cabinet units.
Check the design with DC network exactly. Consult the factory for this.
3.3.9
External display
An external display can optionally be connected. The external display with the item number
L0296033 has the same functionality as the internal display.
Further information can be found in the sections "Connection for optional external display
with RS 485" (Page 155) and "Installing external display" (Page 88).
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3.3.10
RFI suppression filter, category C1 (class B)
Use an RFI suppression filter, category C1 (class B), in the inverters if necessary. For more
detailed information, refer to section "EMC" (Page 75).
From the unit designation you can identify whether you have a unit with the option RFI
suppression filter category C1 (class B). In this case, the rating plate is stamped as follows
".2...-.....-....B....".
Refer to section "Type designations" (Page 31) for more detailed information.
The dimensions are unchanged for compact devices. The dimensions of cabinet units
increase if an RFI suppression filter category C1 (class B) is installed. Additional data is
provided in the unit documentation.
3.3.11
Strengthened du/dt filter
A strengthened du/dt filter is available as an option.
See also
Dimensioning maximum motor cable length (Page 100)
3.3.12
Sine-wave filter
Note the following information for the operation of a sine-wave filter
A sine-wave filter is available as an option for the motor power supply.
It must be noted that sine-wave filters are only designed for the nominal clock frequency.
Therefore the parameter "f-pulse min" under "P-INVERTER DATA" must always be set to the
nominal clock frequency.
NOTICE
Overheating of the sine-wave filter
If the clock frequency drops to below the nominal clock frequency of the sine-wave filter,
the filter can overheat. The equipment will be damaged as a result.
For this reason, the parameter "f-pulse min" under "P-INVERTER DATA" must always be
set to the nominal clock frequency.
3.3.13
Additional mains power protection chokes
You can expand a inverter with an additional mains power protection choke. Use an
additional choke if the input side mains power shows a large unbalanced load due to
different voltage on L1, L2 and L3 or if the mains power or if the mains power already has
harmonics. In this case, please contact the Service Center.
Description
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56 Operating Instructions, 02/2019, 4BS0751-007
3.3.14
Optional fieldbus connection
3.3.14.1
PROFIBUS DP
You can purchase a PROFIBUS board as accessory. The PROFIBUS board is installed
under the grey plastic cover. The board can be retrofitted. You recognize from the
description "…
Type code
_ _ _ _ P _" on the rating plate that a PROFIBUS board has been
integrated.
More details about the board and the PROFIBUS parameters can be found in the separate
PROFIBUS description.
PROFIBUS connection
Switch for terminating resistor
PROFIBUS address, settable
LED "bus diagnostics"
LED "Offline"
Unused LED
LED "Online"
Figure 3-5 PROFIBUS board
Table 3- 4 PROFIBUS board - external elements
component
Function
LED "Status" (only just
visible under the grey
cover)
Flashing red at different frequencies Hardware fault on the PROFIBUS board: con-
tact Customer Service.
Flashing green at 1 Hz,
0.5 s on, 0.5 s off
PROFIBUS board initialization OK
Flashing green at 2 Hz,
0.25 s on, 0.25 s off
Error when initializing the PROFIBUS board:
contact Customer Service.
LED "Online"
This green LED lights if the bus connection is OK.
LED "Offline"
This red LED lights if the bus connection is interrupted. Check the external bus configuration.
PROFIBUS connection
Sub-D socket for PROFIBUS
Description
3.3 Accessories
Installation and Operating Instructions SINAMICS G180
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component
Function
Switch for terminating
resistor
A bus line must be terminated with a terminating resistor. Note that a terminating resistor can also
be present in the connector and select the switch position accordingly. Switch up = resistor On.
Only one terminating resistor is permitted at the end of a PROFIBUS line.
Settable PROFIBUS
address
The PROFIBUS address is set using the software as follows:
A value from 0125 can be set under "P-INTERFACE/P- fieldbus/P-PB/PN/Modbus/P-
PB/PN/BUS address".
If you specify the value 0, the address will be set by the hardware. In this case, set an address in
the range 0 to 99 using a screwdriver.
LED "bus diagnostics"
Flashing at 1 Hz, 0.5 s On, 0.5 s Off
Error in the input/output configuration
Flashing at 2 Hz, 0.25 s On, 0.25 s Off
Error in the length of the PROFIBUS telegram
Flashing at 4 Hz, 0.12 s On, 0.12 s Off
Error when initializing PROFIBUS
Off
No bus fault
3.3.14.2
PROFINET IO
You can purchase a PROFINET board as accessory; it can also be retrofitted. This is
installed under the grey plastic cover. It is available in two versions: with Ethernet or
alternatively with fiber optic sockets.
Based on the designation on the rating plate, you can identify whether or which of these two
boards is installed.
The designation
"…
Type code
_ _ _ _ N _" means Ethernet CU (RJ45) connection and
"…
Type code
_ _ _ _ F _" means fiber optic (SCRJ) connection
(see: Order numbers / Type designations (Page 31))
Note
Risk of confusion relating to the LEDs
The "Network status" display (NS), as well as the "Module status"
display (MS) comprises a
green and a red LED.
The "Link / Activity / Speed" (L/A/S) display comprises a green and a yellow LED.
In the following, the term "LED" summarizes the two LEDs in the display mentioned in the
corresponding context.
As the two LEDs
are close to one another, there is a risk of confusion, especially for the
network status and module status LEDs.
Description
3.3 Accessories
Installation and Operating Instructions SINAMICS G180
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PROFINET board with CU connection - RJ45 connector, option code: N
Ethernet RJ45 socket: Port 1
Ethernet RJ45 socket: Port 2
NS: "Network status" display
MS: "Module status" display
L/A/S: "Link / Activity / Speed" display: Port 1
L/A/S: "Link / Activity / Speed" display: Port 2
Figure 3-6 PROFINET board: Version with Ethernet sockets
PROFINET board with FO connection - SCRJ connector, option code: F
SCRJ fiber optic socket: Port 1
SCRJ fiber optic socket: Port 2
NS: "Network status" display
MS: "Module status" display
L/A/S: "Link / Activity / Speed" display: Port 1
L/A/S: "Link / Activity / Speed" display: Port 2
Figure 3-7 PROFINET board: Version with fiber optic sockets
Description
3.3 Accessories
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 59
Note
Suitable fiber types
HCS as well as APF cables (POF) are suitable for connecting to the fiber optic sockets.
Typical cable lengths are up to 100
m (HCS) or up to 50 m (POF).
Table 3- 5 PROFINET board - external elements
Component
Function
NS
"Network status"
display
Off Offline No power supply or no connection with
the IO controller
Green, lit Online (status:
RUN)
Connection established with the IO
controller, IO controller in the RUN
state
Flashing green
(1 Hz)
Online (status:
STOP)
Connection established with the IO
controller, IO controller in the STOP
state or IO data error
Green flashing (3x
at 1 Hz)
Flashing Flashes three times in order to identify
the slave in the network.
Red, lit Fatal event Fatal, internal error.
This display occurs in conjunction with
a red "Module status" LED.
Flashing red
(1 Hz)
Error, station
name
A station name has not been assigned
(factory setting).
Flashing red
(2 Hz)
Error, IP address An IP address has not been assigned
(factory setting).
Flashing red
(3 Hz)
Error, configura-
tion
The reference configuration (expected
identification) differs from the actual
configuration (real identification) of the
system.
MS
"Module status"
display
Off Not initialized No power supply voltage or module in
the SETUP or NW_INIT state
Green, lit Normal operating
sequence
The module has exited the NW_INIT
state.
Flashing green
(1 Hz)
Diagnostic
event(s)
At least one diagnostics event is active.
Red, lit
Exception error
Device in the EXCEPTION state
Fatal event Fatal internal event.
This display occurs in conjunction with
a red "Network status" LED.
Flashes red/green
alternating
Firmware update Do not switch off the module.
Switching off the module during the
update can result in permanent dam-
age.
Description
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Component
Function
L/A/S
"Link / Activity /
Speed" display
(port 1 + port 2)
Off
No connection
No communication
Green, lit Connection with
100 Mbit
Ethernet connection established, but
no communication.
Green, flickering Activity with
100 Mbit
Ethernet connection established and
active communication.
Yellow, lit Connection with
10 Mbit
Ethernet connection established, but
no communication.
Yellow, flickering Activity with
10 Mbit
Ethernet connection established and
active communication.
3.3.14.3
Modbus RTU
You can purchase a Modbus board as an accessory. The Modbus board is installed under
the plastic cover. The board can be retrofitted. You recognize from the description "…
Type
code
_ _ _ _ M _" on the rating plate that a Modbus board has been integrated.
Modbus connection
Switch for terminating resistor
DIL switches 1 - 7: Modbus address, configurable
DIL switches 8, 1, 2: baud rate, configurable
DIL switches 3, 4: parity, configurable
DIL switch 5: interface type, configurable
LED "Status Hardware Settings"
LED "Bus ready"
LED "Processing"
LED "Bus error"
Figure 3-8 Modbus board
Description
3.3 Accessories
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 61
Table 3- 6 Modbus board - external elements
component
Function
LED "Status Hardware
Settings"
Red, lit DIL switches are set to "not active" status (all set to "off" or im-
permissible values)
Green, lit DIL switch settings changed by software.
OFF
DIL switch settings are used and are OK.
LED "Bus ready" Green, lit bus OK, normal operation
Red, lit
Bus error, timeout
OFF
Board has not been correctly initialized
LED "Processing"
Flashing green
Board receives a request and produces a response
OFF
Board is not currently processing any requests
LED "Bus error"
Red, lit
Bus error
OFF
Normal operation or circuit board not initialized
Modbus connection
Sub-D female connector for Modbus
Switch for terminating
resistor
A bus line must be terminated with a terminating resistor. A terminating resistor can be fitted in
the connector. Select the switch position accordingly. Switch up = resistor On
Available Modbus ad-
dresses
You can set the Modbus address using the software as follows:
Under "P-INTERFACES/P-fieldbus/P-PB/PN/Modbus/P-Modbus RTU/BUS address", a value
0 … 247 can be set.
The address is set by the hardware if you enter a value of 0. In this case, set a binary address
from 1 to 127 with the DIL switches. (Switch 1 is MSB, switch 7 is LSB)
Configurable baud rate
You can set the baud rate using the software under
"P-INTERFACES/P-fieldbus/P-PB/PN/Modbus/P-Modbus RTU/baud rate".
If you enter a value of 0 under
"P-INTERFACES/P-fieldbus/P-PB/PN/Modbus/P-Modbus RTU/BUS-address", then the baud
rate is set by the hardware. Set the binary baud rate according to the following list:
000: not available
001: 1200
010: 2400
011: 4800
100: 9600
101: 19,200 (standard for RTU)
110: 38.400
111: 57.600
Description
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component
Function
Configurable parity
You can set the parity using the software under
"P-INTERFACES/P-fieldbus/P-PB/PN/Modbus/P-Modbus RTU/parity".
If you enter a value of 0 under
"P-INTERFACES/P-fieldbus/P-PB/PN/Modbus/P-Modbus RTU/BUS-address" then the parity is
set by the hardware. Set the binary parity according to the following list:
00: not available
01: none (standard for RTU)
10: even
11: odd
Configurable interface
type
Set this switch according to the interface you want to use.
0: RS 485
1: RS 232
LED "Status"
(above the DIL switches,
only visible if the blue
cover is removed)
Flashing red at different
frequencies
Hardware error on the Modbus board: Contact the service de-
partment.
Flashing green at 1 Hz,
0.5 s On, 0.5 s Off
Initialization of the Modbus board OK
Flashing green at 2 Hz,
0.25 s On, 0.25 s Off
Initialization of the Modbus board has errors: Contact the service
department.
Table 3- 7 Pin assignment of the Modbus connection with Sub-D connector
Pin
Designation
Function
Enclosure
Shield
Cable shield
1
-
Not used
2
RS 232 - TX
Signal (transmit)
3
RS 232 - RX
Signal (receive)
4
-
Not used
5
GND
Signal ground
6 + 5 V Supply voltage
7
RS 485 D0
-
8
RS 485 D1
-
9
-
Not used
Modbus connection Sub-D
Description
3.3 Accessories
Installation and Operating Instructions SINAMICS G180
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3.3.14.4
Modbus TCP
You can purchase a Modbus TCP board as an accessory. The Modbus board is installed
under the plastic cover. The board can be retrofitted. You recognize from the description
"…
Type code
_ _ _ _ T _" on the rating plate that a Modbus TCP board has been integrated.
Figure 3-9 Modbus TCP board
(1)
Internal bus connection
(2)
Ethernet connection socket RJ45
(3)
Configuration switch
(4)
Anybus Watchdog
(5)
Status LEDs
Figure 3-10 Modbus TCP board
Description
3.3 Accessories
Installation and Operating Instructions SINAMICS G180
64 Operating Instructions, 02/2019, 4BS0751-007
Table 3- 8 Modbus TCP board - external elements
Component
Function
LED 1 "Link (Activity)"
Off
No connection found
Green, lit Connection found
LED 2 "Module Status"
Off
No power supply
Flashing green (1 Hz) IP address not set via the configuration switch
Flashing red (1 Hz)
Invalid MAC address (internal error)
Flashing red (2 Hz)
Ethernet configuration was not able to be loaded from the FLASH
Flashing red (4 Hz)
Internal error (fatal)
Red
Already assigned IP address found
LED 3 "Network Sta-
tus"
Flashes n times The number of flashing signals of this LED corresponds to the number of
existing Modbus/TCP connections
LED 4 "Activity"
Flashing green
Data is being received or sent
Modbus connection
Ethernet connection socket RJ45
Configuration switch
You can set the TCP/IP settings using the software as follows:
IP address under "P-INTERFACES/P-fieldbus/P-PB/PN/Modbus/P-Modbus TCP/IP"
sub net under "P-INTERFACES/P-fieldbus/P-PB/PN/Modbus/P-Modbus TCP/SN"
gateway under "P-INTERFACES/P-fieldbus/P-PB/PN/Modbus/P-Modbus TCP/GW"
If you enter a value of 0-0-0-0 for the IP address, then the following standard values are used, the
IP address is then completed by the hardware:
IP address: 192.168.0.x (x = value at the configuration switch)
Gateway: 0.0.0.0
Subnet: 255.255.255.0
At the configuration switch, the last byte (binary) of the IP address is set. The set IP address in
the example of the diagram on the left is: 192.168.0.42
Ethernet
Figure 3-11 RJ45 standard connection socket
Table 3- 9 RJ45 pin assignment
Pin
Signal
Remark
1
TD+
-
2
TD-
-
3 RD+ -
4
-
Normally not used; in order to prevent falsification of the signals, these pins are connected with
one another and connected via a filter circuit on the module with PE.
5
-
6
RD-
-
7
-
Normally not used; in order to prevent falsification of the signals, these pins are connected with
one another and connected via a filter circuit on the module with PE.
8
-
Description
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Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 65
3.3.15
Pre-switch mode power supply 300 W
General information
The pre-switch mode power supply is used to supply switch-mode power supplies and fans
from the DC link of converters or a comparable PC source (e.g.: UPS) The power supply can
be used to buffer the line supply for a short period of time.
Designation
Material number
PC board pre-switch mode power supply 300W
L0329237 (main PC board with small mounted PC
board L0329239)
Inputs
Rated input voltage UD+/UD-
250 ... 1300 V DC (switched on above 150 V,
switched off < 100 V and > 1500 V)
External supply -X1 230 V AC (is switched-on, if 300 V DC < 250 V,
switched off for > 270 V)
Control voltage, fan -X32 Controlling the fan voltage X11 with 0 V/15 V/24 V
(10 ... 15 ... 19 V > 12 V, 20 ... 24 ... 30 V ... > 24 V)
Outputs
SNT 300 V X4
fan 24 V
300 V ± 25 V/1 A/300 W (basic insulation)
24 V ± 2 V/8 A/192 W (protective separation)
X11:1, 2: fan (0 V/12 V/24 V)
X11:1, 3: +24 V DC
Max. output power
300 W
Dimensions (L * W * H)
weight
ambient temperature
200 * 120 * 40 mm
0.8 kg
-20 ... 60 °C
Figure 3-12 PC board of the pre-switch mode power supply (pre SMPS 300W)
Description
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Installation and Operating Instructions SINAMICS G180
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3.3.16
Water cooling
3.3.16.1
General information about water cooling
Cabinet units can optionally be purchased with water cooling. From the type designation
2T..-7… you can identify that a unit is equipped with water cooling. Water cooling is adapted
to the existing conditions, Further information can be found in the order-related
documentation.
The "Water cooling" section describes the design of the direct water cooling with open
cooling circuit. Recooling of the coolant is not performed. Provide corresponding cooling of
the water on-site.
Description
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Installation and Operating Instructions SINAMICS G180
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3.3.16.2
Direct water cooling diagram
Structure
(A)
Components in the inverter cabinet
(B)
Components provided by the customer
Ventilation
Air / water heat exchanger with fan for interior
Electromagnetic valve NC
Electromagnetic valve NO
Stop valve, regulation of the flow rate
Flow rate regulation valve
Filter
Bypass - The version is optional
Figure 3-13 Diagram - Direct water cooling
Description
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Installation and Operating Instructions SINAMICS G180
68 Operating Instructions, 02/2019, 4BS0751-007
3.3.16.3
Connecting water cooling
Procedure
Connect the water cooling to the three low-pressure hoses which are installed approx. 2
m above the bottom edge of the cabinet. The hoses are labeled as follows:
Inlet
Return flow
Ventilation
Install a fine filter with approx. 50 µm mesh size on-site before the inverter.
3.3.16.4
Venting the water cooling
Procedure
If counterpressure builds up in the return line, vent the water cooling.
Also vent the water cooling if it is operated in an enclosed system.
1. Disconnect the inverter before the cooling from the power supply and secure it against
being switched on again.
2. Open the solenoid valve +H1.K2-Y1 to vent the water cooler.
Proceed as follows:
Open the isolating blade terminals +H1.K1-X5(or X4):12 and …:13.
At terminals +H1.K1-X5(or X4):11 and …:14 connect an auxiliary power supply
AC 230 V.
Open the water supply.
Open the manual valve +H1.K2-Y3 to vent until no more air exits. The valve is located
on the top side at the back on the left.
Hose bushings and hose clamps are required to establish the connection:
Table 3- 10 Hose sizes
Hose sizes ½ " ¾ " 1 " 1 ½ "
Hose outer diameter
24 mm
30 mm
37 mm
51 mm
Description
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Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 69
3.3.16.5
Decommissioning and shutdown
Procedure
In the case of long shutdown or decommissioning of the inverter, drain the water cooling.
You can find further information in the documentation 4BS0698.
Note that putrefaction products are produced if the cooling water does not flow and that
damage due to frost occurs if the unit is stored at temperatures below 0 °C.
NOTICE
Frost damage
Material damage can occur if the water cooling is exposed to frost without being
drained.
Drain the system in order to avoid damage. Disconnect the hoses from the connection
points. Proceed as described for the venting. For complete purging, blow compressed
air into the supply hose while the venting valve is closed until no more water exits.
The water cooling system is drained before the inverters are shipped by the manufacturer.
3.3.16.6
Cooling water additives for the closed inverter cooling with cooling unit (optional)
Use a cooling water additive for the closed cooling system of the inverter.
Siemens recommends the agent "Antifrogen N" made by Clariant as a cooling water
additive. The concentration of this additive can be adjusted to provide the required level of
frost protection.
A minimum concentration of 20 % by volume provides anti-freeze protection down to -10 °C.
An Antifrogen / water mixture of 1:2 provides anti-freeze protection down to -20 °C.
Unpolluted water mixed with a minimum concentration of 20 % by volume Antifrogen N
prevents the growth of microorganisms and the formation of algae.
If you need more detailed information and recommendations regarding cooling water
additives, please refer to your order-specific inverter documentation. For further information,
please refer to document 4BS0698.
Description
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Installation and Operating Instructions SINAMICS G180
70 Operating Instructions, 02/2019, 4BS0751-007
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 71
Preparations for use
4
4.1
Transporting inverter
Procedure
Persons operating cranes and fork-lift trucks must be appropriately qualified.
Only use approved, undamaged and adequately dimensioned lifting equipment. Check
the equipment before using it.
Observe the information in Chapter "Technical data for transport" (Page 194).
WARNING
Falling loads
If you are standing under a suspended load, then you are at risk of injury if the load falls off
the hoisting gear. This can result in death, serious injury or material damage.
Never stand in the area beneath a suspended load.
WARNING
Accidents during transport and when lifting
This can result in death, serious injury or material damage.
Carefully observe the transport instructions in this document as well as the generally valid
accident prevention regulations especially BGI 556.
Always wear personnel protective gear such as protective footwear and gloves and a
helmet.
The converters are packaged by the manufacturer so that they can be transported on trucks.
NOTICE
Damage to converters during transportation
The converters can become damaged if they are incorrectly transported.
Observe the environmental conditions for transport in the technical data.
Preparations for use
4.1 Transporting inverter
Installation and Operating Instructions SINAMICS G180
72 Operating Instructions, 02/2019, 4BS0751-007
Transport compact devices with cardboard packaging horizontally and cabinet equipment
with plastic bubble wrap upright on wooden pallet.
Converters are highly sensitive electronic devices. Pay attention to the stickers and
warnings on the packaging.
Only transport the equipment with modern, air suspension trucks on asphalt roads. If you
cannot comply with these conditions, package the devices in accordance with the special
requirements. Consult the factory for this, for example for marine packaging.
Never lift the compact devices at the plastic cover, but always from below according to
the following diagrams.
Lifting compact devices - wrong
Lifting compact devices - correct
NOTICE
Damage to converters during transportation
When returning the unit, only transport it in the original packaging as otherwise the unit
could be damaged during transport which means that the warranty becomes null and void.
CAUTION
Risk of injury when lifting heavy loads
Compact units, depending on the type, from frame size K3, weigh more than 30 kg. Do not
try to manually lift devices more than 30 kg.
Preparations for use
4.1 Transporting inverter
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 73
Figure 4-1 Lifting with a crane
Preparations for use
4.2 Storage of the inverters
Installation and Operating Instructions SINAMICS G180
74 Operating Instructions, 02/2019, 4BS0751-007
Figure 4-2 Transport with forklift
4.2
Storage of the inverters
Only store the equipment in a dry storage area with undamaged packaging.
Observe the information in Chapter "Technical data for storage" (Page 194).
NOTICE
Destruction of the converters as a result of improper storage
Observe the environmental conditions for storage stated in the technical specifications.
The converters will be destroyed if you store them outdoors. Store the converters in
enclosed, dry rooms.
Preparations for use
4.3 EMC
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 75
WARNING
Injury due to explosion of capacitors
If the unit has been stored for longer than two years, the DC link capacitors can explode
during commissioning. Reform the DC link capacitors if the unit has been stored for longer
than two years. Contact the factory to determine what measures must be taken.
4.3
EMC
4.3.1
Install and connect in accordance with EMC.
Note the following rules regarding the installation and connection of inverters:
Connect the cable shield over a wide area and with low inductance. Placing the shield
over bundles of wires has practically no shield effect.
If you also want to use the shield as PE conductor, connect the shield doubled.
Use a low-inductance and wide area shield at the cable entry for EMC reasons.
Use a plait on the PE rail as a protective measure.
For signal lines with Sub-D male or female connector, place the shield over the Sub-D
connector or socket. Where relevant, also connect the shield at the cable entry.
Install cables in such a way that there are no crossovers between control cables and
power cables. If you cannot prevent a crossover on the cable ducts, then make the
crossover at an angle of 90°.
Ensure that all metallic parts of the switch cabinet are surface-connected with good
conductivity. Connections with paint layer are not permitted.
Use contact disks or galvanized plates.
When connecting the switch cabinet door to the switch cabinet, use grounding straps
that are as short as possible
Connect all circuit breakers, relays, solenoid valves etc. in the switch cabinet to RC
interference suppressors.
Do not use any diodes or varistors.
Install the protective circuit directly on the relevant coil.
Preparations for use
4.3 EMC
Installation and Operating Instructions SINAMICS G180
76 Operating Instructions, 02/2019, 4BS0751-007
Twist unshielded wires. This particularly includes analog signals of the same power circuit
i.e. supply and return wires.
Keep the area between supply and return wires as small as possible in order to avoid
unnecessary loop antennas.
Separate the power cables connected to the inverter input and connected to the inverter
output by spacing them or by using grounded separating plates.
You may interrupt the shielding of power cables by installing components such as output
contactors, reactors, sine filters, etc. Mount the components on a galvanized sheet. The
sheet simultaneously provides shielding for the incoming and outgoing motor wires.
4.3.2
Examples for correct EMC connection
You can see below some examples of expert connection of shielded cables at compact
units.
If you would also like to apply cable shields with metal cable ties or metal clamps, install
shielding buses for cabinet devices.
Cable entry on a compact device with shield
connection using metallic cable ties
Cable entry of small control lines with shield
on the case and signal lines with
shield on the
Sub-D connector
Correct connection for EMC - Variant 1
Correct connection for EMC - Variant 2
Line or control connection from approx. 10 mm outside diameter
Control cable up to approx. 10 mm outside diameter
Signal cable
You can also use EMC threaded connections instead of the metal cable ties. In this case,
remove the sheet metal with the cable tie lugs.
Preparations for use
4.3 EMC
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 77
Signal cable
Control cable
Motor and power supply cable
Figure 4-3 EMC - wiring overview
Preparations for use
4.3 EMC
Installation and Operating Instructions SINAMICS G180
78 Operating Instructions, 02/2019, 4BS0751-007
Cable tie
Place with insulation removed
Contact clip
Shielding bus
Figure 4-4 Shield connection for cabinet devices
Figure 4-5 Shield connection for cable type NYCWY
4.3.3
Radio interference class
You can read the radio interference class of the inverter at the version designation of the
rating rate or from the order confirmation. Further information can be found in the "Type
designations" (Page 31) section.
Preparations for use
4.3 EMC
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 79
4.3.4
EMC environment category
The noise immunity of this inverter complies with the highest environment category
"industrial environment" according to EN 61800-3. Nevertheless, inverter problems can
occur if other devices exceed EMC limit values for interference emission. In this case,
contact the Service Department of the manufacturer.
Table 4- 1 Environmental categories and classification of units
Category and
environment
according to
EN 61800-3
1st environment
(residential area - public grid)
2nd environment
(industrial area - non-public grid)
Categories
C1
C2
C3
C4
Class and
group accord-
ing to
EN 55011
Class B,
Groups 1 and
2
Class A,
Group 1
Class A,
Group 2
(I 100 A)
Class A,
Group 2
(I > 100 A)
-
Classification
of units
Grounded line supply IT line supply
or I > 400 A
Optional
Compact units
Cabinet units
All units
Category C1:
Product with a rated voltage of < 1000 V, use in the 1st environment
Category C2:
Product with a rated voltage of <
1000 V, use in the 1st environment and in-
stallation and commissioning by personnel knowledgeable about EMC.
Category C3:
Product with a rated voltage of < 1000 V, use in the 2nd environment
Category C4:
Product with a rated voltage of
1000 V or rated currents ≥ 400 A or used in
a complete plant or system in the 2nd environment
If the application requires category C2 limits (Class A, Group 1 according to EN 55011), the
system must be installed by an EMC specialist.
In addition, the following note also applies:
Note
For units in category C2 the following applies:
"This is a product of category C2 acc. to EN
61800-3. If not correctly installed and
commissioned, this product can cause radio frequency interference in residential areas.
In
this case, it may be necessary for the company operating the unit to take corresponding
measures."
Preparations for use
4.4 Realizing operation in the explosion-protected zone
Installation and Operating Instructions SINAMICS G180
80 Operating Instructions, 02/2019, 4BS0751-007
If the application requires category C3 limits (Class A Group 2 acc. to EN 55011, whereby
these limit values lie below those of Class A Group 1), then the following note applies:
Note
For units in category C3 the following applies:
"This product is not suitable for connection to a public low
-voltage grid, which supplies
residential buildings. When connected to a public low
-voltage grid, high frequency
interference can be expected."
4.4
Realizing operation in the explosion-protected zone
Converters in hazardous zones
WARNING
Explosion hazard
If you operate the converter in hazardous zones, explosions can occur which cause
property damage, serious injuries or death. Only operate the converter in safe, non-
hazardous areas.
Motor in the Ex-Zone
Motors connected to the converter can be operated in the hazardous zone. Also observe the
following conditions:
Ensure that the motor is approved for converter operation and that it has a corresponding
rating plate for converter operation.
Ensure that the motor is approved for the Ex-Zone. Also check the motor rating plate.
Ensure that the motors are equipped with PTC sensors according to DIN 44081 or
DIN 44082 as well as IEC 60034-11-2 Type A (EN 60947-8 and VDE 0660-303). Connect
these PTC thermistors to the peripheral board -X3:90 to 94. This is how you protect the
motor against an inadmissible temperature rise due to overload according to
DIN EN 60079-14/ VDE 0165-1 and EN 50281-1-1 (dust EX).
Observe the safety regulations for use concerning motors in the Ex-Zones e or d.
Directives 94/9/EG and EN 60079-14 regulate this use.
Ensure that the motor is now only operated in the intended speed control range. Under
"P-MOTOR DATA" and "P-DRIVE DATA" enter the values stated on the motor rating
plate for "fmin" and "fmax".
Preparations for use
4.4 Realizing operation in the explosion-protected zone
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 81
Do not exceed the maximum motor cable length, otherwise impermissible voltage
increases can occur. For more detailed information, refer to the section titled "Motor
connection" (Page 98).
Ensure that Ex e-motors are tested for increased safety together with the converter at the
manufacturer's factory. The system must not be operated without the test report.
In the case of Ex e and Ex n motors, set the values for "I contin.", "I short" and "t short" to
the values stated by the manufacturer. Do not change these values again without
consulting the motor manufacturer.
Protect converter-fed motors in the hazardous zones using PTC thermistors. An
evaluation circuit for the motor PTC thermistor is integrated in the "peripheral board 2 / 4"
option for this. More detailed information can be found in the section "Peripheral boards 1
to 4" (Page 37). The converter is electronically shutdown.
Safety during shutdown
The risk analysis according to EN 1050 or DIN EN ISO 14121 (draft standard) showed that in
comparison to the shutdown using contactors, only the additional hazard due to dangerous
shock currents occurred in the converter.
Due to the redundant design of the electronic shutdown route, it is achieved that the
shutdown is still ensured even if a fault in the electronic shutdown route itself occurs.
As components proven in operation are used, the converter is in compliance with
EN ISO 13849-1:2008, Category two.
If you do not use this electronic shutdown, the motor PTC thermistors must be routed via
ATEX-certified thermistor evaluation units, e.g. CALOMAT® CK140CK145.
If you use CALOMAT® devices, you must use a line contactor on the input side.
In this case, loop the contact of the CALOMAT® directly into the coil circuit of the line
contactor.
Otherwise, perform the wiring of the line contactor according to the description of the
main contactor function in section "Contactor functions" (Page 156).
Preparations for use
4.4 Realizing operation in the explosion-protected zone
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Operating Instructions, 02/2019, 4BS0751-007 83
Installation
5
5.1
Installing inverter - General notes
Install the inverter so that clean and dry cooling air can enter and leave without
obstruction.
Maintain the cooling air clearances stated in the dimension drawing.
Read the degree of protection of the device off the rating plate.
Note the following information about the degrees of protection:
Device
Version
Degree of protection accord-
ing to EN 60529
NEMA type
Compact Standard IP20 Open Type
Option
IP21
Open Type
Cabinet/ 2X cabinet units
Standard
IP21
NEMA1*
Option
IP23
NEMA1*
Option
IP41
NEMA1*
Option
IP43
NEMA1*
Option
IP54
NEMA1*
Option
IP55
NEMA1*
* Higher NEMA types on request
Open Type
The compact devices are designed in accordance with degree of protection IP20 acc. to EN
60529 and as open-type devices acc. to UL 50. This ensures protection against electric
shocks. To ensure protection against mechanical stress and climatic conditions too, the
components should only be operated in housing/cabinets/rooms that fulfill the requirements
stipulated in EN 60529 and are designed as enclosure types according to UL 50 (at least
NEMA 1).
NOTICE
Dirt
If you do not protect the device against large accumulation of dust, high concentration of
chemically active harmful substances, mold formation or the penetration by vermin, this can
result in damage to and failure of the device.
Take suitable measures to protect the unit against these environmental influences.
Observe the specified environmental conditions in the technical data.
Installation
5.2 Installing compact devices
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5.2
Installing compact devices
Procedure
Install the compact devices directly in a control room or install compact devices in a
switch cabinet.
Note when installing in a switch cabinet that the ventilation of the inverter is not designed
for air counter-pressure.
If you use switch cabinets with filters, provide corresponding cabinet fans for the
equalization.
We recommend the following procedure when mounting the compact unit to walls or panels:
1. Prepare the holes for the four fixing screws. Refer to the technical data for the relevant
dimensions.
2. Screw in the two lower screws until they have taken a firm grip.
3. Lift the compact unit, if required using suitable lifting equipment, onto the two lower
screws. The hole in the upper center of the base plate can be used to lift the unit using a
hook.
4. Press the compact unit against the panel and tighten the upper two fixing screws.
5. And finally tighten the two lower screws.
To remove, first release the lower screws, then the upper screws and lift the unit from the
panel.
Installation
5.3 Protective cover IP21 for compact and compact Plus devices
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 85
5.3
Protective cover IP21 for compact and compact Plus devices
Figure 5-1 Canopy IP21
All compact units have degree of protection IP20. The canopy with degree of protection IP21
is available as an accessory for all compact and compact Plus devices. The cover is 5 mm
wider on both sides than the inverter.. Take account of this clearance for the alignment.
Leave the outlet area at the front clear.
Proceed as follows to install the roof supplied loose:
1. Screw the inverter without cover on to a mounting plate. Do not tighten the top two
mounting screws completely.
2. Slide the cover under the not yet completely tightened mounting screws.
3. Tighten the mounting screws completely.
With degree of protection IP21, the type code changes from 2T2A.....-... to 2T3A.....-... .
Installation
5.4 Installing cabinet units
Installation and Operating Instructions SINAMICS G180
86 Operating Instructions, 02/2019, 4BS0751-007
5.4
Installing cabinet units
Install cabinet units on level mounting shelves. Wall mounting is permitted.
If no clearances are stated in the dimension drawing of the order documentation, cabinets
can be arranged next to each other.
Provide the corresponding openings for the cable entry.
Ensure that the cabinet frame is resting on the floor.
If the cable opening is very large, anchoring to the floor increases the safety.
If larger units have been separated for transport, make all the connections at the
separation points again.
NOTICE
Overheating
If you do not remove the transport rails installed on the cover before commissioning, the
inverter can be damaged due to overheating.
Remove the transport rails before commissioning.
Canopy
Install the protective covers on the top of the cabinet. Proceed as follows:
1. Remove any transport rails present. Keep these for later transport.
2. Screw four bolts into the thread provided on the inverter cabinet.
3. Put on the cover and firmly screw on the cover using the screws provided.
NOTICE
Foreign bodies in the cabinet
If you drop washers or screws into the cabinet during installation, this can result in
destruction of the device.
Ensure that no washers or screws fall into the device.
Installation
5.4 Installing cabinet units
Installation and Operating Instructions SINAMICS G180
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Protective cover
Screws
Bolts supplied in the switch cabinet
Figure 5-2 Protective cover
Installation
5.5 Mounting an external display (option)
Installation and Operating Instructions SINAMICS G180
88 Operating Instructions, 02/2019, 4BS0751-007
5.5
Mounting an external display (option)
The external display with the item number L0296033 has the same functionality as the
internal display. You can connect the display to the inverter at two connectors:
At RJ-10 connector -X26 for a maximum cable length of 5 m.
At the 9-pin D-sub connector -X51 and with a supplementary 24 V voltage supply for a
maximum cable length of 1000 m.
Procedure
Use the display in control panels or doors. Note the following dimensions for the opening:
Width x Height [mm]: 138+1 × 92+0.8
The degree of protection is IP54.
Contrast setting
Figure 5-3 Dimension drawing - External display
Connection for installation in the switch cabinet door with maximum 5 meters connection cable length
Use the connecting cable with item number L0330600.
1. Shorten the cable to the required length.
2. Connect up the cables using end sleeves as illustrated in the diagram below.
Installation
5.5 Mounting an external display (option)
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 89
Figure 5-4 Display - Installation in switch cabinet door
Connection for external installation with maximum 1.000 meters connection cable length
Figure 5-5 Display - external installation
Use shielded connection cables.
Installation
5.5 Mounting an external display (option)
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Electrical connection
6
6.1
General information about the electrical connection
Please note the following regarding the electrical connection.
When installing cables and selecting the cabling materials, make sure that you provide
adequate isolation between circuits of different voltage classes (DVC), e.g. by using
cables with reinforced insulation or by routing cables in separate cable ducts.
Make sure that the cables are mechanically secured, e.g. using cable ties, against
accidental disconnection.
For detailed information about cabling and connections, please refer to EN 61800-5-1,
Chapter 4.3.8.
Note
Familiarize yourself with the local safety re
quirements and national safety guidelines, and
always observe them.
NOTICE
Use of aluminum cables at unsuitable terminals
If you connect aluminum cables to terminals which are not suitable for the purpose,
corrosion will develop. The equipment will be damaged as a result.
Use special cable lugs which are designed for connecting aluminum and copper.
Please contact the Siemens Service (Page 189) for advice about box terminals.
Electrical connection
6.2 Protecting the inverter
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6.2
Protecting the inverter
When protecting the inverter a distinction must be made between the two cases.
Procedure when the motor has approximately the same rating as the inverter (Imot 0.5 * Ifu)
Protect the inverter against short-circuits.
Take the fuse value from the technical data or, using the inverter continuous input current
stamped on the type plate, select the next larger gL fuse.
Locate a gL fuse or circuit breaker upstream from the inverter.
In the case of the circuit breaker, set the thermal release to 1.2x the inverter continuous
input current as stamped on the type plate and the magnetic release to the lowest
possible value, between 1.5 and 2x the value of the inverter continuous input current.
Only use circuit breakers without time grading (time discrimination).
The break time of the circuit breaker in the case of a short circuit must be less than
8 ms.
Procedure when the motor has a significantly lower rating than the inverter (Imot < 0.5 * Ifu)
Protect the inverter against short-circuits.
Dimension the fuse value as follows: Ifuse < 2 * Imot. Use the next lower standard fuse
value than calculated.
Parameterize the inverter parameter P-INVERTER DATA/I contin. as a maximum to the
fuse value.
Locate a general line fuse or circuit breaker upstream from the inverter.
In the case of the circuit breaker, set the thermal release to 2x the rated motor current
stamped on the type plate and the magnetic release to the lowest possible value,
between 1.5 and 2x the value of the inverter continuous input current.
The break time of the circuit breaker in the case of a short circuit must be less than
8 ms.
6.3
Circuit breaker
In order to safely disconnect the inverter from the line supply, connect a main switch or a
circuit breaker on the line side of the inverter.
The main switch or the circuit breaker must be capable of carrying at least 1.2 times the
inverter rated current.
The switching capacity of the main switch or the circuit breaker must equal the short-circuit
current of the line supply system.
Electrical connection
6.4 Connecting control cable
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 93
6.4
Connecting control cable
Connect the control cables as described in section "Communication options" (Page 129)
or according to the supplied equipment documentation.
Use shielded, twisted pair cables for the connection of signal lines in order to increase the
signal quality.
When installing cables and selecting the cabling materials, it is essential that you observe
the information in section "Safe isolation in accordance with EN 61800-5-1" (Page 145).
Instructions for correct EMC connection can be found in section "Correct EMC installation
and connection" (Page 75).
For more detailed information about control cable terminals, please refer to section
"Technical data of control cable terminals" (Page 201).
6.5
Line supply connection
6.5.1
Suitable supply line configurations
The converters are suitable for the following line supply types:
Table 6- 1 SINAMICS G180 T7 and appropriate line supply types
Line voltage
Type designation
Line system type
400 V
2T..-..40.-…
TT or TN line system, grounded
500 V
2T..-..50.-…
TT, TN or IT line system, grounded or not grounded
690 V
2T..-..60.-…
TT, TN or IT line system, grounded or not grounded
Table 6- 2 SINAMICS G180 R7 and appropriate line system types
Line voltage
Type designation
Line system type
400 V
2R..-87400-…
TT or TN line system, grounded
690 V
2R..-87600-…
TT or TN line system, grounded
WARNING
Explosion of the Y capacitors
If you operate units, category C1, C2 or C3 (radio interference suppression class A or B)
with type designation "2T..-.....-....A/B...." on ungrounded mains power supplies, then this
can destroy the Y capacitors at the line supply input. Serious injury and death can occur.
Only use units without RFI suppression filter with the type designation "2T..-.....-....O...." on
an ungrounded mains power supply. IT mains power supplies are not grounded.
Electrical connection
6.5 Line supply connection
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94 Operating Instructions, 02/2019, 4BS0751-007
6.5.2
Dimensioning mains power cables
Dimensioning
Voltage load
Use cables with at least U0/U = 0.6/1 kV.
Current load
Dimension the cable cross section according to the applicable standards, e.g.
VDE 0298.
Determine the current of the mains power cable according to the inverter input current
which you can find on the rating plate.
Use shielded mains power cables or cables with concentric protective earth conductor,
type NYCWY, in order to reduce EMC interference.
Precaution against injury due to indirect contact
Use an overcurrent protection device with additional potential equalization on the motor in
order to avoid injuries due to indirect contact.
Protective earth conductor
Due to the high leakage currents of the unit (> 3.5 mA), one or more of the following
conditions must be fulfilled for fixed connection of the protective earth conductor:
The protective earth conductor must have a cross section of at least 10 mm2 Cu or
16 mm2 Al
Automatic tripping of the power supply in the event of interruption of the protective
earth conductor
Installation of an additional terminal for a second protective earth conductor with the
same cross section as the original protective earth conductor
6.5.3
RCD circuit breaker
WARNING
High voltages
This product can cause a direct current in the protective earth conductor. When a residual
current device (RCD) or a residual current monitor (RCM) is used for protection in the event
of direct or indirect contact, only an RCD or RCM of type B is permissible on the power
supply side of this product.
Electrical connection
6.5 Line supply connection
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 95
If you are using an RCD circuit breaker, then as a result of the high capacitive discharge
currents, use an RCD circuit breaker with a high cut-off current. The leakage current
basically depends on the type, length and laying of the motor cable.
Use at least a 500 mA RCD circuit breaker for up to approx. 100 kW inverter output.
Use at least a 1 A RCD circuit breaker for more than 100 kW inverter output.
The RCD circuit breakers used must be of type B "sensitive to all current types" with
this label:
6.5.4
Connecting mains power cable to the inverter
You do not need any N conductor.
Procedure
Only connect the inverter via a permanently routed connecting cable. Refer to the
following table for the possible connection cross-sections for compact devices. The
connection cross-sections for cabinet units can be found in the technical data of the
inverter documentation.
Observe the switch manufacturer instructions when connecting cables directly at the main
switch. These are provided in the circuit diagram pocket in the invertercabinet. If
necessary, special equipment cable lugs must be used in order to be able to utilize the
connection spaces available.
Table 6- 3 Conductor cross-sections for compact devices
Frame size
Flexible cable
Rigid cable
BG K1
0,2 - 6 mm²
0,2 - 10 mm²
BG K2
4 - 16 mm²
2,5 - 25 mm²
BG K3
0,75 - 35 mm²
0,75 - 50 mm²
BG K4
2,5 - 120 mm²
2,5 - 120 mm²
BG K5
2,5 - 120 mm²
2,5 - 120 mm²
BG K51
2,5 - 120 mm²
2,5 - 120 mm²
BG K6
50 - 240 mm²
50 - 240 mm²
Electrical connection
6.5 Line supply connection
Installation and Operating Instructions SINAMICS G180
96 Operating Instructions, 02/2019, 4BS0751-007
Connect the mains power cables L1-L2-L3 to terminals U1, V1, W1 of terminal strip -X1 of
the inverter: Refer to the technical data for the correct tightening torques for the power
cable connection.
NOTICE
Destruction due to nonsymmetrical current distribution
In the case of high pulsing inverters, destruction of the rectifier can occur due to
nonsymmetrical current distribution. Pay attention to symmetrical current distribution.
Use the same cable types and lengths as well as the same connection technology for
every mains power connection. Route all cables on the same or a comparable route so
that the cable temperatures are the same.
6.5.5
Inverter connection for different pulse operation
Inverters with higher pulsed inputs are available for higher outputs from approx. 500 kW as
they cause smaller circuit feedback on the mains power supply.
Connect the inverter to the mains power supply depending on the pulse operation:
Table 6- 4 Line supply connection dependent on the pulse operation
Pulse op-
eration
Can be recog-
nized in the type
code:
Connection at the inverter at X1:U1, V1, W1
6
2T.A-…
Three phases
12 2T.F-… Two secondary transformer systems each with three phases, i.e. a
total of six phases.
Both systems must be phase offset by 30°, e.g. using the transformer
vector group Dy5d6.
18 2T.K-… Three secondary transformer systems each with three phases, i.e. a
total of nine phases.
The three systems must each be phase offset by 20°, e.g. using the
transformer vector group Dy0y+20y-20.
24 2T.L-… Four secondary transformer systems each with three phases, i.e. a
total of twelve phases.
The four systems must each be phase offset by 15°, e.g. using two
transformers with the vector groups Dy5,25d6,25 and Dy4,75d5,75.
The type code can be found on the rating plate.
Electrical connection
6.5 Line supply connection
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 97
6.5.6
Adjusting the line voltage at the inverter
The inverters are suitable for different supply voltages: If your device is different from the
respective nominal line voltages of 400 V, 500 V or 690 V, you must adjust the line voltage at
the inverter.
1. Set the parameter "P-INVERTER DATA/V mains nom." to your line voltage.
2. Set the line voltage on the device:
No adjustment is necessary for compact units with a width of 165 mm or 225 mm.
In the case of compact units with a width of 350 mm or 500 mm, you reconnect the
jumpers according to the following table:
Table 6- 5 Necessary jumpers for setting the line voltage
Rated voltage [V]
Voltage tolerance [V]
Necessary jumpers
230
184265
1-2 / 4-8
400*
320460
1-6 / 7-8
460
368529
1-5 / 7-8
500*
408587
1-3 / 7-8 / 4-5
575
464667
1-2 / 7-8 / 3-6
690*
552794
1-2 / 7-8 / 4-5
*One of these values is preset.
The voltage tolerances specified in the table indicate the permissible voltage range of the fan
power supply and not the permissible tolerances for the power connection of the device.
Electrical connection
6.6 Motor connection
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Jumpers for rated voltage preselection
Terminals -X101 and -X102 for an external control voltage
Terminal for preselection of the control voltage setting
View as in the picture: Internal power supply
Cable connected at connector -X200 : Power supply via terminals -X101 and -X102
Figure 6-1 Jumpers and terminals on the inverter
If a transformer is installed in a cabinet unit, the transformer connections must be changed to
the correct line voltage.
6.6
Motor connection
6.6.1
Motor selection
Three-phase asynchronous motors or three-phase synchronous motors can be used for your
inverter. The use of several motors simultaneously is permitted.
The total of the motor outputs must not exceed the inverter output. You may operate
smaller and larger motors in parallel on one inverter.
Take into account during the motor dimensioning that additional losses in the motor are
produced by the non-sine shaped motor current.
Note that a motor without external ventilation will be cooled less at speeds less than the
rated speed. Therefore, consult the motor manufacturer for the dimensioning of the
motor.
When using Siemens motors, refer to the list "UN03/UN04 Drehstrommotoren für
drehzahlverstellbare Antriebe" to find the relevant inverter output.
Electrical connection
6.6 Motor connection
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 99
6.6.2
Coil load
Note
Voltage increases due to switching flanks
The switching flanks in the voltage produced by the inverter also load the motor insulation.
Excess voltages occur.
If you observe the instructions in this section, voltage peaks at the motor of more than 1,560
V do not occur. Motors which are dimensioned for inverter operation therefore do not cause
any problems. If you would like to connect older motors or motors which are not suitable for
inverter operation, please consult the motor manufacturer.
Pay attention to the exact compliance with the peak voltage in the motor for explosion-
protected motors.
6.6.3
Motor voltage and type of circuit
Operate the motor as "star" or "delta" type of circuit according to the parameterization of the
inverter.
In most cases, the parameterized motor voltage on the inverter is identical to the mains
voltage. Check the parameter "P-MOTOR DATA/V-motor".
Electrical connection
6.6 Motor connection
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100 Operating Instructions, 02/2019, 4BS0751-007
6.6.4
Dimensioning motor cables
Voltage load
Use cables with at least U0/U = 0.6 kV/1 kV.
Current load
Dimension the cable cross section according to the applicable standards, e.g.
VDE 0298.
Determine the current of the motor cable according to the converter output current,
which you can find on the rating plate.
Use shielded mains power cables or cables with concentric protective earth conductor,
type NYCWY, in order to comply with EMC directives.
For multi-system devices, connect the same number of motor cables at each system.
Note the information in section "Correct EMC installation and connection" (Page 75).
WARNING
Capacitive leakage currents
An increased current can flow in the motor cable shield as a result of capacitive leakage
currents. This can cause the cable to overheat. This can result in death, serious injury or
material damage.
Use a shield cross section that is, as a minimum, half the line conductor cross-section: For
a thinner shield or for a shield manufactured out of steel braiding, route a PE conductor,
which, as a minimum, is half of the line conductor cross-section in parallel with the motor
cable.
6.6.5
Dimensioning maximum motor cable length
The maximum cable length is determined by the following factors:
Peak voltage at the motor
All converters are equipped with a du/dt filter. The filter limits the voltage increase time
on the motor to > 0.5 µs.
A motor peak voltage of 1,560 V is maintained for the maximum cable lengths stated
in the table.
Inverter load
The capacitive load of the inverter increase with increasing cable length and/or
increasing number of parallel cables.
The parameterizable inverter clock frequency influences the converter load. If you
configure the minimum possible clock frequency , the inverter load then reduces so
that a larger cable length can be connected.
Electrical connection
6.6 Motor connection
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Operating Instructions, 02/2019, 4BS0751-007 101
Table 6- 6 Typical maximum motor cable lengths for different converter versions
Device type standard version
2T..-.....-.....D...
Version with strengthened du/dt
filter
2T..-.....-.....V...
Cable type
Cable type
NYCWY
NYY
NYCWY
NYY
Compact devices 400 V
2T..-(0…3)5400-...
connected to line supplies up
to 400 V
200 m 300 m 350 m 450 m
Compact devices 400 V
2T..-(0…3)5400-...
connected to line supplies >
400 V
150 m 200 m 300 m 350 m
Cabinet units 400 V
2T..-(7…8)(5…6)40.-...
connected to line supplies up
to 400 V
- - 300 m 350 m
Cabinet units 400 V
2R..-874..-...
150 m 200 m 300 m 350 m
Compact devices 500 V
2T..-(0…3)5500-...
- - 300 m 350 m
Cabinet units 500 V
2T..-(7…8)(5…6)50.-...
- - 250 m 300 m
Compact devices 690 V
2T..-(0…3)5600-...
150 m 200 m 300 m 300 m
Cabinet units 690 V
2T..-(7…8)(5…6)60.-...
100 m 140 m 250 m 300 m
Cabinet units 690 V
2R..-876..-...
150 m 200 m 300 m 350 m
The data in the table specifies the typical cable length in the sense of the distance between
the motor and the converter when parameterizing the standard clock cycle frequency. Larger
distances are also possible for individual types. Contact the factory for precise values if you
are in the limit range or if there is a long distance between the motor and converter.
NOTICE
Damage to the converter output filter
If you lay too many wires in parallel for the motor cable, the capacitive current in the motor
cable can increase unacceptably and destroy the converter output filter. In the case of
operation with several motors or parallel wiring of motor cables, the maximum possible
distance between converter and motor is reduced. Cabinet units are suitable for wiring in
parallel. Contact the factory for the precise values. Reduce the number of parallel wires to
permissible values.
Electrical connection
6.6 Motor connection
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102 Operating Instructions, 02/2019, 4BS0751-007
NOTICE
Destruction of the motor or the converter output filter
If you exceed the maximum motor cable length, this can destroy the motor or the converter
output filter. Consult the factory for longer motor cables.
NOTICE
Winding or bearing damage
If you use motors which are not designed for converter operation, premature winding or
bearing damage can occur. Consult the motor manufacturer to find out whether the motor is
suitable for converter operation. Please bear in mind that IEC 60034-17 is applicable to
motors that are designed for line operation but are operated with a converter. Smaller
values for the peak voltage apply here. Dimension the cable lengths after consultation with
the manufacturer.
6.6.6
Connecting motor cable
Connect the motor to terminals U2, V2, W2 of terminal strip -X1 of the inverter. Refer to the
technical data for the correct tightening torques for the power cable connection.
6.6.7
Connecting the PTC thermistor of the motor to the inverter
Connect the PTC thermistor of non-explosion-protected motors without peripheral board 2
/ 4 to terminals 27, 28 - 58 of control cable terminal block -X2.
If peripheral board 2 / 4 is installed, connect the PTC thermistor to terminals 90 to 94 of
control cable terminal block -X3. For additional information, refer to the description of the
accessories.
Note
Interference signals in PTC thermistor cables
If you lay sensor cables next to power cables, interference signals can be transmitted in
the sensor cables. Lay sensor cables separated from the motor power cables. Use
shielded cables in the case of
stronger inductive or capacitive input couplings. Observe
the minimum cross section of the PTC thermistor cable in the
technical data (Page 203).
Electrical connection
6.7 External control voltage
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 103
6.7
External control voltage
6.7.1
Use of external control voltage
The inverter generates the control voltage from the DC link voltage in normal operation.
Use external control voltage in the following cases:
For main contactor on the line voltage side
If the display should also function when no line voltage is present
If the inverter should restart operation approx. 3 s faster than without external control
voltage in the case of momentary mains power failures. The initialization time of approx. 3
s does not apply in the case of external supply.
6.7.2
Connecting the external 230 V AC control voltage
6.7.2.1
Protecting/fusing the external 230 V AC control voltage
WARNING
External control voltage without fuse protection
If you use an external control voltage without suitable protection (e.g. fuses), then
overloads and short-circuits can occur. This can result in death, serious injury or material
damage.
The device may only be operated with a protected external control voltage. Note the
following recommendation.
Install one of the following options to protect the external control voltage:
Miniature fuse in accordance with EN 60127: 2 A … 6 A, slow, maximum 150 VA
Miniature circuit-breaker: 2 A … 6 A, characteristic D, maximum 150 VA
Electrical connection
6.7 External control voltage
Installation and Operating Instructions SINAMICS G180
104 Operating Instructions, 02/2019, 4BS0751-007
6.7.2.2
Switching over the hardware to an external 230 V AC control voltage
Change the inverter from internal control voltage using the DC link to external control
voltage.
Procedure
Change over the white connector on the "switched-mode power supply" board from -X2
for "internal" to-X5 for "external".
Switching power supply with connector on
internal control voltage
Switching power supply with connector on
external control voltage
6.7.2.3
Preparations for accessing the "switching power supply" board
Preparing compact devices with size up to 165 mm
This instruction is applicable for compact devices up to a size of 165 mm with the identifier
2T..-07400-011 or 2T..-07500-015.
Procedure
1. Unscrew the blue cover at the screw above -X25 and lift up the cover.
2. Turn the two screws of the grey cover underneath by 90° and lift up the cover.
3. Undo all screws for the right-hand side panel which are visible from outside and one
internal nut in the connection area. Lift off the side panel.
4. Replug the connector.
5. Reassemble in the inverse order.
Electrical connection
6.7 External control voltage
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 105
Preparing compact devices with size up to 225 mm
This instruction is applicable for compact units up to a size of 225 mm with the identifier
2T..-07400-015 or 2T..-07500-037.
Procedure
1. Turn the four fixing screws of the gray cover through 90° and lift up the cover.
2. Unscrew the blue cover at the screw above -X25 and lift up the cover.
3. Turn the four fixing screws of the swivel section by 90°, swivel the swivel section to the
right and clip the swivel section to the side panel according to the picture below.
4. Replug the connector.
5. Reassemble in the inverse order.
Compact frame
size 165 mm long
Compact frame size 225 mm long
Electrical connection
6.7 External control voltage
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Preparing compact devices with frame size K4 with 400 V or 500 V
This instruction applies to compact units with the frame size K4 with L × W 775 × 350 mm
and 400 V or 500 V rated voltage.
Procedure
1. Turn the four fixing screws of the gray cover through 90° and lift up the cover.
2. Unscrew the blue cover at the screw above -X25 and lift up the cover.
3. Remove the cover above the motor connection terminals.
4. Remove the "fan power supply" board with the five fine-wire fuses. Undo the four screws
and unplug the cable for this.
5. The "switched-mode power supply" board is located below with a white connector and the
sockets -X2 for "internal" and -X5 for "external".
6. Insert the connector into "external".
7. Reassemble in the inverse order.
Figure 6-2 Compact device frame size K4
Note
Occurrence of malfunctions
Malfunctions can occur if you change over the connection of the sockets
-X100 / 200 for
"external" / "internal" on the upper "fan power supply" board. Leave this connection in its
original configurat
ion.
Electrical connection
6.7 External control voltage
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 107
Providing compact devices with the frame size K4 with 690 V
This instruction applies to compact units with frame size K4 with L × W 775 × 350 mm and
690 V rated voltage.
Procedure
1. Turn the four fixing screws of the gray cover through 90° and lift up the cover.
2. Unscrew the blue cover at the screw above -X25 and lift up the cover.
3. Remove the cover above the motor connection terminals.
4. On the "fan supply" board with the five miniature fuses, change over the connector from
socket -X100 to -X200.
5. Reassemble in the inverse order.
Note
Occurrence of malfunctions
Malfunctions can occur if you change over the connection of sockets
-X2 / 5 for "external" /
"internal" on the "switched
-mode power supply" board. Leave this connection on "external".
Providing compact devices with frame size K5/51 with 400 V or 500 V
These instructions apply to compact units with frame size K5 or 51 with L × W (1125 or
1538)×350 mm and 400 V or 500 V rated voltage.
Procedure
1. Turn the four fixing screws of the gray cover through 90° and lift up the cover.
2. Unscrew the blue cover at the screw above -X25 and lift up the cover.
Electrical connection
6.7 External control voltage
Installation and Operating Instructions SINAMICS G180
108 Operating Instructions, 02/2019, 4BS0751-007
3. Turn the four fixing screws of the swivel section by 90°, swivel the swivel section to the
right and clip the swivel section to the side panel according to the picture.
Figure 6-3 Compact unit with frame size K5 with opened control electronics
4. Remove the "fan power supply" board with the five fine-wire fuses. Undo the four screws
and unplug the cable for this.
5. The "switched-mode power supply" board is located below with a white connector and the
sockets -X2 for "internal" and -X5 for "external".
6. Insert the connector into "external".
7. Reassemble in the inverse order.
Note
Occurrence of malfunctions
Malfunctions can occur if you change over the connection of the sockets
-X100 / 200 for
"external" / "internal" on the upper "fan power supply" board. Leave this connection in its
original
configuration.
Electrical connection
6.7 External control voltage
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 109
Providing compact devices with the frame size K5/51 with 690 V
These instructions apply to compact units with frame size K5 or 51 with L × W (1125 or
1538) × 350 mm and 690 V rated voltage.
Procedure
1. Turn the four fixing screws of the gray cover through 90° and lift up the cover.
2. Unscrew the blue cover at the screw above -X25 and lift up the cover.
3. Turn the four fixing screws of the swivel section by 90°, swivel the swivel section to the
right and clip the swivel section to the side panel.
4. On the "fan supply" board with the five miniature fuses, change over the connector from
socket -X100 for "internal" to -X200 for "external" .
5. Reassemble in the inverse order.
Note
Occurrence of malfunctions
Malfunctions can occur if you change over th
e connection of sockets -X2 / 5 for "external" /
"internal" on the "switched
-mode power supply" board. Leave this connection on "external".
Preparing compact devices with frame size K6 with 400 V or 500 V
This instruction applies to compact units with the frame size K6 with L × W 1125×500 mm
and 400 V or 500 V rated voltage.
Procedure
1. Turn the four fixing screws of the gray cover through 90° and lift up the cover.
2. Unscrew the blue cover at the screw above -X25 and lift up the cover.
3. Turn the four fixing screws of the swivel section by 90°, swivel the swivel section to the
right and clip the swivel section to the side panel.
4. The "switched-mode power supply" board is located below with a white connector and the
sockets -X2 for "internal" and -X5 for "external".
5. Insert the connector into "external".
6. Reassemble in the inverse order.
Note
Occurrence of malfunctions
Malfunctions can occur if you change over the connection of the sockets
-X100 / 200 for
"external" / "internal" on the upper "fan power supply" b
oard. Leave this connection in its
original configuration.
Electrical connection
6.7 External control voltage
Installation and Operating Instructions SINAMICS G180
110 Operating Instructions, 02/2019, 4BS0751-007
Providing compact devices with the frame size K6 with 690 V
This instruction applies to compact units with frame size K6 with L × W 1125×500 mm and
690 V rated voltage.
Procedure
1. Turn the four fixing screws of the gray cover through 90° and lift up the cover.
2. Unscrew the blue cover at the screw above -X25 and lift up the cover.
3. Turn the four fixing screws of the swivel section by 90°, swivel the swivel section to the
right and clip the swivel section to the side panel.
4. The "fan power supply" board with five fine-wire fuses and the "switching power supply"
board are underneath.
5. On the "fan supply" board, change over the connector from socket -X100 for "internal" to
-X200 for "external".
6. Reassemble in the inverse order.
Note
Occurrence of malfunctions
Malfunctions can occur if you change over the connection of sockets
-X2 / 5 for "external" /
"internal" on the "switched
-mode power supply" board. Leave this connection on "external".
Electrical connection
6.7 External control voltage
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 111
6.7.2.4
Connecting the external 230 V AC for compact devices
Procedure
Connect the external control voltage to the terminals 101 (L1) and 102 (N).
Figure 6-4 Connection for external control voltage
Use the following connection values:
Table 6- 7 Connection values for external control voltage
Maximum cross section
2.5 mm²
Fuse protection Miniature fuse in accordance with EN 60127: 2 A … 6 A, slow, maxi-
mum 150 VA
Miniature circuit-breaker: 2 A … 6 A, characteristic D, maximum 150 VA
Voltage
230 V + 15 % - 20 %
Frequency
47 Hz63 Hz
For compact units with frame size K4 , terminals 101 and 102 are located on a board under
the plastic cover above the motor terminals.
6.7.2.5
Control voltage 230 V AC for cabinet units
Cabinet units access the control voltage for the electronics from the control transformer.
Further information can be found in the wiring diagram of the unit.
Electrical connection
6.7 External control voltage
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112 Operating Instructions, 02/2019, 4BS0751-007
6.7.3
Connecting the external 24 V DC control voltage
6.7.3.1
Protecting/fusing the external 24 V DC control voltage
NOTICE
External control voltage without fuse protection
If you use an external control voltage without suitable protection (e.g. fuses), then
overloads and short-circuits can occur. Material damage can result.
The device may only be operated with a protected external control voltage. Note the
following recommendation.
Install one of the following options to protect the external control voltage:
Miniature fuse in accordance with EN 60127: 6 A, slow acting, maximum 100 VA
Miniature circuit-breaker: 6 A, characteristic D, maximum 100 VA
6.7.3.2
Switching over the hardware to an external 24 V DC control voltage
Change the converter from internal control voltage via the DC link to external control
voltage.
Replace the PC board switch mode power supply L0353151 by PC board SNT24V
L0353161.
Procedure
Connect the external control voltage to the terminals 1 (0 V) and 2 (+24 V).
Electrical connection
6.7 External control voltage
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 113
Figure 6-5 Connection for external control voltage
Use the following connection values:
Maximum cross section
2.5 mm²
Protection Miniature fuse in accordance with EN 60127: 6 A, slow acting,
maximum 100 VA
Miniature circuit-breaker: 6 A, characteristic D,
maximum 100 VA
Voltage +24 V DC ±15 %
Electrical connection
6.7 External control voltage
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Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 115
Commissioning
7
Perform the commission according to the following instructions.
In order to operate the inverter, read section "Operation" (Page 123)
Use an operating manual for commissioning a standard inverter application. Information for
special applications can be found in the corresponding sections. Contact the Service
Stations of the manufacturer if necessary.
Use the provided commissioning service if required. Contact the Service Center (Page 189)
for a commissioning quotation.
7.1
Checks without mains power supply and without motor
WARNING
Injury due to explosion of capacitors
If the unit has been stored for longer than two years, the DC link capacitors can explode
during commissioning. Reform the DC link capacitors if the unit has been stored for longer
than two years. Contact the factory to determine what measures must be taken.
Checking the connections
1. Check all connections at the converter.
Check whether all connections match the documentation.
For every control cable, check whether it is firmly connected.
2. Check whether the power connections have been connected with the correct torque.
Refer to the torque table in the section "Tightening torques for power cables" (Page 201)
for the torques.
3. Also check the internal power connections for units with more than 160 kW.
The connections can slacken during long transport.
Commissioning
7.1 Checks without mains power supply and without motor
Installation and Operating Instructions SINAMICS G180
116 Operating Instructions, 02/2019, 4BS0751-007
Checking the applied voltages
1. Check what voltage is present at the control cable terminals of -A1-X2.
A voltage of 32 V to 250 V must only be present at the top green terminals and/or at
terminal 37 .
All other terminals must be supplied with a maximum voltage of 32 V.
2. Compare the line voltage you will apply with the rating plate of the converter.
You will find detailed information in the following table.
3. For cabinet units, identifier 2T..-8....-..., also reconnect the fan transformer -T4 to the
rated mains voltage and check whether the transformer is connected to the correct
voltage.
Compact units, identifier 2T..-0....-..., supply the fans via the DC link.
Thus, there is no configuration work for you.
Table 7- 1 Voltage range of the different device types
Device
Type designation according to
rating plate
Supply voltage range
400 V compact unit
2T..-0.40.-...
230 V … 500 V
400 V cabinet unit 2T..-8.40.-... 230 V … 415 V
500 V unit
2T..-..50.-...
230 V … 500 V
690 V unit
2T..-..69.-...
400 V … 690 V
Hardware settings
Set the DIL switches S1 and S2 as required.
More detailed information can be found in the section "DIL switches S1 and S2"
(Page 149).
Performing insulation test
1. Take the necessary safety precautions such as covering neighboring system parts etc.
2. Connect terminals U1, V1, W1, U2, V2, W2.
Commissioning
7.2 Checks with mains power supply and without motor
Installation and Operating Instructions SINAMICS G180
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3. For compact devices, detach the internal yellow-green wire from the connection point for
PE.
Figure 7-1 Insulation test
4. In the case of cabinet units, remove the "output filter" board -A9 or disconnect its ground
connection.
5. You can find the board at motor terminals -X0:U2, V2, W2.
6. In the case of the "radio interference Class A" option, also disconnect the input side radio
interference suppression capacitor -C10 from the line connection busbar at
-X0:U1, V1, W1 or the main switch.
7. Perform the test with maximum DC 500 V for a maximum of 2 minutes between the U1,
V1, W1, U2, V2, W2 jumper and the enclosure.
8. After completion of the test, connect the output voltages U, V, W with PE.
9. Undo the above actions.
7.2
Checks with mains power supply and without motor
The load-dependent actual values, e.g. "I-motor", "T-motor" or "P-motor" are also displayed
without motor. They are 0 in this case.
Perform the following tests and configurations without motor connection. This prevents
damage to the motor in the case of errors.
If tests without motor are not possible, then perform the tests with motor.
The "peripheral board 2 / 4" option which can be recognized from the last position of the
type designation on the rating plate has safety-oriented inputs.
Check these inputs according to the "Safe torque off" (Page 42) description.
Commissioning
7.2 Checks with mains power supply and without motor
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118 Operating Instructions, 02/2019, 4BS0751-007
Selecting application and mode
It is not necessary to select an application for converters which have been fitted with a
signal controller at the factory.
The parameter assignment is adapted in the factory when the unit is being tested and is
stored under the menu "P-DRIVE DATA/A" in the "Factory_Settings" application.
Select the desired application under "P-DRIVE DATA/A", and select the desired operation
under "P-OPERATION/Opr.".
Use the associated wiring diagram in the Appendix for this. The "Standard" application
is set as the default at the factory.
For additional information, refer to the section titled "Standard" application"
(Page 168).
If you would like to make other changes to the parameters, these changes can be made
at this point.
In this case, the parameter "P-DRIVE DATA/A=Standard" changes to "P-DRIVE
DATA/A=specific".
Note
Loss of all configured values
If you select other applications before the changed parameters have been saved, all
values already se
t will be lost. Save the changed parameters before selecting other
applications.
Checking mains power supply parameters
1. Set your mains rated voltage in the menu item "P-INVERTER DATA/V mains nom.".
If necessary, set the controller / fan transformer correctly.
2. For additional information, refer to the section titled "Mains connection" (Page 93).
Adapting motor data
1. Under "P-MOTOR DATA"/ first set the controller variant of the converter or the motor
type.
Commissioning
7.2 Checks with mains power supply and without motor
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 119
You can enter the following control variants:
"async_SVC": Asynchron Space Vector Control, vector control
Use normal three-phase motors without special applications for converter operation.
Use the rating plate data for parameterization purposes if the motor is to be operated
with the converter.
"async_FOC": Asynchron Field Oriented Control, field-oriented control
For this function, use a tachogenerator directly on the motor shaft which meets the
required conditions. More detailed information can be found in the section "Sub-D
connections and DIL switches" (Page 148).
The load machine and the required dynamics determine the maximum required
impulses per revolution which the tacho should have.
Use at least 1,024 pulses / 360°. If you increase the dynamics, then also increase the
number of impulses, e.g. to 2,048 or 4,096. Use a tacho with larger number of
impulses for smaller flywheels.
Set the following parameters in the control version "async_FOC" under "P-MOTOR DATA/":
1. Under "/Motor type", set "async_FOC",
2. Select the tacho type used for "/Sensor".
3. Set the number of impulses per motor revolution under "/Pulses/360".
4. In addition to entering the motor data on the rating plate, also set the exact motor no-load
current under "/I idle".
Read the rated speed /n motor from the rating plate.
Specify the no-load current in the operating mode "async_SVC", in mains operation or
ask the motor manufacturer for this value.
5. Always perform the "Auto-Tuning".
6. Select the menu level "Expert" in order to reach the "P-CONTROL PARAMETER" menu
item.
Adjust the optimum control behavior of your system for load change and speed
change under "P-CONTROL PARAMETER".
Set the values for "/P sp.ctr." and "/Tr sp.ctr." in rated operation.
Commissioning
7.2 Checks with mains power supply and without motor
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Speed regulator circuit - optimally configured
Speed regulator circuit - too short Tn-Controller
Speed regulator circuit - too high P-Controller
The following applies to all motors:
Enter the rating plate parameters of the motor for sine mode.
This data can be found on the motor rating plate.
Commissioning
7.3 Checks with mains power supply and with motor
Installation and Operating Instructions SINAMICS G180
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Configuring drive data
Specify the speed limits and the direction of the output rotating field in the menu item "P-
DRIVE DATA".
1. Determine the minimum output frequency of the output rotary field for minimum setpoint
value with the "/fmin" value. The "/fmax" value specifies the upper speed limit. For more
detailed information, refer to the section titled "Motor connection" (Page 98).
2. Set the rotation direction under "/Rotation":
"CW" or "CCW" specifies the rotary field as clockwise or counter-clockwise.
"Both" means that the rotary field depends on the polarity of the setpoint value and
can be changed using the terminal block command "Reversing".
3. Set the speed of setpoint changes under "P-SPEED DEFAULT/t-accel." and "P-SPEED
DEFAULT/t-decel.".
Checking all inputs and outputs
1. Check whether signals arrive correctly at all inputs and outputs.
You can simulate all data except load-dependent data.
2. Under "P-EXTRAS/Menu" set the value for the menu level to "Standard", in order to
increase the number of accessible parameters and thus be able to make further
parameter adjustments.
7.3
Checks with mains power supply and with motor
Perform the following tests and configurations with an uncoupled motor. This prevents
damage to the work machine in the case of errors. If test with uncouple motor are not
possible, perform the tests with coupled motor. However, increased caution is thereby
required.
Performing auto tuning
The inverter can be matched to the connected motor under "P-MOTOR DATA/Auto-Tuning".
Select the "Yes" option and press the "Apply" button.
The inverter transmits a measurement signal to the motor.
The inverter calculates the current total resistance of motor winding and motor supply
line from the measured values.
Checking the direction of rotation
1. Check the rotation direction at low speed directly at the motor.
2. In the case of "Rotation/both", check the rotation direction for both directions.
Commissioning
7.4 Checking with motor coupled to the work machine
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122 Operating Instructions, 02/2019, 4BS0751-007
Checking the vibration
1. Carry out slowly the complete speed control range. Observe the motor in doing so.
If vibrations occur at a certain speed, contact the motor manufacturer for advice. If
required, you can suppress this frequency.
2. Suppress two frequency bands with a minimum and a maximum value in the menu, which
will then no longer be used by the drive under steady-state operating conditions "P-
DRIVE DATA/fno1" and "P-DRIVE DATA/fno2".
7.4
Checking with motor coupled to the work machine
Perform the following tests with the driven machine.
The measurement should be taken at the highest possible output frequency and load.
Consult the factory fin the case of large difference.
Symmetry of mains and motor current
1. Measure the mains current and the motor current using a current clamp meter. The
measured value deviates from the displayed value on the screen depending on the type
and quality of the current clamp meter.
2. Ensure that the same current flows in all three mains power phases with a maximum
deviation of 5% of the inverter rated current. You thus detect whether damaging
imbalance of the mains voltage is present.
3. The same applies in all motor phases with a maximum deviation of 2%. In the case of
cables laid in parallel, also check the current distribution to the individual conductors.
Here, you recognize insufficiently clamped connections and also damage to the motor.
Checking load-dependent measured values
Check the motor current with the couple work machine.
Check whether the motor current on the display in stationary operation, i.e. without
acceleration or braking, exceeds the motor current on the rating plate.
Documenting measured values, saving parameter file
Document all measured values from the commissioning in a measurement report and save
the parameters of the inverter with the "IMS" software.
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 123
Operation
8
8.1
Operation
8.1.1
Function of the inverter display
Figure 8-1 Inverter display
The display is used for operating and monitoring the inverter.
LEDs "READY", "RUN" and "FAULT" indicate the current status of the inverter.
The following data can be read on the plain text display:
The actual values of the inverter, e.g. motor current
All parameters
All stored error messages
Operation
8.1 Operation
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124 Operating Instructions, 02/2019, 4BS0751-007
The inverter is operated using the display buttons as follows:
Table 8- 1 Inverter operation using the display buttons
"Inverter On"
"Inverter Off"
The buttons for "Inverter On" and "Inverter Off" are only active if you select the
appropriate self-holding as "Operating source".
Use buttons <Arrow down> or <Arrow up> to navigate in the menu.
You specify the speed setpoint by pressing the buttons twice. This function is
only active if the setpoint has been set in the configuration.
Use these buttons as well to select individual actual values such as, e.g. "n-
Motor".
You reach the actual values menu or one actual value menu level higher by
pressing this button.
Press the <Return> button to branch into a submenu to unlock a parameter so
that it can be changed and then lock it again.
If you press the <S> button, you return to the status display with the actual
values.
Acknowledge pending errors by pressing the <S+I> buttons simultaneously.
Press <P> to enter the parameterization menu or to reach a higher parameter
menu level.
Operation
8.1 Operation
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 125
8.1.2
Switching the unit on and off
Read the information in section "Safety instructions" (Page 13) before you switch on the unit.
WARNING
Automatic startup
Depending on parameter settings and connection of external control devices, the inverter
can start up automatically when the line voltage is connected. The motor and coupled
machine can start moving unexpectedly. This can result in death, serious injury or material
damage.
Confirm whether or not your system is capable of automatic starting and, if appropriate,
take measures to ensure personal safety and operational readiness at the driven machine.
Startup
1. If your inverter is supplied with an external control voltage from external or auxiliary power
sources, switch this supply on first.
2. Switch on the line voltage.
3. Start up the inverter using the control command <On> or input the On command via an
external control device (if one is connected).
Shutdown
1. Stop the inverter using the control command <Off> or input the Off command via an
external control device (if one is connected).
2. If you want to isolate the inverter, then disconnect the line supply and any connected
external or auxiliary power sources.
8.1.3
Setting the language
The inverter provides two display languages.
1. Press <S> for approx. 2 seconds to switch the display language.
2. Press <S> again for approx. 2 seconds to switch back to the original display language.
You can download further display languages using the PC tool "IMS":
1. Launch the PC tool "IMS" and connect the inverter to the PC.
2. Select a language using the software "IMS" under "Online functions, Transfer
language...".
Note
Loss of a display language
Every new display language transmitted to the inverter overwrites one of the existing
languages.
Operation
8.1 Operation
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126 Operating Instructions, 02/2019, 4BS0751-007
8.1.4
Setting the date and time
An accurate device time setting makes it easier to troubleshoot later.
Faults which occur during operation are stored in an event log with date and time of day.
Set the current date and time under "P-EXTRAS/Date" and "Time" respectively.
The current time of the testing date is set as CET at the factory.
Winter and Summer time are not taken into account.
8.1.5
Setting the level of detail of the inverter menu
Set the level of detail of the inverter menu in the menu "P-EXTRAS" to change the number of
visible menus and parameters and to increase the display clarity.
8.1.6
Inverter operating commands
The converter is operated by using various inputs, such as control cable terminal block
inputs, control words via fieldbus, signal generators etc. Further information can be found
under "Configuring operating sources" (Page 128).
The commands have the following functions:
"Controller enable"
The power unit in the converter, consisting of IGBTs, is only active when controller is
enabled. As well as the options for releasing the controller by software, control cable
terminal -A1-X2:8 must also be activated. If you deactivate this function, the output
semiconductor is blocked immediately and the motor coasts to a stop.
"Speed in"
Use this command for controlled shutdown of a motor. The motor passes through a brake
ramp during shutdown. The converter is immediately ready for a restart after the braking.
"Reset"
Acknowledge a queued error using the command "Reset". The converter also takes into
account a shutdown using functions "Fast stop" or "Off1" and "Off2".
"Off1 (NC)" and "Off2 (NC)"
Perform a controlled braking with the command "Off1". This command is initiated by
software. Perform an immediate block with the command "Off2". An optional main
contactor drops out. Acknowledge the converter before restarting using the "Reset"
command. When restarting, the converter must first be pre-charged.
The control via the control cable terminal block of "Off1" and "Off2" is realized using an
NC (normally closed) contact.
Operation
8.1 Operation
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 127
"Emerg. stop (NC) OFF3"
Perform a controlled braking on the "fast stop brake ramp" with the command "Off3".
This command is initiated by software. The converter shuts down after braking. An
optional main contactor drops out. Acknowledge the converter before restarting using
the "Reset" command.
The actuation via the control cable terminal block of "Fast stop (NC)" is made via an
NC contact.
This function is not safety-related in the sense of EN ISO 13849-1:2008. If you must
realize a safety-relevant function "Emerg. stop" according to IEC/EN 60204, stop
category one, then control this input and a main contactor via an appropriate safety
relay, e.g. type 3TK2827... from Siemens.
WARNING
Non-safety-related function "Emerg. stop (NC) OFF3"
If you use the "Fast stop (NC) OFF3" function without additional safety relay in the
input and for a main contactor, then the motor will not be shut down safely. This can
result in death, serious injury or material damage.
Use a safety relay for input and main contactor, e.g. type 3TK2827..., for a "Fast
stop" safety-related function according to IEC/EN 60204, stop category one.
"int.ctr.inhib."
If you have realized the operating functions using controls, e.g. ON / OFF button, this
command causes a shutdown using controller lock without deactivating the controls. No
new ON command is necessary for the restart.
"int. speed off"
This command has the same function as "int.ctr.inhib.", however cause a controlled
braking to zero speed. All controls are maintained.
"Reversing"
In the menu item "P-DRIVE DATA/Rotation =", if you enter the value "both", you can
then activate the command "Reversing". When activated, the converter changes the
rotating output field. In doing so, the motor is braked in a controlled way on the brake
ramp to zero speed. Afterwards, it is accelerated to the configured setpoint value in
the opposite direction. If the value "both" is not set, the drive goes to the configured
minimum speed.
If the drive does not start despite the presence of setpoint value and operating
commands, check whether the reverse function is activated and at the same time only
one rotation direction is enabled.
"Motor potentiometer"
Similarly to a mechanical motor potentiometer, you can change the setpoint value using
the <up arrow> and <down arrow> buttons. The position of the motor potentiometer is
stored in the case of power failure.
Operation
8.1 Operation
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128 Operating Instructions, 02/2019, 4BS0751-007
8.1.7
Configuring operating sources
Assign the functions mentioned above to the desired operating source.
You can configure operating sources for "Local", using internal display, "Remote",
using control cable terminal block -X2 and "BUS".
Configure your selection for the On/Off commands with the command "Op.-source" in the
menu "P-INTERFACE\Op.-source" .
If you wish to switch between "Local" and "Remote", then invoke the changeover using a
finished configuration under "P-OPERATION/Opr." or change the setting "P-
PARAMETER SWITCH".
Select the Reset source for the Reset command under "P-INTERFACE" .
If you would like to activate the reset independently of the operating source
changeover, then set "Global". The reset is then possible at all operating sources.
8.1.8
Invoking mode configurations
Invoke the finished operating configurations under "P-OPERATION/Opr.". Settings for the
controls and the parameter switches are automatically made in these configurations.
For each selection, there is an associated connection plan and a specified mode of
functioning of the display buttons and digital inputs. Further information can be found in the
"Standard mode settings" (Page 135) section.
Changes in the menu "P-OPERATION/" cause under "P-OPERATION/Opr." the addition
"special" as information that something has been changed from the standard.
Operation
8.1 Operation
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 129
8.1.9
Communication Options
Figure 8-2 Communication Options
Operation
8.1 Operation
Installation and Operating Instructions SINAMICS G180
130 Operating Instructions, 02/2019, 4BS0751-007
8.1.10
Meaning of the abbreviations for operating functions
The following abbreviations exist for the operating options of "Controller block" and "Speed
On" via display or control cable terminal block:
"siss"
"sisd"
"dids"
"didd"
The letters have the following meanings:
"s" designates the static setting. The default for "On" us performed via a permanent
contact.
"d" designates the dynamic setting. The defaults for "On" and "Off" are performed via an
On-button or Off-button.
"i" designates the internal display. The operation is performed using the <On> and <Off>
buttons.
The individual positions in the abbreviation have the following meaning:
1. position: Controller block for "local", e.g. "s" for static via control cable terminal block
2. position: Speed On for "local", e.g. "i" for internal display via <On> and <Off> buttons
3. position: Controller block for "remote", e.g. "s" for static via terminal block
4. position: Speed On for "remote", e.g. "d" for dynamic via control cable terminal block
You can change the operating source from "local", i.e. the inverter display, to "remote", i.e.
the control cable terminal block X2. To do this, apply a voltage of 24 V to the terminal
-X2:12.
The mode settings "NAMUR 1" to "NAMUR 6" designate the different variations of the
operation options according to the NAMUR specification.
8.1.11
"P-fieldbus" function
You select the basic fieldbus settings using the parameters in menu "P-fieldbus". Using "Rct.
BUS" and "Time-out t", you set whether the converter should respond when the fieldbus
connection is interrupted - and if it should, then after which time.
Additional notes are provided in Chapter "Optional fieldbus connection (Page 56)".
Operation
8.1 Operation
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 131
8.1.12
Function of "P-DIGITAL OUTPUTS"
The inverter provides at least four relays and two LEDs. In the "P-DIGITAL OUTPUTS"
menu, you can select the signal which should actuate the respective relay or LED from a list
("Bitpool"). More outputs might be available depending on the variants and quantity of
installed power sections.
8.1.13
Function of "P-ANALOG OUTPUTS"
The inverter has two electrically isolated analog outputs. Depending on the type of
connected measuring instrument, the output signal is automatically set to a +20 mA current
source or to a +10 V voltage source. Input the following in the "P-ANALOG OUTPUTS"
menu:
Which signals should be output?
What is the full scale value of your display instrument?
Should a 4 mA addition or a different value be added?
Should a center point increase be output for the presentation of bipolar signals?
8.1.14
Operation of several inverters on one PC
It is possible to operate several inverters simultaneously with one PC using the PC tool
"IMS". This is either possible via the serial interface RS 485, the optional fieldbus interfaces
PROFIBUS or PROFINET.
For RS 485:
you require an appropriate interface converter from Ethernet or USB to RS 485, and you
must establish an RS 485 bus connection between the relevant converters (-X51) and the
interface converter. You must set the baud rate for all devices to the same value, and the
participant address of the converter to different values ≥ 3.
You must be able to access the interface converter via the Ethernet network or it must be
connected to the PC via USB.
For PROFIBUS:
you require the appropriate interface converter from Ethernet or USB to PROFIBUS
(manufacturer: Softing) and you must connect this with the relevant PROFIBUS line. You
must set your control system for this PROFIBUS line so that you accept an additional
Class 2 master in the communication.
When establishing the connection, the interface converter must be set to a free bus
address and the given baud rate.
For PROFINET:
you must establish a PROFINET bus connection between the relevant converters (via
port 1 or port 2 of the PROFINET board) and the Ethernet interface of the PC. All
participants must have a unique IP address and be located in the identical subnet.
Operation
8.1 Operation
Installation and Operating Instructions SINAMICS G180
132 Operating Instructions, 02/2019, 4BS0751-007
8.1.15
Communication via PROFINET IO
8.1.15.1
Communication services and port numbers used for PROFINET IO
The PROFINET boards of the SINAMICS G180 converter support the communication
protocols listed in the following table.
You require this information to match the security measures (e.g. a firewall) to protect the
automation system to the protocols being used.
Layers and protocols
Report
Port number
(2) Link layer
(4) Transport layer
Description
PROFINET protocols
DCP
Discovery and Configura-
tion Protocol
Not relevant (2) Ethernet II, Ethertype 0x8892 DCP is used by PROFINET to de-
termine PROFINET devices and to
facilitate the basic fundamental set-
tings.
DCP uses the special Multicast-MAC
address:
01-0E-CF-00-00-0x, whereby x = 0:
Identify and x = 1: Hello
LLDP
Link Layer Discovery
Protocol
Not relevant (2) Ethernet II, Ethertype 0x88CC LLDP is used by PROFINET to de-
termine and manage relationships
between the various PROFINET
devices.
LLDP uses the special Multicast-
MAC address:
01-80-C2-00-00-0E
MRP
Media Redundancy Proto-
col
Not relevant (2) Ethernet II, Ethertype 0x88E3 MRP facilitates the control of redun-
dant communication paths through a
ring topology.
MRP uses the special Multicast-MAC
address:
01-15-4E-00-00-0x, whereby x = 1:
MC_Test and x = 2: MC_Control
PROFINET IO data Not relevant (2) Ethernet II, Ethertype 0x8892 PROFINET IO-telegrams are used
to transfer IO data cyclically between
PROFINET IO-Controller and IO-
Devices via Ethernet.
PROFINET RT Unicast 34962 (4) UDP For PROFINET RT Unicast, the data
packets to be sent are sent to an
individual participant.
PROFINET RT Multicast 34963 (4) UDP For PROFINET RT Multicast, the
data packets to be sent are sent to a
group of participants.
Operation
8.1 Operation
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 133
Report
Port number
(2) Link layer
(4) Transport layer
Description
PROFINET Context Man-
ager
34969 (4) UDP The PROFINET Context Manager
provides a Endpoint-Mapper to es-
tablish an application relationship
(PROFINET AR).
PROFINET RPC
Remote Procedure Call
53247 (4) UDP The PROFNET RPC manages acy-
clic communication messages, which
are received via UDP.
Internet protocols
FTP
File Transfer Protocol
20
21
(4) TCP This protocol allows access to the
FTP Server of the PROFINET board.
DHCP
Dynamic Host Configura-
tion Protocol
67
68
(4) UDP This protocol facilitates the assign-
ment of the network configuration to
the Clients through a Server.
http
Hypertext Transfer Proto-
col
80 (4) TCP This protocol allows access to the
Web Server of the PROFINET board.
SNMP
Simple Network Manage-
ment Protocol
161 (4) UDP This protocol allows network man-
agement data to be read out and set.
ARP
Address Resolution Pro-
tocol
Not relevant (2) Ethernet II, Ethertype 0x0806 This protocol allows the physical
address of the network access layer
to be determined for a network ad-
dress of the Internet layer.
SMTP
Simple Mail Transfer Pro-
tocol
49152 (4) UDP This protocol allows the PROFINET
board to send emails.
SNTP
Simple Network Time
Protocol
123 (4) UDP This protocol allows the clock, inte-
grated in the converter, to synchro-
nize with a time server.
Secure HICP
Secure Host IP Configura-
tion Protocol
3250 (4) UDP This protocol allows the Anybus
IPconfig Utitility to change settings of
the PROFINET board, for example
the IP address, the subnet mask or
deactivate/activate DHCP.
Internal protocol 3001 (default)
1024 - 3149 (can
be parameterized)
(4) TCP This protocol allows communication
to be established between the
PROFINET board and the Inverter
Management Software.
8.1.15.2
Overview
Network security includes all measures taken to plan, implement and monitor security in
networks. This includes the control of all interfaces, e.g. between the office network and
plant network, or remote maintenance access via the Internet.
Operation
8.1 Operation
Installation and Operating Instructions SINAMICS G180
134 Operating Instructions, 02/2019, 4BS0751-007
8.1.15.3
Network security
SINAMICS must only be used in a secure and trustworthy network with a firewall. Note the
information in chapter "Network segmentation (Page 135)".
8.1.15.4
Separation between production and office networks
One important protective measure for your automation or drive system is the strict separation
of the production networks and the other company networks. This separation creates
protection zones for your production networks.
Note
The products described in this manual must only be operated in de
fined protection zones.
Separation by means of a firewall system
In the simplest scenario, separation is achieved by means of an individual firewall system
which controls and regulates communication between networks.
Separation via a DMZ network
In the more secure variant, the coupling is established via a separate DMZ (demilitarized
zone) network. In this case, direct communication between the production network and the
company network is completely prevented by firewalls and only takes place indirectly via
servers in the DMZ network.
Note
The production networks should also be divided into separate automation cells in order to
protect critical communication mechanisms.
General security measures
Adhere to the general security measures even within protection zones, e.g. the use of a virus
scanner or the reduction of points of attack.
Operation
8.2 Standard mode settings
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 135
8.1.15.5
Network segmentation with SCALANCE S
Siemens provides SCALANCE S security modules to meet network protection and network
segmentation requirements. These are modules support various security functions.
Further information on SIEMENS SCALANCE S can be found on the Internet
(https://w3.siemens.com/mcms/industrial-communication/en/ie/network-security/scalance-
s/Pages/Default.aspx).
Note
Data misuse
Long distances between the device to be protected and the upstream security modules
represent an invitation for data mi
suse.
Upstream security modules, such as SCALANCE
S, must be installed close to the device to
be protected in a locked control cabinet. This ensures that data cannot be manipulated here
without being observed.
8.2
Standard mode settings
8.2.1
Mode "std siss"
(D)
Dynamic: Pushbutton mode
(S)
Static: Switch mode
Figure 8-3 Assignment of the control cable terminals for "std siss" mode
Control behavior for "Local" (dynamic)
Enter the command "Speed On" and "Speed Off" using the <On> and <Off> buttons on
the display.
Make the setpoint value setting using the <down arrow> and <up arrow> buttons.
Reset errors by pressing the buttons <S+I> simultaneously.
Operation
8.2 Standard mode settings
Installation and Operating Instructions SINAMICS G180
136 Operating Instructions, 02/2019, 4BS0751-007
Control behavior for "Remote" (static)
Control the operation of "Speed on" with a switch at -X2:10.
Enter the setpoint via control cable terminal block -X2 with analog setpoint value 1.
When required use the reversing input -X2:16.
"Local" and "Remote" mode
"Emerg. stop (NC)": If you open the contact at -X2:15, the drive decelerates down to 0
speed along the braking ramp for a fast stop. The converter clears all self-latching
functions.
"Reset" (NO): Reset faults and "Fast stop" using a 24 V pulse at -X2:14.
"Controller release, static " (NC) -X2:8: Enable the converter using a permanent contact.
The drive coasts to a stop if you open the contact. The converter clears all self-holding
functions.
8.2.2
Mode "std sisd"
(D)
Dynamic: Pushbutton mode
(S)
Static: Switch mode
Figure 8-4 Assignment of the control cable terminals for operation of "std sisd"
Operation different from "std siss"
The operation "Speed On" for "Remote" mode is dynamic.
Start the drive with an NO (normally open) contact at -X2:11. You change the converter
speed to 0 with an NC (normally closed) contact at -X2:10.
Operation
8.2 Standard mode settings
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 137
8.2.3
Mode "std dids"
(D)
Dynamic: Pushbutton mode
(S)
Static: Switch mode
Figure 8-5 Assignment of the control cable terminals for "std dids" mode
Control behavior for "Local" (dynamic)
Enter the command "Speed On" and "Speed Off" using the <On> and <Off> buttons on
the display.
Make the setpoint value setting using the <down arrow> and <up arrow> buttons.
Reset errors by pressing the buttons <S+I> simultaneously.
Control behavior for "Remote" (static)
Control the operation of "Speed on" with a switch at -X2:10. Enter the setpoint via control
cable terminal block -X2 with analog setpoint value 1.
When required use the reversing input -X2:16.
"Local" and "Remote" mode
"Emergency stop (NC)": If you open the contact at -X2:15, the drive decelerates down to
0 speed along the braking ramp for an emergency stop. The inverter clears all self-
holding functions.
"Reset" (NO): Reset errors and "Emergency stop" using a 24 V pulse at -X2:14.
"Controller release dynamic". Enable the inverter using a normally open contact at -X2:9.
The drive coasts to a stop if you open the contact at -X2:8. The inverter clears all self-
holding functions.
Operation
8.3 NAMUR mode settings
Installation and Operating Instructions SINAMICS G180
138 Operating Instructions, 02/2019, 4BS0751-007
8.2.4
Mode "std didd"
(D)
Dynamic: Pushbutton mode
(S)
Static: Switch mode
Figure 8-6 Assignment of the control cable terminals for "std didd" mode
Operation different from "std dids"
The operation "Speed On" for "Remote" mode is dynamic.
Start the drive with an NO (normally open) contact at -X2:11. Change the inverter speed to 0
with an NC (normally closed) contact at -X2:10.
8.3
NAMUR mode settings
8.3.1
Operation according to NAMUR defaults
If you activate the control cable terminal -X2:9 with 24 V, then the operating source and the
setpoint input are switched from "Test" to "Normal" using a parameter switch.
You can connect the up and down buttons of a motor potentiometer function to control cable
terminals -X2:12 and -X2:13. If you would like to use the motor potentiometer, you must also
under "P-PARAMETER SWITCH/AV" change the setting of bit "AI 1" for analog setpoint
value 1 to "MPoti". The motor potentiometer function is now valid in "Normal" mode and not
valid in test mode.
"Reset" (NO): Reset faults and "fast stop" using a 24 V pulse at -X2:14.
Operation
8.3 NAMUR mode settings
Installation and Operating Instructions SINAMICS G180
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8.3.2
Operation according to "NAMUR 1"
(D)
Dynamic: Pushbutton mode
(S)
Static: Switch mode
Figure 8-7 Assignment of the control cable terminals for "NAMUR 1" mode
Control behavior for "test" (dynamic)
Enter the command "Controller release" and "CTRL.OFF" using the <On> and <Off>
buttons on the display.
Make the setpoint value setting using the <down arrow> and <up arrow> buttons.
Reset errors by pressing the buttons <S+I> simultaneously. The locking and the OUT
input on the control cable terminal block reset the control.
Control behavior for "normal" (static)
Control the operation of the controller release with a switch (NO) at -X2:10. Enter the
setpoint via control cable terminal block -X2 with analog setpoint value 1.
When required use the reversing input (NO) -X2:16.
"Test" and "Normal" mode
"Interlocking" (NC): The controller inhibit is activated if you open the contact at -X2:15.
The drive coasts to a stop and cannot be restarted. The inverter display shows the
message "Interlocking".
"Off" (NC): You activate the controller inhibit if you remove the 24 V signal at -X2:11.
Operation
8.3 NAMUR mode settings
Installation and Operating Instructions SINAMICS G180
140 Operating Instructions, 02/2019, 4BS0751-007
8.3.3
Operation according to "NAMUR 2"
(D)
Dynamic: Pushbutton mode
(S)
Static: Switch mode
Figure 8-8 Assignment of the control cable terminals for "NAMUR 2" mode
Operation different from "NAMUR 1"
The operation of the controller block for "Normal mode is dynamic.
Start the drive with an NO (normally open) contact at -X2:10.
You inhibit the converter with a normally closed contact at -X2:11.
Operation
8.3 NAMUR mode settings
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 141
8.3.4
Operation according to "NAMUR 3"
(D)
Dynamic: Pushbutton mode
(S)
Static: Switch mode
Figure 8-9 Assignment of the control cable terminals for "NAMUR 3" mode
Control behavior for "test" (dynamic)
Enter the commands "Speed On" and "Speed Off" using the <On> and <Off> buttons on
the display.
Make the setpoint value setting using the <down arrow> and <up arrow> buttons.
Reset errors by pressing the buttons <S+I> simultaneously. The locking and the OUT
input on the control cable terminal block reset the control.
Control behavior for "normal" (static)
Control the operation of the speed with a switch (NO) at -X2:10. Enter the setpoint via
control cable terminal block -X2 with analog setpoint value 1.
When required use the reversing input (NO) -X2:16.
"Test" and "Normal" mode
"Interlocking" (NC): The controller inhibit is activated if you open the contact at -X2:15.
The drive coasts to a stop and cannot be restarted. The inverter display shows the
message "Interlocking".
"Off" (NC): You issue the command for "Speed Off" if you remove the 24 V signal at
-X2:10.
Operation
8.3 NAMUR mode settings
Installation and Operating Instructions SINAMICS G180
142 Operating Instructions, 02/2019, 4BS0751-007
8.3.5
Operation according to "NAMUR 4"
(D)
Dynamic: Pushbutton mode
(S)
Static: Switch mode
Figure 8-10 Assignment of the control cable terminals for "NAMUR 4" mode
Operation different from "NAMUR 3"
The operation "Speed On" for "normal" mode is dynamic.
Start the drive with a normally open contact at -X2:10.
Issue the command "Speed Off" with an NC contact at -X2:11.
Operation
8.3 NAMUR mode settings
Installation and Operating Instructions SINAMICS G180
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8.3.6
Operation according to "NAMUR 5"
(D)
Dynamic, button mode
(S)
Static, switch mode
Figure 8-11 Assignment of the control cable terminals for "NAMUR 5" mode
Control behavior for "test" (dynamic)
Enter the commands "Speed On" and "Speed Off" using the <On> and <Off> buttons on
the display.
Make the setpoint value setting using the <down arrow> and <up arrow> buttons.
Reset errors by pressing the buttons <S+I> simultaneously.
Control behavior for "normal" (static)
Control the operation of the speed with a switch (NO) at -X2:10. Enter the setpoint via
control cable terminal block -X2 with analog setpoint value 1.
When required use the reversing input (NO) -X2:16.
"Test" and "Normal" mode
"Interlocking" (NC): The controller inhibit is activated if you open the contact at -X2:15.
The drive coasts to a stop and cannot be restarted. The inverter display shows the
message "Interlocking". If the contact is closed again, you must restart the inverter in test
mode.
"Off" (NC): You issue the command for "Speed Off" if you remove the 24 V signal at
-X2:10.
If you close the contacts "Interlocking" or "Off" again during the braking phase, the drive
accelerates immediately to the configured setpoint value.
Operation
8.3 NAMUR mode settings
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8.3.7
Operation according to "NAMUR 6"
(D)
Dynamic: Pushbutton mode
(S)
Static: Switch mode
Figure 8-12 Assignment of the control cable terminals for "NAMUR 6" mode
Operation different from "NAMUR 5"
The operation "Speed On" for "normal" mode is dynamic.
Start the drive with a normally open contact at -X2:10.
Issue the command "Speed Off" with an NC contact at -X2:11.
Operation
8.4 Controlling the external connections of the inverter
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8.4
Controlling the external connections of the inverter
8.4.1
Function of the control cable terminals
Figure 8-13 Control cable terminals
The purpose of the control cable terminals is to connect control cables for exchanging
signals.
For more detailed information about the function of control cable terminals, refer to section
"Standard mode settings" (Page 135). The function of the control cable terminals, with the
exception of input -X2:8 for hardware shutdown, is dependent on the parameterization.
8.4.2
Protective separation according to EN 61800-5-1
WARNING
High voltages
If you connect peripheral devices which do not conform to this insulation concept,
equipment damage might occur as a result of inadequate insulation. This can result in
death, serious injury or material damage.
Connect devices and cables to the control cable terminals only if they conform to the
relevant voltage class (DVC) described in this section.
Operation
8.4 Controlling the external connections of the inverter
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Control and power circuits have protective separation between them according to
EN 61800-5-1. The following graphics show the principle structure:
Figure 8-14 Overview of external connections and voltage classes
Operation
8.4 Controlling the external connections of the inverter
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Potential for output (PTC) (-X3) max. 690 V
DVC C
Potential for digital outputs (-X2:37-42) max. 250 V
DVC C
Potential for digital outputs (-X2:30,31) max. 250 V
DVC C
Potential for digital outputs (-X2:32,33) max. 250 V
DVC C
Potential for digital outputs (-X2:34-36) max. 250 V
DVC C
Potential for digital outputs (-X2:43-45) max. 250 V
DVC C
Potential for digital outputs (-X2:46-47) max. 250 V
DVC C
Potential for digital outputs (-X2:48-49) max. 250 V
DVC C
Potential for digital inputs (-X2:1-26)
DVC A
Potential for ETV (ETV = input isolating amplifier, analog inputs -X2:27-29,50-58,
HTL tachometer -X101)
DVC A
Potential for ATV (output isolating amplifier, analog outputs -X2:60-67,70-71)
DVC A
Potential for control electronics/CB08 (inverter electronics, ext. display -X26,
sin/cos-tacho -X25, USB-A -X50A, USB-B -X50B)
DVC A
Potential for RS485 (ext. display/RS232 -X51)
DVC A
Potential SELV, safety extra-low voltage in accordance with EN 60950-1 (BUS
circuit boards)
DVC A
Figure 8-15 Insulation concept
DVC (Decisive Voltage Class) is the classification of the voltage range used to determine
protective measures against electric shock hazards
Table 8- 2 Limit values of the DVC according to EN 61800-5-1
DVC
Working voltage limits
Alternating voltage
(rms value)
Alternating voltage
(peak value)
Direct voltage
(average value)
A
25 V
35,4 V
60 V
B
50 V
71 V
120 V
C
1.000 V
4.500 V
1.500 V
D
> 1.000 V
> 4.500 V
> 1.500 V
For more detailed information about control cable terminals, please refer to section
"Technical data of control cable terminals (Page 201)".
Operation
8.4 Controlling the external connections of the inverter
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8.4.3
Sub-D and USB connections and DIL switches
The following illustration clarifies the position of the Sub-D connections and DIL switches.
S1.1 … S1.4: Hardware setting
-X25: SIN-COS/TTL speed encoder
-X50B: USB for PC with software "IMS":
-X51: RS 485 for an external operator panel In addition, it is also possible to communicate at
this interface via RS 232 , e.g. with "IMS".
-X101: HTL speed encoder
-X26: Additional RS 485 interface, not isolated. This is the standard interface for connecting the
external operator panel (for local installation in the cabinet door only).
Figure 8-16 Interfaces at the converter
Operation
8.4 Controlling the external connections of the inverter
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8.4.4
USB interface
CAUTION
Non-isolated USB interfaces
The USB interface -X50B is not electrically isolated. The connection of a grounded device
can cause an equipment or converter defect and consequentially pose the risk of physical
injury.
Devices that are connected, e.g. laptop with IMS, must have basic insulation between the
USB interface and ground. In this case, the devices must offer this option, e.g. suitable for
battery operation or the original power supply without ground connection.
NOTICE
No supply with a power source of limited output
When the connected device is overloaded, the USB interface can develop defects. The
equipment will be damaged as a result.
The USB interface is a service interface only and not a general IT data interface in
accordance with standard IEC/EN/UL 60950-1.
8.4.5
DIL switches "S1" and "S2"
Switch "S1"
Table 8- 3 Functions - DIL switch "S1"
Switch
Function
Factory setting
S1:1 ON: configuration possible
OFF: parameterization blocked
1
S1:2 ON: general fault in the open-circuit principle,
OFF: general fault in the closed-circuit principle, control cable
terminals -X2:3436
0
S1:3 ON: Complete initialization
OFF:
0
S1:4 ON: flashing in conjunction with S1:3 = ON
OFF:
0
Note
Remote flashing
DIL switches S1:1 and S1:4 must be set to "ON" for remote flashing.
Operation
8.4 Controlling the external connections of the inverter
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Switch "S2"
Gray cover
-X26 for an external operator panel
Control cable terminal block -X2
Figure 8-17 DIL switch "S2"
The first four switches, S2: 1 / 2 / 3 / 4, define the voltage range for analog input 2, control
cable terminal -X2:54:
Table 8- 4 DIL switch "S2" - can be used to set the voltage range
S2: 1 2 3 4
Voltage range -X2:54
0 0 0 1
0 V … ± 250 V
0 0 1 0
0 V … ± 132 V
0 1 0 0
0 V … ± 72 V
1 0 0 0
0 V … ± 50 V
0 0 0 0
0 V … ± 10 V
Switch S2: 5 / 6 / 7 configures the analog input AI 2 as a current/voltage input, PTC
thermistor input, KTY84-130 input or PT100 input.
Table 8- 5 DIL switch "S2" - possible settings for AI 2
S2: 5 6 7
Function
Control cable terminal
1 X 0
Current input
-X2:53 - -X2:51
0 0 0
PTC thermistor input
-X2:53 - -X2:51
0 1 0
KTY84 130 input
-X2:53 - -X2:51
0 1 1
PT100 input
-X2:53 - -X2:51
X X X
Voltage input
-X2:54 - -X2:51
Operation
8.4 Controlling the external connections of the inverter
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Switch S2: 8 / 9 / 10 configures the analog input AI 1 as a current/voltage input, PTC
thermistor input, KTY84-130 input or PT100 input.
Table 8- 6 DIL switch "S2" - possible settings for AI 1
S2: 8 9 10
Function
Control cable terminal
1 X 0
Current input
-X2:50 - -X2:51
0 0 0
PTC thermistor input
-X2:50 - -X2:51
0 1 0
KTY84 130 input
-X2:50 - -X2:51
0 1 1
PT100 input
-X2:50 - -X2:51
X X X
Voltage input, only 0 V ... ± 10 V
-X2:52 - -X2:51
8.4.6
Connecting encoders
An encoder is required for field-oriented control only, the standard control works without an
encoder.
Note
Unwanted operating state
If you do not connect up the encoder cables correctly, the loss of the encoder signal can give
rise to unwanted operating state
s in the inverter control system.
Connecting a sincos encoder to -X25
All encoder signals have a voltage level of 1 VSS.
The encoder connection on the motor side is designed as a socket. For this version, the
manufacturer provides a complete encoder cable, e.g. ERN 387 from the company
Heidenhain, Item No. 0278599 with a length of 10 meters. You can also purchase an adapter
cable, Item No. 0278581. Ask the inverter manufacturer about other encoder cables.
The encoder connection on the inverter side is designed as a socket.
Only use this encoder for field-oriented control with a speed accuracy < 1 %.
Connect the encoder mechanically rigid to the motor.
Operation
8.4 Controlling the external connections of the inverter
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Do not place any gearbox between encoder and motor.
Figure 8-18 Sincos encoder at -X25
Use twisted pair cables for the same encoder tracks, e.g. A + / A -.
Lay the cable shield on both sides at the encoder and inverter connector.
Connecting a TTL encoder to -X25
All encoder signals have a voltage level compliant with RS 422.
The encoder connection on the inverter side is a high density socket.
Only use this encoder for field-oriented control with a speed accuracy < 1 %.
Connect the encoder mechanically rigid to the motor.
Do not place any gearbox between encoder and motor.
Figure 8-19 TTL encoder at -X25
Operation
8.4 Controlling the external connections of the inverter
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Use twisted pair cables for the same encoder tracks, e.g. A + / A -, B + / B -.
Lay the cable shield on both sides at the encoder and inverter connector.
Connecting an HTL encoder at -X101
Only use this encoder for field-oriented control with a speed accuracy < 1 %.
Connect the encoder mechanically rigid to the motor.
Do not place any gearbox between encoder and motor.
Figure 8-20 HTL encoder at -X101
In the case of making your own encoder cables, only lay the shield on the inverter side.
8.4.7
Connect the PC via USB at -X50B
Figure 8-21 PC at -X50B via USB
Operation
8.4 Controlling the external connections of the inverter
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Connect the USB- port -X50B with a USBport on your notebook. Use a standard cable that is
not longer than 3 m.
CAUTION
Personal injuries caused by a defective unit or inverter
Read the connection instructions given in section "Electrical isolation of USB interfaces"
(Page 149) and "Safe isolation in accordance with EN 61800-5-1" (Page 145).
The version of the installed IMS software must be "Z24" or higher. The USB connection
feature is not available in earlier versions.
In the menu "Options/drivers" select theUSB driver.
8.4.8
Connecting a PC to -X51 via RS 232
Figure 8-22 PC at -X51 via RS 232
NOTICE
Damage to the inverter electronics or the PC.
The pins of socket -X51 are assigned signals other than those shown here. Do not use a
standard cable that is completely assigned, as otherwise the inverter electronics or the PC
could be damaged. Only use cables where only the required pins are assigned.
Further information about connecting PC and inverter, etc. can be found in the help in the
software "IMS".
Connect the cable shield at both sides on the Sub-D housing.
Operation
8.4 Controlling the external connections of the inverter
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If you would like to use the software "IMS" to change the inverter parameters, the parameter
"P-INTERFACE/Para-Source" must be set to "Global" or "RS232". "Global" is the default
setting.
Using the "IMS" software, configure which COM port the cable on the PC will be
connected to.
The default setting is COM1.
Select the configuration under "Options/Drivers/RS232-485-Driver".
8.4.9
Connection for optional external display with RS 485
You have the option of connecting an external display at -X51 or at -X26. The connection
assignment for an external display with RS 485 is shown in the following diagrams.
Figure 8-23 External display connected at -X51
In order to be able to issue commands via an external display connected at -X51 to the
inverter, set the corresponding command source in the parameter assignment to "RS 485".
Figure 8-24 External display connected at -X26
The -X26 interface is only suitable for an external display, for instance installed in the cabinet
door.
In order to be able to issue commands via an external display connected at -X26 to the
inverter, set the corresponding command source in the parameter assignment to "intern".
Operation
8.5 Special functions
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8.5
Special functions
8.5.1
Protective functions
Main contactor
If you install a main contactor in your application, this can be controlled using the inverter
software.
In this case, the coil is controlled via a digital output. Feedback from the normally open
contact of the main contactor is realized via digital input -X2:8.
You can provide the main contactor on the mains power side, NS in short, or on the motor
side, MS in short. The "P-INV. BEHAVIOUR/MCfunc" parameter specifies when the main
contactor will be switched and where the main contactor must be installed.
Example: Shutdown only in the case of an error, installation on the mains power or motor
side.
The following settings are possible:
Table 8- 7 Contactor functions for different parameters
The protection is ON for ...
"MCfunc"
"FAULT"
"OFF 1"
"Controller release
no internal controller
voltage
"Speed On
no internal speed off
NS minor fault
No
-
-
-
NS ready for
operation
No No - -
NS Operation
enable
No No Yes -
NS Operation
No
No
Yes
Yes
MS minor fault
No
-
-
-
MS ready for
operation
No No - -
MS operation
enable
No No Yes -
MS operation
No
No
Yes
Yes
Operation
8.5 Special functions
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Line contactor
The inverter controls its own line contactor. Note that the supply voltage for the control
electronics is tapped before the main contactor. Further information can be found in the
section "Connecting external control voltage for compact devices" (Page 111) Perform the
wiring in accordance with the following plan:
Figure 8-25 Line contactor function
Operation
8.5 Special functions
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Table 8- 8 Line contactor functions
Terminal / compo-
nent
Function
-F1
External control voltage fuse protection
-F2 Inverter output section fuse protection
-K1 Input side main contactor
Design recommendation: AC1 current of the contactor is at least the inverter input current
101, 102 External control voltage for the 230 V inverter
41, 42
Digital output for the main contactor control
U1, V1, W1
Mains power connection switched via main contactor
8
Main contactor feedback input
55
24 V DC supply voltage
1, 51
Jumper for ground connection
U2, V2, W2
Motor connection
NOTICE
Coil currents in excess of 1 A at contact 41/42
If you load the contact 41/42 with coil currents of more than 1 A, the contact can be
destroyed.
In the case of coil currents of more than 1 A, connect an auxiliary relay between terminal
41/42 and the main contactor coil.
Make the following settings in order to activate the main contactor function:
The preselection for the inputs/outputs for the control must be as follows:
"P-DRIVE DATA/A=Namur" or
"P-DIGITAL OUTPUTS/Relay 2=MainCntctr" and "P-OPERATION/Feedb.MC=X2:8"
For "P-INV. BEHAVIOUR/MCfunc" the setting "LinC…" must be input.
Operation
8.5 Special functions
Installation and Operating Instructions SINAMICS G180
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Motor contactor
The inverter controls the contactor at the inverter output.
Perform the activation as for the line contactor.
Different than for the line contactor, for "P-INV. BEHAVIOUR/MCfunc" as value select the
parameters that have "MS" as prefix for motor contactor.
Dimension the output side contactor according to the AC3 current.
Perform the wiring in accordance with the following plan:
Figure 8-26 Motor contactor function
Operation
8.5 Special functions
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Table 8- 9 Motor contactor functions
Terminal / component
Function
-K11 Output side main contactor
Design recommendation: AC3 current of the contactor is at least the inverter
output current
41, 42 Digital output for the main contactor control
U1,V1,W1
Mains connection
8
Main contactor feedback input
55
24 V DC supply voltage
1 und 51
Jumper for ground connection
U2, V2, W2
Motor connection
8.5.2
Multiple function of the analog and digital inputs
Analog inputs 1 and 2
The analog inputs have several functions:
Under "P-ANALOG INPUTS/Analog input 1/AI-function" you can set the value from
"Analog" to "PTC", "KTY84" or "PT100".
Under "P-ANALOG INPUTS/Analog input 2/AI-function" you can set analog input 2 from
"Analog" to "PTC", "KTY84" or "PT100".
Also adjust the corresponding DIL switches of the -S2 switch row on board CB08
More detailed information can be found in the section "DIL switches S1 and S2
(Page 149)".
The following functions are now available:
"Analog":
The analog input operates as a voltage input at control cable terminals -X2:52-51 / 54-51
or as a current input at control cable terminals -X2:50-51 / 53-51 The value is available as
"AI 1" or "AI 2" for further processing.
"PTC":
The analog input operates as a PTC thermistor input at control cable terminals
-X2:50-51 / 53-51. The PTC thermistor state is available for further processing as
selection bit "PTC AI 1" or "PTC AI 2".
"KTY84":
The analog input operates as a direct input for a KTY84-130 temperature sensor at
control cable terminals -X2:50-51 / 53-51. The measured temperature is available as an
analog value under "T-AI1" or "T-AI 2" for further processing.
"PT100":
The analog input operates as a direct input for a PT100 temperature sensor at control
cable terminals -X2:50-51 / 53-51. The measured temperature is available as an analog
value under "T-AI1" or "T-AI 2" for further processing.
Any analog input can only be used for one function. It is not possible to use several functions
simultaneously for one input.
Operation
8.5 Special functions
Installation and Operating Instructions SINAMICS G180
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Digital inputs -X2:27 and -X2:28 as PTC thermistor inputs
The digital inputs are interpreted as a normal digital input for control with a 24 V signal. If
these control cable terminals are wired to 10 V potential using a PTC thermistor sensor,
these function automatically as PTC thermistor monitoring inputs. The selection bits "PTC
X2:27" and "PTC X2:28" indicate the PTC thermistor status. To do this it is mandatory that
you set parameter "P-PULSE INPUT/Mode = inactive".
NOTICE
Unsuitable evaluation unit
If the PTC thermistor for explosion proof motors or for safe isolation is not evaluated using
an ATEX-certified, safely isolated evaluation unit or the peripherals board, damage to the
converter can occur.
Use an ATEX-certified, safely isolated evaluation unit or the peripherals board for safe
operation.
Digital inputs -X2:27, -X2:28 and -X2:29 as frequency or tachometer inputs
These digital inputs can be used as a frequency or tachometer input, for example, in the
following way.
The field-oriented control at input -X25 / -X101 is not possible, e.g. if the n-sensor is
installed on the machine and there is a gearbox between machine and motor.
Only one simple proximity switch with e.g. four impulses per revolution is available. The
resolution for the field-oriented regulation is too small in this case. It is suitable for
displays or more precise speed regulation.
You connect a frequency-dependent setpoint generator of the type used for mining
applications, for example.
Example applications for the digital inputs as frequency inputs:
Proximity switch with NAMUR output or with PNP-3 wire output
Two-channel digital tachometer with HTL output
In order that you can use these inputs as frequency or tachometer input, you must select the
required evaluation function using parameter "P-PULSE INPUT/Mode". Independent of the
selected evaluation function, as a result, inputs -X2:27 to :29 are assigned, and are no
longer available as digital inputs. The digital input bits in the bit pool X2:27, X2:28 and X2:29
are connected to a fixed value of "0". Likewise, the bits in the bit pool for the PTC evaluation
"PTC X2:27" and "PTC X2:28" are connected to 0. These can no longer be used.
Possible warnings and faults that are obtained that can be parameterized, for example
"MotorWindingTemp." must be resolved by making the appropriate parameter change, e.g.
setting to "inactive".
Operation
8.5 Special functions
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Proximity switch with NAMUR output or with PNP-3 wire output
Figure 8-27 PNP speed sensor
Figure 8-28 NAMUR speed sensor
Assumption: sensor produces four impulses per revolution for four-pole motor, nmax = 1500
rpm.
Note the following:
This speed is available for further processing as "Tacho act" from 0 rpm to 1500 rpm and as
"Pulse act" from 0 % to 100 %.
Connection according to connection diagram.
You must connect the tachometer signal at terminal -X2:27. You must keep terminal
-X2:28 free, and control terminal -X2:29 with 24 V (e.g. jumper from -X2:29 to -X2:55) for
an evaluation as 1-track tachometer or as frequency evaluation. Bit pool bits X2:27 to
X2:29, PTC X2:27 and PTC X2:28 are permanently set to "0".
Parameterize the following:
At f 20 kHz: 1500 rpm / 60 s × 4 pulses = 100 Hz.
Select the following values for the respective parameters:
Table 8- 10 Parameter setting for speed sensor
Parameter
Value
"P-PULSE INPUT/Mode"
"Tacho 1-track"
"P-PULSE INPUT/Max.plse."
"1500 rpm"
"P-PULSE INPUT/Pulses/360"
"4"
Operation
8.5 Special functions
Installation and Operating Instructions SINAMICS G180
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Set the following parameters if a frequency value is needed for the further processing:
Table 8- 11 Parameter setting for speed sensor with frequency value
Parameter
Value
"P-PULSE INPUT/Mode"
"f < 20 kHz"
"P-PULSE INPUT/Max.plse." "100 Hz"
"P-PULSE INPUT/Pulses/360"
"4"
The frequency is available for further processing as "Freq.act." from 0 Hz to 100 Hz and as
"Pulse act" from 0 % to 100 %.
NPN sensors cannot be used.
Two-channel digital tachometer with HTL output
Figure 8-29 Digital tachometer, two-channel, HTL level
Assumption: digital tachometer produces 1,024 impulses per revolution for four-pole motor,
nmax = 1500 rpm
Note the following:
Connection according to connection diagram. You must keep input -X2:29 free. Bit pool
bits X2:27 to X2:29, PTC X2:27 and PTC X2:28 are permanently set to 0.
Check the frequency in the range from 20 kHz to 205 kHz:
1500 rpm / 60 s × 1024 impulses = 25.6 kHz
Select the following values for the respective parameters:
Table 8- 12 parameter setting for digital tachometer
Parameter
Value
"P-PULSE INPUT/Mode"
"Tacho 2-track"
"P-PULSE INPUT/Max.plse."
"1500 rpm"
"P-PULSE INPUT/Pulses/360"
"1,024"
The speed is available for further processing as "Tacho act" from 0 rpm to 1500 rpm and as
"Pulse act" from 0 % to 100 %.
Operation
8.6 Setpoint channel and closed-loop control
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164 Operating Instructions, 02/2019, 4BS0751-007
Set the following values for the respective parameters if a frequency value is needed for the
further processing:
Table 8- 13 parameter setting for digital tachometer with frequency value
Parameter
Value
"P-PULSE INPUT/Mode"
"f > 20 kHz"
"P-PULSE INPUT/Max.plse." "25,600 Hz"
"P-PULSE INPUT/Pulses/360"
"1024"
The frequency is available for further processing as "Freq.act." from 0 Hz to 25.6 kHz and as
"Pulse act" from 0 % to 100 %.
8.6
Setpoint channel and closed-loop control
8.6.1
Specifying source for speed setpoint
Specify under "P-SPEED DEFAULT//n Set source" the setpoint source to which the inverter
must react, e.g. including:
"Internal" using <up arrow> or <down arrow> of the display
"AI 1" via analog input 1 of the control terminal block -X2
"BUS 1" as control word via the optional fieldbus connection
8.7
Parameterization
8.7.1
Principle of operation of the configuration
NOTICE
Incorrect parameter settings
The converter and other connected components can be damaged or destroyed if the
parameter settings are incorrect.
Only qualified personnel may change parameters; the instructions in the Operating Manual
and the technical data of the converter and connected components must be carefully
observed.
Parameterization is based on the principle - Input → Processing → Output. Many functions in
plain text are available in the bit pool for the input. You always have the selection from the bit
Operation
8.7 Parameterization
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pool when you are in the menu of a processing function, for example when changing the
function "P-ContrlRelease/Local" you always have the selection "\X2:8\X2:9…"
Processing functions for the output are available, for example "P-DigitalOutputs/Relays 1-4",
"LED 1-2" or "P-AnalogOutputs".
For processing, several functions are available, e.g. "P-MessgGen. MESS" or
"P-PARAMETER SWITCH".
The following graphic clarifies this processing method:
Figure 8-30 Configuration principle of operation
Operation
8.7 Parameterization
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8.7.2
Protecting parameters against modification
WARNING
Undesirable machine response
The machine can respond undesirably as a result of incorrect or modified parameterization
of the inverter. Death, serious injury, and property damage can result.
Protect the parameterization (parameter assignments) against unauthorized access.
Read and carefully follow the instructions in this document and all of the relevant
documents.
If necessary, contact our Service Center (Page 189).
You can configure all parameters of the inverter in the delivery state using the internal
control panel or via an RS 232 connection to a PC running the "IMS" software.
If you would like that the inverter should only be configured from one location, you can set
this under "P-INTERFACE/Para-source".
If you would like to no longer allow any parameter changes, you must set the DIL switch
S1.1 to "Off". The exact position of this DIL switch is described in the section "Sub-D
connections and DIL switches" (Page 148).
8.7.3
Configuration using the inverter display
1. You reach the configuration menu by pressing the button <P>. The display "P-DRIVE
DATA" is shown in the first line.
2. Individual menu items can be selected using <up arrow> and <down arrow>. For
example, you reach "P-INTERFACE" using the <down arrow>.
3. When "P-DRIVE DATA" is displayed, press <Return> in order to display the submenu of
"P-DRIVE DATA". The first parameter of "P-DRIVE DATA" "fmin" is shown in the second
line.
4. If you again press <Return>, then in the 2nd line a black bar is displayed between the
parameter name and value. This means that the parameter is unlocked, and you can
enter a new value for the parameter using <Arrow up> or <Arrow down>.
5. If you press <Return> again, then the black bar disappears again. This indicates that the
parameter is again locked. Some parameters are accepted with the lock; others are
already accepted when the value is changed.
6. Press <Arrow up> or <Arrow down> to reach other parameters or submenus. Press
<Return> to reach submenus. Press <P> to go one level higher in the menu structure.
You can then use the same principle of operation in any other menu.
Operation
8.7 Parameterization
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 167
8.7.4
More documentation about parameterization
You can find further documentation relating to parameterization on the Internet at
www.siemens.com (http://www.siemens.com)
Operation
8.8 Examples / Applications
Installation and Operating Instructions SINAMICS G180
168 Operating Instructions, 02/2019, 4BS0751-007
8.8
Examples / Applications
8.8.1
"Standard" application
8.8.1.1
Standard control cable terminals
Operation
8.8 Examples / Applications
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 169
Global = functional for "Local" and "Remote"
If you use these inputs, remove the jumper.
As long as "P-INTERFACE:Reset-Source" is set to "Global" , all reset sources are always effective.
Max. current load of the control voltages:
+24 V DC, potential 2: 300 mA
+15 V DC, potential 2: 150 mA ±10 mA
This voltage can supply a speed encoder connected at terminal -X101.
Remove both these jumpers if you are using peripheral boards 3 / 4. The supply is realized via -X2:1/3.
Figure 8-31 Control cable terminals for "Standard" application
8.8.1.2
Control cable terminals "peripheral board 1"
Figure 8-32 Control cable terminals for "peripheral board 1" application
8.8.1.3
Control cable terminals "peripheral board 2"
PTC inputs, suitable for motors in the Ex-zone or Non-Ex-Zone
Remove the 100 Ω resistor if these control cable terminals are in use.
Figure 8-33 Control cable terminals for "peripheral board 2" application
Operation
8.8 Examples / Applications
Installation and Operating Instructions SINAMICS G180
170 Operating Instructions, 02/2019, 4BS0751-007
8.8.1.4
Control cable terminals "peripheral board 3"
Remove the jumper if these control cable terminals are in use.
-X2:3: Four-way distribution terminal for 24 V, -X2:17, 18: Not assigned
In the case of an equipped peripheral board 3 / 4, the supply of the digital inputs -X2:8 … 16 is changed over. The
digital inputs are supplied from -X2:1/3 instead of -X2:51/55.
Figure 8-34 Control cable terminals for "peripheral board 3" application
Operation
8.8 Examples / Applications
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 171
8.8.1.5
Control cable terminals "peripheral board 4"
PTC inputs, suitable for motors in the Ex-zone or Non-Ex-Zone
Remove the jumper if these control cable terminals are in use.
Remove the 100 Ω resistor if these control cable terminals are in use.
-X2:3: Four-way distribution terminal for 24 V, -X2:17, 18: Not assigned
In the case of an equipped peripheral board 3 / 4, the supply of the digital inputs -X2:8 … 16 is changed over. The
digital inputs are supplied from -X2:1/3 instead of -X2:51/55.
Figure 8-35 Control cable terminals for "peripheral board 4" application
8.8.1.6
Mode setting of the "Standard" application
The mode setting for the "Standard" application is "siss". Further information can be found in
section "Standard mode settings" (Page 135).
Operation
8.8 Examples / Applications
Installation and Operating Instructions SINAMICS G180
172 Operating Instructions, 02/2019, 4BS0751-007
8.8.1.7
Assignment of the digital inputs
Terminal -X2:13 External fault input. In the case of actuation with 24 V, this results in an error shut-
down with storage.
Terminal -X2:29 External warning. In the case of actuation with 24 V, this results in a warning without
storage.
Terminal -X2:27 Connect a motor PTC thermistor for the motor monitoring here. If the sensor is trig-
gered, a "Motor overtemperature " shutdown is performed, which is stored. More
detailed information can be found in the section "Multiple function of the analog and
digital inputs" (Page 160). In the case of the "peripheral board 2 / 4" option, connect
the PTC thermistor connector to the peripheral board.
Terminal -X2:28 Connect another motor PTC thermistor for the motor monitoring here. If the sensor
triggers, a warning with "!! Advance warning !! Motor overtemperature" is output,
which is not stored. More detailed information can be found in the section "Multiple
function of the analog and digital inputs" (Page 160). In the case of the "peripheral
board 2 / 4" option, connect the PTC thermistor connector to the peripheral board.
In the case of the "peripheral board
3 / 4" option
The digital inputs are set to inactive and can thus be freely used for other configura-
tions.
8.8.1.8
Assignment of the digital outputs
Relay 1, terminal -X2:37, 38, 39 The "Ready" message as changeover contact in the open-circuit principle is available
to you here. Ready for operation means that the inverter has no faults and the DC
link is preloaded.
Relay 2, terminal -X2:41, 42
The message "Working" is output here.
Relay 3, terminal -X2:30, 31 All warnings which are generated in board CB08 are signaled here in the open-circuit
principle. Example: The message "!! Prewarning !! Inverter overtemp."
Relay 4, terminal -X2:32, 33 -
Relay outputs, terminal
-X2:34, 35, 36
Inverter fault All faults which cause the inverter to shut down are signaled here with a
changeover contact in the closed-circuit principle.
In the case of the "peripheral board
3 / 4" option, terminals
-X2:4349
The messages "Temp.Motor", "Shutdown", "Automat.operation" and "Speed zero"
are available.
8.8.1.9
Assignment of the analog inputs
Analog input one, terminal -X2:50, 51, 52:
You apply your speed setpoint to these terminals which is effective in the "Remote"
mode.
You can use the terminal 50 as current input or the terminal 52 as voltage input. The
terminal 51 is the ground connection.
The input range from 0 mA to 20 mA or from 0 V to 10 V is proportional to the output
frequency from 0 Hz to 50 Hz.
Analog input two, terminal -X2:53 and -X2:54:
Equivalent, additional analog input.
Operation
8.8 Examples / Applications
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 173
8.8.1.10
Assignment of the analog outputs
Isolated terminal -X2:62, 63:
An output signal of 4 mA to 20 mA is present here. This corresponds to a motor current
from zero up to a unit-dependent value.
Isolated terminal -X2:60, 61:
This output provides a speed signal. A value from 4 mA to 20 mA is the default. This
corresponds to a motor speed from 0 to 1500 rpm.
Terminal -X2:64, 67:
In the case of the "peripheral board 1 ... 4" option, the torque and the power are available
at these terminals. A value from 4 mA to 20 mA is the default. The corresponding
countervalue is output-dependent and is stored in the software "IMS".
8.8.1.11
Input "Safe torque off" / PTC thermistor inputs on peripheral board
Terminal -X2:19/:20:
These terminals are dedicated for triggering the "Safe torque off" function.
This input is jumpered in the default setting. If you wish to use the "Safe torque off"
function, then you must remove this jumper and connect an NC contact of the switching
element that triggers the function.
Terminal -X2:24
This terminal can be configured as a second trigger circuit for the "Safe torque off"
function. The DIP-FIX switch (bail switch) -S3 on the peripheral board determines
whether the "Safe torque off" function is controlled through one or two circuits.
-S3 closed means through two circuits.
To use this input as second circuit for the "Safe torque off" function, you must connect
terminal -X2:24 with -X2:3 using an NC contact of the appropriate switching element.
Terminal -X3:90/:91:
This input is used for motor temperature monitoring certified according to ATEX. If you
wish to use this monitoring function, then you must remove the existing resistor and
connect the appropriate motor PTC thermistor.
NOTICE
Peripheral board 2 or 4 is required for monitoring
The monitoring function is only available if the required peripheral board 2 or peripheral
board 4 is inserted in the SINAMICS G180
If the peripheral board 1 or peripheral board 3 is installed, then although the terminals
are available, there is no evaluation. There is no monitoring.
Operation
8.8 Examples / Applications
Installation and Operating Instructions SINAMICS G180
174 Operating Instructions, 02/2019, 4BS0751-007
Terminal -X3:92/:93:
This input is used as prewarning for the motor temperature monitoring. If you wish to use
this function, then you must remove the existing resistor, and connect the appropriate
prewarning motor PTC thermistor.
NOTICE
Peripheral board 2 or 4 is required for monitoring
The monitoring function is only available if the required peripheral board 2 or peripheral
board 4 is inserted in the SINAMICS G180
If the peripheral board 1 or peripheral board 3 is installed, then although the terminals
are available, there is no evaluation. There is no monitoring.
Detailed information
More detailed information can be found in Chapter "Peripheral boards 1 to 4" (Page 37).
Operation
8.8 Examples / Applications
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 175
8.8.2
"NAMUR" application
8.8.2.1
Control cable terminals for "NAMUR" application
Operation
8.8 Examples / Applications
Installation and Operating Instructions SINAMICS G180
176 Operating Instructions, 02/2019, 4BS0751-007
"Global" = functional for "Test" and "Normal"
If you use these inputs, remove the jumper.
As long as "P-INTERFACE: Reset-Source" is set to "Global" , all reset sources are always effective.
Max. current load of the control voltages:
+ 24 V DC, potential 2: 300 mA
+ 15 V DC, potential 2: 150 mA ± 10 mA
This voltage can also supply a speed encoder connected at terminal -X101.
Figure 8-36 Control cable terminals for "NAMUR" application
Operation
8.8 Examples / Applications
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 177
8.8.2.2
Control cable terminals "peripheral board 4"
NOTICE
Non-compliance with NAMUR guideline NE-37
The NAMUR guideline NE-37 is only completely implemented with the "peripheral board 4"
option.
PTC inputs, suitable for motors in the Ex-zone or Non-Ex-Zone
If you use these inputs, remove the jumper.
If you use these inputs, remove the 100 Ω resistor.
-X2:3: Four-way distribution terminal for 24 V, -X2:17, 18: For Emergency Off input
In the case of equipped peripheral board 3 / 4, the supply of the digital inputs -X2:8 to 16 is changed over. The
digital inputs are now supplied from -X2:1/3 instead of -X2:51/55.
Figure 8-37 Control cable terminals for "peripheral board 4" application
Operation
8.8 Examples / Applications
Installation and Operating Instructions SINAMICS G180
178 Operating Instructions, 02/2019, 4BS0751-007
This application fulfills the requirements concerning the terminal assignment and the
converter functions which have been developed by the Normengemeinschaft für Mess- und
Regelungstechnik, in short NAMUR. These specifications can be found in the NAMUR NE37
guideline.
Perform the wiring of the terminal block in accordance with the terminal plan. Remove the
factory-installed jumpers according to the "Standard" application if the respective application
requires this.
8.8.2.3
Mode setting of the NAMUR application
The mode setting for the NAMUR application is "Namur 1". Refer to the section "NAMUR
mode settings" (Page 138) for more detailed information.
8.8.2.4
Assignment of the relay outputs
Terminal -X2:41, 42:
You can control the main contactor using these terminals. The main contactor function is
not activated in the software for the NAMUR application. For more detailed information,
refer to the section titled "Contactor functions" (Page 156).
Terminal -X2:37, 39:
All warnings which are acquired in board CB08 are signaled here with a changeover
contact in the open-circuit principle, e.g. message ""!! Prewarning !! Inverter overtemp.".
Terminal -X2:30, 31:
The "Rdy.f.work" message as normally open contact is available to you here. "Rdy.f.work
means that the inverter has no faults and the DC link is pre-charged.
Terminal -X2:32, 33:
The contact closes if the motor is turning.
Terminal -X2:3436:
"Inverterfault: All faults which cause the inverter to shut down are signaled here with a
changeover contact in the closed-circuit principle.
Terminal -X2:4349:
In the case of the "peripheral board 4" option: the messages "Temp.Motor", "Shutdown",
"Automat.operation" and "Speed zero" are displayed here.
Operation
8.8 Examples / Applications
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 179
8.8.2.5
Assignment of the analog inputs
Terminal: -X2:50 ... 52:
Apply the speed setpoint which is active in normal operation to these terminals.
You can use the terminal 50 as current input or the terminal 52 as voltage input. The
terminal 51 is the ground connection.
The input range from 0 mA to 20 mA or from 0 V to 10 V is proportional to the output
frequency from 0 Hz to 50 Hz.
Terminal: -X2:53, 54:
The signal for the speed actual value feedback can be supplied to this input. The
values 0 mA to 20 mA at terminal 53 and 0 V to 10 V or up to 180 V at terminal 54 are
preset.
You can connect an analog motor tachometer to these terminals.
More detailed information can be found in the section "DIL switches S1 and S2"
(Page 149).
You can use the signal in the software for limit value comparisons or as display.
8.8.2.6
Assignment of the analog outputs
Isolated terminal -X2:62, 63:
An output signal of 4 mA to 20 mA is present here. This corresponds to a motor current
from zero up to a unit-dependent value.
Isolated terminal -X2:60, 61:
This output provides a speed signal. A value from 4 mA to 20 mA is the default. This
corresponds to a motor speed from zero to 1500 rpm.
Option "Peripheral board 4":
The torque and power are available at terminals -X2:6467. A value from 4 mA to 20
mA is the default. The corresponding countervalue is output-dependent and is stored in
the parameterization software "IMS".
8.8.2.7
Input "Mandatory mains power isolation" / PTC thermistor inputs on peripheral board
Detailed information can be found in the section "Peripheral boards 1 to 4" (Page 37).
Operation
8.8 Examples / Applications
Installation and Operating Instructions SINAMICS G180
180 Operating Instructions, 02/2019, 4BS0751-007
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 181
Maintenance
9
9.1
Maintenance and servicing
For your personal safety and in order to prevent material damage it is essential that you
follow the instructions given in section "Safety instructions" (Page 13), especially section
"Information about personal protection" (Page 16), and all safety-related instructions in your
product documentation. Pay particular attention to the safety notices on the product itself.
There is an appropriate maintenance schedule for each device type. We recommended that
maintenance is carried out at least once per year. For further information, please contact the
Service Center, see "Service & Support" (Page 189).
Retighten all screw connections at regular intervals.
Depending on utilization, the installed fans each have a service life of between 5 and 10
years.
The service life of the lithium battery on the board CB08 is 10 years.
The electrolyte capacitors are designed for a service life of 20 years.
Service the device after 5 years in accordance with a specified maintenance schedule.
Check and clean the equipment and air filter mats (if present) depending on the
accumulation of dust.
Maintenance
9.2 Replacing compact device
Installation and Operating Instructions SINAMICS G180
182 Operating Instructions, 02/2019, 4BS0751-007
9.2
Replacing compact device
Procedure
Proceed as follows if a compact device must be replaced completely:
Screws - device replacement
Screws - fan replacement
Figure 9-1 Bottom view of compact device
1. Undo the device replacement screws on the outside.
2. Unscrew the cover at the front.
3. Slacken both the nuts of the cable entry plate in the upper connection space near the
cover.
4. Disconnect the power cables.
5. Unplug the controller wiring connector.
6. Release the fastener on the mounting plate by only slackening the screws at the bottom.
7. Lift the inverter away so that the cabling remains with the cable entry plate.
8. Install the new inverter in reverse order.
Observe the instructions for the transport of inverters in the section "Transporting inverter"
(Page 71).
Maintenance
9.3 Replacing fans for the compact device
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 183
9.3
Replacing fans for the compact device
Procedure
All internal inverter fans are installed at the bottom of the inverter. Proceed as follows to
remove the fans:
1. Undo the fan replacement screws - wide inverters have more screws than narrow
inverters.
2. Remove the complete fan plate downwards. The fan connections are made using one
connector.
3. Replace the defective fan on the removed fan plate.
4. Reassemble in reverse order.
9.4
Maintenance and service of water cooling (option)
Visual inspection
As part of the inspection of the complete system, Siemens recommends that the water
cooling parts are visually inspected every 6 months and a leakage check performed.
Perform the following checks on an annual basis:
Check that all of the hose clamps and valve connections that can be accessed are
securely seated.
Perform a visual inspection of the hoses (where these are visible) for tears, cracks or
other damage.
We expect an average lifetime of 10 years for the hoses when the specified environmental
conditions are complied with. Values must be taken from the documentation.
You can find further information in the documentation 4BS0698 AL for water cooling
systems.
9.5
Decommissioning
The device components used have no PCB and BeO.
Dispose of the equipment in accordance with the applicable regulations and also with
respect to electrolyte capacitors.
If you want to decommission a device, please contact the Service Center.
Maintenance
9.5 Decommissioning
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Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 185
Spare parts
10
10.1
Non-approved spare parts
Damage due to non-authorized spare parts
Using non-approved spare parts can affect the function of the equipment and damage it.
Third-party spare parts and unapproved spare parts may not meet the requirements.
Only use spare parts that have been approved by the manufacturer.
10.2
Spare parts
To request spare parts, please contact the Siemens sales office responsible for your region.
You can find an overview of the Siemens contact partners in your region here (Page 189).
Always indicate the part number and - if known - the order number of the spare part required.
You can find the order number as follows:
The device label is attached to or next to each component. Find out which item code the
required spare part has. The parts list provided specify the part number and, where
appropriate, the article number corresponding to the equipment identifier.
For inquiries by email, send a photo of the product, spare part and nameplate if possible.
Use Spares on Web (www.siemens.com/sow) to obtain ordering information about spare
parts.
Spare parts
10.2 Spare parts
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Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 187
Diagnostics, faults and warnings
11
For your personal safety and in order to prevent material damage, follow the instructions
given in section "Safety instructions" (Page 13), especially section "Information about
personal protection" (Page 16). Observe all the safety-related instructions in your product
documentation. Pay particular attention to the safety notices on the product itself.
Every converter is subject to individual inspection and warm up at the factory. Therefore
errors in the device during the initial commissioning can be almost ruled out. In most cases,
faults usually originate from the peripherals such as incorrect wiring or missing agreement
for the respective application.
The most frequent causes of errors during the initial commissioning are shown below:
Table 11- 1 Error causes and rectification
Errors
Possible causes
Fault rectification
All three LEDs on the display, i.e.
"READY", "RUN" and "FAULT" are
off (dark).
There is no voltage at the
converter.
Measure the control voltage at -X5 (see the order-
specific customer documentation)
LED "READY" is lit.
LEDs "RUN" and "FAULT" are off
(dark)
The converter cannot be started.
The On command does not
arrive.
Trace the path to the converter.
The On command you se-
lected is not preselected.
Check the parameter assignment.
- Has the "Local" or "Remote" option been configured
correctly?
LED "RUN" is lit.
LEDs "READY" and "FAULT" are
off (dark)
The converter / motor does not
operate satisfactorily.
- Have you performed the commissioning according to
the "Commissioning" (Page 115) section?
- Perform the "Auto-Tuning" again.
LED "FAULT" is lit.
LEDs "READY" and "RUN" are off
(dark)
- The error message is shown on the display in plain
text. You can also invoke the event log. For additional
information, refer to the section titled "Reading event
log" (Page 188).
Siemens provides a list with all messages which are
shown on the display and possible remedies on the
Internet.
Diagnostics, faults and warnings
11.1 Reading event log
Installation and Operating Instructions SINAMICS G180
188 Operating Instructions, 02/2019, 4BS0751-007
11.1
Reading event log
If a fault occurs, the event log of the inverter stores the following data:
Which error has occurred?
With parallel-connected inverters:
In which system has the fault occurred?
Data and time of the error event
Various actual values such as, e.g. setpoint, motor current, motor voltage, motor
frequency etc.
These data are stored for the last 64 errors. The event number 01 is the most recent error.
Procedure
Read the event log using the "IMS" software.
You can also read these data on the display. Proceed as follows:
1. Press <I> and then the <down arrow> until "I-MEMORY" is shown on the screen.
2. Press <Return> to reach the first event, e.g. "I-Memory/01:Flt>Undervoltage".
If you press <Return> again, you can view all the data stored for this event.
3. Press <S> to return.
Read out all data of the last event using the software "IMS" before you contact the Service
Center for assistance with an error message. In this way, you significantly simplify the error
localization.
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 189
Service & Support
A
Technical questions or additional information
If you have any technical questions or require additional information,
please contact Technical Support
(
https://support.industry.siemens.com/cs/sc?nId=2090&lc=en-WW).
Please have the following data ready:
Type
Serial number
You can find this data on the rating plate.
Contact person
If you wish to request on
-site service or order spare parts, please contact
your local office. This office will contact the responsible service center on
yo
ur behalf. You can find your contact person in the relevant contact da-
tabase:
www.siemens.com/yourcontact (
www.siemens.com/yourcontact)
Service & Support
A.1 Contacts in Ruhstorf an der Rott location (Germany)
Installation and Operating Instructions SINAMICS G180
190 Operating Instructions, 02/2019, 4BS0751-007
A.1
Contacts in Ruhstorf an der Rott location (Germany)
Siemens AG
Hans-Loher-Straße 32
94099 Ruhstorf
Germany
+49 8531 39 554
24
-hour hotline:
+49 8531 39 222
0.06 €/min. from land lines of the German Telekom, mobile phone prices may differ).
+49 8531 39 569
Technical support: driveservice.rhf.de@siemens.com
Spare parts: drivespares.rhf.de@siemens.com
Repair: driverepair.rhf.de@siemens.com
Spare parts on the Internet:
Spares on Web (www.siemens.com/sow)
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 191
Quality documents
B
You can find the quality documents here:
Siemens Industry Online Support (SIOS)
(https://support.industry.siemens.com/cs/ww/en/ps/13228/cert)
Quality documents
Installation and Operating Instructions SINAMICS G180
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Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 193
Technical data
C
Read the technical data of this device on the rating plate.
Compact units with the type designation 2T?A-0… up to 2T?A-3… have two rating plates.
One of these is on the outside of the left side panel and the other is on the inside of the left
side panel.
In the case of cabinet units, the rating plate is in the cabinet in which the display is installed.
You can see the rating plate on the top left after opening the cabinet door.
You can find additional technical data of the inverter in the Internet with the Configurator for
drive technology
(https://eb.automation.siemens.com/goos/catalog/Pages/ProductData.aspx?regionUrl=/de&tr
ee=CatalogTree&nodeid=10028832&autoOpenConfigId=7&kmat=SD&autoopen=false&lang
uage=en&activetab=#topAnch&activetab=config&) .
You can also find the "DT Configurator" here (www.siemens.com) using the search function.
Other lists and instructions
The following descriptions can be downloaded from the website of the manufacturer:
Operating instructions
Parameterization instructions
Message text on the display, for example error messages
Profibus description
Technical list
Motor dimensioning
Inverter Management Software (IMS)
GSD files for PROFIBUS and PROFINET
Technical data
C.1 Technical data for transportation
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194 Operating Instructions, 02/2019, 4BS0751-007
C.1
Technical data for transportation
Carefully observe the following environmental conditions for transport according to
EN 60721-3-2:
Environmental conditions for inverter transport
Climatic conditions
Class 2K3 acc. to EN 60721-3-2
Atmospheric pressure
700 mbar1060 mbar, corresponds to max. 3000 m above sea level
Ambient temperature
- 25 °C … + 70 °C
Humidity rating Maximum relative humidity if the temperature of the inverter slowly increases by
40 K: 95 %
Maximum relative humidity if the device is brought immediately from - 25 °C to
+ 30 °C: 95 %
Maximum absolute humidity if the device is brought immediately from + 70 °C to
+ 15 °C: 60 g/m
3
Mechanical conditions
Class 2M2 according to EN 60721-3-2
Vibration load
- Deflection
- Acceleration
3.1 mm at 5 ... 9 Hz
10 m/s² at 9 ... 200 Hz
Shock load
- Acceleration
100 m/s² at 11 ms
Chemical conditions
Class 2C2 according to EN 60721-3-2
Biological conditions
Class 2B1 according to EN 60721-3-2
C.2
Technical data for storage
Carefully observe the following environmental conditions for storage according to
EN 60721-3-1:
Environmental conditions for inverter storage
Climatic conditions
Class 1K4 acc. to EN 60721-3-1 for the temperature
Class 1K3 acc. to EN 60721-3-1 for the relative humidity
Atmospheric pressure
860 mbar1060 mbar, corresponds to max. 1000 m above sea level
Ambient temperature
- 25 °C … + 70 °C
Humidity rating
5 % … 95 %, 1 g/m³29 g/
Mechanical conditions
Class 1M2 according to EN 60721-3-1
Vibration load
- Deflection
- Acceleration
1.5 mm at 5 ... 9 Hz
5 m/s² at 9 ... 200 Hz
Shock load
- Acceleration
40 m/s² at 22 ms
Environmental class/
Chemical conditions
Class 1C2 according to EN 60721-3-1
Organic/biological conditions
Class 1B1 according to EN 60721-3-1
Technical data
C.3 Frame sizes of compact units
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 195
C.3
Frame sizes of compact units
Please refer to the following diagrams and tables for the frame size of your inverter.
Compact device
1 dimension
drawing
Compact device 2 dimension drawing
Technical data
C.3 Frame sizes of compact units
Installation and Operating Instructions SINAMICS G180
196 Operating Instructions, 02/2019, 4BS0751-007
Table C- 1 Dimensions of the different inverters in mm
Inverter type
A
B
C
D
E
F1)
G2)
H
I
J
BG3)
2T2A-07400-002 …
2T2A-07400-005
2T2A-07500-002 …
2T2A-07500-007
165 465 125 450 410 100 200 320 82,5 22,5 BG K1
2T2A-07400-007 …
2T2A-07400-011
2T2A-07500-011 …
2T2A-07500-015
165 565 125 550 510 100 200 320 82,5 22,5 BG K2
2T2A-07400-015 …
2T2A-07400-030
2T2A-07500-022 …
2T2A-07500-037
2T2A-07600-007
2T2A-07600-011
2T2A-07600-015
2T2A-07600-022
225 665 175 650 610 100 200 320 112,5 75 BG K3
2T2A-07400-037 …
2T2A-07400-055
2T2A-07500-045 …
2T2A-07500-075
2T2A-07600-030 …
2T2A-07600-075
350
775
300
750
710
100
200
320
255
70
BG K4
2T2A-07400-075 …
2T2A-07400-110
2T2A-07500-090 …
2T2A-07500-132
2T2A-07600-090 …
2T2A-07600-132
350
1.125
300
1.100
1.060
100
200
320
255
70
BG K5
2T2A-27400-075 …
2T2A-27400-110
2T2A-27500-090 …
2T2A-27500-132
2T2A-27600-090 …
2T2A-27600-132
350 1.538 300 1.490 1.460 100 200 345 255 70 BG
K51
2T2A-07400-132 …
2T2A-07400-160
2T2A-07500-160 …
2T2A-07500-200
2T2A-07600-160 …
2T2A-07600-200
500 1.125 400 1.100 1.060 100 200 320 405 70 BG K6
1)
F = cooling air discharge area: Do not block this area.
2)
G = cooling air intake area: Do not block this area.
3) BG = frame size
Technical data
C.4 Frame sizes of cabinet units
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 197
C.4
Frame sizes of cabinet units
Please refer to the following table for the frame size of your converter.
Table C- 2 Converter types and associated frame sizes
Converter type
Frame size
2R3A-87400-030 … 2R3A-87600-030
FS S1
2T3A-87401-200 … 2T3A-87401-315
2T3A-87501-250 … 2T3A-87501-400
2T3A-87601-250 … 2T3A-87601-400
2R3A-87400-055 … 2R3A-87600-055
FS S2
2T3A-87401-400
2T3A-87501-500
2T3A-87601-500
FS S21
2T3A-87401-500 … 2T3A-87401-630
2T3A-87501-560 … 2T3A-87501-800
2T3A-87601-560 … 2T3A-87601-910
FS S3
The corresponding dimension drawings can be found in the following illustrations.
Figure C-1 Dimension drawing FS S1
Technical data
C.4 Frame sizes of cabinet units
Installation and Operating Instructions SINAMICS G180
198 Operating Instructions, 02/2019, 4BS0751-007
Figure C-2 Dimension drawing FS S2
Figure C-3 Dimension drawing FS S21
Technical data
C.4 Frame sizes of cabinet units
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 199
Figure C-4 Dimension drawing FS S3
Technical data
C.5 Technical data for operation
Installation and Operating Instructions SINAMICS G180
200 Operating Instructions, 02/2019, 4BS0751-007
C.5
Technical data for operation
Make sure that the following environmental conditions for operation are fulfilled.
The inverters are designed for indoor installation.
Class 3K3 environmental conditions in accordance with EN 60721
Pollution degree 2
Overvoltage category 3
Degree of protection IP20 for compact units
Degree of protection IP21 for cabinet units
Environmental conditions for the inverter application
Climatic conditions
Class 3K3 according to EN 60721-3-3
Atmospheric pressure
860 mbar1060 mbar, corresponds to max. 1000 m above sea level
1)
Ambient temperature
0 °C … + 40 °C
1)
Humidity rating
5 % … 95 %, 1 g/m³25 g/
Mechanical conditions
Class 3M4 acc. to EN 60721-3-3
Vibration load
- Deflection
- Acceleration
0.075 mm at 10 ... 58 Hz
10 m/s² at 58 ... 200 Hz
Shock load
- Acceleration
100 m/s² at 11 ms
Chemical conditions
Class 3C2 according to EN 60721-3-3
Biological conditions
Class 3B1 according to EN 60721-3-3
1) The units can be operated under different environmental conditions if derating is applied.
For further information, refer to Chapter "Derating" (Page 206).
For further technical data, refer to the technical data sheet.
Technical data
C.6 Tightening torques for power cables
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 201
C.6
Tightening torques for power cables
Please refer to the table below for the torques for tightening power cable connections.
Note the information in section "Electrical connection" (Page 91).
Table C- 3 Tightening torques for terminal and lug connections
Terminal
UK6N, 8,2 mm
wide
Terminal UK35,
15,2 mm wide
M6
M8
M10
M12
M16
1,51,8 Nm
3,23,7 Nm
9 Nm
22 Nm
44 Nm
75 Nm
106 Nm
Table C- 4 Tightening torques for switch and contactor connections
M3 / 3,5
M4
M6
M8
M10
M12
1,2 Nm
1,8 Nm
4 Nm
6 Nm
20 Nm
45 Nm
C.7
Technical data of the control cable terminals
Red pins avoid mixing up the connectors. The control cable terminals are plug-in
connections. You can unplug the plugged-in connections when disconnected from the power
supply.
When installing cables and selecting the cabling materials, it is essential that you observe
the information in sections "Safe isolation in accordance with EN 61800-5-1" (Page 145) and
"Connecting the control cable" (Page 93).
The control cable terminals are color-coded:
The green terminals on the far left contain all relay outputs and the optocoupler inputs at
a separate potential.
The black terminals contain the potential-free analog inputs and digital inputs which are
electrically separated the same as the analog inputs.
The white terminals contain the electrically separated analog outputs.
All external voltages can be connected together for controlling a PCS or PLC. To do this,
jumper the ground terminals -X2:1 with -X2:51 and -X2:51 with -X2:71.
If you control the converter using different devices, potential displacements occur which
depend on the cable length used. Remove the jumpers for longer cables.
Technical data
C.7 Technical data of the control cable terminals
Installation and Operating Instructions SINAMICS G180
202 Operating Instructions, 02/2019, 4BS0751-007
Technical data of the control cable terminals
Conductor cross-section –X2
rigid / flexible: 0.5 m2.5 mm²
Relay outputs -X2:3042 5 V … 250 V AC / 1 A, 15 AC
5 V … 30 V DC / 1 A
> 30 V … 60 V DC / 120 mA
> 60 V … 250 V DC / 60 mA
With peripheral board 3 or 4 only:
Relay outputs -X2:4349
Minimum switching load: 12 V / 100 mA
Digital inputs -X2:8 ... 16 Low: -3 V … +5 V
High: 13 V32 V
Floating
Typically 12 mA for High
Digital input safe torque off (only
with peripheral board 3 or 4):
-X2:20
Low: -3 V … +5 V
High: 13 V … 32 V
Floating
Typically 12 mA for High
Response time: ≤ 5 ms
Analog inputs -X2:5053 Voltage input 0 V … ± 10 V, 200
Terminal 52 and 54 or current input
0 mA or 4 mA*) … ± 20 mA, 100 Ω,
Terminals 50 and 53
Supply voltages on potential of the
analog inputs for diverse sensors:
Terminal 55: 24 V DC, max. 300 mA
Terminal 56: 15 V DC, max. 150 mA
Terminal 57: 10 V DC, max. 10 mA
Terminal 58: -10 V DC, max. 10 mA
Digital inputs X2:27, 28 Low: -3 V … +5 V
High: 13 V32 V
Floating on potential of the analog inputs
Typically 2.4 mA for High
Direct connection of PTC thermistors
Reference potential for PTC thermistor:
Terminal -X2:58 (-10 V).
The voltage over the PTC thermistor is approx. 2.5 V
Can also be used as f or n input.
Digital input -X2:29 Low: -3 V … +5 V, high: 13 V32 V
Floating on potential of the analog inputs, typically 2.4 mA for High
Can also be used as f or n input
Analog outputs -X2:6063 With automatic changeover current or voltage, floating:
Load < 300 Ω: 0 mA or 4 mA*)20 mA
Load > 1 kΩ: 0 V10 V
Supply voltages on potential of the
analog outputs:
Terminal 70: 24 V DC, max. 300 mA
*) 0 mA or 4 mA can be parameterized.
Technical data
C.8 Technical data and identification of the PTC thermistor input at peripheral boards 2 and 4
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 203
C.8
Technical data and identification of the PTC thermistor input at
peripheral boards 2 and 4
PTC thermistor input - Data
Application For temperature monitoring of explosion-protected motors, type of protection "In-
creased safety" EX e according to DIN EN 50019 VDE 0170/0171 and "flameproof
enclosure" Ex d according to DIN EN 50018 VDE 0170/0171 as well as normal mo-
tors outside a hazardous zone
Identification EX II (2) G [Ex d] [Ex e] [Ex n]
EX II (2) D [EX tb] [Ex tc]
maximum number of sensors
6 sensors according to DIN VDE 0660 Teil 303
OK state
< 1,5 kΩ1,8
Overtemperature message
> 3,2 3,8
Short-circuit in the sensor circuit
< 15 Ω25 Ω
Measuring circuit load
< 5 mW at R = 1,5
Voltage in the sensor circuit
< 2 V at R = 1,5
Current in the sensor circuit
< 1,5 mA at R = 1,5
Voltage for measuring sensor
break
11,6 V
Current for short-circuited sensor
circuit
1,45 mA
Response time
≤ 75 ms
Electrical design Protective separation for 690 V to the other circuits according to EN 50178,
EN 61800-5-1
Maximum cable length for PTC thermistor sensor circuit:
Cross-section 2.5 mm² 2 × 500 m
Cross-section 1.5 mm² 2 × 300 m
Cross-section 0.5 mm² 2 × 100 m
The PTC input can be used for monitoring motors in hazardous zones. It is not permissible
that the converter itself is installed in a hazardous zone.
The PTC thermistor evaluation function can be deactivated by an internal switch. For this
reason, carry out the test described in section "Testing the PTC thermistor shutdown
function" (Page 47). If the result of the test is negative, contact the Service Center for advice.
Technical data
C.9 Technical data of the direct water cooling
Installation and Operating Instructions SINAMICS G180
204 Operating Instructions, 02/2019, 4BS0751-007
C.9
Technical data of the direct water cooling
Technical data
Converter type
Frame size
2T3A-77401-200 … 2T3A-77401-315
2T3A-77501-250 … 2T3A-77501-400
2T3A-77601-250 … 2T3A-77601-400
BG S2
2T3A-77401-400
2T3A-77501-500
2T3A-77601-500
BG S21
2T3A-77401-500 … 2T3A-77401-630
2T3A-77501-560 … 2T3A-77501-800
2T3A-77601-560 … 2T3A-77601-910
BG S3
If you connect several converters in parallel, the technical data are multiplied according to
the number of systems. The water flowrate for type 2T 6 A-7 5 69 4-925 with four converter
systems is e.g. 4×2000 l/h.
The water-cooled units BG S1 to BG S21 have the same cabinet width as the air-cooled
units.
In the case of units with frame size S3, the cabinet width when compared to the air-cooled
version increases as follows:
Cabinet increase for water cooling
Units with one system
200 mm
Units with two or three systems
400 mm
Units with four systems
600 mm
Water cooling - Ambient conditions
Frame size
BG S2, BG S21, BG S3
Degree of protection IP55
IP54 with operator panel in the door
Water quality For industrial water, see section "Permissible substance values for the cooling
water" (Page 205)
Permissible coolant temperature
+10 °C … +25 / 30°C (depends on the power, see converter documentation)
Permissible ambient temperature
In operation: +1 °C … +55 °C
Water cooling - Water pressure and amount of water
Frame size
BG S2
BG S2/21
BG S3
Water flow rate [l/h] 720 1200 2000
Min. operating pressure [bar] 1 1 2,5
Max. operating pressure [bar] 6 6 6
Pressure loss [approx. bar] 0,5 0,7 1,4
Test pressure [bar]
10
10
10
Technical data
C.10 Permissible substance values for the cooling water
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 205
Water cooling - Connection hoses
Frame size
BG S2
BG S2/21
BG S3
Inlet DN "…^…"
13 ^ ½ "
13 ^ ½ "
19 ^ ¾ "
Return DN "…^…
13 ^ ½ "
13 ^ ½ "
19 ^ ¾ "
Venting DN "…^…"
13 ^ ½ "
13 ^ ½ "
13 ^ ½ "
Cabinet height [mm]
2000
2200
2200
C.10
Permissible substance values for the cooling water
Permissible substance values for the cooling water (process water and de-ionized water) for
converter cooling with open standard cooling without a cooling system.
Material: Stainless steel, material number: 1.4301; 1.4571
Permissible values for stainless steel material
Water temperature
+10 ... +30 (+35) °C
pH value
7 ... 8
Total hardness
6 ... 20 °dH
Carbonate hardness
3 ... 10 °dH
Solid residue from evaporation 105 °C
< 500 mg / l
Free carbon dioxide
< 1 mmol / l
Chlorides
< 150 mg / l
Sulfates
500 mg / l
Nitrates
< 10 mg / l
Nitrites
0 mg / l
Phosphates
< 0.5 mg / l
Ammonium NH4
< 0.5 mg / l
Ammonia
0 mg / l
Silicon (SiO2 crystalline)
< 10 mg / l
Free CO2 (p value)
< 15 mg / l
Iron
< 0.2 mg / l
Hydrogen sulfide
< 1 mg / l
Suspended solids < 50 µm < 10 mg / l
Conductivity < 3000 µS / cm
Oxygen
8 ... 12 mg / l
Technical data
C.11 Threshold values for fan control system
Installation and Operating Instructions SINAMICS G180
206 Operating Instructions, 02/2019, 4BS0751-007
C.11
Threshold values for fan control system
The fan control system detects the three following states: OFF, SLOW and FAST.
OFF: The fans are OFF if the unit is not switching and all relevant temperatures are below
the thresholds for FAST.
SLOW: The fans operate slowly if the unit is turned on (= is switching) and all relevant
temperatures are below the thresholds for FAST.
FAST: The fans operate fast if one of the relevant temperatures is higher than the
threshold for FAST irrespective of whether or not the unit is turned on.
Table C- 5 Threshold values for fan control system
Fan
fast
slow
off
Clock enable
--
Yes
No
Parameter P-INVERTER DATA.fan
= fast
= slow
= T-contrl.
Reactor prewarning
Yes
No
No
T-CPU
70 °C
70 °C (-5 °C)
50 °C (-5 °C)
T cabinet max.
47 °C
47 °C (-5 °C)
10 °C (-5 °C)
T-heat max.
50 °C
50 °C (-10 °C)
10 °C (-5 °C)
T-Diff. max.
7 / 9 °C
1)
7 / 9 °C
1)
(-2 °C)
7 / 9 °C
1)
(-2 °C)
T-rectif.max.
55 °C
55 °C (-5 °C)
55 °C (-5 °C)
1)
Air/water cooled
() Where relevant, values in brackets should be seen as switching hysteresis.
C.12
Derating
C.12.1
Current derating
The devices and the associated system components are rated for an ambient temperature of
40 °C and installation altitudes of up to 1000 m above sea level.
The following tables specify the permissible output currents as a function of the installation
altitude and ambient temperature.
Note also the information in section "Voltage derating" (Page 209).
Technical data
C.12 Derating
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 207
Table C- 6 Current derating for air-cooled converters
Installation alti-
tude above sea
level in m
Current derating factor in % of rated current
20 °C
25 °C
30 °C
35 °C
40 °C
45 °C
50 °C
55 °C1)
0 … 1000
100 %
100 %
100 %
100 %
100 %
87,5 %
75,0 %
62,5 %
10011500
100 %
100 %
100 %
100 %
94,4 %
82,6 %
70,8 %
59,0 %
15012000
100 %
100 %
99,4 %
94,3 %
88,9 %
77,8 %
66,7 %
55,6 %
20012500
2)
100 %
97,7 %
93,2 %
88,4 %
83,3 %
72,9 %
62,5 %
52,1 %
25013000
2)
95,3 %
91,2 %
87,0 %
82,5 %
77,8 %
68,1 %
58,3 %
48,6 %
30013500
2)3)
89,8 %
86,0 %
82,0 %
77,8 %
73,3 %
64,2 %
55,0 %
45,8 %
35014000
2)3)
84,4 %
80,8 %
77,0 %
73,1 %
68,9 %
60,3 %
51,7 %
43,1 %
40014500
2)3)
78,9 %
75,6 %
72,1 %
68,4 %
64,4 %
56,4 %
48,3 %
40,3 %
4501 … 5000
2)3)
73,5 %
70,4 %
67,1 %
63,6 %
60,0 %
52,5 %
45,0 %
37,5 %
1)
Applies only to compact devices which are not installed in a cabinet
2)
Voltage derating must also be implemented for compact devices at an installation altitude of > 2000 m.
3) Voltage derating must also be implemented for cabinet units at an installation altitude of > 3000 m.
The following current derating values apply to water-cooled converters. Refer to the technical
data sheet for the maximum water intake temperature.
Table C- 7 Current derating for water-cooled converters with a maximum water inlet temperature of 28 °C
Installation altitude
above sea level in
m
Current derating factor in % of rated current
18 °C
23 °C
28 °C
33 °C
38 °C
0 … 1000
100 %
100 %
100 %
84,0 %
64,2 %
10011500
100 %
100 %
94,4 %
79,3 %
60,6 %
15012000
100 %
100 %
88,9 %
74,7 %
57,0 %
20012500
100 %
94,8 %
83,3 %
70,0 %
53,5 %
25013000
98,0 %
88,5 %
77,8 %
65,3 %
49,9 %
30013500
1)
92,4 %
83,4 %
73,3 %
61,6 %
47,1 %
35014000
1)
86,8 %
78,4 %
68,9 %
57,9 %
44,2 %
40014500
1)
81,2 %
73,3 %
64,4 %
54,1 %
41,4 %
45015000
1)
75,6 %
68,3 %
60,0 %
50,4 %
38,5 %
1) Voltage derating must also be implemented for cabinet units at an installation altitude of > 3000 m.
Technical data
C.12 Derating
Installation and Operating Instructions SINAMICS G180
208 Operating Instructions, 02/2019, 4BS0751-007
Table C- 8 Current derating for water-cooled converters with a maximum water inlet temperature of 30 °C
Installation altitude
above sea level in
m
Current derating factor in % of rated current
20 °C
25 °C
30 °C
35 °C
40 °C
0 … 1000
100 %
100 %
100 %
81,6 %
57,7 %
10011500
100 %
100 %
94,4 %
77,1 %
54,5 %
15012000
100 %
100 %
88,9 %
72,6 %
51,3 %
20012500
100 %
96,2 %
83,3 %
68,0 %
48,1 %
25013000
100 %
89,8 %
77,8 %
63,5 %
44,9 %
30013500
1)
94,7 %
84,7 %
73,3 %
59,9 %
42,3 %
35014000
1)
88,9 %
79,5 %
68,9 %
56,2 %
39,8 %
40014500
1)
83,2 %
74,4 %
64,4 %
52,6 %
37,2 %
45015000
1)
77,5 %
69,3 %
60,0 %
49,0 %
34,6 %
1) Voltage derating must also be implemented for cabinet units at an installation altitude of > 3000 m.
Table C- 9 Current derating for water-cooled converters with a maximum water inlet temperature of 35 °C
Installation altitude
above sea level in m
Current derating factor in % of rated current
25 °C
30 °C
35 °C
40 °C
0 … 1000
100 %
100 %
100 %
70,7 %
10011500
100 %
100 %
94,4 %
66,8 %
15012000
100 %
100 %
88,9 %
62,9 %
20012500
100 %
100 %
83,3 %
58,9 %
25013000
100 %
95,3 %
77,8 %
55,0 %
30013500
1)
100 %
89,8 %
73,3 %
51,9 %
35014000
1)
97,4 %
84,4 %
68,9 %
48,7 %
40014500
1)
91,1 %
78,9 %
64,4 %
45,6 %
45015000
1)
84,9 %
73,5 %
60,0 %
42,4 %
1) Voltage derating must also be implemented for cabinet units at an installation altitude of > 3000 m.
Technical data
C.12 Derating
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 209
C.12.2
Voltage derating
The compact units are dimensioned according to minimum air clearances up to 2000 m
above sea level and the cabinet units up to 3000 m. Voltage derating is not required unless
the installation altitude is higher than 2000 m or 3000 m above sea level (this is only
applicable for the basic device 1)).
Since the air clearances in the inverter cannot be changed, this factor must be taken into
account in the voltage derating calculation.
Table C- 10 Voltage derating for compact units
Installation altitude above sea level
in m
Voltage derating factor in % of rated voltage
0 … 2000
100 %
20012500
93,4 %
25013000
87,7 %
30013500
81,9 %
35014000
77,5 %
40014500
71,9 %
45015000
67,6 %
Table C- 11 Voltage derating for cabinet units (is only applicable for the basic device 1))
Installation altitude above sea level
in m
Voltage derating factor in % of rated voltage
0 … 3000
100 %
30013500
93,9 %
35014000
88,5 %
40014500
82,4 %
45015000
77,0 %
1) When installing options, it is possible that the permissible installation altitude is further
restricted, or a voltage derating results in a lower value. This must be checked on a case-by-
case basis.
Technical data
C.12 Derating
Installation and Operating Instructions SINAMICS G180
210 Operating Instructions, 02/2019, 4BS0751-007
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 211
List of abbreviations
D
ARM
"Acorn Risc Machine": Microprocessor architecture
ATEX "Atmosphère explosible": Synonym for the two EC explosion protection Directives: ATEX Product Directive
94/9/EC and ATEX Safety Directive 1999/92/EC
ASM
Induction machine
BeO
beryllium oxide: toxin. Relevant for the disposal
BGR
Health and safety at work regulations
BGV
Regulations of the German Trade Association
CD
"Compact Disc": Optical storage medium for digital storage of music and data.
CB08
Control electronics board
DASM
Dual-fed induction machine
DIL
"Dual In-Line Package": Type of packaging (Package) for electronic components
DSP Digital signal processor
DVC "Decisive Voltage Class": Classification of the voltage range used to determine protective measures against
electric shock hazards
ESD
Electrostatically Sensitive Devices
EMF
Electromotive force
EMC
Electromagnetic compatibility
EN "Europäische Norm": European standards are rules that have been ratified by one of the three European
standardization committees.
Ex
Explosion-proof area
FOC
Field-oriented control
FRT
"Fault Ride Trough":
FI
Frequency inverter
GSD "General Station Description", original "device master data": One data format for PROFIBUS and PROFINET
devices
IEC
"International Electrotechnical Commission": Standards committee for electrical engineering
HVRT
"High Voltage Ride Trough":
IGBT
"Insulated Gate Bipolar Transistor": Type of power semiconductor
IMS "Inverter Management Software": You can also parameterize the inverter with this software using a PC, save
parameter sets, etc. You can download the software at no cost from the manufacturer's website.
LED "Light Emitting Diode", Light Emitting Diode
LHF
"Line Harmonics Filter": Reduces the low-frequency line harmonics of 6-pulse rectifier circuits
LSB
"Least Significant Bit": Least significant bit of a binary number
LVRT
"Low Voltage Ride Trough": A voltage dip is ridden through
MLFB
"Maschinenlesbare Fabrikate Bezeichnung": Product Order No.
MSB
"Most Significant Bit": Most significant bit of a binary number
MSC
Machine-side converter
NAMUR originally "Normenarbeitsgemeinschaft für Meß- und Regeltechnik in der chemischen Industrie": International
user association for automation in the process industry
List of abbreviations
Installation and Operating Instructions SINAMICS G180
212 Operating Instructions, 02/2019, 4BS0751-007
NC
"Normally Closed", NC contact
NO
"Normally Opened", NO contact
LSC
Line-side converter
NRTL "Nationally Recognized Testing Laboratory": American testing facilities that provide product safety testing and
certification services to manufacturers
NYY,
NYCWY
Cable types
PCB
polychlorinated biphenyls: toxins. Relevant for the disposal.
PELV "Protective Extra Low Voltage", protective extra-low voltage (PELV). previously function extra-low voltage with
safe isolation
PMM
permanent magnet machine
PERM
Permanent-magnet synchronous motors
PCS
Process control system
PPO
Parameter process data object: Part of a PROFIBUS profile
PTC
"Positive Temperature Coefficient", Positive Temperature Coefficient: PTC thermistor
RS 232,
RS 485,
RS 422
standards for serial interfaces
RTU
"Remote Terminal Unit": Remote terminal unit
SELV
"Safety Extra Low Voltage": Safety extra low voltage
PLC Programmable Logic Controller
STW
Control word
Sub-D
Actually "D-Sub": common type of a connector system for data connections
SVC "Space Vector Control": space vector modulation, a technique to control rotating electrical machinery based
on pulse width modulation.
TCP
"Transmission Control Protocol": a network protocol
TÜV "Technischer Überwachungsverein": A body that carries out technical safety checks as prescribed by national
laws or regulations
UL
"Underwriters Laboratories": certification organization for product safety in the USA
USB
"Universal Serial Bus": Serial bus system
UPS
Uninterruptible power supply
VDE
Association for Electrical, Electronic & Information Technologies
De-
ionized
water
Fully de-ionized water
ZLU
Supplementary supply agreements for inverter drives in power plants
ZSW
Status word
Installation and Operating Instructions SINAMICS G180
Operating Instructions, 02/2019, 4BS0751-007 213
Index
A
Analog inputs, 160
Analog outputs, 131
Antifreeze
First aid measures, 21
Application
Factory settings, 50
B
Brake transistor, 49
Braking resistor, 49
C
Commissioning, 115
Components that can be destroyed by electrostatic
discharge (ESD)
Guidelines, 24
Configuration, 164
Connecting the control cables, 93
Connection
external control voltage, 103
Line supply, 93
Motor, 98
Contactor functions, 156
Contacts, 190
Control cable terminals, 145, 201
NAMUR, 176
Standard, 169
Control voltage, 103
Protecting, 28, 103
Coolant
Safety precautions, 20
Cooling water, 205
Additives, 69
D
DC link terminals, 52
Default setting, 50
Derating, 206
Current derating, 206
Derating according to installation altitude, 206
Temperature derating, 206
Voltage derating, 209
Digital inputs, 161
Digital outputs, 131
Display, 123
External, 54
installing, 88
DMZ network, 134
du/dt filter, 55
E
Electrical installation, 92
electronic shutdown, 39
Erroneous pulses, 27, 28
external control voltage, 103
external display, 54, 88
F
Fan, 206
Fiber-optic cables, 28
Filter
du/dt, 55
Mains power protection, 55
RFI suppression, 55
Sinusoidal, 55
Firewall, 134
First aid
Antifreeze, 21
Five safety rules, 13
Flashlight, 28
Fuse, 92
G
Grounding
ESD shoe grounding strips, 25
I
Inputs
Analog, 160
Digital, 161
Installation, 83
Cabinet unit, 86
Index
Installation and Operating Instructions SINAMICS G180
214 Operating Instructions, 02/2019, 4BS0751-007
Compact unit, 84
Electrical, 92
external display, 88
Mechanical, 83
M
Main switches, 52
Mains connection, 93
Mains power protection choke, 55
Maintenance, 181, 181
MLFB, 31
Mobile telephones, 27
Modbus board, 60, 63
More information, 189
Motor connection, 98
O
On-site service, 189
Operation, 123
Operation settings
NAMUR, 138
Standard, 135
Order number, 31
Outputs
Analog, 131
Digital, 131
P
Parameter
Overview, 50
PROFIBUS board, 56
PROFINET board, 57
Protecting the inverter, 92
Protection zone, 134
Protective cover, 51, 85
PTC inputs, 47
PTC thermistor inputs, 47
R
Radio telephones, 27
RFI suppression filter, 55
S
Safe halt, 42
Safe torque off, 39
Safety precautions
Coolant, 20
Safety rules, 13
Service Center
Ruhstorf, 190
Setpoint source, 164
Setting supply voltage, 97
Shutdown, electronic, 39
Sine-wave filter, 55
Software
Update, 31
Spare parts, 189, 190
Contact person, 185
Spares On Web, 185
Storage, 74
Switch disconnectors, 52
T
Technical data
Control cable terminals, 201
Inverter, 193
Technical support, 190
Technical Support, 189
Threshold values
Fan, 206
Transport, 71
Type code, 31
Type designation, 31
W
Water cooling, 66, 67
Maintenance, 183
Technical data, 204