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Siemens SINAMICS G120P Hardware Installation Manual

Siemens SINAMICS G120P Hardware Installation Manual

Power module pm230 ip55/ul type 12
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SINAMICS G120P
Power Module PM230 IP55/UL Type 12
Hardware Installation Manual · 07/2010
SINAMICS
Answers for industry.

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Summary of Contents for Siemens SINAMICS G120P

  • Page 1 SINAMICS G120P Power Module PM230 IP55/UL Type 12 Hardware Installation Manual · 07/2010 SINAMICS Answers for industry.
  • Page 3 Introduction Safety notes Installing/Mounting SINAMICS G120P Connecting SINAMICS Power Module PM230 IP55 Service and maintenance Technical specifications Hardware Installation Manual Appendix Edition 05/2010, Firmware version 4.3 2010-07-02 A5E02923635A AB...
  • Page 4 Note the following: WARNING Siemens products may only be used for the applications described in the catalog and in the relevant technical documentation. If products and components from other manufacturers are used, these must be recommended or approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and maintenance are required to ensure that the products operate safely and without any problems.
  • Page 5: Table Of Contents

    Table of contents Introduction..............................9 System overview of the SINAMICS G120P ...................9 Documents for the Inverter ......................13 Safety notes............................. 15 Installing/Mounting........................... 21 Air cooling requirements ......................23 Dimensions and drill patterns.......................24 Control Unit installation ........................30 Fitting the IOP and the blanking plate..................34 Connecting ..............................
  • Page 6 Table of contents Specifications ..........................75 6.3.1 Input current operation ........................ 75 Current reduction depending on pulse frequency............... 79 Appendix..............................81 Electromagnetic Compatibility..................... 81 Definition of the EMC Environment and Categories ..............81 EMC overall performance ......................83 Standards ............................ 85 Abbreviations ..........................
  • Page 7 Table of contents Table 6- 10 Current reduction depending on pulse frequency................79 Table A- 1 Compliance Table ........................83 Table A- 2 Conducted & Radiated Emissions ....................83 Table A- 3 Harmonic Currents........................84 Table A- 4 EMC Immunity..........................84 Figures Figure 1-1 Typical Power Module rating labels .....................10 Figure 1-2 Breakdown of Order Number (MLFB)..................11 Figure 1-3...
  • Page 8 Table of contents Figure 5-3 FSA to FSC internal fan replacement ..................64 Figure 5-4 FSD to FSF internal fan replacement ..................66 Figure 5-5 Replacement external fan module FSA ..................67 Figure 5-6 Replacement external fan module FSB ..................67 Figure 5-7 Replacement external fan module FSC ..................67 Figure 5-8 Replacement external fan module FSD &...
  • Page 9: Introduction

    The SINAMICS G120 inverter has been designed for the accurate and efficient control of the speed and torque for three-phase motors. The SINAMICS G120P is a specific sub-system focused on the HVAC industry sector and for pump and fan applications. .
  • Page 10: Table 1- 1 Explanation Of Power Module Rating Label Information

    Introduction 1.1 System overview of the SINAMICS G120P Intelligent Operator Panel The Intelligent Operator Panel (IOP) has been designed to enhance the interface and communications capabilities of the SINAMICS G120P Inverters. Rating label information Every Power Module has a rating label which details the specifications of the Power Module.
  • Page 11: Figure 1-2 Breakdown Of Order Number (Mlfb)

    Introduction 1.1 System overview of the SINAMICS G120P Item Description Notes Output voltage range This is determined by the range of the input voltage range. Nominal current European motor rating North America motor rating Protection rating The IP rating denotes the protection the product has against environmental conditions.
  • Page 12: Figure 1-3 Block Diagram Pm230

    Introduction 1.1 System overview of the SINAMICS G120P Block diagram PM230 FSA ... FSF Figure 1-3 Block diagram PM230 Power Module PM230 IP55 Hardware Installation Manual, 2010-07-02, A5E02923635A AB...
  • Page 13: Documents For The Inverter

    Available technical documentation Comprehensive information and support tools are available from the Service and Support internet site at the following link: ● http://support.automation.siemens.com Examples of the types of documentation and support tools available for downloading are: ● Getting Started Guides ●...
  • Page 14 Introduction 1.2 Documents for the Inverter Power Module PM230 IP55 Hardware Installation Manual, 2010-07-02, A5E02923635A AB...
  • Page 15: Safety Notes

    Safety notes Safety Instructions The following Warnings, Cautions and Notes are provided for your safety and as a means of preventing damage to the product or components in the connected machines. This section lists Warnings, Cautions and Notes, which apply generally when handling the inverter, classified as General, Transport and Storage, Commissioning, Operation, Repair and Dismantling and Disposal.
  • Page 16 Safety notes General WARNING This equipment contains dangerous voltages and controls potentially dangerous rotating mechanical parts. Non-compliance with the warnings or failure to follow the instructions contained in this manual can result in loss of life, severe personal injury or serious damage to property.
  • Page 17 Safety notes The inverter must always be grounded. Isolate the line supply before making or changing connections to the unit. Use of mobile radio devices (e.g. telephones, walkie-talkies) with a transmission power > 1 W in the immediate vicinity of the devices (< 1.8 m) can interfere with the functioning of the equipment.
  • Page 18 Safety notes CAUTION Protect the equipment against physical shocks and vibration during transport and storage. It is important that the equipment is protected from water (rainfall) and excessive temperatures. Commissioning WARNING Working on the equipment by unqualified personnel or failure to comply with warnings can result in severe personal injury or serious damage to material.
  • Page 19 (see EN 60204, section 9.2.5.4). Repair WARNING Repairs on equipment may only be carried out by Siemens Service, by repair centers authorized by Siemens or by authorized personnel who are thoroughly acquainted with all the warnings and operating procedures contained in this manual.
  • Page 20 Safety notes Power Module PM230 IP55 Hardware Installation Manual, 2010-07-02, A5E02923635A AB...
  • Page 21: Installing/Mounting

    Installing/Mounting WARNING To ensure the safe operation of the equipment, it must be installed and commissioned by qualified personnel in full compliance with the warnings laid down in this manual. Take particular note of the general and regional installation and safety regulations regarding work on dangerous voltage installation (e.g.
  • Page 22 Installing/Mounting ● Ensure that the correct level of ventilation and air flow is provided ● Ensure that earthing and grounding practices for each Power Module follows the guidelines given in this document. WARNING Heatsink retaining screws The heatsinks of the PM230 IP55 Power Modules (FSA to FSC) are fixed to the main housing of the Power Module by a number of retaining screws.
  • Page 23: Air Cooling Requirements

    Installing/Mounting 3.1 Air cooling requirements Air cooling requirements Air cooling requirements Table 3- 1 Air cooling requirements for operation with rated power (LO) Frame LO power rating Required cooling air flow size 0.37 kW ... 3.0 kW 4.0 kW ... 7.5 kW 11.0 kW ...
  • Page 24: Dimensions And Drill Patterns

    3.2 Dimensions and drill patterns Dimensions and drill patterns Dimensions, drill patterns and minimum distances The dimension drawings for all frame sizes for the SINAMICS G120P Power Module PM230 are shown in the figures and not true to scale. Figure 3-1 Dimensions and drill pattern, PM230 FSA (0.37 - 3.0 kW)
  • Page 25: Table 3- 4 Minimum Distances For Mounting

    Installing/Mounting 3.2 Dimensions and drill patterns Figure 3-2 Dimensions and drill pattern, PM230 FSB (4.0 - 7.5 kW) Table 3- 4 Minimum distances for mounting Minimum distances FSB Note side by 0 mm side 0 inches above 100 mm 3.93 inches below 100 mm 3.93 inches...
  • Page 26: Table 3- 5 Minimum Distances For Mounting

    Installing/Mounting 3.2 Dimensions and drill patterns Figure 3-3 Dimensions and drill pattern, PM230 FSC (11.0 - 18.5 kW) Table 3- 5 Minimum distances for mounting Minimum distances FSC Note side by 0 mm side 0 inches above 125 mm 4.92 inches below 125 mm 4.92 inches...
  • Page 27: Table 3- 6 Minimum Distances For Mounting

    Installing/Mounting 3.2 Dimensions and drill patterns Figure 3-4 Dimensions and drill pattern, PM230 FSD (22.0 - 30.0 kW) Table 3- 6 Minimum distances for mounting Minimum distances FSD Note side by 50 mm side 1.97 inches above 300 mm 11.81 inches below 300 mm 11.81 inches...
  • Page 28: Table 3- 7 Minimum Distances For Mounting

    Installing/Mounting 3.2 Dimensions and drill patterns Figure 3-5 Dimensions and drill pattern, PM230 FSE (37.0 - 45.0 kW) Table 3- 7 Minimum distances for mounting Minimum distances FSE Note side by 50 mm side 1.97 inches above 300 mm 11.81 inches below 300 mm 11.81 inches...
  • Page 29: Table 3- 8 Minimum Distances For Mounting

    Installing/Mounting 3.2 Dimensions and drill patterns Figure 3-6 Dimensions and drill pattern, PM230 FSF (55.0 - 90.0 kW) Table 3- 8 Minimum distances for mounting Minimum distances FSF Note side by 50 mm side 1.97 inches above 350 mm 13.77 inches below 350 mm 13.77 inches...
  • Page 30: Control Unit Installation

    Installing/Mounting 3.3 Control Unit installation Table 3- 9 Summary of dimensions and tightening torques Frame size Dimensions (height x width x depth) Fixing methods Tightening torques with Operator Panel without Operator Panel 460 x 154 x 264 460 x 154 x 249 4 x M4 bolts 2.5 Nm (22 lbf.in) 4 x M4 nuts...
  • Page 31: Figure 3-7 Fitting Cu To Pm

    Installing/Mounting 3.3 Control Unit installation 1. Angle the CU to allow the lower hooks of the CU to fit into the lower recesses of the Power Module (PM). 2. Push the top of the CU towards the PM until it clicks into place. Figure 3-7 Fitting CU to PM Due to the PM230 having either a cover to remove or a door to be opened to access the...
  • Page 32: Figure 3-8 Fitting Cu To Pm230 Fsa To Fsc

    Installing/Mounting 3.3 Control Unit installation 6. If an Operator Panel/Blanking Panel is to be fitted, ensure it is fitted once the top cover is replaced. 7. Tighten the retaining screws on the PM top cover (tightening torque 1.5 Nm [13.3 lbf.in]). Removing the CU The CU is removed from the PM by using the CU release lever which is located to the right- hand side of the internal fan.
  • Page 33: Figure 3-9 Adapter Cable Bracket Fsd To Fsf

    Installing/Mounting 3.3 Control Unit installation Fitting and removing the CU to the PM230 FSD to FSF Note PM230 FSD to FSF door The actual door of the PM230 (FSD to FSF) has been removed from the illustration to make the sequence of fitting simpler. The door, in reality, should never be removed from the PM230 enclosure.
  • Page 34: Fitting The Iop And The Blanking Plate

    Installing/Mounting 3.4 Fitting the IOP and the blanking plate Removing the CU The CU is removed from the PM by using the CU release mechanism which is located to the right-hand side of the internal fan and just behind the top-rear of the CU. The mechanism is pushed-down to release the CU.
  • Page 35 Installing/Mounting 3.4 Fitting the IOP and the blanking plate 1. Fit the bottom-edge of the IOP or blanking plate into the panel recess on the front of the Inverter (see diagram below). 2. Push the IOP or blanking plate forward, towards the Inverter until it clicks into place (see diagram below).
  • Page 36: Figure 3-11 Fitting The Iop And Blanking Plate

    Installing/Mounting 3.4 Fitting the IOP and the blanking plate Figure 3-11 Fitting the IOP and blanking plate Power Module PM230 IP55 Hardware Installation Manual, 2010-07-02, A5E02923635A AB...
  • Page 37: Connecting

    Connecting Electrical Installation WARNING Power and motor connections A fixed location, non varying connection is necessary because of a leakage current > 3.5 mA. The inverter must always be grounded. If it is not grounded correctly, extremely dangerous conditions may arise which could prove potentially fatal. Isolate the mains electrical supply before making or changing connections to the unit.
  • Page 38: Power Distribution Systems

    Connecting 4.1 Power distribution systems Power distribution systems Overview of Power Distribution Systems The power distribution systems described below, as defined in EN 60950 , have been considered in the design of the inverter. In the next figures three phase systems are outlined. The three phase inverter must be connected to L1, L2 and L3.
  • Page 39: Motor Cable Lengths And Cross-Sections

    Connecting 4.3 Motor cable lengths and cross-sections Motor cable lengths and cross-sections Permissible Cable Length The use of unshielded motor cables is possible. However to meet C1/C2 EMI classes, shielded cables with appropriate EMC installation are required. The EMI classes relevant to the PM230 are explained below: First Environment An environment that includes domestic premises and establishments that are connected directly to a public low-voltage power supply network without the use of an intermediate...
  • Page 40: Table 4- 2 Cable Specifications To Comply With Emc Compatibility (Valid For Fsa To Fsc Only)

    Connecting 4.3 Motor cable lengths and cross-sections Table 4- 2 Cable specifications to comply with EMC compatibility (valid for FSA to FSC only) PM230 Cable type EMC category Max. cable length Filter A Screened 25 m (80 ft) Screened 50 m (164 ft) Unscreened None 100 m (330 ft)
  • Page 41: Table 4- 3 Cable Cross Section

    Connecting 4.3 Motor cable lengths and cross-sections Table 4- 3 Cable cross section Frame size Cable cross section Tightening torques lbf in 0.37: 1.0 … 2.5 18 … 14 0.55: 1.0 … 2.5 18 … 14 0.75: 1.0 … 2.5 18 …...
  • Page 42: Access To Power And Motor Terminals

    Connecting 4.4 Access to power and motor terminals CAUTION Cable cross section for grounding The material of the protective earthing conductor must be the same as the material of the power cable. If not, the specific resistance of the protective earthing conductor must not be higher than the specific resistance of the power cables.
  • Page 43: Figure 4-1 Sinamics Pm230 Fsa To Fsc Power Connections

    Connecting 4.4 Access to power and motor terminals Frame sizes A ... C The PM230 FSA to FSC have no terminal covers, but they do have detachable power terminals. Both power terminals can be removed to facilitate easier wiring of the Power Module.
  • Page 44: Figure 4-2 Sinamics Pm230 Fsd To Fsf Terminal Cover

    Connecting 4.4 Access to power and motor terminals Frame sizes D ... F Frame size D to F of the PM230 have a terminal cover (in the form of a metal grill). The door of the Inverter must be fully opened to allow access to the terminal cover and the terminals. The terminal cover must be removed to gain full access to the power terminals.
  • Page 45: Cable Preparation

    Connecting 4.5 Cable preparation Cable preparation Preparation information The table and the diagram below are provided to ensure that the cables for use with the PM power and motor terminals are prepared correctly. No screening dimensions are given for the input power cables as these are not normally screened cables.
  • Page 46 Connecting 4.6 Wiring Sequence Before the wiring of the Power Module can be performed, the following actions should be taken: 1. The Power Module must be mounted correctly as previously describe in this manual. 2. The Power Module cover has been removed. 3.
  • Page 47 Connecting 4.6 Wiring Sequence Step 4 1. Fit a ferrite core to the motor cable, as shown in the diagram on the right (for Class B filtered variants only). 2. Connect the power and motor cables to the Power Module terminals. 3.
  • Page 48: Power And Motor Connections

    Connecting 4.7 Power and motor connections Power and motor connections Power and motor terminal layout The figure below show the layout of the power and motor terminals of the Power Module. The figure also includes the tightening torques for the terminals. U1/L1 V1/L2 W1/L1 Figure 4-3 Power and motor terminal layout for FSA ...
  • Page 49: Gland Plate Installation

    Connecting 4.8 Gland plate installation Gland plate installation Overview The Inverter enclosure has a gland plate fitted to the bottom of the unit with pre-drilled guide holes to allow the power and control cables to be taken from the unit whilst maintaining the EMC requirements and IP55/UL Type 12 rating.
  • Page 50: Table 4- 4 Gland Plate Dimensions Information

    Connecting 4.8 Gland plate installation Connection Clamping range without Clamping range Spanner Order No. thread/length inlet width D (mm) max/min Ø (mm) max/min Ø (mm) C (mm) SW x E (mm) M16 x 1.5 11 - 7 9 - 5 20 x 22.2 bg216mstri M20 x 1.5...
  • Page 51: Figure 4-5 Pm230 Gland Plates Fsa To Fsc

    Connecting 4.8 Gland plate installation Figure 4-5 PM230 gland plates FSA to FSC Figure 4-6 PM230 gland plates FSD to FSF Power Module PM230 IP55 Hardware Installation Manual, 2010-07-02, A5E02923635A AB...
  • Page 52: Emc Guidelines

    Connecting 4.9 EMC guidelines EMC guidelines 4.9.1 Avoiding electromagnetic interference Only the concurrent use of filtering, grounding and shielding ensure an installation in accordance with the EMC requirements. The next sections cover all of the most important rules for the installation of inverter and drive systems.
  • Page 53: Equipotential Bonding

    Connecting 4.9 EMC guidelines Cable shields ● Shielded cables must have finely stranded braided shields. Foil shields are not suitable since they are much less effective. ● Shields must be connected to the grounded housings at both ends with excellent electrical conductivity and a large contact area.
  • Page 54: Figure 4-7 Grounding And High-Frequency Equipotential Bonding Measures In The Drive System And In The Plant

    4.9 EMC guidelines Grounding and high-frequency equipotential bonding measures The following figure illustrates all grounding and high-frequency equipotential bonding measures using an example with a SINAMICS G120P. Figure 4-7 Grounding and high-frequency equipotential bonding measures in the drive system and in the plant ①...
  • Page 55: Figure 4-8 Additional High-Frequency Bonding Of The Drive System

    Connecting 4.9 EMC guidelines The shield of the signal cable between the Control Unit and an external controller has to be ⑤ connected to the gland plate via an electrically conductive PG gland and on the other end to the shield bonding options of the controller cabinet directly behind the cable entry. ②...
  • Page 56: Inverter Shielding In Detail, Fsa To Fsc

    Connecting 4.9 EMC guidelines 4.9.5 Inverter shielding in detail, FSA to FSC The figure below shows the necessary shielding of the Power Module. Figure 4-9 Power Module shielding, FSA … FSC If a terminal wiring of the Control Unit is required, a shielded cable has to be used. The cable shield has to be connected to the gland plate via an electrically conductive PG gland.
  • Page 57: Figure 4-10 Control Unit Cable Shielding, Fsa

    Connecting 4.9 EMC guidelines Figure 4-10 Control Unit cable shielding, FSA … FSC Fitting ferrite rings to the motor and mains supply cables Motor cable blue ferrite ring It is necessary to fit the blue ferrite ring to the motor power cable on the PM230 frame sizes A to C (0.37 kW ...
  • Page 58: Figure 4-11 Fitting Ferrite Rings To Motor And Mains Supply Cables

    Connecting 4.9 EMC guidelines Figure 4-11 Fitting ferrite rings to motor and mains supply cables Power Module PM230 IP55 Hardware Installation Manual, 2010-07-02, A5E02923635A AB...
  • Page 59: Service And Maintenance

    The actual intervals at which maintenance procedures are to be performed depend on the installation conditions and the operating conditions. Siemens offers its customers support in the form of a service contract. For further details, contact your regional office or sales office.
  • Page 60: Replacing Components

    Service and maintenance 5.2 Replacing components Replacing components 5.2.1 Replacing the cooling fan The service life of the cooling fan The average service life of the cooling fans is 40,000 hours. In practice, however, the service life may deviate from this value. Especially a dusty environment can occlude the fan. The fan must be replaced in good time to ensure that the inverter is available.
  • Page 61: Figure 5-1 Sinamics Pm230 Fsa

    Service and maintenance 5.2 Replacing components Figure 5-1 SINAMICS PM230 FSA ... FSC fan replacement Installation For re-installation, carry out the above steps in reverse order. Power Module PM230 IP55 Hardware Installation Manual, 2010-07-02, A5E02923635A AB...
  • Page 62 Service and maintenance 5.2 Replacing components Replacing the external cooling fan FSD … FSF The PM230 Power Modules have two sets of cooling fans, one fan is internal and the other is external. The external cooling fans at the top of the Power Module. The external cooling fans on the PM230 FSD to FSF are a complete fan modules.
  • Page 63: Figure 5-2 Sinamics Pm230 Fsd

    Service and maintenance 5.2 Replacing components Figure 5-2 SINAMICS PM230 FSD ... FSF fan replacement Installation For re-installation, carry out the above steps in reverse order. Power Module PM230 IP55 Hardware Installation Manual, 2010-07-02, A5E02923635A AB...
  • Page 64 Service and maintenance 5.2 Replacing components Replacing the internal cooling fan FSA ... FSC The PM230 Power Modules have two sets of cooling fans, one fan is internal and the other is external. The internal cooling fan is mounted inside at the top of the Power Module housing. The internal cooling fan on the PM230 FSA to FSC is a complete fan modules and does not require any tools to remove and replace the fan.
  • Page 65 Service and maintenance 5.2 Replacing components ② 3. Connect the fan module power lead (indicated in the figure above as 4. The fan module installation is now complete. Replacing the internal cooling fan FSD ... FSF The PM230 Power Modules have two sets of cooling fans, one fan is internal and the other is external.
  • Page 66 Service and maintenance 5.2 Replacing components Figure 5-4 FSD to FSF internal fan replacement Installation ① 1. Hook the fan module into the fan module housing (indicated in the figure above as 2. Push the fan module towards the fan module housing (indicated in the figure above as ②...
  • Page 67: Replacement Fans

    Service and maintenance 5.2 Replacing components ③ 4. Connect the fan module power lead (indicated in the figure above as 5. The fan module installation is now complete. 5.2.1.1 Replacement fans Replacement fans order details The external and internal cooling fans of the PM230 are customer replaceable self-contained modules.
  • Page 68 Service and maintenance 5.2 Replacing components FSD and FSE external fan replacement module Order number: 6SL3200-0SF24-0AA0 Figure 5-8 Replacement external fan module FSD & FSE FSF external fan replacement module Order number: 6SL3200-0SF26-0AA0 Figure 5-9 Replacement external fan module FSF FSA to FSC internal fan replacement module Order number: 6SL3200-0SF31-0AA0 Figure 5-10...
  • Page 69: Spares And Accessories

    Service and maintenance 5.3 Spares and accessories FSD to FSF internal fan replacement module Order number: 6SL3200-0SF32-0AA0 Figure 5-11 Replacement internal fan module FSD to FSF Spares and accessories Order details A summary of all the spares and accessories that are available for the PM230 Power Module are listed in the table below.
  • Page 70 Service and maintenance 5.3 Spares and accessories Power Module PM230 IP55 Hardware Installation Manual, 2010-07-02, A5E02923635A AB...
  • Page 71: Technical Specifications

    Technical specifications High Overload and Low Overload The Inverters have different power ratings for "High Overload" and "Low Overload". The load characteristics are given below and refer to a duty cycle of 300 s. In case of no further specification or in the case of rated values, the values always refer to low overload. Figure 6-1 Duty cycle, High Overload and Low Overload Note...
  • Page 72: Performance Ratings Pm230

    Technical specifications 6.1 Performance ratings PM230 Definitions  LO input current 100 % of the permissible input current with a load cycle according to Low Overload.  LO output current 100 % of the permissible output current with a load cycle according to Low Overload.
  • Page 73: Temperature, Altitude And Voltage Derating Pm230

    Technical specifications 6.2 Temperature, altitude and voltage derating PM230 Feature Specification Pollution Protected against access to hazardous parts with a wire. The access probe of 1.0 mm ø shall not penetrate. Dust-protected Ingress of dust is not totally prevented, but dust shall not penetrate in a quantity to interfere with atisfactory operation of the apparatus or to impair safety.
  • Page 74 Technical specifications 6.2 Temperature, altitude and voltage derating PM230 Operational altitude derating The figures below show the derating required according to altitude. Output current [%] Input voltage [%] 1000 2000 3000 4000 1000 2000 3000 4000 3300 6600 9800 13000 3300 6600 9800...
  • Page 75: Specifications

    Technical specifications 6.3 Specifications Specifications 6.3.1 Input current operation Note The Power Module is only for operation at a maximum line impedance of 1% Vk. No line reactor can be used with the Power Module. NOTICE UL-certified fuses must be used In order that the system is in compliance with UL, UL certified fuses, circuit breakers or self- protected combination motor controllers must be used.
  • Page 76: Table 6- 3 Pm230 Frame Sizes A, 3 Ac 380 V

    Technical specifications 6.3 Specifications Table 6- 3 PM230 Frame Sizes A, 3 AC 380 V … 480 V, ± 10% Order No. Class A filter 6SL3223-0DE21-1AA0 6SL3223-0DE21-5AA0 6SL3223-0DE22-2AA0 Class B filter 6SL3223-0DE21-1BA0 6SL3223-0DE21-5BA0 6SL3223-0DE22-2BA0 Values based on Low Overload ● LO power 1,1 kW 1,5 kW 2,2 kW...
  • Page 77: Table 6- 5 Pm230 Frame Sizes B, 3 Ac 380 V

    Technical specifications 6.3 Specifications Table 6- 5 PM230 Frame Sizes B, 3 AC 380 V … 480 V, ± 10% Order No. Class A filter 6SL3223-0DE24-0AA0 6SL3223-0DE25-5AA0 6SL3223-0DE27-5AA0 Class B filter 6SL3223-0DE24-0BA0 6SL3223-0DE25-5BA0 6SL3223-0DE27-5BA0 Values based on Low Overload ● LO power 4 kW 5,5 kW 7,5 kW...
  • Page 78: Table 6- 7 Pm230 Frame Sizes D, 3 Ac 380 V

    Technical specifications 6.3 Specifications Table 6- 7 PM230 Frame Sizes D, 3 AC 380 V … 480 V, ± 10% Order No. Class A filter 6SL3223-0DE32-2AA0 6SL3223-0DE33-0AA0 Class B filter 6SL3223-0DE32-2BA0 6SL3223-0DE33-0BA0 Values based on Low Overload ● LO power 22 kW 30 kW ●...
  • Page 79: Current Reduction Depending On Pulse Frequency

    Technical specifications 6.4 Current reduction depending on pulse frequency Table 6- 9 Frame Sizes F, 3 AC 380 V … 480 V, ± 10% Order No. Class A filter 6SL3223-0DE35-5AA0 6SL3223-0DE37-5AA0 6SL3223-0DE38-8AA0 Class B filter 6SL3223-0DE35-5BA0 6SL3223-0DE37-5BA0 6SL3223-0DE38-8BA0 Values based on Low Overload ●...
  • Page 80 Technical specifications 6.4 Current reduction depending on pulse frequency 60.00 52.70 43.40 37.20 31.00 27.90 24.80 75.00 63.75 52.50 45.00 37.50 33.75 30.00 90.00 76.50 63.00 54.00 45.00 40.50 36.00 110.0 93.50 77.00 145.0 123.3 101.5 178.0 151.3 124.6 Power Module PM230 IP55 Hardware Installation Manual, 2010-07-02, A5E02923635A AB...
  • Page 81: Appendix

    Appendix Electromagnetic Compatibility Electromagnetic compatibility All manufacturers/assemblers of electrical apparatus which "performs a complete intrinsic function and is placed on the market as a single unit intended for the end user" must comply with the EMC directive EC/89/336. There are three routes for the manufacturer/assembler to demonstrate compliance: Self-certification This is a manufacturer's declaration that the European standards applicable to the electrical environment for which the apparatus is intended have been met.
  • Page 82 Appendix A.2 Definition of the EMC Environment and Categories First Environment An environment that includes domestic premises and establishments that are connected directly to a public low-voltage power supply network without the use of an intermediate transformer. Note For example: houses, apartments, commercial premises or offices in a residential building. Second Environment An environment that includes industrial premises and establishments that are not connected directly to a public low-voltage power supply network.
  • Page 83: Emc Overall Performance

    Note All drives should be installed and commissioned in accordance with the manufacturer’s guidelines and in accordance with good EMC practices. For further information refer to SIEMENS application note "EMC Design Guidelines". EMC overall performance EMC Emissions The SINAMICS G120 drives have been tested in accordance with the emission requirements of the category C2 (domestic) environment.
  • Page 84 Appendix A.3 EMC overall performance Note To achieve this performance the default switching frequency should not be exceeded. The PM230 complies with the above mentioned EMC emission requirements, only at the default settings of the Power Module. The limits will not be met if the drive is not installed in accordance with good EMC practices. Harmonic Currents The harmonic current emissions from the SINAMICS PM230 is as follows: Table A- 3...
  • Page 85: Standards

    EMC Directive as defined by the EMC Product Standard for Power Drive Systems EN 61800-3 ISO 9001 Siemens plc operates a quality management system, which complies with the requirements of ISO 9001. Certificates can be downloaded from the internet under the following link: http://support.automation.siemens.com/WW/view/en/22339653/134200 (http://support.automation.siemens.com/WW/view/en/22339653/134200)
  • Page 86: Abbreviations

    Appendix A.5 Abbreviations Abbreviations Abbreviation State Alternating Current Communauté Européenne Control Unit Direct current Digital input DIP switch Digital output Equivalent circuit diagram European Economic Community ELCB Earth leakage circuit breaker Electromagnetic compatibility Electromagnetic interference Frame size A Frame size B Frame size C Frame size D Frame size E...
  • Page 87: Index

    Index Air cooling requirements, 23 General rules for the environmental protection, 21 Grounding, 42 Cable connection, 18 Cable cross section, 39 Harmonic Currents, 84 Cable length, 39 Category C1, 39, 82 Category C2, 39, 82, 83 Category C3, 82, 83 IP20 protection, 21 Class A, 83 IPXXB protection, 21...
  • Page 88 Index EN 61800-3, 85 EN 61800-3:2004, 81 PELV, 16, 42 EN 61800-5-1, 85 Personal protective equipment, 21 ISO 9001, 85 Power and motor terminal layout, 48 Static discharges, 16 Power Distribution Systems, 38 Power Drive System (PDS), 39, 82, 83 Power Modules Dimension drawings, 24 Overview, 9...
  • Page 90 Siemens AG Subject to change without notice Industry Sector © Siemens AG 2010 Drive Technologies Motion Control Systems Postfach 3180 91050 ERLANGEN GERMANY www.siemens.com/sinamics-g120...

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