www.siemens.com/drives
Medium-Voltage Drive
SINAMICS SM150
Type 6SL3845
Reference Manual
Edition 02/2019
Tests carried out on drives
This documentation pertains to
SM150 wassergekühlt
G20 F03 F72 F79 F76
14.02.2019 14:36
V8.00
Medium-Voltage Drive
SINAMICS SM150
Type 6SL3845
Reference Manual
This documentation pertains to
SM150 wassergekühlt
G20 F03 F72 F79 F76
Edition 02/2019
Introduction 1
General scope of services 2
Tests 3
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.
Siemens AG
Process Industries and Drives
Postfach 48 48
90026 NÜRNBERG
GERMANY
Document order number: 8888888888-000088
Ⓟ 02/2019 Subject to change
Copyright © Siemens AG 2019.
All rights reserved
Table of contents
1 Introduction...................................................................................................................................................7
2 General scope of services ............................................................................................................................9
2.1 Routine test ............................................................................................................................11
2.2 Visual inspection ....................................................................................................................12
2.3 Function tests.........................................................................................................................13
2.4 Insulation test .........................................................................................................................14
2.5 Interface test ..........................................................................................................................15
3 Tests...........................................................................................................................................................17
3.1 Visual inspection ....................................................................................................................18
3.1.1 Rating plate ............................................................................................................................18
3.1.2 Housing degree of protection .................................................................................................18
3.1.3 Electrical cabinet components ...............................................................................................19
3.1.4 Cable installation....................................................................................................................19
3.1.5 Cable markings ......................................................................................................................20
3.1.6 Setting values of circuit breakers, if used...............................................................................20
3.1.7 Dimensions ............................................................................................................................20
3.2 Function test...........................................................................................................................22
3.2.1 Auxiliary voltages ...................................................................................................................22
3.2.2 Temperature monitoring in the control cabinet.......................................................................22
3.2.3 Door limit switches .................................................................................................................23
3.2.4 Door interlocking system........................................................................................................23
3.2.5 Ground fault monitoring..........................................................................................................24
3.2.6 DC link pre-charging and undervoltage monitoring................................................................24
3.2.7 Actual value sensing of the DC link voltage ...........................................................................25
3.2.8 Output current measurement .................................................................................................25
3.2.9 Overvoltage monitoring in the DC link....................................................................................26
3.2.10 Failure of a power semiconductor module .............................................................................26
3.2.11 Safety shutdown.....................................................................................................................27
3.3 Cooling system test................................................................................................................28
3.3.1 Static pressure test ................................................................................................................28
3.3.2 Differential pressure measurement ........................................................................................29
3.3.3 Measuring the coolant conductivity and coolant temperature ................................................29
3.3.4 Coolant overtemperature monitoring......................................................................................30
3.3.5 Differential pressure monitoring .............................................................................................30
3.3.6 Fault messages from the cooling unit ....................................................................................31
3.3.7 Leakage monitoring................................................................................................................31
3.4 Insulation test .........................................................................................................................33
3.4.1 High-voltage test ....................................................................................................................33
3.4.2 Measuring the insulation resistance.......................................................................................34
3.5 Interface test ..........................................................................................................................35
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3.5.1 PROFIBUS communication....................................................................................................35
3.5.2 Signals to the customer's system...........................................................................................35
3.5.3 Signals between the drive and cooling unit............................................................................36
3.5.4 Additional interfaces...............................................................................................................36
Index...........................................................................................................................................................37
Figures
Figure 3-1 Procedure for the pressure test...................................................................................................28
Table of contents
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Introduction 1
This document describes the preconditions when testing drives. The fulfillment of these
preconditions is the basis for achieving the smoothest possible testing process and maximum
possible customer satisfaction.
The following drive tests are described:
Routine tests
Tests that are offered as standard
Note
If the scope of testing and inspection cannot fulfill all customer requirements, please consult
your Siemens sales advisor at head office.
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Introduction
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General scope of services 2
A variable-speed drive can include the following components:
Induction motor, synchronous motor or PEM motor with or without speed encoder
SINAMICS drives
Drive transformer
Cooling unit for water-cooled drives
Small PLCs with drive functionality.
The Nuremberg Vogelweiherstrasse factory offers test equipment adapted to these types of
systems.
Note
Contact your sales person if additional components must be taken into account for your
particular project.
Scope of services offered
Unless otherwise stated in the quotation, the scope of services includes all activities,
equipment, materials and expendables required to perform the specified tests. The deadline
and testing period stated, and the quoted cost, can be met only if all the test and inspection
procedures to be performed are clarified in detail in advance. Due to the high capacity utilization
of the associated equipment, it might not be possible to carry out individual inspections and
tests that are requested late if the planned test is already in progress.
If you have received specific requirements from your customer, please send these as soon as
possible – with the necessary key data – to the Nuremberg Vogelweiherstrasse factory.
Sequence of a customer acceptance
A customer acceptance test is generally executed in the sequence:
1. Installation and commissioning of the components before the customer arrives.
2. Kickoff with presentation of the test schedule and discussion of individual steps in the
acceptance test workflow.
3. Execution of the tests according to the test schedule
4. Discussion of the test results
5. Preparation of test documentation for the customer.
The test documentation is created before or after the customer leaves depending on the
scope of testing and the time schedule.
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Components provided by customer
Components provided by the customer must be available in plenty of time so that tests can be
carried out on time. The Nuremberg Vogelweiherstrasse factory has no access to components
that are not within the PD LD scope of supply. This also applies to components ordered from
other Siemens' Groups. The technical data for these components is required at the latest eight
weeks before the start of the acceptance test, e.g.:
Dimensions
Weights
Energy Requirement
Interfaces
Location of the customer acceptance
All customer acceptance tests in the test fields for drives are performed as part of the
manufacturing process.
Note
Limited number of persons in the test field
For safety reasons, the number of persons in the test field is limited. In addition to the regional
sales partner, only two persons from the customer are permitted in the test field at the same
time.
Note
Test without load motors or multipulse infeeds via transformers in the test field
Some tests are simulated or performed in test mode with limited rated data.
Note
Tests with the customer's own cooling units or excitation equipment
If the customer's own cooling units or excitation equipment are to be tested, a system test can
be ordered with option F97.
General scope of services
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2.1 Routine test
During production, the drive is subject to an internal routine test.
General scope of services
2.1 Routine test
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2.2 Visual inspection
The visual inspection is performed to ensure that the equipment complies with the order
specifications. The tests are carried out with the drive in a no-voltage condition.
The visual inspection together with the customer – or with the company accepting the
equipment is carried out with the drive installed and labeled. Each test step is documented in
the acceptance report with the specific results of the step.
The visual inspection is part of the function test (F72, F73).
Visual inspection Order codes
Without the
customer
present
With the cus‐
tomer
present
Rating plate
Housing degree of protection
Electrical cabinet components
Cable installation
Cable markings
Setting values of circuit breakers, if used
Dimensions
-
F03
See also
Visual inspection (Page 18)
General scope of services
2.2 Visual inspection
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2.3 Function tests
The drive functions are tested according to IEC 61800-5-1. In addition, excerpts from additional
standards apply, which are listed in the relevant chapters as well as internal Siemens directives
within the scope of quality assurance.
The function tests are performed and documented in the Siemens test field by internal test field
personnel. For the function test, the drive is in the test mode with restricted monitoring functions.
The successful test is confirmed in a 3.1 certificate – or in the case that the customer has
ordered the acceptance test, in a 3.2 certificate.
See also
Function test (Page 22)
General scope of services
2.3 Function tests
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2.4 Insulation test
The insulation resistance is measured before and after the high-voltage test. The insulation test
can only be ordered and carried out together with the function test (F72, F73).
Insulation test Order codes
Without the
customer
present
With the cus‐
tomer
present
High-voltage test
Measuring the insulation resistance
F76
F77
The successful test is confirmed in a 3.1 certificate – or in the case that the customer has
ordered the acceptance test, in a 3.2 certificate.
See also
Insulation test (Page 33)
The insulation test is performed on a separate acceptance day prior to the function test.
General scope of services
2.4 Insulation test
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2.5 Interface test
The analog, digital and serial interfaces between the drive and higher-level control on the
customer side are checked. The interface test can only be ordered and performed together with
the function acceptance.
During the tests, the drive is only supplied with auxiliary voltage.
Interface test Order codes
Without the
customer
present
With the cus‐
tomer
present
Ethernet communication
Signals to the customer's system
Signals between the drive and cooling unit, if available
Additional interfaces
-
F79
The test is confirmed in a 3.1 certificate – or in the case that the customer has ordered the
acceptance test, in a 3.2 certificate.
General scope of services
2.5 Interface test
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General scope of services
2.5 Interface test
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Tests 3
The tests that have been expressly ordered for the drive with serial number 12345670001001
are listed in the following.
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3.1 Visual inspection
The visual inspection is performed to ensure that the drive complies with the requirements of
the order. The individual test steps are performed with the drive in a no-voltage condition.
The test together with the customer – or his representative – is carried out with the drive
installed and labeled. The results of all of the tests are documented in the acceptance report.
3.1.1 Rating plate
Fundamentals
The technical data and ordered options on the rating plate and the routine test certificate are
checked to ensure that they match up.
Test procedure
1. The data on the rating plate and the routine test certificate are visually compared.
Result
The test is passed if the data match up.
3.1.2 Housing degree of protection
Fundamentals
A check is made as to whether the housing degree of protection ordered complies with what is
described in the catalog.
Test procedure
1. The housing degree of protection is identified based on what is stamped on the rating plate.
2. Depending on the version, the following components are visually checked, e.g.:
Canopies
Cooling slots
Fittings and rubber seals in the doors and between the cabinet units
Cable entries
Openings for water pipes, if available
Additional components, if available
Tests
3.1 Visual inspection
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Result
The test is passed if the components required for the specified housing degree of protection are
available.
3.1.3 Electrical cabinet components
Fundamentals
A visual inspection is made to see whether the electrical cabinet components are installed as
defined in the layout diagram and/or circuit diagram.
Test procedure
1. The customer selects electrical cabinet components by random sampling.
2. The selected electrical cabinet components are visually checked to ensure that they are
correctly installed and marked.
Result
The test is passed if the selected electrical cabinet components are installed as specified in the
layout diagram and/or circuit diagram.
3.1.4 Cable installation
Fundamentals
Visual and mechanical checks are made to ensure that cables and conductors have been
installed correctly and are connected correctly according to the circuit diagram.
Test procedure
1. The customer selects cables or conductors by random sampling.
2. The following is inspected:
Are the cables firmly connected?
Have edge protectors been attached to sharp edges?
Are the cables routed according to the circuit diagram?
Result
The inspection is passed if the cable installation does not exhibit any deficiencies and matches
the information in the circuit diagram.
Tests
3.1 Visual inspection
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3.1.5 Cable markings
Fundamentals
A visual inspection is made to see whether cables and conductors are marked as defined in the
circuit diagram.
Test procedure
1. The customer selects cables or conductors by random sampling.
Are the cable end tags and conductor colors of cables and conductors marked as defined
in the circuit diagram?
Result
The test is passed if the cable and conductor markings match what is specified in the circuit
diagram.
3.1.6 Setting values of circuit breakers, if used
Fundamentals
The circuit breaker settings are visually checked against what is specified in the circuit diagram.
Test procedure
1. The customer selects circuit breakers by random sampling.
2. The circuit breaker settings are visually checked against what is specified in the circuit
diagram.
Result
The test is passed if the circuit breaker settings match what is specified in the circuit diagram.
3.1.7 Dimensions
Fundamentals
The drive dimensions are measured. The basis for the visual inspection is the order-specific
dimension drawing.
Test procedure
1. The external dimensions, length, width and height of the drive are measured.
Tests
3.1 Visual inspection
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Result
The test is passed if the dimensions match with what is specified in the dimension drawing.
Tests
3.1 Visual inspection
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3.2 Function test
Medium voltage is stored in the DC link
3.2.1 Auxiliary voltages
Fundamentals
Tests are performed according to DIN EN 60146-1. The auxiliary voltages are visually checked
using indicator lights or using a voltmeter.
Test procedure
1. The drive power section is switched off.
2. The auxiliary voltages are switched on.
3. The auxiliary voltages are checked.
Result
The test is passed if all of the auxiliary voltages are available.
3.2.2 Temperature monitoring in the control cabinet
Fundamentals
The control cabinet is equipped with temperature sensors to monitor the internal cabinet
temperature. The switching thresholds of the temperature monitoring function are checked.
The selected switching thresholds are specified in the circuit diagram. The temperatures are
monitored on the test station computer.
Test procedure
1. The auxiliary voltage is present.
2. The temperature sensor is warmed up to the appropriate switching thresholds:
Tfan: The auxiliary fans switch on.
Tfault: A fault message is displayed on the test station computer.
Result
The test is passed if the drive manifests the described responses at the switching thresholds.
The tolerance range at the switching thresholds is ±5 K.
Tests
3.2 Function test
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3.2.3 Door limit switches
Fundamentals
Tests are performed in accordance with IEC 61800-5-1
The doors of the drive power section are monitored using limit switches. This monitoring
function ensures that when the doors are open, the drive cannot be switched on.
Test procedure
1. The auxiliary voltage is present. All drive doors are closed.
2. One door of the drive power section is opened.
Result
The test is passed if the appropriate message is displayed on the test station computer.
3.2.4 Door interlocking system
Fundamentals
Tests are performed in accordance with IEC 61800-5-1
To avoid accidents, the drive doors must be closed during operation. This is guaranteed by the
electromagnetic door interlocking system. The doors of the power section remain interlocked
until the DC link has been completely discharged and a safety wait time has elapsed.
Test procedure
1. The auxiliary voltage is present.
2. All drive doors have been closed.
3. The DC link voltage is set to a specified value.
The electromagnetic door interlocking system locks the power section doors.
4. The power section doors cannot be opened.
5. The power section power supply is switched off. The DC link completely discharges itself.
The safety wait time elapses.
6. If a grounding switch is installed, it is closed manually.
7. The power section doors can be opened.
Result
The test is passed if the door interlocking system functions as described.
Tests
3.2 Function test
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3.2.5 Ground fault monitoring
Fundamentals
The ground fault monitoring is tested according to EN 60204-1.
Test procedure
1. The auxiliary voltage is present.
2. The DC link is discharged and grounded.
The ground fault message is displayed at the test station computer.
3. The grounding is withdrawn.
Result
The test is passed if the appropriate message is no longer displayed at the test station
computer.
3.2.6 DC link pre-charging and undervoltage monitoring
Fundamentals
When switching on the drive, the DC link is first charged. Only then is the circuit breaker closed.
The DC link must be charged in a specified time to 85 % of the DC link voltage.
Test procedure
1. The auxiliary voltage is present.
2. The pre-charging test mode is activated.
The time measurement starts.
The DC link is charged.
3. When 85 % of the DC link voltage is reached, the charge time is measured.
The pre-charging transformer shuts down.
The signal to close the circuit breaker is active. The main supply is not switched in. The DC
link discharges itself.
4. When 75 % of the DC link voltage is reached, the drive shuts down due to undervoltage.
An appropriate message is displayed on the test station computer.
Result
The test is passed if the DC link was charged within the specified time – and when the
undervoltage switching threshold is reached, the drive shuts down.
Tests
3.2 Function test
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3.2.7 Actual value sensing of the DC link voltage
Fundamentals
The actual value sensing of the DC link voltage UDC+ and UDC- is checked. The calibrated
measuring equipment is used as reference.
Test procedure
1. The DC link is charged up to the rated voltage.
2. The actual value sensing devices in the drive measure the voltage.
The values UDC+ and UDC- are measured and displayed at the test station computer in the
appropriate parameters.
3. The measured values of the calibrated measuring equipment are compared with the values
provided by the actual value sensing of the drive.
Result
The test is passed if the displayed values at the test station computer match the reference
values with a tolerance of ±10 %.
3.2.8 Output current measurement
Fundamentals
The internal current measurement of the drive is checked for an inductive load. Three reactors
connected in a star connection are used as load. The calibrated measuring equipment is used
as reference.
For SINAMICS GM150, the inverter is tested.
For SINAMICS SM150, either the line-side or the motor-side drive is tested in inverter mode.
For SINAMICS GH150, the Motor Module is tested in inverter mode.
For SINAMICS SM120, the Active Line Module and the Motor Module are tested in the
inverter mode.
Test procedure
1. The drive is switched on.
2. The DC link is charged up to the rated voltage.
3. The inverter is enabled.
4. The rms values of output currents IL1, IL2, IL3 are measured for max. 10 minutes at the
specified frequency and communicated to the test station computer.
Tests
3.2 Function test
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Result
The test is passed if the values displayed on the test station computer match the reference
values with a tolerance of ±5 %.
3.2.9 Overvoltage monitoring in the DC link
Fundamentals
Fluctuations in the power supply can result in short-term changes to the DC link voltage.
The overvoltage monitoring senses the actual value of the DC link voltage, and switches off the
drive at a defined rated voltage.
Test procedure
1. The auxiliary voltage is present.
2. The DC link is charged up to 100 %.
3. The drive is operated with a load current ILoad = 50 ±5 A.
4. By controlling the DC voltage supply, the DC link voltage is slowly increased.
A message is displayed on the test station computer when the overvoltage limit is reached.
The drive is switched off.
5. The voltage value at the time of the message is calculated on the test station computer.
Result
The test is passed if the value calculated is 123 % of the nominal voltage of the DC link.
3.2.10 Failure of a power semiconductor module
Fundamentals
The power section must shut down if a power semiconductor module fails. The failure is
simulated by withdrawing the fiber-optic cable connector from the gating module of a power
semiconductor module. This interrupts the control.
Test procedure
1. The auxiliary voltage is present.
2. The fiber-optic cable connector of a gating module is withdrawn.
A message is displayed on the test station computer.
Tests
3.2 Function test
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Result
The test is passed if the appropriate message is displayed on the test station computer and the
inverter is inhibited.
3.2.11 Safety shutdown
Fundamentals
The tests are performed in accordance with IEC 60146-1-1 and IEC 60204-11.
The safety shutdown of the power section shuts down the inverter if the button is pressed.
Test procedure
1. The auxiliary voltage is present.
2. The drive is operated with a load current ILoad = 50 ±5 A.
3. The button is pressed.
Result
The test is passed if the inverter is shut down and the appropriate message is displayed on the
test station computer.
Tests
3.2 Function test
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3.3 Cooling system test
3.3.1 Static pressure test
Fundamentals
Tests are performed according to IEC 61800-5-1 and DIN EN 805.
The drive cooling system is checked for leaks and pressure drop for one hour.
Test procedure
1. The cooling system is filled with coolant and the valves in the supply and return lines are
closed.
2. With the valves closed, pressure is increased to a test pressure of pt and is controlled for the
next 10 min.
3. After a total of 30 min, pressure p1 is measured.
4. After a total of 60 min, pressure p2 is measured.
3UHVVXUH7HVWSUHVVXUH3W33PLQืPLQPLQPLQ7LPH3UHOLPLQDU\WHVW0DLQWHVW
Figure 3-1 Procedure for the pressure test
5. The pressure drop is calculated from measured values: Δp = p1 - p2
Result
The test is passed if the differential pressure is ≤ 0.4 bar and no leaks have occurred in the
cooling system.
Tests
3.3 Cooling system test
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Line-side and motor-side drives are tested separately.
3.3.2 Differential pressure measurement
Fundamentals
Differential pressure Δp expresses the pressure drop of the coolant between supply pressure
pV and return pressure pR of the drive. The coolant flow is set at the cooling unit to the calculated
flow.
Test procedure
1. The calculated flow is checked. It is permissible that the flow deviates by ±5 % from the
calculated value.
2. The differential pressure is read from the appropriate parameter on the test station
computer.
Calculations
The reference differential pressure is calculated from the measured values of the cooling unit:
Δp = pV - pR
Result
The test is passed if the differential pressure is set to the following values:
Drive line side: Δp =
3.1 ±0.2 bar
Drive motor side: Δp =
3.1 ±0.2 bar
3.3.3 Measuring the coolant conductivity and coolant temperature
Fundamentals
Tests are performed in accordance with IEC 60146-1-1.
Sensors in the drive coolant circuit acquire the coolant temperature in the supply line and the
coolant conductivity. The measured values from these sensors are compared with the
measured values of the calibrated cooling unit.
The coolant flow is set at the cooling unit to the calculated flow.
Test procedure
1. The cooling unit is switched on. The auxiliary voltage is present.
2. The calculated flow is checked. It is permissible that the flow deviates by ±5 % from the
calculated value.
Tests
3.3 Cooling system test
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3. The values sensed by the sensors are displayed on the test station computer:
Temperature in the supply line
Conductivity
4. The measured values from the sensors are compared with the reference values of the
cooling unit.
Result
The test is passed if the measured values lie within the tolerances.
Temperature in the supply line ±5 K
Conductivity ±0.2 µS/cm
3.3.4 Coolant overtemperature monitoring
Fundamentals
Tests are performed in accordance with IEC 60146-1-1.
Sensors in the drive coolant circuit acquire the coolant temperature. The overtemperature
shutdown is checked: An interrupted cable is simulated by withdrawing the temperature sensor
connected. This simulates a very high temperature.
Test procedure
1. The cooling unit is switched on. The auxiliary voltage is present.
2. The temperature sensor connector is withdrawn.
Result
The test is passed if the appropriate message is displayed on the test station computer.
3.3.5 Differential pressure monitoring
Fundamentals
Differential pressure Δp expresses the pressure drop of the coolant between supply pressure
pV and return pressure pR of the drive. The coolant flow is set at the cooling unit to the calculated
flow. The differential pressure decreases when the flow is reduced.
The drive cooling circuit is equipped with a differential pressure monitoring function. The
parameterized switching threshold is checked.
Tests
3.3 Cooling system test
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Test procedure
1. The cooling system is switched on. The auxiliary voltage is present.
2. The coolant flow is reduced.
3. An alarm is displayed on the test station computer when switching threshold 1 is reached.
4. A fault is displayed on the test station computer when switching threshold 2 is reached. The
inverter is shut down.
5. The differential pressure and the switching threshold are read from the appropriate
parameters on the test station computer.
Result
The test is passed if the drive manifests the described responses at the switching thresholds.
3.3.6 Fault messages from the cooling unit
Fundamentals
When a fault occurs, the cooling unit outputs an alarm or fault at the drive. These signals are
simulated at the drive interface.
Test procedure
1. The auxiliary voltage is present.
2. A simulation device is connected to the drive interface.
3. The appropriate digital inputs are activated. In accordance with the activated digital input, an
alarm or fault is displayed on the test station computer.
Result
The test is passed if the appropriate messages are displayed on the test station computer.
3.3.7 Leakage monitoring
Fundamentals
The drive cooling circuit is equipped with a leakage monitoring function. The leakage sensor
function is tested.
Test procedure
1. The cooling system is switched on. The auxiliary voltage is present.
2. Moisture/water is applied to one leakage sensor.
3. A message is displayed on the test station computer.
Tests
3.3 Cooling system test
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Result
The test is passed if a message is displayed on the test station computer.
Tests
3.3 Cooling system test
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3.4 Insulation test
3.4.1 High-voltage test
Fundamentals
The test is carried out according to the following standards:
IEC 61800-5-1
IEC 62103
For marine applications, additional requirements from the marine classification societies
may apply.
The high-voltage test verifies the voltage strength (test voltage) for overvoltage conditions
specified in the standard.
Test equipment
A calibrated test instrument is used for the test.
Test procedure
1. The circuits to be tested are separately short-circuited corresponding to the individual
voltage levels.
Power circuit/circuits
Various auxiliary circuits
2. The circuits that are presently not connected to the test instrument are connected to ground
potential.
3. The test voltage is adjusted for each circuit corresponding to the insulation test report.
4. The circuits are tested with respect to one another and with respect to the PE protective
conductor at the electrical cabinet.
The test duration is 1 s, for marine applications, 60 s.
5. The test is repeated with 80% test voltage.
Result
The test is passed if the test instrument is not switched off (tripped) during the test as a result
of flashover.
Tests
3.4 Insulation test
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3.4.2 Measuring the insulation resistance
Fundamentals
Tests are performed in accordance with IEC 62103.
The insulation resistance of the individual circuits is measured before and after the high-voltage
test, and the following value must be obtained:
Rated operating voltage Insulation resistance
Below 1000 V At least 1 MΩ
Above 1000 V At least 10 MΩ
Test equipment
A calibrated test instrument is used for the test.
Test procedure
1. The circuits to be tested are separately short-circuited corresponding to the individual
voltage levels.
Power circuit/circuits
Various auxiliary circuits
2. The circuits that are presently not connected to the test instrument are connected to ground
potential.
3. The test voltage is adjusted for each circuit corresponding to the insulation test report.
4. The circuits are tested with respect to one another and with respect to the PE protective
conductor at the electrical cabinet.
Result
The test is passed if the insulation resistances lie within the tolerance specified by the standard.
Tests
3.4 Insulation test
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3.5 Interface test
3.5.1 PROFIBUS communication
Fundamentals
The communication between the test station computer and the drive is established via
PROFIBUS and its correct functioning is checked.
Test procedure
1. The connection between the drive and the test station computer is established using an
PROFIBUS cable.
2. The auxiliary voltage is switched on.
3. The connection is established via the test station computer. The operating software is in
online mode.
4. The customer selects up to ten signals, which are read in and read out on the test station
computer. This procedure checks the communication.
For bus connections, it is crucial that communication is established.
Result
The test is passed if the signals are displayed on the test station computer.
3.5.2 Signals to the customer's system
Fundamentals
The signals defined in the "Functional test plan" are simulated on the test station computer,
which also tests signal transfer to the customer's system.
Test procedure
1. The auxiliary voltage is present.
2. The connection is established via the test station computer.
3. The signals are simulated.
Result
The test is passed if the appropriate states relating to the signals are displayed on the test
station computer.
Tests
3.5 Interface test
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3.5.3 Signals between the drive and cooling unit
Fundamentals
The signals defined in the "Functional test plan" are simulated on the test station computer, and
the signal transfer to the cooling unit checked.
Test procedure
1. The connection between the drive and the test station computer is established using an
Ethernet cable.
2. A simulation device, which represents the cooling unit, is connected to the drive.
3. The auxiliary voltage is switched on.
4. The connection is established via the test station computer. The operating software is in
online mode.
5. The signals are simulated.
Result
The test is passed if the appropriate states relating to the signals are displayed on the test
station computer.
3.5.4 Additional interfaces
Fundamentals
The customer or its representative parameterize and test the communication of selected
interfaces with their own test equipment. Factory personnel are available to operate the test
station. The interface test is limited to four hours.
Test procedure
1. Using his own test equipment, the customer establishes the hardware connection to the
drive.
2. Factory personnel switch on the auxiliary voltage.
3. The customer establishes the software connection to the drive.
4. The customer parameterizes and tests the communication of selected interfaces.
Result
The interface test has been completed after four hours.
Tests
3.5 Interface test
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Index
A
A06, 35
C
Components provided by customer, 10
Cooling system test
Coolant overtemperature monitoring, 30
Differential pressure measurement, 29
Differential pressure monitoring, 30
Fault messages from the cooling unit, 31
Leakage monitoring, 31
Measuring the coolant conductivity and coolant
temperature, 29
Static pressure test, 28
Customer acceptance inspection, 9
F
F03, 12
F72, 35, 36
F73, 35, 36
F76, 14
F77, 14
F79, 15, 35, 36
Function tests, 13
Actual value sensing of the DC link voltage, 25
Auxiliary voltages, 22
DC link pre-charging and undervoltage
monitoring, 24
Door interlocking system, 23
Door limit switches, 23
Failure of a power semiconductor module, 26
Ground fault monitoring, 24
Output current measurement, 25
Overvoltage monitoring in the DC link, 26
Safety shutdown (optional), 27
Temperature monitoring in the control cabinet, 22
G
G20, 36
G21, 36
G22, 36
G23, 36
G24, 36
G25, 36
G26, 36
G28, 36
G30, 36
G34, 36
G35, 36
I
Insulation test, 14
High-voltage test, 33
Measuring the insulation resistance, 34
Interface test, 15
Additional interfaces, 36
PROFIBUS communication, 35
Signals between the drive and cooling unit, 36
Signals to the customer's system, 35
V
Visual inspection, 12, 18
Cable installation, 19
Cable markings, 20
Dimensions, 20
Electrical cabinet components, 19
Housing degree of protection, 18
Rating plate, 18
Setting values of circuit breakers, if used, 20
SINAMICS SM150 6SL3845 G20 F03 F72 F79 F76
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Index
SINAMICS SM150 6SL3845 G20 F03 F72 F79 F76
38 Reference Manual Rev.201902141436 SM150 wassergekühlt
8888888888 000088 01 EN 01
*888888888800008801EN01*
888888888800008801EN01
Further Information
www.siemens.com/drives
Siemens AG
Process Industries and Drives
Postfach 48 48
90026 NÜRNBERG
GERMANY
Process Industries and Drives
Siemens AG, PD LD P MF-NMA EN, Postfach 47 43, 90025 Nürnberg
Department PD LD P MF-NMA EN
Tel. +49 (911) 433-6422
Fax +49 (911) 433-6921
Email motoren.doku.aud@internal.siemens.co
m
Our ref. 8888888888000088
Date 14.02.2019
Documentation for 6SL3845
Your order no. - 000010
AL: N ECCN: N UL: DE
StWanr (CD): 85234045, StWanr (Print): 49011000
Dear Sir / Madam,
Many thanks for your order, the documentation for which is enclosed.
Yours very truly,
*888888888800008801EN01*
Spine label for binder 50 mm (120 g/m2)
SINAMICS SM150
6SL3845
SM150 wassergekühlt
G20 F03 F72 F79 F76
Tests carried out on drives
Spine label for binder 162 mm (120 g/m2)
SINAMICS SM150 6SL3845
SM150 wassergekühlt
G20 F03 F72 F79 F76
Tests carried out on drives