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1 ___________________ Changes in this manual Fundamental safety 2 ___________________ instructions SINAMICS SINAMICS G120P PM230 Power Module, IP55 Hardware Installation Manual 3 ___________________ Launch 4 ___________________ Installing/mounting ___________________ 5 Connecting ___________________ 6 Service and maintenance ___________________ 7 Technical data ___________________ 8 Spare parts and accessories Appendix Edition12/2016 12/2016 A5E35319202B AB A
Legal information Warning notice system This manual contains notices you have to observe in order to ensure your personal safety, as well as to prevent damage to property. The notices referring to your personal safety are highlighted in the manual by a safety alert symbol, notices referring only to property damage have no safety alert symbol. These notices shown below are graded according to the degree of danger.
Table of contents 1 Changes in this manual ........................................................................................................................... 7 2 Fundamental safety instructions .............................................................................................................. 9 3 4 5 6 2.1 General safety instructions ....................................................................................................... 9 2.
Table of contents 8 A 7.3 Electromagnetic compatibility - Overview .............................................................................. 50 7.4 Ambient conditions ................................................................................................................. 51 7.5 General technical data ........................................................................................................... 52 7.6 Specific technical data ...............................................
Changes in this manual 1 Changes with respect to the manual, edition 06/2014 The new Power Modules with frame sizes FSA, FSB and FSC support STO. How can you identify a Power Module of the new series? From the article number. The devices belonging to the new series have a "G" instead of an "A" at the last but one position. Otherwise, the article numbers are identical.
Changes in this manual PM230 Power Module, IP55 8 Hardware Installation Manual, 12/2016, A5E35319202B AB
Fundamental safety instructions 2.1 2 General safety instructions DANGER Danger to life due to live parts and other energy sources Death or serious injury can result when live parts are touched. • Only work on electrical devices when you are qualified for this job. • Always observe the country-specific safety rules. Generally, six steps apply when establishing safety: 1. Prepare for shutdown and notify all those who will be affected by the procedure. 2. Disconnect the machine from the supply.
Fundamental safety instructions 2.1 General safety instructions WARNING Danger to life when live parts are touched on damaged devices Improper handling of devices can cause damage. For damaged devices, hazardous voltages can be present at the enclosure or at exposed components; if touched, this can result in death or severe injury. • Ensure compliance with the limit values specified in the technical data during transport, storage and operation. • Do not use any damaged devices.
Fundamental safety instructions 2.1 General safety instructions NOTICE Material damage due to loose power connections Insufficient tightening torques or vibrations can result in loose electrical connections. This can result in damage due to fire, device defects or malfunctions. • Tighten all power connections with the specified tightening torques, e.g. line supply connection, motor connection, DC link connections. • Check all power connections at regular intervals.
Fundamental safety instructions 2.1 General safety instructions WARNING Danger to life due to the motor catching fire in the event of insulation overload There is higher stress on the motor insulation through a ground fault in an IT system. If the insulation fails, it is possible that death or severe injury can occur as a result of smoke and fire. • Use a monitoring device that signals an insulation fault. • Correct the fault as quickly as possible so the motor insulation is not overloaded.
Fundamental safety instructions 2.1 General safety instructions WARNING Danger to life when safety functions are inactive Safety functions that are inactive or that have not been adjusted accordingly can cause operational faults on machines that could lead to serious injury or death. • Observe the information in the appropriate product documentation before commissioning. • Carry out a safety inspection for functions relevant to safety on the entire system, including all safety-related components.
Fundamental safety instructions 2.2 Handling electrostatic sensitive devices (ESD) 2.2 Handling electrostatic sensitive devices (ESD) Electrostatic sensitive devices (ESD) are individual components, integrated circuits, modules or devices that may be damaged by either electric fields or electrostatic discharge.
Fundamental safety instructions 2.3 Industrial security 2.3 Industrial security Note Industrial security Siemens provides products and solutions with industrial security functions that support the secure operation of plants, systems, machines and networks. In order to protect plants, systems, machines and networks against cyber threats, it is necessary to implement – and continuously maintain – a holistic, state-of-the-art industrial security concept.
Fundamental safety instructions 2.4 Residual risks of power drive systems 2.4 Residual risks of power drive systems When assessing the machine- or system-related risk in accordance with the respective local regulations (e.g., EC Machinery Directive), the machine manufacturer or system installer must take into account the following residual risks emanating from the control and drive components of a drive system: 1.
3 Launch Overview The PM230 Power Modules belong to the modular family of SINAMICS G120 inverters. A modular inverter comprises Control Unit and Power Module. PM230 Power Modules have been specifically designed for pump and fan drives in industrial HVAC applications for a mains voltage range of 3 AC 380 V … 480 V. They are available with a category C1 or C2 filter in the following frame sizes: • FSA C1 C2 0.37 kW … 3 kW • FSB C1 C2 4 kW … 7.
Launch 3.1 Component specification according to UL STO with PM230 and CU240 The PM230 FSA … FSC Power Modules have been technically revised. Together with CU240 Control Units, software version 4.7 SP3 and higher, they support the STO safety function. You can identify the new series of Power Modules from the article number. The article numbers of the new Power Modules have a "G" instead of an "A" in the last but one position. Otherwise, the article numbers are identical. 3.
Installing/mounting 4.1 4 Installation conditions General installation conditions When installing the Power Modules, carefully observe the following sections in Technical data (Page 47) in order to guarantee reliable, continuous and Chapter disturbance-free operation.
Installing/mounting 4.1 Installation conditions Inverters for plants and systems in the United States / Canada (UL/cUL) ● To ensure a design that is in conformance with UL/cUL, only use the approved fuses specified in Section Specific technical data (Page 53). ● Always use copper cables approved for 75 °C for Power Modules, frame sizes FSD … FSF. ● The inverter provides internal motor overload protection in accordance with UL508C. The protection threshold is 115% of the inverter full load current.
Installing/mounting 4.2 EMC compliant installation of a machine or system 4.2 EMC compliant installation of a machine or system EMC compliant connection of a Power Module The following diagram shows the EMC compliant installation of a Power Module with degree of protection IP55. Figure 4-1 EMC-compliant connection of an PM230 Power Module, degree of protection IP55 Note You must use a shielded cable if you use the control terminals of the Control Unit.
Installing/mounting 4.2 EMC compliant installation of a machine or system 4.2.
Installing/mounting 4.2 EMC compliant installation of a machine or system ● Do not interrupt the shield. ● Only use metallic or metallized plug connectors for shielded data cables. 4.2.2 Electromechanical components Radio interference suppression ● Connect interference suppression elements to the following components: – Coils of contactors – Relays – Solenoid valves – Motor holding brakes ● Connect the interference suppression element directly at the coil.
Installing/mounting 4.3 Installing the Power Modules 4.3 Installing the Power Modules Table 4- 1 Frame size Dimensions and clearances to other devices Dimensions (mm) Drilling dimensions (mm) Mounting Clearances to other devices (mm) Width (W) Height (H) Depth1) (D) b h Screws/torque (Nm) Top Bottom Lateral FSA 154 460 249 132 445 4 x M4 / 2.5 100 100 0 FSB 180 540 249 158 524 4 x M4 / 2.
Installing/mounting 4.
Installing/mounting 4.4 Installing the Control Unit and Operator Panel 4.4 Installing the Control Unit and Operator Panel 4.4.1 Installing the Control Unit Installing the Control Unit, PM230 IP55 - FSA … FSC To insert or detach the Control Unit, you must release eight or ten fixing screws of the cover and then remove the cover. Insert the lugs on the rear panel of the Control Unit into the appropriate recesses of the Power Module. Snap in the Control Unit as shown in the illustration.
Installing/mounting 4.4 Installing the Control Unit and Operator Panel Installing the Control Unit, PM230 IP55 - FSD … FSF To insert or detach the Control Unit, you must open the front door of the Power Module. Close the door before you commission the inverter. Check to ensure that the seals are not damaged. Operation with operator panel To connect the operator panel to the Control Unit, you have to plug in the supplied connecting cable to the Control Unit and the operator panel.
Installing/mounting 4.4 Installing the Control Unit and Operator Panel 4.4.2 Installing the operator panel or dummy cover Mounting the operator panel or dummy cover on the IP55 Power Module Either an operator panel or the dummy cover must be plugged on for the inverter to achieve degree of protection IP55. ① Attaching the operator panel or dummy cover: Press the operator panel or dummy cover onto the inverter as shown until you hear it click into place.
5 Connecting Install the inverters so that you are compliant with local regulations for erecting and installing low voltage systems. DANGER Danger to life through electric shock due to the residual charge of the DC link capacitors Because of the DC link capacitors, a hazardous voltage is present for up to 5 minutes after the power supply has been switched off. Contact with live parts can result in death or serious injury.
Connecting WARNING Danger to life due to fire or electric shock when using unsuitable residual current protection devices The inverter can cause a current to flow in the protective conductor. This current can cause the residual current device (RCD) or residual current monitoring (RCM) to incorrectly trip (nuisance trip). In the case of a fault (ground fault), the fault current can contain a DC component, which prevents the RCD/RCM from tripping, with the risk of subsequent fault or electric shock.
Connecting In order that an RCD does not unnecessarily trip as a result of operational leakage currents, the following preconditions must be fulfilled: ● The neutral point of the line supply is grounded. ● For inverters with rated input currents ≤ 125 A referred to LO, use an RCCB type B with a response limit current of 300 mA. Connect the RCCB in series with the overcurrent protective devices.
Connecting 5.1 Permissible line supplies 5.1 Permissible line supplies The Power Modules have built-in filters and can therefore only be operated on TN line systems with a grounded neutral point. Operating the Power Modules without protective grounding is not permitted under any circumstances. 5.2 Protective conductor WARNING Danger to life caused by high leakage currents when the protective conductor is interrupted The drive components conduct a high leakage current via the protective conductor.
Connecting 5.3 Connecting the line and motor cable at the inverter 5.3 Connecting the line and motor cable at the inverter 5.3.1 Connection overview Note Symbol for PE The sign " " is equivalent to the designation "PE". Table 5- 1 Connection types, maximum conductor cross-sections and tightening torques Inverters Connection Cross-section / tightening torque FSA Terminal 1 … 2.5 / 0.5 Nm 18 … 14 AWG / 4.4 lbf in FSB Terminal 2.5 … 6 mm2 / 0.6 Nm 14 … 10 AWG, 5.
Connecting 5.3 Connecting the line and motor cable at the inverter 5.3.2 Establishing a line and motor connection EMC cable glands To meet the requirements of degree of protection IP55/UL, type 12, and to fulfill EMC requirements, adhere to the following: ● Use EMC cable glands for the control cables. ● Make sure that the cable glands match the drill holes in the plate. Figure 5-2 Example of an EMC cable gland (Blueglobe) The EMC cable glands are not included in the scope of supply of the inverter.
Connecting 5.3 Connecting the line and motor cable at the inverter 2. Remove the cable gland plate from the bottom of the inverter. Diameters of the drill holes in the cable gland plates: 20.5 mm Control cables 20.5 mm Mains and motor cables, FSA 25.5 mm Mains and motor cables, FSB 32.5 mm Mains and motor cables, FSC Figure 5-3 Bolting plates for PM230, FSA to FSC 3. Prepare the mains and motor cables for connection in accordance with the table below.
Connecting 5.3 Connecting the line and motor cable at the inverter 7. Where necessary, fit the supplied ferrite ring onto the motor cable. Ferrite rings are required to be able to comply with the limit values of IEC 61800-3, Category C1 with reference to grid-bound interference voltages when using Power Modules with integrated line filters. If you use cables > 25 m, the requirements of Category C1 are no longer satisfied. Figure 5-4 Ferrite rings for the mains and motor cables 8.
Connecting 5.3 Connecting the line and motor cable at the inverter Connecting the mains supply and motor, frame sizes FSD … FSF Procedure To connect the mains supply and motor to FSD … FSF Power Modules, proceed as follows: 1. Open the door of the Power Module. 2. Remove the terminal cover. 3. Remove the cable gland plate from the bottom of the inverter. Diameters of the drill holes in the cable gland plates: 20.5 mm Control cables 40.5 mm Mains and motor cables, FSD 50.
Connecting 5.3 Connecting the line and motor cable at the inverter 7. Connect the mains supply and the motor. Figure 5-7 Connections for PM230 Power Modules, FSD … FSF 8. Close the door of the Power Module. Make sure that the door seal of the Power Module is not damaged. Now you have connected both the mains supply and the motor to the FSD … FSF Power Module. 5.3.3 Length of motor cable Always dimension the motor cable such that the ohmic losses are less than 5% of the inverter power rating.
Connecting 5.3 Connecting the line and motor cable at the inverter Furthermore, you must use EMC cable glands for the motor connection and connections of the Control Unit.
Connecting 5.3 Connecting the line and motor cable at the inverter 5.3.4 Connecting the motor to the inverter in a star or delta connection Standard induction motors with a rated power of approximately ≤ 3 kW are normally connected in a star/delta connection (Y/Δ) at 400 V/230 V. For a 400-V line supply, you can connect the motor to the inverter either in a star or in a delta connection.
Service and maintenance 6 WARNING Risk of fire or electric shock as a result of defective components If an overcurrent protection device responds, this can indicate that a fault current was interrupted. Check the circuit components and all of the components of the inverter and replace defective parts and components to reduce the risk of a fire or an electric shock. You must replace the complete overload relay if the current carrying element of the relay has burnt through.
Service and maintenance 6.1 Maintenance 6.1 Maintenance The purpose of maintenance is to maintain the specified condition of the Power Module. Replacing Regularly remove dirt and pollution, and replace the fan in plenty of time. fans (Page 42) 6.1.1 Cleaning Ventilation Make sure that the inverter's ventilation slots are not blocked. Check that the fan is functioning correctly. Cables and screw terminals Regularly check the cables for damage, and immediately replace any defective parts.
Service and maintenance 6.1 Maintenance 6.1.2.1 Replacement of the fans for the frame sizes FSA ... FSC Replacement of the external fan FSA … FSC Tools are not required to replace a fan. Preparation 1. Switch off the inverter. 2. Wait at least 5 minutes until the Power Module has fully discharged. Procedure 1. Remove the front cover of the inverter. 2. Remove the operator panel from the Power Module. 3. Disconnect all the cables from the Power Module. 4.
Service and maintenance 6.1 Maintenance Changing the internal fan FSA … FSC No tools are required to change the fan. Preparation 1. Switch off the inverter. 2. Wait at least 5 minutes until the Power Module has fully discharged. 3. Remove the front cover of the inverter. Procedure 1. Remove the power plug of the fan ①. 2. Press the holding clips of the fan module downward ②. 3. Remove the fan module from the guide rail ③. 4. Insert the new fan module until the holding clip locks in with a click ④. 5.
Service and maintenance 6.1 Maintenance Procedure 1. Open the front door of the inverter 2. Remove the operator panel from the Power Module. 3. Disconnect all the cables from the Power Module. 4. Place the Power Module down on a clean and secure surface with the front side facing downwards. 5. Use the Torx screwdriver to loosen the fixing screws of the fan ①. 6. Move the fan forward and loosen the power supply connection ②.
Service and maintenance 6.1 Maintenance Changing the internal fan FSD … FSF You require a Pozidriv screwdriver to change the fan. Preparation 1. Switch off the inverter 2. Wait at least 5 minutes until the Power Module has fully discharged. 3. Open the enclosure door. Procedure 1. Remove the power plug of the fan ①. 2. Loosen the fixing screw of the fan ②. 3. Unhook the fan from the holding plate and remove it from the enclosure ③. 4.
Technical data 7 Permissible motors For the Power Modules, induction motors are permissible in the range from 25 % … 150 % of the inverter power without any restrictions. Note Motors for inverter operation Only use motors that are suitable for operation with inverters with a DC link.
Technical data 7.1 Overload capability of the inverter 7.1 Overload capability of the inverter Overload capability is the property of the inverter to temporarily supply a current that is higher than the rated current to accelerate a load.
Technical data 7.
Technical data 7.2 Cable cross-sections and tightening torques 7.2 Cable cross-sections and tightening torques Table 7- 1 Inverters Connection Cross-section / tightening torque FSA Terminal 1 … 2.5 / 0.5 Nm 18 … 14 AWG / 4.4 lbf in FSB Terminal 2.5 … 6 mm2 / 0.6 Nm 14 … 10 AWG, 5.3 lbf in mm2 FSC Terminal 6 …16 FSD Cable lug 10 … 35 mm2 / 6 Nm FSE FSF 7.3 Connection types, maximum conductor cross-sections and tightening torques Cable lug Cable lug mm2 25 … 50 / 1.
Technical data 7.4 Ambient conditions 7.
Technical data 7.5 General technical data 7.5 General technical data Feature Version Mains voltage 380 … 480 V 3 AC ± 10% Output voltage 0 V 3 AC … input voltage x 0.95 (max.) Input frequency 50 Hz … 60 Hz, ± 3 Hz Output frequency 0 Hz … 550 Hz, depending on the control mode Power factor λ 0.
Technical data 7.6 Specific technical data 7.6 Specific technical data Note Values for Low Overload and High Overload The values for Low Overload (LO) are identical with those of the rated values. Power loss of the Power Modules The values specified for the power loss are typical values at 100% of the rated speed and 100% of the load corresponding to Low Overload. Table 7- 2 PM230, IP55, frame size A, 380 V ... 480 V 3 AC Article No. with filter, C2 Article No.
Technical data 7.6 Specific technical data Article No. with filter, C2 Article No. with filter, C1 6SL3223-0DE23-0AG1 6SL3223-0DE23-0BG1 LO base load power 3 kW LO base load input current 8.0 A LO base load output current 7.7 A HO base load power 2.2 kW HO base load input current 6.1 A HO base load output current 5.9 A Fuse according to IEC Fuse according to UL, class J 3NA3803 10 A Power loss 0.12 kW Required cooling air flow Weight Table 7- 4 7 l/s 4.
Technical data 7.6 Specific technical data Table 7- 5 PM230, IP55, frame size C, 380 V AC … 480 V 3 AC Article No. with filter, C2 Article No. with filter, C1 6SL3223-0DE31-1AG1 6SL3223-0DE31-1BG1 6SL3223-0DE31-5AG1 6SL3223-0DE31-5BG1 6SL3223-0DE31-8AG1 --- LO base load power 11 kW 15 kW 18.5 kW LO base load input current 26.9 A 33.1 A 39.2 A 26 A 32 A 38 A HO base load power 7.5 kW 11 kW 15 kW HO base load input current 18.6 A 26.9 A 33.
Technical data 7.6 Specific technical data Table 7- 7 PM230, IP55, frame size E, 380 V … 480 V 3 AC Article No. with filter, C2 Article No.
Technical data 7.7 Restrictions for special ambient conditions 7.7 Restrictions for special ambient conditions Current de-rating depending on the ambient operating temperature The Control Unit and operator panel can restrict the maximum permissible operating ambient temperature of the Power Module. Current derating depending on the installation altitude Above 1000 m above sea level you must reduce the inverter output current as a result of the lower cooling capability of the air.
Technical data 7.8 Current reduction depending on pulse frequency 7.8 Current reduction depending on pulse frequency Current derating depending on the pulse frequency LO base load Output base-load current at a pulse frequency of 2 kHz 4 kHz 6 kHz 8 kHz 10 kHz 12 kHz 14 kHz 16 kHz kW A A A A A A A A 0.37 -- 1.30 1.11 0.91 0.78 0.65 0.59 0.52 0.55 -- 1.70 1.45 1.19 1.02 0.85 0.77 0.68 0.75 -- 2.20 1.87 1.54 1.32 1.10 0.99 0.88 1.1 -- 3.10 2.64 2.17 1.86 1.
Technical data 7.9 Electromagnetic compatibility of variable-speed drives 7.9 Electromagnetic compatibility of variable-speed drives EMC (electromagnetic compatibility) means that the devices function satisfactorily without interfering with other devices and without being disrupted by other devices. This is true when the emitted interference (emission level) and the interference immunity are matched with each other.
Technical data 7.9 Electromagnetic compatibility of variable-speed drives Categories IEC/EN 61800-3 makes a distinction between four drive system categories: ● Category C1: Drive systems for rated voltages < 1000 V for unrestricted use in the first environment ● Category C2: Stationary drive systems for rated voltages < 1000 V for operation in the second environment. The drive system must be installed by appropriately qualified and trained personnel.
Technical data 7.9 Electromagnetic compatibility of variable-speed drives 7.9.1 Inverter applications Inverters involve equipment used on a professional basis, deployed in certain areas of business and industry - and are not operated in the general public domain. For an EMC-compliant installation, observe the information provided in the Configuration manual: EMC installation guideline (http://support.automation.siemens.com/WW/view/en/60612658).
Technical data 7.9 Electromagnetic compatibility of variable-speed drives 7.9.3 Operation in the First Environment Interference immunity You do not have to take any additional measures regarding interference immunity.
Technical data 7.
Technical data 7.9 Electromagnetic compatibility of variable-speed drives 7.9.4 Harmonic currents Table 7- 9 Typical harmonic currents (%) of the inverter Inverter 5th 7th 11th 13th 17th 19th 23rd 25th 1) 20 14 9.1 7.7 5.9 5.3 4.3 4 FSD … FSF 1) 21 15 10 9 7 6 6 5 FSA … FSC 1) 7.9.
8 Spare parts and accessories 8.1 Spare parts Continuous development within the scope of product maintenance Inverter components are being continuously developed within the scope of product maintenance. Product maintenance includes, for example, measures to increase the ruggedness or hardware changes which become necessary as components are discontinued. These further developments are "spare parts-compatible" and do not change the article number.
Spare parts and accessories 8.2 Accessories 8.2 Accessories Accessories supplied Accessory kit The accessory kit contains the parts required for shielding and for connecting the Power Module - except cables and tools. It comprises the following items: ● Plug connector for the mains connection (FSA ... FSC only) ● Plug connector for the motor connection (FSA ...
A Appendix A.1 Manuals and technical support A.1.1 Manuals for your inverter Manuals with additional information that can be downloaded: EMC-compliant electrical cabinet design ● PM230, IP55 Hardware Installation Manual (https://support.industry.siemens.com/cs/ww/de/view/109217849/en) Installing Power Modules, reactors and filters. Technical specifications, maintenance (this manual) ● CU230P-2 Compact Operating Instructions (https://support.industry.siemens.
Appendix A.1 Manuals and technical support ● EMC installation guideline (http://support.automation.siemens.com/WW/view/en/60612658) EMC-compliant control cabinet design, potential equalization and cable routing ● Accessories manual (https://support.industry.siemens.com/cs/ww/en/ps/13225/man) Installation descriptions for inverter components, e.g. line reactors and line filters. The printed installation descriptions are supplied together with the components. A.1.
Appendix A.1 Manuals and technical support Safety Integrated for novices technical overview Application examples for SINAMICS G drives with Safety Integrated Safety Integrated for novices (https://support.industry.siemens.com/cs/ww/en/view/80561520) A.1.3 Product Support You can find additional information on the product and more in the Internet under (http://www.siemens.
Appendix A.2 Directives and standards A.2 Directives and standards Relevant directives and standards The following directives and standards are relevant for the inverters: European Low Voltage Directive The inverters fulfil the requirements stipulated in Low Voltage Directive 2014/35/EU insofar as they are covered by the scope of application of this Directive.
Appendix A.2 Directives and standards Specification for semiconductor process equipment voltage drop immunity The inverters comply with the requirements of standard SEMI F47-0706. Quality systems Siemens AG employs a quality management system that meets the requirements of ISO 9001 and ISO 14001. Certificates for download ● EC Declaration of Conformity: (https://support.industry.siemens.
Appendix A.3 Abbreviations A.3 Abbreviations Abbreviation Explanation AC Alternating current CE Communauté Européenne CU Control Unit DC Direct current DI Digital input DIP switch DIP switches are small switches, found mostly on PBCs, for making basic device settings DO Digital output ECD Equivalent circuit diagram EEC European Economic Community ELCB Earth leakage circuit breaker EMC Electromagnetic compatibility (EMC) EMI Electromagnetic interference FS… Frame size ...
Index 8 H 87 Hz characteristic, 40, 40 Hardware Installation Manual, 67 Harmonic currents, 64 High Overload, 48 Hotline, 69 A Accessories, 67 Arrangement of the mains and motor terminals, 34 B Base load, 48 Base load input current, 48 Base load output current, 48 Base load power, 48 C Cable cross section, 38 Cable length, 38 Catalog, 68 Configuring support, 68 cUL-compliant installation, 20 Current reduction, 58 D Delta connection, 40 Dimension drawings, 24 Drilling pattern, 24 I Industry Mall, 68 I
Index Q Questions, 69 S Safety notes Electrical installation, 29 Service life of the fan, 42 SIZER, 68 Standards EN 61800-3, 70 Star connection (Y), 40 Support, 69 T Tightening torques, 24 U UL-compliant installation, 20 PM230 Power Module, IP55 74 Hardware Installation Manual, 12/2016, A5E35319202B AB