Logic controller, Modicon M221, 16io tr.npn

Name: Logic controller, Modicon M221, 16io tr.npn
Brand: Mayer Electric Supply
SKU: SQDTM221C16U
Price: 390.16 USD
Availability: OutOfStock

LOGIC CONTROLLER, MODICON M221

SQDTM221C16U TM221C16U 3606485408590

390.16 / EA

http://schema.org/OutOfStock

Mayer-DDS-Logic controller, Modicon M221, 16io tr.npn-1

Country of Origin: Taiwan

CONTROLLER M221-16IO TR.NPN This product is part of the Modicon M221 range, an offer of programmable logic controllers for hardwired architectures. This logic controller provides 9 discrete, 4 fast inputs, 7 sink transistor outputs, 2 fast outputs with P

QTY

Product Description
Features
Specifications

US Rated Supply Voltage

24 V DC

Discrete Input Current

7 mA discrete input
5 mA fast input

Mounting Support

top hat type TH35-15 rail IEC 60715
top hat type TH35-7.5 rail IEC 60715
plate or panel with fixing kit

Clock Drift

<= 30 s/month 25-25 °C

Resistance To Magnetic Fields

30 A/m 50/60 Hz IEC 61000-4-8

IP Degree Of Protection

IP20 with protective cover in place

Regulation Loop

adjustable PID regulator up to 14 simultaneous loops

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

Mechanical Durability

20000000 cycles transistor output

Response Time

35 µs turn-off, I2...I5 input
5 µs turn-on, I0, I1, I6, I7 fast input
5 µs turn-on,

Configurable Filtering Time

0 ms input
3 ms input
12 ms input

Carbon Footprint Of The Installation Phase A5

0 kg CO2 eq.
0.008224870903580667

Carbon Footprint Of The End Of Life Phase C1 To C4

1.053950593360738
1 kg CO2 eq.

Resistance To Conducted Disturbances

10 V 0.15...80 MHz IEC 61000-4-6
3 V 0.1...80 MHz Marine specification (LR, ABS, DNV, GL)
3 V 0.1...80 MHz Marine specification (LR

Positioning Functions

PTO 2 pulse/direction 100 kHz)
PTO 1 CW/CCW 100 kHz)

Maximum Leakage Current

0.1 mA transistor output

Permitted Overload On Inputs

+/- 30 V DC 5 min maximum)analog input
+/- 13 V DC permanent)analog input
+/- 13 V DC permanent)an

Electrical Connection

removable screw terminal block for inputs
removable screw terminal block for outputs
terminal block, 3 for connecting the 24 V DC power supply
terminal block, 3 for conn

Carbon Footprint Of The Manufacturing Phase A1 To A3

18 kg CO2 eq.
17.90461400817564

Data Storage Equipment

2 GB SD card optional)

Discrete Output Number

7 transistor 2 fast output

Maximum Cable Distance Between Devices

shielded cable <10 m fast input
unshielded cable <30 m output
unshielded cable <30 m digital input
unshielded cable <30 m digital

Supply

serial)serial link supply 5 V, <200 mA

Accessories

TMH2GDB
TMASD1
TMAM2
TCSXCNAMUM3P
TMACBL1

Voltage State 1 Guaranteed

>= 15 V input

Maximum Number Of I O Expansion Module

4 (local I/O-Architecture)
11 (remote I/O-Architecture)

Communication Port Protocol

USB port USB - SoMachine-Network
non isolated serial link Modbus master/slave - RTU/ASCII or SoMachine-Network

Analogue Input Number

2 0...10 V

Vibration Resistance

3.5 mm 5-8.4 Hz symmetrical rail
3.5 mm 5-8.4 Hz panel mounting
1 gn 8.4-150 Hz symmetrical rail
1 gn 8.4-150 Hz symmetrical r

Output Frequency

100 kHz fast output (PWM/PLS mode) Q0...Q1
5 kHz output Q2...Q3
0.1 kHz output Q4...Q6
0.1 kHz output Q

Counting Input Number

4 fast input (HSC mode) 100 kHz 32 bits

Execution Time For 1 Kinstruction

0.3 ms event and periodic task

Carbon Footprint Of The Use Phase B2 B3 B4 B6

80 kg CO2 eq.
80.0953910374539

Resistance To Fast Transients

2 kV IEC 61000-4-4 power lines)
2 kV IEC 61000-4-4 relay output)
1 kV IEC 61000-4-4 I/O)
1 kV IEC 61

Conversion Time

1 ms per channel + 1 controller cycle time analog input

Data Backed Up

256 kB built-in flash memory backup of application and data

Relative Humidity

10-95 %, without condensation in operation)
10-95 %, without condensation in storage)
10-95 %, without condensation in stora

Exact Time For Event Task

60 µs response time

Surge Withstand

2 kV power lines (AC) common mode IEC 61000-4-5
2 kV relay output common mode IEC 61000-4-5
2 kV relay output

Memory Capacity

256 kB user application and data RAM 10000 instructions
256 kB internal variables RAM

Electromagnetic Emission

conducted emissions 79 dBμV/m QP/66 dBμV/m AV power lines (AC))0.15-0.5 MHz IEC 55011
conducted emissions 79 dBμV/m QP/66 dBμV/m AV power lines (AC))0.15-0.5 MHz IEC 55

Maximum Tungsten Load

<12 W output and fast output

Resistance To Electrostatic Discharge

8 kV in air IEC 61000-4-2
4 kV on contact IEC 61000-4-2

Execution Time Per Instruction

0.2 µs Boolean

Carbon Footprint Of The Distribution Phase A4

1.1078100574562804
1 kg CO2 eq.

Insulation

between input and internal logic 500 V AC
between fast input and internal logic 500 V AC
between fast input and internal lo

Resistance To Electromagnetic Fields

10 V/m 80 MHz...1 GHz IEC 61000-4-3
3 V/m 1.4 GHz...2 GHz IEC 61000-4-3
1 V/m 2...2.7 GHz IEC 61000-4-3
1 V/m

Integrated Connection Type

USB port mini B USB 2.0
non isolated serial link serial 1 RJ45 RS485
non isolated serial link s

Voltage State 0 Guaranteed

<= 5 V input

Shock Resistance

147 m/s² 11 ms

Maximum Power Consumption In W

10 W 24 V with max number of I/O expansion module)
3.9 W 24 V without I/O expansion module)
3.9 W 24 V without

Input Impedance

3.4 kOhm discrete input
100 kOhm analog input
4.9 kOhm fast input

Power Supply Output Current

0.325-0.325 A 5 V expansion bus
0.15-0.15 A 24 V expansion bus

Transmission Rate

1.2...115.2 kbit/s (115.2 kbit/s by default) 15-15 m RS485
1.2...115.2 kbit/s (115.2 kbit/s by default) 3-3 m RS232
1.2...115.2 kbit/s (

Local Signalling

1 LED (green) for PWR
1 LED (green) for RUN
1 LED (red) for module error (ERR)
1 LED (green) for

Ambient Air Temperature For Operation

-10-55 °C horizontal installation)
-10-35 °C vertical installation)

Battery Type

BR2032 or CR2032X lithium non-rechargeable

Discrete Output Voltage

24 V DC

Discrete Input Number

9 , discrete input 4 fast input IEC 61131-2 Type 1

Complementary Attributes

Maximum Current Per Output Common : 3.5 A
Maximum Voltage Drop : <1 V

Important Information Attributes

Local Data Status : Publishable
Local Publishable Date : 10/25/2024
Device Type : PLC System - PLC CPU
Serviceability : Yes
Traceability : Yes
Field Service Division : IDIBS
Average Life Duration : 20 year(s)
Manufacturing Carbon Footprint : 17.90461401
Distribution Carbon Footprint : 1.107810057
Installation Carbon Footprint : 0.008224871
Use Carbon Footprint : 80.09539104
End Of Life Carbon Footprint : 1.053950593
Legacy WEEE Scope : In
WEEE Product Category : 5
Scope Perimeter : At least in Europe
EOLI Availability Display : Yes
End Of Life Doc Ref : ENVEOLI1403012EN
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 : 1901
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
With Recycled Cardboard : Yes
Without Single Use Plastic : Yes
Product Contributes To Saved And Avoided Emissions : No
Return Indicator : N
WD Status : 1 - GSC certified
Dangerous Goods Code : LITHIUM METAL BATTERIES WITH EQUIP. CELL : ≤ 1g OR Battery ≤ 2g
Package Weight Lbs : 527.000 g
Product Availability : Non-Stock - Not normally stocked in distribution facility
Product Or Component Type : logic controller
Protection Type : without protection
Range Of Product : Modicon M221
Returnability : No
Sustainable Packaging : Yes
Total Lifecycle Carbon Footprint : 100 kg CO2 eq.
Weee Label : The product must be disposed on European Union markets following specific waste collection and never end up in rubbish bins.
Carbon Footprint Kg Co2 Eq Total Life Cycle : 100.1699906
Relationship Type : Compatible relationship
Pep Code : ENVPEP1403012EN
Pep Verification Date : 11/1/2024
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 internal review
Product Weight In G : 558
Functional Unit Description : To perform control for applications using I/O communication from 16 to 40 I/Os, Ethernet (RJ45) or Serial Link (RJ45) communication, and optional I/O modules, 57,20% of the time for 10 years.
Functional Unit Quantity : 1
Functional Unit Unit : Unit
Reference Lifetime In Y : 10
Energy Consumption On Product Lifetime In Kwh : 195.41808
Energy Model Manufacturing A1 A3 : Taiwan, TW
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 : 0
Acidification Ap Mole Of H Equiv Total Life Cycle : 0.595911383
Acidification Ap Mole Of H Equiv Manufacturing A1 A3 : 0.133516393
Acidification Ap Mole Of H Equiv Distribution A4 : 0.004549544
Acidification Ap Mole Of H Equiv Installation A5 : 0.000110816
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 : 0.457040919
Acidification Ap Mole Of H Equiv End Of Life C1 C4 : 0.000693711
Acidification Ap Mole Of H Equiv Benefits Loads Beyond System Boundaries D : 0
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 : 0.19869564
Climate Change Biogenics Kg Co2 Eq Manufacturing A1 A3 : 0.075307071
Climate Change Biogenics Kg Co2 Eq Distribution A4 : 0
Climate Change Biogenics Kg Co2 Eq Installation A5 : -4.66775E-06
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 : 0.106845801
Climate Change Biogenics Kg Co2 Eq End Of Life C1 C4 : 0.016547436
Climate Change Biogenics Kg Co2 Eq Benefits Loads Beyond System Boundaries D : 0
Climate Change Fossil Fuels Kg Co2 Eq Total Life Cycle : 99.97112144
Climate Change Fossil Fuels Kg Co2 Eq Manufacturing A1 A3 : 17.82913345
Climate Change Fossil Fuels Kg Co2 Eq Distribution A4 : 1.107810057
Climate Change Fossil Fuels Kg Co2 Eq Installation A5 : 0.008229539
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 : 79.98854524
Climate Change Fossil Fuels Kg Co2 Eq End Of Life C1 C4 : 1.037403158
Climate Change Fossil Fuels Kg Co2 Eq Benefits Loads Beyond System Boundaries D : 0
Climate Change Total Kg Co2 Eq Total Life Cycle : 100.1699906
Climate Change Total Kg Co2 Eq Manufacturing A1 A3 : 17.90461401
Climate Change Total Kg Co2 Eq Distribution A4 : 1.107810057
Climate Change Total Kg Co2 Eq Installation A5 : 0.008224871
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 : 80.09539104
Climate Change Total Kg Co2 Eq End Of Life C1 C4 : 1.053950593
Climate Change Total Kg Co2 Eq Benefits Loads Beyond System Boundaries D : 0
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 : 0.001443224
Depletion Of Abiotic Resources Elements Kg Equivalent Sb Manufacturing A1 A3 : 0.001437425
Depletion Of Abiotic Resources Elements Kg Equivalent Sb Distribution A4 : 9.47689E-11
Depletion Of Abiotic Resources Elements Kg Equivalent Sb Installation A5 : 3.58034E-10
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 : 5.80218E-06
Depletion Of Abiotic Resources Elements Kg Equivalent Sb End Of Life C1 C4 : -4.44886E-09
Depletion Of Abiotic Resources Elements Kg Equivalent Sb Benefits Loads Beyond System Boundaries D : 0
Depletion Of Abiotic Resources Fossil Fuels Mj Total Life Cycle : 2311.842989
Depletion Of Abiotic Resources Fossil Fuels Mj Manufacturing A1 A3 : 256.1374944
Depletion Of Abiotic Resources Fossil Fuels Mj Distribution A4 : 13.71805101
Depletion Of Abiotic Resources Fossil Fuels Mj Installation A5 : 0.094290465
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 : 2040.592395
Depletion Of Abiotic Resources Fossil Fuels Mj End Of Life C1 C4 : 1.300758288
Depletion Of Abiotic Resources Fossil Fuels Mj Benefits Loads Beyond System Boundaries D : 0
Ecotoxicity Fresh Water Ctue Total Life Cycle : 32830.98481
Ecotoxicity Fresh Water Ctue Manufacturing A1 A3 : 31818.47979
Ecotoxicity Fresh Water Ctue Distribution A4 : 4.518324349
Ecotoxicity Fresh Water Ctue Installation A5 : 1.280146892
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 : 862.5661005
Ecotoxicity Fresh Water Ctue End Of Life C1 C4 : 144.1404438
Ecotoxicity Fresh Water Ctue Benefits Loads Beyond System Boundaries D : 0
Emission Of Fine Particles Incidence Of Diseases Total Life Cycle : 4.2872E-06
Emission Of Fine Particles Incidence Of Diseases Manufacturing A1 A3 : 7.2363E-07
Emission Of Fine Particles Incidence Of Diseases Distribution A4 : 1.25261E-08
Emission Of Fine Particles Incidence Of Diseases Installation A5 : 4.49188E-10
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 : 3.54592E-06
Emission Of Fine Particles Incidence Of Diseases End Of Life C1 C4 : 4.67204E-09
Emission Of Fine Particles Incidence Of Diseases Benefits Loads Beyond System Boundaries D : 0
Exported Energy Mj By Energy Vector Total Life Cycle : 1.47388E-05
Exported Energy Mj By Energy Vector Manufacturing A1 A3 : 1.11753E-05
Exported Energy Mj By Energy Vector Distribution A4 : 0
Exported Energy Mj By Energy Vector Installation A5 : 0
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 : 3.56353E-06
Exported Energy Mj By Energy Vector Benefits Loads Beyond System Boundaries D : 0
Freshwater Eutrophication Kg P Eq Total Life Cycle : 0.000268779
Freshwater Eutrophication Kg P Eq Manufacturing A1 A3 : 4.33952E-05
Freshwater Eutrophication Kg P Eq Distribution A4 : 1.29098E-07
Freshwater Eutrophication Kg P Eq Installation A5 : 4.07577E-08
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 : 0.000219292
Freshwater Eutrophication Kg P Eq End Of Life C1 C4 : 5.92204E-06
Freshwater Eutrophication Kg P Eq Benefits Loads Beyond System Boundaries D : 0
Hazardous Waste Disposed Of Kg Total Life Cycle : 19.03272383
Hazardous Waste Disposed Of Kg Manufacturing A1 A3 : 18.81247959
Hazardous Waste Disposed Of Kg Distribution A4 : 0.000913434
Hazardous Waste Disposed Of Kg Installation A5 : 4.90866E-05
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 : 0.219281718
Hazardous Waste Disposed Of Kg Benefits Loads Beyond System Boundaries D : 0
Human Toxicity Carcinogenic Effects Ctuh Total Life Cycle : 5.88042E-07
Human Toxicity Carcinogenic Effects Ctuh Manufacturing A1 A3 : 3.9813E-07
Human Toxicity Carcinogenic Effects Ctuh Distribution A4 : 1.62383E-11
Human Toxicity Carcinogenic Effects Ctuh Installation A5 : 1.70107E-09
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 : 9.34031E-09
Human Toxicity Carcinogenic Effects Ctuh End Of Life C1 C4 : 1.78854E-07
Human Toxicity Carcinogenic Effects Ctuh Benefits Loads Beyond System Boundaries D : 0
Human Toxicity Non Carcinogenic Effects Ctuh Total Life Cycle : 1.09304E-06
Human Toxicity Non Carcinogenic Effects Ctuh Manufacturing A1 A3 : 6.96594E-07
Human Toxicity Non Carcinogenic Effects Ctuh Distribution A4 : 2.56073E-09
Human Toxicity Non Carcinogenic Effects Ctuh Installation A5 : 5.79783E-10
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 : 3.70489E-07
Human Toxicity Non Carcinogenic Effects Ctuh End Of Life C1 C4 : 2.28132E-08
Human Toxicity Non Carcinogenic Effects Ctuh Benefits Loads Beyond System Boundaries D : 0
Impacts Related To Land Use Soil Quality Total Life Cycle : 2.148044203
Impacts Related To Land Use Soil Quality Manufacturing A1 A3 : 0.554381205
Impacts Related To Land Use Soil Quality Distribution A4 : 0
Impacts Related To Land Use Soil Quality Installation A5 : 0
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 : 1.593662997
Impacts Related To Land Use Soil Quality End Of Life C1 C4 : 0
Impacts Related To Land Use Soil Quality Benefits Loads Beyond System Boundaries D : 0
Ionizing Radiation Human Health Kbq Of U235 Equiv Total Life Cycle : 226.8184367
Ionizing Radiation Human Health Kbq Of U235 Equiv Manufacturing A1 A3 : 107.7255627
Ionizing Radiation Human Health Kbq Of U235 Equiv Distribution A4 : 0.002444378
Ionizing Radiation Human Health Kbq Of U235 Equiv Installation A5 : 6.30372E-05
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 : 119.0896925
Ionizing Radiation Human Health Kbq Of U235 Equiv End Of Life C1 C4 : 0.000674146
Ionizing Radiation Human Health Kbq Of U235 Equiv Benefits Loads Beyond System Boundaries D : 0
Marine Aquatic Eutrophication Kg Of N Equiv Total Life Cycle : 0.06797643
Marine Aquatic Eutrophication Kg Of N Equiv Manufacturing A1 A3 : 0.013591583
Marine Aquatic Eutrophication Kg Of N Equiv Distribution A4 : 0.002070189
Marine Aquatic Eutrophication Kg Of N Equiv Installation A5 : 5.23799E-05
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 : 0.05192074
Marine Aquatic Eutrophication Kg Of N Equiv End Of Life C1 C4 : 0.000341537
Marine Aquatic Eutrophication Kg Of N Equiv Benefits Loads Beyond System Boundaries D : 0
Materials For Energy Recovery Kg Total Life Cycle : 0
Materials For Energy Recovery Kg Manufacturing A1 A3 : 0
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 : 0.000417012
Materials For Recycling Kg Manufacturing A1 A3 : 5.67603E-05
Materials For Recycling Kg Distribution A4 : 0
Materials For Recycling Kg Installation A5 : 0
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 : 0.000360252
Materials For Recycling Kg Benefits Loads Beyond System Boundaries D : 0
Net Use Of Fresh Water M3 Total Life Cycle : 0.228611673
Net Use Of Fresh Water M3 Manufacturing A1 A3 : 0.160002192
Net Use Of Fresh Water M3 Distribution A4 : 0.001302322
Net Use Of Fresh Water M3 Installation A5 : 0.000453657
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 : 0.065986
Net Use Of Fresh Water M3 End Of Life C1 C4 : 0.000867501
Net Use Of Fresh Water M3 Benefits Loads Beyond System Boundaries D : 0
Non Hazardous Waste Disposed Of Kg Total Life Cycle : 16.20898632
Non Hazardous Waste Disposed Of Kg Manufacturing A1 A3 : 4.319137575
Non Hazardous Waste Disposed Of Kg Distribution A4 : 0.001122141
Non Hazardous Waste Disposed Of Kg Installation A5 : 0.213038592
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 : 11.52402105
Non Hazardous Waste Disposed Of Kg End Of Life C1 C4 : 0.151666964
Non Hazardous Waste Disposed Of Kg Benefits Loads Beyond System Boundaries D : 0
Ozone Depletion Kg Equivalent Cfc 11 Total Life Cycle : 3.74552E-06
Ozone Depletion Kg Equivalent Cfc 11 Manufacturing A1 A3 : 2.4289E-06
Ozone Depletion Kg Equivalent Cfc 11 Distribution A4 : 9.72919E-07
Ozone Depletion Kg Equivalent Cfc 11 Installation A5 : 3.27135E-10
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 : 3.42485E-07
Ozone Depletion Kg Equivalent Cfc 11 End Of Life C1 C4 : 8.84647E-10
Ozone Depletion Kg Equivalent Cfc 11 Benefits Loads Beyond System Boundaries D : 0
Photochemical Ozone Formation Kg Of Nmvoc Equiv Total Life Cycle : 0.224494112
Photochemical Ozone Formation Kg Of Nmvoc Equiv Manufacturing A1 A3 : 0.04932474
Photochemical Ozone Formation Kg Of Nmvoc Equiv Distribution A4 : 0.007485985
Photochemical Ozone Formation Kg Of Nmvoc Equiv Installation A5 : 0.000128038
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 : 0.166707657
Photochemical Ozone Formation Kg Of Nmvoc Equiv End Of Life C1 C4 : 0.000847692
Photochemical Ozone Formation Kg Of Nmvoc Equiv Benefits Loads Beyond System Boundaries D : 0
Radioactive Waste Disposed Of Kg Total Life Cycle : 0.004919361
Radioactive Waste Disposed Of Kg Manufacturing A1 A3 : 0.002281829
Radioactive Waste Disposed Of Kg Distribution A4 : 0.000219199
Radioactive Waste Disposed Of Kg Installation A5 : 1.72644E-07
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 : 0.002412081
Radioactive Waste Disposed Of Kg End Of Life C1 C4 : 6.07979E-06
Radioactive Waste Disposed Of Kg Benefits Loads Beyond System Boundaries D : 0
Terrestrial Eutrophication Mole Of N Equiv Total Life Cycle : 0.952008398
Terrestrial Eutrophication Mole Of N Equiv Manufacturing A1 A3 : 0.145318893
Terrestrial Eutrophication Mole Of N Equiv Distribution A4 : 0.022455391
Terrestrial Eutrophication Mole Of N Equiv Installation A5 : 0.000533337
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 : 0.780195121
Terrestrial Eutrophication Mole Of N Equiv End Of Life C1 C4 : 0.003505656
Terrestrial Eutrophication Mole Of N Equiv Benefits Loads Beyond System Boundaries D : 0
Total Use Of Non Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Total Life Cycle : 6.682884394
Total Use Of Non Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Manufacturing A1 A3 : 6.682884394
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 : 0
Total Use Of Primary Energy During The Life Cycle Mj Total Life Cycle : 2715.981625
Total Use Of Primary Energy During The Life Cycle Mj Manufacturing A1 A3 : 268.4262563
Total Use Of Primary Energy During The Life Cycle Mj Distribution A4 : 13.7181407
Total Use Of Primary Energy During The Life Cycle Mj Installation A5 : 0.094358968
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 : 2432.43908
Total Use Of Primary Energy During The Life Cycle Mj End Of Life C1 C4 : 1.303789187
Total Use Of Primary Energy During The Life Cycle Mj Benefits Loads Beyond System Boundaries D : 0
Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Total Life Cycle : 404.1386362
Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Manufacturing A1 A3 : 12.28876192
Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Distribution A4 : 8.96863E-05
Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Installation A5 : 6.85029E-05
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 : 391.8466852
Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj End Of Life C1 C4 : 0.0030309
Total Use Of Renewable Primary Energy Resources Primary Energy And Primary Energy Resources Used As Raw Materials Mj Benefits Loads Beyond System Boundaries D : 0
Use Of Non Renewable Primary Energy Resources Used As Raw Materials Mj Total Life Cycle : 6.682884394
Use Of Non Renewable Primary Energy Resources Used As Raw Materials Mj Manufacturing A1 A3 : 6.682884394
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 : 0
Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj Total Life Cycle : 2305.160104
Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj Manufacturing A1 A3 : 249.45461
Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj Distribution A4 : 13.71805101
Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj Installation A5 : 0.094290465
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 : 2040.592395
Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj End Of Life C1 C4 : 1.300758288
Use Of Non Renewable Primary Energy Excluding Non Renewable Primary Energy Resources Used As Raw Materials Mj Benefits Loads Beyond System Boundaries D : 0
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 : 4.363783562
Use Of Renewable Primary Energy Resources Used As Raw Materials Mj Manufacturing A1 A3 : 4.363783562
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
Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj Total Life Cycle : 399.7748526
Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj Manufacturing A1 A3 : 7.924978354
Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj Distribution A4 : 8.96863E-05
Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj Installation A5 : 6.85029E-05
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 : 391.8466852
Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj End Of Life C1 C4 : 0.0030309
Use Of Renewable Primary Energy Excluding Renewable Primary Energy Resources Used As Raw Materials Mj Benefits Loads Beyond System Boundaries D : 0
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 : 4.8023E-05
Use Of Secondary Materials Kg Manufacturing A1 A3 : 4.8023E-05
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 : 9.731162401
Water Use M3 Eq Manufacturing A1 A3 : 6.784385189
Water Use M3 Eq Distribution A4 : 0.055934734
Water Use M3 Eq Installation A5 : 0.019484577
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 : 2.834098711
Water Use M3 Eq End Of Life C1 C4 : 0.037259189
Water Use M3 Eq Benefits Loads Beyond System Boundaries D : 0
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
Warranty In Months : 18

General Attributes

Product Or Component Type : logic controller
Range Of Product : Modicon M221

Output Attributes

Discrete Output Current : 0.5 A
Maximum Current Per Output Common : 3.5 A

Environment Attributes

ROHS Exemption Information : Yes
China ROHS url : https://checkaproduct.se.com/DistantRequestDispatcher.aspx?action=exportPdfRoHSChina&pid=424835861&lang=en-us
Take Back : No
Recycled Metal Content At Cr Level : 0%
China ROHS Regulation : X
Mercury Free : Yes
Carbon Footprint : 100.1699906
Circularity Profile : ENVEOLI1403012EN
Environmental Disclosure : ENVPEP1403012EN
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
Storage Altitude : 0-3000 m
Pep Code : ENVPEP1403012EN
Pep Verification Date : 11/1/2024
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 internal review

Input Attributes

Discrete Input Logic : sink or source (positive/negative)
Discrete Input Voltage Type : DC

Specifications

Country of Origin : Taiwan

Logic controller, Modicon M221, 16io tr.npn

LOGIC CONTROLLER, MODICON M221

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