DRV-MV-air-cooled-catalog_good.pdf

March 24, 2018 | Author: Karunakar Siluveru | Category: Rectifier, Power Inverter, Transformer, Electrical Engineering, Electromagnetism


Comments



Description

© Siemens AG 2011Medium-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 (Catalog D 12) 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. And discover how you can sustainably enhance your competitive edge with us. Our technology platform TIP offers robust solutions for power distribution.2 · 2011 Check out the opportunities our automation and drive solutions provide. and low-voltage switching technology as well as industrial software from standard products up to entire industry solutions. Siemens offers automation. In industrial as well as in functional buildings. from motors to control and drive solutions for all engineering industries. Siemens Industry answers the challenges in the manufacturing and the process industry as well as in the building automation business. Our electrical and mechanical components offer integrated technologies for the entire drive train – from couplings to gear units. 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. drive. 2 Siemens D 15. . In the manufacturing and the process industry.© Siemens AG 2011 Answers for industry. Our drive and automation solutions based on Totally Integrated Automation (TIA) and Totally Integrated Power (TIP) are employed in all kinds of industry. 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 . integration and commissioning up to operator control. kneaders.8 MW to 31. fans. The result: Increasingly higher reliability and operational reliability and safety.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. 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. marine drives. an uncountable number of users have been depending on medium-voltage drives from Siemens since decades – and that worldwide. mixers. compressors. ESP. mixers. With the latter. We consequentially utilize the strengths of various technologies to implement these solutions. crushers. retrofit Pumps. a medium voltage is obtained at the output by connecting low-voltage cells in series. extruders.000 rpm in the Megawatt range The decisive plus when it comes to experience Everywhere where it involves the highest degree of availability. conveyor systems.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. . presses.3 to 13.excavators.© 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. we are continually developing our medium-voltage drives. extruders. • From 1969: Variable-speed medium-voltage drive systems with current-source DC link • From 1970: Cycloconverters – with more than 700 drives. mine hoists. agitators. agitators. pumps. continually lower energy requirement and service and maintenance costs as well as increasingly simpler handling: from engineering through installation. marine drives. mine hoists. And all of this didn’t just happen by chance – it is the result of our many years of experience. fans. ore crushers and cement mills The benchmark when it comes to medium-voltage drive systems Siemens is the undisputed No. starting drives for blast furnaces Rolling mills. extruders. conveyor systems.5 MW 2. conveyor systems. 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. continually more compact types of construction. fans. our power of innovation and our extensive know-how. The reason for this lies in the reliability of our drive systems that has become almost legendary. presses. test stands Compressors. 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. kneaders.2 · 2011 Well-proven as basis Based on well-proven technological concepts. wire rod mills Rolling mills. compressors. crushers. Always the optimum solution No matter which medium-voltage drive task is involved: We can always offer the optimum solution. Advances to our product line are made without "reinventing the wheel" like other drive manufacturers. A bright future built on a firm foundation Since its introduction in 1994. As one of the largest companies in the world. We offer you expertise across the globe and a world of innovation. and paper production. or pumps and you haven’t installed a drive yet. And with an installed base exceeding more than 2.2 million kW worldwide. We’re the only company that offers drives from 150 to 60. the market-leader in medium-voltage air-cooled drives in the world. and longevity. and we look forward to counting you among them. fans. according to experts. our customers see a reduction in maintenance and spare parts as well as an increase in quality and lower life-cycle costs. precision. We have maintained the ROBICON Perfect Harmony’s core topology and continue to advance its capability. 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. and other devices. the ROBICON Perfect Harmony drive has revolutionized power conversion and continues to set industry standards for reliability and innovation. the ROBICON Perfect Harmony drive is a versatile performer that can help you significantly increase productivity. We improve our products by actively soliciting the input of our customers. and a smaller drive footprint. industrial motors consume over a billion kilowatt hours of energy each year – fully 50 percent of the world’s energy usage. Siemens provides confidence and financial stability in addition to exceptional technology. Employed in applications ranging from power generation to oil and gas. water/waste water.© Siemens AG 2011 Introduction Perfect harmony of performance and value ■ Benefits According to energy authorities. That means that the right drive can help you drive cost out of your operation by providing more precise and efficient control of motors. By keeping the same topology. pumps. more efficient drive trains. and adjustable speed drives will help drive energy usage down. enhance energy efficiency. ensuring life-cycle product support. System enhancements such as improved sizing and proper matching to load. Siemens drives. fans. The ROBICON Perfect Harmony's™ outstanding record has made it the drive of choice for demanding applications that require the highest levels of reliability. too.000 kW. If your process includes motors. Siemens improves each generation of the ROBICON Perfect Harmony in three key areas: increased reliability and availability. the ROBICON Perfect Harmony is a proven workhorse that can perform brilliantly for you. 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.2 · 2011 1/3 1 . Siemens D 15. As power switching device technology advances and increases output voltage capability. increased efficiency. and reduce operating costs. 8 kV AC (standard).2 kV Input voltage 2.2 MW) Output voltage 2.3 to 6.2 · 2011 . 500 or 660 A at 690 V AC. ROBICON Perfect Harmony family is summarized in the 2 tables below. 100.3 to 8. please contact the factory or your local Siemens sales representative. where they are functionally identical and share a common controller.3 to 7.30 to 5. 70.60 MW) 1750 to 8000 hp (1.© Siemens AG 2011 Introduction 1 ROBICON Perfect Harmony family ■ Design The ROBICON Perfect Harmony drive family consists of three core design configurations.8 kVAC (standard) up to 33 kV (option).0 kV Input voltage 2. These three designs are targeted at distinct output power configurations with little overlap between the frame sizes. 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.4 to 13. 200 or 260 A at 750 V AC 315.4 to 13.4 to 13.8 kV AC (standard).15 to 2. 375. 50/60 Hz 2. Air-cooled family GenIV GenIIIe Power range 200 to 3500 hp (0. 1/4 Siemens D 15. 720 A at 630 V AC Liquid-cooled family 1) WC III Power range 4000 to 19000 hp (3 MW to 14.6 kV 2. 50/60 Hz Cooling type Air-cooled Air-cooled Power cell ratings 40.96 MW) Output voltage 2. 140. 16 kV Motor voltage 4.0/4.3 kV Motor voltage 4. supplements 2/18 Options Siemens D 15.8 kV Motor voltage 6.0 kV Motor voltage 6.3/2.4 kV Motor voltage 3.6/4.2 © 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 2.6 kV Order No.2 · 2011 . • Factory testing allows accurate efficiency measurements to ensure that drive performance meets customer specifications. • Power cells can be pulled out easily for maintenance due to their reduced weight and front accessible connections.. • Customer needs to provide three cables in and three cables out. ANSI and IEEE standards. 260 Air-cooled 6SR4 GenIIIe 690 315 . Factory System Test offers the following advantages: • Each transformer and converter is tested as a complete system at full load prior delivery. 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. 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.g. Please refer to chapter "Options" on page 2/18 for more details. 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). This conversion is done electronically without moving parts. ■ 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. 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. The following table shows main characteristics of the ROBICON Perfect Harmony air-cooled generations discussed in this catalog and the short terms used... e. There is no customer site cabling required to connect the assembled sections. 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. for example: • Industrial pumps and fans • Oil & gas pumps and compressors. • Verification of sequence of operation and protection functions Installation and maintenance • The ROBICON Perfect Harmony drives are easy to install and maintain. Siemens D 15. 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.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. 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.© 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 . IEEE 519-1992 compliance can only be guaranteed in networks without prior disturbances or harmonics already present. 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). manufactured and tested according to applicable NEMA. Clean power input The ROBICON Perfect Harmony drive: • Meets the most stringent IEEE 519-1992 requirements for voltage and current harmonic distortion.. 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. . • Sophisticated microprocessor-based diagnostics pinpoint the location of any defects. This patented modular configuration gives the ROBICON Perfect Harmony many advantages when it comes to maintenance. The usual standards. Each power cell is capable of receiving input power at 750 V AC 2). ANSI C57-12. Transformer The transformer is an integral part of the drive and cannot be specified or obtained separately. life-cycle confidence. as shown in figure "Topology of ROBICON Perfect Harmony drives (3 cells)". 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)). The low-voltage power cells are simplified variations of standard 2-level PWM motor drives for lowvoltage service. 50/60 Hz and delivering that power to a single phase load at a variable frequency from 0.91. which have been built in high volume for many years. ROBICON Perfect Harmony transformers are dry-type forcedair. 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.5 to the maximum rated output frequency of the drive. Medium-voltage levels are obtained by adding together the outputs of multiple low-voltage power cells. It also provides the basis for one of its most important advantages – increased availability through the advanced cell bypass option. long-term. It is very important to recognize that this is no ordinary transformer which can be obtained as an off-the-shelf item. Siemens D 15. They are designed specifically for use with a particular ROBICON Perfect Harmony drive and have 9 to 18 extended delta secondaries.51 and C57-12. Insulated Gate Bipolar Transistors (IGBTs) form the backbone of the ROBICON Perfect Harmony drive. 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. power quality and reliability. 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 · 2011 2/3 2 . Thus. 2) 690 V AC in case of a GenIIIe power cell. with additional secondary windings (number of secondaries equals number of power cells) on the integral isolation transformer. Built in high volumes and serving as a proven power device across the industrial power control industry. The secondary currents are rich in harmonics. The stability and availability of IGBTs give reliable. It has been carefully designed over several generations to function properly with the ROBICON Perfect Harmony drive. but the primary current is virtually sinusoidal.© 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. 3-phase. IGBT technology has been in existence for more than a decade. apply to transformers with only a few windings and which are subjected to sinusoidal currents. 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.5° VAC B G_D015_EN_00008 When two cells are bypassed in phase A. Balance is restored. the ROBICON Perfect Harmony ensures automatic bypass of a failed power cell in less than 500 ms. Obviously. 60 % of full voltage is available. 87 % of the cells are functional. so that a balanced set of motor voltages is obtained even though the cell group voltages are not balanced.© 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. 87 % of the modules are in use.5° B1 C3 C 120° A1 C1 C2 87 % of the modules are in use. G_D015_EN_00007 Advanced cell bypass . and from phase C by 120°. The patented. this method prevents unbalance but sacrifices possible voltage capability. The voltage commands to the three phase groups of cells will have phase A displaced from phase B by 120°. The figure below shows a 15cell drive in which no cells are bypassed. it is important to maximize the motor voltage available after one or more cells have been bypassed. 15 module drive with no modules bypassed. but the output voltage is available unbalanced. 80 % of full voltage is available. 100 % of full voltage is available. as illustrated in the figure below. With 100 % of the cells in use. Therefore the star-point can be shifted away from the motor neutral.5°. where the cells. even though some may not have faulted. are shown as simple voltage sources. Therefore. A A3 A1 B3 C4 B4 C5 C B5 VCB Drive output with 2 cells bypassed in phase A 2/4 Siemens D 15. The following figure illustrates this approach. so that the maximum speed at which the drive can fulfill the application requirements will also be reduced. Since the cells in each phase of a ROBICON Perfect Harmony drive are in series. In this figure.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. A2 VAC 132. This approach is equivalent to introducing a zero-sequence component into the voltage command vectors for the cells. Usually the required motor voltage is roughly proportional to speed. cellbased configuration maximizes uptime and simplifies modifications. and only 60 % of full voltage is available. the output voltage will tend to become unbalanced. 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. Siemens calls this approach Neutral Shift. and is not connected to the neutral of the motor. In the figure below. 100 % of the original voltage is available. and 80 % of the original voltage is available. This method takes advantage of the fact that the star-point of the cells is floating. A3 A2 Simplified diagram of a 15 cell drive 15 module drive after bypass of 2 modules in phase A. instead of the normal 120°. The following figures illustrate the voltage available from a ROBICON Perfect Harmony drive. 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. bypassing a cell has no effect on the current capability of the drive. 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. A 100 % of the modules are in use. the full remaining 87 % of functional cells are in use. but the voltage capability will be reduced. but only 60 % are in use. but only 60 % are in use. A3 A 15 module drive after bypass of 2 modules in phase A only and adjustment of phase angles. represented by circles. One possible remedy is to bypass an equal number of cells in all three phases. and the phase angles of the cell voltages can be adjusted. 15 module drive after bypass of 2 modules in all phases. Estimation of these values requires the motor be spun. motor stator resistance and total leakage inductance are determined. input/output power. The switching cycle counter can be generated by means of an event log from the drive controller. 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. and efficiency on the operator panel. The motor thermal overload protection algorithm prevents the motor from being exposed to excessive temperatures. This is done in two stages. Instead of tripping the drive and automatically shutting down the system due to a malfunction. 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). Operating hours and switching cycle counter The amount of the time that the drive was operational since it was commissioned can be displayed. Auto tuning Auto tuning involves the estimation of motor parameters required for motor control. Siemens D 15. 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. In stage one. the control will reduce motor flux. Energy saver Energy saver control allows the reduction of motor losses. Flying restart The flying restart function permits smooth connection of the drive to a rotating motor. In stage two. the control will increase motor flux. This stage does not require spinning the motor. 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. the motor no-load current and total inertia are estimated. when the demanded motor load is low.2 · 2011 2/5 2 .© Siemens AG 2011 ROBICON Perfect Harmony Air-Cooled Drives Introduction ■ Function Control. 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. voltage. This control strategy allows time to evaluate the situation and respond appropriately to avoid a system shutdown. Thermal overload protection Based on the output signals of the drive the thermal motor model is calculated. Automatic restart The automatic restart switches the drive on again when the power is restored after a power failure or a general fault. Depending on the motor load. ProToPS provides a hierarchical system of warnings. Detection of actual motor speed The control algorithm calculates actual motor speed from currents and voltages measured at the drive output. Process control system The optional Process Tolerant Protection Strategy (ProToPS) is a groundbreaking process control system available exclusively from Siemens. Insulation monitoring An output signal can be provided optional to operate the customer protection. and ramps up to the current speed setpoint. current. and improves overall efficiency. As motor load increases. Accuracy of the estimation is better if the load is de-coupled from the motor. and loads ranging from 200 to 3500 hp. 100.3 to 13.© Siemens AG 2011 ROBICON Perfect Harmony Air-Cooled Drives Introduction ■ Function (continued) GenIV GenIV is the fourth generation of forced air-cooled mediumvoltage.0. 3. diodes Line-side rectifier 18.8 ±10 % of nominal rated input voltage Input voltage tolerance Input frequency Hz 50/60 ± 5 % Input power factor ≥ 0. 2/6 Siemens D 15.3/2.60 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. 100.2 · 2011 . voltage source inverter drives offered in the patented ROBICON Perfect Harmony topology..6/4.15 to 2. 260 at 750 V Input voltage range kV 2. 4. and reliable method of adjusting the speed of an AC motor.. 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.8 1).. 4. 1) Available soon. cycle time 10 min) 40 70 100 140 200 260 150 % (for 1 min.3. 70.. 70. cost effective. 2) The available continuous rating of 140 A will reduce to 130 A when operated at 45 °C ambient temperature. 140. 6.16. Drives in this product series provide an efficient. The core unit contains a wide range of expandable features.0/4.to 30-pulse diode rectifier Multi-level drive (PWM) with IGBT power modules Motor-side inverter Power cell ratings A 40. 167 rated torque (2-quadrant) Output dV/dt V/μs < 3000 Power range hp 200 to 3500 (0. 200. 6.0 kV) ROBICON Perfect Harmony GenIV characteristics Power semiconductors IGBTs. together with NXGII controller.5 .5 % Output torque Hz 10 .6 Output frequency and drift Hz 0.95 above 10 % load Input harmonics ≤ 5 % TDD Output voltages kV 2. 2 The GenIV is a series of adjustable speed AC motor drives presently available in 2300 to 6600 V outputs. 140.4. ROBICON Perfect Harmony GenIV (4. 200 and 260. enabling it to meet the demands of many types of industrial applications. Six power cell amperage types are available: 40. 330 ± 0. 720 at 630 V Input voltage range kV 2. 6. 375. 500.8 ±10 % of nominal rated input voltage Input voltage tolerance Input frequency Hz 50/60 ± 5 % Input power factor ≥ 0. 375. 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 315.4. 660 at 690 V. and loads ranging from 3000 to 9000 hp.6. 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. offered in the patented ROBICON Perfect Harmony power topology in concert with proprietary NXGII hardware control platform and embedded software. Siemens D 15. 3. 167 rated torque (2-quadrant) Output dV/dt V/μs < 1000 Power range hp 1750 to 8000 (1.0. characteristics Power semiconductors IGBTs.2 kV..95 above 10 % load Input harmonics ≤ 5 % TDD Output voltages kV 2. 4. Four power cell amperage types are available: 315.5 . 500. The GenIIIe is a series of adjustable speed AC motor drives presently available in an output voltage range from 2.© 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. ROBICON Perfect Harmony GenIIIe ROBICON Perfect Harmony GenIIIe.8.3 kV to 7.2 · 2011 2/7 2 . GenIIIe is an extension of the GenIII series offering a higher current rating.16.3 to 13.96 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.30 to 5. 330 ± 0.6/4. cycle time 10 min) 315 375 500 660 720 150 % (for 1 min..5 % Output torque Hz 10 .2 Output frequency and drift Hz 0. 7. 4. and 660 A at 690 V AC and one 720 A cell at 630 V AC.3/2..3. 6.. please take into consideration the following steps: Step 1 – Choosing the right cell size 1.88 . 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.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.1) by the motor SF. 2/8 Siemens D 15.94 for power cells up to 140 A 0.ηmotor = 0. The tables are organized according to the motor voltages.2 The transformer is designed to support the temporary overloads associated with the cells it feeds. 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.3 Factor in any overload requirements: • For the cell chosen on the previous paragraph. For the complete technical data of the listed converter types refer to chapter 3.© 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. Step 2 – Choosing the right transformer 2. You do so by multiplying the given/calculated current (from step 1. temporary overload not included: • Use the motor FLA if available or use the following formula to calculate motor current I.1 Determine the maximum continuous motor current. 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: . Note: Please contact the factory or your local Siemens sales representative for derating calculations. 1. identify the smallest cell available that can source the current calculated in the previous paragraph. the maximum continuous motor current will be the minimum continuous cell current rating.2 · 2011 1. 2 In order to select the right ROBICON Perfect Harmony drive.2 Determine the minimum continuous cell current rating: If the drive is intended to operate within nominal parameters.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. For the appropriate converter type. If those levels are exceeded by the application requirements. . I= Pmotor _ kW 冑 3 × Vmotor × PFmotor × ηmotor where. 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. please contact the factory or your local Siemens sales representative.PFmotor = 0. 2. 4 270 300 224 65 70 9 300 6SR4202-0 ■ B33-0 ■ ■ 0 GenIV 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 2.4 880 1000 746 212 260 9 1000 6SR4202-0 ■ F41-0 ■ ■ 0 GenIV 2. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.3/2. Siemens D 15.2 · 2011 2/9 2 .4 1760 2000 1492 423 500 9 2000 6SR3202-1 ■ J42-0 ■ ■ 0 GenIIIe 2. Both approximate values have to be adapted to the motor that is actually used.4 450 500 373 108 140 9 500 6SR4202-0 ■ D35-0 ■ ■ 0 GenIV 2.4 415 461 344 100 100 9 500 6SR4202-0 ■ C35-0 ■ ■ 0 GenIV 2.4 2200 2500 1865 529 660 9 2500 6SR3202-1 ■ K42-5 ■ ■ 0 GenIIIe 2.4 790 900 671 190 200 9 900 6SR4202-0 ■ E38-7 ■ ■ 0 GenIV 2.© Siemens AG 2011 ROBICON Perfect Harmony Air-Cooled Drives Selection and ordering data ■ Selection and ordering data Motor voltage 2.4 290 323 241 70 70 9 400 6SR4202-0 ■ B34-0 ■ ■ 0 GenIV 2.4 830 945 705 200 200 9 1000 6SR4202-0 ■ E41-0 ■ ■ 0 GenIV 2.4 1080 1229 917 260 260 9 1250 6SR4202-0 ■ F41-2 ■ ■ 0 GenIV 2.4 580 645 481 140 140 9 700 6SR4202-0 ■ D37-0 ■ ■ 0 GenIV 2.4 2075 2363 1763 500 500 9 2500 6SR3202-1 ■ J42-5 ■ ■ 0 GenIIIe 2.4 1540 1750 1306 370 375 9 1750 6SR3202-1 ■ H41-7 ■ ■ 0 GenIIIe 2.4 180 200 149 43 70 9 200 6SR4202-0 ■ B32-0 ■ ■ 0 GenIV 2.4 1980 2250 1679 476 500 9 2250 6SR3202-1 ■ J42-2 ■ ■ 0 GenIIIe 2.4 1305 1489 1111 315 315 9 1750 6SR3202-1 ■ G41-7■ ■ 0 GenIIIe 2.4 540 600 448 130 140 9 600 6SR4202-0 ■ D36-0 ■ ■ 0 GenIV 2.4 1555 1773 1322 375 375 9 2000 6SR3202-1 ■ H42-0 ■ ■ 0 GenIIIe 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 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.4 700 800 597 169 200 9 800 6SR4202-0 ■ E38-0 ■ ■ 0 GenIV 2. 3 720 800 597 126 140 9 800 6SR4202-0 ■ D38-0 ■ ■ 0 GenIV 3.3 1485 1690 1261 260 260 9 1750 6SR4202-0 ■ F41-7 ■ ■ 0 GenIV 3.3 180 200 149 32 40 9 200 6SR4202-0 ■ A32-0 ■ ■ 0 GenIV 3.3 1540 1750 1306 269 315 9 1750 6SR3202-1 ■ G41-7■ ■ 0 GenIIIe 3.3 570 634 473 100 100 9 700 6SR4202-0 ■ C37-0 ■ ■ 0 GenIV 3.3 880 1000 746 154 200 9 1000 6SR4202-0 ■ E41-0 ■ ■ 0 GenIV 3.3 410 450 336 71 100 9 450 6SR4202-0 ■ C34-5 ■ ■ 0 GenIV 3.3 225 254 189 40 40 9 300 6SR4202-0 ■ A33-0 ■ ■ 0 GenIV 3. Both approximate values have to be adapted to the motor that is actually used.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.3 1100 1250 933 192 200 9 1250 6SR4202-0 ■ E41-2 ■ ■ 0 GenIV 3.© Siemens AG 2011 ROBICON Perfect Harmony Air-Cooled Drives Selection and ordering data ■ Selection and ordering data (continued) Motor voltage 3.3 2855 3250 2424 500 500 9 3500 6SR3202-1 ■ J43-5 ■ ■ 0 GenIIIe 3.3 2640 3000 2238 462 500 9 3000 6SR3202-1 ■ J43-0 ■ ■ 0 GenIIIe 3.3 360 400 298 63 70 9 400 6SR4202-0 ■ B34-0 ■ ■ 0 GenIV 3.3 800 887 662 140 140 9 900 6SR4202-0 ■ D38-7 ■ ■ 0 GenIV 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 3.2 · 2011 .3 970 1100 821 169 200 9 1100 6SR4202-0 ■ E41-1 ■ ■ 0 GenIV 3.3 450 500 373 79 100 9 500 6SR4202-0 ■ C35-0 ■ ■ 0 GenIV 3.3 1320 1500 1119 231 260 9 1500 6SR4202-0 ■ F41-5 ■ ■ 0 GenIV 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 1760 2000 1492 308 315 9 2000 6SR3202-1 ■ G42-0■ ■ 0 GenIIIe 3.3 270 300 224 47 70 9 300 6SR4202-0 ■ B33-0 ■ ■ 0 GenIV 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 1140 1300 970 200 200 9 1500 6SR4202-0 ■ E41-5 ■ ■ 0 GenIV 3. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.3 630 700 522 110 140 9 700 6SR4202-0 ■ D37-0 ■ ■ 0 GenIV 3.3 400 444 331 70 70 9 450 6SR4202-0 ■ B34-5 ■ ■ 0 GenIV 3.3 540 600 448 95 100 9 600 6SR4202-0 ■ C36-0 ■ ■ 0 GenIV 3. 2/10 Siemens D 15. 16 2) 1320 1500 1119 190 200 9 1500 6SR4202-0 ■ E41-5 ■ ■ 0 GenIV 4.16 2) 900 1000 746 130 140 9 1000 6SR4202-0 ■ D41-0 ■ ■ 0 GenIV 4.16 2265 2581 1925 315 315 12 3000 6SR3202-3 ■ G43-0■ ■ 0 GenIIIe 4.0/4.16 2) 1540 1750 1306 222 260 9 1750 6SR4202-0 ■ F41-7 ■ ■ 0 GenIV 4.16 2) 810 900 671 117 140 9 900 6SR4202-0 ■ D38-7 ■ ■ 0 GenIV 4.© Siemens AG 2011 ROBICON Perfect Harmony Air-Cooled Drives Selection and ordering data ■ Selection and ordering data (continued) Motor voltage 4.0/4.0/4.16 4540 5162 3851 630 660 12 6000 6SR3202-3 ■ K46-0 ■ ■ 0 GenIIIe 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 4.16 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.0/4.16 2) 450 500 373 65 70 9 500 6SR4202-0 ■ B35-0 ■ ■ 0 GenIV 4.16 2) 360 400 298 52 70 9 400 6SR4202-0 ■ B34-0 ■ ■ 0 GenIV 4.16 2) 270 300 224 39 40 9 300 6SR4202-0 ■ A33-0 ■ ■ 0 GenIV 4.0/4.16 3080 3500 2611 427 500 12 3500 6SR3202-3 ■ J43-5 ■ ■ 0 GenIIIe 4.0/4.2 · 2011 2/11 2 .0 kV Siemens D 15.16 3520 4000 2984 488 500 12 4000 6SR3202-3 ■ J44-0 ■ ■ 0 GenIIIe 4.16 5185 5899 4401 720 720 12 6000 6SR3202-3 ■ L46-0 ■ ■ 0 GenIIIe 4.0/4.16 2) 180 200 149 26 40 9 200 6SR4202-0 ■ A32-0 ■ ■ 0 GenIV 4.16 2) 690 768 573 100 100 9 800 6SR4202-0 ■ C38-0 ■ ■ 0 GenIV 4.0/4.0/4.16 kV possible with overmodulation.16 2) 1760 2000 1492 254 260 9 2000 6SR4202-0 ■ F42-0 ■ ■ 0 GenIV 4.16 2) 1800 2048 1528 260 260 9 2250 6SR4202-0 ■ F42-2 ■ ■ 0 GenIV 4. 2) 4.16 2) 720 800 597 104 140 9 800 6SR4202-0 ■ D38-0 ■ ■ 0 GenIV 4.16 2200 2500 1865 305 315 12 2500 6SR3202-3 ■ G42-5■ ■ 0 GenIIIe 4.0/4.0/4.0/4.0/4.16 2700 3073 2292 375 375 12 3500 6SR3202-3 ■ H43-5 ■ ■ 0 GenIIIe 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 4.16 2) 1385 1576 1175 200 200 9 1750 6SR4202-0 ■ E41-7 ■ ■ 0 GenIV 4.16 2) 630 700 522 91 100 9 700 6SR4202-0 ■ C37-0 ■ ■ 0 GenIV 4.16 2) 480 538 401 70 70 9 600 6SR4202-0 ■ B36-0 ■ ■ 0 GenIV 4.16 2640 3000 2238 366 375 12 3000 6SR3202-3 ■ H43-0 ■ ■ 0 GenIIIe 4.16 2) 540 600 448 78 100 9 600 6SR4202-0 ■ C36-0 ■ ■ 0 GenIV 4. under load. motor is run at 4.0/4.0/4. Both approximate values have to be adapted to the motor that is actually used.0/4.0/4.16 4400 5000 3730 610 660 12 5000 6SR3202-3 ■ K45-0 ■ ■ 0 GenIIIe 4.0/4.0/4. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.16 3600 4097 3056 500 500 12 5000 6SR3202-3 ■ J45-0 ■ ■ 0 GenIIIe 4.16 2) 410 450 336 59 70 9 450 6SR4202-0 ■ B34-5 ■ ■ 0 GenIV 4.0/4.16 1980 2250 1679 275 315 12 2250 6SR3202-3 ■ G42-2■ ■ 0 GenIIIe 4.0/4.16 2) 275 307 229 40 40 9 400 6SR4202-0 ■ A34-0 ■ ■ 0 GenIV 4. 2/12 Siemens D 15.8 1540 1750 1306 185 200 12 1750 6SR4202-1 ■ E41-7 ■ ■ 0 4.8 540 600 448 65 70 12 600 6SR4202-1 ■ B36-0 ■ ■ 0 2) GenIV 4.8 2615 2978 2222 315 315 12 3000 6SR3202-3 ■ G43-0■ ■ 0 GenIIIe 4.6/4.8 580 645 481 70 70 12 700 6SR4202-1 ■ B37-0 ■ ■ 0 2) GenIV 4.8 1320 1500 1119 159 200 12 1500 6SR4202-1 ■ E41-5 ■ ■ 0 2) GenIV 2) GenIV 4.2 · 2011 .8 3520 4000 2984 423 500 12 4000 6SR3202-3 ■ J44-0 ■ ■ 0 GenIIIe 4. 2) Available soon.8 270 300 224 33 40 12 300 6SR4202-1 ■ A33-0 ■ ■ 0 2) GenIV 4.8 3115 3545 2645 375 375 12 4000 6SR3202-3 ■ H44-0 ■ ■ 0 GenIIIe 4.8 900 1000 746 108 140 12 1000 6SR4202-1 ■ D41-0 ■ ■ 0 2) GenIV 4.8 810 900 671 98 100 12 900 6SR4202-1 ■ C38-7 ■ ■ 0 2) 4.8 2160 2458 1834 260 260 12 2500 6SR4202-1 ■ F42-5 ■ ■ 0 2) GenIV 4.8 1660 1891 1411 200 200 12 2000 6SR4202-1 ■ E42-0 ■ ■ 0 2) GenIV 4.8 4155 4727 3526 500 500 12 5000 6SR3202-3 ■ J45-0 ■ ■ 0 GenIIIe 4.8 630 700 522 76 100 12 700 6SR4202-1 ■ C37-0 ■ ■ 0 2) GenIV 4.8 2200 2500 1865 264 315 12 2500 6SR3202-3 ■ G42-5■ ■ 0 GenIIIe 4.8 330 369 275 40 40 12 400 6SR4202-1 ■ A34-0 ■ ■ 0 2) GenIV GenIV 4.8 3080 3500 2611 370 375 12 3500 6SR3202-3 ■ H43-5 ■ ■ 0 GenIIIe 4.8 720 800 597 87 100 12 800 6SR4202-1 ■ C38-0 ■ ■ 0 2) GenIV GenIV 4.8 4400 5000 3730 529 660 12 5000 6SR3202-3 ■ K45-0 ■ ■ 0 GenIIIe 4.© Siemens AG 2011 ROBICON Perfect Harmony Air-Cooled Drives Selection and ordering data ■ Selection and ordering data (continued) Motor voltage 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 1130 1250 933 136 140 12 1250 6SR4202-1 ■ D41-2 ■ ■ 0 2) GenIV 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.8 830 922 688 100 100 12 1000 6SR4202-1 ■ C41-0 ■ ■ 0 2) GenIV 4.8 2640 3000 2238 317 375 12 3000 6SR3202-3 ■ H43-0 ■ ■ 0 GenIIIe 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 4.8 450 500 373 54 70 12 500 6SR4202-1 ■ B35-0 ■ ■ 0 2) GenIV 4.8 1160 1291 963 140 140 12 1500 6SR4202-1 ■ D41-5 ■ ■ 0 2) GenIV 4. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.8 360 400 298 43 70 12 400 6SR4202-1 ■ B34-0 ■ ■ 0 2) 4. Both approximate values have to be adapted to the motor that is actually used. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.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.0 2200 2500 1865 212 260 15 2500 6SR4202-2 ■ F42-5 ■ ■ 0 GenIV 6.0 725 807 602 70 70 15 900 6SR4202-2 ■ B38-7 ■ ■ 0 GenIV 6.0 415 461 344 40 40 15 500 6SR4202-2 ■ A35-0 ■ ■ 0 GenIV 6.0 2640 3000 2238 254 260 15 3000 6SR4202-2 ■ F43-0 ■ ■ 0 GenIV 6.0 5195 5909 4408 500 500 15 6000 6SR3202-5 ■ J46-0 ■ ■ 0 GenIIIe 6.0 720 800 597 69 70 15 800 6SR4202-2 ■ B38-0 ■ ■ 0 GenIV 6.0 5280 6000 4476 508 660 15 6000 6SR3202-5 ■ K46-0 ■ ■ 0 GenIIIe 6.0 1540 1750 1306 148 200 15 1750 6SR4202-2 ■ E41-7 ■ ■ 0 GenIV 6.0 540 600 448 52 70 15 600 6SR4202-2 ■ B36-0 ■ ■ 0 GenIV 6.0 6160 7000 5222 592 660 15 7000 6SR3202-5 ■ K47-0 ■ ■ 0 GenIIIe 6.0 1035 1152 860 100 100 15 1250 6SR4202-2 ■ C41-2 ■ ■ 0 GenIV 6.0 450 500 373 43 70 15 500 6SR4202-2 ■ B35-0 ■ ■ 0 GenIV 6.0 360 400 298 35 40 15 400 6SR4202-2 ■ A34-0 ■ ■ 0 GenIV 6.0 1350 1500 1119 130 140 15 1500 6SR4202-2 ■ D41-5 ■ ■ 0 GenIV 6.© Siemens AG 2011 ROBICON Perfect Harmony Air-Cooled Drives Selection and ordering data ■ Selection and ordering data (continued) Motor voltage 6.0 3520 4000 2984 338 375 15 4000 6SR3202-5 ■ H44-0 ■ ■ 0 GenIIIe 6.0 1130 1250 933 108 140 15 1250 6SR4202-2 ■ D41-2 ■ ■ 0 GenIV 6.0 3895 4432 3306 375 375 15 5000 6SR3202-5 ■ H45-0 ■ ■ 0 GenIIIe 6. Siemens D 15.0 270 300 224 26 40 15 300 6SR4202-2 ■ A33-0 ■ ■ 0 GenIV 6.0 900 1000 746 87 100 15 1000 6SR4202-2 ■ C41-0 ■ ■ 0 GenIV 6.0 1980 2250 1679 190 200 15 2250 6SR4202-2 ■ E42-2 ■ ■ 0 GenIV 6.0 1450 1613 1203 140 140 15 1750 6SR4202-2 ■ D41-7 ■ ■ 0 GenIV 6.0 810 900 671 78 100 15 900 6SR4202-2 ■ C38-7 ■ ■ 0 GenIV 6.2 · 2011 2/13 2 .0 630 700 522 61 70 15 700 6SR4202-2 ■ B37-0 ■ ■ 0 GenIV 6.0 2075 2363 1763 200 200 15 2500 6SR4202-2 ■ E42-5 ■ ■ 0 GenIV 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. Both approximate values have to be adapted to the motor that is actually used.0 1760 2000 1492 169 200 15 2000 6SR4202-2 ■ E42-0 ■ ■ 0 GenIV 6.0 3270 3722 2777 315 315 15 4000 6SR3202-5 ■ G44-0■ ■ 0 GenIIIe 6.0 4400 5000 3730 423 500 15 5000 6SR3202-5 ■ J45-0 ■ ■ 0 GenIIIe 6.0 3080 3500 2611 296 315 15 3500 6SR3202-5 ■ G43-5■ ■ 0 GenIIIe 6.0 2700 3073 2292 260 260 15 3500 6SR4202-2 ■ F43-5 ■ ■ 0 GenIV 6. 6 720 800 597 63 70 15 800 6SR4202-2 ■ B38-0 ■ ■ 0 GenIV 6.6 360 400 298 32 40 15 400 6SR4202-2 ■ A34-0 ■ ■ 0 GenIV 6.6 3520 4000 2984 308 315 18 4000 6SR3202-7 ■ G44-0■ ■ 0 GenIIIe 6.6 1140 1268 946 100 100 15 1500 6SR4202-2 ■ C41-5 ■ ■ 0 GenIV 6.6 450 500 373 39 40 15 500 6SR4202-2 ■ A35-0 ■ ■ 0 GenIV 6.6 1760 2000 1492 154 200 15 2000 6SR4202-2 ■ E42-0 ■ ■ 0 GenIV 6.6 3600 4095 3055 315 315 18 5000 6SR3202-7 ■ G45-0■ ■ 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.6 1130 1250 933 99 100 15 1250 6SR4202-2 ■ C41-2 ■ ■ 0 GenIV 6.6 2285 2600 1939 200 200 15 3000 6SR4202-2 ■ E43-0 ■ ■ 0 GenIV 6.6 3080 3500 2611 269 315 18 3500 6SR3202-7 ■ G43-5■ ■ 0 GenIIIe 6.© Siemens AG 2011 ROBICON Perfect Harmony Air-Cooled Drives Selection and ordering data ■ Selection and ordering data (continued) Motor voltage 6.6 630 700 522 55 70 15 700 6SR4202-2 ■ B37-0 ■ ■ 0 GenIV 6.6 1580 1750 1306 138 140 15 1750 6SR4202-2 ■ D41-7 ■ ■ 0 GenIV 6.6 6160 7000 5222 539 660 18 7000 6SR3202-7 ■ K47-0 ■ ■ 0 GenIIIe 6. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.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 5715 6500 4849 500 500 18 7000 6SR3202-7 ■ J47-0 ■ ■ 0 GenIIIe 6.6 2640 3000 2238 231 260 15 3000 6SR4202-2 ■ F43-0 ■ ■ 0 GenIV 6.2 · 2011 . Both approximate values have to be adapted to the motor that is actually used.6 1980 2250 1679 173 200 15 2250 6SR4202-2 ■ E42-2 ■ ■ 0 GenIV 6.6 800 887 662 70 70 15 900 6SR4202-2 ■ B38-7 ■ ■ 0 GenIV 6.6 2970 3380 2521 260 260 15 3500 6SR4202-2 ■ F43-5 ■ ■ 0 GenIV 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 6.6 540 600 448 47 70 15 600 6SR4202-2 ■ B36-0 ■ ■ 0 GenIV 6.6 1600 1775 1324 140 140 15 2000 6SR4202-2 ■ D42-0 ■ ■ 0 GenIV 6.6 810 900 671 71 100 15 900 6SR4202-2 ■ C38-7 ■ ■ 0 GenIV 6. 2/14 Siemens D 15.6 900 1000 746 79 100 15 1000 6SR4202-2 ■ C41-0 ■ ■ 0 GenIV 6.6 2200 2500 1865 192 200 15 2500 6SR4202-2 ■ E42-5 ■ ■ 0 GenIV 6.6 1350 1500 1119 118 140 15 1500 6SR4202-2 ■ D41-5 ■ ■ 0 GenIV 6.6 270 300 224 24 40 15 300 6SR4202-2 ■ A33-0 ■ ■ 0 GenIV 6.6 455 507 378 40 40 15 600 6SR4202-2 ■ A36-0 ■ ■ 0 GenIV 6.6 5280 6000 4476 462 500 18 6000 6SR3202-7 ■ J46-0 ■ ■ 0 GenIIIe 6. 1 kV 3 AC.8 kV 3 AC S Other voltage than standard (on request) X 1) Available soon. ■ ■ . Siemens D 15.3 kV 3 AC.4 kV 3 AC L 10. Generation Generation 3 (GenIIIe) 3 Generation 4 (GenIV) 4 2 Manufacturing location Pittsburgh.3 kV 3 AC C 4. supplements ROBICON Perfect Harmony drive 1 2 3 4 5 6 7 6 S R .0 kV 3 AC F 6. – 13 14 15 16 . output voltage Applies for GenIV 4. 15 cells 5 7.6 kV 3 AC.© Siemens AG 2011 ROBICON Perfect Harmony Air-Cooled Drives Selection and ordering data ■ Selection and ordering data (continued) Order No. USA 2 Cooling Air-cooled 0 Line-side behavior Basic Infeed ("Direct Front End") 2 Rated max.4 kV 3 AC A 3. 18 cells 7 Primary input voltage 2. 9 cells 1 4. .9 kV 3 AC J 7.2 kV 3 AC K 8. . 15 cells 2 Applies for GenIIIe 3. – 8 9 10 11 12 . .3 kV 3 AC.8 kV 3 AC E 6. 12 cells 3 6.0 kV 3 AC.47 kV 3 AC Q 13. 9 cells 0 5.6 kV 3 AC H 6. .2 kV 3 AC R 13. . 12 cells 1) 1 6.0 kV 3 AC M 11.0 kV 3 AC N 12.9 kV 3 AC.0 kV 3 AC P 12.16 kV 3 AC D 4. ■ .0 kV 3 AC B 3.6 kV 3 AC.3 kV 3 AC G 6.2 · 2011 2/15 . – 8 9 10 11 12 . ■ ■ . 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. ■ . . . – 13 14 15 16 . supplements (continued) ROBICON Perfect Harmony drive 1 2 3 4 5 6 7 6 S R .2 · 2011 .© Siemens AG 2011 ROBICON Perfect Harmony Air-Cooled Drives Selection and ordering data ■ Selection and ordering data (continued) Order No. . . . 50/60 Hz H 460 V 3 AC. . See the selection tables and configuration information for available drive configurations. AL F 2 Auxiliary voltage 380 V 3 AC. 60 Hz J 480 V 3 AC. CU A 50 Hz. . . key allows can be configured. 50/60 Hz F 400 V 3 AC. 50/60 Hz G 415 V 3 AC. ■ . CU B 60 Hz. – 13 14 15 16 .© 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 . 60 Hz K Note: Not all configurations that the above order no. . ■ ■ 0 Transformer configuration 60 Hz. . AL E 50 Hz.2 · 2011 2/17 . – 8 9 10 11 12 . Siemens D 15. K69 is the preset value. 230 or 120 V 1 AC.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. max. 5) 3) Options "control and display instruments in the door" K31 to K34 are mutually exclusive. 230 or 120 V 1 AC.© 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. the preset value is N35.5 kV V09 ✓ ✓ Motor voltage 6. 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. 230 or 120 V 1 AC. max.16 kV V06 ✓ ✓ Motor voltage 4. max. K31 is the preset value. 4. With options K68.6 kV V12 ✓ ✓ Motor voltage 6.9 kV V13 ✓ ✓ Motor voltage 7. For GenIV drives. 2/18 Siemens D 15. M08 is the preset value. Select one of them.5kW N37 ✓ ✓ Mechanical door interlock – Kirk M09 ✓ ✓ ✓ ✓ M10 ✓ ✓ Controlled outgoing feeder. 1.3 kV V11 ✓ ✓ Motor voltage 6. 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.4 kV V02 ✓ ✓ Motor voltage 3. 4) 2) Options "mechanical door interlock" M08. max.2 kW N36 ✓ ✓ Mechanical door interlock – Superior M08 ✓ ✓ Controlled outgoing feeder.0 kV V08 ✓ ✓ Motor voltage 5. Select one of them. K69 and K79 the power source is defined. 3.0 kV V03 ✓ ✓ Motor voltage 3. Select one of them. M09. Options "control of auxiliaries" N35 to N38 are mutually exclusive.8 kV V07 ✓ ✓ Motor voltage 5.2 · 2011 .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. 2. M10 and M38 are mutually exclusive.0 kV V10 ✓ ✓ Motor voltage 6.3 kV V04 ✓ ✓ Motor voltage 4.3 kV V01 ✓ ✓ Motor voltage 2. 230 or 120 V 1 AC.0 kV V05 ✓ ✓ Motor voltage 4. select one of them.2 kV V14 ✓ ✓ DeviceNet interface. unwitnessed • • Production schedule: one issue B43 ✓ ✓ Production schedule: updated at 2-week intervals B44 ✓ ✓ No-load noise measurement. 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. 4) For the following options please contact the factory or your local Siemens sales representative. Note: The following options are coded in the order number (refer to order No. witnessed. witnessed F29 Measurement of line harmonics. aluminum M35 – ✓ Gland plate.© Siemens AG 2011 ROBICON Perfect Harmony Air-Cooled Drives Options ■ Options (continued) Option text Order code GenIV GenIIIe D00 ✓ ✓ Circuit diagrams. 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. unwitnessed F28 Production schedule: updated once per month B45 ✓ ✓ No-load noise measurement. D79 and D84 are mutually exclusive. witnessed F69 Nameplate color. F72 unwitnessed • • Insulation test of the drive. until thermal stability (but no longer than 8 h) F04 Heat run. unwitnessed • • • • F06 • • Heat run with RBR. 3) Options "nameplate language" T74 to T91 are mutually exclusive. 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. until thermal stability (but no longer than 8 h) F05 Heat run with RBR. without noise analysis. without noise analysis. brass M36 – ✓ Gland plate. 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. unwitnessed F68 Measurement of line harmonics.2 · 2011 2/19 2 . D56. key) • Line connection voltage • Transformer configuration • Auxiliary voltage 1) Options "documentation" D00. witnessed F15 • • • • • • • • • • Function test of the drive with inductive load. 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. witnessed F07 • • Calculation of power factor F12 • • Measurement of no-load characteristic and determination of losses and efficiency. Siemens D 15. unwitnessed F14 • • Measurement of no-load characteristic and determination of losses and efficiency. on request) F79 • • Customer-specific acceptance tests (on request. 2) Options "production schedules" B43 to B45 are mutually exclusive. © Siemens AG 2011 ROBICON Perfect Harmony Air-Cooled Drives Notes 2 2/20 Siemens D 15.2 · 2011 . 8 kV Motor voltage 6.0 kV Motor voltage 6.3 © 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 2.6/4.0 kV Motor voltage 6.6 kV Siemens D 15.16 kV Motor voltage 4.6/4.3/2.16 kV Motor voltage 4.3 kV Motor voltage 4.0/4.4 kV Motor voltage 3.8 kV Motor voltage 6.3/2.3 kV Motor voltage 4.2 · 2011 .4 kV Motor voltage 3.6 kV 3/25 3/25 3/27 3/29 3/31 3/33 3/35 GenIIIe Motor voltage 2. 2 · 2011 . 3/2 Siemens D 15. with IEC 60721-3-3 Biological ambient conditions in accordance with class 1B1 in acc. 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.. with IEC 60721-3-2 3B1 in acc. 3) For ambient temperatures above 40 °C. with IEC 61800-5 2 without conductive pollution in acc. with IEC 61800-5 2 without conductive pollution in acc.5 (2 to 9 Hz) 10 (9 to 200 Hz) 15 (200 to 500 Hz) 0.. with IEC 60721-3-2 3C1 in acc. please contact the factory or your local Siemens sales representative. ANSI. with IEC 60721-3-1 2K2 in acc. 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 .. with IEC 60721-3-2 3K3 in acc.© Siemens AG 2011 Technical Data General technical data ■ Technical data General technical data Power semiconductors Diodes. with IEC 60721-3-3 Chemical active substances in accordance with class 1C1 in acc. NEMA. with IEC 60721-3-3 Degree of pollution 2 without conductive pollution in acc. with IEC 60721-3-3 Climatic ambient conditions Ambient temperature °C Mechanical ambient conditions Stationary vibration. to IEC 60529. 3300 without derating 0 . with IEC 60721-3-1 2M2 in acc. with IEC 60721-3-1 2B1 in acc. 1Z2 in acc. 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. drive must be completely dry before commissioning) < 95 % (condensation not permitted) Other climatic conditions in accordance with class 1K3.. drive must be completely dry before commissioning) < 95 % (only slight condensation permitted. with IEC 60721-3-1 2C1 in acc. across whole power range Regulations compliances IEEE. sinusoidal • Displacement • Acceleration mm 1. with IEC 60721-3-2 3S1 (standard) in acc.and closed-loop control) Fiber-optic cable Efficiency Minimum 96 % including transformer. CSA. with IEC 60721-3-2 3M1 in acc.3 (2 to 9 Hz) 1 (9 to 200 Hz) 1M2 in acc. 2) For altitudes above 3300 ft (1000 m). with IEC 60721-3-1 2S1 in acc. with IEC 60721-3-3 Mechanical active substances in accordance with class 1S1 in acc. please contact the factory or your local Siemens sales representative. with IEC 61800-5 3.5 (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. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 250 MCM (NEC.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. largest unit shown.© Siemens AG 2011 Technical Data GenIV ■ Technical data ROBICON Perfect Harmony air-cooled drive version 6SR42020.AWG/MCM 2/0 AWG tion cross-section at enclosure (NEC.5 <3 <4 <7 < 1.5 <3 <4 <7 < 1.2 2.5 <3 <4 <7 < 1.0 6SR42020.For GenIV.0 6SR42020.B33-0.C34-0. single-phase control power can be fed directly by the customer as an option (K68) . max.B34-0.0 6SR42020.2 2. 7) Please refer to page 5/13 for dimension drawings. 6) Total height with redundant blowers: 110 inch (2794 mm). 3) 120/240 V AC for NXGII control . 5) Maximum installable size per phase..5 96 96.5 <3 <4 <7 Cooling air requirement m3/s 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.5 96 96. 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. Both approximate values have to be adapted to the motor that is actually used. The letters A to D refer to the particular drawing. 2) Values at 100 % of rated speed and torque. line-side. 4) Includes cooling blowers/pumps. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 250 MCM (NEC.GenIV derives single-phase control power from a built-in CPT as standard .. 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. connec.B32-0. max.5 96 96.0 4 Motor voltage 2.C34-5.5 <3 <4 <7 < 1.0 6SR42020.CPT is an option in other systems.4 kV Max.2 2. includes drive and input transformer. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency. max.. 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. Siemens D 15.5 96 96.3/2...2 2. 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. motor-side.2 · 2011 3/3 . .2 2.0 6SR42020. 5) Maximum installable size per phase. 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.AWG/MCM 2/0 AWG tion cross-section at enclosure (NEC.2 · 2011 ..0 6SR42020.5 <3 <4 <7 < 1. motor-side.2 2.D37-0.GenIV derives single-phase control power from a built-in CPT as standard . max.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. 7) Please refer to page 5/13 for dimension drawings.5 <3 <4 <7 < 1.5 96 96. The letters A to D refer to the particular drawing. 4) Includes cooling blowers/pumps.2 3. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 250 MCM (NEC.4 kV Max.D36-0.© Siemens AG 2011 Technical Data GenIV ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR42020. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 250 MCM (NEC.5 <3 <4 <7 < 1. 2) Values at 100 % of rated speed and torque. 3/4 Siemens D 15.0 6SR42020.5 <3 <4 <7 Cooling air requirement m3/s 2. 6) Total height with redundant blowers: 110 inch (2794 mm). largest unit shown.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. max.0 4 Motor voltage 2. 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..D35-0.0 6SR42020. 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. connec.3/2.5 96 96. Both approximate values have to be adapted to the motor that is actually used. single-phase control power can be fed directly by the customer as an option (K68) .5 96 96. line-side.CPT is an option in other systems.2 2. includes drive and input transformer. 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.5 96 96.E38-0.5 <3 <4 <7 < 1.5 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. max.C35-0.. 3) 120/240 V AC for NXGII control .For GenIV. E41-0.5 <3 <4 <7 < 1.3 3. 5) Maximum installable size per phase. 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 • 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. 2) Values at 100 % of rated speed and torque.5 <3 <4 <7 < 1.. 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. motor-side.0 6SR42020.GenIV derives single-phase control power from a built-in CPT as standard .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. largest unit shown.0 4 Motor voltage 2..F41-0. 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. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency. Siemens D 15.CPT is an option in other systems. max. Both approximate values have to be adapted to the motor that is actually used.F41-2. The letters A to D refer to the particular drawing.3 3. 6) Please refer to page 5/13 for dimension drawings. 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. max.AWG/MCM 2/0 AWG tion cross-section at enclosure (NEC.3 3.5 3035 119.0 6SR42020. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 300 MCM (NEC..For GenIV.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.4 kV Max. single-phase control power can be fed directly by the customer as an option (K68) .5 3035 119.3/2. connec.5 96 96.0 6SR42020.5 3035 119.5 96 96.2 · 2011 3/5 .. max. 4) Includes cooling blowers/pumps.© Siemens AG 2011 Technical Data GenIV ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR42020.5 <3 <4 <7 Cooling air requirement m3/s 3. includes drive and input transformer. line-side.5 <3 <4 <7 < 1.5 96 96. 3) 120/240 V AC for NXGII control .E38-7. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 300 MCM (NEC. AWG/MCM 2/0 AWG tion cross-section at enclosure (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. connec.For GenIV.5 96 96.A33-0.5 <3 <4 <7 < 1.5 <3 <4 <7 < 1.5 <3 <4 <7 < 1. 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. 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 % % 96.2 2.CPT is an option in other systems.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 96 96.© Siemens AG 2011 Technical Data GenIV ■ Technical data ROBICON Perfect Harmony air-cooled drive version 6SR42020.. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 250 MCM (NEC.5 96 96. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 250 MCM (NEC. The letters A to D refer to the particular drawing.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.2 2. line-side. largest unit shown..5 <3 <4 <7 < 1.GenIV derives single-phase control power from a built-in CPT as standard .C34-5..5 96 96.5 <3 <4 <7 Cooling air requirement m3/s 2..5 96 96. 4) Includes cooling blowers/pumps.B34-5. 7) Please refer to page 5/13 for dimension drawings.2 · 2011 . Both approximate values have to be adapted to the motor that is actually used.B34-0..0 6SR42020.2 2..2 2. 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. 2) Values at 100 % of rated speed and torque.0 6SR42020.0 Motor voltage 3. 3/6 Siemens D 15. 5) Maximum installable size per phase.0 6SR42020. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.0 6SR42020.0 6SR42020. includes drive and input transformer.A32-0. 6) Total height with redundant blowers: 110 inch (2794 mm). motor-side.5 <3 <4 <7 < 1.2 2.B33-0. max. max. single-phase control power can be fed directly by the customer as an option (K68) .3 kV Max. max. 3) 120/240 V AC for NXGII control . 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. motor-side.2 · 2011 3/7 . 6) Not available for 50 Hz transformers with primary voltages > 7200 V.AWG/MCM 2/0 AWG tion cross-section at enclosure (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.0 6SR42020. 2) Values at 100 % of rated speed and torque.5 <3 <4 <7 < 1.5 <3 <4 <7 < 1.CPT is an option in other systems..0 6SR42020. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 250 MCM (NEC. connec. largest unit shown.. 4) Includes cooling blowers/pumps. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.C35-0. includes drive and input transformer. 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. 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.2 2.© Siemens AG 2011 Technical Data GenIV ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR42020.5 96 96..0 6SR42020.5 96 96.C36-0. 7) Not available for 50 or 60 Hz transformers with primary voltages > 7200 V. Both approximate values have to be adapted to the motor that is actually used. 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. 9) Please refer to page 5/13 for dimension drawings.2 2.D37-0.C37-0.5 <3 <4 <7 < 1. 8) Total height with redundant blowers: 110 inch (2794 mm).D38-7. 5) Maximum installable size per phase.0 6SR42020. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 250 MCM (NEC.For GenIV. max. single-phase control power can be fed directly by the customer as an option (K68) .D38-0.5 <3 <4 <7 Cooling air requirement m3/s 2..5 96 96.2 2.2 2. Siemens D 15.5 96 96. 3) 120/240 V AC for NXGII control . max.3 kV Max.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.5 <3 <4 <7 < 1.GenIV derives single-phase control power from a built-in CPT as standard . The letters A to D refer to the particular drawing.. max..0 6SR42020.2 2.5 96 96. line-side.0 Motor voltage 3.5 <3 <4 <7 < 1. single-phase control power can be fed directly by the customer as an option (K68) .. line-side. 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. max. 2) Values at 100 % of rated speed and torque.5 <3 <4 <7 < 1.F41-5.0 6SR42020. The letters A to D refer to the particular drawing. max. 7) Please refer to page 5/13 for dimension drawings. 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. 4) Includes cooling blowers/pumps. motor-side.5 96 96. largest unit shown.5 3035 119. includes drive and input transformer.3 kV Max.5 3035 119.AWG/MCM 2/0 AWG tion cross-section at enclosure (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.E41-0.GenIV derives single-phase control power from a built-in CPT as standard .5 96 96.5 3035 119.E41-2..0 Motor voltage 3.2 · 2011 .0 6SR42020.3 3.E41-1.3 3.E41-5.5 <3 <4 <7 < 1. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 300 MCM (NEC..3 3.© Siemens AG 2011 Technical Data GenIV ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR42020.CPT is an option in other systems.5 3035 119. 3/8 Siemens D 15.0 6SR42020.5 <3 <4 <7 < 1. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 300 MCM (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 <3 <4 <7 < 1.5 96 96.5 <3 <4 <7 < 1.5 96 96. 6) Not available for 50 or 60 Hz transformers with primary voltages > 7200 V.F41-7.3 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. Both approximate values have to be adapted to the motor that is actually used.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. max..5 3035 119. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.5 <3 <4 <7 Cooling air requirement m3/s 3.For GenIV.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 < 1.0 6SR42020.5 96 96.0 6SR42020. connec. 5) Maximum installable size per phase. 3) 120/240 V AC for NXGII control .3 3.. 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 Cooling air requirement m3/s 2. 3) 120/240 V AC for NXGII control . The letters A to D refer to the particular drawing. 4) Includes cooling blowers/pumps..0 4 Motor voltage 4.2 2. 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. 5) Maximum installable size per phase.0 6SR42020. includes drive and input transformer..2 2.2 2.5 <3 <4 <7 < 1. 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.A33-0.AWG/MCM 2/0 AWG tion cross-section at enclosure (NEC. line-side. 6) Total height with redundant blowers: 110 inch (2794 mm). these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.0 6SR42020. max.For GenIV. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 250 MCM (NEC.GenIV derives single-phase control power from a built-in CPT as standard .5 <3 <4 <7 < 1. Both approximate values have to be adapted to the motor that is actually used.. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 250 MCM (NEC..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.5 96 96..2 2. motor-side.16 kV Max. Siemens D 15. 2) Values at 100 % of rated speed and torque.5 96 96. 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. largest unit shown.B34-5. 7) Please refer to page 5/13 for dimension drawings.5 96 96. connec.CPT is an option in other systems. 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.5 <3 <4 <7 < 1.A34-0.0/4.0 6SR42020.0 6SR42020. max. single-phase control power can be fed directly by the customer as an option (K68) .A32-0.© Siemens AG 2011 Technical Data GenIV ■ Technical data ROBICON Perfect Harmony air-cooled drive version 6SR42020.5 <3 <4 <7 < 1.B34-0.5 96 96.2 · 2011 3/9 . 5 <3 <4 <7 < 1.2 2.0 6SR42020. max.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. 8) Please refer to page 5/13 for dimension drawings. connec.2 2. Both approximate values have to be adapted to the motor that is actually used. includes drive and input transformer..5 96 96.5 96 96. 3/10 Siemens D 15.C37-0.0 6SR42020. 4) Includes cooling blowers/pumps. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 250 MCM (NEC. max.0 6SR42020. 5) Maximum installable size per phase. 3) 120/240 V AC for NXGII control .© Siemens AG 2011 Technical Data GenIV ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR42020. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.5 <3 <4 <7 Cooling air requirement m3/s 2.5 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 < 1.2 · 2011 . 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. 6) Not available for 50 Hz transformers with primary voltages > 7200 V. largest unit shown.CPT is an option in other systems. The letters A to D refer to the particular drawing.AWG/MCM 2/0 AWG tion cross-section at enclosure (NEC.5 <3 <4 <7 < 1.16 kV Max. 7) Total height with redundant blowers: 110 inch (2794 mm).0/4. line-side.5 <3 <4 <7 < 1.5 96 96...0 6SR42020..2 2.5 <3 <4 <7 < 1.5 96 96.For GenIV. 2) Values at 100 % of rated speed and torque.2 2. 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.C38-0. 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..C36-0.B36-0. single-phase control power can be fed directly by the customer as an option (K68) .B35-0.GenIV derives single-phase control power from a built-in CPT as standard . motor-side. 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 % % 96.0 4 Motor voltage 4. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 250 MCM (NEC. 0 6SR42020. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.5 <3 <4 <7 < 1. includes drive and input transformer. 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 <3 <4 <7 Cooling air requirement m3/s 2.5 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. largest unit shown. 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.5 96 96. line-side. max. Both approximate values have to be adapted to the motor that is actually used.16 kV Max. 4) Includes cooling blowers/pumps. connec.D38-0.5 96 96. The letters A to D refer to the particular drawing.D38-7.. Siemens D 15.. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 250 MCM (NEC.CPT is an option in other systems.5 <3 <4 <7 < 1.0 6SR42020.3 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.2 3.5 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.D41-0..5 96 96.© Siemens AG 2011 Technical Data GenIV ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR42020. 3) 120/240 V AC for NXGII control .0/4.GenIV derives single-phase control power from a built-in CPT as standard . 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. 9) Please refer to page 5/13 for dimension drawings.0 4 Motor voltage 4.5 96 96. 2) Values at 100 % of rated speed and torque. 7) Not available for 50 or 60 Hz transformers with primary voltages > 7200 V.AWG/MCM 2/0 AWG tion cross-section at enclosure (NEC.2 · 2011 3/11 .5 <3 <4 <7 < 1.2 2. max. 6) Not available for 50 Hz transformers with primary voltages > 7200 V..0 6SR42020.D41-1.5 <3 <4 <7 < 1. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 250 MCM (NEC.0 6SR42020.. 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.2 2. 5) Maximum installable size per phase.E41-2.2 2. motor-side. single-phase control power can be fed directly by the customer as an option (K68) . 8) Total height with redundant blowers: 110 inch (2794 mm).For GenIV. The letters A to D refer to the particular drawing. Not available for 50 Hz transformers. 5) Maximum installable size per phase. 8) Please refer to page 5/13 for dimension drawings.3 3.0 ROBICON Perfect Harmony air-cooled drive version 6SR42020..5 <3 <4 <7 Cooling air requirement m3/s 3.GenIV derives single-phase control power from a built-in CPT as standard . connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 300 MCM (NEC. 3/12 Siemens D 15. max.0 Motor voltage 4. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 300 MCM (NEC.3 3.16 kV Max.. 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. 6) Not available for 50 Hz transformers with primary voltages > 6900 V. max. 2) Values at 100 % of rated speed and torque.5 3035 119.0 6SR42020.For GenIV. 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.0 6SR42020.5 <3 <4 <7 < 1.CPT is an option in other systems. includes drive and input transformer.3 3. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency. connec..3 3.0/4.. largest unit shown.E41-7. Both approximate values have to be adapted to the motor that is actually used.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 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.0 6SR42020.5 96 96.5 <3 <4 <7 < 1. single-phase control power can be fed directly by the customer as an option (K68) . 4) Includes cooling blowers/pumps.F42-2.. 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. 3) 120/240 V AC for NXGII control . 7) Not available for 60 Hz transformers with primary voltages > 6900 V.AWG/MCM 2/0 AWG tion cross-section at enclosure (NEC.5 3035 119. line-side.5 96 96.5 <3 <4 <7 < 1.5 96 96. 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 3035 119.E41-5.5 <3 <4 <7 < 1. max.F42-0.3 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.F41-7.2 · 2011 .5 96 96.5 3035 119.© Siemens AG 2011 Technical Data GenIV ■ Technical data (continued) 6SR42020. 0 6) 6SR42021.. 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.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 <3 <8 < 11 < 1.5 96 96.3 Motor voltage 4. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 300 MCM (NEC.6/4.CPT is an option in other systems.3 5. 2) Values at 100 % of rated speed and torque.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... max.0 6) 5.5 96 96. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 300 MCM (NEC.8 kV Max.5 96 96.8 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.3 5.© Siemens AG 2011 Technical Data GenIV ■ Technical data ROBICON Perfect Harmony air-cooled drive version 6SR42021.3 5.5 <3 <8 < 11 < 1.For GenIV. 7) Please refer to page 5/13 for dimension drawings. output voltage kV 5.5 <3 <8 < 11 Cooling air requirement m3/s 4.B35-0. Both approximate values have to be adapted to the motor that is actually used. connec.GenIV derives single-phase control power from a built-in CPT as standard .. includes drive and input transformer. 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.0 6) 6SR42021. 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. The letters A to D refer to the particular drawing.0 6) 6SR42021.2 · 2011 3/13 . largest unit shown.8 4. 5) Maximum installable size per phase. max. max.8 4.A34-0. single-phase control power can be fed directly by the customer as an option (K68) . 6) Available soon.5 <3 <8 < 11 < 1.8 4. Siemens D 15.8 4.5 <3 <8 < 11 < 1. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.B34-0.0 6) 6SR42021.. 4) Includes cooling blowers/pumps.5 96 96. 3) 120/240 V AC for NXGII control . line-side.B36-0.A33-0.AWG/MCM 2/0 AWG tion cross-section at enclosure (NEC. motor-side. 6) Available soon.5 96 96. line-side.C38-7. max.2 · 2011 . connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 300 MCM (NEC. largest unit shown.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. 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.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.GenIV derives single-phase control power from a built-in CPT as standard .B37-0. 3/14 Siemens D 15.CPT is an option in other systems.3 5. connec. The letters A to D refer to the particular drawing.8 kV Max.8 4. 3) 120/240 V AC for NXGII control . single-phase control power can be fed directly by the customer as an option (K68) .6/4.3 5.3 5. max. max.C41-0.. Both approximate values have to be adapted to the motor that is actually used. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.© Siemens AG 2011 Technical Data GenIV ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR42021.C38-0.5 96 96.5 <3 <8 < 11 Cooling air requirement m3/s 4. 4) Includes cooling blowers/pumps..0 6) 6SR42021.8 4. 5) Maximum installable size per phase.8 4..0 6) 6SR42021.C37-0.8 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. 7) Please refer to page 5/13 for dimension drawings. 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. output voltage kV 5.5 <3 <8 < 11 < 1.8 4.5 <3 <8 < 11 < 1.3 Motor voltage 4. motor-side. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 300 MCM (NEC.For GenIV.. includes drive and input transformer. 2) Values at 100 % of rated speed and torque.0 6) 6SR42021.5 96 96.AWG/MCM 2/0 AWG tion cross-section at enclosure (NEC.0 6) 6SR42021..0 6) 5.5 <3 <8 < 11 < 1. 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.5 96 96. 5 96 96.E41-7. max. largest unit shown.© Siemens AG 2011 Technical Data GenIV ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR42021. 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.0 6) 5.8 4.8 kV Max.5 96 96.3 5.D41-2. 6) Available soon.0 6) 6SR42021.0 6) 6SR42021.5 96 96.2 · 2011 3/15 .CPT is an option in other systems. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 300 MCM (NEC.3 5.8 4. single-phase control power can be fed directly by the customer as an option (K68) .AWG/MCM 2/0 AWG tion cross-section at enclosure (NEC.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.. motor-side.5 <3 <8 < 11 < 1. 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.0 6) 6SR42021.5 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.GenIV derives single-phase control power from a built-in CPT as standard .5 <3 <8 < 11 Cooling air requirement m3/s 4.5 <3 <8 < 11 < 1. 3) 120/240 V AC for NXGII control .5 96 96.6/4... Both approximate values have to be adapted to the motor that is actually used. 5) Maximum installable size per phase. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency. 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. output voltage kV 5.For GenIV.E41-5. line-side. includes drive and input transformer.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. connec. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 300 MCM (NEC. max.8 4.3 Motor voltage 4. 4) Includes cooling blowers/pumps.5 <3 <8 < 11 < 1.5 <3 <8 < 11 < 1.D41-0. The letters A to D refer to the particular drawing.. max.. 7) Please refer to page 5/13 for dimension drawings.0 6) 6SR42021. 2) Values at 100 % of rated speed and torque.8 4.D41-5.3 5. Siemens D 15. motor-side.5 <3 <8 < 11 Cooling air requirement m3/s 4. 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. 2) Values at 100 % of rated speed and torque.0 6) 6SR42021. includes drive and input transformer.2 · 2011 .0 6) 6SR42021. 3/16 Siemens D 15..F42-5. 5) Maximum installable size per phase.5 <3 <8 < 11 < 1.3 5.8 4. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 300 MCM (NEC.3 5.AWG/MCM 2/0 AWG tion cross-section at enclosure (NEC.5 96 96. max. connec..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. connectable per phase with M10 screw 5) preliminary AWG/MCM 1 x 300 MCM (NEC.0 6) Motor voltage 4.. 6) Available soon.GenIV derives single-phase control power from a built-in CPT as standard .3 5.5 <3 <8 < 11 < 1..E42-0. Both approximate values have to be adapted to the motor that is actually used.CPT is an option in other systems.© Siemens AG 2011 Technical Data GenIV ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR42021.5 96 96. 4) Includes cooling blowers/pumps.6/4. 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.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. max. largest unit shown.For GenIV. 7) Please refer to page 5/13 for dimension drawings. 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. 3) 120/240 V AC for NXGII control . max.8 4.0 6) 6SR42021. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.5 96 96.8 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.8 4.F42-0. single-phase control power can be fed directly by the customer as an option (K68) . output voltage kV 5. The letters A to D refer to the particular drawing.8 kV Max. line-side.5 <3 <8 < 11 < 1.F42-2. 5 4.5 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.B36-0.5 <3 <8 < 11 < 1.5 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.2 2926 115.5 96 96.5 4. output voltage kV 6. 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 115.5 4. The letters A to D refer to the particular drawing. 5) Maximum installable size per phase. 3) 120/240 V AC for NXGII control . largest unit shown.A34-0. max. 2) Values at 100 % of rated speed and torque.5 4.0 ROBICON Perfect Harmony air-cooled drive version 6SR42022.0 6SR42022.. 6) Please refer to page 5/13 for dimension drawings.AWG/MCM 2/0 AWG tion cross-section at enclosure (NEC. 4) Includes cooling blowers/pumps.CPT is an option in other systems.0 6SR42022. includes drive and input transformer. connec.6 6.B37-0.6 6.2 · 2011 3/17 .5 96 96.5 96 96..2 2926 115..A33-0.5 <3 <8 < 11 < 1.5 96 96.5 4.6 6.0 6SR42022. motor-side.2 2926 115.5 96 96.5 <3 <8 < 11 < 1..For GenIV.. 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. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 500 MCM (NEC.6 6. max.5 <3 <8 < 11 < 1. max..6 6. 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.GenIV derives single-phase control power from a built-in CPT as standard .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.0 Motor voltage 6.© Siemens AG 2011 Technical Data GenIV ■ Technical data 6SR42022. Siemens D 15.6 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. Both approximate values have to be adapted to the motor that is actually used.2 2926 115.2 2926 115.A35-0. line-side. single-phase control power can be fed directly by the customer as an option (K68) .5 <3 <8 < 11 < 1. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 500 MCM (NEC.B35-0.0 6SR42022.5 <3 <8 < 11 Cooling air requirement m3/s 4.0 kV Max. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency. max..2 2926 115... connec.5 96 96. 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 115.5 <3 <8 < 11 Cooling air requirement m3/s 4..5 4.0 kV Max.6 6.CPT is an option in other systems.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.C38-7. 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. 6) Please refer to page 5/13 for dimension drawings.5 96 96.C41-0.2 2926 115.© Siemens AG 2011 Technical Data GenIV ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR42022. max.5 <3 <8 < 11 < 1. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.0 6SR42022. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 500 MCM (NEC. 5) Maximum installable size per phase. 3) 120/240 V AC for NXGII control .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.C41-2.5 <3 <8 < 11 < 1. output voltage kV 6.0 6SR42022. max.0 6SR42022.6 6.B38-7.0 6SR42022.5 96 96.2 · 2011 .5 4. largest unit shown. The letters A to D refer to the particular drawing.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. motor-side. 3/18 Siemens D 15. single-phase control power can be fed directly by the customer as an option (K68) . 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.AWG/MCM 2/0 AWG tion cross-section at enclosure (NEC.GenIV derives single-phase control power from a built-in CPT as standard . 2) Values at 100 % of rated speed and torque. 4) Includes cooling blowers/pumps.5 96 96.2 2926 115. includes drive and input transformer. line-side.2 2926 115.5 4.6 6.B38-0.5 <3 <8 < 11 < 1. Both approximate values have to be adapted to the motor that is actually used.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. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 500 MCM (NEC.0 6.For GenIV..5 <3 <8 < 11 < 1.6 Motor voltage 6. 2 2926 115.2 2926 115..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. Both approximate values have to be adapted to the motor that is actually used. 4) Includes cooling blowers/pumps. output voltage kV 6.0 6SR42022.D41-7.. largest unit shown.GenIV derives single-phase control power from a built-in CPT as standard .AWG/MCM 2/0 AWG tion cross-section at enclosure (NEC.0 6SR42022. connec. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.5 96 96.5 <3 <8 < 11 Cooling air requirement m3/s 5 5 5 5.© Siemens AG 2011 Technical Data GenIV ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR42022. 5) Maximum installable size per phase.0 6.0 6SR42022.CPT is an option in other systems. 3) 120/240 V AC for NXGII control .D41-2.6 5. 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.5 <3 <8 < 11 < 1. motor-side. Siemens D 15.6 Motor voltage 6.6 6.E41-7...5 96 96. single-phase control power can be fed directly by the customer as an option (K68) . 6) Please refer to page 5/13 for dimension drawings.For GenIV. max.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. max.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.5 96 96.0 kV Max.0 6SR42022. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 500 MCM (NEC.2 · 2011 3/19 .6 6. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 500 MCM (NEC.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. 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..D41-5.E42-0.5 96 96. 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. line-side. max.5 <3 <8 < 11 < 1.6 6.5 <3 <8 < 11 < 1.2 2926 115. 2) Values at 100 % of rated speed and torque. includes drive and input transformer.2 2926 115. The letters A to D refer to the particular drawing. 2 2926 115.5 96 96. line-side.F42-5.4 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. max.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.5 96 96.0 6SR42022.5 <3 <8 < 11 Cooling air requirement m3/s 6.0 6.5 <3 <8 < 11 < 1.6 Motor voltage 6.5 – • 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 96 96. single-phase control power can be fed directly by the customer as an option (K68) .6 6.E42-2.GenIV derives single-phase control power from a built-in CPT as standard .F43-5.. The letters A to D refer to the particular drawing.5 96 96.6 6. 3/20 Siemens D 15.For GenIV. 4) Includes cooling blowers/pumps.© Siemens AG 2011 Technical Data GenIV ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR42022.6 6.E42-5.CPT is an option in other systems.0 6SR42022. includes drive and input transformer.2 2926 115.2 · 2011 . motor-side... connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 500 MCM (NEC. 3) 120/240 V AC for NXGII control . connec..AWG/MCM 2/0 AWG tion cross-section at enclosure (NEC.0 6SR42022.5 <3 <8 < 11 < 1. output voltage kV 6. max. 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.F43-0.4 6.5 <3 <8 < 11 < 1.0 kV Max. max. 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. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 500 MCM (NEC.4 6.4 6. 5) Maximum installable size per phase.4 6. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.2 2926 115.5 <3 <8 < 11 < 1.6 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. 6) Please refer to page 5/13 for dimension drawings. 2) Values at 100 % of rated speed and torque. largest unit shown.0 6SR42022. Both approximate values have to be adapted to the motor that is actually used. 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.. 5 <3 <8 < 11 < 1.5 96 96.0 6SR42022.2 2926 115.6 6.0 Motor voltage 6.AWG/MCM 2/0 AWG tion cross-section at enclosure (NEC...0 6SR42022.6 6.6 6. motor-side.. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 500 MCM (NEC. includes drive and input transformer.2 2926 115.GenIV derives single-phase control power from a built-in CPT as standard .CPT is an option in other systems.6 6.B36-0. output voltage kV 6.0 ROBICON Perfect Harmony air-cooled drive version 6SR42022. Siemens D 15. 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. Both approximate values have to be adapted to the motor that is actually used.2 · 2011 3/21 . single-phase control power can be fed directly by the customer as an option (K68) . line-side.. max..2 2926 115. The letters A to D refer to the particular drawing. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.2 2926 115.A34-0. 6) Please refer to page 5/13 for dimension drawings.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. largest unit shown.A36-0..© Siemens AG 2011 Technical Data GenIV ■ Technical data 6SR42022.A35-0.2 2926 115.6 6.5 96 96.5 96 96.5 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. 3) 120/240 V AC for NXGII control .6 kV Max. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 500 MCM (NEC.5 96 96.5 <3 <8 < 11 < 1. 2) Values at 100 % of rated speed and torque.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. connec.5 <3 <8 < 11 < 1.A33-0. 5) Maximum installable size per phase.5 4.5 <3 <8 < 11 Cooling air requirement m3/s 4.5 4.5 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 < 1.0 6SR42022.B37-0.5 4.5 <3 <8 < 11 < 1. 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. 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.5 <3 <8 < 11 < 1.0 6SR42022. 4) Includes cooling blowers/pumps.5 4. max.5 4. max.For GenIV.5 96 96. max. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 500 MCM (NEC. Both approximate values have to be adapted to the motor that is actually used.6 kV Max. 2) Values at 100 % of rated speed and torque...6 Motor voltage 6. 3/22 Siemens D 15. motor-side.0 6SR42022.5 4.5 96 96.2 · 2011 .2 2926 115.2 2926 115..C41-2. includes drive and input transformer. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 500 MCM (NEC.0 6..5 <3 <8 < 11 Cooling air requirement m3/s 4. 3) 120/240 V AC for NXGII control .5 <3 <8 < 11 < 1.6 6.5 96 96.5 96 96. connec.B38-7. 6) Please refer to page 5/13 for dimension drawings. single-phase control power can be fed directly by the customer as an option (K68) .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.6 6.2 2926 115. 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. largest unit shown.C41-0..AWG/MCM 2/0 AWG tion cross-section at enclosure (NEC. line-side.0 6SR42022. 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.© Siemens AG 2011 Technical Data GenIV ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR42022.GenIV derives single-phase control power from a built-in CPT as standard .5 <3 <8 < 11 < 1.CPT is an option in other systems.For GenIV. output voltage kV 6.0 6SR42022. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.5 4. 5) Maximum installable size per phase.0 6SR42022.5 4.5 <3 <8 < 11 < 1. 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.B38-0.2 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.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 % % 96.6 6. max.C38-7.5 96 96. The letters A to D refer to the particular drawing.2 2926 115. max.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. 4) Includes cooling blowers/pumps.5 <3 <8 < 11 < 1. AWG/MCM 2/0 AWG tion cross-section at enclosure (NEC. 6) Please refer to page 5/13 for dimension drawings.0 6.5 96 96.0 6SR42022.. max.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.. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 500 MCM (NEC.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.E42-0.D41-7. Siemens D 15.CPT is an option in other systems. 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.. 2) Values at 100 % of rated speed and torque..0 6SR42022.5 <3 <8 < 11 < 1.6 Motor voltage 6.5 <3 <8 < 11 Cooling air requirement m3/s 5 5 5 5 5.6 6. line-side.5 96 96. 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. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.6 6.© Siemens AG 2011 Technical Data GenIV ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR42022. 5) Maximum installable size per phase.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. max.6 6.0 6SR42022.For GenIV. Both approximate values have to be adapted to the motor that is actually used.D42-0.5 96 96. output voltage kV 6..2 2926 115.5 <3 <8 < 11 < 1.2 2926 115.2 2926 115. largest unit shown.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 % % 96.6 kV Max. max. 4) Includes cooling blowers/pumps.0 6SR42022. motor-side.GenIV derives single-phase control power from a built-in CPT as standard . The letters A to D refer to the particular drawing.5 <3 <8 < 11 < 1. connec.C41-5.2 2926 115.2 · 2011 3/23 . single-phase control power can be fed directly by the customer as an option (K68) . includes drive and input transformer.D41-5. 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. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 500 MCM (NEC.5 96 96.5 <3 <8 < 11 < 1. 3) 120/240 V AC for NXGII control . includes drive and input transformer. max.5 96 96.F43-0.5 <3 <8 < 11 < 1..6 6.2 2926 115.E42-2. line-side.E43-0.CPT is an option in other systems. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.4 6.For GenIV..5 <3 <8 < 11 < 1. max. 5) Maximum installable size per phase.0 6SR42022. motor-side. single-phase control power can be fed directly by the customer as an option (K68) . 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. largest unit shown.4 6. max.2 · 2011 .4 6.0 6. The letters A to D refer to the particular drawing.5 <3 <8 < 11 < 1.6 kV Max.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.E42-5.5 96 96.6 Motor voltage 6.0 6SR42022..0 6SR42022.0 6SR42022.© Siemens AG 2011 Technical Data GenIV ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR42022. 3) 120/240 V AC for NXGII control .5 96 96. 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.5 <3 <8 < 11 < 1. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 500 MCM (NEC.6 6.GenIV derives single-phase control power from a built-in CPT as standard .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.6 6.AWG/MCM 2/0 AWG tion cross-section at enclosure (NEC. 4) Includes cooling blowers/pumps. Both approximate values have to be adapted to the motor that is actually used. connec. 2) Values at 100 % of rated speed and torque.2 2926 115. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 500 MCM (NEC. 6) Please refer to page 5/13 for dimension drawings.. output voltage kV 6.5 96 96.2 2926 115.2 2926 115.5 <3 <8 < 11 Cooling air requirement m3/s 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.F43-5. 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.4 6. 3/24 Siemens D 15.2 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. 4 kV Max.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.J42-0. largest unit shown. Siemens D 15. 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. line-side.5 <3 < 16 < 19 Cooling air requirement m3/s 7. max.5 > 96 > 96.0 ROBICON Perfect Harmony air-cooled drive version 6SR32021.6 3. includes drive and input transformer.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. 7) Please refer to page 5/14 for dimension drawings.1 7.1 7. output voltage kV 3.6 3. 2) Values at 100 % of rated speed and torque. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency. 6) If aluminum transformer is selected drive dimensions may change.2 · 2011 3/25 . connec...0 6SR32021. 4) Includes cooling blowers/pumps.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. 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..5 <3 < 16 < 19 < 1. 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. Both approximate values have to be adapted to the motor that is actually used. max. 3) 120/240 V AC for NXGII control . connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC.H42-0.5 > 96 > 96. The letters A to D refer to the particular drawing.0 Motor voltage 2. max.AWG/MCM 1000 MCM tion cross-section at enclosure (NEC.5 <3 < 16 < 19 < 1. motor-side.0 6SR32021.1 7..CPT is an option.6 3. 5) Maximum installable size per phase.H41-7.G41-7. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC.© Siemens AG 2011 Technical Data GenIIIe ■ Technical data 6SR32021.3/2.5 > 96 > 96.5 <3 < 16 < 19 < 1. 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.0 6SR32021.5 <3 < 16 < 19 < 1. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.0 6SR32021. motor-side.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 < 1.1 7. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC.6 3. The letters A to D refer to the particular drawing.1 7.CPT is an option. 6) If aluminum transformer is selected drive dimensions may change. 4) Includes cooling blowers/pumps. max.5 > 96 > 96. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC. Both approximate values have to be adapted to the motor that is actually used. largest unit shown.. output voltage kV 3.0 Motor voltage 2.2 · 2011 .5 <3 < 16 < 19 < 1. 3/26 Siemens D 15.K42-5. 2) Values at 100 % of rated speed and torque. 3) 120/240 V AC for NXGII control .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.6 3. max.0 ROBICON Perfect Harmony air-cooled drive version 6SR32021. 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.5 > 96 > 96.1 7.3/2.J42-2.5 <3 < 16 < 19 Cooling air requirement m3/s 7.J42-5. connec.. includes drive and input transformer.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 % % > 96.4 kV Max.AWG/MCM 1000 MCM tion cross-section at enclosure (NEC.. max.. line-side.© Siemens AG 2011 Technical Data GenIIIe ■ Technical data (continued) 6SR32021. 5) Maximum installable size per phase.K43-0.5 <3 < 16 < 19 < 1. 7) Please refer to page 5/14 for dimension drawings. 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.5 > 96 > 96. 5 <3 < 16 < 19 < 1.G42-2.6 3. max. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC.6 3.5 <3 < 16 < 19 < 1.5 > 96 > 96.1 7. 3) 120/240 V AC for NXGII control .H42-2. 2) Values at 100 % of rated speed and torque. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.3 kV Max. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC. Siemens D 15..1 7.0 3.1 7. 6) If aluminum transformer is selected drive dimensions may change. motor-side.6 Motor voltage 3.0 6SR32021.5 <3 < 16 < 19 Cooling air requirement m3/s 7.0 6SR32021. max.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 < 1.1 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. output voltage kV 3. connec. 5) Maximum installable size per phase. line-side.© Siemens AG 2011 Technical Data GenIIIe ■ Technical data ROBICON Perfect Harmony air-cooled drive version 6SR32021.. includes drive and input transformer. max.G41-7...H42-5. The letters A to D refer to the particular drawing. Both approximate values have to be adapted to the motor that is actually used.0 6SR32021.5 <3 < 16 < 19 < 1.AWG/MCM 1000 MCM tion cross-section at enclosure (NEC.5 > 96 > 96.1 7. 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. 7) Please refer to page 5/14 for dimension drawings.6 3.0 6SR32021. 4) Includes cooling blowers/pumps.5 <3 < 16 < 19 < 1. largest unit shown.CPT is an option. 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.5 > 96 > 96.2 · 2011 3/27 .G42-0.5 > 96 > 96.6 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.. 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. line-side.5 <3 < 16 < 19 Cooling air requirement m3/s 7..J42-5.CPT is an option.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.. 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. 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. connec.2 · 2011 . 6) If aluminum transformer is selected drive dimensions may change. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC.0 6SR32021.0 6SR32021.0 3. max.J43-5. 5) Maximum installable size per phase.J43-0.6 Motor voltage 3. 3) 120/240 V AC for NXGII control . 3/28 Siemens D 15.6 3.. 4) Includes cooling blowers/pumps. max.5 <3 < 16 < 19 < 1. The letters A to D refer to the particular drawing..© Siemens AG 2011 Technical Data GenIIIe ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR32021.K43-5. 7) Please refer to page 5/14 for dimension drawings.5 > 96 > 96. 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.AWG/MCM 1000 MCM tion cross-section at enclosure (NEC.3 kV Max.6 3. Both approximate values have to be adapted to the motor that is actually used. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC. output voltage kV 3. largest unit shown.5 > 96 > 96. motor-side.0 6SR32021.1 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.5 <3 < 16 < 19 < 1. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency. 2) Values at 100 % of rated speed and torque.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. includes drive and input transformer.1 7.5 <3 < 16 < 19 < 1.1 7. max.1 7. 16 kV Max. 2) Values at 100 % of rated speed and torque.5 <3 < 16 < 19 < 1. 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. max. 3) 120/240 V AC for NXGII control .5 <3 < 16 < 19 < 1.0 6SR32023. max.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.AWG/MCM 1000 MCM tion cross-section at enclosure (NEC.5 > 96 > 96. The letters A to D refer to the particular drawing.G42-5. max.0 6SR32023. 7) Please refer to page 5/14 for dimension drawings.. 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. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency. 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.. Both approximate values have to be adapted to the motor that is actually used.5 8.© Siemens AG 2011 Technical Data GenIIIe ■ Technical data 6SR32023.J43-5. 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.5 8. 5) Maximum installable size per phase.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.9 4.9 4.H43-5..5 > 96 > 96. CEC) mm2 2 x 500 2 x 500 2 x 500 2 x 500 2 x 500 2 x 500 (DIN VDE) • PE connection. output voltage kV 4.5 <3 < 16 < 19 < 1..G42-2.5 8.5 <3 < 16 < 19 < 1..0 6SR32023.9 4. connec. Siemens D 15.9 4.CPT is an option.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 < 1.0 Motor voltage 4. motor-side.5 > 96 > 96. line-side. 6) If aluminum transformer is selected drive dimensions may change.5 <3 < 16 < 19 Cooling air requirement m3/s 8.5 8.0 6SR32023.9 4.0 ROBICON Perfect Harmony air-cooled drive version 6SR32023.G43-0.2 · 2011 3/29 . largest unit shown.5 <3 < 16 < 19 < 1.H43-0.5 > 96 > 96.. includes drive and input transformer.5 8. 4) Includes cooling blowers/pumps.5 > 96 > 96. 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..K46-0. 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. motor-side. includes drive and input transformer.0 6SR32023. 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. 2) Values at 100 % of rated speed and torque.5 > 96 > 96.9 4.0 6SR32023.CPT is an option. Both approximate values have to be adapted to the motor that is actually used. The letters A to D refer to the particular drawing.5 <3 < 16 < 19 Cooling air requirement m3/s 8.9 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. 7) Please refer to page 5/14 for dimension drawings. max.AWG/MCM 1000 MCM tion cross-section at enclosure (NEC.J45-0.5 > 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 8. output voltage kV 4.© Siemens AG 2011 Technical Data GenIIIe ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR32023.. 5) Maximum installable size per phase.5 <3 < 16 < 19 < 1.5 > 96 > 96.9 4. line-side. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC.5 8..16 kV Max.9 4.L46-0.0 6SR32023.5 <3 < 16 < 19 < 1.2 · 2011 .5 <3 < 16 < 19 < 1.5 8.0 4. 4) Includes cooling blowers/pumps. 3) 120/240 V AC for NXGII control ..5 8. 6) If aluminum transformer is selected drive dimensions may change. max.4 Motor voltage 4.J44-0. connec.0 6SR32023. 3/30 Siemens D 15.. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.5 <3 < 16 < 19 < 1.K45-0.5 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.5 > 96 > 96. max. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC. largest unit shown. AWG/MCM 1000 MCM tion cross-section at enclosure (NEC.5 8..H43-0.0 6SR32023.H43-5. The letters A to D refer to the particular drawing. motor-side. connec. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.CPT is an option...0 6SR32023.9 4.H44-0.6/4. max. 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.9 Motor voltage 4.5 8.5 > 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 > 96 > 96. 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. 6) If aluminum transformer is selected drive dimensions may change.5 <3 < 16 < 19 Cooling air requirement m3/s 8. 4) Includes cooling blowers/pumps.5 <3 < 16 < 19 < 1..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. max. 2) Values at 100 % of rated speed and torque. largest unit shown. Both approximate values have to be adapted to the motor that is actually used.5 > 96 > 96.8 kV Max.5 > 96 > 96.5 > 96 > 96. output voltage kV 4.G42-5. includes drive and input transformer.0 6SR32023. 7) Please refer to page 5/14 for dimension drawings.5 <3 < 16 < 19 < 1.G43-0. 5) Maximum installable size per phase.0 6SR32023.9 4.2 · 2011 3/31 .. max. 3) 120/240 V AC for NXGII control .9 4.5 8. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC.5 8. line-side. Siemens D 15.© Siemens AG 2011 Technical Data GenIIIe ■ Technical data ROBICON Perfect Harmony air-cooled drive version 6SR32023.0 4. 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. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC.5 <3 < 16 < 19 < 1.5 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. 2 · 2011 .0 4. 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.K46-0.5 > 96 > 96.5 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. Both approximate values have to be adapted to the motor that is actually used. includes drive and input transformer.5 8. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC.K45-0.J45-0. max.5 <3 < 16 < 19 < 1. largest unit shown. 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. output voltage kV 4..AWG/MCM 1000 MCM tion cross-section at enclosure (NEC.9 Motor voltage 4.. 4) Includes cooling blowers/pumps..5 8. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.0 6SR32023.5 <3 < 16 < 19 Cooling air requirement m3/s 8.5 <3 < 16 < 19 < 1. max.CPT is an option.6/4.5 > 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. motor-side.0 6SR32023. The letters A to D refer to the particular drawing.9 4. connec. line-side.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.. 3/32 Siemens D 15.© Siemens AG 2011 Technical Data GenIIIe ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR32023. 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.8 kV Max. 7) Please refer to page 5/14 for dimension drawings. 2) Values at 100 % of rated speed and torque. 5) Maximum installable size per phase.5 <3 < 16 < 19 < 1.5 > 96 > 96. 6) If aluminum transformer is selected drive dimensions may change.5 8.9 4. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC. 3) 120/240 V AC for NXGII control .J44-0.0 6SR32023. max. 8 11. 6) If aluminum transformer is selected drive dimensions may change.J45-0. 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. includes drive and input transformer.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.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 % % > 96.2 · 2011 3/33 ... motor-side.0 kV Max. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC. largest unit shown. 3) 120/240 V AC for NXGII control .0 6SR32025.8 11.. 7) Please refer to page 5/14 for dimension drawings.5 <3 < 16 < 19 < 1.1 6.CPT is an option. 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.5 <3 < 16 < 19 < 1. Siemens D 15.© Siemens AG 2011 Technical Data GenIIIe ■ Technical data ROBICON Perfect Harmony air-cooled drive version 6SR32025. 2) Values at 100 % of rated speed and torque.8 11.5 > 96 > 96. max.1 6. line-side. 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.5 <3 < 16 < 19 Cooling air requirement m3/s 11. output voltage kV 6. max.0 6. 4) Includes cooling blowers/pumps.0 6SR32025.5 > 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. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.1 6. max.5 > 96 > 96.AWG/MCM 1000 MCM tion cross-section at enclosure (NEC... 5) Maximum installable size per phase.8 11.H44-0.0 6SR32025.1 Motor voltage 6. connec. Both approximate values have to be adapted to the motor that is actually used.5 <3 < 16 < 19 < 1.0 6SR32025. The letters A to D refer to the particular drawing.G43-5.G44-0.5 <3 < 16 < 19 < 1.H45-0. K46-0. line-side.1 6. max. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.5 <3 < 16 < 19 < 1. 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.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 % % > 96.8 11. 3/34 Siemens D 15. 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. 4) Includes cooling blowers/pumps. 6) Please contact the factory or your local Siemens sales representative. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC.J46-0.0 6SR32027. output voltage kV 6.5 > 96 > 96.0 6SR32025. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC. connec.0 6. 2) Values at 100 % of rated speed and torque.5 <3 < 16 < 19 < 1.8 11.8 11..L48-0.0 6SR32025.0 kV Max. 5) Maximum installable size per phase.1 6. 7) If aluminum transformer is selected drive dimensions may change.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.CPT is an option. The letters A to D refer to the particular drawing.K48-0.5 > 96 > 96.7 Motor voltage 6. Both approximate values have to be adapted to the motor that is actually used. includes drive and input transformer.K47-0. motor-side.2 · 2011 .5 <3 < 16 < 19 < 1. max. max. largest unit shown.0 6SR32025.1 6.AWG/MCM 1000 MCM tion cross-section at enclosure (NEC...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.© Siemens AG 2011 Technical Data GenIIIe ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR32025..5 <3 < 16 < 19 Cooling air requirement m3/s 11.5 <3 < 16 < 19 < 1. 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. 3) 120/240 V AC for NXGII control .5 > 96 > 96. 8) Please refer to page 5/14 for dimension drawings..8 13.5 > 96 > 96. . max.0 6SR32027. 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.2 13.5 > 96 > 96.J45-0. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC.G45-0.3 7. max. 4) Includes cooling blowers/pumps. motor-side. 7) Please refer to page 5/14 for dimension drawings. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC.0 7. line-side.2 13. largest unit shown.AWG/MCM 1000 MCM tion cross-section at enclosure (NEC. 2) Values at 100 % of rated speed and torque. 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.5 <3 < 16 < 19 < 1. max.5 <3 < 16 < 19 < 1.5 <3 < 16 < 19 < 1.. 6) If aluminum transformer is selected drive dimensions may change.H45-0.CPT is an option.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..2 · 2011 3/35 .0 6SR32027. 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. output voltage kV 7. Siemens D 15.3 7.2 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.3 7. Both approximate values have to be adapted to the motor that is actually used. includes drive and input transformer.3 Motor voltage 6.6 kV Max. connec.5 > 96 > 96.0 6SR32027..5 <3 < 16 < 19 < 1.5 > 96 > 96.0 6SR32027.3 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..© Siemens AG 2011 Technical Data GenIIIe ■ Technical data ROBICON Perfect Harmony air-cooled drive version 6SR32027. The letters A to D refer to the particular drawing. 3) 120/240 V AC for NXGII control .5 <3 < 16 < 19 Cooling air requirement m3/s 13.G43-5.5 > 96 > 96.2 13.G44-0. 5) Maximum installable size per phase. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.2 13. 8) Please refer to page 5/14 for dimension drawings..6 kV Max. largest unit shown. max. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC.3 7. these have been calculated for operation with induction motors and for a typical power factor cos ϕ and motor efficiency.CPT is an option. 3) 120/240 V AC for NXGII control . 3/36 Siemens D 15. output voltage kV 7. 2) Values at 100 % of rated speed and torque.3 Motor voltage 6.K47-0. The letters A to D refer to the particular drawing.2 13.5 <3 < 16 < 19 < 1.3 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 <3 < 16 < 19 < 1. max. 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. 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. Both approximate values have to be adapted to the motor that is actually used.5 > 96 > 96.3 7. connec.0 6SR32027.0 6SR32027. motor-side.AWG/MCM 1000 MCM tion cross-section at enclosure (NEC.© Siemens AG 2011 Technical Data GenIIIe ■ Technical data (continued) ROBICON Perfect Harmony air-cooled drive version 6SR32027. 4) Includes cooling blowers/pumps.2 13.5 > 96 > 96. 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.0 7. 5) Maximum installable size per phase.0 6SR32027. max.5 <3 < 16 < 19 < 1.2 13.. line-side.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.K48-0.5 <3 < 16 < 19 Cooling air requirement m3/s 13.5 > 96 > 96. includes drive and input transformer.J47-0.2 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..J46-0.. 6) Please contact the factory or your local Siemens sales representative.2 · 2011 . 7) If aluminum transformer is selected drive dimensions may change. connectable per phase with M10 screw 5) preliminary AWG/MCM 2 x 1000 MCM (NEC. 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 T03.4 © 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 A67.2 · 2011 . 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. To easily find the required order code and its associated parameters. 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. Note: Please contact the factory or your local Siemens sales representative for documentation in a language different from the ones specified below. the documentation is supplied in Chinese on CD-ROM. the documentation is supplied in Russian on CD-ROM. 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. the printed documentation will be delivered in the first documentation language only. terminal diagrams and dimension drawings in DXF format (English only) Documents such as circuit diagrams. the descriptions are sorted alphabetically by order codes in the paragraphs below. terminal diagrams and dimension drawings in DXF format. D15 One set of printed documentation (multiple orders possible) If documentation is also required on paper. D56 Documentation in Russian With order code D56. this must be ordered using order code D15.© Siemens AG 2011 Description of Options Description of options ■ Options In the following you find a detailed description of the options. D84 Documentation in Chinese With order code D84. D79 Documentation in Portuguese (Brazil) With order code D79. Note: If option D15 (one set of printed documentation) is selected simultaneously. the arrangement diagram and the dimension drawing can be ordered with order code D02 in DXF format. an additional CD-ROM with documentation in English as second documentation language can be ordered using order code D76.g. D02 Circuit diagrams. Select one of them. terminal diagrams. the documentation is supplied in Portuguese on CD-ROM. These are sent via E-Mail as PDF file in English after order clarification. 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.2 · 2011 . (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. The circuit diagrams/terminal diagrams are available only in English. D76 Documentation in English If a documentation language other than English is selected (options D00 or D56 to D84). B09 Electrical submersible pumps applications (on request) For details please contact the factory or your local Siemens sales representative. the documentation is supplied in German on CD-ROM. for use in AutoCAD systems. e. Code D00 D02 D15 D56 D76 D79 D84 Documentation in German D00 Circuit diagrams. Option Description D00 Documentation in German With order code D00. unwitnessed F14 Measurement of no-load characteristic and determination of losses and efficiency. without motor) F97 – – – ✓ – ✓ – – ✓ – – – – – Option Description F03 Visual acceptance Open doors/panels. unwitnessed F76 Insulation test of the converter. Option F73 includes option F03 (visual acceptance). but not both at the same time.6 MVA causes the following restriction: Either full voltage testing (at reduced current) or full current testing (at reduced voltage) is possible. witnessed F06 Heat run with RBR.6 kV drives.© 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 F15 Measurement of no-load characteristic and determination of losses and efficiency. witnessed Options can be combined F68 Measurement of line harmonics. 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). unwitnessed F29 No-load noise measurement. 4 Siemens D 15. F97 Customer-specific acceptance (on request. witnessed F12 Calculation of power factor. 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. on request) For details please contact the factory or your local Siemens sales representative. unwitnessed Options are mutually exclusive F69 Measurement of line harmonics. unwitnessed F05 Heat run. F79 Interface check with customer equipment (5 hours. without noise analysis. functional test with inductive load. without noise analysis. the power limit at 2. without motor) For details please contact the factory or your local Siemens sales representative. cooling system validation.2 · 2011 4/3 . unwitnessed F07 Heat run with RBR. witnessed F72 Function test of converter with inductive load. witnessed F28 No-load noise measurement. inspection of drive before shipping F73 Functional acceptance (without motor) Visual acceptance. Note: For 6. 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. G23 DeviceNet interface. select options G26 and G46. 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. select options G91 and G93. 4/4 Siemens D 15. profile 12 Note: If a second DeviceNet interface is required. 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. G22 Modbus interface Software activation of the interface. select options G21 and G31. profile 12 G46 Additional Control Net interface G91 PROFIBUS DP interface Note: If a second PROFIBUS DP interface is required.2 · 2011 .© Siemens AG 2011 Description of Options Description of options ■ Options (continued) Various serial communication interfaces can be optionally selected (no more than two total). 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. G26 Control Net interface Note: If a second Control Net interface is required. select options G22 and G32. 2) Network 1 Modbus Ethernet uses the Ethernet port on CPU card (additional Ethernet switch is required). available without additional hardware Note: If a second Modbus interface is required. available without additional hardware Note: If a second Modbus Ethernet interface is required. select options G28 and G38. select options G23 and G43. G28 Modbus Ethernet interface Software activation of the interface. © 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 max. 2. please contact the factory or your local Siemens sales representative. 1. four different outgoing feeders are available. the degree of protection for the air-cooled GenIIIe and GenIV drives can be enhanced over the standard offering (NEMA 1 or IP21). suitable openings have to be provided in the air duct. This prevents production down times or interruptions. max. Depending on the power that is required. Option Description N35 Controlled outgoing feeder for auxiliaries 230 V 1 AC 50 Hz. The additional pressure drop due to the external exhaust air system must not be lower than 0 Pa and higher than 50 Pa.5 kW N37 – – Controlled outgoing feeder.8 kW N38 Controlled outgoing feeder for auxiliaries 230 V 1 AC 50 Hz. must be provided externally. max.2 kW N35 Controlled outgoing feeder. max. If a blower within the drive cabinet fails.2 kW or 120 V 1 AC 60 Hz. it is essential to ensure that the air flow rates stipulated in the technical data are observed. the drive is delivered with intermediate arrestors on the integrated transformer. the redundant blower is activated by the drive control system preventing the drive from tripping.2 kW N37 Controlled outgoing feeder for auxiliaries 230 V 1 AC 50 Hz. max. 1.5 kW or 120 V 1 AC 60 Hz. 230 or 120 V 1 AC. select one of the options N35 to N38.g. max. For more implementation details on option M64. 2. 1. the drive can be equipped for harsh environment conditions (high humidity.g. 230 or 120 V 1 AC. tropical or seaside location). e.© 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. e. 1. With option M42. • It has to be assured that the cabinet doors can be opened/closed after mounting the air duct. M67 Version for harsh environment conditions With option M67. 230 or 120 V 1 AC. 4 M64 Drive prepared for duct flange connection in front With option M64. Control of auxiliaries Code N35 N36 N37 N38 Controlled outgoing feeder. This is not a marine certification compliant option. . Note: Option M61 is included by the option U10 (ProToPS). The pressure drop between the air inlet and air outlet of the drive is different for different versions. 3. an additional blower is added to the drive. 2.2 kW N36 – Controlled outgoing feeder. The corresponding standard degree of protection for the GenIIIe and GenIV drives is IP21. for the anti-condensation heating. The voltage supply required for the drive. max. max. the anti-condensation heating for the motor. Replacement of the faulty blower can be postponed until the next scheduled shutdown. 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. the drive is prepared for connection to an external exhaust air system to the front of the blower assembly. 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.7 kW N36 Controlled outgoing feeder for auxiliaries 230 V 1 AC 50 Hz. the preset value is N35. 4. – Note: For GenIV drives. With option N24. 3.5 kW or 120 V 1 AC 60 Hz. 230 or 120 V 1 AC.2 kW or 120 V 1 AC 60 Hz.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. max.4 kW Attention: Note the following regarding the connection of an external air duct: • For changing the blowers. max. When configuring the exhaust air ducts for the drive ventilation system. max. The contactor is switched off with the ON command at the converter and switched on with the OFF command.2 · 2011 – – – – – – Options are mutually exclusive A controlled outgoing feeder protected by miniature circuitbreakers is available in the converter for controlling external auxiliaries. 4. 0. max. 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. © 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 Configuration • Multilevel password to limit access . as well as timers. equipped with the Microsoft Windows Operating System.© 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.. color. The SOP Utilities is a group of utilities under the ToolSuite umbrella program. yellow = alarm.e. and troubleshooting of the drive. 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. measured values. and comparators. and calculations) Debug Tool This application provides a remote graphical user interface for Siemens medium-voltage ROBICON Perfect Harmony NXGII series drives. 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. SOP Utilities The System Program is the logic that maps the external I/O into the functionality of the drive. the user can examine drive variables using a PC and a mouse. and SOP Utilities. ToolSuite contains the following tools: Drive Tool. VFD Menu system) . in the form of Boolean logic. In its simplest form. 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. interface with one another using Ethernet and TCP/IP protocol. It performs most of the functionality on the PC running the ToolSuite. parameters. express the system functionality to the drive. 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. commissioning. counters.Parameter editing assisted by minimum/maximum limits and defaults • Ability to upload logs. Debug Tool. green = none) 5/2 Siemens D 15. With the Debug Tool. in a simple and quick manner.Icon colors to indicate default and modified parameter values . . The NXGII Control and the PC running the NXGII ToolSuite software. additional complex logic. The debug utility is intended for use during test.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.On screen parameter identifier (matches operator panel IDs for speed menus) . In more complex forms. it just maps internal states to external points.Passwords same as used in drive • Folders for each drive configuration category (i. The Drive Tool’s main features include: • Drive configuration • Drive variable graphing • Drive status (provides real time status of various parameters. 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. 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. the flow rate for pumps. the entire power cell must be extracted from the drive and transported on a cell lifter. Siemens D 15. 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.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.© 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. these include.com/sinasave www. for example. which are decisive for the energy-saving impact. suitable for the the ROBICON Perfect Harmony air-cooled drives (GenIIIe and GenIV). the program selects the optimum drive system. User-friendly functions such as an automatic update function. SinaSave takes into account all of the necessary plant or system-specific parameters as well as the values required for the process. which are predestined for pump and fan application. 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. Cell lifter The power cells of the ROBICON Perfect Harmony drives can be replaced as a unit. There are different versions of the cell lifter available. an up-to-date currency table and improved functions (e. This payback time is frequently just a few months.g. 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. sending pdfs by e-mail) round-off the functionality of this energy-saving tool. the specific density of the medium being transported and the efficiency of the fluid flow machines of the complete plant.2 · 2011 5/3 5 .siemens. To replace. the motor side has been supplemented by a new feature that takes into consideration the mechanical system. the tool can calculate the cost savings as well as the payback time for Siemens energy-saving motors. SinaSave calculates the possible cost-saving potential for the specific application. Additional information Additional information on services relating to energy-saving topics is provided on the Internet: www. Further. class IE2 or NEMA Premium using three comparison cases: In comparison to IE1 or EPAct motors. Hightorque motors have also been recently integrated. individually selected and known motors or in comparison to known motors when investigating a complete plant. For line operation.siemens. 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. Using the plant-specific data. Below you find a description of some routines that are implemented in NXGII control for drive protection. 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. Consequently the motor coasts down. This event will normally cause the input disconnect device to open. as an alternate. .2 · 2011 2) Synchronous transfer applications with synchronous motors would require a PLC to manage the exciter control. 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.3 % at full speed) • Dual frequency (typical braking torque at full speed is 7. 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. 5/4 Siemens D 15. The function includes voltage disconnection of the drive output by opening the circuit-breaker. above 167 Hz. Overview of control features 5 Feature Description Output frequency 0 . The one cycle protection is defeated during the first 0. 300 Hz 1). to disconnect medium-voltage from the drive input. 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. braking torque is approx. without redundant cells. automatic resistance compensation is available in OLVC/CLVC/OSMC/CSMC control modes (also see description for flux attenuation shaping) Flux attenuation shaping Not implemented.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.. Hence the fault signals issued by these routines should be used with suitable interlocking. The "one cycle protection" (or excessive input reactive current detection) is implemented to detect such types of faults. via a relay output and/or serial communication. a short-circuit in one of the secondary windings will result in poor power factor on the high-voltage side of the transformer..25 seconds after primary voltage is applied. > 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. Further information on this curve and the time to trip is provided below. 1) Although 0 Hz can be produced by the drive. A software model of the transformer is used to predict the reactive component of primary current based on the known load. The level of currents detected by these functions cannot be easily detected and may be insufficient to activate the main primary protection. The "excessive drive losses protection" allows the detection of such faults. Energy saver Single parameter driven (for induction motors only) Braking • Inverse speed (max. 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. For example. to allow transformer saturation inrush to decay. An alarm and trip are generated when the actual reactive current exceeds this prediction based on an inverse time curve. Faults within the drive can be categorized into two types – "low impedance" (with high current) and "high impedance" (with low current) faults.© 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. torque production is limited at low output frequencies. 0. 1 % can be achieved with a 1024 PPR encoder.5 % < 3. Once the threshold is exceeded. 2) Approx. 3) 0. The drive losses are calculated as the difference between the measured input and output powers. Speed accuracy depends on the encoder PPR. 0. 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. 5 1) Torque response values are valid for drive without an output filter. In such cases it is preferable to select a motor that has high full-load slip (> 1. 5/7 for more information on the cell voltage and drive output voltage ratings that will operate with overmodulation. and compared against reference losses. Torque pulsations at all other frequencies are under 1 % of rated. 6f component) which is introduced only in the speed range of 95 to 100 % of rated. a fault is issued and the drive trips based on an inverse time curve.5 % < 3.2 · 2011 5/5 .0 %) and high breakdown torque.0 % (% of rated) 6) without overmodulation < 1. 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. Tuning may be required to achieve these values.5 % 2) ± 0. Refer to pages 5/6.0 % < 3. 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. Siemens D 15.e.0 % < 1.5 % 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. 5) Testing is required to determine exact value. Such a fast response will greatly reduce the adverse effect of a "high impedance" fault on the drive system. 6) ROBICON Perfect Harmony drives when not operated in overmodulation. Worst-case speed error is equal to approximately 30 % of rated motor slip.3 % speed error is typical.© 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.1 % 3) Speed response 4) 20 rad/s 20 rad/s > 20 rad/s 5) Torque pulsation < 1. 4) Speed response numbers apply as long as torque limit is not reached. 80 0. Higher output voltage and current harmonic components at 5th and 7th harmonic frequencies will exist as reflected in the THD and torque pulsation values.005 21 9.017 12 4. suggests that no motor derating is required when the inverter voltage waveform has a HVF value that is less than 0.007 18 7. Vn is the harmonic amplitude in per-unit. 6) Most motors have a leakage reactance that is greater than 16 %.e. 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). 2) Although output dV/dt values are high.00 0.03. Therefore. As the number of cells increases.80 0. heating due to switching harmonics is negligible and no motor derating is needed.90 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. only those with this cell count and this rated output voltage will operate in overmodulation in the 95 to 100 % speed range.00 0.00 0.© 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 2.20 0.20 0. HVF is defined as: HVF = 冑兺  V2 n n n≥5 where.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 0. Output current distortion is inversely proportional to motor leakage reactance. the control ensures that only one cell switches at a particular instant.019 4. 5/6 Siemens D 15. i.006 18 8. Part 30.30 0. the current distortion decreases to below 2 % for 18 cell drives with a typical motor.40 0.004 24 10.004 12 5 Number of cells 7) 1) See also footnote 4) of the following table.010 15 6.16 4) 0. when motor and drive ratings are equal and the motor leakage reactance is 16 % or higher) without overmodulation: ≤ 3 % with overmodulation: ≤ 4. as motor leakage reactance decreases.007 < 0.60 0. . 7) Available soon. and n is the harmonic order (= ratio of harmonic frequency to fundamental frequency).008 15 6. All Perfect Harmony configurations (with 9 cells or more) meet this requirement. which limits the stress on the insulation of the first few turns (of the motor winding).019 9 3.035 for drives with number of cells = 6 18 6.00 0.2 · 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. 5) The output current distortion limit of 3 % is valid for drives with number of cells ≥ 9 and no overmodulation.012 15 6.02 for drives with number of cells ≥ 9 < 0.5 % 4) Note: Although overmodulation is allowed with all GenIV drives.60/6. 3) NEMA MG 1. output current distortion increases. 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).95 (for +5 % tap) or 1. Once operation of any power cell stops or if motor voltage decays significantly. the drive limits the amount of power (and hence the torque) that can be delivered to the load.2 · 2011 5/7 . the drive begins by magnetizing the motor and then continues with torque production.0 is the ratio of actual to rated line voltage. Once the input voltage falls below 65 %. Siemens D 15. the drive reduces output power to a slightly negative value and maintains synchronism with the motor for a period greater than five cycles.05 (for –5 % tap) The above formula is valid for all air-cooled drives. the attached description provides details of drive limitations.78 · 6 · 690 V · 0. The maximum allowable drive power as a function of line voltage is shown in the figure below. 0. 690. 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. Note: Overmodulation is not advised to be used.0 = 7000 V where 1.95 · 1. Output voltage capability must be calculated based on worstcase line voltage (minimum value). where. N = number of ranks in drive (or total number of cells = 3*N) Vcell rating = 630. 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 = 1.00 (for 0 % tap). or 750 V (depending on design) = actual input line voltage Vinput Vinput rated = rated drive input voltage Tap_Setting = 1. 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. Once input voltage is restored. the drive trips on a loss of input medium-voltage. the maximum drive power is limited to 50 % and is quickly reduced to a slightly negative value (regen limit) at 65 %. At 66 % input voltage. Pmax 105 100 With overmodulation (for 750 V cells only) % When overmodulation is used in the control for additional voltage capability. However.78 × N × Vinput_rated When the input line voltage drops below 90 % of its rated value. There is no delay in drive restart. The limit is implemented as an inverse function of speed in order to maintain constant power flow to the (cell) DC-bus.© 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 %. 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. the maximum output voltage increases by 5 %. each rated for 690 V. . WAGO™ is an off the shelf solution for interfacing digital and analog I/O to the NXGII controller via Modbus protocol. Cooling blower 1 (BLW1) O.. high (else SPARE) SPARE SPARE Internal digital input 3B Output reactor winding temperature. 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.© 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. 4 120 V AC 24 V DC Digital outputs 1 . The GenIV drive series uses the I/O breakout board while the GenIIIe drive series uses both. Redundant cooling blower 1R (TBLW2) O.. high Transformer air flow temperature. high-high Internal digital input 1D Cooling blower 1 (BLW1) O.2 · 2011 .K.... 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... 16 digital outputs.K. 20 mA or 0 . the I/O breakout board and the I/O WAGO modules.. 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-high Transformer air flow temperature... 5/8 Siemens D 15. 2 1 ... 2 relay output.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. Digital inputs 1 ... GenIV.. 2 4 . 3 analog inputs and 2 analog outputs. Internal digital input 0E SPARE SPARE Redundant cooling blower 2R (CBLW2) O... The table below shows some of the WAGO modules used in the GenIIIe series drive.. Cooling blower 1 (TBLW1) O. 10 V DC Analog outputs 2 4 . rated 250 V AC at 1 A or 30 V DC at 1 A Analog inputs 3 4 . high-high Transformer air flow temperature.K.K.. (optional) Cooling blower 2 (BLW2) O. Internal digital input 3D SPARE Redundant cooling blower 3 (BLW3) O. 10 V DC Analog outputs 1 .. 2 1 . I/O breakout board Signal type Channels Configuration This board consists of 20 digital inputs. 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. The following table shows the main characteristics of the I/O breakout board. Cooling blower 2 (CBLW1) O. 2 4 . Internal digital input 2D Redundant cooling blower 2 (BLW2) O..K. 20 mA 0 . high Internal digital input 0D Transformer air flow temperature.K... rated 250 V AC at 1 A or 40 V DC at 1 A Analog inputs 1 . 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. high Transformer air flow temperature.K.K. process trip alarm (else SPARE) ProToPS.2 · 2011 5/9 . 20 mA Motor speed.. 20 mA Remote speed demand.. 4 .. process alarm (else SPARE) ProToPS. set pulse Latch fault relay (LFR). 4 ... 20 mA 1) Available soon.. process alarm (else SPARE) ProToPS... 20 mA Internal analog output 2 Motor torque. process alarm (else SPARE) Internal digital output 6 ProToPS. 4 . 4 . 20 mA Motor torque. 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). 20 mA Motor torque. Siemens D 15. 20 mA Motor speed.. 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. set pulse Latch fault relay (LFR).© 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.. set pulse Internal analog input 1 Remote speed demand. 4 ... 4 . 4 . 4 ... 4 ... process trip alarm (else SPARE) ProToPS... 20 mA Remote speed demand.. set pulse Internal digital input 0E Cooling blower 1 (CBLW1) O. 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...K.K. Coordinated input protection scheme – MV enable Internal digital input 3D Cooling blower 3 (TBLW3) O.K.2 · 2011 External analog output 1 SPARE.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.. 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..K... 20 mA External analog output 2 SPARE...© Siemens AG 2011 Engineering Information Interfaces ■ Configuration (continued) GenIIIe. Internal digital output 14 Internal digital input 2D Cooling blower 2 (TBLW2) O. 4 . 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.. (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.K.. Internal digital input 1E Cooling blower 2 (CBLW2) O.. (redundant) (else SPARE) Internal digital output 15 Latch fault relay (LFR). 20 mA Internal analog output 2 Motor torque.. 10 V or 4 . 20 mA . 4 .. 4 . 4 .. 20 mA External digital input 01D MPM trip Internal analog input 2 Speed potentiometer 0 . 4 . • 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. The operator panel is illustrated in figure below. monitoring and commissioning of the drive. This operator panel is located on the front of the control cabinet for operation.2 · 2011 5/11 .© Siemens AG 2011 Engineering Information Operator panel ■ Overview The ROBICON Perfect Harmony drive series contains a userfriendly operator panel. 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. lugs and glands • Isolators.© 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.2 · 2011 . 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. 4 200 ... 645 149 . 802 66 1676 86 2184 42 1067 16 2) 406 1250 . 2048 933 .8 kV: dimension drawing B 5 G_D015_XX_00017 GenIV for motor voltages 6. 662 66 1676 86 2184 42 1067 16 2) 406 3.. 2292 164 4166 90...5 6..3/2. Siemens D 15. 1229 597 . 3) Available soon.3 4...6/4...2 · 2011 5/13 .0 300 ..3/2. 2458 224 .0/4. 887 149 ..5 851 300 .... 481 66 1676 86 2184 42 1067 16 2) 406 800 ..5 851 200 . 917 82 2083 86 2184 45 1143 33. 1075 149 .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 2.5 851 200 . 1834 114 2896 86 2184 45 1143 32 813 6..6 300 ....1 637..1 2288... 2) Blower cage height for redundant blower is 24 inch (610 mm). 1690 746 ... 3380 224 .16 kV: dimension drawing A GenIV for motor voltages 4. 3073 224 .... 2521 164 4166 90..© Siemens AG 2011 Engineering Information Dimension drawings G_D015_XX_00016 G_D015_XX_00015 ■ Dimension drawings GenIV for motor voltages 2..3/4.5 45 1143 25.16 3) 1000 . 1261 82 2083 86 2184 45 1143 33.0/4..0/6..8 1) Height without blowers.1 2288.4/3.5 45 1143 25.6/4..1 637.5 4. 1528 82 2083 86 2184 45 1143 33.... 3 to 6.16 4.6/4.2 · 2011 .5 673 2500 … 4000 1865 … 2984 208 5283 91.5 724 4095 … 6000 3055 … 4476 272 6909 91.5 2527 54 1372 28.5 2324 54 1372 28.5 673 1750 … 2250 1306 … 1679 172 4369 91.5 2324 54 1372 28. 5/14 Siemens D 15.6 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 2.5 2527 54 1372 28.5 2324 50 1270 26.5 673 4727 … 5956 3526 … 4443 232 5983 91.5 648 2363 … 2978 1763 … 2222 188 4775 91.6 1) Height without blowers.5 2324 50 1270 28.8 6.5 724 7000 … 8000 5222 … 5968 272 6909 99.0 6.5 673 2250 1679 192 4877 91.5 724 3.5 2324 50 1270 25.5 724 2500 … 4000 1865 … 2984 208 5283 91.4 1489 … 2250 1111 … 1679 172 4369 91.5 2324 50 1270 25.© Siemens AG 2011 Engineering Information Dimension drawings ■ Dimension drawings (continued) G_D015_XX_00018 GenIIIe for motor voltages 2.3/2.5 2324 54 1372 28.5 724 3500 … 4000 2611 … 2984 248 6299 91.5 648 2437 … 3500 1818 … 2611 188 4775 91.5 2324 54 1372 28.5 2324 50 1270 26.5 2324 50 1270 28.5 2324 50 1270 26.5 673 4097 … 5899 3056 … 4401 232 5983 91.5 724 3500 …4000 2611 … 2984 248 6299 91.5 2324 50 1270 26.5 724 4432 … 6000 3306 … 4476 272 6909 91.5 2324 50 1270 26.3 5 Shaft output 4.5 724 6500 … 8000 4849 … 5968 272 6909 99. 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. ■ Benefits • Higher customer comfort level with Siemens equipment . This method of teaching avoids the "cookiecutter" approach that tends to limit and generalize. We focus on you. Included in this session will be a brief introduction to ROBICON Perfect Harmony drives series. The training session covers basic troubleshooting. key parameters.Minimum speed/maximum speed 6/2 Siemens D 15.Historic log . operating the drive.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. The greater the knowledge of the system and its functions. operation of the drive. we offer the best there is in training.Fault log . 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. 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 a general overview of the ROBICON Perfect Harmony drive. The excellence of our staff and our numerous world-wide training locations are proof of our commitment to product education.Event log .Safety . obtaining faults/alarms. theory of operation. the drive topology and layout. the higher the efficiency the operator will obtain from the equipment.By means of theoretical explanation and hands-on experience • Safety .© 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.Parameter log • ToolSuite/debug demonstration only – hands on • Preventive maintenance • Spare parts and components .By being able to address issues in a timely fashion . basic operation. review of equipment drawings. your process and your equipment. safety guidelines. hardware identification and operation.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. The interface of the software to the drive is demonstrational only. and spare parts. 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. hardware identification.By learning best practices and protective equipment • Reduce costly downtime .Fault/alarm logger . And we train all associated personnel including operators. 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 . In this session attendees perform workshops to obtain a high comfort level working on the drive. alarms and faults.2 · 2011 This training program is designed to cover the key aspects for drive operators.Historic log . Included in this session will be the drive layout. 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 .Acceleration/deceleration . Siemens tailors its training programs to meet the individual customer's product and application needs. reading faults/alarms. 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. By combining modern teaching methods with the latest technology.Fault log . electrical technicians and electrical engineers. lockout tag out. maintenance personnel. 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 .By identifying spare parts needed • Reduce repairs . The interface of the software to the drive is demonstrational only. operating the drive. maintenance and employee safety issues.Event log . key parameters.Operation . safety guidelines. Drive operation – manual/automatic control .Operator panel operation – changing parameters. viewing logs . lockout/tag out. safety guidelines. This training class is designed as 50 % of the time theoretical and 50 % hands on. operating the drive.© 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. please contact the following phone number: +1 800 333 7421 Siemens D 15. setup and interface to the drive • Preventive maintenance. which is a group of programmable logic functions that define features and capabilities of the drive. 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. 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.Instructions on the program and its operation • Utilization of ToolSuite/debug – hands on . replacement and spare parts • Customer drawings review • General operation of the ROBICON Perfect Harmony drive – hands on • Presentation of Siemens software package – hands on . basic operation.Waveforms on the control boards via oscilloscope.2 · 2011 6/3 .Hardware identification . troubleshooting.Pull power cell . hardware identification and operation. 6 Availability For more information on ROBICON Perfect Harmony training courses. Further languages can be ordered if required (see description of options).Installation of the software on customer laptops .ToolSuite software installation. Complete review of the equipment drawings. Overview of the System Operational Program (SOP).Laptop interface to the drive . obtaining faults/alarms. so maintenance personnel will be able to troubleshoot the drive in a safe format. installation and set-up • Bypass operation • Workshops – hands on . This program covers each aspect of the drive in detail. parameters. Software will be provided and loaded on the customer's computer for interface to the controls. Included in this session will be the drive layout. Documentation The O&M manual will be send to the customer following the shipment of the ROBICON Perfect Harmony air-cooled drive. Support in planning and designing your project: From detailed actual-state analysis. ■ Technical Support Expert advice on technical questions with a wide range of demand-optimized services for all our products and systems. ■ 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. solution providers and plant operators: The service offering from Siemens Industry.siemens. ■ Online Support You have an experienced team of specialists at your side to provide active support and bundled know-how. www. definition of the goal and consulting on product and system questions right through to the creation of the automation solution.com/automation/partner 6/4 Siemens D 15. www.siemens.© Siemens AG 2011 Services and Documentation Service and Support The unmatched complete service for the entire life cycle For machine constructors. 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.siemens. Regular training courses and intensive contact among our employees – even across continents – ensure reliable service in the most diverse areas. We provide direct on-site support in more than 100 countries through all phases of the life cycle of your machines and plants.com/ automation/service&support 6 Our Service & Support accompanies you worldwide in all matters concerning automation and drives from Siemens. 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.2 · 2011 .com/ automation/support-request Contact information is available in the Internet at: www. ■ Optimization Our Field Service offers you services for commissioning and maintenance – to ensure that your machines and plants are always available. we are offering a complete range of optimization services. ■ 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. 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. 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. To help you achieve this potential. from configuration through to implementation of an automation project. ■ Modernization In every sector worldwide. plants and systems are required to operate with constantly increasing reliability.2 · 2011 6/5 .com/automation/partner Siemens D 15.© 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. there is often a great potential for increasing productivity or reducing costs. ■ Spare parts During the service life of machines and plants.siemens. 2 · 2011 .© Siemens AG 2011 Services and Documentation Service and Support Notes 6 6/6 Siemens D 15. 7 © Siemens AG 2011 Appendix 7/2 Subject index 7/3 Standard terms and conditions of sale and delivery Siemens D 15.2 · 2011 . 16 kV Motor voltage 4.2 · 2011 2/2 4/7 2/5 4/2 Vector control Version for harsh environment conditions 4/5 4/8 .© Siemens AG 2011 Appendix Subject index ■ Subject index Chapter/page A Chapter/page N Air-to-air heat exchanger Anti-condensation heating for cabinet Applications.4 kV Motor voltage 3. 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 5/13.3 kV Motor voltage 4.6/4. 2/19 L Linked low-voltage cells 2/3 M Maximized availability Mechanical door interlocks Monitoring functions Motor monitoring 7/2 Siemens D 15. 4/1 … 4/10 2/15 … 2/17 4/6 2/6.0/4. 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. typical Auxiliary voltage supply 4/10 4/7 2/2 4/5 Nameplates 4/6 Order No. 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. 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. 5/14 4/5 4/2. 6/3 2/3 U UL listing UPS mounted within the drive 4/9 4/7 V (kW)ick Ship program 2/2. 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 2/4.3/2. 4/9 5/3 2/2 7/3 2/5 4/5 4/8 4/5 4/9 4/9. 2/19. 4/10 O Operator panel Options 5/11 2/18.0 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 6/4.8 kV Motor voltage 6. 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. and Buyer shall pay such amounts or reimburse Siemens for any amounts Siemens pays. fire. less any applicable payments and credits. 5. reasonable attorney fees in addition to all damages otherwise available.S. Force Majeure / Delays. 2. Cash discounts shall only be allowed on that portion of the invoice paid within the normal discount period. accident. Products already shipped are not subject to price increase or decrease. and FINANCE CHARGE on any unpaid portion shall accrue. If Siemens suffers delay in performance due to any cause beyond its reasonable control. Payment shall be made for the Products without regard to whether Buyer has made or may make any inspection of the Products. adjustments or surcharges (including. Handling – Except to the extent expressly stated in these terms. different or conflicting terms contained in Buyer's request for proposal. (b. Siemens’ prices do not include any freight. Shipping. A 5% handling charge will be added to the price for all Product furnished from a local branch. (d) Taxes. To determine such extra charges. (g) Collection.) as stated in Siemens’ proposal. pending receipt of such assurances. plus any court costs or expenses incurred by Siemens. war or civil disturbance. whichever is lower. In the event of a price increase or decrease. labor shortage or disturbance. if shipment has been made. Risk of Loss. different or conflicting terms shall not operate as a waiver of these terms. or acts of government. including without limitation acts of God. Cash discounts are not applicable to notes or trade acceptances. (b) payment for raw materials ordered pursuant to a firm purchase order. insurance and related expenses including any associated taxes. insurance. Siemens failure to object to any such additional. shall result in extra charges. to prepaid transportation charges when added to Siemens' invoices or to discountable items if there are undisputed past due items on the account. duties or other government charges related to the Product. Siemens may. Whether these terms are included in an offer or an acceptance by Siemens. (f) Disputed Invoice – In the event Buyer disputes any portion or all of an invoice. the price of Products on order shall be adjusted to reflect such increase or decrease. duties or documentation. Title. If any unpaid balance is referred for collection. purchase order or any other written or oral communication from Buyer shall not be binding in any way on Siemens.O. changes. excises. or require other security satisfactory to Siemens before further manufacture or shipment is made. Siemens' prices include the costs of its standard domestic packing only. Buyer shall pay for each lot in accordance with the terms hereof. Any additional. (b) Credit Approval – All orders are subject to credit approval by Siemens. in addition to any other rights or remedies at contract or law. Siemens will give to Buyer notice within a reasonable time after Siemens becomes aware of any such delay Siemens D 15. to the extent permitted by law. and (c) such other direct costs incurred by Siemens as a result of such cancellation. shall be for the Buyer’s account. Deferment and Cancellation. from the date each invoice is due and payable at an ANNUAL PERCENTAGE RATE of EIGHTEEN PERCENT (18%). Siemens may make partial shipments. and may. Any deviation from this standard packing (domestic or export). defend and hold Siemens harmless from any taxes. 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.) Siemens' standard prices in effect at the time of release for shipment. (e) Finance Charge – Buyer agrees to pay FINANCE CHARGES on the unpaid balance of all overdue invoices. 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. specifications. These terms govern the sale of Products by Siemens. Upon Buyer’s default of these terms.© Siemens AG 2011 Appendix Standard terms and conditions of sale and delivery ■ Conditions of sale and delivery 1.2 · 2011 7/3 7 . The undisputed portion shall be paid when due. Buyer shall have no deferment rights and Buyer shall be liable for cancellation charges.B. which shall include without limitation (a) payment of the full product price for any finished Product or works in progress. such offer or acceptance is conditioned on Buyer's assent to these terms. Orders of less than $400 are subject to a $25 handling fee. Buyer agrees to pay Siemens. if any. This does not apply to a shipment held by request of Buyer. 4. delays of carriers. fees. it shall provide Siemens with a valid exemption certificate or permit and indemnify. The prices shall be: (a. Product shall be delivered F. or the highest applicable and lawful rate on such unpaid balance. Government sealed packing. Products held for Buyer are at Buyer's sole risk and expense. in its discretion. or if none are stated. failure of normal sources of supply. 3. whether or not litigation is commenced or prosecuted to final judgment. from the date due until the date of payment. and any FINANCE CHARGES accrued on any unpaid balance owed by Buyer. consult Siemens' sales offices. strikes. Discounts. subject to any cure right of Buyer. Siemens point of shipment with title to the Product and risk of loss or damage for the Product passing to Buyer at that point. all payments shall be net 30 days from invoice date payable in United States Dollars. to the extent that such amounts are finally determined to be payable to Siemens. Applicable Terms. withhold further manufacture or shipment. Buyer may only refuse such portion of such shipment that fails to comply with the requirements of these terms. without limitation. Delivery. require immediate cash payments for past and future shipments. Any and all increases. (a) Payment – Unless otherwise stated. Siemens may. 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. Packing. recover the Products from the carrier. rates or classification included as part of these terms. Buyer shall be responsible for all transportation. declare the entire balance of Buyer’s account immediately due and payable or foreclose any security interest in Products delivered. unless such right of refusal is expressly provided for on the face hereof. the time of performance shall be extended a period of time equal to the period of the delay and its consequences. fuel surcharges) which may be in connection with the freight charges. storage. (c) Installment Shipment – If these terms require or authorize delivery of Products in separate shipments to be separately accepted by Buyer. taxes. including U. If Buyer claims a tax or other exemption or direct payment permit. are as specified on the latest discount sheets issued from time to time. costs and penalties arising out of same. Pricing & Payment. Siemens shall have no liability to Buyer under any legal theory for such equipment or any related assignment of warranties. WITHOUT LIMITATION. operating and maintaining the Product in accordance with Siemens' instructions. knowledge of any defect in the Product. unless Buyer has previously provided Siemens with notice of a breach of the Limited Warranties. OR FOR CLAIMS BY BUYER FOR DAMAGES OF BUYER'S CUSTOMERS. (a) Limited Product Warranty Statements. Siemens herby assigns any warranties made to Siemens for such equipment. whichever occurs first. Warranties with respect to software which may be furnished by Seller as part of the Product. 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. FAILURE OF A REMEDY TO ACHIEVE ITS INTENDED OR ESSENTIAL PURPOSES. installing. any Product that is described as being experimental. and (vii) Buyer not being in default of any payment obligation to Siemens under these terms. if any. prototype. SHALL BE LIABLE. LIQUIDATED. THESE LIMITATIONS OF LIABILITY ARE EFFECTIVE EVEN IF SIEMENS HAS BEEN ADVISED BY THE BUYER OF THE POSSIBILITY OF SUCH DAMAGES. (vi) at Siemens' discretion. EXEMPLARY. or Buyer granting Siemens access to the Products at all reasonable times and locations to assess the warranty claims. at Buyer's expense. and all required commercial documentation. are expressly set forth elsewhere in these terms.2 · 2011 (e) Remedies for Breach of Limited Warranty. The Limited Warranties are conditioned on (i) Buyer storing. or refund of all or part of the purchase price. COURSE OF DEALING AND USAGE OF TRADE. Timely performance by Siemens is contingent upon Buyer's supplying to Siemens all required technical information and data. the "Limited Warranties"). 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. or should have had. or pilot is specifically excluded from the Limited Warranties and is provided to Buyer . Additionally. (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. SIEMENS’ MAXIMUM LIABILITY UNDER THIS CONTRACT SHALL BE THE ACTUAL PURCHASE PRICE RECEIVED BY SIEMENS FOR THE PRODUCT AT ISSUE OR ONE MILLION DOLLARS. The Limited Warranties shall be transferable during the warranty period to the initial enduser of the Product. Siemens has title to the Product free and clear of liens and encumbrances (collectively. and (iii) at the time of delivery. 7 7. WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. Limited Warranty. Buyer either removing and shipping the Product or non-conforming part thereof to Siemens. (ii) no repairs. (b) Conditions to the Limited Warranties. NEITHER SIEMENS. INCLUDING. Also excluded from the Limited Warranties are normal wear and tear items including any expendable items that comprise part of the Product. EXPRESS OR IMPLIED. REVENUE. (v) Buyer providing prompt written notice of any warranty claims within the warranty period described below. (iv) Buyer discontinuing use of the Product after it has. OR FOR ANY OTHER LOSS OR COST OF A SIMILAR TYPE.© Siemens AG 2011 Appendix Standard terms and conditions of sale and delivery ■ Conditions of sale and delivery (continued) 6. including drawing approvals. with no warranties of any kind. The Limited Warranties specifically exclude any equipment comprising part of the Product that is not manufactured by Siemens or not bearing its nameplate. (f) Transferability. The Limited Warranties set forth herein do not apply to any software furnished by Siemens. to provide Siemens with prompt. Siemens makes the following limited warranties: (i) the Product is free from defects in material and workmanship. SPECIAL. NOR ITS SUPPLIERS. 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. written notice of any claims of breach of the Limited Warranties. then the attached Software License/Warranty Addendum shall apply. 8. STRICT LIABILITY. (iii) using the Product within any conditions or in compliance with any parameters set forth in specifications that are attached to. The warranty on repaired or replaced parts of the Product shall be limited to the remainder of the original warranty period. If software is furnished by Siemens. SAVINGS OR PROFIT. Unless otherwise agreed to in writing by Siemens. or non-conforming parts thereof. SIEMENS MAKES NO OTHER WARRANTIES. (c) Exclusions from Limited Warranty Coverage. (d) Limited Warranty Period. All exchanged Products replaced under this Limited Warranty will become the property of Siemens. COLLATERAL. or expressly incorporated by reference into. OR FOR INDIRECT. these terms. LIMITATION OF LIABILITY. TORT (INCLUDING NEGLIGENCE). OR FOR COSTS OF CAPITAL OR OF SUBSTITUTE USE OR PERFORMANCE. PUNITIVE. these terms. developmental. To the extent permitted. modifications or alterations being made to the Product other than by Siemens or its authorized representatives. 7/4 Siemens D 15. Buyer's Requirements. 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. For each Product purchased from Siemens or an authorized reseller. FOR LOSS OF USE. WHICHEVER IS LESS. (ii) the Product materially conforms to Siemens' specifications that are attached to.as is. . INCIDENTAL OR CONSEQUENTIAL DAMAGES. or expressly incorporated by reference into. WHETHER IN CONTRACT. such as fuses and light bulbs and lamps. Buyer shall have 12 months from initial operation of the Product or 18 months from shipment. WARRANTY. INDEMNITY OR ANY OTHER LEGAL THEORY. order. sold. and usage of the Products provided under the Contract.© Siemens AG 2011 Appendix Standard terms and conditions of sale and delivery ■ Conditions of sale and delivery (continued) 9. or combination a suit is brought against Buyer. if by reason of such design. regulation. either: (a) procure for Buyer the right to continue using said Product. (b) replace it with substantially equivalent non-infringing Product. assignment. 17. Siemens will pay the damages and costs awarded in any suit or proceeding so defended. These terms may only be modified by a written instrument signed by authorized representatives of both parties. if Siemens is promptly provided notice and given authority. 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. Applicable Law and Jurisdiction. 14. 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. as a result of any suit or proceeding so defended is held to constitute infringement or its use by Buyer is enjoined. or (c) modify the Product so it becomes non-infringing. information. 11. BUYER WAIVES ALL RIGHTS TO A JURY TRIAL IN ANY ACTION OR PROCEEDING RELATED IN ANY WAY TO THESE TERMS. 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. Patent and Copyright Infringement. If Siemens elects to continue to make shipments. comprise the complete and exclusive agreement between the parties (the . PENALTIES. In addition. modification. together with any quotation. If any provision of these terms are held to be invalid. 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. Each shipment made hereunder shall be considered a separate transaction. systems or processes not furnished hereunder and by reason of said design. code. Siemens will not be responsible for any settlement of such suit or proceeding made without its prior written consent. purchase order or acknowledgement issued or signed by Siemens. These terms is governed and construed in accordance with the laws of the State of Delaware.) and supersede any terms contained in Buyer’s documents. Assignment. exported. Siemens’ actions shall not constitute a waiver of any default by Buyer or in any way affect Siemens’ legal remedies for any such default. Severability. methods. Modification of Terms. Changes in Work. transferred. resale. Buyer agrees to comply with all applicable laws and regulations relating to the purchase. or use thereof for its intended purpose. Siemens will. a suit or proceeding is brought against Siemens. Non-waiver of Default. 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. 16. In the event of any default by Buyer. Siemens D 15. schedule or other contractual modifications. transfer. illegal or unenforceable. at its option and its own expense. rule. standard or requirement which requires any change hereunder shall entitle Siemens to an equitable adjustment in the prices and any time of performance. Final Written Agreement. 15. Compliance with Laws. legality and enforceability of the remaining provisions will not in any way be affected or impaired. exportation. assigned or otherwise disposed of in a manner which will result in non-compliance with such applicable export laws and regulations. THIS ARTICLE IS AN EXCLUSIVE STATEMENT OF ALL THE DUTIES OF THE PARTIES RELATING TO PATENTS AND COPYRIGHTS. 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). Siemens will. 13. without regard to its conflict of laws principles. 10. disposal or use of the goods. in whole or in part. (b) modified by Buyer or its contractors after delivery. In case the Product. constitutes an infringement of any United States patent or copyright. modification or combination. SUITS. disposal. transfer. (c) combined by Buyer or its contractors with devices. exportation.Agreement. including any export license requirements.2 · 2011 7/5 . These terms. SANCTIONS AND FINES RELATED TO NON-COMPLIANCE WITH APPLICABLE EXPORT LAWS AND REGULATIONS. OR PROCEEDINGS INVOLVING PATENTS AND COPYRIGHTS. instruction. the validity. at its own expense. assignment. AND DIRECT OR CONTRIBUTORY PATENT OR COPYRIGHT AND OF ALL THE REMEDIES OF BUYER RELATING TO ANY CLAIMS. 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. 7 12. Siemens may decline to make further shipments. nor any rights or obligations hereunder without the prior written consent of the other. Export Compliance. Neither party may assign the Agreement. unless separately signed by Siemens. and assistance in a timely manner for the defense of said suit or proceeding. Any change to any law. The application of the United Nations Convention on Contracts for the International Sale of Goods is excluded. or any part thereof. instruction. BUYER AGREES TO INDEMNIFY AND HOLD SIEMENS HARMLESS FROM ANY AND ALL COSTS. 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. Buyer agrees that such Products shall not at any time directly or indirectly be used. Buyer acknowledges that Siemens is required to comply with applicable export laws and regulations relating to the sale. LIABILITIES. 2 · 2011 .© Siemens AG 2011 Appendix Notes 7 7/6 Siemens D 15. © Siemens AG 2011 Appendix Notes 7 Siemens D 15.2 · 2011 7/7 . 2 · 2011 .© Siemens AG 2011 Appendix Notes 7 7/8 Siemens D 15. © Siemens AG 2011 Siemens . siemens.© Siemens AG 2011 For Further Information Siemens Drive Technologies: www. 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.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.siemens.sea.com/mcms/drives/en Siemens drives family: www. Inc.automation. PA 15068 UNITED STATES OF AMERICA www.siemens. Nominal fee: 8.93. An obligation to provide the respective characteristics shall only exist if expressly agreed in the terms of contract.00 $ . E86060-K5515-A121-A2-7600 3P.com/automation Subject to change without prior notice Order No. Availability and technical specifications are subject to change without notice.8322. Siemens LD AM 500 Hunt Valley Road New Kensington.com/us/products/drives Local partners worldwide: www.com/automation/partner Siemens Industry.siemens.
Copyright © 2024 DOKUMEN.SITE Inc.