Altivar Soft Starter ATS480 is intended to start and stop asynchronous motors supplied from 208V to 690V. It meets the requirements of the most demanding applications in normal and heavy duty. With an operational rated current of 320A in normal duty, it supplies motor from 90kW to 315kW according to mains voltage. Designed for digitization, connected, optimized to meet cybersecurity standard, it simplifies project execution and maximizes the availability of applications. Its torque control (TCS) masters acceleration and deceleration. It efficiently stops high inertia application thanks to the dynamic braking and DC injection. It could be connected in-line or inside the delta to reduce its operational current. The embedded test routine simplifies the commissioning inside the delta. Its dimensions are 320mm (width) x 277mm (depth) x 380mm (height) and it weighs 18,2kg. Altivar Soft Starter ATS480 is designed to address process, infrastructures and industrial machines. It conforms to IEC/EN60947-4-1. It is certified CE, cULus, UKCA, CCC, RCM, EAC, and Marine certified DNV, ABS, BV and CCS. Display terminals, remote mounting kit, communication modules are common with Altivar Drives. Line chokes, DNV kits are common with ATS48. ATS480 is compatible with ATS48, it has same footprint, fixing, torque control algorithm, I/O, menus… The integration of Altivar Soft Starter ATS480 in EcoStruxure drastically simplifies architecture selection, detailed design and execution in automation and electrical systems.

• Maximum Permanent Current
• 250.0 A at 40 °C heavy duty
• US Rated Supply Voltage
• 208...690 V - 15...10 %
• Maximum Acceleration Under Vibratory Load During Transport
• 15 m/s² at 200...500 Hz
• 10 m/s² at 9...200 Hz
• IE Rated Operational Current
• normal duty 320.0 A 40 °C)
• CAD
• https://download.schneider-electric.com/files?p_Doc_Ref=ATS480_Size_D_CADs&p_File_name=ATS480_D_3D-simpl.stp
• https://download.schneider-electric.com/files?p_Doc_Ref=ATS480_Size_D_CADs&p_File_name=ats480_sD_2Dbottom.dwg
• https://download.schneider-electric.com/files?p_Doc_Ref=ATS480_Size_D_CADs&p_File_name=ats480_sD_2Dbottom.dxf
• https://download.schneider-electric.com/files?p_Doc_Ref=ATS480_Size_D_CADs&p_File_name=ats480_sD_2DFront.dwg
• https://download.schneider-electric.com/files?p_Doc_Ref=ATS480_Size_D_CADs&p_File_name=ats480_sD_2DFront.dxf
• https://download.schneider-electric.com/files?p_Doc_Ref=ATS480_Size_D_CADs&p_File_name=ats480_sD_2DRear.dwg
• https://download.schneider-electric.com/files?p_Doc_Ref=ATS480_Size_D_CADs&p_File_name=ats480_sD_2DRear.dxf
• https://download.schneider-electric.com/files?p_Doc_Ref=ATS480_Size_D_CADs&p_File_name=ats480_sD_2Dside_L.dwg
• https://download.schneider-electric.com/files?p_Doc_Ref=ATS480_Size_D_CADs&p_File_name=ats480_sD_2Dside_L.dxf
• https://download.schneider-electric.com/files?p_Doc_Ref=ATS480_Size_D_CADs&p_File_name=ats480_sD_2Dside_R.dwg
• https://download.schneider-electric.com/files?p_Doc_Ref=ATS480_Size_D_CADs&p_File_name=ats480_sD_2Dside_R.dxf
• https://download.schneider-electric.com/files?p_Doc_Ref=ATS480_Size_D_CADs&p_File_name=ats480_sD_2Dtop.dwg
• https://download.schneider-electric.com/files?p_Doc_Ref=ATS480_Size_D_CADs&p_File_name=ats480_sD_2Dtop.dxf
• https://download.schneider-electric.com/files?p_Doc_Ref=ATS480_Size_D_CADs&p_File_name=ats480_sD_2D_Iso.dwg
• https://download.schneider-electric.com/files?p_Doc_Ref=ATS480_Size_D_CADs&p_File_name=ats480_sD_2D_Iso.dxf
• Type Of Polarization
• no impedance Modbus serial
• Analogue Input Type
• AI1/PTC PTC/Pt 100 temperature probe
• PTC2 PTC/Pt 100 temperature probe
• PTC3 PTC/Pt 100 temperature probe
• Prop 65
• WARNING: This product can expose you to chemicals including: Lead and lead compounds, which is known to the State of California to cause cancer and birth defects or other reproductive harm. For more information go to www.P65Warnings.ca.gov
• Analogue Output Type
• current output AQ1 0...20 mA or 0...10 V 500 Ohm
• Carbon Footprint Of The Installation Phase A5
• 5 kg CO2 eq.
• 5.1903
• Carbon Footprint Of The End Of Life Phase C1 To C4
• 3.0656
• 3 kg CO2 eq.
• Discrete Input Type
• STOP) logic inputs, 3500 Ohm
• RUN) logic inputs, 3500 Ohm
• DI3) programmable as logic input, 3500 Ohm
• DI4) programmable as logic input, 3500 Ohm
• UC Control Circuit Voltage
• 24 V DC
• 110...230 V AC 50/60 Hz - 15...10 %
• Communication Modules
• VW3A3720
• VW3A3647
• VW3A3607
• Carbon Footprint Of The Manufacturing Phase A1 To A3
• 786 kg CO2 eq.
• 785.98
• Method Of Access
• slave Modbus serial
• Maximum Switching Current
• relay outputs 2 A 250 V AC
• relay outputs 2 A 30 V DC
• relay outputs
• Relay Output Type
• relay outputs R1A 1 NO
• relay outputs R1B 1 NO
• relay outputs RIC NO/NC programmable
• Input Compatibility
• STOP discrete input level 1 PLC IEC 61131-2
• RUN discrete input level 1 PLC IEC 61131-2
• DI3 discrete input level 1 PLC IEC 61131-2
• DI4 discrete input level 1 PLC IEC 61131-2
• Protection Type
• phase failure line
• integrated thermal protection motor
• thermal protection starter
• current overload motor
• underload motor
• excessive starting time, locked rotor motor
• motor phase loss motor
• line supply phase loss line
• line supply phase loss motor
• thermal protection motor
• Environmental Class During Operation
• class 3C3 according to IEC 60721-3-3
• class 3S2 according to IEC 60721-3-3
• Maximum Horse Power Rating
• 100.0 hp 208 V normal duty
• 75.0 hp 208 V heavy duty
• 125.0 hp 230 V normal duty
• 100.0 hp 230 V heavy duty
• 250.0 hp 460 V normal duty
• 200.0 hp 460 V heavy duty
• 300.0 hp 575 V normal duty
• 250.0 hp 575 V heavy duty
• Option Card
• communication module Profibus DP V1
• communication module Modbus TCP/EtherNet/IP
• communication module CANopen daisy chain
• communication module CANopen Sub-D
• communication module CANopen open style
• communication module PROFINET
• Persona Type Names
• End User
• Original Equipment Manufacturer
• OEM - Control Panelbuilder
• Motor Power KW
• 90.0 kW 230 V in the motor supply line normal duty
• 75.0 kW 230 V in the motor supply line heavy duty
• 160.0 kW 400 V in the motor supply line normal duty
• 132.0 kW 400 V in the motor supply line heavy duty
• 160.0 kW 440 V in the motor supply line normal duty
• 132.0 kW 440 V in the motor supply line heavy duty
• 220.0 kW 500 V in the motor supply line normal duty
• 160.0 kW 500 V in the motor supply line heavy duty
• 220.0 kW 525 V in the motor supply line normal duty
• 160.0 kW 525 V in the motor supply line heavy duty
• 250.0 kW 660 V in the motor supply line normal duty
• 220.0 kW 660 V in the motor supply line heavy duty
• 315.0 kW 690 V in the motor supply line normal duty
• 250.0 kW 690 V in the motor supply line heavy duty
• 160.0 kW 230 V to the motor delta terminals normal duty
• 132.0 kW 230 V to the motor delta terminals heavy duty
• 250.0 kW 400 V to the motor delta terminals normal duty
• 220.0 kW 400 V to the motor delta terminals heavy duty
• Carbon Footprint Of The Use Phase B2 B3 B4 B6
• 21 692 kg CO2 eq.
• 21692
• Electromagnetic Compatibility
• conducted and radiated emissions level A conforming to IEC 60947-4-2
• conducted and radiated emissions with bypass level B conforming to IEC 60947-4-2
• damped oscillating waves level 3 conforming to IEC 61000-4-12
• electrostatic discharge level 3 conforming to IEC 61000-4-11
• immunity to electrical transients level 4 conforming to IEC 61000-4-4
• immunity to radiated radio-electrical interference level 3 conforming to IEC 61000-4-3
• voltage/current impulse level 3 conforming to IEC 61000-4-5
• Supply Frequency
• 50...60 Hz - 20...20 %
• Relative Humidity
• 0-95 % without condensation or dripping water IEC 60068-2-3
• Persona Type Ids
• EU
• OM
• OM8
• Number Of Addresses
• 0-227 Modbus serial
• Carbon Footprint Of The Distribution Phase A4
• 3.3223
• 3 kg CO2 eq.
• Minimum Switching Current
• 100 mA 12 V DC relay outputs
• Operating Altitude
• <= 3280.84 ft (1000 m) without derating
• > 3280.84...13123.36 ft (> 1000...4000 m) with current derating 1 % per 100 m
• Discrete Input Logic
• programmable digital input < 5 V
• Output Compatibility
• open collector level 1 PLC IEC 65A-68
• Discrete Output Type
• DQ1) programmable digital output <= 30 V
• DQ2) programmable digital output <= 30 V
• Maximum Acceleration Under Vibratory Load During Storage
• 15 m/s² at 200...500 Hz
• 10 m/s² at 9...200 Hz
• Ambient Air Temperature For Operation
• 40-60 °C (with current derating of 2 % per °C)
• -15-40 °C (without derating)
• UE Rated Operational Voltage
• 230 V 90.0 kW in the motor supply line normal duty
• 230 V 75.0 kW in the motor supply line heavy duty
• 400 V 160.0 kW in the motor supply line normal duty
• 400 V 132.0 kW in the motor supply line heavy duty
• 440 V 160.0 kW in the motor supply line normal duty
• 440 V 132.0 kW in the motor supply line heavy duty
• 500 V 220.0 kW in the motor supply line normal duty
• 500 V 160.0 kW in the motor supply line heavy duty
• 525 V 220.0 kW in the motor supply line normal duty
• 525 V 160.0 kW in the motor supply line heavy duty
• 660 V 250.0 kW in the motor supply line normal duty
• 660 V 220.0 kW in the motor supply line heavy duty
• 690 V 315.0 kW in the motor supply line normal duty
• 690 V 250.0 kW in the motor supply line heavy duty
• 208 V 100.0 hp normal duty
• 208 V 75.0 hp heavy duty
• 230 V 125.0 hp normal duty
• 230 V 100.0 hp heavy duty
• 460 V 250.0 hp normal duty
• 460 V 200.0 hp heavy duty
• 575 V 300.0 hp normal duty
• 575 V 250.0 hp heavy duty

• Assets
• 3D Model Name : ATS480_SizeD_360_3D
• 3D Model : https://visuals.se.com/ATS480_SizeD_360_3D/20220418T1239/3D
• Communications & Management Attributes
• Communication Data Link : serial
• Complementary Attributes
• Integrated Motor Overload Protection : true
• Maximum Acceleration Under Shock Impact During Operation : 150 m/s² at 11 ms
• Maximum Acceleration Under Shock Load During Storage : 100 m/s² at 11 ms
• Maximum Acceleration Under Shock Load During Transport : 100 m/s² at 11 ms
• Maximum Acceleration Under Vibrational Stress During Operation : 10 m/s² at 13...200 Hz
• Maximum Deflection Under Vibratory Load During Operation : 1.5 mm at 2...13 Hz
• Maximum Deflection Under Vibratory Load During Storage : 1.75 mm at 2...9 Hz
• Maximum Deflection Under Vibratory Load During Transport : 1.75 mm at 2...9 Hz
• In Rated Current Pwr Loss Specifctn : 320.0 A
• Important Information Attributes
• Local Data Status : Publishable
• Local Publishable Date : 2025-11-06
• Pre Comm Date : 2021-09-15
• Device Type : Soft starter - Soft starter
• Serviceability : No
• Traceability : Yes
• Field Service Division : IDIBS
• Average Life Duration : 10 year(s)
• Manufacturing Carbon Footprint : 785.98
• Distribution Carbon Footprint : 3.3223
• Installation Carbon Footprint : 5.1903
• Use Carbon Footprint : 21692
• End Of Life Carbon Footprint : 3.0656
• Legacy WEEE Scope : In
• WEEE Product Category : 5
• Scope Perimeter : At least in Europe
• EOLI Availability Display : Yes
• End Of Life Doc Ref : ENVEOLI2009023EN
• Reach Full Compliance Status : Reference contains Substances of Very High Concern above the threshold
• Reach Full Compliance Status Id : CONTAINS_SVHC
• Reach Compliance Directive : Reference contains Substances of Very High Concern above the threshold
• ROHS EUR In Scope : No
• ROHS EUR Status : Compliant with Exemptions
• ROHS EUR Conformity Date : 2149
• ROHS EUR Full Compliance Status : Pro-active compliance (Product out of EU RoHS legal scope)
• ROHS EUR Full Compliance Status Id : PRO_ACTIVE_COMPLIANCE
• China ROHS In Scope : Yes
• China ROHS Label : 5
• Green Premium Status For Reporting : Green Premium product
• With Recycled Cardboard : Yes
• Without Single Use Plastic : No
• Product Contributes To Saved And Avoided Emissions : No
• Return Indicator : Y
• WD Status : 1 - GSC certified
• Dangerous Goods Code : LITHIUM METAL BATTERIES IN EQUIP. BUTTON CELL-BAT EXEMPT
• Tier Id : 1
• Tier : 1
• Function Option Id : STANDARD
• Function Option : Standard
• Market Segmentation Id : INDUSTRIAL
• Market Segmentation : Industrial
• Device Short Name : ATS480
• Display Screen Available : true
• Package Weight Lbs : 26.500 kg
• Power Loss Per Device Current Dependent : 882.0 W
• Power Loss Static Current Independent : 25.0 W
• Product Availability : Stock - Normally stocked in distribution facility
• Product Or Component Type : soft starter
• Product Specific Application : process and infrastructures
• Range Of Product : Altivar Soft Starter ATS480
• Returnability : Yes
• Suitable For Mounting Onto Standard Rails : false
• Sustainable Packaging : No
• Total Lifecycle Carbon Footprint : 22 489 kg CO2 eq.
• Volume Of Cooling Air : 280.0 m3/h
• Weee Label : The product must be disposed on European Union markets following specific waste collection and never end up in rubbish bins.
• With Safety Function Safe Programmable Logic : false
• With Safety Function Safe Brake Management Sbc Sbt : false
• With Safety Function Safe Direction SDI : false
• With Safety Function Safe Operating Stop Sos : false
• With Safety Function Safe Position Sp : false
• With Safety Function Safe Speed Monitor Ssm : false
• With Safety Function Safe Stop 1 SS1 : false
• With Safety Function Safe Torque Off Sto : false
• With Safety Function Safely Limited Position Slp : false
• With Safety Function Safely Limited Speed Sls : false
• With Sft Fct Safe Stop 2 Ss2 : false
• Carbon Footprint Kg Co2 Eq Total Life Cycle : 22489
• In Rated Current Pwr Loss Specifctn : 320.0 A
• Relationship Type : Compatible relationship
• Torque Control : true
• Pep Code : ENVPEP2009023EN
• Pep Verification Date : 2021-11-01
• PCR Version : PCR-ed3-EN-2015 04 02
• Type Of Verification For The Pep : Independent external review
• Product Weight In G : 25750
• Functional Unit Description : The aim of soft starter is to drive an asynchronous motor (squirrel cage) by limitation of the current during acceleration and deceleration phase with a torque control. It’s based on three phases dimmer with Silicon controlled rectifier (thyristor). The rating of softstarter is given by nominal current 320 A in the case study which lead to drive several power motor depending of power network ie 230V power motor of 90kW and 690V power motor of 315kW. Calculation of the environmental impacts is based on 10 years of product service lifetime. The usage profile taken into account is 45% uptime in use phase, 45% uptime in stand by phase and 10% uptime in off phase.
• Functional Unit Quantity : 1
• Functional Unit Unit : unit
• Reference Lifetime In Y : 10
• Energy Consumption On Product Lifetime In Kwh : 36739.44
• Recyclability Potential In : 85
• Packaging Weight In G : 6713.4
• Nbr Of Units In Pkg : 1
• Warranty In Months : 18
• Energy Model Manufacturing A1 A3 : Energy model used: Indonesia
• Energy Model Installation A5 : Electricity Mix; AC; < 1kV; EU-27
• Energy Model Use B6 : Electricity Mix; AC; < 1kV; EU-27
• Energy Model End Of Life C1 C4 : Electricity Mix; AC; < 1kV; EU-27
• Components For Re Use Kg Total Life Cycle : 0
• Components For Re Use Kg Manufacturing A1 A3 : 0
• Components For Re Use Kg Distribution A4 : 0
• Components For Re Use Kg Installation A5 : 0
• Components For Re Use Kg Operational Energy Use B6 : 0
• Components For Re Use Kg End Of Life C1 C4 : 0
• Depletion Of Abiotic Resources Elements Kg Equivalent Sb Total Life Cycle : 0.12037
• Depletion Of Abiotic Resources Elements Kg Equivalent Sb Manufacturing A1 A3 : 0.11938
• Depletion Of Abiotic Resources Elements Kg Equivalent Sb Distribution A4 : 0.00000013295
• Depletion Of Abiotic Resources Elements Kg Equivalent Sb Installation A5 : 0.000000034864
• Depletion Of Abiotic Resources Elements Kg Equivalent Sb Operational Energy Use B6 : 0.00098814
• Depletion Of Abiotic Resources Elements Kg Equivalent Sb End Of Life C1 C4 : 0.000000061816
• Depletion Of Abiotic Resources Fossil Fuels Mj Total Life Cycle : 233090
• Depletion Of Abiotic Resources Fossil Fuels Mj Manufacturing A1 A3 : 9565.7
• Depletion Of Abiotic Resources Fossil Fuels Mj Distribution A4 : 46.676
• Depletion Of Abiotic Resources Fossil Fuels Mj Installation A5 : 6.4523
• Depletion Of Abiotic Resources Fossil Fuels Mj Operational Energy Use B6 : 223450
• Depletion Of Abiotic Resources Fossil Fuels Mj End Of Life C1 C4 : 24.42
• Exported Energy Mj By Energy Vector Total Life Cycle : 2.9658
• Exported Energy Mj By Energy Vector Manufacturing A1 A3 : 0.00057287
• Exported Energy Mj By Energy Vector Distribution A4 : 0
• Exported Energy Mj By Energy Vector Installation A5 : 2.9652
• Exported Energy Mj By Energy Vector Operational Energy Use B6 : 0
• Exported Energy Mj By Energy Vector End Of Life C1 C4 : 0
• Hazardous Waste Disposed Of Kg Total Life Cycle : 2016
• Hazardous Waste Disposed Of Kg Manufacturing A1 A3 : 1992.1
• Hazardous Waste Disposed Of Kg Distribution A4 : 0
• Hazardous Waste Disposed Of Kg Installation A5 : 0.001995
• Hazardous Waste Disposed Of Kg Operational Energy Use B6 : 0
• Hazardous Waste Disposed Of Kg End Of Life C1 C4 : 23.935
• Materials For Energy Recovery Kg Total Life Cycle : 0.35203
• Materials For Energy Recovery Kg Manufacturing A1 A3 : 0.0000000283
• Materials For Energy Recovery Kg Distribution A4 : 0
• Materials For Energy Recovery Kg Installation A5 : 0
• Materials For Energy Recovery Kg Operational Energy Use B6 : 0
• Materials For Energy Recovery Kg End Of Life C1 C4 : 0.35203
• Materials For Recycling Kg Total Life Cycle : 21.347
• Materials For Recycling Kg Manufacturing A1 A3 : 1.3936
• Materials For Recycling Kg Distribution A4 : 0
• Materials For Recycling Kg Installation A5 : 2.9481
• Materials For Recycling Kg Operational Energy Use B6 : 0
• Materials For Recycling Kg End Of Life C1 C4 : 17.005
• Net Use Of Fresh Water M3 Total Life Cycle : 62.617
• Net Use Of Fresh Water M3 Manufacturing A1 A3 : 6.0348
• Net Use Of Fresh Water M3 Distribution A4 : 0.00029733
• Net Use Of Fresh Water M3 Installation A5 : 0.0013975
• Net Use Of Fresh Water M3 Operational Energy Use B6 : 56.578
• Net Use Of Fresh Water M3 End Of Life C1 C4 : 0.0028004
• Non Hazardous Waste Disposed Of Kg Total Life Cycle : 81310
• Non Hazardous Waste Disposed Of Kg Manufacturing A1 A3 : 166.61
• Non Hazardous Waste Disposed Of Kg Distribution A4 : 0.11804
• Non Hazardous Waste Disposed Of Kg Installation A5 : 4.2104
• Non Hazardous Waste Disposed Of Kg Operational Energy Use B6 : 81139
• Non Hazardous Waste Disposed Of Kg End Of Life C1 C4 : 0.092597
• Ozone Depletion Kg Equivalent Cfc 11 Total Life Cycle : 0.0053362
• Ozone Depletion Kg Equivalent Cfc 11 Manufacturing A1 A3 : 0.000066543
• Ozone Depletion Kg Equivalent Cfc 11 Distribution A4 : 0.0000000067302
• Ozone Depletion Kg Equivalent Cfc 11 Installation A5 : 0.000000011782
• Ozone Depletion Kg Equivalent Cfc 11 Operational Energy Use B6 : 0.0052694
• Ozone Depletion Kg Equivalent Cfc 11 End Of Life C1 C4 : 0.00000015946
• Radioactive Waste Disposed Of Kg Total Life Cycle : 66.202
• Radioactive Waste Disposed Of Kg Manufacturing A1 A3 : 0.060388
• Radioactive Waste Disposed Of Kg Distribution A4 : 0.000084073
• Radioactive Waste Disposed Of Kg Installation A5 : 0.00014717
• Radioactive Waste Disposed Of Kg Operational Energy Use B6 : 66.141
• Radioactive Waste Disposed Of Kg End Of Life C1 C4 : 0.00015137
• Total Use Of Non Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Total Life Cycle : 419110
• Total Use Of Non Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Manufacturing A1 A3 : 11018
• Total Use Of Non Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Distribution A4 : 46.913
• Total Use Of Non Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Installation A5 : 6.8644
• Total Use Of Non Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Operational Energy Use B6 : 408010
• Total Use Of Non Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj End Of Life C1 C4 : 30.394
• Total Use Of Primary Energy During The Life Cycle Mj Total Life Cycle : 451120
• Total Use Of Primary Energy During The Life Cycle Mj Manufacturing A1 A3 : 11577
• Total Use Of Primary Energy During The Life Cycle Mj Distribution A4 : 46.975
• Total Use Of Primary Energy During The Life Cycle Mj Installation A5 : 6.9906
• Total Use Of Primary Energy During The Life Cycle Mj Operational Energy Use B6 : 439460
• Total Use Of Primary Energy During The Life Cycle Mj End Of Life C1 C4 : 30.427
• Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Total Life Cycle : 32004
• Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Manufacturing A1 A3 : 558.94
• Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Distribution A4 : 0.062603
• Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Installation A5 : 0.12616
• Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Operational Energy Use B6 : 31445
• Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj End Of Life C1 C4 : 0.033256
• Use Of Non Renewable Primary Energy Resources Used As Raw Materials Mj Total Life Cycle : 53.656
• Use Of Non Renewable Primary Energy Resources Used As Raw Materials Mj Manufacturing A1 A3 : 53.656
• Use Of Non Renewable Primary Energy Resources Used As Raw Materials Mj Distribution A4 : 0
• Use Of Non Renewable Primary Energy Resources Used As Raw Materials Mj Installation A5 : 0
• Use Of Non Renewable Primary Energy Resources Used As Raw Materials Mj Operational Energy Use B6 : 0
• Use Of Non Renewable Primary Energy Resources Used As Raw Materials Mj End Of Life C1 C4 : 0
• Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj Total Life Cycle : 419060
• Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj Manufacturing A1 A3 : 10964
• Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj Distribution A4 : 46.913
• Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj Installation A5 : 6.8644
• Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj Operational Energy Use B6 : 408010
• Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj End Of Life C1 C4 : 30.394
• Use Of Non Renewable Secondary Fuels Mj Total Life Cycle : 0
• Use Of Non Renewable Secondary Fuels Mj Manufacturing A1 A3 : 0
• Use Of Non Renewable Secondary Fuels Mj Distribution A4 : 0
• Use Of Non Renewable Secondary Fuels Mj Installation A5 : 0
• Use Of Non Renewable Secondary Fuels Mj Operational Energy Use B6 : 0
• Use Of Non Renewable Secondary Fuels Mj End Of Life C1 C4 : 0
• Use Of Renewable Primary Energy Resources Used As Raw Materials Mj Total Life Cycle : 127.47
• Use Of Renewable Primary Energy Resources Used As Raw Materials Mj Manufacturing A1 A3 : 127.47
• Use Of Renewable Primary Energy Resources Used As Raw Materials Mj Distribution A4 : 0
• Use Of Renewable Primary Energy Resources Used As Raw Materials Mj Installation A5 : 0
• Use Of Renewable Primary Energy Resources Used As Raw Materials Mj Operational Energy Use B6 : 0
• Use Of Renewable Primary Energy Resources Used As Raw Materials Mj End Of Life C1 C4 : 0
• Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj Total Life Cycle : 31877
• Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj Manufacturing A1 A3 : 431.47
• Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj Distribution A4 : 0.062603
• Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj Installation A5 : 0.12616
• Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj Operational Energy Use B6 : 31445
• Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj End Of Life C1 C4 : 0.033256
• Use Of Renewable Secondary Fuels Mj Total Life Cycle : 0
• Use Of Renewable Secondary Fuels Mj Manufacturing A1 A3 : 0
• Use Of Renewable Secondary Fuels Mj Distribution A4 : 0
• Use Of Renewable Secondary Fuels Mj Installation A5 : 0
• Use Of Renewable Secondary Fuels Mj Operational Energy Use B6 : 0
• Use Of Renewable Secondary Fuels Mj End Of Life C1 C4 : 0
• Use Of Secondary Materials Kg Total Life Cycle : 8.4619
• Use Of Secondary Materials Kg Manufacturing A1 A3 : 8.4619
• Use Of Secondary Materials Kg Distribution A4 : 0
• Use Of Secondary Materials Kg Installation A5 : 0
• Use Of Secondary Materials Kg Operational Energy Use B6 : 0
• Use Of Secondary Materials Kg End Of Life C1 C4 : 0
• Air Pollution M3 Total Life Cycle : 1016500
• Air Pollution M3 Manufacturing A1 A3 : 85691
• Air Pollution M3 Distribution A4 : 141.33
• Air Pollution M3 Installation A5 : 127.49
• Air Pollution M3 Operational Energy Use B6 : 930280
• Air Pollution M3 End Of Life C1 C4 : 214.96
• Water Pollution M3 Total Life Cycle : 969270
• Water Pollution M3 Manufacturing A1 A3 : 58144
• Water Pollution M3 Distribution A4 : 546.35
• Water Pollution M3 Installation A5 : 71.554
• Water Pollution M3 Operational Energy Use B6 : 910190
• Water Pollution M3 End Of Life C1 C4 : 314.04
• Acidification Of Soil And Water Kg Equivalent So2 Total Life Cycle : 165.52
• Photochemical Ozone Formation Kg Equivalent C2h4 Total Life Cycle : 7.8811
• Water Eutrophication Kg Equivalent P04 3 Total Life Cycle : 6.5381
• Acidification Of Soil And Water Kg Equivalent So2 Manufacturing A1 A3 : 1.4588
• Acidification Of Soil And Water Kg Equivalent So2 Distribution A4 : 0.015169
• Acidification Of Soil And Water Kg Equivalent So2 Installation A5 : 0.003119
• Acidification Of Soil And Water Kg Equivalent So2 Operational Energy Use B6 : 164.04
• Acidification Of Soil And Water Kg Equivalent So2 End Of Life C1 C4 : 0.0061453
• Global Warming Kg Equivalent Co2 Total Life Cycle : 22489
• Global Warming Kg Equivalent Co2 Manufacturing A1 A3 : 785.98
• Global Warming Kg Equivalent Co2 Distribution A4 : 3.3223
• Global Warming Kg Equivalent Co2 Installation A5 : 5.1903
• Global Warming Kg Equivalent Co2 Operational Energy Use B6 : 21692
• Global Warming Kg Equivalent Co2 End Of Life C1 C4 : 3.0656
• Photochemical Ozone Formation Kg Equivalent C2h4 Manufacturing A1 A3 : 0.12506
• Photochemical Ozone Formation Kg Equivalent C2h4 Distribution A4 : 0.0010825
• Photochemical Ozone Formation Kg Equivalent C2h4 Installation A5 : 0.0012048
• Photochemical Ozone Formation Kg Equivalent C2h4 Operational Energy Use B6 : 7.7531
• Photochemical Ozone Formation Kg Equivalent C2h4 End Of Life C1 C4 : 0.00064332
• Water Eutrophication Kg Equivalent P04 3 Manufacturing A1 A3 : 0.38251
• Water Eutrophication Kg Equivalent P04 3 Distribution A4 : 0.0034939
• Water Eutrophication Kg Equivalent P04 3 Installation A5 : 0.0015338
• Water Eutrophication Kg Equivalent P04 3 Operational Energy Use B6 : 6.1489
• Water Eutrophication Kg Equivalent P04 3 End Of Life C1 C4 : 0.001672
• General Attributes
• Product Or Component Type : soft starter
• Range Of Product : Altivar Soft Starter ATS480
• Output Attributes
• Output Current Drift : 150-700 %
• Relay Output Number : 3
• Environment Attributes
• ROHS Exemption Information : Yes
• China ROHS url : https://checkaproduct.se.com/DistantRequestDispatcher.aspx?action=exportPdfRoHSChina&pid=542708876&lang=en-us
• Take Back : No
• Recycled Metal Content At Cr Level : 0 %
• China ROHS Regulation : X
• Mercury Free : Yes
• Carbon Footprint : 22489
• Circularity Profile : ENVEOLI2009023EN
• Environmental Disclosure : ENVPEP2009023EN
• EU ROHS Directive : Pro-active compliance (Product out of EU RoHS legal scope)
• Packaging Made With Recycled Cardboard : Yes
• Packaging Without Single Use Plastic : No
• Reach Regulation : Reference contains Substances of Very High Concern above the threshold
• Pep Code : ENVPEP2009023EN
• Pep Verification Date : 2021-11-01
• PCR Version : PCR-ed3-EN-2015 04 02
• Type Of Verification For The Pep : Independent external review
• Specifications
• Country of Origin : China