Catalog D 15.2 - 2011

© Siemens AG 2011
Medium-Voltage Air-Cooled Drives
Catalog D 15.2 • 2011
USA Edition
ROBICON Perfect Harmony
Answers for industry.
© Siemens AG 2011
Related Brochures and Catalogs
ROBICON Perfect Harmony Drives
The Drive of Choice for High Performance
(Brochure)
LABR-00300-1008
ROBICON Perfect Harmony Drives
The Air-Cooled Medium Voltage
Drive of Choice
(Brochure)
LABR-00400-1008
ROBICON Perfect Harmony Drives
The Water-Cooled Medium Voltage
Drive of Choice
(Brochure)
LABR-00500-0609
The Universal Single-Motor Drive
SINAMICS GM150 and SINAMICS SM150
Medium-Voltage Drive Converters
with HV-IGBT technology (Brochure)
E20001-A150-P570-V1-7600
SINAMICS GM150 and SINAMICS SM150
Medium-Voltage Drives
The Reliable Medium-Voltage Drive
with IGCTs (Brochure)
E20001-A160-P570-X-7600
SINAMICS GM150, SINAMICS SM150
Medium-Voltage Converters
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E86060-K5512-A101-A2-7600
© Siemens AG 2011
ROBICON Perfect Harmony
Medium-Voltage
Air-Cooled Drives
Introduction
1
ROBICON Perfect Harmony
Air-Cooled Drives
2
Technical Data
3
Description of Options
4
Engineering Information
5
Services and Documentation
6
Appendix
7
Catalog D 15.2 · 2011
USA Edition 1)
© Siemens AG 2011
1) All
ROBICON Perfect Harmony medium-voltage
air-cooled drives described in this catalog are
manufactured in our New Kensington,
Pennsylvania location.
© Siemens AG 2011
Answers for industry.
Siemens Industry answers the challenges in the manufacturing
and the process industry as well as in the building automation
business. Our drive and automation solutions based on Totally
Integrated Automation (TIA) and Totally Integrated Power (TIP)
are employed in all kinds of industry. In the manufacturing
and the process industry. In industrial as well as in functional
buildings.
Siemens offers automation, drive, and
low-voltage switching technology as
well as industrial software from standard products up to entire industry solutions. The industry software enables our
industry customers to optimize the entire value chain – from product design
and development through manufacture
and sales up to after-sales service. Our
electrical and mechanical components
offer integrated technologies for the entire drive train – from couplings to gear
units, from motors to control and drive
solutions for all engineering industries.
Our technology platform TIP offers robust solutions for power distribution.
2
Siemens D 15.2 · 2011
Check out the opportunities our
automation and drive solutions provide.
And discover how you can sustainably
enhance your competitive edge with us.
1
© Siemens AG 2011
ROBICON Perfect Harmony
Introduction
1/2
1/2
Medium-voltage drives
Overview
1/3
1/3
1/3
Perfect harmony of performance
and value
Benefits
Application
1/4
1/4
1/4
1/4
ROBICON Perfect Harmony family
Design
Air-cooled family
Liquid-cooled family
Siemens D 15.2 · 2011
© Siemens AG 2011
Introduction
1
Medium-voltage drives
■ Overview
The reliable and complete range
Medium-voltage
drive series
ROBICON
Perfect Harmony
SINAMICS GM150
(IGBT/IGCT)
SINAMICS SM150
(IGBT/IGCT)
SINAMICS GL150
SINAMICS SL150
Power range
150 kW to 60 MW
800 kW to 17.5 MW
2.8 MW to 31.5 MW
6 MW to 120 MW
3 MW to 36 MW
Application range
General-purpose
applications
General-purpose
applications
Sophisticated
applications
General-purpose
applications
Sophisticated
applications
Motors
Induction and
synchronous motors
Induction and
synchronous motors
Induction and
synchronous motors
Synchronous motors
Induction and
synchronous motors
Energy recovery
–
–
Yes
Yes
Yes
Multi-motor drives
–
–
Yes
–
–
Semiconductor
technology
LV-IGBT
(cell topology)
HV-IGBT/IGCT
(NPC topology)
HV-IGBT/IGCT
(NPC topology)
Thyristor
(LCI topology)
Thyristor
(Cycloconverters)
Typical applications
Pumps, fans,
compressors,
extruders, kneaders,
mixers, crushers,
agitators, conveyor
systems, presses,
ESP, retrofit
Pumps, fans,
compressors,
extruders, kneaders,
mixers, crushers,
agitators, conveyor
systems, marine
drives, presses, wire
rod mills
Rolling mills, mine
hoists, conveyor
systems, test stands
Compressors, fans,
pumps, extruders,
marine drives, starting
drives for blast
furnaces
Rolling mills, mine
hoists,excavators, ore
crushers and cement
mills
The benchmark when it comes to medium-voltage drive
systems
Siemens is the undisputed No. 1 in medium-voltage drives and
around the globe sets the benchmark in this sector – and not
only involving power ratings and market share. Our range of
products is also unique worldwide:
• All voltage classes from 2.3 to 13.8 kV
• A seamless range of power ratings from 150 kW to 60 MW
• All levels of dynamic response and performance
• Single-motor drives and multi-motor systems
• Harmonized and coordinated systems with synchronous and
induction motors
• Motor speeds from 10 to 15,000 rpm in the Megawatt range
The decisive plus when it comes to experience
Everywhere where it involves the highest degree of availability,
an uncountable number of users have been depending on
medium-voltage drives from Siemens since decades – and that
worldwide.
The reason for this lies in the reliability of our drive systems that
has become almost legendary. And all of this didn’t just happen
by chance – it is the result of our many years of experience, our
power of innovation and our extensive know-how.
• From 1969: Variable-speed medium-voltage drive systems
with current-source DC link
• From 1970: Cycloconverters – with more than 700 drives,
Siemens is the global market leader
• 1994: The cell topology of ROBICON Perfect Harmony revolutionized medium-voltage drives
• 1996: "Pioneered" the use of high-rating voltage-source DC
link drives in rolling mills
• 1998: "Pioneered" the use of high-voltage IGBTs for mediumvoltage drives
• 2003: worldwide the highest rating high-speed drives
(65 MW) with LCI for compressors of a gas liquification plant
• 2005: Highest rating drive with voltage-source DC link drives
in a cell-type topology (65/45 MW) used in an LNG plant (LNG
= Liquefied Natural Gas)
1/2
Siemens D 15.2 · 2011
Well-proven as basis
Based on well-proven technological concepts, we are continually developing our medium-voltage drives. The result: Increasingly higher reliability and operational reliability and safety, continually more compact types of construction, continually lower
energy requirement and service and maintenance costs as well
as increasingly simpler handling: from engineering through installation, integration and commissioning up to operator control.
Always the optimum solution
No matter which medium-voltage drive task is involved: We can
always offer the optimum solution. We consequentially utilize the
strengths of various technologies to implement these solutions.
We have the widest range of drives technologies available: From
cycloconverters and load-commutated drives using thyristors
through voltage-source DC link drives equipped with HV-IGBTs
or IGCTs up to cell topology drives. With the latter, a medium
voltage is obtained at the output by connecting low-voltage cells
in series.
© Siemens AG 2011
Introduction
Perfect harmony of performance and value
■ Benefits
According to energy authorities, industrial motors consume over
a billion kilowatt hours of energy each year – fully 50 percent of
the world’s energy usage. System enhancements such as improved sizing and proper matching to load, more efficient drive
trains, and adjustable speed drives will help drive energy usage
down, according to experts. That means that the right drive can
help you drive cost out of your operation by providing more
precise and efficient control of motors, fans, pumps, and other
devices.
If your process includes motors, fans, or pumps and you haven’t
installed a drive yet, you’re letting thousands of dollars of energy
costs eat away at your bottom line every month because of process inefficiencies
■ Application
Siemens can provide a custom-engineered ROBICON Perfect
Harmony drive to maximize your process. We’re the only company that offers drives from 150 to 60,000 kW. And with an installed base exceeding more than 2.2 million kW worldwide, the
ROBICON Perfect Harmony is a proven workhorse that can perform brilliantly for you, too.
A bright future built on a firm foundation
Since its introduction in 1994, the ROBICON Perfect Harmony
drive has revolutionized power conversion and continues to set
industry standards for reliability and innovation. As power
switching device technology advances and increases output
voltage capability, Siemens improves each generation of the
ROBICON Perfect Harmony in three key areas: increased reliability and availability, increased efficiency, and a smaller drive
footprint.
Advances to our product line are made without "reinventing the
wheel" like other drive manufacturers. We have maintained the
ROBICON Perfect Harmony’s core topology and continue to advance its capability, ensuring life-cycle product support. By
keeping the same topology, our customers see a reduction in
maintenance and spare parts as well as an increase in quality
and lower life-cycle costs. We improve our products by actively
soliciting the input of our customers, and we look forward to
counting you among them.
Siemens drives, the market-leader in medium-voltage air-cooled
drives in the world, deliver an impressive combination of benefits:
• Lower operating costs
• Precise process control
• Lower maintenance costs
• Increased production efficiency
• Exceptional reliability
• Intuitive HMI
The ROBICON Perfect Harmony of today represents an evolution founded on experience garnered from our huge installed
base coupled with Siemens’ unparalleled investments in R&D.
As one of the largest companies in the world, Siemens provides
confidence and financial stability in addition to exceptional technology. We offer you expertise across the globe and a world of
innovation.
The ROBICON Perfect Harmony's™ outstanding record has
made it the drive of choice for demanding applications that
require the highest levels of reliability, precision, and longevity.
Employed in applications ranging from power generation to oil
and gas, water/waste water, and paper production, the
ROBICON Perfect Harmony drive is a versatile performer that
can help you significantly increase productivity, enhance energy
efficiency, and reduce operating costs.
Siemens D 15.2 · 2011
1/3
1
© Siemens AG 2011
Introduction
1
ROBICON Perfect Harmony family
■ Design
The ROBICON Perfect Harmony drive family consists of three
core design configurations, where they are functionally identical
and share a common controller. These three designs are targeted at distinct output power configurations with little overlap
between the frame sizes. ROBICON Perfect Harmony family is
summarized in the 2 tables below.
Air-cooled family
GenIV
GenIIIe
Power range
200 to 3500 hp (0.15 to 2.60 MW)
1750 to 8000 hp (1.30 to 5.96 MW)
Output voltage
2.3 to 6.6 kV
2.3 to 7.2 kV
Input voltage
2.4 to 13.8 kV AC (standard), 50/60 Hz
2.4 to 13.8 kV AC (standard), 50/60 Hz
Cooling type
Air-cooled
Air-cooled
Power cell ratings
40, 70, 100, 140, 200 or 260 A at 750 V AC
315, 375, 500 or 660 A at 690 V AC,
720 A at 630 V AC
Liquid-cooled family 1)
WC III
Power range
4000 to 19000 hp (3 MW to 14.2 MW)
Output voltage
2.3 to 8.0 kV
Input voltage
2.4 to 13.8 kVAC (standard) up to 33 kV (option), 50/60 Hz
Cooling type
Liquid-cooled
Power cell ratings
880 or 1250 A at 750 V AC
1)
For pricing and availability of liquid-cooled drives, please contact the factory or your local Siemens sales representative.
1/4
Siemens D 15.2 · 2011
2
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
2/2
2/2
2/2
2/2
2/3
2/5
Introduction
Overview
Benefits
Application
Design
Function
2/8
2/8
2/9
2/10
2/11
2/12
2/13
2/14
2/15
Selection and ordering data
Overview
Motor voltage 2.3/2.4 kV
Motor voltage 3.3 kV
Motor voltage 4.0/4.16 kV
Motor voltage 4.6/4.8 kV
Motor voltage 6.0 kV
Motor voltage 6.6 kV
Order No. supplements
2/18
Options
Siemens D 15.2 · 2011
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
Introduction
Maximized availability
■ Overview
ROBICON Perfect Harmony Overview
Overview of generations
Short term
Cell voltage
V
Cell current
A
Cooling
method
Order
numbers
GenIV
750
40 ... 260
Air-cooled
6SR4
GenIIIe
690
315 ... 660
Air-cooled
6SR3
630
720
Air-cooled
6SR3
hp
9000
8000
7000
6000
5000
4500
4250
4000
3500
3300
3000
2750
2500
2250
2000
1750
1500
1350
1000
900
750
500
300
200
GenIV
GenIIIe
G_D015_EN_0011
Power
2
The ROBICON Perfect Harmony series drives provide variable
speed operation by converting utility power at fixed frequency
and fixed voltage to variable frequency, variable voltage power.
This conversion is done electronically without moving parts. The
following table shows main characteristics of the ROBICON Perfect Harmony air-cooled generations discussed in this catalog
and the short terms used.
40
70
100
140
200
260
315
375
500
660 A 720
Cell current ratings
Power range for ROBICON Perfect Harmony air-cooled drives
Standards and regulations
ROBICON Perfect Harmony drives are designed, manufactured
and tested according to applicable NEMA, ANSI and IEEE
standards.
Clean power input
The ROBICON Perfect Harmony drive:
• Meets the most stringent IEEE 519-1992 requirements for
voltage and current harmonic distortion, even if the source
capacity is no larger than the drive rating 1)
• In most cases eliminates the need for costly and inefficient
harmonic filters and its associated resonance problems
• Protects other on-line equipment from harmonic disturbance
(computers, telephones and other power converters).
Power quality output
The ROBICON Perfect Harmony drive:
• Reduces common-mode voltage on the motor stator windings
• Minimizes drive induced torque pulsations and associated
torsional analysis compared to other medium-voltage topologies,
by using a motor friendly pulse width modulation (PWM) output
• Offers sinusoidal output that eliminates additional harmonic
heating and can be used with new or existing motors without
derating.
IEEE 519-1992 compliance can only be guaranteed in networks without
prior disturbances or harmonics already present.
2/2
Extended Reliability
The ROBICON Perfect Harmony drive provides an integrated
transformer which offers the following additional advantages:
• Simple and robust way to cancel input current harmonics without
the need for input harmonic filters or a complex active front-end
• Protects power converter semiconductors against line transients
• Improves ride-through capabilities
• Completely protects the motor in case of a ground fault in the
converter, the motor cabling or insulation
• Negligible common mode voltage allows the use of a standard
motor eliminating the need for special high-voltage insulation
• Limits the fault energy into the converter in the unlikely event
of a fault
• The incoming service voltage doesn't have to match the motor
voltage.
Factory System Test offers the following advantages:
• Each transformer and converter is tested as a complete system at full load prior delivery.
• Factory testing allows accurate efficiency measurements to
ensure that drive performance meets customer specifications.
• Verification of sequence of operation and protection functions
Installation and maintenance
• The ROBICON Perfect Harmony drives are easy to install and
maintain.
• Customer needs to provide three cables in and three cables out.
There is no customer site cabling required to connect the assembled sections.
• Power cells can be pulled out easily for maintenance due to
their reduced weight and front accessible connections.
• Sophisticated microprocessor-based diagnostics pinpoint the
location of any defects.
Fast delivery
■ Benefits
1)
The ROBICON Perfect Harmony drive:
• Remains operational in the event of a cell failure by using the
cell bypass option which bypasses the faulted cell
• Offers a Process Tolerant Protection Strategy (ProToPS) based
on a hierarchical warning system that allows the operator to
evaluate the drive disturbance and respond appropriately to
avoid system shutdown.
Siemens D 15.2 · 2011
The (kW)ick Ship program is designed to reduce the manufacturing lead time on some of the ROBICON Perfect Harmony GenIV
drives with a set of standard options. Please refer to chapter "Options" on page 2/18 for more details.
■ Application
ROBICON Perfect Harmony typical applications
The ROBICON Perfect Harmony is regularly applied by the most
reliability and quality conscious industries and their most demanding applications, for example:
• Industrial pumps and fans
• Oil & gas pumps and compressors, e.g. electrical submersible pumps (ESPs) and high speed compressors
• Induced and forced draft boiler blowers for power generation
• Clean water and wastewater pumps
• Multi-motor synchronous transfer applications (such as pipelines in the oil & gas markets).
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
Introduction
■ Design
Proven IGBTs
The ROBICON Perfect Harmony series drives achieve an uncompromising performance by employing well-proven technology in a modular configuration, as shown in figure "Topology of
ROBICON Perfect Harmony drives (3 cells)". Medium-voltage
levels are obtained by adding together the outputs of multiple
low-voltage power cells. The low-voltage power cells are simplified variations of standard 2-level PWM motor drives for lowvoltage service, which have been built in high volume for many
years.
Insulated Gate Bipolar Transistors (IGBTs) form the backbone of
the ROBICON Perfect Harmony drive. Built in high volumes and
serving as a proven power device across the industrial power
control industry, IGBT technology has been in existence for more
than a decade. The stability and availability of IGBTs give reliable, long-term, life-cycle confidence.
Power
cell
A1
Power
cell
B1
Power
cell
C1
Input power
3-phase AC
Power
cell
A2
Power
cell
B2
Linked low-voltage cells
In the ROBICON Perfect Harmony, a series of low-voltage cells
(see figure "schematic of a typical power cell") are linked together to build the medium-voltage power output of the drive
system. This patented modular configuration gives the
ROBICON Perfect Harmony many advantages when it comes to
maintenance, power quality and reliability. It also provides the
basis for one of its most important advantages – increased availability through the advanced cell bypass option.
Dedicated
winding on
power
transformer
IGBTs Q1-Q4
Q1
Q3
+
Power
cell
C2
T2
1
2
+
3
Power
cell
A3
T1
Q2
Power
output
of cell
Q4
Power
cell
B3
Power
cell
C3
Local
control
power
Local control circuits
Fiber optic
signals
to and from
master control
G_D015_EN_00010
Special
transformer
with 9 isolated
secondaries
G_D015_EN_00009
Drive topology
Motor
Schematic of a typical power cell
Topology of ROBICON Perfect Harmony drives (3 cells)
For higher output voltage capabilities, the ROBICON Perfect
Harmony topology would be extended to have up to 5 power
cells in series in each phase (in case of a GenIV drive 1)), with
additional secondary windings (number of secondaries equals
number of power cells) on the integral isolation transformer.
Each power cell is capable of receiving input power at
750 V AC 2), 3-phase, 50/60 Hz and delivering that power to a
single phase load at a variable frequency from 0.5 to the maximum rated output frequency of the drive.
Transformer
The transformer is an integral part of the drive and cannot be
specified or obtained separately. It has been carefully designed
over several generations to function properly with the ROBICON
Perfect Harmony drive.
ROBICON Perfect Harmony transformers are dry-type forcedair. They are designed specifically for use with a particular
ROBICON Perfect Harmony drive and have 9 to 18 extended
delta secondaries. The secondary currents are rich in harmonics, but the primary current is virtually sinusoidal. It is very important to recognize that this is no ordinary transformer which can
be obtained as an off-the-shelf item. The usual standards,
ANSI C57-12.51 and C57-12.91, apply to transformers with only
a few windings and which are subjected to sinusoidal currents.
Thus, there are some important exceptions and modifications to
the application of these standards to ROBICON Perfect Harmony transformers.
1)
Up to 6 power cells in series in each phase in case of a GenIIIe drive.
2)
690 V AC in case of a GenIIIe power cell.
Siemens D 15.2 · 2011
2/3
2
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
Introduction
■ Design (continued)
Through a redundant bypass control that is completely separated from each power cell, the ROBICON Perfect Harmony
ensures automatic bypass of a failed power cell in less than
500 ms.
One possible remedy is to bypass an equal number of cells in all
three phases, even though some may not have faulted. The
following figure illustrates this approach. Obviously, this method
prevents unbalance but sacrifices possible voltage capability. In
this figure, 87 % of the cells are functional, but only 60 % are in
use, and only 60 % of full voltage is available.
15 module drive after
bypass of 2 modules
in all phases.
Balance is restored.
Since the cells in each phase of a ROBICON Perfect Harmony
drive are in series, bypassing a cell has no effect on the current
capability of the drive, but the voltage capability will be reduced.
Usually the required motor voltage is roughly proportional to
speed, so that the maximum speed at which the drive can fulfill
the application requirements will also be reduced.
Therefore, it is important to maximize the motor voltage available
after one or more cells have been bypassed. The following figures illustrate the voltage available from a ROBICON Perfect
Harmony drive, where the cells, represented by circles, are
shown as simple voltage sources. The figure below shows a 15cell drive in which no cells are bypassed. With 100 % of the cells
in use, 100 % of the original voltage is available. The voltage
commands to the three phase groups of cells will have phase A
displaced from phase B by 120°, and from phase C by 120°.
15 module drive with
no modules bypassed.
A
100 % of the modules
are in use.
100 % of full voltage
is available.
A5
A4
A2
VAC
V BA
120°
C1 N B1
C2
B2
C5
B3
C4
B4
C5
B5
C
B
VCB
G_D015_EN_00013
A1
A
87 % of the modules
are OK, but only
60 % are in use.
60 % of full voltage
is available.
A3
A2
VAC
A1
N
C1
V BA
120°
B1
C2
B2
C3
B3
C
B
VCB
Drive output re-balanced by bypassing functional cells
A better approach is illustrated in the figure below. This method
takes advantage of the fact that the star-point of the cells is
floating, and is not connected to the neutral of the motor. Therefore the star-point can be shifted away from the motor neutral,
and the phase angles of the cell voltages can be adjusted, so
that a balanced set of motor voltages is obtained even though
the cell group voltages are not balanced.
Siemens calls this approach Neutral Shift. This approach is
equivalent to introducing a zero-sequence component into the
voltage command vectors for the cells. In the figure below, the
full remaining 87 % of functional cells are in use, and 80 % of the
original voltage is available. The phase angles of the cell voltages have been adjusted so that phase A is displaced from
phase B and from phase C by 132.5°, instead of the normal
120°.
A3
A
15 module drive after
bypass of 2 modules
in phase A only
and adjustment of
phase angles.
87 % of the modules
are in use.
80 % of full voltage
is available.
A3
A2
Simplified diagram of a 15 cell drive
15 module drive after
bypass of 2 modules
in phase A.
A
A3
A1
B3
C4
B4
C5
C
B5
VCB
Drive output with 2 cells bypassed in phase A
2/4
Siemens D 15.2 · 2011
V BA
B2
B3
B4
C5
B5
VCB
B
Drive output re-balanced by adjusting phase angles (Neutral Shift)
B2
C3
95°
C4
V BA
C1 N B1
C2
132.5°
B1
C3
C
120°
A1
C1
C2
87 % of the modules
are in use, but the
output voltage is
available unbalanced.
A2
VAC
132.5°
VAC
B
G_D015_EN_00008
When two cells are bypassed in phase A, the output voltage will
tend to become unbalanced, as illustrated in the figure below.
G_D015_EN_00014
2
The ROBICON Perfect Harmony is designed to withstand failures that would overwhelm conventional drives because redundancy options are added into the system. The patented, cellbased configuration maximizes uptime and simplifies modifications.
G_D015_EN_00007
Advanced cell bypass
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
Introduction
■ Function
Control, protection and monitoring functions
Closed-loop control
The drive can be controlled by means of vector control algorithm without an encoder (standard) or with it
(option).
Auto tuning
Auto tuning involves the estimation of motor parameters required for motor control. This is done in two
stages. In stage one, motor stator resistance and total leakage inductance are determined. This stage
does not require spinning the motor. In stage two, the motor no-load current and total inertia are
estimated. Estimation of these values requires the motor be spun. Accuracy of the estimation is better if
the load is de-coupled from the motor.
Automatic restart
The automatic restart switches the drive on again when the power is restored after a power failure or a
general fault, and ramps up to the current speed setpoint.
Energy saver
Energy saver control allows the reduction of motor losses, and improves overall efficiency, when the
demanded motor load is low. Depending on the motor load, the control will reduce motor flux.
As motor load increases, the control will increase motor flux.
Flying restart
The flying restart function permits smooth connection of the drive to a rotating motor.
Diagnostics functions
• Self-diagnosis of control hardware
• Non-volatile memory for reliable diagnosis when the power supply fails
• Monitoring of IGBTs with individual messages for each cell
• User-friendly local operator panel with plain text messages
• Fault log with first-in indication and time/date stamp
User configurable digital meters
The user can select indication of speed, voltage, current, input/output power, and efficiency on the
operator panel.
Process control system
The optional Process Tolerant Protection Strategy (ProToPS) is a groundbreaking process control system
available exclusively from Siemens. Instead of tripping the drive and automatically shutting down the
system due to a malfunction, ProToPS provides a hierarchical system of warnings. This control strategy
allows time to evaluate the situation and respond appropriately to avoid a system shutdown.
Operating hours and switching cycle
counter
The amount of the time that the drive was operational since it was commissioned can be displayed.
The switching cycle counter can be generated by means of an event log from the drive controller.
Detection of actual motor speed
The control algorithm calculates actual motor speed from currents and voltages measured at the drive
output.
Emergency stop button
The drives are equipped as standard with an Emergency Stop button (red mushroom button with yellow
collar) which is fitted in the cabinet door. The contacts of the pushbutton are connected in parallel to the
terminal block so they can be integrated in a protection concept on the plant side.
Insulation monitoring
An output signal can be provided optional to operate the customer protection.
I/O monitoring
I/O signals allow user-customization of the system and they can be monitored remotely or by using the
operator panel display.
Thermal overload protection
Based on the output signals of the drive the thermal motor model is calculated. The motor thermal
overload protection algorithm prevents the motor from being exposed to excessive temperatures.
Siemens D 15.2 · 2011
2/5
2
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
Introduction
■ Function (continued)
GenIV
GenIV is the fourth generation of forced air-cooled mediumvoltage, voltage source inverter drives offered in the patented
ROBICON Perfect Harmony topology, together with NXGII controller.
2
The GenIV is a series of adjustable speed AC motor drives presently available in 2300 to 6600 V outputs, and loads ranging from
200 to 3500 hp. Six power cell amperage types are available: 40,
70, 100, 140, 200 and 260. Drives in this product series provide
an efficient, cost effective, and reliable method of adjusting the
speed of an AC motor. The core unit contains a wide range of expandable features, enabling it to meet the demands of many
types of industrial applications.
ROBICON Perfect Harmony GenIV (4.0 kV)
ROBICON Perfect Harmony GenIV characteristics
Power semiconductors
IGBTs, diodes
Line-side rectifier
18- to 30-pulse diode rectifier
Multi-level drive (PWM) with IGBT power modules
Motor-side inverter
Power cell ratings
A
40, 70, 100, 140, 200, 260 at 750 V
Input voltage range
kV
2.3 to 13.8
±10 % of nominal rated input voltage
Input voltage tolerance
Input frequency
Hz
50/60 ± 5 %
Input power factor
≥ 0.95 above 10 % load
Input harmonics
≤ 5 % TDD
Output voltages
kV
2.3/2.4, 3.3, 4.0/4.16, 4.6/4.8 1), 6.0, 6.6
Output frequency and drift
Hz
0.5 ... 330 ± 0.5 %
Output torque
Hz
10 ... 167 rated torque (2-quadrant)
Output dV/dt
V/μs
< 3000
Power range
hp
200 to 3500 (0.15 to 2.60 MW)
Cooling methods
Forced air-cooled
Control
NXGII
Motor control
• Induction motor control
• Synchronous motor control
• Permanent magnet motors
• Wound rotor motors
GenIV cell overload capability
Required overload
(I/IN)
Available continuous output current per cell
A
No overload
40
70
100
140
200
260
110 %
(for 1 min, cycle time 10 min)
40
70
100
140
200
260
150 %
(for 1 min, cycle time 10 min)
40
70
100
140 2)
200
260
The GenIV drives as standard provide a 150 % overload capability for all cell ratings without any derating.
1)
Available soon.
2)
The available continuous rating of 140 A will reduce to 130 A when operated at 45 °C ambient temperature.
2/6
Siemens D 15.2 · 2011
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
Introduction
■ Function (continued)
GenIIIe
GenIIIe is the third generation of forced air-cooled mediumvoltage pulse width modulated variable frequency motor drives,
offered in the patented ROBICON Perfect Harmony power topology in concert with proprietary NXGII hardware control platform
and embedded software. GenIIIe is an extension of the GenIII
series offering a higher current rating.
The GenIIIe is a series of adjustable speed AC motor drives
presently available in an output voltage range from 2.3 kV to
7.2 kV, and loads ranging from 3000 to 9000 hp. Four power cell
amperage types are available: 315, 375, 500, and 660 A at
690 V AC and one 720 A cell at 630 V AC.
ROBICON Perfect Harmony GenIIIe
ROBICON Perfect Harmony GenIIIe, characteristics
Power semiconductors
IGBTs, diodes
Line-side rectifier
18 to 36-pulse diode rectifier
Multi-level drive (PWM) with IGBT power modules
Motor-side inverter
Power cell ratings
A
315, 375, 500, 660 at 690 V; 720 at 630 V
Input voltage range
kV
2.3 to 13.8
±10 % of nominal rated input voltage
Input voltage tolerance
Input frequency
Hz
50/60 ± 5 %
Input power factor
≥ 0.95 above 10 % load
Input harmonics
≤ 5 % TDD
Output voltages
kV
2.3/2.4, 3.3, 4.16, 4.6/4.8, 6.0, 6.6, 7.2
Output frequency and drift
Hz
0.5 ... 330 ± 0.5 %
Output torque
Hz
10 ... 167 rated torque (2-quadrant)
Output dV/dt
V/μs
< 1000
Power range
hp
1750 to 8000 (1.30 to 5.96 MW)
Cooling method
Forced air-cooled
Control
NXGII II
Motor control
• Induction motor control
• Synchronous motor control
• Permanent magnet motors
• Wound rotor motors
GenIIIe cell overload capability
Required overload
(I/IN)
Available continuous output current per cell
A
No overload
315
375
500
660
720
110 %
(for 1 min, cycle time 10 min)
315
375
500
660
720
150 %
(for 1 min, cycle time 10 min)
300
300
400
450
Not Available
The GenIIIe drives as standard provide a 110 % overload capability for all cell ratings without any derating.
Siemens D 15.2 · 2011
2/7
2
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
Selection and ordering data
■ Overview
The following tables help you to select the right converter type
and give an overview of the corresponding motor data and order
numbers. The tables are organized according to the motor voltages. For the complete technical data of the listed converter
types refer to chapter 3.
2
In order to select the right ROBICON Perfect Harmony drive,
please take into consideration the following steps:
Step 1 – Choosing the right cell size
1.1 Determine the maximum continuous motor current, temporary overload not included:
• Use the motor FLA if available or use the following formula
to calculate motor current I.
I=
Pmotor _ kW
冑 3 × Vmotor
× PFmotor × ηmotor
where,
Pmotor_kW = output (in kW)
= motor voltage
Vmotor
= motor power factor (= (cos ϕ)motor)
PFmotor
ηmotor
= motor efficiency
(keeping in mind: motor service factor if utilized and/or
overload requirements)
• If the motor power factor (PFmotor) and efficiency at full load
are not known then use the following default values:
- PFmotor = 0.88
- ηmotor = 0.94 for power cells up to 140 A
0.964 for power cells above 140 A
• Factor in the motor service factor (SF) if the application will
make use of it under long term operation. You do so by
multiplying the given/calculated current (from step 1.1) by
the motor SF.
2/8
Siemens D 15.2 · 2011
1.2 Determine the minimum continuous cell current rating:
If the drive is intended to operate within nominal parameters, the maximum continuous motor current will be the
minimum continuous cell current rating. For the appropriate
converter type, identify the smallest cell available that can
source the current calculated in the previous paragraph.
1.3 Factor in any overload requirements:
• For the cell chosen on the previous paragraph, make sure it
can handle the application overload requirements by
checking overload capabilities (see pages 2/6 and 2/7)
• If the overload requirements exceed the capabilities of the
chosen cell then the next cell size must be selected.
Step 2 – Choosing the right transformer
2.1 The ROBICON Perfect Harmony transformer rating is based
on the motor shaft horsepower:
• If the drive is intended to operate within nominal parameters
and without added redundant cells, the maximum continuous motor horsepower (hp) will be used to rate the transformer using a straight formula:
1 transformer kVA per each motor hp
• The above rule is followed regardless of motor type.
2.2 The transformer is designed to support the temporary overloads associated with the cells it feeds. If those levels are
exceeded by the application requirements, please contact
the factory or your local Siemens sales representative.
Note:
Please contact the factory or your local Siemens sales representative for derating calculations, if the drive is intended to operate
outside the nominal conditions such as:
• High ambient temperatures
• High altitude installations
• Very low continuous operating frequencies at high current
• High frequency operation for high speed motors.
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
Selection and ordering data
■ Selection and ordering data
Motor voltage 2.3/2.4 kV
Motor
voltage
Type rating Shaft
output 1)
Shaft
output 1)
Typical
motor
current 1)
Power cell
current
kV
kVA
kW
A
A
hp
Number of Transformer Order number
cells
rating
Generation
kVA
2.4
180
200
149
43
70
9
200
6SR4202-0 ■ B32-0 ■ ■ 0
GenIV
2.4
270
300
224
65
70
9
300
6SR4202-0 ■ B33-0 ■ ■ 0
GenIV
2.4
290
323
241
70
70
9
400
6SR4202-0 ■ B34-0 ■ ■ 0
GenIV
2.4
360
400
298
87
100
9
400
6SR4202-0 ■ C34-0 ■ ■ 0
GenIV
2.4
410
450
336
98
100
9
450
6SR4202-0 ■ C34-5 ■ ■ 0
GenIV
2.4
415
461
344
100
100
9
500
6SR4202-0 ■ C35-0 ■ ■ 0
GenIV
2.4
450
500
373
108
140
9
500
6SR4202-0 ■ D35-0 ■ ■ 0
GenIV
2.4
540
600
448
130
140
9
600
6SR4202-0 ■ D36-0 ■ ■ 0
GenIV
2.4
580
645
481
140
140
9
700
6SR4202-0 ■ D37-0 ■ ■ 0
GenIV
2.4
700
800
597
169
200
9
800
6SR4202-0 ■ E38-0 ■ ■ 0
GenIV
2.4
790
900
671
190
200
9
900
6SR4202-0 ■ E38-7 ■ ■ 0
GenIV
2.4
830
945
705
200
200
9
1000
6SR4202-0 ■ E41-0 ■ ■ 0
GenIV
2.4
880
1000
746
212
260
9
1000
6SR4202-0 ■ F41-0 ■ ■ 0
GenIV
2.4
1080
1229
917
260
260
9
1250
6SR4202-0 ■ F41-2 ■ ■ 0
GenIV
2.4
1305
1489
1111
315
315
9
1750
6SR3202-1 ■ G41-7■ ■ 0
GenIIIe
2.4
1540
1750
1306
370
375
9
1750
6SR3202-1 ■ H41-7 ■ ■ 0
GenIIIe
2.4
1555
1773
1322
375
375
9
2000
6SR3202-1 ■ H42-0 ■ ■ 0
GenIIIe
2.4
1760
2000
1492
423
500
9
2000
6SR3202-1 ■ J42-0 ■ ■ 0
GenIIIe
2.4
1980
2250
1679
476
500
9
2250
6SR3202-1 ■ J42-2 ■ ■ 0
GenIIIe
2.4
2075
2363
1763
500
500
9
2500
6SR3202-1 ■ J42-5 ■ ■ 0
GenIIIe
2.4
2200
2500
1865
529
660
9
2500
6SR3202-1 ■ K42-5 ■ ■ 0
GenIIIe
2.4
2620
2978
2222
630
660
9
3000
6SR3202-1 ■ K43-0 ■ ■ 0
GenIIIe
For order number supplements see pages 2/15 to 2/17
1)
The specifications for the typical motor current and the power data in hp
and kW are approximate values only; these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor
efficiency. Both approximate values have to be adapted to the motor that is
actually used.
Siemens D 15.2 · 2011
2/9
2
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
Selection and ordering data
■ Selection and ordering data (continued)
Motor voltage 3.3 kV
2
Motor
voltage
Type rating Shaft
output 1)
Shaft
output 1)
Typical
motor
current 1)
Power cell
current
kV
kVA
kW
A
A
hp
Number of Transformer Order number
cells
rating
Generation
kVA
3.3
180
200
149
32
40
9
200
6SR4202-0 ■ A32-0 ■ ■ 0
GenIV
3.3
225
254
189
40
40
9
300
6SR4202-0 ■ A33-0 ■ ■ 0
GenIV
3.3
270
300
224
47
70
9
300
6SR4202-0 ■ B33-0 ■ ■ 0
GenIV
3.3
360
400
298
63
70
9
400
6SR4202-0 ■ B34-0 ■ ■ 0
GenIV
3.3
400
444
331
70
70
9
450
6SR4202-0 ■ B34-5 ■ ■ 0
GenIV
3.3
410
450
336
71
100
9
450
6SR4202-0 ■ C34-5 ■ ■ 0
GenIV
3.3
450
500
373
79
100
9
500
6SR4202-0 ■ C35-0 ■ ■ 0
GenIV
3.3
540
600
448
95
100
9
600
6SR4202-0 ■ C36-0 ■ ■ 0
GenIV
3.3
570
634
473
100
100
9
700
6SR4202-0 ■ C37-0 ■ ■ 0
GenIV
3.3
630
700
522
110
140
9
700
6SR4202-0 ■ D37-0 ■ ■ 0
GenIV
3.3
720
800
597
126
140
9
800
6SR4202-0 ■ D38-0 ■ ■ 0
GenIV
3.3
800
887
662
140
140
9
900
6SR4202-0 ■ D38-7 ■ ■ 0
GenIV
3.3
880
1000
746
154
200
9
1000
6SR4202-0 ■ E41-0 ■ ■ 0
GenIV
3.3
970
1100
821
169
200
9
1100
6SR4202-0 ■ E41-1 ■ ■ 0
GenIV
3.3
1100
1250
933
192
200
9
1250
6SR4202-0 ■ E41-2 ■ ■ 0
GenIV
3.3
1140
1300
970
200
200
9
1500
6SR4202-0 ■ E41-5 ■ ■ 0
GenIV
3.3
1320
1500
1119
231
260
9
1500
6SR4202-0 ■ F41-5 ■ ■ 0
GenIV
3.3
1485
1690
1261
260
260
9
1750
6SR4202-0 ■ F41-7 ■ ■ 0
GenIV
3.3
1540
1750
1306
269
315
9
1750
6SR3202-1 ■ G41-7■ ■ 0
GenIIIe
3.3
1760
2000
1492
308
315
9
2000
6SR3202-1 ■ G42-0■ ■ 0
GenIIIe
3.3
1800
2047
1527
315
315
9
2250
6SR3202-1 ■ G42-2■ ■ 0
GenIIIe
3.3
1980
2250
1679
346
375
9
2250
6SR3202-1 ■ H42-2 ■ ■ 0
GenIIIe
3.3
2140
2437
1818
375
375
9
2500
6SR3202-1 ■ H42-5 ■ ■ 0
GenIIIe
3.3
2200
2500
1865
385
500
9
2500
6SR3202-1 ■ J42-5 ■ ■ 0
GenIIIe
3.3
2640
3000
2238
462
500
9
3000
6SR3202-1 ■ J43-0 ■ ■ 0
GenIIIe
3.3
2855
3250
2424
500
500
9
3500
6SR3202-1 ■ J43-5 ■ ■ 0
GenIIIe
3.3
3080
3500
2611
539
660
9
3500
6SR3202-1 ■ K43-5 ■ ■ 0
GenIIIe
For order number supplements see pages 2/15 to 2/17
1)
The specifications for the typical motor current and the power data in hp
and kW are approximate values only; these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor
efficiency. Both approximate values have to be adapted to the motor that is
actually used.
2/10
Siemens D 15.2 · 2011
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
Selection and ordering data
■ Selection and ordering data (continued)
Motor voltage 4.0/4.16 kV
Motor
voltage
Type rating Shaft
output 1)
Shaft
output 1)
Typical
motor
current 1)
Power cell
current
kV
kVA
kW
A
A
hp
Number of Transformer Order number
cells
rating
Generation
kVA
4.0/4.16 2)
180
200
149
26
40
9
200
6SR4202-0 ■ A32-0 ■ ■ 0
GenIV
4.0/4.16 2)
270
300
224
39
40
9
300
6SR4202-0 ■ A33-0 ■ ■ 0
GenIV
4.0/4.16 2)
275
307
229
40
40
9
400
6SR4202-0 ■ A34-0 ■ ■ 0
GenIV
4.0/4.16 2)
360
400
298
52
70
9
400
6SR4202-0 ■ B34-0 ■ ■ 0
GenIV
4.0/4.16 2)
410
450
336
59
70
9
450
6SR4202-0 ■ B34-5 ■ ■ 0
GenIV
4.0/4.16 2)
450
500
373
65
70
9
500
6SR4202-0 ■ B35-0 ■ ■ 0
GenIV
4.0/4.16 2)
480
538
401
70
70
9
600
6SR4202-0 ■ B36-0 ■ ■ 0
GenIV
4.0/4.16 2)
540
600
448
78
100
9
600
6SR4202-0 ■ C36-0 ■ ■ 0
GenIV
4.0/4.16 2)
630
700
522
91
100
9
700
6SR4202-0 ■ C37-0 ■ ■ 0
GenIV
4.0/4.16 2)
690
768
573
100
100
9
800
6SR4202-0 ■ C38-0 ■ ■ 0
GenIV
4.0/4.16 2)
720
800
597
104
140
9
800
6SR4202-0 ■ D38-0 ■ ■ 0
GenIV
4.0/4.16 2)
810
900
671
117
140
9
900
6SR4202-0 ■ D38-7 ■ ■ 0
GenIV
4.0/4.16 2)
900
1000
746
130
140
9
1000
6SR4202-0 ■ D41-0 ■ ■ 0
GenIV
4.0/4.16 2)
965
1075
802
140
140
9
1100
6SR4202-0 ■ D41-1 ■ ■ 0
GenIV
2)
1100
1250
933
159
200
9
1250
6SR4202-0 ■ E41-2 ■ ■ 0
GenIV
4.0/4.16 2)
1320
1500
1119
190
200
9
1500
6SR4202-0 ■ E41-5 ■ ■ 0
GenIV
4.0/4.16 2)
1385
1576
1175
200
200
9
1750
6SR4202-0 ■ E41-7 ■ ■ 0
GenIV
4.0/4.16 2)
1540
1750
1306
222
260
9
1750
6SR4202-0 ■ F41-7 ■ ■ 0
GenIV
4.0/4.16 2)
1760
2000
1492
254
260
9
2000
6SR4202-0 ■ F42-0 ■ ■ 0
GenIV
4.0/4.16 2)
1800
2048
1528
260
260
9
2250
6SR4202-0 ■ F42-2 ■ ■ 0
GenIV
4.16
1980
2250
1679
275
315
12
2250
6SR3202-3 ■ G42-2■ ■ 0
GenIIIe
4.16
2200
2500
1865
305
315
12
2500
6SR3202-3 ■ G42-5■ ■ 0
GenIIIe
4.16
2265
2581
1925
315
315
12
3000
6SR3202-3 ■ G43-0■ ■ 0
GenIIIe
4.16
2640
3000
2238
366
375
12
3000
6SR3202-3 ■ H43-0 ■ ■ 0
GenIIIe
4.16
2700
3073
2292
375
375
12
3500
6SR3202-3 ■ H43-5 ■ ■ 0
GenIIIe
4.16
3080
3500
2611
427
500
12
3500
6SR3202-3 ■ J43-5 ■ ■ 0
GenIIIe
4.16
3520
4000
2984
488
500
12
4000
6SR3202-3 ■ J44-0 ■ ■ 0
GenIIIe
4.16
3600
4097
3056
500
500
12
5000
6SR3202-3 ■ J45-0 ■ ■ 0
GenIIIe
4.16
4400
5000
3730
610
660
12
5000
6SR3202-3 ■ K45-0 ■ ■ 0
GenIIIe
4.16
4540
5162
3851
630
660
12
6000
6SR3202-3 ■ K46-0 ■ ■ 0
GenIIIe
4.16
5185
5899
4401
720
720
12
6000
6SR3202-3 ■ L46-0 ■ ■ 0
GenIIIe
4.0/4.16
For order number supplements see pages 2/15 to 2/17
1)
The specifications for the typical motor current and the power data in hp
and kW are approximate values only; these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor
efficiency. Both approximate values have to be adapted to the motor that is
actually used.
2)
4.16 kV possible with overmodulation; under load, motor is run at 4.0 kV
Siemens D 15.2 · 2011
2/11
2
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
Selection and ordering data
■ Selection and ordering data (continued)
Motor voltage 4.6/4.8 kV
2
Motor
voltage
Type
rating
Shaft
output 1)
Shaft
output 1)
Typical
motor
current 1)
Power
cell
current
kV
kVA
hp
kW
A
A
Number
of cells
Transformer
rating
Order number
Generation
kVA
4.8
270
300
224
33
40
12
300
6SR4202-1 ■ A33-0 ■ ■ 0 2)
GenIV
4.8
330
369
275
40
40
12
400
6SR4202-1 ■ A34-0 ■ ■ 0 2)
GenIV
GenIV
4.8
360
400
298
43
70
12
400
6SR4202-1 ■ B34-0 ■ ■ 0 2)
4.8
450
500
373
54
70
12
500
6SR4202-1 ■ B35-0 ■ ■ 0 2)
GenIV
4.8
540
600
448
65
70
12
600
6SR4202-1 ■ B36-0 ■ ■ 0 2)
GenIV
4.8
580
645
481
70
70
12
700
6SR4202-1 ■ B37-0 ■ ■ 0 2)
GenIV
4.8
630
700
522
76
100
12
700
6SR4202-1 ■ C37-0 ■ ■ 0 2)
GenIV
4.8
720
800
597
87
100
12
800
6SR4202-1 ■ C38-0 ■ ■ 0 2)
GenIV
GenIV
4.8
810
900
671
98
100
12
900
6SR4202-1 ■ C38-7 ■ ■ 0 2)
4.8
830
922
688
100
100
12
1000
6SR4202-1 ■ C41-0 ■ ■ 0 2)
GenIV
4.8
900
1000
746
108
140
12
1000
6SR4202-1 ■ D41-0 ■ ■ 0 2)
GenIV
4.8
1130
1250
933
136
140
12
1250
6SR4202-1 ■ D41-2 ■ ■ 0 2)
GenIV
4.8
1160
1291
963
140
140
12
1500
6SR4202-1 ■ D41-5 ■ ■ 0 2)
GenIV
4.8
1320
1500
1119
159
200
12
1500
6SR4202-1 ■ E41-5 ■ ■ 0 2)
GenIV
2)
GenIV
4.8
1540
1750
1306
185
200
12
1750
6SR4202-1 ■ E41-7 ■ ■ 0
4.8
1660
1891
1411
200
200
12
2000
6SR4202-1 ■ E42-0 ■ ■ 0 2)
GenIV
4.8
1760
2000
1492
212
260
12
2000
6SR4202-1 ■ F42-0 ■ ■ 0 2)
GenIV
4.8
1980
2250
1679
238
260
12
2250
6SR4202-1 ■ F42-2 ■ ■ 0 2)
GenIV
4.8
2160
2458
1834
260
260
12
2500
6SR4202-1 ■ F42-5 ■ ■ 0 2)
GenIV
4.8
2200
2500
1865
264
315
12
2500
6SR3202-3 ■ G42-5■ ■ 0
GenIIIe
4.8
2615
2978
2222
315
315
12
3000
6SR3202-3 ■ G43-0■ ■ 0
GenIIIe
4.8
2640
3000
2238
317
375
12
3000
6SR3202-3 ■ H43-0 ■ ■ 0
GenIIIe
4.8
3080
3500
2611
370
375
12
3500
6SR3202-3 ■ H43-5 ■ ■ 0
GenIIIe
4.8
3115
3545
2645
375
375
12
4000
6SR3202-3 ■ H44-0 ■ ■ 0
GenIIIe
4.8
3520
4000
2984
423
500
12
4000
6SR3202-3 ■ J44-0 ■ ■ 0
GenIIIe
4.8
4155
4727
3526
500
500
12
5000
6SR3202-3 ■ J45-0 ■ ■ 0
GenIIIe
4.8
4400
5000
3730
529
660
12
5000
6SR3202-3 ■ K45-0 ■ ■ 0
GenIIIe
4.8
5240
5956
4443
630
660
12
6000
6SR3202-3 ■ K46-0 ■ ■ 0
GenIIIe
For order number supplements see pages 2/15 to 2/17
1)
The specifications for the typical motor current and the power data in hp
and kW are approximate values only; these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor
efficiency. Both approximate values have to be adapted to the motor that is
actually used.
2)
Available soon.
2/12
Siemens D 15.2 · 2011
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
Selection and ordering data
■ Selection and ordering data (continued)
Motor voltage 6.0 kV
Motor
voltage
Type rating Shaft
output 1)
Shaft
output 1)
Typical
motor
current 1)
Power cell
current
kV
kVA
kW
A
A
hp
Number of Transformer Order number
cells
rating
Generation
kVA
6.0
270
300
224
26
40
15
300
6SR4202-2 ■ A33-0 ■ ■ 0
GenIV
6.0
360
400
298
35
40
15
400
6SR4202-2 ■ A34-0 ■ ■ 0
GenIV
6.0
415
461
344
40
40
15
500
6SR4202-2 ■ A35-0 ■ ■ 0
GenIV
6.0
450
500
373
43
70
15
500
6SR4202-2 ■ B35-0 ■ ■ 0
GenIV
6.0
540
600
448
52
70
15
600
6SR4202-2 ■ B36-0 ■ ■ 0
GenIV
6.0
630
700
522
61
70
15
700
6SR4202-2 ■ B37-0 ■ ■ 0
GenIV
6.0
720
800
597
69
70
15
800
6SR4202-2 ■ B38-0 ■ ■ 0
GenIV
6.0
725
807
602
70
70
15
900
6SR4202-2 ■ B38-7 ■ ■ 0
GenIV
6.0
810
900
671
78
100
15
900
6SR4202-2 ■ C38-7 ■ ■ 0
GenIV
6.0
900
1000
746
87
100
15
1000
6SR4202-2 ■ C41-0 ■ ■ 0
GenIV
6.0
1035
1152
860
100
100
15
1250
6SR4202-2 ■ C41-2 ■ ■ 0
GenIV
6.0
1130
1250
933
108
140
15
1250
6SR4202-2 ■ D41-2 ■ ■ 0
GenIV
6.0
1350
1500
1119
130
140
15
1500
6SR4202-2 ■ D41-5 ■ ■ 0
GenIV
6.0
1450
1613
1203
140
140
15
1750
6SR4202-2 ■ D41-7 ■ ■ 0
GenIV
6.0
1540
1750
1306
148
200
15
1750
6SR4202-2 ■ E41-7 ■ ■ 0
GenIV
6.0
1760
2000
1492
169
200
15
2000
6SR4202-2 ■ E42-0 ■ ■ 0
GenIV
6.0
1980
2250
1679
190
200
15
2250
6SR4202-2 ■ E42-2 ■ ■ 0
GenIV
6.0
2075
2363
1763
200
200
15
2500
6SR4202-2 ■ E42-5 ■ ■ 0
GenIV
6.0
2200
2500
1865
212
260
15
2500
6SR4202-2 ■ F42-5 ■ ■ 0
GenIV
6.0
2640
3000
2238
254
260
15
3000
6SR4202-2 ■ F43-0 ■ ■ 0
GenIV
6.0
2700
3073
2292
260
260
15
3500
6SR4202-2 ■ F43-5 ■ ■ 0
GenIV
6.0
3080
3500
2611
296
315
15
3500
6SR3202-5 ■ G43-5■ ■ 0
GenIIIe
6.0
3270
3722
2777
315
315
15
4000
6SR3202-5 ■ G44-0■ ■ 0
GenIIIe
6.0
3520
4000
2984
338
375
15
4000
6SR3202-5 ■ H44-0 ■ ■ 0
GenIIIe
6.0
3895
4432
3306
375
375
15
5000
6SR3202-5 ■ H45-0 ■ ■ 0
GenIIIe
6.0
4400
5000
3730
423
500
15
5000
6SR3202-5 ■ J45-0 ■ ■ 0
GenIIIe
6.0
5195
5909
4408
500
500
15
6000
6SR3202-5 ■ J46-0 ■ ■ 0
GenIIIe
6.0
5280
6000
4476
508
660
15
6000
6SR3202-5 ■ K46-0 ■ ■ 0
GenIIIe
6.0
6160
7000
5222
592
660
15
7000
6SR3202-5 ■ K47-0 ■ ■ 0
GenIIIe
6.0
6550
7445
5554
630
660
15
8000
6SR3202-5 ■ K48-0 ■ ■ 0
GenIIIe
6.0
7040
8000
5968
677
720
18
8000
6SR3202-7 ■ L48-0 ■ ■ 0
GenIIIe
For order number supplements see pages 2/15 to 2/17
1)
The specifications for the typical motor current and the power data in hp
and kW are approximate values only; these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor
efficiency. Both approximate values have to be adapted to the motor that is
actually used.
Siemens D 15.2 · 2011
2/13
2
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
Selection and ordering data
■ Selection and ordering data (continued)
Motor voltage 6.6 kV
2
Motor
voltage
Type rating Shaft
output 1)
Shaft
output 1)
Typical
motor
current 1)
Power cell
current
kV
kVA
kW
A
A
hp
Number of Transformer Order number
cells
rating
Generation
kVA
6.6
270
300
224
24
40
15
300
6SR4202-2 ■ A33-0 ■ ■ 0
GenIV
6.6
360
400
298
32
40
15
400
6SR4202-2 ■ A34-0 ■ ■ 0
GenIV
6.6
450
500
373
39
40
15
500
6SR4202-2 ■ A35-0 ■ ■ 0
GenIV
6.6
455
507
378
40
40
15
600
6SR4202-2 ■ A36-0 ■ ■ 0
GenIV
6.6
540
600
448
47
70
15
600
6SR4202-2 ■ B36-0 ■ ■ 0
GenIV
6.6
630
700
522
55
70
15
700
6SR4202-2 ■ B37-0 ■ ■ 0
GenIV
6.6
720
800
597
63
70
15
800
6SR4202-2 ■ B38-0 ■ ■ 0
GenIV
6.6
800
887
662
70
70
15
900
6SR4202-2 ■ B38-7 ■ ■ 0
GenIV
6.6
810
900
671
71
100
15
900
6SR4202-2 ■ C38-7 ■ ■ 0
GenIV
6.6
900
1000
746
79
100
15
1000
6SR4202-2 ■ C41-0 ■ ■ 0
GenIV
6.6
1130
1250
933
99
100
15
1250
6SR4202-2 ■ C41-2 ■ ■ 0
GenIV
6.6
1140
1268
946
100
100
15
1500
6SR4202-2 ■ C41-5 ■ ■ 0
GenIV
6.6
1350
1500
1119
118
140
15
1500
6SR4202-2 ■ D41-5 ■ ■ 0
GenIV
6.6
1580
1750
1306
138
140
15
1750
6SR4202-2 ■ D41-7 ■ ■ 0
GenIV
6.6
1600
1775
1324
140
140
15
2000
6SR4202-2 ■ D42-0 ■ ■ 0
GenIV
6.6
1760
2000
1492
154
200
15
2000
6SR4202-2 ■ E42-0 ■ ■ 0
GenIV
6.6
1980
2250
1679
173
200
15
2250
6SR4202-2 ■ E42-2 ■ ■ 0
GenIV
6.6
2200
2500
1865
192
200
15
2500
6SR4202-2 ■ E42-5 ■ ■ 0
GenIV
6.6
2285
2600
1939
200
200
15
3000
6SR4202-2 ■ E43-0 ■ ■ 0
GenIV
6.6
2640
3000
2238
231
260
15
3000
6SR4202-2 ■ F43-0 ■ ■ 0
GenIV
6.6
2970
3380
2521
260
260
15
3500
6SR4202-2 ■ F43-5 ■ ■ 0
GenIV
6.6
3080
3500
2611
269
315
18
3500
6SR3202-7 ■ G43-5■ ■ 0
GenIIIe
6.6
3520
4000
2984
308
315
18
4000
6SR3202-7 ■ G44-0■ ■ 0
GenIIIe
6.6
3600
4095
3055
315
315
18
5000
6SR3202-7 ■ G45-0■ ■ 0
GenIIIe
6.6
4285
4875
3636
375
375
18
5000
6SR3202-7 ■ H45-0 ■ ■ 0
GenIIIe
6.6
4400
5000
3730
385
500
18
5000
6SR3202-7 ■ J45-0 ■ ■ 0
GenIIIe
6.6
5280
6000
4476
462
500
18
6000
6SR3202-7 ■ J46-0 ■ ■ 0
GenIIIe
6.6
5715
6500
4849
500
500
18
7000
6SR3202-7 ■ J47-0 ■ ■ 0
GenIIIe
6.6
6160
7000
5222
539
660
18
7000
6SR3202-7 ■ K47-0 ■ ■ 0
GenIIIe
6.6
7040
8000
5968
615
660
18
8000
6SR3202-7 ■ K48-0 ■ ■ 0
GenIIIe
For order number supplements see pages 2/15 to 2/17
1)
The specifications for the typical motor current and the power data in hp
and kW are approximate values only; these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor
efficiency. Both approximate values have to be adapted to the motor that is
actually used.
2/14
Siemens D 15.2 · 2011
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
Selection and ordering data
■ Selection and ordering data (continued)
Order No. supplements
ROBICON Perfect Harmony drive
1
2
3
4
5
6
7
6
S
R
.
.
.
.
–
8
9
10
11
12
.
■
.
.
.
–
13
14
15
16
.
■
■
.
Generation
Generation 3 (GenIIIe)
3
Generation 4 (GenIV)
4
2
Manufacturing location
Pittsburgh, USA
2
Cooling
Air-cooled
0
Line-side behavior
Basic Infeed ("Direct Front End")
2
Rated max. output voltage
Applies for GenIV
4.0 kV 3 AC, 9 cells
0
5.3 kV 3 AC, 12 cells 1)
1
6.6 kV 3 AC, 15 cells
2
Applies for GenIIIe
3.6 kV 3 AC, 9 cells
1
4.9 kV 3 AC, 12 cells
3
6.1 kV 3 AC, 15 cells
5
7.3 kV 3 AC, 18 cells
7
Primary input voltage
2.4 kV 3 AC
A
3.0 kV 3 AC
B
3.3 kV 3 AC
C
4.16 kV 3 AC
D
4.8 kV 3 AC
E
6.0 kV 3 AC
F
6.3 kV 3 AC
G
6.6 kV 3 AC
H
6.9 kV 3 AC
J
7.2 kV 3 AC
K
8.4 kV 3 AC
L
10.0 kV 3 AC
M
11.0 kV 3 AC
N
12.0 kV 3 AC
P
12.47 kV 3 AC
Q
13.2 kV 3 AC
R
13.8 kV 3 AC
S
Other voltage than standard (on request)
X
1)
Available soon.
Siemens D 15.2 · 2011
2/15
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
Selection and ordering data
■ Selection and ordering data (continued)
Order No. supplements (continued)
ROBICON Perfect Harmony drive
1
2
3
4
5
6
7
6
S
R
.
.
.
.
–
8
9
10
11
12
.
■
.
.
.
–
13
14
15
16
.
■
■
.
Cell rating
2
Applies for GenIV
40 A
A
70 A
B
100 A
C
140 A
D
200 A
E
260 A
F
Applies for GenIIIe
315 A
G
375 A
H
500 A
J
660 A
K
720 A
L
Transformer rating
Other transformer rating than standard
0
0
0
200 kVA
3
2
0
300 kVA
3
3
0
400 kVA
3
4
0
450 kVA
3
4
5
500 kVA
3
5
0
600 kVA
3
6
0
700 kVA
3
7
0
800 kVA
3
8
0
900 kVA
3
8
7
1000 kVA
4
1
0
1100 kVA
4
1
1
1250 kVA
4
1
2
1500 kVA
4
1
5
1750 kVA
4
1
7
2000 kVA
4
2
0
2250 kVA
4
2
2
2500 kVA
4
2
5
3000 kVA
4
3
0
3500 kVA
4
3
5
4000 kVA
4
4
0
4500 kVA
4
4
5
5000 kVA
4
5
0
5500 kVA
4
5
5
6000 kVA
4
6
0
6500 kVA
4
6
5
7000 kVA
4
7
0
7500 kVA
4
7
5
8000 kVA
4
8
0
9000 kVA
4
8
7
2/16
Siemens D 15.2 · 2011
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
Selection and ordering data
■ Selection and ordering data (continued)
Order No. supplements (continued)
ROBICON Perfect Harmony drive
1
2
3
4
5
6
7
6
S
R
.
.
.
.
–
8
9
10
11
12
.
■
.
.
.
–
13
14
15
16
.
■
■
0
Transformer configuration
60 Hz, CU
A
50 Hz, CU
B
60 Hz, AL
E
50 Hz, AL
F
2
Auxiliary voltage
380 V 3 AC, 50/60 Hz
F
400 V 3 AC, 50/60 Hz
G
415 V 3 AC, 50/60 Hz
H
460 V 3 AC, 60 Hz
J
480 V 3 AC, 60 Hz
K
Note: Not all configurations that the above order no. key allows
can be configured. See the selection tables and configuration information for available drive configurations.
Siemens D 15.2 · 2011
2/17
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
Options
■ Options
The tables below list the options available for the drives
(details see chapter 4 description of options):
Option text
Order
code
GenIV GenIIIe
Intermediate arrestors included
N24
–
✓
U10
✓
✓
Availability 1)
ProToPS
Order
code
GenIV GenIIIe
Control voltage supply 4)
Transformer
2
Option text
Cell bypass
U11
✓
✓
Redundant blower
M61
✓
✓
Certifications
Connection for control voltage 220/230 V AC K68
by customer
✓
✓
Control voltage 120 V AC by Siemens
K69
✓
✓
Connection for control voltage 120 V AC by
customer
K79
✓
✓
I/O signal voltage 24 V DC
K73
✓
✓
Controlled outgoing feeder,
230 or 120 V 1 AC, max. 1.2 kW
N35
✓
✓
Control of
auxiliaries 5)
Version with UL listing
U01
✓
✓
Version with CE conformity
U02
✓
✓
Version with CSA certification
U03
✓
✓
Controlled outgoing feeder,
230 or 120 V 1 AC, max. 2.2 kW
N36
✓
✓
Mechanical door interlock – Superior
M08
✓
✓
Controlled outgoing feeder,
230 or 120 V 1 AC, max. 3.5kW
N37
✓
✓
Mechanical door interlock – Kirk
M09
✓
✓
✓
✓
M10
✓
✓
Controlled outgoing feeder,
230 or 120 V 1 AC, max. 4.5kW
N38
Mechanical door interlock – Castell
Mechanical door interlock – Fortress
M38
✓
✓
Power quality monitoring (PQM)
Electrical door interlock
M12
✓
✓
Protection functions 2)
Multilin input power quality meter
A67
–
✓
Serial communication
Multilin output power quality meter
A68
–
✓
Modbus Plus interface
G21
✓
✓
Motor monitoring
Modbus interface
G22
✓
✓
TEC System RTD monitor
A60
–
✓
✓
Multilin 369 motor protection relay
A61
–
✓
Multilin 369 motor protection relay with
metering kit
A62
–
✓
Multilin 469 motor protection relay
A63
–
✓
Motor voltage 2.3 kV
V01
✓
✓
Motor voltage 2.4 kV
V02
✓
✓
Motor voltage 3.0 kV
V03
✓
✓
Motor voltage 3.3 kV
V04
✓
✓
Motor voltage 4.0 kV
V05
✓
✓
Motor voltage 4.16 kV
V06
✓
✓
Motor voltage 4.8 kV
V07
✓
✓
Motor voltage 5.0 kV
V08
✓
✓
Motor voltage 5.5 kV
V09
✓
✓
Motor voltage 6.0 kV
V10
✓
✓
Motor voltage 6.3 kV
V11
✓
✓
Motor voltage 6.6 kV
V12
✓
✓
Motor voltage 6.9 kV
V13
✓
✓
Motor voltage 7.2 kV
V14
✓
✓
DeviceNet interface, profile 12
G23
✓
Control Net interface
G26
✓
✓
Modbus Ethernet interface
G28
✓
✓
Additional Modbus Plus interface
G31
✓
✓
Additional Modbus interface
G32
✓
✓
Additional Modbus Ethernet interface
G38
✓
✓
Additional DeviceNet interface, profile 12
G43
✓
✓
Additional Control Net interface
G46
✓
✓
PROFIBUS DP interface
G91
✓
✓
Additional PROFIBUS DP interface
G93
✓
–
Functional options
Vector control with speed encoder
K50
✓
✓
Output reactor
L09
✓
✓
Bidirectional synchronized transfer
L29
✓
✓
UPS mounted within the drive
L53
–
✓
Control and display instruments in the door 3)
Pushbutton kit
K29
✓
✓
Off-Local-Remote selector
K31
✓
✓
Off-Hand-Auto selector
K32
✓
✓
Keyed Off-Local-Remote selector
K33
✓
✓
Keyed Off-Hand-Auto selector
K34
✓
✓
Motor voltage
1)
Options "availability" U10 and U11 are mutually exclusive.
4)
2)
Options "mechanical door interlock" M08, M09, M10 and M38 are mutually
exclusive. Select one of them. M08 is the preset value.
With options K68, K69 and K79 the power source is defined. Select one of
them. K69 is the preset value.
5)
3)
Options "control and display instruments in the door" K31 to K34 are
mutually exclusive. Select one of them. K31 is the preset value.
Options "control of auxiliaries" N35 to N38 are mutually exclusive. For
GenIV drives, select one of them; the preset value is N35.
2/18
Siemens D 15.2 · 2011
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
Options
■ Options (continued)
Option text
Order
code
GenIV GenIIIe
D00
✓
✓
Circuit diagrams, terminal diagrams and
dimension drawings in DXF format
D02
✓
✓
One set of printed documentation
D15
Documentation in German
Documentation in Russian
1)
Documentation in English
Documentation in Portuguese (Brazil)
Documentation in Chinese
1)
1)
Circuit diagrams with customer-specific
description field
✓
✓
D56
✓
✓
D76
✓
✓
D79
✓
Order
code
✓
D84
✓
✓
Y10
✓
✓
Production schedules 2)
Heat run, unwitnessed, until thermal stability
(but no longer than 8 h)
F04
Heat run, witnessed, until thermal stability
(but no longer than 8 h)
F05
Heat run with RBR, unwitnessed
•
•
•
•
F06
•
•
Heat run with RBR, witnessed
F07
•
•
Calculation of power factor
F12
•
•
Measurement of no-load characteristic and
determination of losses and efficiency,
unwitnessed
F14
•
•
Measurement of no-load characteristic and
determination of losses and efficiency,
witnessed
F15
•
•
•
•
•
•
•
•
•
•
Function test of the drive with inductive load, F72
unwitnessed
•
•
Insulation test of the drive, unwitnessed
•
•
Production schedule: one issue
B43
✓
✓
Production schedule: updated at 2-week
intervals
B44
✓
✓
No-load noise measurement,
without noise analysis, unwitnessed
F28
Production schedule: updated once per month B45
✓
✓
No-load noise measurement,
without noise analysis, witnessed
F29
Measurement of line harmonics,
unwitnessed
F68
Measurement of line harmonics,
witnessed
F69
Nameplate color, texture and
(standard language English)
GenIV GenIIIe
Additional testing options on request 4)
Documentation (standard: PDF format in English on CD-ROM)
1)
Option text
language 3)
White letters with black core
T03
✓
✓
Stainless steel
T04
✓
✓
English/German
T74
✓
✓
English/Portuguese (Brazil)
T82
✓
✓
English/Russian
T85
✓
✓
English/Chinese
T91
✓
✓
Drive acceptance tests in presence of customer
Visual acceptance
F03
✓
✓
Functional acceptance (without motor)
F73
✓
✓
Insulation test
F77
✓
✓
EMC filter
L03
✓
✓
Anti-condensation heating for cabinet
L55
✓
✓
Gland plate, aluminum
M35
–
✓
Gland plate, brass
M36
–
✓
Gland plate, stainless steel
M37
✓
✓
IP42 degree of protection
M42
✓
✓
Drive prepared for duct flange connection in
front
M64
✓
✓
Version for harsh environment conditions
M67
✓
–
Customer-specific nameplate
Y05
✓
✓
Paint finish other than standard
Y09
✓
✓
ESP applications
B09
•
•
Interface check with customer equipment
(5 hours; on request)
F79
•
•
Customer-specific acceptance tests
(on request, without motor)
F97
•
•
Drive prepared for air-to-air heat exchanger
W41
•
•
Sine-wave filter
Y15
•
•
F76
✓
Option available
✓
Option qualifies for (kW)ick Ship program
(see description below)
–
Option not available
•
Option on request
Other options
Options on request 4)
The (kW)ick Ship program
The (kW)ick Ship program enables Siemens Large Drives
Applications and Medium-Voltage Drives (LD AM) to manufacture ROBICON Perfect Harmony GenIV medium-voltage aircooled drives within an impressive 12 week lead time. Based on
a specific set of standard options and a streamlined approach to
engineering and manufacturing we are able to deliver these
drives in a fraction of the time and at a reduced cost.
Note: The following options are coded in the order number
(refer to order No. key)
• Line connection voltage
• Transformer configuration
• Auxiliary voltage
1)
Options "documentation" D00, D56, D79 and D84 are mutually exclusive.
3)
Options "nameplate language" T74 to T91 are mutually exclusive.
2)
Options "production schedules" B43 to B45 are mutually exclusive.
4)
For the following options please contact the factory or your local Siemens
sales representative.
Siemens D 15.2 · 2011
2/19
2
© Siemens AG 2011
ROBICON Perfect Harmony
Air-Cooled Drives
Notes
2
2/20
Siemens D 15.2 · 2011
3
© Siemens AG 2011
Technical Data
3/2
General technical data
3/3
3/3
3/6
3/9
3/13
3/17
3/21
GenIV
Motor voltage 2.3/2.4 kV
Motor voltage 3.3 kV
Motor voltage 4.0/4.16 kV
Motor voltage 4.6/4.8 kV
Motor voltage 6.0 kV
Motor voltage 6.6 kV
3/25
3/25
3/27
3/29
3/31
3/33
3/35
GenIIIe
Motor voltage 2.3/2.4 kV
Motor voltage 3.3 kV
Motor voltage 4.16 kV
Motor voltage 4.6/4.8 kV
Motor voltage 6.0 kV
Motor voltage 6.6 kV
Siemens D 15.2 · 2011
© Siemens AG 2011
Technical Data
General technical data
■ Technical data
General technical data
Power semiconductors
Diodes, IGBTs
Line-side rectifier
18 to 36 pulse diode rectifiers
Motor-side inverter
Multi-level drive (PWM) with IGBT power modules
Drive quadrants
2
Potential separation
(Power section/open- and
closed-loop control)
Fiber-optic cable
Efficiency
Minimum 96 % including transformer, across whole power range
Regulations compliances
IEEE, ANSI, NEMA, CSA, CE and UL
Paint finish
ANSI 61 gray
Degree of protection
• NEMA 1
• IP21 (standard) 1)
• IP42 (optional) 1)
3
Forced-air cooling with integrated blowers
Air cooling
Altitude 2)
ft
m
0 ... 3300 without derating
0 ... 1000 without derating
Refer to table below
Permissible ambient temperature
Storage
Transport
Operation
-5 to +45
-25 to +70
+5 to +40 3)
Relative air humidity
< 95 %
(only slight condensation
permitted; drive must be
completely dry before
commissioning)
< 95 %
(only slight condensation
permitted; drive must be
completely dry before
commissioning)
< 95 %
(condensation not permitted)
Other climatic conditions
in accordance with class
1K3, 1Z2 in acc. with
IEC 60721-3-1
2K2 in acc. with
IEC 60721-3-2
3K3 in acc. with
IEC 60721-3-3
Degree of pollution
2
without conductive pollution
in acc. with IEC 61800-5
2
without conductive pollution
in acc. with IEC 61800-5
2
without conductive pollution
in acc. with IEC 61800-5
3.5 (2 to 9 Hz)
10 (9 to 200 Hz)
15 (200 to 500 Hz)
0.3 (2 to 9 Hz)
1 (9 to 200 Hz)
1M2 in acc. with
IEC 60721-3-1
2M2 in acc. with
IEC 60721-3-2
3M1 in acc. with
IEC 60721-3-3
Biological ambient conditions in
accordance with class
1B1 in acc. with
IEC 60721-3-1
2B1 in acc. with
IEC 60721-3-2
3B1 in acc. with
IEC 60721-3-3
Chemical active substances in
accordance with class
1C1 in acc. with
IEC 60721-3-1
2C1 in acc. with
IEC 60721-3-2
3C1 in acc. with
IEC 60721-3-3
Mechanical active substances in
accordance with class
1S1 in acc. with
IEC 60721-3-1
2S1 in acc. with
IEC 60721-3-2
3S1 (standard) in acc. with
IEC 60721-3-3
Climatic ambient conditions
Ambient temperature
°C
Mechanical ambient conditions
Stationary vibration, sinusoidal
• Displacement
• Acceleration
mm 1.5 (2 to 9 Hz)
m/s2 5 (9 to 200 Hz)
m/s2
Other mechanical conditions in
accordance with class
Other ambient conditions
1)
Acc. to IEC 60529.
2)
For altitudes above 3300 ft (1000 m), please contact the factory or your local Siemens sales representative.
3)
For ambient temperatures above 40 °C, please contact the factory or your local Siemens sales representative.
3/2
Siemens D 15.2 · 2011
© Siemens AG 2011
Technical Data
GenIV
■ Technical data
ROBICON Perfect Harmony
air-cooled drive version
6SR42020.B32-0..0
6SR42020.B33-0..0
6SR42020.B34-0..0
6SR42020.C34-0..0
6SR42020.C34-5..0
4
Motor voltage 2.3/2.4 kV
Max. output voltage
kV
4
4
4
4
Type rating
kVA
180
270
290
360
410
Shaft output 1)
hp
kW
200
149
300
224
323
241
400
298
450
336
Typical motor current 1)
A
43
65
70
87
98
Power cell current
A
70
70
70
100
100
9
9
9
9
9
200
300
400
400
450
Yes
Yes
Yes
Yes
Yes
<6
<7
<9
< 11
< 10
< 12
< 13
< 14
< 14
< 16
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
Cooling air requirement
m3/s
2.2
2.2
2.2
2.2
2.2
CFM
4700
4700
4700
4700
4700
75
75
75
75
75
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
• with copper transformer
• with aluminium transformer
kVA
kVA
3
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 250 MCM
(NEC, CEC)
mm2
1 x 120
(DIN VDE)
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 120
1 x 120
1 x 120
1 x 120
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 250 MCM
(NEC, CEC)
mm2
1 x 120
(DIN VDE)
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 120
1 x 120
1 x 120
1 x 120
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
66
1676
66
1676
66
1676
66
1676
66
1676
• Height
in
mm
102 6)
2590 6)
102 6)
2590 6)
102 6)
2590 6)
102 6)
2590 6)
102 6)
2590 6)
• Depth
in
mm
42
1067
42
1067
42
1067
42
1067
42
1067
A
A
A
A
A
4890
2218
5438
2467
5438
2467
5674
2574
• Dimension drawing 7)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
4352
1974
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Total height with redundant blowers: 110 inch (2794 mm).
7)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
Siemens D 15.2 · 2011
3/3
© Siemens AG 2011
Technical Data
GenIV
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR42020.C35-0..0
6SR42020.D35-0..0
6SR42020.D36-0..0
6SR42020.D37-0..0
6SR42020.E38-0..0
4
Motor voltage 2.3/2.4 kV
Max. output voltage
kV
4
4
4
4
Type rating
kVA
415
450
540
580
700
Shaft output 1)
hp
kW
461
344
500
373
600
448
645
481
800
597
Typical motor current 1)
A
100
108
130
140
169
Power cell current
A
100
140
140
140
200
9
9
9
9
9
500
500
600
700
800
Yes
Yes
Yes
Yes
Yes
< 15
< 17
< 16
< 18
< 19
< 22
< 20
< 23
< 25
< 28
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
Cooling air requirement
m3/s
2.2
2.2
2.2
2.2
3.3
CFM
4700
4700
4700
4700
6900
75
75
75
75
80
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
3
• with copper transformer
• with aluminium transformer
kVA
kVA
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 250 MCM
(NEC, CEC)
mm2
1 x 120
(DIN VDE)
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
2 x 300 MCM
1 x 120
1 x 120
1 x 120
2 x 150
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 250 MCM
(NEC, CEC)
mm2
1 x 120
(DIN VDE)
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 300 MCM
1 x 120
1 x 120
1 x 120
1 x 150
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
66
1676
66
1676
66
1676
66
1676
82
2083
• Height
in
mm
102 6)
2590 6)
102 6)
2590 6)
102 6)
2590 6)
102 6)
2590 6)
119.5
3035
• Depth
in
mm
42
1067
42
1067
42
1067
42
1067
45
1143
A
A
A
A
A
5900
2676
6374
2891
6760
3066
7467
3387
• Dimension drawing 7)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
5900
2676
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Total height with redundant blowers: 110 inch (2794 mm).
7)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
3/4
Siemens D 15.2 · 2011
© Siemens AG 2011
Technical Data
GenIV
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR42020.E38-7..0
6SR42020.E41-0..0
6SR42020.F41-0..0
6SR42020.F41-2..0
4
Motor voltage 2.3/2.4 kV
Max. output voltage
kV
4
4
4
Type rating
kVA
790
830
880
1080
Shaft output 1)
hp
kW
900
671
945
705
1000
746
1229
917
Typical motor current 1)
A
190
200
212
260
Power cell current
A
200
200
260
260
9
9
9
9
Number of cells
900
1000
1000
1250
Yes
Yes
Yes
Yes
< 28
< 32
< 29
< 33
< 31
< 35
< 38
< 43
%
%
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
Cooling air requirement
m3/s
3.3
3.3
3.3
3.3
CFM
6900
6900
6900
6900
80
80
80
80
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
• with copper transformer
• with aluminium transformer
kVA
kVA
3
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 300 MCM
(NEC, CEC)
mm2
2 x 150
(DIN VDE)
2 x 300 MCM
2 x 300 MCM
2 x 300 MCM
2 x 150
2 x 150
2 x 150
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 300 MCM
(NEC, CEC)
mm2
1 x 150
(DIN VDE)
1 x 300 MCM
1 x 300 MCM
1 x 300 MCM
1 x 150
1 x 150
1 x 150
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
82
2083
82
2083
82
2083
82
2083
• Height
in
mm
119.5
3035
119.5
3035
119.5
3035
119.5
3035
• Depth
in
mm
45
1143
45
1143
45
1143
45
1143
A
A
A
A
7973
3616
7973
3616
8245
3740
• Dimension drawing 6)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
7739
3510
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
Siemens D 15.2 · 2011
3/5
© Siemens AG 2011
Technical Data
GenIV
■ Technical data
ROBICON Perfect Harmony
air-cooled drive version
6SR42020.A32-0..0
6SR42020.A33-0..0
6SR42020.B33-0..0
6SR42020.B34-0..0
6SR42020.B34-5..0
6SR42020.C34-5..0
Motor voltage 3.3 kV
Max. output voltage
kV
4
4
4
4
4
4
Type rating
kVA
180
225
270
360
400
410
Shaft output 1)
hp
kW
200
149
254
189
300
224
400
298
444
331
450
336
Typical motor current 1)
A
32
40
47
63
70
71
Power cell current
A
40
40
70
70
70
100
9
9
9
9
9
9
200
300
300
400
450
450
Yes
Yes
Yes
Yes
Yes
Yes
<6
<7
<8
<9
<9
< 11
< 13
< 14
< 14
< 16
< 14
< 16
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
Cooling air requirement
m3/s
2.2
2.2
2.2
2.2
2.2
2.2
CFM
4700
4700
4700
4700
4700
4700
75
75
75
75
75
75
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
3
• with copper transformer
• with aluminium transformer
kVA
kVA
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 250 MCM
(NEC, CEC)
mm2
1 x 120
(DIN VDE)
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 120
1 x 120
1 x 120
1 x 120
1 x 120
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 250 MCM
(NEC, CEC)
mm2
1 x 120
(DIN VDE)
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 120
1 x 120
1 x 120
1 x 120
1 x 120
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
66
1676
66
1676
66
1676
66
1676
66
1676
66
1676
• Height
in
mm
102 6)
2590 6)
102 6)
2590 6)
102 6)
2590 6)
102 6)
2590 6)
102 6)
2590 6)
102 6)
2590 6)
• Depth
in
mm
42
1067
42
1067
42
1067
42
1067
42
1067
42
1067
A
A
A
A
A
A
4890
2218
4890
2218
5438
2467
5674
2574
5674
2574
• Dimension drawing 7)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
4352
1974
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Total height with redundant blowers: 110 inch (2794 mm).
7)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
3/6
Siemens D 15.2 · 2011
© Siemens AG 2011
Technical Data
GenIV
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR42020.C35-0..0
6SR42020.C36-0..0
6SR42020.C37-0..0
6SR42020.D37-0..0
6SR42020.D38-0..0
6SR42020.D38-7..0
Motor voltage 3.3 kV
Max. output voltage
kV
4
4
4
4
4
4
Type rating
kVA
450
540
570
630
720
800
Shaft output 1)
hp
kW
500
373
600
448
634
473
700
522
800
597
887
662
Typical motor current 1)
A
79
95
100
110
126
140
Power cell current
A
100
100
100
140
140
140
9
9
9
9
9
9
500
600
700
700
800
900
Yes
Yes
Yes
Yes
Yes 6)
Yes 7)
< 16
< 18
< 19
< 22
< 20
< 23
< 22
< 25
< 25
< 29
< 28
< 32
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
Cooling air requirement
m3/s
2.2
2.2
2.2
2.2
2.2
2.2
CFM
4700
4700
4700
4700
4700
4700
75
75
75
75
75
75
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
• with copper transformer
• with aluminium transformer
kVA
kVA
3
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 250 MCM
(NEC, CEC)
1 x 120
mm2
(DIN VDE)
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 120
1 x 120
1 x 120
1 x 120
1 x 120
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 250 MCM
(NEC, CEC)
1 x 120
mm2
(DIN VDE)
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 120
1 x 120
1 x 120
1 x 120
1 x 120
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
66
1676
66
1676
66
1676
66
1676
66
1676
66
1676
• Height
in
mm
102 8)
2590 8)
102 8)
2590 8)
102 8)
2590 8)
102 8)
2590 8)
102 8)
2590 8)
102 8)
2590 8)
• Depth
in
mm
42
1067
42
1067
42
1067
42
1067
42
1067
42
1067
A
A
A
A
A
A
6374
2891
6760
3066
6760
3066
7108
3224
7467
3387
• Dimension drawing 9)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
5900
2676
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Not available for 50 Hz transformers with primary voltages > 7200 V.
7)
Not available for 50 or 60 Hz transformers with primary voltages > 7200 V.
8)
Total height with redundant blowers: 110 inch (2794 mm).
9)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
Siemens D 15.2 · 2011
3/7
© Siemens AG 2011
Technical Data
GenIV
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR42020.E41-0..0
6SR42020.E41-1..0
6SR42020.E41-2..0
6SR42020.E41-5..0
6SR42020.F41-5..0
6SR42020.F41-7..0
Motor voltage 3.3 kV
Max. output voltage
kV
4
4
4
4
4
4
Type rating
kVA
880
970
1100
1140
1320
1485
Shaft output 1)
hp
kW
1000
746
1100
821
1250
933
1300
970
1500
1119
1690
1261
Typical motor current 1)
A
154
169
192
200
231
260
Power cell current
A
200
200
200
200
260
260
9
9
9
9
9
9
1000
1100
1250
1500
1500
1750
Yes 6)
Yes 6)
Yes
Yes
Yes
Yes
< 31
< 35
< 34
< 39
< 39
< 44
< 40
< 46
< 46
< 53
< 52
< 59
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
Cooling air requirement
m3/s
3.3
3.3
3.3
3.3
3.3
3.3
CFM
6900
6900
6900
6900
6900
6900
80
80
80
80
80
80
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
3
• with copper transformer
• with aluminium transformer
kVA
kVA
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 300 MCM
(NEC, CEC)
mm2
2 x 150
(DIN VDE)
2 x 300 MCM
2 x 300 MCM
2 x 300 MCM
2 x 300 MCM
2 x 300 MCM
2 x 150
2 x 150
2 x 150
2 x 150
2 x 150
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 300 MCM
(NEC, CEC)
mm2
1 x 150
(DIN VDE)
1 x 300 MCM
1 x 300 MCM
1 x 300 MCM
1 x 300 MCM
1 x 300 MCM
1 x 150
1 x 150
1 x 150
1 x 150
1 x 150
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
82
2083
82
2083
82
2083
82
2083
82
2083
82
2083
• Height
in
mm
119.5
3035
119.5
3035
119.5
3035
119.5
3035
119.5
3035
119.5
3035
• Depth
in
mm
45
1143
45
1143
45
1143
45
1143
45
1143
45
1143
A
A
A
A
A
A
8109
3678
8245
3740
8517
3863
8517
3863
8789
3987
• Dimension drawing 7)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
7973
3616
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Not available for 50 or 60 Hz transformers with primary voltages > 7200 V.
7)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
3/8
Siemens D 15.2 · 2011
© Siemens AG 2011
Technical Data
GenIV
■ Technical data
ROBICON Perfect Harmony
air-cooled drive version
6SR42020.A32-0..0
6SR42020.A33-0..0
6SR42020.A34-0..0
6SR42020.B34-0..0
6SR42020.B34-5..0
4
Motor voltage 4.0/4.16 kV
Max. output voltage
kV
4
4
4
4
Type rating
kVA
180
270
275
360
410
Shaft output 1)
hp
kW
200
149
300
224
307
229
400
298
450
336
Typical motor current 1)
A
26
39
40
52
59
Power cell current
A
40
40
40
70
70
9
9
9
9
9
200
300
400
400
450
Yes
Yes
Yes
Yes
Yes
<6
<7
<9
< 11
< 10
< 11
< 13
< 14
< 14
< 16
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
Cooling air requirement
m3/s
2.2
2.2
2.2
2.2
2.2
CFM
4700
4700
4700
4700
4700
75
75
75
75
75
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
• with copper transformer
• with aluminium transformer
kVA
kVA
3
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 250 MCM
(NEC, CEC)
mm2
1 x 120
(DIN VDE)
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 120
1 x 120
1 x 120
1 x 120
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 250 MCM
(NEC, CEC)
mm2
1 x 120
(DIN VDE)
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 120
1 x 120
1 x 120
1 x 120
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
66
1676
66
1676
66
1676
66
1676
66
1676
• Height
in
mm
102 6)
2590 6)
102 6)
2590 6)
102 6)
2590 6)
102 6)
2590 6)
102 6)
2590 6)
• Depth
in
mm
42
1067
42
1067
42
1067
42
1067
42
1067
A
A
A
A
A
4890
2218
5438
2467
5438
2467
5674
2574
• Dimension drawing 7)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
4352
1974
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Total height with redundant blowers: 110 inch (2794 mm).
7)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
Siemens D 15.2 · 2011
3/9
© Siemens AG 2011
Technical Data
GenIV
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR42020.B35-0..0
6SR42020.B36-0..0
6SR42020.C36-0..0
6SR42020.C37-0..0
6SR42020.C38-0..0
4
Motor voltage 4.0/4.16 kV
Max. output voltage
kV
4
4
4
4
Type rating
kVA
450
480
540
630
690
Shaft output 1)
hp
kW
500
373
538
401
600
448
700
522
768
573
Typical motor current 1)
A
65
70
78
91
100
Power cell current
A
70
70
100
100
100
9
9
9
9
9
500
600
600
700
800
Yes
Yes
Yes
Yes
Yes 6)
< 16
< 18
< 17
< 19
< 19
< 22
< 22
< 25
< 24
< 28
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
Cooling air requirement
m3/s
2.2
2.2
2.2
2.2
2.2
CFM
4700
4700
4700
4700
4700
75
75
75
75
75
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
3
• with copper transformer
• with aluminium transformer
kVA
kVA
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 250 MCM
(NEC, CEC)
mm2
1 x 120
(DIN VDE)
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 120
1 x 120
1 x 120
1 x 120
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 250 MCM
(NEC, CEC)
1 x 120
mm2
(DIN VDE)
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 120
1 x 120
1 x 120
1 x 120
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
66
1676
66
1676
66
1676
66
1676
66
1676
• Height
in
mm
102 7)
2590 7)
102 7)
2590 7)
102 7)
2590 7)
102 7)
2590 7)
102 7)
2590 7)
• Depth
in
mm
42
1067
42
1067
42
1067
42
1067
42
1067
A
A
A
A
A
6374
2891
6374
2891
6760
3066
7108
3224
• Dimension drawing 8)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
5900
2676
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Not available for 50 Hz transformers with primary voltages > 7200 V.
7)
Total height with redundant blowers: 110 inch (2794 mm).
8)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
3/10
Siemens D 15.2 · 2011
© Siemens AG 2011
Technical Data
GenIV
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR42020.D38-0..0
6SR42020.D38-7..0
6SR42020.D41-0..0
6SR42020.D41-1..0
6SR42020.E41-2..0
4
Motor voltage 4.0/4.16 kV
Max. output voltage
kV
4
4
4
4
Type rating
kVA
720
810
900
965
1100
Shaft output 1)
hp
kW
800
597
900
671
1000
746
1075
802
1250
933
Typical motor current 1)
A
104
117
130
140
159
Power cell current
A
140
140
140
140
200
9
9
9
9
9
800
900
1000
1100
1250
Yes 6)
Yes 7)
Yes 7)
Yes 7)
Yes
< 25
< 29
< 28
< 32
< 32
< 36
< 34
< 39
< 39
< 44
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
Cooling air requirement
m3/s
2.2
2.2
2.2
2.2
3.3
CFM
4700
4700
4700
4700
6900
75
75
75
75
80
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
• with copper transformer
• with aluminium transformer
kVA
kVA
3
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 250 MCM
(NEC, CEC)
1 x 120
mm2
(DIN VDE)
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
2 x 300 MCM
1 x 120
1 x 120
1 x 120
2 x 150
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 250 MCM
(NEC, CEC)
1 x 120
mm2
(DIN VDE)
1 x 250 MCM
1 x 250 MCM
1 x 250 MCM
1 x 300 MCM
1 x 120
1 x 120
1 x 120
1 x 150
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
66
1676
66
1676
66
1676
66
1676
82
2083
• Height
in
mm
102 8)
2590 8)
102 8)
2590 8)
102 8)
2590 8)
102 8)
2590 8)
119.5
3035
• Depth
in
mm
42
1067
42
1067
42
1067
42
1067
45
1143
A
A
A
A
A
7467
3387
7739
3510
7973
3616
8245
3740
• Dimension drawing 9)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
7108
3224
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Not available for 50 Hz transformers with primary voltages > 7200 V.
7)
Not available for 50 or 60 Hz transformers with primary voltages > 7200 V.
8)
Total height with redundant blowers: 110 inch (2794 mm).
9)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
Siemens D 15.2 · 2011
3/11
© Siemens AG 2011
Technical Data
GenIV
■ Technical data (continued)
6SR42020.E41-5..0
ROBICON Perfect Harmony
air-cooled drive version
6SR42020.E41-7..0
6SR42020.F41-7..0
6SR42020.F42-0..0
6SR42020.F42-2..0
Motor voltage 4.0/4.16 kV
Max. output voltage
kV
4
4
4
4
4
Type rating
kVA
1320
1385
1540
1760
1800
Shaft output 1)
hp
kW
1500
1119
1576
1175
1750
1306
2000
1492
2048
1528
Typical motor current 1)
A
190
200
222
254
260
Power cell current
A
200
200
260
260
260
9
9
9
9
9
1500
1750
1750
2000
2250
Yes
Yes
Yes
Yes 6)
Yes 7)
< 46
< 53
< 48
< 55
< 54
< 62
< 62
< 70
< 63
< 72
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
< 1.5
<3
<4
<7
Cooling air requirement
m3/s
3.3
3.3
3.3
3.3
3.3
CFM
6900
6900
6900
6900
6900
80
80
80
80
80
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
3
• with copper transformer
• with aluminium transformer
kVA
kVA
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 300 MCM
(NEC, CEC)
mm2
2 x 150
(DIN VDE)
2 x 300 MCM
2 x 300 MCM
2 x 300 MCM
2 x 300 MCM
2 x 150
2 x 150
2 x 150
2 x 150
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 300 MCM
(NEC, CEC)
1 x 150
mm2
(DIN VDE)
1 x 300 MCM
1 x 300 MCM
1 x 300 MCM
1 x 300 MCM
1 x 150
1 x 150
1 x 150
1 x 150
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
82
2083
82
2083
82
2083
82
2083
82
2083
• Height
in
mm
119.5
3035
119.5
3035
119.5
3035
119.5
3035
119.5
3035
• Depth
in
mm
45
1143
45
1143
45
1143
45
1143
45
1143
A
A
A
A
A
8789
3987
8789
3987
9061
4110
9333
4233
• Dimension drawing 8)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
8517
3863
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Not available for 50 Hz transformers with primary voltages > 6900 V.
7)
Not available for 60 Hz transformers with primary voltages > 6900 V. Not available for 50 Hz transformers.
8)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
3/12
Siemens D 15.2 · 2011
© Siemens AG 2011
Technical Data
GenIV
■ Technical data
ROBICON Perfect Harmony
air-cooled drive version
6SR42021.A33-0..0 6)
6SR42021.A34-0..0 6)
6SR42021.B34-0..0 6)
6SR42021.B35-0..0 6)
6SR42021.B36-0..0 6)
5.3
Motor voltage 4.6/4.8 kV
Max. output voltage
kV
5.3
5.3
5.3
5.3
Type rating
kVA
270
330
360
450
540
Shaft output 1)
hp
kW
300
224
369
275
400
298
500
373
600
448
Typical motor current 1)
A
33
40
43
54
65
Power cell current
A
40
40
70
70
70
12
12
12
12
12
Number of cells
300
400
400
500
600
Yes
Yes
Yes
Yes
Yes
<9
< 11
< 12
< 13
< 13
< 14
< 16
< 18
< 19
< 22
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
Cooling air requirement
m3/s
4.8
4.8
4.8
4.8
4.8
CFM
10250
10250
10250
10250
10250
80
80
80
80
80
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
• with copper transformer
• with aluminium transformer
kVA
kVA
3
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 300 MCM
(NEC, CEC)
mm2
2 x 150
(DIN VDE)
2 x 300 MCM
2 x 300 MCM
2 x 300 MCM
2 x 300 MCM
2 x 150
2 x 150
2 x 150
2 x 150
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 300 MCM
(NEC, CEC)
mm2
1 x 150
(DIN VDE)
1 x 300 MCM
1 x 300 MCM
1 x 300 MCM
1 x 300 MCM
1 x 150
1 x 150
1 x 150
1 x 150
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
114
2896
114
2896
114
2896
114
2896
114
2896
• Height
in
mm
118
2997
118
2997
118
2997
118
2997
118
2997
• Depth
in
mm
45
1143
45
1143
45
1143
45
1143
45
1143
B
B
B
B
B
8292
3762
8292
3762
8692
3943
9158
4154
• Dimension drawing 7)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
7926
3595
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Available soon.
7)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
Siemens D 15.2 · 2011
3/13
© Siemens AG 2011
Technical Data
GenIV
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR42021.B37-0..0 6)
6SR42021.C37-0..0 6)
6SR42021.C38-0..0 6)
6SR42021.C38-7..0 6)
6SR42021.C41-0..0 6)
5.3
Motor voltage 4.6/4.8 kV
Max. output voltage
kV
5.3
5.3
5.3
5.3
Type rating
kVA
580
630
720
810
830
Shaft output 1)
hp
kW
645
481
700
522
800
597
900
671
922
688
Typical motor current 1)
A
70
76
87
98
100
Power cell current
A
70
100
100
100
100
12
12
12
12
12
700
700
800
900
1000
Yes
Yes
Yes
Yes
Yes
< 20
< 23
< 22
< 25
< 25
< 29
< 28
< 32
< 29
< 33
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
Cooling air requirement
m3/s
4.8
4.8
4.8
4.8
4.8
CFM
10250
10250
10250
10250
10250
80
80
80
80
80
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
3
• with copper transformer
• with aluminium transformer
kVA
kVA
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 300 MCM
(NEC, CEC)
mm2
2 x 150
(DIN VDE)
2 x 300 MCM
2 x 300 MCM
2 x 300 MCM
2 x 300 MCM
2 x 150
2 x 150
2 x 150
2 x 150
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 300 MCM
(NEC, CEC)
mm2
1 x 150
(DIN VDE)
1 x 300 MCM
1 x 300 MCM
1 x 300 MCM
1 x 300 MCM
1 x 150
1 x 150
1 x 150
1 x 150
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
114
2896
114
2896
114
2896
114
2896
114
2896
• Height
in
mm
118
2997
118
2997
118
2997
118
2997
118
2997
• Depth
in
mm
45
1143
45
1143
45
1143
45
1143
45
1143
B
B
B
B
B
9458
4290
9858
4472
10324
4683
10824
4910
• Dimension drawing 7)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
9458
4290
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Available soon.
7)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
3/14
Siemens D 15.2 · 2011
© Siemens AG 2011
Technical Data
GenIV
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR42021.D41-0..0 6)
6SR42021.D41-2..0 6)
6SR42021.D41-5..0 6)
6SR42021.E41-5..0 6)
6SR42021.E41-7..0 6)
5.3
Motor voltage 4.6/4.8 kV
Max. output voltage
kV
5.3
5.3
5.3
5.3
Type rating
kVA
900
1130
1160
1320
1540
Shaft output 1)
hp
kW
1000
746
1250
933
1291
963
1500
1119
1750
1306
Typical motor current 1)
A
108
136
140
159
185
Power cell current
A
140
140
140
200
200
12
12
12
12
12
1000
1250
1500
1500
1750
Yes
Yes
Yes
Yes
Yes
< 32
< 36
< 40
< 45
< 41
< 46
< 46
< 53
< 54
< 62
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
Cooling air requirement
m3/s
4.8
4.8
4.8
4.8
4.8
CFM
10250
10250
10250
10250
10250
80
80
80
80
80
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
• with copper transformer
• with aluminium transformer
kVA
kVA
3
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 300 MCM
(NEC, CEC)
mm2
2 x 150
(DIN VDE)
2 x 300 MCM
2 x 300 MCM
2 x 300 MCM
2 x 300 MCM
2 x 150
2 x 150
2 x 150
2 x 150
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 300 MCM
(NEC, CEC)
mm2
1 x 150
(DIN VDE)
1 x 300 MCM
1 x 300 MCM
1 x 300 MCM
1 x 300 MCM
1 x 150
1 x 150
1 x 150
1 x 150
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
114
2896
114
2896
114
2896
114
2896
114
2896
• Height
in
mm
118
2997
118
2997
118
2997
118
2997
118
2997
• Depth
in
mm
45
1143
45
1143
45
1143
45
1143
45
1143
B
B
B
B
B
11736
5324
12436
5641
12436
5641
13036
5913
• Dimension drawing 7)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
10824
4910
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Available soon.
7)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
Siemens D 15.2 · 2011
3/15
© Siemens AG 2011
Technical Data
GenIV
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR42021.E42-0..0 6)
6SR42021.F42-0..0 6)
6SR42021.F42-2..0 6)
6SR42021.F42-5..0 6)
Motor voltage 4.6/4.8 kV
Max. output voltage
kV
5.3
5.3
5.3
5.3
Type rating
kVA
1660
1760
1980
2160
Shaft output 1)
hp
kW
1891
1411
2000
1492
2250
1679
2458
1834
Typical motor current 1)
A
200
212
238
260
Power cell current
A
200
260
260
260
12
12
12
12
2000
2000
2250
2500
Yes
Yes
Yes
Yes
< 58
< 66
< 62
< 70
< 69
< 79
< 76
< 86
%
%
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
Cooling air requirement
m3/s
4.8
4.8
4.8
4.8
CFM
10250
10250
10250
10250
80
80
80
80
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
3
• with copper transformer
• with aluminium transformer
kVA
kVA
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 300 MCM
(NEC, CEC)
mm2
2 x 150
(DIN VDE)
2 x 300 MCM
2 x 300 MCM
2 x 300 MCM
2 x 150
2 x 150
2 x 150
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 1 x 300 MCM
(NEC, CEC)
mm2
1 x 150
(DIN VDE)
1 x 300 MCM
1 x 300 MCM
1 x 300 MCM
1 x 150
1 x 150
1 x 150
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
114
2896
114
2896
114
2896
114
2896
• Height
in
mm
118
2997
118
2997
118
2997
118
2997
• Depth
in
mm
45
1143
45
1143
45
1143
45
1143
B
B
B
B
13436
6095
14453
6556
14853
6738
• Dimension drawing 7)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
13436
6095
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Available soon.
7)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
3/16
Siemens D 15.2 · 2011
© Siemens AG 2011
Technical Data
GenIV
■ Technical data
6SR42022.A33-0..0
ROBICON Perfect Harmony
air-cooled drive version
6SR42022.A34-0..0
6SR42022.A35-0..0
6SR42022.B35-0..0
6SR42022.B36-0..0
6SR42022.B37-0..0
Motor voltage 6.0 kV
Max. output voltage
kV
6.6
6.6
6.6
6.6
6.6
6.6
Type rating
kVA
270
360
415
450
540
630
Shaft output 1)
hp
kW
300
224
400
298
461
344
500
373
600
448
700
522
Typical motor current 1)
A
26
35
40
43
52
61
Power cell current
A
40
40
40
70
70
70
15
15
15
15
15
15
kVA
300
400
500
500
600
700
Yes
Yes
Yes
Yes
Yes
Yes
<9
< 11
< 13
< 14
< 15
< 17
< 16
< 18
< 19
< 22
< 22
< 25
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
Cooling air requirement
m3/s
4.5
4.5
4.5
4.5
4.5
4.5
CFM
9500
9500
9500
9500
9500
9500
82
82
82
82
82
82
Number of cells
Transformer rating
Aluminium transformer available
Power losses of drive system
• with copper transformer
• with aluminium transformer
kVA
kVA
3
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 500 MCM
(NEC, CEC)
mm2
2 x 240
(DIN VDE)
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 240
2 x 240
2 x 240
2 x 240
2 x 240
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 500 MCM
(NEC, CEC)
mm2
2 x 240
(DIN VDE)
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 240
2 x 240
2 x 240
2 x 240
2 x 240
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
164
4166
164
4166
164
4166
164
4166
164
4166
164
4166
• Height
in
mm
115.2
2926
115.2
2926
115.2
2926
115.2
2926
115.2
2926
115.2
2926
• Depth
in
mm
45
1143
45
1143
45
1143
45
1143
45
1143
45
1143
C
C
C
C
C
C
7330
3325
7580
3438
7580
3438
7790
3533
8320
3774
• Dimension drawing 6)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
6980
3166
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
Siemens D 15.2 · 2011
3/17
© Siemens AG 2011
Technical Data
GenIV
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR42022.B38-0..0
6SR42022.B38-7..0
6SR42022.C38-7..0
6SR42022.C41-0..0
6SR42022.C41-2..0
6.6
Motor voltage 6.0 kV
Max. output voltage
kV
6.6
6.6
6.6
6.6
Type rating
kVA
720
725
810
900
1035
Shaft output 1)
hp
kW
800
597
807
602
900
671
1000
746
1152
860
Typical motor current 1)
A
69
70
78
87
100
Power cell current
A
70
70
100
100
100
15
15
15
15
15
800
900
900
1000
1250
Yes
Yes
Yes
Yes
Yes
< 25
< 29
< 25
< 29
< 28
< 32
< 32
< 36
< 36
< 41
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
Cooling air requirement
m3/s
4.5
4.5
4.5
4.5
5
CFM
9500
9500
9500
9500
10600
82
82
82
82
82
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
3
• with copper transformer
• with aluminium transformer
kVA
kVA
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 500 MCM
(NEC, CEC)
mm2
2 x 240
(DIN VDE)
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 240
2 x 240
2 x 240
2 x 240
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 500 MCM
(NEC, CEC)
mm2
2 x 240
(DIN VDE)
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 240
2 x 240
2 x 240
2 x 240
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
164
4166
164
4166
164
4166
164
4166
164
4166
• Height
in
mm
115.2
2926
115.2
2926
115.2
2926
115.2
2926
115.2
2926
• Depth
in
mm
45
1143
45
1143
45
1143
45
1143
45
1143
C
C
C
C
C
9080
4119
9080
4119
9530
4323
11225
5092
• Dimension drawing 6)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
8530
3869
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
3/18
Siemens D 15.2 · 2011
© Siemens AG 2011
Technical Data
GenIV
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR42022.D41-2..0
6SR42022.D41-5..0
6SR42022.D41-7..0
6SR42022.E41-7..0
6SR42022.E42-0..0
6.6
Motor voltage 6.0 kV
Max. output voltage
kV
6.6
6.6
6.6
6.6
Type rating
kVA
1130
1350
1450
1540
1760
Shaft output 1)
hp
kW
1250
933
1500
1119
1613
1203
1750
1306
2000
1492
Typical motor current 1)
A
108
130
140
148
169
Power cell current
A
140
140
140
200
200
15
15
15
15
15
1250
1500
1750
1750
2000
Yes
Yes
Yes
Yes
Yes
< 40
< 45
< 47
< 54
< 51
< 58
< 54
< 62
< 62
< 70
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
Cooling air requirement
m3/s
5
5
5
5.6
5.6
CFM
10600
10600
10600
11900
11900
80
80
80
78
78
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
• with copper transformer
• with aluminium transformer
kVA
kVA
3
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 500 MCM
(NEC, CEC)
mm2
2 x 240
(DIN VDE)
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 240
2 x 240
2 x 240
2 x 240
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 500 MCM
(NEC, CEC)
mm2
2 x 240
(DIN VDE)
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 240
2 x 240
2 x 240
2 x 240
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
164
4166
164
4166
164
4166
164
4166
164
4166
• Height
in
mm
115.2
2926
115.2
2926
115.2
2926
115.2
2926
115.2
2926
• Depth
in
mm
45
1143
45
1143
45
1143
45
1143
45
1143
C
C
C
C
C
11575
5250
13275
6021
13275
6021
13905
6307
• Dimension drawing 6)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
11225
5092
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
Siemens D 15.2 · 2011
3/19
© Siemens AG 2011
Technical Data
GenIV
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR42022.E42-2..0
6SR42022.E42-5..0
6SR42022.F42-5..0
6SR42022.F43-0..0
6SR42022.F43-5..0
6.6
Motor voltage 6.0 kV
Max. output voltage
kV
6.6
6.6
6.6
6.6
Type rating
kVA
1980
2075
2200
2640
2700
Shaft output 1)
hp
kW
2250
1679
2363
1763
2500
1865
3000
2238
3073
2292
Typical motor current 1)
A
190
200
212
254
260
Power cell current
A
200
200
260
260
260
15
15
15
15
15
2250
2500
2500
3000
3500
Yes
Yes
Yes
Yes
No
< 69
< 79
< 73
< 83
< 77
< 88
< 92
< 106
< 95
–
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
–
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
Cooling air requirement
m3/s
6.4
6.4
6.4
6.4
6.4
CFM
13600
13600
13600
13600
13600
80
80
80
80
80
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
3
• with copper transformer
• with aluminium transformer
kVA
kVA
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 500 MCM
(NEC, CEC)
mm2
2 x 240
(DIN VDE)
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 240
2 x 240
2 x 240
2 x 240
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 500 MCM
(NEC, CEC)
mm2
2 x 240
(DIN VDE)
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 240
2 x 240
2 x 240
2 x 240
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
164
4166
164
4166
164
4166
164
4166
164
4166
• Height
in
mm
115.2
2926
115.2
2926
115.2
2926
115.2
2926
115.2
2926
• Depth
in
mm
45
1143
45
1143
45
1143
45
1143
45
1143
C
C
C
C
C
15565
7060
15565
7060
16685
7568
18250
8278
• Dimension drawing 6)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
14925
6770
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
3/20
Siemens D 15.2 · 2011
© Siemens AG 2011
Technical Data
GenIV
■ Technical data
6SR42022.A33-0..0
ROBICON Perfect Harmony
air-cooled drive version
6SR42022.A34-0..0
6SR42022.A35-0..0
6SR42022.A36-0..0
6SR42022.B36-0..0
6SR42022.B37-0..0
Motor voltage 6.6 kV
Max. output voltage
kV
6.6
6.6
6.6
6.6
6.6
6.6
Type rating
kVA
270
360
450
455
540
630
Shaft output 1)
hp
kW
300
224
400
298
500
373
507
378
600
448
700
522
Typical motor current 1)
A
24
32
39
40
47
55
Power cell current
A
40
40
40
40
70
70
15
15
15
15
15
15
kVA
300
400
500
600
600
700
Yes
Yes
Yes
Yes
Yes
Yes
<9
< 11
< 13
< 14
< 16
< 18
< 16
< 18
< 19
< 22
< 22
< 25
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
Cooling air requirement
m3/s
4.5
4.5
4.5
4.5
4.5
4.5
CFM
9500
9500
9500
9500
9500
9500
82
82
82
82
82
82
Number of cells
Transformer rating
Aluminium transformer available
Power losses of drive system
• with copper transformer
• with aluminium transformer
kVA
kVA
3
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 500 MCM
(NEC, CEC)
mm2
2 x 240
(DIN VDE)
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 240
2 x 240
2 x 240
2 x 240
2 x 240
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 500 MCM
(NEC, CEC)
mm2
2 x 240
(DIN VDE)
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 240
2 x 240
2 x 240
2 x 240
2 x 240
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
164
4166
164
4166
164
4166
164
4166
164
4166
164
4166
• Height
in
mm
115.2
2926
115.2
2926
115.2
2926
115.2
2926
115.2
2926
115.2
2926
• Depth
in
mm
45
1143
45
1143
45
1143
45
1143
45
1143
45
1143
C
C
C
C
C
C
7330
3325
7580
3438
7790
3533
7790
3533
8320
3774
• Dimension drawing 6)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
6980
3166
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
Siemens D 15.2 · 2011
3/21
© Siemens AG 2011
Technical Data
GenIV
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR42022.B38-0..0
6SR42022.B38-7..0
6SR42022.C38-7..0
6SR42022.C41-0..0
6SR42022.C41-2..0
6.6
Motor voltage 6.6 kV
Max. output voltage
kV
6.6
6.6
6.6
6.6
Type rating
kVA
720
800
810
900
1130
Shaft output 1)
hp
kW
800
597
887
662
900
671
1000
746
1250
933
Typical motor current 1)
A
63
70
71
79
99
Power cell current
A
70
70
100
100
100
15
15
15
15
15
800
900
900
1000
1250
Yes
Yes
Yes
Yes
Yes
< 25
< 29
< 28
< 32
< 28
< 32
< 32
< 36
< 40
< 45
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
Cooling air requirement
m3/s
4.5
4.5
4.5
4.5
5
CFM
9500
9500
9500
9500
10600
82
82
82
82
80
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
3
• with copper transformer
• with aluminium transformer
kVA
kVA
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 500 MCM
(NEC, CEC)
mm2
2 x 240
(DIN VDE)
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 240
2 x 240
2 x 240
2 x 240
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 500 MCM
(NEC, CEC)
mm2
2 x 240
(DIN VDE)
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 240
2 x 240
2 x 240
2 x 240
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
164
4166
164
4166
164
4166
164
4166
164
4166
• Height
in
mm
115.2
2926
115.2
2926
115.2
2926
115.2
2926
115.2
2926
• Depth
in
mm
45
1143
45
1143
45
1143
45
1143
45
1143
C
C
C
C
C
9080
4119
9080
4119
9530
4323
11225
5092
• Dimension drawing 6)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
8530
3869
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
3/22
Siemens D 15.2 · 2011
© Siemens AG 2011
Technical Data
GenIV
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR42022.C41-5..0
6SR42022.D41-5..0
6SR42022.D41-7..0
6SR42022.D42-0..0
6SR42022.E42-0..0
6.6
Motor voltage 6.6 kV
Max. output voltage
kV
6.6
6.6
6.6
6.6
Type rating
kVA
1140
1350
1580
1600
1760
Shaft output 1)
hp
kW
1268
946
1500
1119
1750
1306
1775
1324
2000
1492
Typical motor current 1)
A
100
118
138
140
154
Power cell current
A
100
140
140
140
200
15
15
15
15
15
1500
1500
1750
2000
2000
Yes
Yes
Yes
Yes
Yes
< 40
< 46
< 47
< 54
< 55
< 63
< 56
< 64
< 62
< 70
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
Cooling air requirement
m3/s
5
5
5
5
5.6
CFM
10600
10600
10600
10600
11900
80
80
80
80
78
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
• with copper transformer
• with aluminium transformer
kVA
kVA
3
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 500 MCM
(NEC, CEC)
mm2
2 x 240
(DIN VDE)
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 240
2 x 240
2 x 240
2 x 240
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 500 MCM
(NEC, CEC)
mm2
2 x 240
(DIN VDE)
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 240
2 x 240
2 x 240
2 x 240
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
164
4166
164
4166
164
4166
164
4166
164
4166
• Height
in
mm
115.2
2926
115.2
2926
115.2
2926
115.2
2926
115.2
2926
• Depth
in
mm
45
1143
45
1143
45
1143
45
1143
45
1143
C
C
C
C
C
11575
5250
13275
6021
13905
6307
13905
6307
• Dimension drawing 6)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
11575
5250
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
Siemens D 15.2 · 2011
3/23
© Siemens AG 2011
Technical Data
GenIV
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR42022.E42-2..0
6SR42022.E42-5..0
6SR42022.E43-0..0
6SR42022.F43-0..0
6SR42022.F43-5..0
6.6
Motor voltage 6.6 kV
Max. output voltage
kV
6.6
6.6
6.6
6.6
Type rating
kVA
1980
2200
2285
2640
2970
Shaft output 1)
hp
kW
2250
1679
2500
1865
2600
1939
3000
2238
3380
2521
Typical motor current 1)
A
173
192
200
231
260
Power cell current
A
200
200
200
260
260
15
15
15
15
15
2250
2500
3000
3000
3500
Yes
Yes
Yes
Yes
No
< 69
< 79
< 77
< 88
< 80
< 91
< 92
< 106
< 104
–
%
%
96.5
96
96.5
96
96.5
96
96.5
96
96.5
–
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
< 1.5
<3
<8
< 11
Cooling air requirement
m3/s
6.4
6.4
6.4
6.4
6.4
CFM
13600
13600
13600
13600
13600
78
78
78
78
78
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
3
• with copper transformer
• with aluminium transformer
kVA
kVA
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 500 MCM
(NEC, CEC)
mm2
2 x 240
(DIN VDE)
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 240
2 x 240
2 x 240
2 x 240
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 500 MCM
(NEC, CEC)
mm2
2 x 240
(DIN VDE)
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 500 MCM
2 x 240
2 x 240
2 x 240
2 x 240
2/0 AWG
2/0 AWG
2/0 AWG
2/0 AWG
70
70
70
70
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 2/0 AWG
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
70
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet)
• Width
in
mm
164
4166
164
4166
164
4166
164
4166
164
4166
• Height
in
mm
115.2
2926
115.2
2926
115.2
2926
115.2
2926
115.2
2926
• Depth
in
mm
45
1143
45
1143
45
1143
45
1143
45
1143
C
C
C
C
C
15565
7060
16685
7568
16685
7568
18250
8278
• Dimension drawing 6)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
14925
6770
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- GenIV derives single-phase control power from a built-in CPT as standard
- For GenIV, single-phase control power can be fed directly by the customer as an option (K68)
- CPT is an option in other systems.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Please refer to page 5/13 for dimension drawings. The letters A to D refer to the particular drawing.
3/24
Siemens D 15.2 · 2011
© Siemens AG 2011
Technical Data
GenIIIe
■ Technical data
6SR32021.G41-7..0
ROBICON Perfect Harmony
air-cooled drive version
6SR32021.H41-7..0
6SR32021.H42-0..0
6SR32021.J42-0..0
Motor voltage 2.3/2.4 kV
Max. output voltage
kV
3.6
3.6
3.6
3.6
Type rating
kVA
1305
1540
1555
1760
Shaft output 1)
hp
kW
1489
1111
1750
1306
1773
1322
2000
1492
Typical motor current 1)
A
315
370
375
423
Power cell current
A
315
375
375
500
9
9
9
9
Number of cells
1750
1750
2000
2000
Yes
Yes
Yes
Yes
< 46
< 52
< 54
< 62
< 54
< 62
< 62
< 70
%
%
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
Cooling air requirement
m3/s
7.1
7.1
7.1
7.1
CFM
15000
15000
15000
15000
80
80
80
80
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
• with copper transformer
• with aluminium transformer
kVA
kVA
3
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
1000 MCM
1000 MCM
1000 MCM
500
500
500
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 1000 MCM
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
500
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet) 6)
• Width
in
mm
172
4369
172
4369
172
4369
172
4369
• Height
in
mm
117
2972
117
2972
117
2972
117
2972
• Depth
in
mm
50
1270
50
1270
50
1270
50
1270
D
D
D
D
23600
10727
23600
10727
23600
10727
• Dimension drawing 7)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
23600
10727
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- CPT is an option.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
If aluminum transformer is selected drive dimensions may change.
7)
Please refer to page 5/14 for dimension drawings. The letters A to D refer to the particular drawing.
Siemens D 15.2 · 2011
3/25
© Siemens AG 2011
Technical Data
GenIIIe
■ Technical data (continued)
6SR32021.J42-2..0
ROBICON Perfect Harmony
air-cooled drive version
6SR32021.J42-5..0
6SR32021.K42-5..0
6SR32021.K43-0..0
Motor voltage 2.3/2.4 kV
Max. output voltage
kV
3.6
3.6
3.6
3.6
Type rating
kVA
1980
2075
2200
2620
Shaft output 1)
hp
kW
2250
1679
2363
1763
2500
1865
2978
2222
Typical motor current 1)
A
476
500
529
630
Power cell current
A
500
500
660
660
9
9
9
9
Number of cells
2250
2500
2500
3000
Yes
Yes
Yes
Yes
< 69
< 79
< 73
< 83
< 77
< 88
< 92
< 106
%
%
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
Cooling air requirement
m3/s
7.1
7.1
7.1
7.1
CFM
15000
15000
15000
15000
80
80
80
80
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
3
• with copper transformer
• with aluminium transformer
kVA
kVA
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
1000 MCM
1000 MCM
1000 MCM
500
500
500
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 1000 MCM
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
500
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet) 6)
• Width
in
mm
172
4369
188
4775
188
4775
188
4775
• Height
in
mm
117
2972
118
2997
118
2997
118
2997
• Depth
in
mm
50
1270
50
1270
50
1270
50
1270
D
D
D
D
26800
12182
26800
12182
26800
12182
• Dimension drawing 7)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
23600
10727
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- CPT is an option.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
If aluminum transformer is selected drive dimensions may change.
7)
Please refer to page 5/14 for dimension drawings. The letters A to D refer to the particular drawing.
3/26
Siemens D 15.2 · 2011
© Siemens AG 2011
Technical Data
GenIIIe
■ Technical data
ROBICON Perfect Harmony
air-cooled drive version
6SR32021.G41-7..0
6SR32021.G42-0..0
6SR32021.G42-2..0
6SR32021.H42-2..0
6SR32021.H42-5..0
3.6
Motor voltage 3.3 kV
Max. output voltage
kV
3.6
3.6
3.6
3.6
Type rating
kVA
1540
1760
1800
1980
2140
Shaft output 1)
hp
kW
1750
1306
2000
1492
2047
1527
2250
1679
2437
1818
Typical motor current 1)
A
269
308
315
346
375
Power cell current
A
315
315
315
375
375
9
9
9
9
9
1750
2000
2250
2250
2500
Yes
Yes
Yes
Yes
Yes
< 54
< 62
< 62
< 70
< 63
< 72
< 69
< 79
< 75
< 86
%
%
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
Cooling air requirement
m3/s
7.1
7.1
7.1
7.1
7.1
CFM
15000
15000
15000
15000
15000
80
80
80
80
80
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
• with copper transformer
• with aluminium transformer
kVA
kVA
3
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
2 x 500
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
2 x 500
1000 MCM
1000 MCM
1000 MCM
1000 MCM
500
500
500
500
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 1000 MCM
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
500
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet) 6)
• Width
in
mm
172
4369
172
4369
172
4369
172
4369
188
4775
• Height
in
mm
117
2972
117
2972
117
2972
117
2972
118
2997
• Depth
in
mm
50
1270
50
1270
50
1270
50
1270
50
1270
D
D
D
D
D
23600
10727
23600
10727
23600
10727
26800
12182
• Dimension drawing 7)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
23600
10727
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- CPT is an option.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
If aluminum transformer is selected drive dimensions may change.
7)
Please refer to page 5/14 for dimension drawings. The letters A to D refer to the particular drawing.
Siemens D 15.2 · 2011
3/27
© Siemens AG 2011
Technical Data
GenIIIe
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR32021.J42-5..0
6SR32021.J43-0..0
6SR32021.J43-5..0
6SR32021.K43-5..0
3.6
Motor voltage 3.3 kV
Max. output voltage
kV
3.6
3.6
3.6
Type rating
kVA
2200
2640
2855
3080
Shaft output 1)
hp
kW
2500
1865
3000
2238
3250
2424
3500
2611
Typical motor current 1)
A
385
462
500
539
Power cell current
A
500
500
500
660
9
9
9
9
2500
3000
3500
3500
Yes
Yes
Yes
Yes
< 77
< 88
< 92
< 106
< 100
< 114
< 108
< 123
%
%
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
Cooling air requirement
m3/s
7.1
7.1
7.1
7.1
CFM
15000
15000
15000
15000
80
80
80
80
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
3
• with copper transformer
• with aluminium transformer
kVA
kVA
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
1000 MCM
1000 MCM
1000 MCM
500
500
500
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 1000 MCM
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
500
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet) 6)
• Width
in
mm
188
4775
188
4775
188
4775
188
4775
• Height
in
mm
118
2997
118
2997
118
2997
118
2997
• Depth
in
mm
50
1270
50
1270
50
1270
50
1270
D
D
D
D
26800
12182
26800
12182
26800
12182
• Dimension drawing 7)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
26800
12182
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- CPT is an option.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
If aluminum transformer is selected drive dimensions may change.
7)
Please refer to page 5/14 for dimension drawings. The letters A to D refer to the particular drawing.
3/28
Siemens D 15.2 · 2011
© Siemens AG 2011
Technical Data
GenIIIe
■ Technical data
6SR32023.G42-2..0
ROBICON Perfect Harmony
air-cooled drive version
6SR32023.G42-5..0
6SR32023.G43-0..0
6SR32023.H43-0..0
6SR32023.H43-5..0
6SR32023.J43-5..0
Motor voltage 4.16 kV
Max. output voltage
kV
4.9
4.9
4.9
4.9
4.9
4.9
Type rating
kVA
1980
2200
2265
2640
2700
3080
Shaft output 1)
hp
kW
2250
1679
2500
1865
2581
1925
3000
2238
3073
2292
3500
2611
Typical motor current 1)
A
275
305
315
366
375
427
Power cell current
A
315
315
315
375
375
500
12
12
12
12
12
12
kVA
2250
2500
3000
3000
3500
3500
Yes
Yes
Yes
Yes
Yes
Yes
< 69
< 79
< 77
< 88
< 79
< 91
< 92
< 106
< 95
< 108
< 108
< 123
%
%
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
Cooling air requirement
m3/s
8.5
8.5
8.5
8.5
8.5
8.5
CFM
18000
18000
18000
18000
18000
18000
80
80
80
80
80
80
Number of cells
Transformer rating
Aluminium transformer available
Power losses of drive system
• with copper transformer
• with aluminium transformer
kVA
kVA
3
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM 2 x 1000 MCM 2 x 1000 MCM 2 x 1000 MCM 2 x 1000 MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
2 x 500
2 x 500
2 x 500
2 x 500
2 x 500
(DIN VDE)
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM 2 x 1000 MCM 2 x 1000 MCM 2 x 1000 MCM 2 x 1000 MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
2 x 500
2 x 500
2 x 500
2 x 500
2 x 500
(DIN VDE)
• PE connection, max. connec- AWG/MCM 1000 MCM
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
500
(DIN VDE)
NEMA1/IP21
Degree of protection
1000 MCM
1000 MCM
1000 MCM
1000 MCM
1000 MCM
500
500
500
500
500
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
Drive dimensions (cell cabinet and transformer cabinet) 6)
• Width
in
mm
192
4877
208
5283
208
5283
208
5283
208
5283
208
5283
• Height
in
mm
117
2972
118
2997
118
2997
118
2997
118
2997
118
2997
• Depth
in
mm
50
1270
50
1270
50
1270
50
1270
50
1270
50
1270
D
D
D
D
D
D
28800
13091
28800
13091
28800
13091
28800
13091
28800
13091
• Dimension drawing 7)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
25600
11636
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- CPT is an option.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
If aluminum transformer is selected drive dimensions may change.
7)
Please refer to page 5/14 for dimension drawings. The letters A to D refer to the particular drawing.
Siemens D 15.2 · 2011
3/29
© Siemens AG 2011
Technical Data
GenIIIe
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR32023.J44-0..0
6SR32023.J45-0..0
6SR32023.K45-0..0
6SR32023.K46-0..0
6SR32023.L46-0..0
4.4
Motor voltage 4.16 kV
Max. output voltage
kV
4.9
4.9
4.9
4.9
Type rating
kVA
3520
3600
4400
4540
5185
Shaft output 1)
hp
kW
4000
2984
4097
3056
5000
3730
5162
3851
5899
4401
Typical motor current 1)
A
488
500
610
630
720
Power cell current
A
500
500
660
660
720
12
12
12
12
12
4000
5000
5000
6000
6000
Yes
Yes
Yes
Yes
Yes
< 123
< 141
< 126
< 144
< 154
< 176
< 159
< 182
< 181
< 207
%
%
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
Cooling air requirement
m3/s
8.5
8.5
8.5
8.5
8.5
CFM
18000
18000
18000
18000
18000
80
80
80
80
80
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
3
• with copper transformer
• with aluminium transformer
kVA
kVA
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
2 x 500
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
2 x 500
1000 MCM
1000 MCM
1000 MCM
1000 MCM
500
500
500
500
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 1000 MCM
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
500
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet) 6)
• Width
in
mm
208
5283
232
5893
232
5893
232
5893
232
5893
• Height
in
mm
118
2997
120
3048
120
3048
120
3048
120
3048
• Depth
in
mm
50
1270
50
1270
50
1270
50
1270
50
1270
D
D
D
D
D
33700
15318
33700
15318
33700
15318
33700
15318
• Dimension drawing 7)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
28800
13091
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- CPT is an option.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
If aluminum transformer is selected drive dimensions may change.
7)
Please refer to page 5/14 for dimension drawings. The letters A to D refer to the particular drawing.
3/30
Siemens D 15.2 · 2011
© Siemens AG 2011
Technical Data
GenIIIe
■ Technical data
ROBICON Perfect Harmony
air-cooled drive version
6SR32023.G42-5..0
6SR32023.G43-0..0
6SR32023.H43-0..0
6SR32023.H43-5..0
6SR32023.H44-0..0
4.9
Motor voltage 4.6/4.8 kV
Max. output voltage
kV
4.9
4.9
4.9
4.9
Type rating
kVA
2200
2615
2640
3080
3115
Shaft output 1)
hp
kW
2500
1865
2978
2222
3000
2238
3500
2611
3545
2645
Typical motor current 1)
A
264
315
317
370
375
Power cell current
A
315
315
375
375
375
12
12
12
12
12
2500
3000
3000
3500
4000
Yes
Yes
Yes
Yes
Yes
< 77
< 88
< 92
< 105
< 92
< 106
< 108
< 123
< 109
< 125
%
%
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
Cooling air requirement
m3/s
8.5
8.5
8.5
8.5
8.5
CFM
18000
18000
18000
18000
18000
80
80
80
80
80
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
• with copper transformer
• with aluminium transformer
kVA
kVA
3
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
2 x 500
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
2 x 500
1000 MCM
1000 MCM
1000 MCM
1000 MCM
500
500
500
500
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 1000 MCM
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
500
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet) 6)
• Width
in
mm
208
5283
208
5283
208
5283
208
5283
208
5283
• Height
in
mm
118
2997
118
2997
118
2997
118
2997
118
2997
• Depth
in
mm
50
1270
50
1270
50
1270
50
1270
50
1270
D
D
D
D
D
28800
13091
28800
13091
28800
13091
28800
13091
• Dimension drawing 7)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
28800
13091
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- CPT is an option.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
If aluminum transformer is selected drive dimensions may change.
7)
Please refer to page 5/14 for dimension drawings. The letters A to D refer to the particular drawing.
Siemens D 15.2 · 2011
3/31
© Siemens AG 2011
Technical Data
GenIIIe
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR32023.J44-0..0
6SR32023.J45-0..0
6SR32023.K45-0..0
6SR32023.K46-0..0
4.9
Motor voltage 4.6/4.8 kV
Max. output voltage
kV
4.9
4.9
4.9
Type rating
kVA
3520
4155
4400
5240
Shaft output 1)
hp
kW
4000
2984
4727
3526
5000
3730
5956
4443
Typical motor current 1)
A
423
500
529
630
Power cell current
A
500
500
660
660
12
12
12
12
4000
5000
5000
6000
Yes
Yes
Yes
Yes
< 123
< 141
< 145
< 166
< 154
< 176
< 183
< 210
%
%
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
Cooling air requirement
m3/s
8.5
8.5
8.5
8.5
CFM
18000
18000
18000
18000
80
80
80
80
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
3
• with copper transformer
• with aluminium transformer
kVA
kVA
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
1000 MCM
1000 MCM
1000 MCM
500
500
500
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 1000 MCM
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
500
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet) 6)
• Width
in
mm
208
5283
232
5893
232
5893
232
5893
• Height
in
mm
118
2997
120
3048
120
3048
120
3048
• Depth
in
mm
50
1270
50
1270
50
1270
50
1270
D
D
D
D
33700
15318
33700
15318
33700
15318
• Dimension drawing 7)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
28800
13091
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- CPT is an option.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
If aluminum transformer is selected drive dimensions may change.
7)
Please refer to page 5/14 for dimension drawings. The letters A to D refer to the particular drawing.
3/32
Siemens D 15.2 · 2011
© Siemens AG 2011
Technical Data
GenIIIe
■ Technical data
ROBICON Perfect Harmony
air-cooled drive version
6SR32025.G43-5..0
6SR32025.G44-0..0
6SR32025.H44-0..0
6SR32025.H45-0..0
6SR32025.J45-0..0
6.1
Motor voltage 6.0 kV
Max. output voltage
kV
6.1
6.1
6.1
6.1
Type rating
kVA
3080
3270
3520
3895
4400
Shaft output 1)
hp
kW
3500
2611
3722
2777
4000
2984
4432
3306
5000
3730
Typical motor current 1)
A
296
315
338
375
423
Power cell current
A
315
315
375
375
500
15
15
15
15
15
3500
4000
4000
5000
5000
Yes
Yes
Yes
Yes
Yes
< 108
< 123
< 114
< 131
< 123
< 141
< 136
< 156
< 154
< 176
%
%
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
Cooling air requirement
m3/s
11.8
11.8
11.8
11.8
11.8
CFM
25000
25000
25000
25000
25000
80
80
80
80
80
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
• with copper transformer
• with aluminium transformer
kVA
kVA
3
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
2 x 500
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
2 x 500
1000 MCM
1000 MCM
1000 MCM
1000 MCM
500
500
500
500
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 1000 MCM
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
500
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet) 6)
• Width
in
mm
248
6299
248
6299
248
6299
272
6909
272
6909
• Height
in
mm
120
3048
120
3048
120
3048
120
3048
120
3048
• Depth
in
mm
54
1372
54
1372
54
1372
54
1372
54
1372
D
D
D
D
D
28900
13136
28900
13136
33800
15363
33800
15363
• Dimension drawing 7)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
28900
13136
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- CPT is an option.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
If aluminum transformer is selected drive dimensions may change.
7)
Please refer to page 5/14 for dimension drawings. The letters A to D refer to the particular drawing.
Siemens D 15.2 · 2011
3/33
© Siemens AG 2011
Technical Data
GenIIIe
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR32025.J46-0..0
6SR32025.K46-0..0
6SR32025.K47-0..0
6SR32025.K48-0..0
6SR32027.L48-0..0
6.7
Motor voltage 6.0 kV
Max. output voltage
kV
6.1
6.1
6.1
6.1
Type rating
kVA
5195
5280
6160
6550
7040
Shaft output 1)
hp
kW
5909
4408
6000
4476
7000
5222
7445
5554
8000
5968
Typical motor current 1)
A
500
508
592
630
677
Power cell current
A
500
660
660
660
720
15
15
15
15
18
6000
6000
7000
8000
8000
Yes
Yes
Yes
6)
6)
< 182
< 208
< 185
< 211
< 216
< 246
< 229
< 262
< 246
< 282
%
%
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
Cooling air requirement
m3/s
11.8
11.8
11.8
11.8
13.2
CFM
25000
25000
25000
25000
28000
80
80
80
80
80
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
3
• with copper transformer
• with aluminium transformer
kVA
kVA
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
2 x 500
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
2 x 500
1000 MCM
1000 MCM
1000 MCM
1000 MCM
500
500
500
500
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 1000 MCM
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
500
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet) 7)
• Width
in
mm
272
6909
272
6909
272
6909
272
6909
272
6909
• Height
in
mm
120
3048
120
3048
128
3251
128
3251
128
3251
• Depth
in
mm
54
1372
54
1372
54
1372
54
1372
54
1372
D
D
D
D
D
33800
15363
39400
17909
39400
17909
39400
17909
• Dimension drawing 8)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
33800
15363
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- CPT is an option.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Please contact the factory or your local Siemens sales representative.
7)
If aluminum transformer is selected drive dimensions may change.
8)
Please refer to page 5/14 for dimension drawings. The letters A to D refer to the particular drawing.
3/34
Siemens D 15.2 · 2011
© Siemens AG 2011
Technical Data
GenIIIe
■ Technical data
ROBICON Perfect Harmony
air-cooled drive version
6SR32027.G43-5..0
6SR32027.G44-0..0
6SR32027.G45-0..0
6SR32027.H45-0..0
6SR32027.J45-0..0
7.3
Motor voltage 6.6 kV
Max. output voltage
kV
7.3
7.3
7.3
7.3
Type rating
kVA
3080
3520
3600
4285
4400
Shaft output 1)
hp
kW
3500
2611
4000
2984
4095
3055
4875
3636
5000
3730
Typical motor current 1)
A
269
308
315
375
385
Power cell current
A
315
315
315
375
500
18
18
18
18
18
3500
4000
5000
5000
5000
Yes
Yes
Yes
Yes
Yes
< 108
< 123
< 123
< 141
< 126
< 144
< 150
< 171
< 154
< 176
%
%
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
Cooling air requirement
m3/s
13.2
13.2
13.2
13.2
13.2
CFM
28000
28000
28000
28000
28000
80
80
80
80
80
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
• with copper transformer
• with aluminium transformer
kVA
kVA
3
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
2 x 500
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
2 x 500
1000 MCM
1000 MCM
1000 MCM
1000 MCM
500
500
500
500
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 1000 MCM
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
500
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet) 6)
• Width
in
mm
248
6299
248
6299
272
6909
272
6909
272
6909
• Height
in
mm
120
3048
120
3048
120
3048
120
3048
120
3048
• Depth
in
mm
54
1372
54
1372
54
1372
54
1372
54
1372
D
D
D
D
D
28900
13136
33800
15363
33800
15363
33800
15363
• Dimension drawing 7)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
28900
13136
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- CPT is an option.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
If aluminum transformer is selected drive dimensions may change.
7)
Please refer to page 5/14 for dimension drawings. The letters A to D refer to the particular drawing.
Siemens D 15.2 · 2011
3/35
© Siemens AG 2011
Technical Data
GenIIIe
■ Technical data (continued)
ROBICON Perfect Harmony
air-cooled drive version
6SR32027.J46-0..0
6SR32027.J47-0..0
6SR32027.K47-0..0
6SR32027.K48-0..0
7.3
Motor voltage 6.6 kV
Max. output voltage
kV
7.3
7.3
7.3
Type rating
kVA
5280
5715
6160
7040
Shaft output 1)
hp
kW
6000
4476
6500
4849
7000
5222
8000
5968
Typical motor current 1)
A
462
500
539
615
Power cell current
A
500
500
660
660
18
18
18
18
6000
7000
7000
8000
Yes
Yes
Yes
6)
< 185
< 211
< 200
< 229
< 216
< 246
< 246
< 282
%
%
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
> 96.5
> 96
• Single-phase w/o options 3)
• Single-phase w/ all options 3)
• Three-phase w/o CPT 4)
• Three-phase w/ CPT and all
options 4)
kVA
kVA
kVA
kVA
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
< 1.5
<3
< 16
< 19
Cooling air requirement
m3/s
13.2
13.2
13.2
13.2
CFM
28000
28000
28000
28000
80
80
80
80
Number of cells
Transformer rating
kVA
Aluminium transformer available
Power losses of drive system
3
• with copper transformer
• with aluminium transformer
kVA
kVA
Efficiency Pout/Pin 2) of drive system
• with copper transformer
• with aluminium transformer
Auxiliary supply
Sound pressure level LpA (1 m) dB
Power cabling cross sections
• Cable cross-sections,
line-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
• Cable cross-sections,
motor-side, max. connectable
per phase with M10 screw 5)
preliminary
AWG/MCM 2 x 1000 MCM
(NEC, CEC)
mm2
2 x 500
(DIN VDE)
2 x 1000 MCM
2 x 1000 MCM
2 x 1000 MCM
2 x 500
2 x 500
2 x 500
1000 MCM
1000 MCM
1000 MCM
500
500
500
NEMA1/IP21
NEMA1/IP21
NEMA1/IP21
• PE connection, max. connec- AWG/MCM 1000 MCM
tion cross-section at enclosure (NEC, CEC)
with M12 screw 5) preliminary mm2
500
(DIN VDE)
NEMA1/IP21
Degree of protection
Drive dimensions (cell cabinet and transformer cabinet) 7)
• Width
in
mm
272
6909
272
6909
272
6909
272
6909
• Height
in
mm
120
3048
128
3251
128
3251
128
3251
• Depth
in
mm
54
1372
54
1372
54
1372
54
1372
D
D
D
D
39400
17909
39400
17909
39400
17909
• Dimension drawing 8)
Drive weight (cell cabinet and transformer cabinet)
• Weight
lb
kg
33800
15363
1)
The specifications for the typical motor current and the power data in hp and kW are approximate values only; these have been calculated for operation with
induction motors and for a typical power factor cos ϕ and motor efficiency. Both approximate values have to be adapted to the motor that is actually used.
2)
Values at 100 % of rated speed and torque; includes drive and input transformer.
3)
120/240 V AC for NXGII control
- CPT is an option.
4)
Includes cooling blowers/pumps; largest unit shown.
5)
Maximum installable size per phase.
6)
Please contact the factory or your local Siemens sales representative.
7)
If aluminum transformer is selected drive dimensions may change.
8)
Please refer to page 5/14 for dimension drawings. The letters A to D refer to the particular drawing.
3/36
Siemens D 15.2 · 2011
4
© Siemens AG 2011
Description of Options
4/2
4/2
4/2
4/2
4/2
4/2
4/3
4/4
4/5
4/5
4/5
4/6
4/6
4/6
4/7
4/7
4/7
4/7
4/7
4/8
4/8
4/8
4/8
4/8
4/8
4/9
4/9
4/9
4/9
4/9
4/9
4/9
4/9
4/10
4/10
4/10
4/10
4/10
Options
A60 to A63 Motor monitoring
A67, A68 Power quality monitoring
B09 Electrical submersible pumps
applications (on request)
B43 to B45 Production schedules
D00 to D84 Documentation
F03 to F97 Drive acceptance tests in
presence of customer
G21 to G93 Serial communication
K29 to K34 Control and display
instruments in the door
K50 Vector control with speed encoder
K68 to K79 Auxiliary and control voltage
supply
L03 EMC filter
L09 Output reactor
L29 Bidirectional synchronized transfer
L53 UPS mounted within the drive
L55 Anti-condensation heating for
cabinet
M08 to M10 and M38 Mechanical door
interlocks
M12 Electrical door interlocks
M35 to M37 Gland plates
M42 IP42 degree of protection
M61 Redundant blower
M64 Drive prepared for duct flange
connection in front
M67 Version for harsh environment
conditions
N24 Intermediate arrestors included
N35 to N38 Controlled outgoing feeder
for auxiliaries 230 V 1 AC or 120 V 1 AC
T03, T04 Nameplate color and texture
T74 to T91 Nameplate languages
U01 Version with UL listing
U02 Version with CE conformity
U03 Version with CSA certification
U10 ProToPS
U11 Cell bypass
V01 to V14 Motor voltages
W41 Drive prepared for air-to-air heat
exchanger
Y05 Customer-specific nameplate
Y09 Paint finish other than standard
Y10 Circuit diagrams with customerspecific description field
Y15 Sine-wave filter (on request)
Siemens D 15.2 · 2011
© Siemens AG 2011
Description of Options
Description of options
■ Options
In the following you find a detailed description of the options. To
easily find the required order code and its associated parameters, the descriptions are sorted alphabetically by order codes
in the paragraphs below.
Code D00 D02 D15 D56 D76 D79 D84
Documentation in German
D00
Circuit diagrams, terminal
diagrams and dimension
drawings in DXF format,
(English only)
D02
✓
One set of printed
documentation
D15
✓
✓
Documentation in Russian
D56
–
✓
✓
Multilin 369 motor protection relay with metering kit
Motor protection/management relay with 12-channel RTD
monitoring plus motor voltage and current capabilities
installed
Documentation in English
D76
✓
✓
✓
✓
Documentation in
Portuguese (Brazil)
D79
–
✓
✓
–
✓
Multilin 469 motor protection relay
Full featured high-end motor protection/management relay
with miscellaneous sensors monitoring capability installed
Documentation in Chinese
D84
–
✓
✓
–
✓
Note: The options A60 to A63 are mutually exclusive.
Select one of them.
Option Description
A60
TEC System RTD monitor
Basic 8-channel RTD monitor
A61
Multilin 369 motor protection relay
Motor protection/management relay with only 12-channel RTD
monitoring capability installed
A63
4
Mutually exclusive options D00 to D84
Documentation
(standard: PDF format in
English on CD-ROM)
A60 to A63
Motor monitoring
A62
D00 to D84
Documentation
A67 to A69
Power quality monitoring
Option Description
A67
Multilin input power quality meter
Multilin power quality meter installed at the input of the drive
A68
Multilin output power quality meter
Multilin power quality meter installed at the output of the drive
✓
Options can be combined
–
Options are mutually exclusive
✓
✓
–
✓
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
✓
✓
–
–
The standard documentation is supplied in English on CD-ROM.
The circuit diagrams/terminal diagrams are available only in
English.
Note: Please contact the factory or your local Siemens sales representative for documentation in a language different from the
ones specified below.
Option Description
D00
Documentation in German
With order code D00, the documentation is supplied in
German on CD-ROM.
D02
Circuit diagrams, terminal diagrams and dimension
drawings in DXF format (English only)
Documents such as circuit diagrams, terminal diagrams, the
arrangement diagram and the dimension drawing can be
ordered with order code D02 in DXF format, e.g. for use in
AutoCAD systems.
D15
One set of printed documentation (multiple orders
possible)
If documentation is also required on paper, this must be
ordered using order code D15.
D56
Documentation in Russian
With order code D56, the documentation is supplied in
Russian on CD-ROM.
D76
Documentation in English
If a documentation language other than English is selected
(options D00 or D56 to D84), an additional CD-ROM with
documentation in English as second documentation language
can be ordered using order code D76.
Note: If option D15 (one set of printed documentation) is
selected simultaneously, the printed documentation will be
delivered in the first documentation language only.
D79
Documentation in Portuguese (Brazil)
With order code D79, the documentation is supplied in
Portuguese on CD-ROM.
D84
Documentation in Chinese
With order code D84, the documentation is supplied in
Chinese on CD-ROM.
B09
Electrical submersible pumps applications (on request)
For details please contact the factory or your local Siemens
sales representative.
B43 to B45
Production schedules
Mutually exclusive options B43 to B45
Production schedules
Code B43 B44 B45
Production schedule:
one issue
B43
Production schedule:
updated at 2-week intervals
B44
–
Production schedule:
updated once per month
B45
–
–
–
–
–
–
Options are mutually exclusive
The options B43 to B45 provide production schedule documents. These are sent via E-Mail as PDF file in English after order
clarification.
Option Description
B43
Production schedule: one issue
B44
Production schedule: updated at 2-week intervals
B45
Production schedule: updated once per month
4/2
Siemens D 15.2 · 2011
© Siemens AG 2011
Description of Options
Description of options
■ Options (continued)
Additional testing options
F03 to F97
Drive acceptance tests in presence of customer
Option Description
Mutually exclusive options F03 to F97
F04
Heat run, unwitnessed
F05
Heat run, witnessed
F06
Heat run with RBR, unwitnessed
F07
Heat run with RBR, witnessed
F12
Calculation of power factor, unwitnessed
F14
Measurement of no-load characteristic and determination of
losses and efficiency, unwitnessed
F15
Measurement of no-load characteristic and determination of
losses and efficiency, witnessed
F28
No-load noise measurement, without noise analysis,
unwitnessed
F29
No-load noise measurement, without noise analysis,
witnessed
Options can be combined
F68
Measurement of line harmonics, unwitnessed
Options are mutually exclusive
F69
Measurement of line harmonics, witnessed
F72
Function test of converter with inductive load, unwitnessed
F76
Insulation test of the converter, unwitnessed
Drive acceptance tests in
presence of customer
Code F03 F73 F77 F79 F97
Visual acceptance of the drive
F03
–
–
Functional acceptance
(without motor)
F73
–
Insulation test
F77
–
✓
Interface check of the drive with
customer equipment (on request)
F79
–
✓
–
Customer-specific acceptance
(on request, without motor)
F97
–
–
–
✓
–
✓
–
–
✓
–
–
–
–
–
Option Description
F03
Visual acceptance
Open doors/panels; inspection of drive before shipping
F73
Functional acceptance (without motor)
Visual acceptance; functional test with inductive load, cooling
system validation.
Option F73 includes option F03 (visual acceptance).
Note: For 6.6 kV drives, the power limit at 2.6 MVA causes the
following restriction:
Either full voltage testing (at reduced current) or full current
testing (at reduced voltage) is possible, but not both at the
same time.
F77
Insulation test
The following is included in the scope of the acceptance tests:
• High-voltage test
• The insulation resistance is measured
The insulation test can only be ordered in connection with
option F73 (functional acceptance).
F79
Interface check with customer equipment (5 hours,
on request)
For details please contact the factory or your local Siemens
sales representative.
F97
Customer-specific acceptance (on request, without motor)
For details please contact the factory or your local Siemens
sales representative.
4
Siemens D 15.2 · 2011
4/3
© Siemens AG 2011
Description of Options
Description of options
■ Options (continued)
Various serial communication interfaces can be optionally
selected (no more than two total).
G21 to G93
Serial communication
Mutually exclusive options G21 to G93
Option Description
Serial communication
G21
Modbus Plus interface
Note: If a second Modbus Plus interface is required, select
options G21 and G31.
G22
Modbus interface
Software activation of the interface; available without
additional hardware
Note: If a second Modbus interface is required, select options
G22 and G32.
G23
DeviceNet interface, profile 12
Note: If a second DeviceNet interface is required, select
options G23 and G43.
G26
Control Net interface
Note: If a second Control Net interface is required, select
options G26 and G46.
G28
Modbus Ethernet interface
Software activation of the interface; available without
additional hardware
Note: If a second Modbus Ethernet interface is required, select
options G28 and G38.
G31
Additional Modbus Plus interface
Code
G G G G G G G G G G G G
21 22 23 26 28 31 32 38 43 46 91 93
Modbus Plus
G21
interface
4
✓
✓
✓
✓
✓
–
–
–
–
✓
–
✓
✓
–
–
✓
✓
–
–
✓
–
✓
✓
–
–
–
✓
–
✓
–
Modbus
interface
G22 ✓
DeviceNet
interface,
profile 12
G23 ✓
Control Net
interface
G26 ✓
✓
✓
Modbus
Ethernet
interface
G28 ✓
–
✓
✓
Additional
Modbus Plus G31 ✓
interface
–
–
–
–
Additional
Modbus
interface
✓
–
–
✓
G32
–
✓
✓
–
–
–
–
✓
✓
–
–
✓
✓
–
–
✓
–
–
–
–
–
–
–
–
–
–
–
–
–
Additional
Modbus
Ethernet
interface
G38
Additional
DeviceNet
interface
G43
Additional
Control Net
interface
G46
–
–
–
✓
–
–
–
–
–
PROFIBUS
DP interface
G91 ✓
✓
✓
✓
✓
–
–
–
–
–
Additional
PROFIBUS
DP interface
G93
–
–
–
–
–
–
–
–
–
–
–
–
✓
–
–
✓
–
–
✓
Options can be combined
–
Options are mutually exclusive
✓
–
–
–
–
–
–
–
–
–
–
–
–
–
–
G32
Additional Modbus interface
G38
Additional Modbus Ethernet interface
G43
Additional DeviceNet interface, profile 12
G46
Additional Control Net interface
G91
PROFIBUS DP interface
Note: If a second PROFIBUS DP interface is required, select
options G91 and G93.
G93
Addditional PROFIBUS DP interface
–
✓
✓
Number of Anybus modules required for network implementation using NXGII
Network 2 Modbus Plus
Modbus
DeviceNet
profile 12
Control Net
Modbus
Ethernet
PROFIBUS DP
2
2
2
2
2
Network 1
Modbus Plus (G21)
Modbus
1)
2
(G22)
1
1
1
1
1
1
DeviceNet profile 12 (G23)
2
2
2
2
2
2
Control Net (G26)
2
2
2
2
2
2
Modbus Ethernet 2) (G28)
1
1
1
1
1
1
PROFIBUS DP (G91)
2
2
2
2
2
2
1)
Network 1 Modbus uses the COM port on the comminications board.
2)
Network 1 Modbus Ethernet uses the Ethernet port on CPU card
(additional Ethernet switch is required).
4/4
Siemens D 15.2 · 2011
© Siemens AG 2011
Description of Options
Description of options
■ Options (continued)
K29 to K34
Control and display instruments in the door
K50
Vector control with speed encoder
Mutually exclusive options K31 to K34
With Option K50, I/O for evaluation of a speed encoder signal is
integrated. For example, this is used in applications that require
very accurate speed control, especially at low speeds.
Control and display instruments
in the door
Code K31 K32 K33 K34
Off-Local-Remote Selector
K31
Off-Hand-Auto Selector
K32
–
Keyed Off-Local-Remote Selector
K33
–
–
Keyed Off-Hand-Auto Selector
K34
–
–
–
Note: Option K50 is applied to speed encoder applications.
–
–
–
–
–
K68 to K79
Auxiliary and control voltage supply
–
Mutually exclusive options K68 to K79
–
Options are mutually exclusive
Auxiliary and control voltage supply
Code K68 K69 K79
Connection for control voltage 220/230 V AC
by customer
K68
Control voltage 120 V AC by Siemens
K69
–
Connection for control voltage 120 V AC by
customer
K79
–
–
–
–
Option Description
K29
K31
K32
K33
K34
Pushbutton kit
With option K29, a pushbutton kit is located on the door panel.
It includes a start and a stop pushbutton, a fault reset button
and a manual speed potentiometer. (Emergency Stop
pushbutton is standard.)
Off-Local-Remote selector
A three position selector switch mounted on the front of the
drive.
Note: The options K31 to K34 are mutually exclusive. Select
one of them.
Off-Hand-Auto selector
A three position selector switch mounted on the front of the
drive.
Note: The options K31 to K34 are mutually exclusive. Select
one of them.
Keyed Off-Local-Remote selector
A three position selector switch mounted on the front of the
drive provided with keyed protection.
Note: The options K31 and K33 are mutually exclusive. Select
one of them.
Keyed Off-Hand-Auto selector
A three position selector switch mounted on the front of the
drive with keyed protection.
Note: The options K31 to K34 are mutually exclusive. Select
one of them.
–
–
Options are mutually exclusive
With options K68, K69 and K79, the power source is defined.
Select one of them. K69 is the preset value. The internal control
voltage will be 120 V AC in either case.
With option K73, you can select a 24 V DC I/O voltage.
Option Description
K68
Connection for control voltage 220/230 V AC by customer
Using option K68, the customer will supply control voltage to
the drive. The maximum current consumption is 4 A.
K69
Control voltage 120 V AC by Siemens
Option K69 includes a CPT (control power transformer) built
into the drive. 120 V AC will be generated internally from the
auxilliary supply.
K79
Connection for control voltage 120 V AC by customer
Using option K79, the customer will control voltage to the
drive.
K73
I/O signal voltage 24 V DC
With option K73, 24 V DC is available as Input/Output control
signals.
Note: Select one of the options K31 to K34. K31 is the preset
value.
Siemens D 15.2 · 2011
4/5
4
© Siemens AG 2011
Description of Options
Description of options
■ Options (continued)
L03
EMC filter
L29
Bidirectional synchronized transfer
CE mark drives require an EMC line filter. With option L03, the filter will be installed downstream from the 3-phase control power
disconnect switch. Customer input control power cables will be
routed inside the metallic wire-way before being terminated at
the control power disconnect switch.
Option L29 offers automatic synchronization with seamless
transfer of the motor to the line and take-over of the motor from
the line. The drive synchronizes the motor to the supply voltage
(phase relation, frequency and amplitude). The motor is subsequently connected in parallel to the line with the S3 circuitbreaker/contactor before the output-side S2 circuit-breaker/
contactor opens.
L09
Output reactor
S1
For air-cooled units, the output reactor will be housed in a separate NEMA 3R/IP14 cabinet designed for outdoor installation.
S3
G_D012_XX_00024
Note: The output reactor is not required for standard drive operation. It is only needed for certain applications such as synchronous transfer.
S2
4
M
Figure 4/1
Circuit-breakers/contactors
Approximately 100 ms pass under consideration of the response
time constants of the two circuit-breakers/contactors (opening
and closing times). Within this period of time the motor is transferred from the drive to the line. This ensures a bumpless transfer
of the motor to the line.
If the motor is to be subsequently taken from the line and operated via the drive again, the transfer process is executed in reverse order. The drive is first run up in no-load operation and its
output voltage is synchronized to the line voltage in its phase relation, frequency and amplitude. Then circuit-breaker/contactor
S2 is closed before S3 is opened and the motor is isolated from
the line. In this case the motor is taken over bumplessly by the
drive and can either be operated under speed control or shut
down under control. Variable speed operation during running up
and shutting down does not produce any high starting and transient torques that could damage the drive train or cause e.g.
pressure fluctuations in the process. The S3 circuit-breaker/contactor must be configured to protect the motor against over currents and over voltages during line operation. If temperature
sensors are fitted in the motor, these must be monitored independently (plant-side) during line operation.
An output reactor (option L09) is additionally required for the decoupling of the drive output during the commutation process.
Note: The circuit-breakers/contactors are not included in the
scope of delivery. For the dimensioning of the the output reactor
(option L09) and the circuit-breakers/contactors contact the factory or your local Siemens sales representative. A motor protection relay should also be considered in the bybass circuit.
Attention: Option L29 is only possible if the drive output voltage
is the same as the line voltage.
4/6
Siemens D 15.2 · 2011
© Siemens AG 2011
Description of Options
Description of options
■ Options (continued)
L53
UPS mounted within the drive
M08 to M10 and M38
Mechanical door interlocks
In the case of line supply interruptions that cause the power unit
to shut down, the down time is reduced by providing a UPS supply to the control section. The UPS is configured for a buffer time
of up to 8 min.
With options M08, M09, M10 and M38 the drive is supplied with
a mechanical door interlock system. These options are mutually
exclusive.
Note: Option L53 is available for GenIIIe and for 120 V AC only.
Note: One of the options M08 to M10 and M38 is required for
CSA, CE (US).
Option Description
L55
Anti-condensation heating for cabinet
M08
Mechanical door interlock – Superior
Descripton see option M10.
The anti-condensation heating is recommended at low ambient
temperatures and high levels of humidity to prevent condensation. The number of cabinet heaters fitted depends on the number of cabinet panels (refer to the table). The anti-condensation
heaters are controlled with a thermostat.
M09
Mechanical door interlock – Kirk
Descripton see option M10.
M10
Mechanical door interlock – Castell
The safety closing/interlocking system is based on the key
transfer system from Castell. The opened circuit-breaker
releases the key to the key exchange unit, which in turn
releases the keys to the drive cabinet doors of the power
section. This ensures that the drive is isolated from the
medium voltage and that the medium voltage is no longer
present in the cabinet.
M38
Mechanical door interlock – Fortress
Descripton see option M10.
Note: The supply voltage for the anti-condensation heating
(110 to 240 V AC) must be supplied externally.
Drive type
Number and power of heaters
GenIIIe
9 cells
2 heaters, 500 W each
12 cells, 2000 to 4000 hp
2 heaters, 500 W each
12 cells, > 5000 hp
3 heaters, 500 W each
15 cells, 3000 to 4000 hp
3 heaters, 500 W each
15 cells, > 5000 hp
4 heaters, 500 W each
18 cells, 3000 to 4000 hp
3 heaters, 500 W each
18 cells, > 5000 hp
4 heaters, 500 W each
GenIV
9 cells, up to 140 A
2 heaters, 500 W each
9 cells, 200 and 260 A
2 heaters, 500 W each
12 cells 1)
2 heaters, 500 W each
15 cells
2 heaters, 500 W each
Note: Options M08, M09, M10 and M38 are mutually exclusive,
M08 is the preset value.
M12
Electrical door interlocks
The electrical door interlock system prevents access to the energized sections in the drive as long as hazardous voltages are
present. This system also prevents the drive from being energized until all doors into the energized sections in the drive are
closed.
Note: Option M12 or one of M08, M09, M10 or M38 is required
for CE marking.
M35 to M37
Gland plates
With options M35, M36 and M37, gland plates can be ordered in
an aluminum (M35), brass (M36) and stainless steel (M37)
version. As standard the gland plates are steel.
The options M35 to M37 are mutually exclusive.
Option Description
1)
M35
Gland plates
• aluminium
M36
Gland plates
• brass
M37
Gland plates
• stainless steel
Available soon.
Siemens D 15.2 · 2011
4/7
4
© Siemens AG 2011
Description of Options
Description of options
■ Options (continued)
M42
IP42 degree of protection
N24
Intermediate arrestors included
As standard the air-cooled drives are supplied with NEMA 1
compliance. The corresponding standard degree of protection
for the GenIIIe and GenIV drives is IP21.
With option N24, the drive is delivered with intermediate
arrestors on the integrated transformer.
With option M42, the degree of protection for the air-cooled
GenIIIe and GenIV drives can be enhanced over the standard
offering (NEMA 1 or IP21).
N35 to N38
Controlled outgoing feeder for auxiliaries
230 V 1 AC or 120 V 1 AC
Mutually exclusive options N35 to N38
M61
Redundant blower
To improve system availability, an additional blower is added to
the drive. If a blower within the drive cabinet fails, the redundant
blower is activated by the drive control system preventing the
drive from tripping. This prevents production down times or interruptions. Replacement of the faulty blower can be postponed
until the next scheduled shutdown.
Note: Option M61 is included by the option U10 (ProToPS).
4
M64
Drive prepared for duct flange connection in front
With option M64, the drive is prepared for connection to an
external exhaust air system to the front of the blower assembly.
This option is applicable when the customer is providing
external exhaust ducting at the output of the blower to carry the
hot air blowing out of the drive cabinet outside the room.
When configuring the exhaust air ducts for the drive ventilation
system, it is essential to ensure that the air flow rates stipulated
in the technical data are observed. The pressure drop between
the air inlet and air outlet of the drive is different for different
versions. The additional pressure drop due to the external
exhaust air system must not be lower than 0 Pa and higher than
50 Pa.
Control of auxiliaries
Code N35 N36 N37 N38
Controlled outgoing feeder,
230 or 120 V 1 AC, max. 1.2 kW
N35
Controlled outgoing feeder,
230 or 120 V 1 AC, max. 2.2 kW
N36
–
Controlled outgoing feeder,
230 or 120 V 1 AC, max. 3.5 kW
N37
–
–
Controlled outgoing feeder,
230 or 120 V 1 AC, max. 4.5 kW
N38
–
–
–
Note: Selection of option M64 can affect the values for sound
pressure level depending on the design of the exhaust air
system.
For more implementation details on option M64, please contact
the factory or your local Siemens sales representative.
M67
Version for harsh environment conditions
With option M67, the drive can be equipped for harsh environment conditions (high humidity, tropical or seaside location).
This is not a marine certification compliant option.
Measures comprise:
• Aluminum parts coated or anodized
• Galvanized parts coated or replaced with stainless steel parts
• Double vacuum pressure impregnation (VPI) of the
transformer
• Paint finish for tropical conditions
• Coated printed circuit boards
4/8
Siemens D 15.2 · 2011
–
–
–
–
–
–
Options are mutually exclusive
A controlled outgoing feeder protected by miniature circuitbreakers is available in the converter for controlling external auxiliaries, e.g. the anti-condensation heating for the motor. The voltage supply required for the drive, e.g. for the anti-condensation
heating, must be provided externally. Depending on the power
that is required, four different outgoing feeders are available.
The contactor is switched off with the ON command at the
converter and switched on with the OFF command.
Option Description
N35
Controlled outgoing feeder for auxiliaries
230 V 1 AC 50 Hz, max. 1.2 kW or
120 V 1 AC 60 Hz, max. 0.7 kW
N36
Controlled outgoing feeder for auxiliaries
230 V 1 AC 50 Hz, max. 2.2 kW or
120 V 1 AC 60 Hz, max. 1.2 kW
N37
Controlled outgoing feeder for auxiliaries
230 V 1 AC 50 Hz, max. 3.5 kW or
120 V 1 AC 60 Hz, max. 1.8 kW
N38
Controlled outgoing feeder for auxiliaries
230 V 1 AC 50 Hz, max. 4.5 kW or
120 V 1 AC 60 Hz, max. 2.4 kW
Attention:
Note the following regarding the connection of an external air
duct:
• For changing the blowers, suitable openings have to be
provided in the air duct.
• It has to be assured that the cabinet doors can be
opened/closed after mounting the air duct.
–
Note: For GenIV drives, select one of the options N35 to N38; the
preset value is N35.
© Siemens AG 2011
Description of Options
Description of options
■ Options (continued)
T03, T04
Nameplate color and texture
U10
ProToPS
Option Description
Mutually exclusive options U10 to U11
T03
White letters with black core
(standard: black letters, white core)
T04
Stainless steel (standard: phenolic)
T74 to T91
Nameplate languages
Mutually exclusive options T74 to T91
Code T74 T82 T85 T91
English/German
T74
English/Portuguese (Brazil)
T82
–
English/Russian
T85
–
–
English/Chinese
T91
–
–
–
–
–
–
–
–
–
Options are mutually exclusive
Nameplates can be supplied in two languages. The following
order codes provide a list of available languages.
Note: Please contact the factory or your local Siemens sales
representative for languages different from the ones specified
below.
Option Description
T74
English/German
T82
English/Portuguese (Brazil)
T85
English/Russian
T91
English/Chinese
Code U10 U11
ProToPS
U10
Cell bypass
U11
–
Nameplate language
–
Availability
–
–
Options are mutually exclusive
With option U10, the control system Process Tolerant Protection
Strategy (ProToPS™) is integrated – a groundbreaking process
control system available exclusively from Siemens. Instead of
tripping the drive and automatically shutting down the system
due to a malfunction, ProToPS provides a hierarchical system of
warnings in advance of potential drive system trip. This control
strategy allows time to evaluate the situation and respond appropriately to avoid a system shutdown.
Note: Option U10 includes the options U11 (cell bypass) and
M61 (redundant blower on the air-cooled units only).
Note: Contact the factory or your local Siemens sales representative for option U10.
U11
Cell bypass
With option U11, the drive system will automatically continue to
operate uninterrupted if one or more cells has a fault. The continuous current rating is maintained with faulted cells but at a reduced voltage. This is a recommended option for critical processes. Faulted cells can then be replaced at a convenient
planned maintenance window.
Note: Option U11 is included by the option U10 (ProToPS).
V01 to V14
Motor voltages
U01
Version with UL listing
With the options V01 to V14, the motor voltage can be selected.
These options are mutually exclusive. Select one of them.
With option U01, a drive version for the North American market
is supplied. It is approved and listed by the Underwriter
Laboratories (UL).
V01
2.3 kV
V02
2.4 kV
V03
3.0 kV
V04
3.3 kV
U02
Version with CE conformity
V05
4.0 kV
V06
4.16 kV
With option U02, a drive version with CE conformity is supplied.
V07
4.8 kV
Note: Option U02 includes options L03 (EMC filter) and M08
(mechanical door interlocks – Superior).
V08
5.0 kV
V09
5.5 kV
V10
6.0 kV
U03
Version with CSA certification
V11
6.3 kV
V12
6.6 kV
With option U03, a drive version certified by the Canadian
Standards Association (CSA) is supplied.
V13
6.9 kV
V14
7.2 kV
Note: Option U01 includes option M08 (mechanical door
interlocks – Superior).
Option Motor voltage
Note: Option U03 includes option M08
(mechanical door interlocks – Superior).
Siemens D 15.2 · 2011
4/9
4
© Siemens AG 2011
Description of Options
Description of options
■ Options (continued)
W41
Drive prepared for air-to-air heat exchanger (on request)
For details please contact the factory or your local Siemens
sales representative.
Y05
Customer-specific nameplate
As standard the nameplate shows the rated data of the drive
under nominal conditions.
If data on the nameplate should be adapted to special ambient
conditions (temperature, altitude) or should reflect special load
conditions (e.g. derating because of operation at low frequency)
the option Y05 must be selected.
Information to be supplied:
• Altitude
• Coolant temperature
• Rated voltage
• Rated current
• Rated power
4
Y09
Paint finish other than standard
As standard the drives are supplied with ANSI 61 paint finish. A
special color must be specified in plain text when ordering.
Y10
Circuit diagrams with customer-specific description field
The circuit diagrams are given customer-specific headers. The
data for the header must be specified in plain text (up to three
lines of 45 characters per line).
Y15
Sine-wave filter (on request)
For details please contact the factory or your local Siemens
sales representative.
4/10
Siemens D 15.2 · 2011
5
© Siemens AG 2011
Engineering Information
5/2
5/2
5/3
Tools
NXGII ToolSuite
SinaSave
5/3
5/3
Accessories
Cell lifter
5/4
5/4
5/4
5/5
Control overview
Control features
Drive input protection
Speed and torque control
5/6
5/6
5/6
5/7
Output voltage and current
Output voltage characteristics
Output current
Output voltage capability
5/8
5/8
5/8
Interfaces
Overview
Standard input/output assignments
5/11
Operator panel
5/12
Scope of delivery
5/13
Dimension drawings
Siemens D 15.2 · 2011
© Siemens AG 2011
Engineering Information
Tools
■ Overview
NXGII ToolSuite
The NXGII ToolSuite is a PC-based high-level Graphical User
Interface (GUI) application that integrates various software tools
used for NXGII based drives. ToolSuite, equipped with the
Microsoft Windows Operating System, allows navigation through
a drive’s features by using a PC and a mouse or by using a touch
screen (instead of an operator panel) – allowing you to monitor
and control that drive’s functions quickly and easily. The NXGII
Control and the PC running the NXGII ToolSuite software, interface with one another using Ethernet and TCP/IP protocol. ToolSuite contains the following tools: Drive Tool, Debug Tool, and
SOP Utilities.
Configuration
• Multilevel password to limit access
- Passwords same as used in drive
• Folders for each drive configuration category (i.e., VFD Menu
system)
- Icon colors to indicate default and modified parameter
values
- On screen parameter identifier (matches operator panel IDs
for speed menus)
- Parameter editing assisted by minimum/maximum limits and
defaults
• Ability to upload logs, parameters, system program
• Ability to download system program and/or configuration data
files
5
Graphing
• Adjustable time scale
• Predefined variable list to select variable to be graphed
• Graph up to 10 variables
• Individual variable offsets
• Individual variable scaling
• Customizable graphics – fonts, color, styles
• Freeze graphics
• Freeze graph on fault
• Freeze on selectable trigger
• Zoom graph
• Printable graphics
• Exportable graphics
Status
• Programmable display variables
• Pick list selectable variables, same as drive operator panel
display list
• First 4 synchronized to operator panel display
• Fault and alarm indicators (traffic lights: red = fault,
yellow = alarm, green = none)
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Siemens D 15.2 · 2011
Control (only if enabled by SOP)
• Manual start button
• Stop button
• Fault reset button
Drive Tool
Its purpose is to manage all of the drive features and provide the
user with a user-friendly view of the drive.
The Drive Tool’s main features include:
• Drive configuration
• Drive variable graphing
• Drive status (provides real time status of various parameters,
measured values, and calculations)
Debug Tool
This application provides a remote graphical user interface for
Siemens medium-voltage ROBICON Perfect Harmony NXGII series drives. With the Debug Tool, the user can examine drive variables using a PC and a mouse, in a simple and quick manner.
The debug utility is intended for use during test, commissioning,
and troubleshooting of the drive.
SOP Utilities
The System Program is the logic that maps the external I/O into
the functionality of the drive. In its simplest form, it just maps
internal states to external points. In more complex forms, additional complex logic, in the form of Boolean logic, as well as
timers, counters, and comparators, express the system functionality to the drive.
The SOP Utilities is a group of utilities under the ToolSuite umbrella program. It performs most of the functionality on the PC
running the ToolSuite, but has serial communications capability
for uploading and downloading the System Program directly to
the drive via an RS232 interface between the drive and the PC.
The purpose of the SOP Utilities Tool is to convert logic statements in the form of Sum-Of-Products (SOP) notation into a form
of machine-recognizable code that is run under the built-in drive
SOP interpreter.
© Siemens AG 2011
Engineering Information
Tools
■ Overview (continued)
SinaSave
In addition to high-efficiency motors (IE2) SinaSave also includes low-voltage and medium-voltage frequency drives,
which are predestined for pump and fan application.
Further, the motor side has been supplemented by a new feature
that takes into consideration the mechanical system. Hightorque motors have also been recently integrated. User-friendly
functions such as an automatic update function, an up-to-date
currency table and improved functions (e.g. sending pdfs by
e-mail) round-off the functionality of this energy-saving tool.
Additional information
Additional information on services relating to energy-saving
topics is provided on the Internet:
www.siemens.com/sinasave
www.siemens.com/energy-saving
Accessories
You can philosophize as much as you like about potential cost
saving – but the SinaSave software tool supplies the facts:
Based on characteristic plant values, SinaSave calculates the
possible cost-saving potential for the specific application. A
payback time is obtained from the monthly overall saving of the
application and the purchase and installation costs for the motor
or frequency drive. This payback time is frequently just a few
months.
Cell lifter
The power cells of the ROBICON Perfect Harmony drives can be
replaced as a unit. To replace, the entire power cell must be extracted from the drive and transported on a cell lifter. There are
different versions of the cell lifter available, suitable for the the
ROBICON Perfect Harmony air-cooled drives (GenIIIe and
GenIV).
Cell lifter data
Function
SinaSave is designed to select an energy-efficient motor for line
operation or a frequency drive for variable-speed and therefore
energy-saving operation.
For line operation, the tool can calculate the cost savings as well
as the payback time for Siemens energy-saving motors, class
IE2 or NEMA Premium using three comparison cases: In comparison to IE1 or EPAct motors, individually selected and known
motors or in comparison to known motors when investigating a
complete plant.
GenIV
GenIIIe
Carrying
capacity
lb
308
308
kg
140
140
Highest
platform
position
in
81
81
Order number
mm 2050
2050
6SR0960-0SA30-0AA0
6SR0960-0SA30-0AA0
For drive operation, SinaSave takes into account all of the necessary plant or system-specific parameters as well as the values
required for the process; these include, for example, the flow
rate for pumps, the specific density of the medium being transported and the efficiency of the fluid flow machines of the complete plant. Additional basic data that the program requires
includes the number of working days and work shifts as well as
the pumping profile over a day and a year, which are decisive for
the energy-saving impact.
Using the plant-specific data, the program selects the optimum
drive system, calculates the price of a suitable frequency drive
and determines the energy requirements of the variable-speed
drive system when compared to all of the alternative concepts
that could be possibly considered.
Siemens D 15.2 · 2011
5/3
5
© Siemens AG 2011
Engineering Information
Control overview
■ Mode of operation
Control features
The following table provides a summary of the performance
offered by the ROBICON Perfect Harmony drives with NXGII
control.
Overview of control features
5
Feature
Description
Output frequency
0 ... 300 Hz 1); above 167 Hz, current derating is required
Modulation
Multi-level PWM
Ride-through
• Medium-voltage ride-through:
• Control power ride-through with UPS:
Spinning load
• Instantaneous mode: allows fast bypass
• Frequency scan mode: performed after residual motor voltage has collapsed
Induction motor control
• V/Hz for parallel motors (VHz)
• Open-loop vector control for induction motors (OLVC)
• Closed-loop vector control for induction motors (CLVC)
Synchronous motor control
• Open-loop vector control for synchronous motors (OSMC)
• Closed-loop vector control for synchronous motors (CSMC)
Emergency Stop category
Emergency stop category 0 is set as standard for an uncontrolled shutdown.
The function includes voltage disconnection of the drive output by opening the circuit-breaker.
Consequently the motor coasts down.
Energy saver
Single parameter driven (for induction motors only)
Braking
• Inverse speed (max. braking torque is approx. 0.3 % at full speed)
• Dual frequency (typical braking torque at full speed is 7.5 %)
Auto tuning
Available for induction motors as long as the drive rating is higher than 67 % of the motor
Transparent cell bypass
(option U11)
500 ms downtime with redundant cells; without redundant cells, the downtime depends on the motor open circuit time constant
Synchronous transfer
(option L29)
Closed synchronous transfer available for induction and synchronous motors 2)
Voltage minimum boost
Not implemented; as an alternate, automatic resistance compensation is available in
OLVC/CLVC/OSMC/CSMC control modes (also see description for flux attenuation shaping)
Flux attenuation shaping
Not implemented; a simple (single parameter function) implementation is available
Zero speed control
Not implemented
Drive input protection
ROBICON Perfect Harmony utilizes software functions to detect
abnormal conditions due to an internal drive failure and thus provides protection to the drive. Below you find a description of
some routines that are implemented in NXGII control for drive
protection.
Faults within the drive can be categorized into two types – "low
impedance" (with high current) and "high impedance" (with low
current) faults. A "low impedance" fault within the drive or the
secondary side of the transformer would result in a significant
reactive current on the primary side. The "one cycle protection"
(or excessive input reactive current detection) is implemented to
detect such types of faults. A "high impedance" fault within the
drive would result in low current that is difficult to detect on the
primary side of the transformer but will result in measurable
losses that can be used to sense the condition. The "excessive
drive losses protection" allows the detection of such faults.
> 5 cycles
> 5 cycles
One cycle protection
(or excessive input reactive current detection)
NXGII control utilizes the reactive component of the drive input
current to determine whether a "low impedance" fault on the secondary side of the transformer has occurred. For example, a
short-circuit in one of the secondary windings will result in poor
power factor on the high-voltage side of the transformer. A software model of the transformer is used to predict the reactive
component of primary current based on the known load. An
alarm and trip are generated when the actual reactive current
exceeds this prediction based on an inverse time curve. Further
information on this curve and the time to trip is provided below.
This event will normally cause the input disconnect device to
open. The one cycle protection is defeated during the first
0.25 seconds after primary voltage is applied, to allow transformer saturation inrush to decay.
The level of currents detected by these functions cannot be easily detected and may be insufficient to activate the main primary
protection. Hence the fault signals issued by these routines
should be used with suitable interlocking, via a relay output
and/or serial communication, to disconnect medium-voltage
from the drive input.
1)
Although 0 Hz can be produced by the drive, torque production is limited
at low output frequencies.
5/4
Siemens D 15.2 · 2011
2)
Synchronous transfer applications with synchronous motors would require
a PLC to manage the exciter control.
© Siemens AG 2011
Engineering Information
Control overview
■ Mode of operation (continued)
Excessive drive losses protection
Speed and torque control
The excessive drive losses protection uses drive losses to
protect the drive against "high impedance" fault conditions. The
drive losses are calculated as the difference between the measured input and output powers, and compared against reference losses. Once the threshold is exceeded, a fault is issued
and the drive trips based on an inverse time curve.
Feature
During the idle state if the drive losses exceeds the idle threshold by 1 to 2 % the control will issue a command to open the
input breaker within 250 ms. Such a fast response will greatly
reduce the adverse effect of a "high impedance" fault on the
drive system.
V/Hz
control
Speed range
40:1
(for 100 % holding torque
and 150 % starting torque)
Open-loop
vector
control
Closed-loop
vector
control
100:1
200:1
Torque regulation
(% of rated)
n/a
±2%
±2%
Torque linearity
(% of rated)
n/a
±5%
<±5%
Torque response 1)
n/a
> 750 rad/s
> 750 rad/s
Speed regulation
(% of rated)
Motor slip
± 0.5 % 2)
± 0.1 % 3)
Speed response 4)
20 rad/s
20 rad/s
> 20 rad/s 5)
Torque pulsation
< 1.0 %
(% of rated)
6)
without overmodulation
< 1.0 %
< 1.0 %
< 3.5 %
< 3.5 %
< 3.5 %
Torque pulsation
(% of rated)
with overmodulation 6)
Note
Applications that require lower than 1 % speed operation under
high load torque should use the CLVC mode. In such cases it is
preferable to select a motor that has high full-load slip (> 1.0 %)
and high breakdown torque.
5
1)
Torque response values are valid for drive without an output filter. Tuning
may be required to achieve these values.
2)
Approx. 0.3 % speed error is typical. Worst-case speed error is equal to
approximately 30 % of rated motor slip.
3)
0.1 % can be achieved with a 1024 PPR encoder. Speed accuracy
depends on the encoder PPR.
4)
Speed response numbers apply as long as torque limit is not reached.
5)
Testing is required to determine exact value.
6)
ROBICON Perfect Harmony drives when not operated in overmodulation,
will have torque pulsation amplitudes of less than 1 % as listed in the
above table. For a drive drive operating in overmodulation the torque pulsation is higher at the 6th harmonic frequency (i.e. 6f component) which is
introduced only in the speed range of 95 to 100 % of rated. Torque pulsations at all other frequencies are under 1 % of rated. Refer to pages 5/6,
5/7 for more information on the cell voltage and drive output voltage ratings
that will operate with overmodulation.
Siemens D 15.2 · 2011
5/5
© Siemens AG 2011
Engineering Information
Output voltage and current
■ Function
Output voltage characteristics
Harmonic voltage factor as a function of ranks with 690 V cells
(GenIIIe)
Output voltage
Quantity
Value
Distortion at rated voltage
(as a % of rated output voltage)
without overmodulation: ≤ 2 %
(for the first 20 harmonics)
with overmodulation: ≤ 3 % 1)
(for the first 20 harmonics)
Output voltage
kV
HVF
9
2.40
0.019
9
3.30
0.017
12
4.16
0.009
Unbalance
(as a % of rated output voltage)
≤1%
dV/dt 2)
< 1000 V/µs for GenIIIe
< 3000 V/µs for GenIV
12
4.80
0.010
15
6.00
0.007
< 0.02 for drives with number of
cells ≥ 9
< 0.035 for drives with number
of cells = 6
18
6.60/6.90
0.005
Harmonic voltage factor (HVF) 3)
Harmonic voltage factor as a function of ranks with 750 V cells
(GenIV)
Number of cells
Output voltage
kV
HVF
9
4.16 4)
0.019
4.80
0.012
15
6.00
0.008
15
6.60
0.007
18
7.20
0.006
18
8.00
0.005
21
9.20
0.004
24
10.00
0.004
12
5
Number of cells
7)
1)
See also footnote 4) of the following table.
2)
Although output dV/dt values are high, the control ensures that only one
cell switches at a particular instant. The magnitude of voltage steps
applied to the motor are thus smaller than the rated voltage (and equal to
the DC-bus voltage of a single cell), which limits the stress on the insulation
of the first few turns (of the motor winding).
3)
NEMA MG 1, Part 30, suggests that no motor derating is required when the
inverter voltage waveform has a HVF value that is less than 0.03. HVF is
defined as:
HVF =
冑兺
V2
n
n
n≥5
where, Vn is the harmonic amplitude in per-unit, and n is the harmonic
order (= ratio of harmonic frequency to fundamental frequency). All Perfect
Harmony configurations (with 9 cells or more) meet this requirement.
Therefore, heating due to switching harmonics is negligible and no motor
derating is needed.
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Siemens D 15.2 · 2011
Output current
Quantity
Value
DC component
(as a % of rated output current)
≤1%
Distortion or THD 5) 6)
(as a % of rated output current;
when motor and drive ratings are
equal and the motor leakage
reactance is 16 % or higher)
without overmodulation: ≤ 3 %
with overmodulation: ≤ 4.5 %
4)
Note: Although overmodulation is allowed with all GenIV drives, only those
with this cell count and this rated output voltage will operate in overmodulation in the 95 to 100 % speed range. Higher output voltage and current
harmonic components at 5th and 7th harmonic frequencies will exist as
reflected in the THD and torque pulsation values.
5)
The output current distortion limit of 3 % is valid for drives with number of
cells ≥ 9 and no overmodulation. As the number of cells increases, the
current distortion decreases to below 2 % for 18 cell drives with a typical
motor.
6)
Most motors have a leakage reactance that is greater than 16 %. Output
current distortion is inversely proportional to motor leakage reactance, i.e.
as motor leakage reactance decreases, output current distortion
increases.
7)
Available soon.
© Siemens AG 2011
Engineering Information
Output voltage and current
■ Function (continued)
Output voltage capability
Input under-voltage rollback
With all cells operating
In the event that the input voltage falls below 90 %, the attached
description provides details of drive limitations.
The maximum output voltage of the drive in terms of the number
of ranks and the secondary-side cell voltage is given as:
Vcell_rating × Tap_setting × Vinput
Vout = 1.78 × N ×
Vinput_rated
When the input line voltage drops below 90 % of its rated value,
the drive limits the amount of power (and hence the torque) that
can be delivered to the load. The maximum allowable drive
power as a function of line voltage is shown in the figure below.
At 66 % input voltage, the maximum drive power is limited to
50 % and is quickly reduced to a slightly negative value (regen
limit) at 65 %. This limit forces the drive to absorb power from the
motor and maintain the (power cell) DC-bus voltages in case the
input voltage recovers during MV ride-through. The limit is implemented as an inverse function of speed in order to maintain constant power flow to the (cell) DC-bus.
where,
N
= number of ranks in drive
(or total number of cells = 3*N)
Vcell rating = 630, 690, or 750 V (depending on design)
= actual input line voltage
Vinput
Vinput rated = rated drive input voltage
Tap_Setting = 1.00 (for 0 % tap), 0.95 (for +5 % tap) or
1.05 (for –5 % tap)
The above formula is valid for all air-cooled drives.
Output voltage capability must be calculated based on worstcase line voltage (minimum value).
Pmax
105
100
With overmodulation (for 750 V cells only)
%
When overmodulation is used in the control for additional voltage
capability, the maximum output voltage increases by 5 %.
Note:
Overmodulation is not advised to be used. However, in exceptional cases overmodulation can be utilized but only after consulting the factory or your local Siemens sales representative.
0
Regen limit
65
66 %
Erms max
90
G_D015_EN_00012
50
Drive power (Pmax) as a function of input voltage magnitude (Erms)
Example of calculating output voltage capability
Consider a drive with 18 cells, each rated for 690 V. The maximum output voltage that can be delivered on the +5 % tap with
rated line voltage is (with N = 6 and Vcell = 690):
5
Vout = 1.78 · 6 · 690 V · 0.95 · 1.0 = 7000 V
where 1.0 is the ratio of actual to rated line voltage.
Once the input voltage falls below 65 %, the drive reduces output power to a slightly negative value and maintains synchronism with the motor for a period greater than five cycles. Once
input voltage is restored, the drive begins by magnetizing the
motor and then continues with torque production. There is no
delay in drive restart.
If input voltage is not restored after five cycles the drive maintains synchronism with the motor as long as the power cells can
operate without input power or as long as there is motor voltage
(to synchronize to). Once operation of any power cell stops or if
motor voltage decays significantly, the drive trips on a loss of
input medium-voltage.
Siemens D 15.2 · 2011
5/7
© Siemens AG 2011
Engineering Information
Interfaces
■ Configuration
Overview
I/O WAGO modules
The air-cooled ROBICON Perfect Harmony drive has a common
control system namely NXGII. This control system offers digital
and analog input and output capabilities through the use of the I/O
breakout board and the I/O WAGO modules. The GenIV drive
series uses the I/O breakout board while the GenIIIe drive series
uses both, the I/O breakout board and the I/O WAGO modules.
WAGO™ is an off the shelf solution for interfacing digital and
analog I/O to the NXGII controller via Modbus protocol. The table
below shows some of the WAGO modules used in the GenIIIe
series drive.
I/O breakout board
Signal type
Channels
Configuration
This board consists of 20 digital inputs, 16 digital outputs,
3 analog inputs and 2 analog outputs. The following table shows
the main characteristics of the I/O breakout board.
Digital inputs
1 ... 2
1 ... 4
120 V AC
24 V DC
Digital outputs
1 ... 2
relay output,
rated 250 V AC at 1 A or
40 V DC at 1 A
Analog inputs
1 ... 2
1 ... 2
4 ... 20 mA
0 ... 10 V DC
Analog outputs
1 ... 2
4 ... 20 mA
WAGO modules characteristics
I/O breakout board characteristics
Signal type
Quantity
Configuration
Digital inputs
20
120 V AC or 24 V DC
Digital outputs
16
Dry form "C" contacts,
rated 250 V AC at 1 A or
30 V DC at 1 A
Analog inputs
3
4 ... 20 mA or
0 ... 10 V DC
Analog outputs
2
4 ... 20 mA
Standard input/output assigments
The following tables provide an overview of the preassignment
function of interfaces in the standard versions of GenIV and
GenIIIe drives.
GenIV, I/O Assignments
5
Signal name
Function
GenIV
Nine cells
Twelve cells 1)
Fifteen cells
Internal digital input 0A
Remote inhibit
Remote inhibit
Remote inhibit
Internal digital input 1A
Remote start
Remote start
Remote start
Internal digital input 2A
Remote stop
Remote stop
Remote stop
Internal digital input 3A
Remote fault reset
Remote fault reset
Remote fault reset
Internal digital input 0B
SW1-off
SW1-off
SW1-off
Internal digital input 1B
SW1-remote/auto
SW1-remote/auto
SW1-remote/auto
Internal digital input 2B
Output reactor winding temperature, high (else SPARE)
SPARE
SPARE
Internal digital input 3B
Output reactor winding temperature, high-high (else SPARE)
SPARE
SPARE
Internal digital input 0C
SPARE
SPARE
SPARE
Internal digital input 1C
SPARE
SPARE
SPARE
Internal digital input 2C
SPARE
SPARE
SPARE
Internal digital input 3C
Transformer air flow temperature,
high
Transformer air flow temperature,
high
Transformer air flow temperature,
high
Internal digital input 0D
Transformer air flow temperature,
high-high
Transformer air flow temperature,
high-high
Transformer air flow temperature,
high-high
Internal digital input 1D
Cooling blower 1 (BLW1) O.K.
Cooling blower 1 (BLW1) O.K.
Cooling blower 1 (TBLW1) O.K.
Internal digital input 2D
Redundant cooling blower 2
(BLW2) O.K. (optional)
Cooling blower 2 (BLW2) O.K.
Cooling blower 2 (CBLW1) O.K.
Internal digital input 3D
SPARE
Redundant cooling blower 3
(BLW3) O.K.
Redundant cooling blower 1R
(TBLW2) O.K.
Internal digital input 0E
SPARE
SPARE
Redundant cooling blower 2R
(CBLW2) O.K.
Internal digital input 1E
SPARE
SPARE
SPARE
Internal digital input 2E
SPARE
SPARE
SPARE
Internal digital input 3E
Latch fault relay (LFR) feedback
Latch fault relay (LFR) feedback
Latch fault relay (LFR) feedback
I/O breakout board digital input signals
1)
Available soon.
5/8
Siemens D 15.2 · 2011
© Siemens AG 2011
Engineering Information
Interfaces
■ Configuration (continued)
Signal name
Function
GenIV
Nine cells
Twelve cells 1)
Fifteen cells
I/O breakout board digital output signals
Internal digital output 0
Speed demand in local at VFD
Speed demand in local at VFD
Speed demand in local at VFD
Internal digital output 1
Drive ready to run
Drive ready to run
Drive ready to run
Internal digital output 2
Drive running
Drive running
Drive running
Internal digital output 3
Drive alarm
Drive alarm
Drive alarm
Internal digital output 4
Drive fault
Drive fault
Drive fault
Internal digital output 5
ProToPS, process alarm
(else SPARE)
ProToPS, process alarm
(else SPARE)
ProToPS, process alarm
(else SPARE)
Internal digital output 6
ProToPS, process trip alarm
(else SPARE)
ProToPS, process trip alarm
(else SPARE)
ProToPS, process trip alarm
(else SPARE)
Internal digital output 7
SPARE
SPARE
SPARE
Internal digital output 8
Cooling blower 1 (BLW1) starter
Cooling blower 1 (BLW1) starter
Cooling blower 1 (TBLW1) starter
Internal digital output 9
Redundant cooling blower 2
(BLW2) starter (optional)
Cooling blower 2 (BLW2) starter
Cooling blower 2 (CBLW1) starter
Internal digital output 10
SPARE
Redundant cooling blower 3
(BLW3) starter (optional)
Redundant cooling blower 1R
(TBLW2) starter (optional)
Internal digital output 11
SPARE
SPARE
Redundant cooling blower 2R
(CBLW2) starter (optional)
Internal digital output 12
SPARE
SPARE
SPARE
Internal digital output 13
SPARE
SPARE
SPARE
Internal digital output 14
Coordinated input protection
scheme
Coordinated input protection
scheme
Coordinated input protection
scheme
Internal digital output 15
Latch fault relay (LFR), set pulse
Latch fault relay (LFR), set pulse
Latch fault relay (LFR), set pulse
Internal analog input 1
Remote speed demand,
4 ... 20 mA
Remote speed demand,
4 ... 20 mA
Remote speed demand,
4 .... 20 mA
Internal analog input 2
SPARE
SPARE
SPARE
Internal analog input 3
SPARE
SPARE
SPARE
I/O breakout board analog input signals
5
I/O breakout board analog output signals
Internal analog output 1
Motor speed, 4 ... 20 mA
Motor speed, 4 ... 20 mA
Motor speed, 4 ... 20 mA
Internal analog output 2
Motor torque, 4 ... 20 mA
Motor torque, 4 ... 20 mA
Motor torque, 4 ... 20 mA
1)
Available soon.
Siemens D 15.2 · 2011
5/9
© Siemens AG 2011
Engineering Information
Interfaces
■ Configuration (continued)
GenIIIe, nine to eighteen cell – I/O assignments
Signal name
Function
Signal name
Function
GenIIIe
Nine to eighteen cells
GenIIIe
Nine to eighteen cells
I/O breakout board digital input signals
5
I/O breakout board digital output signals
Internal digital input 0A
Remote inhibit
Internal digital output 0
Speed demand in local at VFD
Internal digital input 1A
Remote start
Internal digital output 1
Drive ready to run
Internal digital input 2A
Remote stop
Internal digital output 2
Drive running
Internal digital input 3A
Remote fault reset
Internal digital output 3
Drive alarm
Internal digital input 0B
Local mode
Internal digital output 4
Drive fault
Internal digital input 1B
Remote mode
Internal digital output 5
Process alarm (ProToPS) (else SPARE)
Internal digital input 2B
Up transfer request (else SPARE)
Internal digital output 6
Internal digital input 3B
Line contactor acknowledge
(else SPARE)
Process trip alarm (ProToPS)
(else SPARE)
Internal digital output 7
SPARE
Internal digital input 0C
Down transfer request (else SPARE)
Internal digital output 8
Cooling blower 1 (TBLW1) starter
Internal digital input 1C
VFD contactor acknowledge
(else SPARE)
Internal digital output 9
Cooling blower 2 (TBLW2) starter
Internal digital output 10
Cooling blower 3 (TBLW3) starter
Internal digital input 2C
Voltage monitoring relay (else SPARE)
Internal digital output 11
Cooling blower 1 (CBLW1) starter
Internal digital input 3C
Transformer thermal switch 170 deg C
Internal digital output 12
Cooling blower 2 (CBLW2) starter
Internal digital input 0D
Transformer thermal switch 190 deg C
Internal digital output 13
Cooling blower 3 (CBLW3) starter
Internal digital input 1D
Cooling blower 1 (TBLW1) O.K.
Internal digital output 14
Internal digital input 2D
Cooling blower 2 (TBLW2) O.K.
Coordinated input protection scheme –
MV enable
Internal digital input 3D
Cooling blower 3 (TBLW3) O.K.
(redundant) (else SPARE)
Internal digital output 15
Latch fault relay (LFR), set pulse
Internal digital input 0E
Cooling blower 1 (CBLW1) O.K.
Internal digital input 1E
Cooling blower 2 (CBLW2) O.K.
Internal digital input 2E
WAGO digital output signals
External digital output 01A
Down transfer permit (else SPARE)
External digital output 01B
Down transfer complete (else SPARE)
Cooling blower 3 (CBLW3) O.K.
(redundant) (else SPARE)
External digital output 01C
Up transfer permit (else SPARE)
Latch fault relay (LFR) feedback
External digital output 01D
Up transfer complete (else SPARE)
WAGO Digital Inputs Signals
External digital output 01E
Line contactor unlatch (else SPARE)
External digital input 01A
Start pushbutton (else SPARE)
External digital output 01F
Spare output (else SPARE)
External digital input 01B
Stop pushbutton (else SPARE)
I/O breakout board analog input signals
External digital input 01C
Fault reset pushbutton (else SPARE)
Internal analog input 1
Remote speed demand, 4 ... 20 mA
External digital input 01D
MPM trip
Internal analog input 2
Speed potentiometer 0 ... 10 V or
4 ... 20 mA
External digital input 01E
SPARE
Internal analog input 3
SPARE
External digital input 01F
SPARE
External digital input 01G 1)
SPARE
External digital input 01H 1)
SPARE
Internal digital input 3E
WAGO analog input signals
External analog input 1
SPARE
External analog input 2
SPARE
I/O breakout board analog output signals
Internal analog output 1
Motor speed, 4 ... 20 mA
Internal analog output 2
Motor torque, 4 ... 20 mA
WAGO analog output signals
1)
Note: This digital input signal is not present in the case of 24 V DC
systems.
5/10
Siemens D 15.2 · 2011
External analog output 1
SPARE, 4 ... 20 mA
External analog output 2
SPARE, 4 ... 20 mA
© Siemens AG 2011
Engineering Information
Operator panel
■ Overview
The ROBICON Perfect Harmony drive series contains a userfriendly operator panel. This operator panel is located on the
front of the control cabinet for operation, monitoring and commissioning of the drive. The operator panel is illustrated in figure
below.
The operator panel of the ROBICON Perfect Harmony drive series
The operator panel offers the following features and characteristics:
• LCD display (2 x 24 characters).
• LEDs for displaying operational status.
• Numerical keypad to enter set points or parameter values
• Automatic key set the drive in automatic mode
• Manual start key enables the operator to control the drive from
the operator panel
• Manual stop key to shut down the drive in a controlled manner
• Security access code for safe operation
One of the most important functions of the operator panel is
parameter monitoring. Below you find a reduced list of parameters that can be monitored by using the operator panel:
• Input voltage in V
• Input voltage harmonics (one at a time)
• Input current in A
• Input current harmonics (one at a time)
• Input power factor
• Input power in kW
• Input reactive power in kVAR
• Input energy in kWh
• Input phase sequence
• Loss of phase
• Low voltage
• Transformer overload
• Output power in kW
• Output energy in kWh
• Output current in A
• Output voltage in V
• VFD efficiency
• Motor torque in Nm
• Motor speed in rpm
• Motor slip in %
• Drive output frequency in Hz
• Magnetizing current in A
• Torque current in A
• Motor flux in Wb
5
Siemens D 15.2 · 2011
5/11
© Siemens AG 2011
Engineering Information
Scope of delivery
■ Overview
The standard scope of delivery of the ROBICON Perfect Harmony comprises:
Basic units
The basic unit of each ROBICON Perfect Harmony product-line
consists of the following:
• Input cabinet
• Transformer cabinet
• Cell cabinet
• Control cabinet
• Output Cabinet
Items not included in the standard scope of delivery
The following items are not included in the standard scope of
delivery:
• Cables, lugs and glands
• Isolators, contactors or circuit-breakers (optionally available),
• Make-proof grounding switch (optionally available)
• Motors
• Cable runways or cable ducts
• Harmonic filters
• Harmonic analysis
• Torsional analysis
• Erection work
• Commissioning
• Acceptance test with experts for the complete drive system
Note: Documentation see chapter 6.
5
5/12
Siemens D 15.2 · 2011
© Siemens AG 2011
Engineering Information
Dimension drawings
G_D015_XX_00016
G_D015_XX_00015
■ Dimension drawings
GenIV for motor voltages 2.3/2.4/3.3/4.0/4.16 kV: dimension drawing A
GenIV for motor voltages 4.6/4.8 kV: dimension drawing B
5
G_D015_XX_00017
GenIV for motor voltages 6.0/6.6 kV: dimension drawing C
Motor voltage
Shaft output
System cabinet
Cabinet width
Cabinet height 1)
Cabinet depth
Blower cage height
kV
hp
kW
in
mm
in
mm
in
mm
in
mm
2.3/2.4
200 ... 645
149 ... 481
66
1676
86
2184
42
1067
16 2)
406
800 ... 1229
597 ... 917
82
2083
86
2184
45
1143
33.5
851
200 ... 887
149 ... 662
66
1676
86
2184
42
1067
16 2)
406
3.3
4.0/4.16
3)
1000 ... 1690
746 ... 1261
82
2083
86
2184
45
1143
33.5
851
200 ... 1075
149 ... 802
66
1676
86
2184
42
1067
16 2)
406
1250 ... 2048
933 ... 1528
82
2083
86
2184
45
1143
33.5
851
300 ... 2458
224 ... 1834
114
2896
86
2184
45
1143
32
813
6.0
300 ... 3073
224 ... 2292
164
4166
90.1
2288.5
45
1143
25.1
637.5
6.6
300 ... 3380
224 ... 2521
164
4166
90.1
2288.5
45
1143
25.1
637.5
4.6/4.8
1)
Height without blowers.
2)
Blower cage height for redundant blower is 24 inch (610 mm).
3)
Available soon.
Siemens D 15.2 · 2011
5/13
© Siemens AG 2011
Engineering Information
Dimension drawings
■ Dimension drawings (continued)
G_D015_XX_00018
GenIIIe for motor voltages 2.3 to 6.6 kV: dimension drawing D
Motor voltage
System cabinet
Cabinet width
Cabinet height 1)
Cabinet depth
Blower cage height
kV
hp
kW
in
mm
in
mm
in
mm
in
mm
2.3/2.4
1489 … 2250
1111 … 1679
172
4369
91.5
2324
50
1270
25.5
648
2363 … 2978
1763 … 2222
188
4775
91.5
2324
50
1270
26.5
673
1750 … 2250
1306 … 1679
172
4369
91.5
2324
50
1270
25.5
648
2437 … 3500
1818 … 2611
188
4775
91.5
2324
50
1270
26.5
673
2250
1679
192
4877
91.5
2324
50
1270
26.5
673
2500 … 4000
1865 … 2984
208
5283
91.5
2324
50
1270
26.5
673
4097 … 5899
3056 … 4401
232
5983
91.5
2324
50
1270
28.5
724
2500 … 4000
1865 … 2984
208
5283
91.5
2324
50
1270
26.5
673
4727 … 5956
3526 … 4443
232
5983
91.5
2324
50
1270
28.5
724
3500 … 4000
2611 … 2984
248
6299
91.5
2324
54
1372
28.5
724
4432 … 6000
3306 … 4476
272
6909
91.5
2324
54
1372
28.5
724
7000 … 8000
5222 … 5968
272
6909
99.5
2527
54
1372
28.5
724
3500 …4000
2611 … 2984
248
6299
91.5
2324
54
1372
28.5
724
4095 … 6000
3055 … 4476
272
6909
91.5
2324
54
1372
28.5
724
6500 … 8000
4849 … 5968
272
6909
99.5
2527
54
1372
28.5
724
3.3
5
Shaft output
4.16
4.6/4.8
6.0
6.6
1)
Height without blowers.
5/14
Siemens D 15.2 · 2011
© Siemens AG 2011
Services and Documentation
6
6/2
Training
6/3
Documentation
6/4
6/4
Service and Support
The unmatched complete service
for the entire life cycle
Siemens D 15.2 · 2011
© Siemens AG 2011
Services and Documentation
Training
ROBICON Perfect Harmony Drive Orientation Class (8 hours)
■ Overview
The priority of Siemens training programs is to help customers
maintain and maximize the efficiency of their Siemens equipment. The greater the knowledge of the system and its functions,
the higher the efficiency the operator will obtain from the equipment.
The combination of our knowledge and field experience coupled
with continuous research and development has made our training program one of a kind in the industry. The excellence of our
staff and our numerous world-wide training locations are proof of
our commitment to product education, maintenance and employee safety issues.
By combining modern teaching methods with the latest technology, we offer the best there is in training. Siemens tailors its training programs to meet the individual customer's product and application needs. This method of teaching avoids the "cookiecutter" approach that tends to limit and generalize. We focus on
you, your process and your equipment. And we train all associated personnel including operators, maintenance personnel,
electrical technicians and electrical engineers.
■ Benefits
• Higher customer comfort level with Siemens equipment
- By means of theoretical explanation and hands-on
experience
• Safety
- By learning best practices and protective equipment
• Reduce costly downtime
- By being able to address issues in a timely fashion
- By identifying spare parts needed
• Reduce repairs
- By addressing issues in advance through maintenance
• Minimize Siemens field service calls
■ More information
Course descriptions
ROBICON Perfect Harmony Operator Class (4 hours)
6
This training program is designed to cover the key aspects for
drive operators. Included in this session will be a brief introduction to ROBICON Perfect Harmony drives series, the drive topology and layout, safety guidelines, key parameters, operating the
drive, reading faults/alarms.
Contents:
• Introduction to the ROBICON Perfect Harmony series of drives
• ROBICON Perfect Harmony specifications
• Safety on medium-voltage drives
• ROBICON Perfect Harmony topology
• Drive hardware identification
• General operation of the ROBICON Perfect Harmony drive –
hands on
• Workshops – at the equipment
- Safety
- Operation
- Fault/alarm logger
- Acceleration/deceleration
- Minimum speed/maximum speed
6/2
Siemens D 15.2 · 2011
This training program is designed to cover the key aspects for
drive operators. Included in this session will be a general overview of the ROBICON Perfect Harmony drive, theory of operation, hardware identification, operation of the drive, alarms and
faults, and spare parts. The interface of the software to the drive
is demonstrational only.
Contents:
• Introduction to the ROBICON Perfect Harmony series of drives
• ROBICON Perfect Harmony specifications
• Safety on medium-voltage drives
• ROBICON Perfect Harmony topology
• Drive hardware identification
• Control boards, basic operation
• Customer drawings review
• General operation of the ROBICON Perfect Harmony drive –
hands on
• Demonstration on how to use HyperTerminal to upload fileshands on
- Fault log
- Historic log
- Event log
- Parameter log
• ToolSuite/debug demonstration only – hands on
ROBICON Perfect Harmony Maintenance Class (2 days)
This training program is designed to cover the key aspects for
an overview for maintenance personnel. This program covers
each aspect of the drive in detail so maintenance personnel will
obtain an understanding and feel comfortable with the drive. Included in this session will be the drive layout, safety guidelines,
lockout tag out, key parameters, operating the drive, obtaining
faults/alarms, hardware identification and operation, review of
equipment drawings. In this session attendees perform workshops to obtain a high comfort level working on the drive. The
training session covers basic troubleshooting. The interface of
the software to the drive is demonstrational only.
Contents:
• Introduction to the ROBICON Perfect Harmony series of drives
• ROBICON Perfect Harmony specifications
• Safety on medium-voltage drives
• ROBICON Perfect Harmony topology
• Drive hardware identification
• Control boards, basic operation, replacement and spare parts
• Customer drawings review
• General operation of the ROBICON Perfect Harmony drive –
hands on
• Demonstration on how to use HyperTerminal to upload files –
hands on
- Fault log
- Historic log
- Event log
- Parameter log
• ToolSuite/debug demonstration only – hands on
• Preventive maintenance
• Spare parts and components
© Siemens AG 2011
Services and Documentation
Training
Documentation
■ More information (continued)
ROBICON Perfect Harmony Advance Maintenance Class
(4 days)
This advanced training program is designed to cover the key
aspects for maintenance personnel. This program covers each
aspect of the drive in detail, so maintenance personnel will be
able to troubleshoot the drive in a safe format.
Included in this session will be the drive layout, safety guidelines, lockout/tag out, parameters, operating the drive, obtaining
faults/alarms, hardware identification and operation. Overview of
the System Operational Program (SOP), which is a group of programmable logic functions that define features and capabilities
of the drive. Complete review of the equipment drawings. Software will be provided and loaded on the customer's computer
for interface to the controls. This training class is designed as
50 % of the time theoretical and 50 % hands on.
Contents:
• Introduction to the ROBICON Perfect Harmony series of drives
• ROBICON Perfect Harmony specifications
• Fundamental drive terminology
• Motor theory
• Safety on medium-voltage drives
• Power devices
• ROBICON Perfect Harmony topology
• Drive hardware identification
• Control boards, basic operation, replacement and spare parts
• Customer drawings review
• General operation of the ROBICON Perfect Harmony drive –
hands on
• Presentation of Siemens software package – hands on
- Installation of the software on customer laptops
- Instructions on the program and its operation
• Utilization of ToolSuite/debug – hands on
- ToolSuite software installation, setup and interface to the
drive
• Preventive maintenance, troubleshooting, installation and
set-up
• Bypass operation
• Workshops – hands on
- Hardware identification
- Pull power cell
- Operator panel operation – changing parameters,
viewing logs
- Drive operation – manual/automatic control
- Laptop interface to the drive
- Waveforms on the control boards via oscilloscope.
Documentation
The O&M manual will be send to the customer following the
shipment of the ROBICON Perfect Harmony air-cooled drive.
This manual includes the following standard sections:
• Equipment list template
• Supplied spare parts list
• Maintenance instructions
• Field service information
• Storage requirements
• Recommended spare parts
• Warranty information
• Product user manuals
• System operating program (SOP)
• Drawings of the air-cooled drives (outline & wiring)
The documentation is in English. Further languages can be
ordered if required (see description of options).
6
Availability
For more information on ROBICON Perfect Harmony training
courses, please contact the following phone number:
+1 800 333 7421
Siemens D 15.2 · 2011
6/3
© Siemens AG 2011
Services and Documentation
Service and Support
The unmatched complete service
for the entire life cycle
For machine constructors, solution providers and plant operators: The service offering from Siemens Industry, Automation and
Drive Technologies includes comprehensive services for a wide
range of different users in all sectors of the manufacturing and
process industry
To accompany our products and systems, we offer integrated
and structured services that provide valuable support in every
phase of the life cycle of your machine or plant – from planning
and implementation through commissioning as far as maintenance and modernization.
■ Online Support
You have an experienced team of specialists at your side to
provide active support and bundled know-how. Regular training
courses and intensive contact among our employees – even
across continents – ensure reliable service in the most diverse
areas.
■ Technical Consulting
The comprehensive online information platform supports you in
all aspects of our Service &
Support at any time and from
any location in the world.
www.siemens.com/
automation/service&support
6
Our Service & Support accompanies you worldwide in all
matters concerning automation and drives from Siemens. We
provide direct on-site support in more than 100 countries
through all phases of the life cycle of your machines and plants.
Support in planning and designing your project: From detailed
actual-state analysis, definition
of the goal and consulting on
product and system questions
right through to the creation of
the automation solution.
■ Technical Support
Expert advice on technical
questions with a wide range of
demand-optimized services for
all our products and systems.
www.siemens.com/
automation/support-request
Contact information is available in the Internet at:
www.siemens.com/automation/partner
6/4
Siemens D 15.2 · 2011
© Siemens AG 2011
Services and Documentation
Service and Support
The unmatched complete service
for the entire life cycle
■ Engineering Support
■ Repairs
Support during project engineering and development with
services fine-tuned to your requirements, from configuration
through to implementation of an
automation project.
■ Field Service
Downtimes cause problems in
the plant as well as unnecessary
costs. We can help you to reduce both to a minimum – with
our worldwide repair facilities.
■ Optimization
Our Field Service offers you
services for commissioning and
maintenance – to ensure that
your machines and plants are
always available.
■ Spare parts
During the service life of machines and plants, there is often
a great potential for increasing
productivity or reducing costs.
To help you achieve this potential, we are offering a complete
range of optimization services.
■ Modernization
In every sector worldwide,
plants and systems are required
to operate with constantly increasing reliability. We will provide you with the support you
need to prevent a standstill from
occurring in the first place: with
a worldwide network and optimum logistics chains.
You can also rely on our support
when it comes to modernization
– with comprehensive services
from the planning phase all the
way to commissioning.
6
Contact information is available in the Internet at:
www.siemens.com/automation/partner
Siemens D 15.2 · 2011
6/5
© Siemens AG 2011
Services and Documentation
Service and Support
Notes
6
6/6
Siemens D 15.2 · 2011
7
© Siemens AG 2011
Appendix
7/2
Subject index
7/3
Standard terms and
conditions of sale and delivery
Siemens D 15.2 · 2011
© Siemens AG 2011
Appendix
Subject index
■ Subject index
Chapter/page
A
Chapter/page
N
Air-to-air heat exchanger
Anti-condensation heating for cabinet
Applications, typical
Auxiliary voltage supply
4/10
4/7
2/2
4/5
Nameplates
4/6
Order No. supplements
Output reactor
Overload capability
Overview of generations
B
Bidirectional synchronized transfer
C
CE conformity
Cell bypass
Cell lifter
Clean power input
Conditions of sale and delivery
Control functions
Control instruments
Controlled outgoing feeder
Control voltage supply
CSA certification
4/9
2/4, 4/9
5/3
2/2
7/3
2/5
4/5
4/8
4/5
4/9
4/9, 4/10
O
Operator panel
Options
5/11
2/18, 2/19,
4/1 … 4/10
2/15 … 2/17
4/6
2/6, 2/7
2/2
P
Perfect Harmony overview
Power quality monitoring
Power quality output
Production schedules
Protection functions
ProToPS
2/2
4/2
2/2
4/2
2/5
4/9
R
D
Redundant blower
Dimension drawings
Display instruments
Documentation
Drive acceptance tests
Drive input protection
Drive topology
Duct flange connection
5/13, 5/14
4/5
4/2, 6/3
4/3
5/4
2/3
4/8
E
Electrical door interlocks
Electrical submersible pumps applications
EMC filter
Extended reliability
4/7
4/2
4/6
2/2
F
Fast delivery
2/2, 2/19
G
GenIIIe characteristics
GenIV characteristics
Gland plates
2/7
2/6
4/7
I
7
Installation and maintenance
Insulated Gate Bipolar Transistors (IGBTs)
Interfaces
Intermediate arrestors
IP42 degree of protection
2/2
2/3
5/8
4/8
4/8
K
4/8
S
Scope of delivery
Selection and ordering data
Motor voltage 2.3/2.4 kV
Motor voltage 3.3 kV
Motor voltage 4.0/4.16 kV
Motor voltage 4.6/4.8 kV
Motor voltage 6.0 kV
Motor voltage 6.6 kV
Serial communication
Service and support
Sine-wave filter
Speed and torque control
Standards and regulations
5/12
2/9
2/10
2/11
2/12
2/13
2/14
4/4
6/4, 6/5
4/10
5/5
2/2
T
Technical data
GenIIIe
GenIV
Tools
NGXII ToolSuite
SinaSave
Training
Transformer
3/25 … 3/36
3/3 … 3/24
5/2
5/3
6/2, 6/3
2/3
U
UL listing
UPS mounted within the drive
4/9
4/7
V
(kW)ick Ship program
2/2, 2/19
L
Linked low-voltage cells
2/3
M
Maximized availability
Mechanical door interlocks
Monitoring functions
Motor monitoring
7/2
Siemens D 15.2 · 2011
2/2
4/7
2/5
4/2
Vector control
Version for harsh environment conditions
4/5
4/8
© Siemens AG 2011
Appendix
Standard terms and
conditions of sale and delivery
■ Conditions of sale and delivery
1. Applicable Terms. These terms govern the sale of Products
by Siemens. Whether these terms are included in an offer or
an acceptance by Siemens, such offer or acceptance is
conditioned on Buyer's assent to these terms. Any
additional, different or conflicting terms contained in Buyer's
request for proposal, specifications, purchase order or any
other written or oral communication from Buyer shall not be
binding in any way on Siemens. Siemens failure to object to
any such additional, different or conflicting terms shall not
operate as a waiver of these terms.
2. Pricing & Payment. The prices shall be: (a.) as stated in
Siemens’ proposal, or if none are stated, (b.) Siemens'
standard prices in effect at the time of release for shipment.
In the event of a price increase or decrease, the price of
Products on order shall be adjusted to reflect such increase
or decrease. This does not apply to a shipment held by
request of Buyer. Products already shipped are not subject
to price increase or decrease. Discounts, if any, are as
specified on the latest discount sheets issued from time to
time. Cash discounts are not applicable to notes or trade
acceptances, to prepaid transportation charges when
added to Siemens' invoices or to discountable items if there
are undisputed past due items on the account. Cash
discounts shall only be allowed on that portion of the invoice
paid within the normal discount period.
(a) Payment – Unless otherwise stated, all payments shall
be net 30 days from invoice date payable in United
States Dollars.
(b) Credit Approval – All orders are subject to credit
approval by Siemens. The amount of credit or terms of
payment may be changed or credit withdrawn by
Siemens at any time for any reason without advance
notice. Siemens may, in its discretion, withhold further
manufacture or shipment; require immediate cash
payments for past and future shipments; or require other
security satisfactory to Siemens before further
manufacture or shipment is made; and may, if shipment
has been made, recover the Products from the carrier,
pending receipt of such assurances.
(c) Installment Shipment – If these terms require or authorize
delivery of Products in separate shipments to be
separately accepted by Buyer, Buyer may only refuse
such portion of such shipment that fails to comply with
the requirements of these terms. Buyer may not refuse to
receive any lot or portion of hereunder for failure of any
other lot or portion of a lot to be delivered or to comply
with these terms, unless such right of refusal is expressly
provided for on the face hereof. Buyer shall pay for each
lot in accordance with the terms hereof. Payment shall be
made for the Products without regard to whether Buyer
has made or may make any inspection of the Products.
Products held for Buyer are at Buyer's sole risk and
expense.
(d) Taxes, Shipping, Packing, Handling – Except to the
extent expressly stated in these terms, Siemens’ prices
do not include any freight, storage, insurance, taxes,
excises, fees, duties or other government charges
related to the Product, and Buyer shall pay such
amounts or reimburse Siemens for any amounts Siemens
pays. If Buyer claims a tax or other exemption or direct
payment permit, it shall provide Siemens with a valid
exemption certificate or permit and indemnify, defend
and hold Siemens harmless from any taxes, costs and
penalties arising out of same. Siemens' prices include
the costs of its standard domestic packing only. Any
deviation from this standard packing (domestic or
export), including U.S. Government sealed packing,
shall result in extra charges. To determine such extra
charges, consult Siemens' sales offices. Any and all
increases, changes, adjustments or surcharges
(including, without limitation, fuel surcharges) which may
be in connection with the freight charges, rates or
classification included as part of these terms, shall be for
the Buyer’s account. Orders of less than $400 are subject
to a $25 handling fee.
(e) Finance Charge – Buyer agrees to pay FINANCE
CHARGES on the unpaid balance of all overdue
invoices, less any applicable payments and credits, from
the date each invoice is due and payable at an ANNUAL
PERCENTAGE RATE of EIGHTEEN PERCENT (18%), or
the highest applicable and lawful rate on such unpaid
balance, whichever is lower.
(f) Disputed Invoice – In the event Buyer disputes any
portion or all of an invoice, it shall notify Siemens in
writing of the amount in dispute and the reason for its
disagreement within 21 days of receipt of the invoice.
The undisputed portion shall be paid when due, and
FINANCE CHARGE on any unpaid portion shall accrue,
from the date due until the date of payment, to the extent
that such amounts are finally determined to be payable
to Siemens.
(g) Collection. Upon Buyer’s default of these terms, Siemens
may, in addition to any other rights or remedies at
contract or law, subject to any cure right of Buyer,
declare the entire balance of Buyer’s account
immediately due and payable or foreclose any security
interest in Products delivered. If any unpaid balance is
referred for collection, Buyer agrees to pay Siemens, to
the extent permitted by law, reasonable attorney fees in
addition to all damages otherwise available, whether or
not litigation is commenced or prosecuted to final
judgment, plus any court costs or expenses incurred by
Siemens, and any FINANCE CHARGES accrued on any
unpaid balance owed by Buyer.
3. Delivery; Title; Risk of Loss. Product shall be delivered
F.O.B. Siemens point of shipment with title to the Product
and risk of loss or damage for the Product passing to Buyer
at that point. Buyer shall be responsible for all
transportation, insurance and related expenses including
any associated taxes, duties or documentation. Siemens
may make partial shipments. Shipping dates are
approximate only and Siemens shall not be liable for any
loss or expense (consequential or otherwise) incurred by
Buyer or Buyer's customers if Siemens fails to meet the
specified delivery schedule. A 5% handling charge will be
added to the price for all Product furnished from a local
branch.
4. Deferment and Cancellation. Buyer shall have no deferment
rights and Buyer shall be liable for cancellation charges,
which shall include without limitation
(a) payment of the full product price for any finished Product
or works in progress;
(b) payment for raw materials ordered pursuant to a firm
purchase order; and
(c) such other direct costs incurred by Siemens as a result
of such cancellation.
5. Force Majeure / Delays. If Siemens suffers delay in
performance due to any cause beyond its reasonable
control, including without limitation acts of God, strikes,
labor shortage or disturbance, fire, accident, war or civil
disturbance, delays of carriers, failure of normal sources of
supply, or acts of government, the time of performance shall
be extended a period of time equal to the period of the delay
and its consequences. Siemens will give to Buyer notice
within a reasonable time after Siemens becomes aware of
any such delay
Siemens D 15.2 · 2011
7/3
7
© Siemens AG 2011
Appendix
Standard terms and
conditions of sale and delivery
■ Conditions of sale and delivery (continued)
6. Buyer's Requirements. Timely performance by Siemens is
contingent upon Buyer's supplying to Siemens all required
technical information and data, including drawing
approvals, and all required commercial documentation.
7
7. Limited Warranty.
(a) Limited Product Warranty Statements. For each Product
purchased from Siemens or an authorized reseller,
Siemens makes the following limited warranties: (i) the
Product is free from defects in material and
workmanship, (ii) the Product materially conforms to
Siemens' specifications that are attached to, or expressly
incorporated by reference into, these terms, and (iii) at
the time of delivery, Siemens has title to the Product free
and clear of liens and encumbrances (collectively, the
"Limited Warranties"). Warranties with respect to software
which may be furnished by Seller as part of the Product,
if any, are expressly set forth elsewhere in these terms.
The Limited Warranties set forth herein do not apply to
any software furnished by Siemens. If software is
furnished by Siemens, then the attached Software
License/Warranty Addendum shall apply.
(b) Conditions to the Limited Warranties. The Limited
Warranties are conditioned on (i) Buyer storing,
installing, operating and maintaining the Product in
accordance with Siemens' instructions, (ii) no repairs,
modifications or alterations being made to the Product
other than by Siemens or its authorized representatives,
(iii) using the Product within any conditions or in
compliance with any parameters set forth in
specifications that are attached to, or expressly
incorporated by reference into, these terms, (iv) Buyer
discontinuing use of the Product after it has, or should
have had, knowledge of any defect in the Product, (v)
Buyer providing prompt written notice of any warranty
claims within the warranty period described below, (vi) at
Siemens' discretion, Buyer either removing and shipping
the Product or non-conforming part thereof to Siemens,
at Buyer's expense, or Buyer granting Siemens access
to the Products at all reasonable times and locations to
assess the warranty claims, and (vii) Buyer not being in
default of any payment obligation to Siemens under
these terms.
(c) Exclusions from Limited Warranty Coverage. The Limited
Warranties specifically exclude any equipment
comprising part of the Product that is not manufactured
by Siemens or not bearing its nameplate. To the extent
permitted, Siemens herby assigns any warranties made
to Siemens for such equipment. Siemens shall have no
liability to Buyer under any legal theory for such
equipment or any related assignment of warranties.
Additionally, any Product that is described as being
experimental, developmental, prototype, or pilot is
specifically excluded from the Limited Warranties and is
provided to Buyer .as is. with no warranties of any kind.
Also excluded from the Limited Warranties are normal
wear and tear items including any expendable items that
comprise part of the Product, such as fuses and light
bulbs and lamps.
(d) Limited Warranty Period. Buyer shall have 12 months
from initial operation of the Product or 18 months from
shipment, whichever occurs first, to provide Siemens
with prompt, written notice of any claims of breach of the
Limited Warranties. Continued use or possession of the
Product after expiration of the warranty period shall be
conclusive evidence that the Limited Warranties have
been fulfilled to the full satisfaction of Buyer, unless
Buyer has previously provided Siemens with notice of a
breach of the Limited Warranties.
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Siemens D 15.2 · 2011
(e) Remedies for Breach of Limited Warranty. Buyer's sole
and exclusive remedies for any breach of the Limited
Warranties are limited to Siemens' choice of repair or
replacement of the Product, or non-conforming parts
thereof, or refund of all or part of the purchase price. The
warranty on repaired or replaced parts of the Product
shall be limited to the remainder of the original warranty
period. Unless otherwise agreed to in writing by
Siemens, (i) Buyer shall be responsible for any labor
required to gain access to the Product so that Siemens
can assess the available remedies and (ii) Buyer shall be
responsible for all costs of installation of repaired or
replaced Products. All exchanged Products replaced
under this Limited Warranty will become the property of
Siemens.
(f) Transferability. The Limited Warranties shall be
transferable during the warranty period to the initial enduser of the Product.
THE LIMITED WARRANTIES SET FORTH IN THIS
SECTION ARE SIEMENS' SOLE AND EXCLUSIVE
WARRANTIES AND ARE SUBJECT TO THE LIMITS OF
LIABILITY SET FORTH IN SECTION 8 BELOW. SIEMENS
MAKES NO OTHER WARRANTIES, EXPRESS OR
IMPLIED, INCLUDING, WITHOUT LIMITATION,
WARRANTIES OF MERCHANTABILITY OR FITNESS
FOR A PARTICULAR PURPOSE, COURSE OF DEALING
AND USAGE OF TRADE.
8. LIMITATION OF LIABILITY. NEITHER SIEMENS, NOR ITS
SUPPLIERS, SHALL BE LIABLE, WHETHER IN CONTRACT,
WARRANTY, FAILURE OF A REMEDY TO ACHIEVE ITS
INTENDED OR ESSENTIAL PURPOSES, TORT
(INCLUDING NEGLIGENCE), STRICT LIABILITY,
INDEMNITY OR ANY OTHER LEGAL THEORY, FOR LOSS
OF USE, REVENUE, SAVINGS OR PROFIT, OR FOR COSTS
OF CAPITAL OR OF SUBSTITUTE USE OR
PERFORMANCE, OR FOR INDIRECT, SPECIAL,
LIQUIDATED, PUNITIVE, EXEMPLARY, COLLATERAL,
INCIDENTAL OR CONSEQUENTIAL DAMAGES, OR FOR
ANY OTHER LOSS OR COST OF A SIMILAR TYPE, OR FOR
CLAIMS BY BUYER FOR DAMAGES OF BUYER'S
CUSTOMERS. SIEMENS’ MAXIMUM LIABILITY UNDER
THIS CONTRACT SHALL BE THE ACTUAL PURCHASE
PRICE RECEIVED BY SIEMENS FOR THE PRODUCT AT
ISSUE OR ONE MILLION DOLLARS, WHICHEVER IS LESS.
BUYER AGREES THAT THE EXCLUSIONS AND
LIMITATIONS SET FORTH IN THIS ARTICLE ARE SEPARATE
AND INDEPENDENT FROM ANY REMEDIES WHICH
BUYER MAY HAVE HEREUNDER AND SHALL BE GIVEN
FULL FORCE AND EFFECT WHETHER OR NOT ANY OR
ALL SUCH REMEDIES SHALL BE DEEMED TO HAVE
FAILED OF THEIR ESSENTIAL PURPOSE. THESE
LIMITATIONS OF LIABILITY ARE EFFECTIVE EVEN IF
SIEMENS HAS BEEN ADVISED BY THE BUYER OF THE
POSSIBILITY OF SUCH DAMAGES.
© Siemens AG 2011
Appendix
Standard terms and
conditions of sale and delivery
■ Conditions of sale and delivery (continued)
9. Patent and Copyright Infringement. Siemens will, at its own
expense, defend or at its option settle any suit or proceeding
brought against Buyer in so far as it is based on an
allegation that any Product (including parts thereof), or use
thereof for its intended purpose, constitutes an infringement
of any United States patent or copyright, if Siemens is
promptly provided notice and given authority, information,
and assistance in a timely manner for the defense of said
suit or proceeding. Siemens will pay the damages and costs
awarded in any suit or proceeding so defended. Siemens
will not be responsible for any settlement of such suit or
proceeding made without its prior written consent. In case
the Product, or any part thereof, as a result of any suit or
proceeding so defended is held to constitute infringement or
its use by Buyer is enjoined, Siemens will, at its option and
its own expense, either: (a) procure for Buyer the right to
continue using said Product; (b) replace it with substantially
equivalent non-infringing Product; or (c) modify the Product
so it becomes non-infringing.
Siemens will have no duty or obligation to Buyer under this
Article to the extent that the Product is (a) supplied
according to Buyer's design or instructions wherein
compliance therewith has caused Siemens to deviate from
its normal course of performance, (b) modified by Buyer or
its contractors after delivery, (c) combined by Buyer or its
contractors with devices, methods, systems or processes
not furnished hereunder and by reason of said design,
instruction, modification, or combination a suit is brought
against Buyer. In addition, if by reason of such design,
instruction, modification or combination, a suit or
proceeding is brought against Siemens, Buyer shall protect
Siemens in the same manner and to the same extent that
Siemens has agreed to protect Buyer under the provisions
of the Section above.
THIS ARTICLE IS AN EXCLUSIVE STATEMENT OF ALL THE
DUTIES OF THE PARTIES RELATING TO PATENTS AND
COPYRIGHTS, AND DIRECT OR CONTRIBUTORY PATENT
OR COPYRIGHT AND OF ALL THE REMEDIES OF BUYER
RELATING TO ANY CLAIMS, SUITS, OR PROCEEDINGS
INVOLVING PATENTS AND COPYRIGHTS.
10. Compliance with Laws. Buyer agrees to comply with all
applicable laws and regulations relating to the purchase,
resale, exportation, transfer, assignment, disposal or use of
the goods.
11. Changes in Work. Siemens shall not implement any changes
in the scope of work unless Buyer and Siemens agree in
writing to the details of the change and any resulting price,
schedule or other contractual modifications. Any change to
any law, rule, regulation, order, code, standard or
requirement which requires any change hereunder shall
entitle Siemens to an equitable adjustment in the prices and
any time of performance.
13. Final Written Agreement; Modification of Terms. These
terms, together with any quotation, purchase order or
acknowledgement issued or signed by Siemens, comprise
the complete and exclusive agreement between the parties
(the .Agreement.) and supersede any terms contained in
Buyer’s documents, unless separately signed by Siemens.
These terms may only be modified by a written instrument
signed by authorized representatives of both parties.
14. Assignment. Neither party may assign the Agreement, in
whole or in part, nor any rights or obligations hereunder
without the prior written consent of the other; provided
however that Siemens may assign its rights and obligations
under these terms to its affiliates and Siemens may grant a
security interest in the Agreement and/or assign proceeds of
the Agreement without Buyer’s consent.
15. Applicable Law and Jurisdiction. These terms is governed
and construed in accordance with the laws of the State of
Delaware, without regard to its conflict of laws principles.
The application of the United Nations Convention on
Contracts for the International Sale of Goods is excluded.
BUYER WAIVES ALL RIGHTS TO A JURY TRIAL IN ANY
ACTION OR PROCEEDING RELATED IN ANY WAY TO
THESE TERMS.
16. Severability. If any provision of these terms are held to be
invalid, illegal or unenforceable, the validity, legality and
enforceability of the remaining provisions will not in any way
be affected or impaired, and such provision will be deemed
to be restated to reflect the original intentions of the parties
as nearly as possible in accordance with applicable law.
17. Export Compliance. Buyer acknowledges that Siemens is
required to comply with applicable export laws and
regulations relating to the sale, exportation, transfer,
assignment, disposal, and usage of the Products provided
under the Contract, including any export license
requirements. Buyer agrees that such Products shall not at
any time directly or indirectly be used, exported, sold,
transferred, assigned or otherwise disposed of in a manner
which will result in non-compliance with such applicable
export laws and regulations. It shall be a condition of the
continuing performance by Siemens of its obligations
hereunder that compliance with such export laws and
regulations be maintained at all times. BUYER AGREES TO
INDEMNIFY AND HOLD SIEMENS HARMLESS FROM ANY
AND ALL COSTS, LIABILITIES, PENALTIES, SANCTIONS
AND FINES RELATED TO NON-COMPLIANCE WITH
APPLICABLE EXPORT LAWS AND REGULATIONS.
7
12. Non-waiver of Default. Each shipment made hereunder shall
be considered a separate transaction. In the event of any
default by Buyer, Siemens may decline to make further
shipments. If Siemens elects to continue to make shipments,
Siemens’ actions shall not constitute a waiver of any default
by Buyer or in any way affect Siemens’ legal remedies for
any such default. Any waiver of Siemens to require strict
compliance with the provisions of this contract shall be in
writing and any failure of Siemens to require such strict
compliance shall not be deemed a waiver of Siemens’ right
to insist upon strict compliance thereafter.
Siemens D 15.2 · 2011
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© Siemens AG 2011
Appendix
Notes
7
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Siemens D 15.2 · 2011
© Siemens AG 2011
Appendix
Notes
7
Siemens D 15.2 · 2011
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© Siemens AG 2011
Appendix
Notes
7
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Siemens D 15.2 · 2011
© Siemens AG 2011
Siemens
© Siemens AG 2011
For Further Information
Siemens Drive Technologies:
www.automation.siemens.com/mcms/drives/en
Siemens drives family:
www.sea.siemens.com/us/products/drives
Local partners worldwide:
www.siemens.com/automation/partner
Siemens Industry, Inc.
Siemens LD AM
500 Hunt Valley Road
New Kensington, PA 15068
UNITED STATES OF AMERICA
www.siemens.com/automation
Subject to change without prior notice
Order No. E86060-K5515-A121-A2-7600
3P.8322.93.01
KG 0311 100 En
Printed in USA
© Siemens AG 2011
The information provided in this catalog contains descriptions or
characteristics of performance which in case of actual use do not
always apply as described or which may change as a result of
further development of the products. An obligation to provide
the respective characteristics shall only exist if expressly agreed in
the terms of contract. Availability and technical specifications are
subject to change without notice.
All product designations may be trademarks or product names
of Siemens AG or supplier companies whose use by third
parties for their own purposes could violate the rights of
the owners.
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