variable speed drive, Altivar Machine ATV340, 0.75kW, heavy duty, 400V, 3 phases, Ethernet

Name: variable speed drive, Altivar Machine ATV340, 0.75kW, heavy duty, 400V, 3 phases, Ethernet
Brand: SQUARE D
SKU: SQDATV340U07N4E
Price: 1118.86 USD
Availability: OutOfStock

SQDATV340U07N4E ATV340U07N4E 3606480966989

1118.86 / EA

http://schema.org/OutOfStock

Mayer-DDS-variable speed drive, Altivar Machine ATV340, 0.75kW, heavy duty, 400V, 3 phases, Ethernet-1

Country of Origin: Indonesia
IsSustainable: Yes

This Altivar 340 variable speed drive can feed 3-phase synchronous and asynchronous motors in open and closed loop control. Altivar Machine ATV340 drives are sized heavy duty as standard. It works at a rated power up to 0.75kW / 1hp and a rated voltage f

QTY

Product Description
Features
Specifications

Insulation Resistance

> 1 MOhm 500 V DC for 1 minute to earth

Environmental Class During Storage

class 1C3 according to EN 60721-3-1
class 1S2 according to EN 60721-3-1

Power Range

0.55-1 kW 380-440 V 3 phase
0.55-1 kW 480-500 V 3 phase

Connector Type

1 x RJ45, Modbus serial on front face
1 x RJ45, Modbus serial HMI on front face
1 x RJ45, Modbus s

US Rated Supply Voltage

380...480 V - 15...10 %

Input Output Type

programmable as logic input/output DQ1 0-1 kHz, <= 30 V DC, 100 mA
programmable as logic input/output DQ1 0-1 kHz, <= 30

Exchange Mode

half duplex, full duplex, autonegotiation Ethernet IP/Modbus TCP

https://download.schneider-electric.com/files?p_Doc_Ref=MCADID0004851_3D-CAD&p_File_name=MCADID0004851_3D-simplified.stp
https://download.schneider-electric.com/files?p_Doc_Ref=MCADID0004851_3D-CAD&p_File_name=MCADID0004851_2D-back.dwg
https://downlo

Analogue Input Type

AI1 software-configurable current 0...20 mA 250 Ohm 12 bits
AI1 software-c

Continuous Output Current

2.2 A 4 kHz heavy duty
2.8 A 4 kHz normal duty

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

software-configurable voltage AQ1 0...10 V DC 470 Ohm 10 bits
softwa

Carbon Footprint Of The Installation Phase A5

0.7 kg CO2 eq.
0.6628270073331868

Carbon Footprint Of The End Of Life Phase C1 To C4

4.318326563950249
4 kg CO2 eq.

Encoder Protocol

1 Vpp
EnDat 2.2
resolver
RS 422
SSI 24V
SSI 5V
TTL/HTL

Discrete Input Type

PTI programmable as pulse input 0-30 kHz, 24 V DC 30 V)
PTI programmable as pulse inpu

Electrical Connection

screw terminal 1.5...4 mm² line side
screw terminal 4...6 mm² DC bus
screw terminal 1.5...4 mm² motor
screw terminal

Carbon Footprint Of The Manufacturing Phase A1 To A3

67 kg CO2 eq.
66.90724517547339

Method Of Access

slave Modbus RTU
slave Modbus TCP

Line Current

2.6 A 380 V normal duty)
2.1 A 480 V normal duty)
3.4 A 380 V heavy duty)
2.6 A 480 V heavy duty)
2.6 A 48

Motor Slip Compensation

automatic whatever the load
adjustable
not available in permanent magnet motor law
can be suppressed

Maximum Switching Current

relay output R1C resistive, cos phi = 1 3 A 250 V AC
relay output R1C resistive, cos phi = 1 3

Relay Output Type

relay outputs R1A
relay outputs R1C 100000 cycles
relay outputs R2A
relay outputs R2C 100000 cycles
relay outputs R2C 1000

Input Compatibility

DI1...DI5 discrete input level 1 PLC IEC 61131-2
PTI pulse input level 1 PLC IEC 65A-68
PTI pulse input lev

Protection Type

thermal protection motor
safe torque off motor
motor phase loss motor
thermal protection drive
safe torque off drive
overheating drive
ov

Sampling Duration

2 ms +/- 0.5 ms DI1...DI5) - discrete input
5 ms +/- 1 ms PTI) - pulse input
5 ms +/- 1 m

Linearity Error

AI1, AI2 +/- 0.15 % of maximum value analog input
AQ1 +/- 0.2 % analog output

Environmental Class During Operation

class 3C3 according to IEC 60721-3-3
class 3S3 according to IEC 60721-3-3

Maximum Horse Power Rating

1.5 hp normal duty
1 hp heavy duty

Vibration Resistance

1.5 mm peak to peak 2-19 Hz)IEC 60721-3-3 class 3M3
1 gn 9-200 Hz)IEC 60721-3-3 class 3M3
1 gn 9-2

Persona Type Names

End User
Original Equipment Manufacturer
OEM - Control Panelbuilder
System Integrator

Motor Power KW

1.1 kW normal duty
0.75 kW heavy duty

Refresh Time

relay output R1, R2)5 ms +/- 0.5 ms)

Carbon Footprint Of The Use Phase B2 B3 B4 B6

1 264 kg CO2 eq.
1263.8326001965108

Electromagnetic Compatibility

electrostatic discharge immunity test level 3 conforming to IEC 61000-4-2
radiated radio-frequency electro

Supply Frequency

50...60 Hz +/- 5 %

Apparent Power

2.2 kVA 480 V normal duty)
2.2 kVA 480 V heavy duty)

Persona Type Ids

Environmental Class During Transport

class 2C3 according to EN 60721-3-2
class 2S1 according to EN 60721-3-2

Carbon Footprint Of The Distribution Phase A4

0.4842439177991481
0.5 kg CO2 eq.

Synchronous Motor Control Profile

reluctance motor
permanent magnet motor

Minimum Switching Current

relay output R1B 5 mA 24 V DC
relay output R2C 5 mA 24 V DC
relay output R

Operating Altitude

<= 9842.52 ft (3000 m) with current derating above 1000m

Safety Function

STO (safe torque off) SIL 3

Discrete Input Logic

positive logic (source) DI1...DI5), < 5 V, > 11 V
negative logic (sink) DI1...DI5), > 16 V, < 10 V
negat

Asynchronous Motor Control Profile

constant torque standard
variable torque standard
optimized torque mode

Discrete Output Type

programmable output DQ1, DQ2 30 V DC 100 mA

Shock Resistance

15 gn 11 ms, class 3M3 IEC 60721-3-3

Maximum Transient Current

3.1 A 60 s normal duty)
3.3 A 60 s heavy duty)
3.8 A 2 s normal duty)
4 A 2 s heavy duty)
4 A

Discrete And Process Manufacturing

hoisting tower crane
hoisting other application
material handling grouping conveyor
material handling palletizer - high performance
material handling palletizer - high pe

Power Dissipation In W

natural convection 28 W 380 V 4 kHz heavy duty)
forced convect

Ambient Air Temperature For Operation

-15-50 °C without derating vertical position)
50-60 °C with derating factor vertical position)
50-60 °C with dera

UE Rated Operational Voltage

380...480 V 1.1 kW normal duty
380...480 V 0.75 kW heavy duty
380...480 V 1.5 hp normal duty
380...

Switching Frequency

2...16 kHz adjustable
14...16 kHz with derating factor

Communications & Management Attributes

Communication : VW3A3800

Complementary Attributes

Brake Chopper Integrated : true
Maximum Associated Fuse Rating : 8.0 A
Maximum Input Current Per Phase : 3.4 A
Maximum Output Voltage : 480 V
Maximum Acceleration Under Shock Impact During Operation : 70 m/s² at 22 ms
Maximum Acceleration Under Shock Load During Storage : 70 m/s² at 22 ms
Maximum Acceleration Under Shock Load During Transport : 70 m/s² at 22 ms
Maximum Acceleration Under Vibrational Stress During Operation : 5 m/s² at 9...200 Hz
Maximum Acceleration Under Vibratory Load During Storage : 5 m/s² at 9...200 Hz
Maximum Acceleration Under Vibratory Load During Transport : 5 m/s² at 9...200 Hz
Maximum Deflection Under Vibratory Load During Operation : 1.5 mm at 2...9 Hz
Maximum Deflection Under Vibratory Load During Storage : 1.5 mm at 2...9 Hz
Maximum Deflection Under Vibratory Load During Transport : 1.5 mm at 2...9 Hz

Important Information Attributes

Local Data Status : Publishable
Local Publishable Date : 2025-08-18
Device Type : Variable speed drive - VSD Compacts
Serviceability : No
Traceability : Yes
Field Service Division : IDIBS
Average Life Duration : 10 year(s)
Manufacturing Carbon Footprint : 66.9072451754734
Distribution Carbon Footprint : 0.484243917799148
Installation Carbon Footprint : 0.662827007333187
Use Carbon Footprint : 1263.83260019651
End Of Life Carbon Footprint : 4.31832656395025
Legacy WEEE Scope : In
WEEE Product Category : 5
Scope Perimeter : At least in Europe
EOLI Availability Display : Yes
End Of Life Doc Ref : ENVEOLI1609005EN
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 : 1923
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 : Yes
Product Contributes To Saved And Avoided Emissions : YES_SSI2
Return Indicator : Y
WD Status : 1 - GSC certified
Tier Id : 1
Tier : 1
Function Option Id : STANDARD
Function Option : Standard
Market Segmentation Id : INDUSTRIAL
Market Segmentation : Industrial
1 Phase Low Current Possible : false
4 Quadrant Operation Possible : true
Application In Domestic And Commercial Area Permitted : false
Assembly Style : with heat sink
Base Load Current At High Overload : 2.2 A
Base Load Current At Low Overload : 2.8 A
Braking To Standstill : by DC injection
Capacity Of Dc Link : 195.0 µF
Computer Port : true
Design Of Frequency Changer : U converter
Housing Material : plastic
Isolation : between power and control terminals
Maximum Associated Fuse Rating : 8.0 A
Maximum Input Current Per Phase : 3.4 A
Motor Starter Type : variable speed drive
Nominal Switching Frequency : 4 kHz
Number Of Hw Interfaces Industrial Ethernet : 2
Number Of Hw Interfaces Other : 0
Number Of Hw Interfaces Parallel : 0
Number Of Hw Interfaces Profinet : 0
Number Of Hw Interfaces Serial Rs232 : 0
Number Of Hw Interfaces Serial Rs422 : 0
Number Of Hw Interfaces Serial Rs485 : 1
Number Of Hw Interfaces Serial Tty : 0
Number Of Hw Interfaces Usb : 0
Number Of Output Phases : 3
Operating Element Present : true
Optical Interface Present : false
Package Weight Lbs : 2.485 kg
Power Loss Per Device Current Dependent : 49.0 W
Power Loss Static Current Independent : 16.0 W
Product Availability : Stock - Normally stocked in distribution facility
Product Or Component Type : variable speed drive
Product Specific Application : machine
Range Of Product : Altivar Machine ATV340
Relative Symmetric Mains Voltage Tolerance : 10 %
Relative Symmetric Network Frequency Tolerance : 5 %
Returnability : Yes
Specific Application : machine
Supporting Protocol For As Interface Safety At Work : false
Supporting Protocol For Asi : false
Supporting Protocol For Bacnet : false
Supporting Protocol For Can : false
Supporting Protocol For Data Highway : false
Supporting Protocol For Devicenet : false
Supporting Protocol For Devicenet Safety : false
Supporting Protocol For Ethernet Ip : true
Supporting Protocol For Foundation Fieldbus : false
Supporting Protocol For Interbus : false
Supporting Protocol For Knx : false
Supporting Protocol For Lon : false
Supporting Protocol For Modbus : true
Supporting Protocol For Other Bus Systems : false
Supporting Protocol For Profibus : false
Supporting Protocol For Profinet Cba : false
Supporting Protocol For Profinet Io : false
Supporting Protocol For Profisafe : false
Supporting Protocol For Safetybus P : false
Supporting Protocol For Sercos : false
Supporting Protocol For Suconet : false
Supporting Protocol For TCP IP : true
Sustainable Packaging : Yes
Total Lifecycle Carbon Footprint : 1 336 kg CO2 eq.
Variant : standard version
Volume Of Cooling Air : 18.0 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
EMC Limit Value Complied : true
Number Of Inputs Bidirectional Not Potential Free : 0
Number Of Inputs Potential Free : 0
Permitted Relative Humidity During Transport : class 2K5 according to EN 60721-3
With Safety Function Safe Brake Management Sbc Sbt : true
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 : true
With Safety Function Safe Torque Off Sto : true
With Safety Function Safely Limited Position Slp : false
With Safety Function Safely Limited Speed Sls : true
With Sft Fct Safe Stop 2 Ss2 : false
Carbon Footprint Kg Co2 Eq Total Life Cycle : 1336.2052428610668
Relationship Type : Compatible relationship
Application In Industrial Area Permitted : true
Supporting Protocol For Interbus Safety : false
Pep Code : ENVPEP1609005EN
Pep Verification Date : 2024-10-01
PCR Version : PCR-4-ed4-EN-2021 09 06
PSR Version : PSR-0005-ed3.1-EN-2023 12 08
Type Of Verification For The Pep : Independent external review
Product Weight In G : 2485
Functional Unit Description : To adapt the speed and torque of synchronous, asynchronous or reluctance motor to the machine's operating point for 4 kW for heavy duty electric motors for fluid management and industrial applications in IP20/UL type 1 conditions, at 380V to 480V ra
Functional Unit Quantity : 1
Functional Unit Unit : Unit
Reference Lifetime In Y : 10
Energy Consumption On Product Lifetime In Kwh : 3083.52
Energy Model Manufacturing A1 A3 : Indonesia, ID
Energy Model Installation A5 : Electricity Mix; Low voltage; 2018; Europe, EU-27
Energy Model Use B6 : Electricity Mix; Low voltage; 2018; Europe, EU-27
Energy Model End Of Life C1 C4 : Electricity Mix; Low voltage; 2018; Europe, EU-27
Recyclability Potential In : 47
Acidification Ap Mole Of H Equiv Total Life Cycle : 7.713087997927768
Acidification Ap Mole Of H Equiv Manufacturing A1 A3 : 0.48805483362170266
Acidification Ap Mole Of H Equiv Distribution A4 : 0.003063920320602996
Acidification Ap Mole Of H Equiv Installation A5 : 0.0019219608470670067
Acidification Ap Mole Of H Equiv Maintenance B2 : 0
Acidification Ap Mole Of H Equiv Repair B3 : 0
Acidification Ap Mole Of H Equiv Replacement B4 : 0
Acidification Ap Mole Of H Equiv Operational Energy Use B6 : 7.21169102828759
Acidification Ap Mole Of H Equiv End Of Life C1 C4 : 0.008356254850805746
Acidification Ap Mole Of H Equiv Benefits Loads Beyond System Boundaries D : -0.027271463042213846
Biogenic Carbon Content Of The Associated Packaging Kg Of C Total Life Cycle : 0
Biogenic Carbon Content Of The Associated Packaging Kg Of C Manufacturing A1 A3 : 0
Biogenic Carbon Content Of The Associated Packaging Kg Of C Distribution A4 : 0
Biogenic Carbon Content Of The Associated Packaging Kg Of C Installation A5 : 0
Biogenic Carbon Content Of The Associated Packaging Kg Of C Maintenance B2 : 0
Biogenic Carbon Content Of The Associated Packaging Kg Of C Repair B3 : 0
Biogenic Carbon Content Of The Associated Packaging Kg Of C Replacement B4 : 0
Biogenic Carbon Content Of The Associated Packaging Kg Of C Operational Energy Use B6 : 0
Biogenic Carbon Content Of The Associated Packaging Kg Of C End Of Life C1 C4 : 0
Biogenic Carbon Content Of The Associated Packaging Kg Of C Benefits Loads Beyond System Boundaries D : 0
Biogenic Carbon Content Of The Product Kg Of C Total Life Cycle : 0
Biogenic Carbon Content Of The Product Kg Of C Manufacturing A1 A3 : 0
Biogenic Carbon Content Of The Product Kg Of C Distribution A4 : 0
Biogenic Carbon Content Of The Product Kg Of C Installation A5 : 0
Biogenic Carbon Content Of The Product Kg Of C Maintenance B2 : 0
Biogenic Carbon Content Of The Product Kg Of C Repair B3 : 0
Biogenic Carbon Content Of The Product Kg Of C Replacement B4 : 0
Biogenic Carbon Content Of The Product Kg Of C Operational Energy Use B6 : 0
Biogenic Carbon Content Of The Product Kg Of C End Of Life C1 C4 : 0
Biogenic Carbon Content Of The Product Kg Of C Benefits Loads Beyond System Boundaries D : 0
Climate Change Biogenics Kg Co2 Eq Total Life Cycle : 2.1410355653314213
Climate Change Biogenics Kg Co2 Eq Manufacturing A1 A3 : 0.4071350316161145
Climate Change Biogenics Kg Co2 Eq Distribution A4 : 0
Climate Change Biogenics Kg Co2 Eq Installation A5 : 0.031099825253953963
Climate Change Biogenics Kg Co2 Eq Maintenance B2 : 0
Climate Change Biogenics Kg Co2 Eq Repair B3 : 0
Climate Change Biogenics Kg Co2 Eq Replacement B4 : 0
Climate Change Biogenics Kg Co2 Eq Operational Energy Use B6 : 1.6859298003674201
Climate Change Biogenics Kg Co2 Eq End Of Life C1 C4 : 0.016870908093932817
Climate Change Biogenics Kg Co2 Eq Benefits Loads Beyond System Boundaries D : -0.1615195313625944
Climate Change Fossil Fuels Kg Co2 Eq Total Life Cycle : 1334.0636226245626
Climate Change Fossil Fuels Kg Co2 Eq Manufacturing A1 A3 : 66.49952585894351
Climate Change Fossil Fuels Kg Co2 Eq Distribution A4 : 0.4842439177991481
Climate Change Fossil Fuels Kg Co2 Eq Installation A5 : 0.6317271279022352
Climate Change Fossil Fuels Kg Co2 Eq Maintenance B2 : 0
Climate Change Fossil Fuels Kg Co2 Eq Repair B3 : 0
Climate Change Fossil Fuels Kg Co2 Eq Replacement B4 : 0
Climate Change Fossil Fuels Kg Co2 Eq Operational Energy Use B6 : 1262.1466703961435
Climate Change Fossil Fuels Kg Co2 Eq End Of Life C1 C4 : 4.301455323774137
Climate Change Fossil Fuels Kg Co2 Eq Benefits Loads Beyond System Boundaries D : -5.094432894840351
Climate Change Total Kg Co2 Eq Total Life Cycle : 1336.2052428610668
Climate Change Total Kg Co2 Eq Manufacturing A1 A3 : 66.90724517547339
Climate Change Total Kg Co2 Eq Distribution A4 : 0.4842439177991481
Climate Change Total Kg Co2 Eq Installation A5 : 0.6628270073331868
Climate Change Total Kg Co2 Eq Maintenance B2 : 0
Climate Change Total Kg Co2 Eq Repair B3 : 0
Climate Change Total Kg Co2 Eq Replacement B4 : 0
Climate Change Total Kg Co2 Eq Operational Energy Use B6 : 1263.8326001965108
Climate Change Total Kg Co2 Eq End Of Life C1 C4 : 4.318326563950249
Climate Change Total Kg Co2 Eq Benefits Loads Beyond System Boundaries D : -5.256527093390416
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 Maintenance B2 : 0
Components For Re Use Kg Repair B3 : 0
Components For Re Use Kg Replacement B4 : 0
Components For Re Use Kg Operational Energy Use B6 : 0
Components For Re Use Kg End Of Life C1 C4 : 0
Components For Re Use Kg Benefits Loads Beyond System Boundaries D : 0
Depletion Of Abiotic Resources Elements Kg Equivalent Sb Total Life Cycle : 0.010652881904489354
Depletion Of Abiotic Resources Elements Kg Equivalent Sb Manufacturing A1 A3 : 0.010559904809481196
Depletion Of Abiotic Resources Elements Kg Equivalent Sb Distribution A4 : 0.00000001904554293092
Depletion Of Abiotic Resources Elements Kg Equivalent Sb Installation A5 : 0.00000001700232747888
Depletion Of Abiotic Resources Elements Kg Equivalent Sb Maintenance B2 : 0
Depletion Of Abiotic Resources Elements Kg Equivalent Sb Repair B3 : 0
Depletion Of Abiotic Resources Elements Kg Equivalent Sb Replacement B4 : 0
Depletion Of Abiotic Resources Elements Kg Equivalent Sb Operational Energy Use B6 : 0.00009155320275004216
Depletion Of Abiotic Resources Elements Kg Equivalent Sb End Of Life C1 C4 : 0.00000138784438770756
Depletion Of Abiotic Resources Elements Kg Equivalent Sb Benefits Loads Beyond System Boundaries D : -0.00011869997108474461
Depletion Of Abiotic Resources Fossil Fuels Mj Total Life Cycle : 33365.993347931355
Depletion Of Abiotic Resources Fossil Fuels Mj Manufacturing A1 A3 : 1116.737296373157
Depletion Of Abiotic Resources Fossil Fuels Mj Distribution A4 : 6.748994067505609
Depletion Of Abiotic Resources Fossil Fuels Mj Installation A5 : 6.4943268055953585
Depletion Of Abiotic Resources Fossil Fuels Mj Maintenance B2 : 0
Depletion Of Abiotic Resources Fossil Fuels Mj Repair B3 : 0
Depletion Of Abiotic Resources Fossil Fuels Mj Replacement B4 : 0
Depletion Of Abiotic Resources Fossil Fuels Mj Operational Energy Use B6 : 32198.69656194703
Depletion Of Abiotic Resources Fossil Fuels Mj End Of Life C1 C4 : 37.31616873806777
Depletion Of Abiotic Resources Fossil Fuels Mj Benefits Loads Beyond System Boundaries D : -90.98134808043902
Ecotoxicity Fresh Water Ctue Total Life Cycle : 15528.963681821042
Ecotoxicity Fresh Water Ctue Manufacturing A1 A3 : 1457.5231686285147
Ecotoxicity Fresh Water Ctue Distribution A4 : 0.32588555395685176
Ecotoxicity Fresh Water Ctue Installation A5 : 7.519350247029153
Ecotoxicity Fresh Water Ctue Maintenance B2 : 0
Ecotoxicity Fresh Water Ctue Repair B3 : 0
Ecotoxicity Fresh Water Ctue Replacement B4 : 0
Ecotoxicity Fresh Water Ctue Operational Energy Use B6 : 13610.510460765803
Ecotoxicity Fresh Water Ctue End Of Life C1 C4 : 453.0848166257375
Ecotoxicity Fresh Water Ctue Benefits Loads Beyond System Boundaries D : -274.0249203040015
Emission Of Fine Particles Incidence Of Diseases Total Life Cycle : 0.00005886603432737573
Emission Of Fine Particles Incidence Of Diseases Manufacturing A1 A3 : 0.00000281666999752925
Emission Of Fine Particles Incidence Of Diseases Distribution A4 : 0.00000002491660937531
Emission Of Fine Particles Incidence Of Diseases Installation A5 : 0.00000001159528492063
Emission Of Fine Particles Incidence Of Diseases Maintenance B2 : 0
Emission Of Fine Particles Incidence Of Diseases Repair B3 : 0
Emission Of Fine Particles Incidence Of Diseases Replacement B4 : 0
Emission Of Fine Particles Incidence Of Diseases Operational Energy Use B6 : 0.00005595139947346688
Emission Of Fine Particles Incidence Of Diseases End Of Life C1 C4 : 0.00000006145296208365
Emission Of Fine Particles Incidence Of Diseases Benefits Loads Beyond System Boundaries D : -0.00000039934631034356
Exported Energy Mj By Energy Vector Total Life Cycle : 0.027721637937681776
Exported Energy Mj By Energy Vector Manufacturing A1 A3 : 0.0005669872094212624
Exported Energy Mj By Energy Vector Distribution A4 : 0
Exported Energy Mj By Energy Vector Installation A5 : 0.026764031490178697
Exported Energy Mj By Energy Vector Maintenance B2 : 0
Exported Energy Mj By Energy Vector Repair B3 : 0
Exported Energy Mj By Energy Vector Replacement B4 : 0
Exported Energy Mj By Energy Vector Operational Energy Use B6 : 0
Exported Energy Mj By Energy Vector End Of Life C1 C4 : 0.0003906192380818178
Exported Energy Mj By Energy Vector Benefits Loads Beyond System Boundaries D : 0
Freshwater Eutrophication Kg P Eq Total Life Cycle : 0.004111908527220766
Freshwater Eutrophication Kg P Eq Manufacturing A1 A3 : 0.0005705838963349616
Freshwater Eutrophication Kg P Eq Distribution A4 : 0.00000018147055149163
Freshwater Eutrophication Kg P Eq Installation A5 : 0.00001511865804810609
Freshwater Eutrophication Kg P Eq Maintenance B2 : 0
Freshwater Eutrophication Kg P Eq Repair B3 : 0
Freshwater Eutrophication Kg P Eq Replacement B4 : 0
Freshwater Eutrophication Kg P Eq Operational Energy Use B6 : 0.003460233541261181
Freshwater Eutrophication Kg P Eq End Of Life C1 C4 : 0.00006579096102502543
Freshwater Eutrophication Kg P Eq Benefits Loads Beyond System Boundaries D : -0.00002157775671965935
Hazardous Waste Disposed Of Kg Total Life Cycle : 154.0577946735032
Hazardous Waste Disposed Of Kg Manufacturing A1 A3 : 153.06072948392935
Hazardous Waste Disposed Of Kg Distribution A4 : 0
Hazardous Waste Disposed Of Kg Installation A5 : 0.016338715293426516
Hazardous Waste Disposed Of Kg Maintenance B2 : 0
Hazardous Waste Disposed Of Kg Repair B3 : 0
Hazardous Waste Disposed Of Kg Replacement B4 : 0
Hazardous Waste Disposed Of Kg Operational Energy Use B6 : 0
Hazardous Waste Disposed Of Kg End Of Life C1 C4 : 0.9807264742804201
Hazardous Waste Disposed Of Kg Benefits Loads Beyond System Boundaries D : -9.656354776085728
Human Toxicity Carcinogenic Effects Ctuh Total Life Cycle : 0.00000375191547767123
Human Toxicity Carcinogenic Effects Ctuh Manufacturing A1 A3 : 0.00000207480465458869
Human Toxicity Carcinogenic Effects Ctuh Distribution A4 : 0.00000000000850168077
Human Toxicity Carcinogenic Effects Ctuh Installation A5 : 0.00000007404707824851
Human Toxicity Carcinogenic Effects Ctuh Maintenance B2 : 0
Human Toxicity Carcinogenic Effects Ctuh Repair B3 : 0
Human Toxicity Carcinogenic Effects Ctuh Replacement B4 : 0
Human Toxicity Carcinogenic Effects Ctuh Operational Energy Use B6 : 0.00000014738157731028
Human Toxicity Carcinogenic Effects Ctuh End Of Life C1 C4 : 0.00000145567366584297
Human Toxicity Carcinogenic Effects Ctuh Benefits Loads Beyond System Boundaries D : -0.00000138128748213391
Human Toxicity Non Carcinogenic Effects Ctuh Total Life Cycle : 0.00000803952961316601
Human Toxicity Non Carcinogenic Effects Ctuh Manufacturing A1 A3 : 0.00000207764592967223
Human Toxicity Non Carcinogenic Effects Ctuh Distribution A4 : 0.00000000092002546359
Human Toxicity Non Carcinogenic Effects Ctuh Installation A5 : 0.00000000273235414259
Human Toxicity Non Carcinogenic Effects Ctuh Maintenance B2 : 0
Human Toxicity Non Carcinogenic Effects Ctuh Repair B3 : 0
Human Toxicity Non Carcinogenic Effects Ctuh Replacement B4 : 0
Human Toxicity Non Carcinogenic Effects Ctuh Operational Energy Use B6 : 0.00000584597292596196
Human Toxicity Non Carcinogenic Effects Ctuh End Of Life C1 C4 : 0.00000011225837792564
Human Toxicity Non Carcinogenic Effects Ctuh Benefits Loads Beyond System Boundaries D : -0.00000006888133395472
Impacts Related To Land Use Soil Quality Total Life Cycle : 27.714254639719282
Impacts Related To Land Use Soil Quality Manufacturing A1 A3 : 1.9243598837849976
Impacts Related To Land Use Soil Quality Distribution A4 : 0
Impacts Related To Land Use Soil Quality Installation A5 : 0.023209857222343994
Impacts Related To Land Use Soil Quality Maintenance B2 : 0
Impacts Related To Land Use Soil Quality Repair B3 : 0
Impacts Related To Land Use Soil Quality Replacement B4 : 0
Impacts Related To Land Use Soil Quality Operational Energy Use B6 : 25.146556173210115
Impacts Related To Land Use Soil Quality End Of Life C1 C4 : 0.6201287255018246
Impacts Related To Land Use Soil Quality Benefits Loads Beyond System Boundaries D : -1.6034819097938082
Ionizing Radiation Human Health Kbq Of U235 Equiv Total Life Cycle : 2808.2270946562285
Ionizing Radiation Human Health Kbq Of U235 Equiv Manufacturing A1 A3 : 914.7562548055845
Ionizing Radiation Human Health Kbq Of U235 Equiv Distribution A4 : 0.0011783525537180188
Ionizing Radiation Human Health Kbq Of U235 Equiv Installation A5 : 0.10089934658333763
Ionizing Radiation Human Health Kbq Of U235 Equiv Maintenance B2 : 0
Ionizing Radiation Human Health Kbq Of U235 Equiv Repair B3 : 0
Ionizing Radiation Human Health Kbq Of U235 Equiv Replacement B4 : 0
Ionizing Radiation Human Health Kbq Of U235 Equiv Operational Energy Use B6 : 1879.1272980642837
Ionizing Radiation Human Health Kbq Of U235 Equiv End Of Life C1 C4 : 14.24146408722352
Ionizing Radiation Human Health Kbq Of U235 Equiv Benefits Loads Beyond System Boundaries D : -3.534198101923185
Marine Aquatic Eutrophication Kg Of N Equiv Total Life Cycle : 0.8785100572454593
Marine Aquatic Eutrophication Kg Of N Equiv Manufacturing A1 A3 : 0.05455389743383095
Marine Aquatic Eutrophication Kg Of N Equiv Distribution A4 : 0.0014361427345254165
Marine Aquatic Eutrophication Kg Of N Equiv Installation A5 : 0.0008351403717544274
Marine Aquatic Eutrophication Kg Of N Equiv Maintenance B2 : 0
Marine Aquatic Eutrophication Kg Of N Equiv Repair B3 : 0
Marine Aquatic Eutrophication Kg Of N Equiv Replacement B4 : 0
Marine Aquatic Eutrophication Kg Of N Equiv Operational Energy Use B6 : 0.8192621768006801
Marine Aquatic Eutrophication Kg Of N Equiv End Of Life C1 C4 : 0.0024226999046683714
Marine Aquatic Eutrophication Kg Of N Equiv Benefits Loads Beyond System Boundaries D : -0.0026678528582482113
Materials For Energy Recovery Kg Total Life Cycle : 0.00000000939475121081
Materials For Energy Recovery Kg Manufacturing A1 A3 : 0.00000000939475121081
Materials For Energy Recovery Kg Distribution A4 : 0
Materials For Energy Recovery Kg Installation A5 : 0
Materials For Energy Recovery Kg Maintenance B2 : 0
Materials For Energy Recovery Kg Repair B3 : 0
Materials For Energy Recovery Kg Replacement B4 : 0
Materials For Energy Recovery Kg Operational Energy Use B6 : 0
Materials For Energy Recovery Kg End Of Life C1 C4 : 0
Materials For Energy Recovery Kg Benefits Loads Beyond System Boundaries D : 0
Materials For Recycling Kg Total Life Cycle : 0.9526412292904262
Materials For Recycling Kg Manufacturing A1 A3 : 0.05436974116942237
Materials For Recycling Kg Distribution A4 : 0
Materials For Recycling Kg Installation A5 : 0.0020661334565534716
Materials For Recycling Kg Maintenance B2 : 0
Materials For Recycling Kg Repair B3 : 0
Materials For Recycling Kg Replacement B4 : 0
Materials For Recycling Kg Operational Energy Use B6 : 0
Materials For Recycling Kg End Of Life C1 C4 : 0.8962053546644503
Materials For Recycling Kg Benefits Loads Beyond System Boundaries D : 0
Net Use Of Fresh Water M3 Total Life Cycle : 1.6357090798644611
Net Use Of Fresh Water M3 Manufacturing A1 A3 : 0.5823628640493749
Net Use Of Fresh Water M3 Distribution A4 : 0.00004277509909240967
Net Use Of Fresh Water M3 Installation A5 : 0.0012889517520147669
Net Use Of Fresh Water M3 Maintenance B2 : 0
Net Use Of Fresh Water M3 Repair B3 : 0
Net Use Of Fresh Water M3 Replacement B4 : 0
Net Use Of Fresh Water M3 Operational Energy Use B6 : 1.0411992151722231
Net Use Of Fresh Water M3 End Of Life C1 C4 : 0.01081527379175587
Net Use Of Fresh Water M3 Benefits Loads Beyond System Boundaries D : -0.025679093452105627
Non Hazardous Waste Disposed Of Kg Total Life Cycle : 205.92025578094035
Non Hazardous Waste Disposed Of Kg Manufacturing A1 A3 : 22.589919174138576
Non Hazardous Waste Disposed Of Kg Distribution A4 : 0.016981825770627467
Non Hazardous Waste Disposed Of Kg Installation A5 : 0.2842208889268535
Non Hazardous Waste Disposed Of Kg Maintenance B2 : 0
Non Hazardous Waste Disposed Of Kg Repair B3 : 0
Non Hazardous Waste Disposed Of Kg Replacement B4 : 0
Non Hazardous Waste Disposed Of Kg Operational Energy Use B6 : 181.83859650006264
Non Hazardous Waste Disposed Of Kg End Of Life C1 C4 : 1.190537392041644
Non Hazardous Waste Disposed Of Kg Benefits Loads Beyond System Boundaries D : -7.065401847972278
Ozone Depletion Kg Equivalent Cfc 11 Total Life Cycle : 0.00001510405079232373
Ozone Depletion Kg Equivalent Cfc 11 Manufacturing A1 A3 : 0.00000954478721199571
Ozone Depletion Kg Equivalent Cfc 11 Distribution A4 : 0.00000000074161497663
Ozone Depletion Kg Equivalent Cfc 11 Installation A5 : 0.00000000861745267357
Ozone Depletion Kg Equivalent Cfc 11 Maintenance B2 : 0
Ozone Depletion Kg Equivalent Cfc 11 Repair B3 : 0
Ozone Depletion Kg Equivalent Cfc 11 Replacement B4 : 0
Ozone Depletion Kg Equivalent Cfc 11 Operational Energy Use B6 : 0.00000540410865160895
Ozone Depletion Kg Equivalent Cfc 11 End Of Life C1 C4 : 0.00000014579586106887
Ozone Depletion Kg Equivalent Cfc 11 Benefits Loads Beyond System Boundaries D : -0.00000054019801334052
Photochemical Ozone Formation Kg Of Nmvoc Equiv Total Life Cycle : 2.844828983053041
Photochemical Ozone Formation Kg Of Nmvoc Equiv Manufacturing A1 A3 : 0.20216382725351784
Photochemical Ozone Formation Kg Of Nmvoc Equiv Distribution A4 : 0.003973860022502468
Photochemical Ozone Formation Kg Of Nmvoc Equiv Installation A5 : 0.001333422389062706
Photochemical Ozone Formation Kg Of Nmvoc Equiv Maintenance B2 : 0
Photochemical Ozone Formation Kg Of Nmvoc Equiv Repair B3 : 0
Photochemical Ozone Formation Kg Of Nmvoc Equiv Replacement B4 : 0
Photochemical Ozone Formation Kg Of Nmvoc Equiv Operational Energy Use B6 : 2.6304955799853285
Photochemical Ozone Formation Kg Of Nmvoc Equiv End Of Life C1 C4 : 0.0068622934026292
Photochemical Ozone Formation Kg Of Nmvoc Equiv Benefits Loads Beyond System Boundaries D : -0.009951410471031921
Radioactive Waste Disposed Of Kg Total Life Cycle : 0.0542821474702187
Radioactive Waste Disposed Of Kg Manufacturing A1 A3 : 0.015244838406844246
Radioactive Waste Disposed Of Kg Distribution A4 : 0.00001209497309070849
Radioactive Waste Disposed Of Kg Installation A5 : 0.00003499923599166067
Radioactive Waste Disposed Of Kg Maintenance B2 : 0
Radioactive Waste Disposed Of Kg Repair B3 : 0
Radioactive Waste Disposed Of Kg Replacement B4 : 0
Radioactive Waste Disposed Of Kg Operational Energy Use B6 : 0.03806045083328041
Radioactive Waste Disposed Of Kg End Of Life C1 C4 : 0.0009297640210116703
Radioactive Waste Disposed Of Kg Benefits Loads Beyond System Boundaries D : -0.005237037889668164
Terrestrial Eutrophication Mole Of N Equiv Total Life Cycle : 12.9346646293101
Terrestrial Eutrophication Mole Of N Equiv Manufacturing A1 A3 : 0.5771612975044753
Terrestrial Eutrophication Mole Of N Equiv Distribution A4 : 0.015755178714408184
Terrestrial Eutrophication Mole Of N Equiv Installation A5 : 0.005815618076201783
Terrestrial Eutrophication Mole Of N Equiv Maintenance B2 : 0
Terrestrial Eutrophication Mole Of N Equiv Repair B3 : 0
Terrestrial Eutrophication Mole Of N Equiv Replacement B4 : 0
Terrestrial Eutrophication Mole Of N Equiv Operational Energy Use B6 : 12.310771144580068
Terrestrial Eutrophication Mole Of N Equiv End Of Life C1 C4 : 0.025161390434947462
Terrestrial Eutrophication Mole Of N Equiv Benefits Loads Beyond System Boundaries D : -0.02952687948683075
Total Use Of Non Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Total Life Cycle : 35.109903221610374
Total Use Of Non Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Manufacturing A1 A3 : 35.109903221610374
Total Use Of Non Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Distribution A4 : 0
Total Use Of Non Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Installation A5 : 0
Total Use Of Non Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Maintenance B2 : 0
Total Use Of Non Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Repair B3 : 0
Total Use Of Non Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Replacement B4 : 0
Total Use Of Non Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Operational Energy Use B6 : 0
Total Use Of Non Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj End Of Life C1 C4 : 0
Total Use Of Non Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Benefits Loads Beyond System Boundaries D : -13.280641331774994
Total Use Of Primary Energy During The Life Cycle Mj Total Life Cycle : 39578.78443721235
Total Use Of Primary Energy During The Life Cycle Mj Manufacturing A1 A3 : 1144.8555504358003
Total Use Of Primary Energy During The Life Cycle Mj Distribution A4 : 6.75800028837477
Total Use Of Primary Energy During The Life Cycle Mj Installation A5 : 7.346603940124663
Total Use Of Primary Energy During The Life Cycle Mj Maintenance B2 : 0
Total Use Of Primary Energy During The Life Cycle Mj Repair B3 : 0
Total Use Of Primary Energy During The Life Cycle Mj Replacement B4 : 0
Total Use Of Primary Energy During The Life Cycle Mj Operational Energy Use B6 : 38381.68173202018
Total Use Of Primary Energy During The Life Cycle Mj End Of Life C1 C4 : 38.142550527867016
Total Use Of Primary Energy During The Life Cycle Mj Benefits Loads Beyond System Boundaries D : -94.74240965597016
Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Total Life Cycle : 6212.791089281
Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Manufacturing A1 A3 : 28.11825406264278
Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Distribution A4 : 0.009006220869160994
Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Installation A5 : 0.8522771345293053
Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Maintenance B2 : 0
Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Repair B3 : 0
Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Replacement B4 : 0
Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Operational Energy Use B6 : 6182.985170073159
Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj End Of Life C1 C4 : 0.8263817897992504
Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Benefits Loads Beyond System Boundaries D : -3.761061575531087
Use Of Non Renewable Primary Energy Resources Used As Raw Materials Mj Total Life Cycle : 35.109903221610374
Use Of Non Renewable Primary Energy Resources Used As Raw Materials Mj Manufacturing A1 A3 : 35.109903221610374
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 Maintenance B2 : 0
Use Of Non Renewable Primary Energy Resources Used As Raw Materials Mj Repair B3 : 0
Use Of Non Renewable Primary Energy Resources Used As Raw Materials Mj Replacement B4 : 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 Resources Used As Raw Materials Mj Benefits Loads Beyond System Boundaries D : -13.280641331774994
Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj Total Life Cycle : 33330.88344470975
Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj Manufacturing A1 A3 : 1081.6273931515466
Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj Distribution A4 : 6.748994067505609
Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj Installation A5 : 6.4943268055953585
Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj Maintenance B2 : 0
Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj Repair B3 : 0
Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj Replacement B4 : 0
Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj Operational Energy Use B6 : 32198.69656194703
Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj End Of Life C1 C4 : 37.31616873806777
Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj Benefits Loads Beyond System Boundaries D : -77.7007067486641
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 Maintenance B2 : 0
Use Of Non Renewable Secondary Fuels Mj Repair B3 : 0
Use Of Non Renewable Secondary Fuels Mj Replacement B4 : 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 Non Renewable Secondary Fuels Mj Benefits Loads Beyond System Boundaries D : 0
Use Of Renewable Primary Energy Resources Used As Raw Materials Mj Total Life Cycle : 3.4174309919860897
Use Of Renewable Primary Energy Resources Used As Raw Materials Mj Manufacturing A1 A3 : 3.4174309919860897
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 Maintenance B2 : 0
Use Of Renewable Primary Energy Resources Used As Raw Materials Mj Repair B3 : 0
Use Of Renewable Primary Energy Resources Used As Raw Materials Mj Replacement B4 : 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 Resources Used As Raw Materials Mj Benefits Loads Beyond System Boundaries D : 0.9060721895848513
Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj Total Life Cycle : 6209.373658289013
Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj Manufacturing A1 A3 : 24.700823070656696
Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj Distribution A4 : 0.009006220869160994
Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj Installation A5 : 0.8522771345293053
Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj Maintenance B2 : 0
Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj Repair B3 : 0
Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj Replacement B4 : 0
Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj Operational Energy Use B6 : 6182.985170073159
Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj End Of Life C1 C4 : 0.8263817897992504
Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj Benefits Loads Beyond System Boundaries D : -4.667133765115939
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 Maintenance B2 : 0
Use Of Renewable Secondary Fuels Mj Repair B3 : 0
Use Of Renewable Secondary Fuels Mj Replacement B4 : 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 Renewable Secondary Fuels Mj Benefits Loads Beyond System Boundaries D : 0
Use Of Secondary Materials Kg Total Life Cycle : 0.636221133690097
Use Of Secondary Materials Kg Manufacturing A1 A3 : 0.636221133690097
Use Of Secondary Materials Kg Distribution A4 : 0
Use Of Secondary Materials Kg Installation A5 : 0
Use Of Secondary Materials Kg Maintenance B2 : 0
Use Of Secondary Materials Kg Repair B3 : 0
Use Of Secondary Materials Kg Replacement B4 : 0
Use Of Secondary Materials Kg Operational Energy Use B6 : 0
Use Of Secondary Materials Kg End Of Life C1 C4 : 0
Use Of Secondary Materials Kg Benefits Loads Beyond System Boundaries D : 0
Water Use M3 Eq Total Life Cycle : 69.95809970957166
Water Use M3 Eq Manufacturing A1 A3 : 24.716894971890945
Water Use M3 Eq Distribution A4 : 0.0018371905060189945
Water Use M3 Eq Installation A5 : 0.055345617210098855
Water Use M3 Eq Maintenance B2 : 0
Water Use M3 Eq Repair B3 : 0
Water Use M3 Eq Replacement B4 : 0
Water Use M3 Eq Operational Energy Use B6 : 44.71950629164698
Water Use M3 Eq End Of Life C1 C4 : 0.4645156383176048
Water Use M3 Eq Benefits Loads Beyond System Boundaries D : -0.812116466669876
Air Pollution M3 Total Life Cycle : 0
Air Pollution M3 Manufacturing A1 A3 : 0
Air Pollution M3 Distribution A4 : 0
Air Pollution M3 Installation A5 : 0
Air Pollution M3 Maintenance B2 : 0
Air Pollution M3 Repair B3 : 0
Air Pollution M3 Replacement B4 : 0
Air Pollution M3 Operational Energy Use B6 : 0
Air Pollution M3 End Of Life C1 C4 : 0
Air Pollution M3 Benefits Loads Beyond System Boundaries D : 0
Water Pollution M3 Total Life Cycle : 0
Water Pollution M3 Manufacturing A1 A3 : 0
Water Pollution M3 Distribution A4 : 0
Water Pollution M3 Installation A5 : 0
Water Pollution M3 Maintenance B2 : 0
Water Pollution M3 Repair B3 : 0
Water Pollution M3 Replacement B4 : 0
Water Pollution M3 Operational Energy Use B6 : 0
Water Pollution M3 End Of Life C1 C4 : 0
Water Pollution M3 Benefits Loads Beyond System Boundaries D : 0
Packaging Weight In G : 762.3

General Attributes

Product Or Component Type : variable speed drive
Range Of Product : Altivar Machine ATV340

Output Attributes

Maximum Output Voltage : 480 V
Relay Output Number : 2
Speed Drive Output Frequency : 0.1-599 Hz

Environment Attributes

ROHS Exemption Information : Yes
China ROHS url : https://checkaproduct.se.com/DistantRequestDispatcher.aspx?action=exportPdfRoHSChina&pid=442523115&lang=en-us
Take Back : No
China ROHS Regulation : X
Mercury Free : Yes
Carbon Footprint : 1336.20524286107
Ambient Air Transport Temperature : -40-70 °C
Circularity Profile : ENVEOLI1609005EN
Environmental Disclosure : ENVPEP1609005EN
EU ROHS Directive : Pro-active compliance (Product out of EU RoHS legal scope)
Packaging Made With Recycled Cardboard : Yes
Packaging Without Single Use Plastic : Yes
Reach Regulation : Reference contains Substances of Very High Concern above the threshold
Permitted Relative Humidity During Operation : class 3K5 according to EN 60721-3
Permitted Relative Humidity During Storage : class 1K5 according to EN 60721-3
Pep Code : ENVPEP1609005EN
Pep Verification Date : 2024-10-01
PCR Version : PCR-4-ed4-EN-2021 09 06
PSR Version : PSR-0005-ed3.1-EN-2023 12 08
Type Of Verification For The Pep : Independent external review

Input Attributes

Number Of Input Phases : 3

Specifications

Country of Origin : Indonesia

variable speed drive, Altivar Machine ATV340, 0.75kW, heavy duty, 400V, 3 phases, Ethernet

variable speed drive, Altivar Machine ATV340, 0.75kW, heavy duty, 400V, 3 phases, Ethernet

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