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Eaton EC4P Compact PLC, 24 V DC, 12DI(of 4AI), 8DO(T), ethernet, CAN
| Product Name |
Eaton EC4P Compact PLC
|
| Catalog Number |
106400
|
| Model Code |
EC4P-222-MTXX1
|
| EAN |
4015081061709
|
| Product Length/Depth |
72 mm
|
| Product Height |
90 mm
|
| Product Width |
107.5 mm
|
| Product Weight |
0.292 kg
|
| Certifications |
CSA-C22.2 No. 0-M
CSA File No.: 012528 UL CSA Class No.: 2252-01 UL File No.: E135462 CE CSA-C22.2 No. 142-M IEC/EN 61000-4-2, Level 3 UL Category Control No.: NRAQ UL508 CSA |
| Catalog Notes |
Expandable: Inputs/outputs and bus systems
|
| Features |
Parallel connection of transistor outputs with resistive load, inductive load with external suppressor circuit, combination within a group - Group 2: Q5 - Q8
Asynchronous, cyclic, acyclic PDO types (operating modes of the slave) 190 received bytes in a block (PRG interface RS232, Master mode) Parallel connection of transistor outputs with resistive load, inductive load with external suppressor circuit, combination within a group - Group 1: Q1 - Q4 |
| Fitted with: |
easyNet/CANopen® on board
Engineering software Basic device Communication module Memory unit Other components Ethernet on board Analog input module Digital output module Documentation Power supply Digital input module Function module Libraries |
| Functions |
Building blocks
Thermal cutout |
| Inscription |
Individual inscription possible with EC4-COMBINATION-*
|
| Processor |
Infineon XC161
|
| Cable length |
30 m, screened, Analog inputs
100 m, unshielded, Digital inputs 24 V DC |
| Current consumption |
2 A, max. total current of Transistor outputs (Caution! Outputs must be actuated simultaneously and for the same length of time.)
|
| Degree of protection |
IP20
|
| Display temperature - min |
0 °C
|
| Display temperature - max |
55 °C
|
| Mounting method |
Top-hat rail fixing (according to IEC/EN 60715, 35 mm)
Screw fixing using fixing brackets ZB4-101-GF1 (accessories) |
| Overvoltage category |
II
|
| Pollution degree |
2
|
| Rated operational voltage |
20.4 - 28.8 V DC
24 V DC (-15 %/+ 20 % - power supply) 20.4 - 28.8 V DC (Transistor outputs) |
| Residual current |
0.1 mA (on signal "1" per channel)
|
| Resolution |
|
| Short-circuit protection |
Yes, electronic (Q1 - Q4), thermal (Q5 - Q8), (analysis via diagnostics input I16, I15), Transistor outputs
|
| Constant acceleration |
2 g, 57 - 150 Hz, according to IEC/EN 60068-2-6, Vibrations
|
| Constant amplitude |
0,15 mm, 10 - 57 Hz, according to IEC/EN 60068-2-6, Vibrations
|
| Drop and topple |
50 mm Drop height, Drop to IEC/EN 60068-2-31
|
| Height of fall (IEC/EN 60068-2-32) - max |
1 m
|
| Mounting position |
Horizontal
Vertical |
| Shock resistance |
15 g, Mechanical, according to IEC/EN 60068-2-27, Half-sinusoidal shock 11 ms, 18 Impacts
|
| Air pressure |
1080 hPa (operation)
|
| Ambient operating temperature - min |
-25 °C
|
| Ambient operating temperature - max |
55 °C
|
| Ambient storage temperature - min |
-40 °C
|
| Ambient storage temperature - max |
70 °C
|
| Environmental conditions |
Condensation: prevent with appropriate measures
Clearance in air and creepage distances according to EN 50178, UL 508, CSA C22.2, No. 142 |
| Relative humidity |
5 - 95 % (non-condensing)
|
| Air discharge |
8 kV
|
| Burst impulse |
According to IEC/EN 61000-4-4, level 3
2 kV, Supply cable 2 kV, Signal cable |
| Contact discharge |
6 kV, Electrostatic discharge (ESD)
|
| Electromagnetic fields |
10 V/m (according to IEC EN 61000-4-3)
|
| Immunity to line-conducted interference |
10 V (according to IEC/EN 61000-4-6)
|
| Radio interference class |
Class B (EN 55022)
Class B (EN 55011) |
| Surge rating |
2 kV, Supply cables, symmetrical, EASY...AC, power pulses (Surge), EMC
According to IEC/EN 61000-4-5, power pulses (Surge), EMC 0.5 kV, Supply cables, symmetrical, EASY…DC, power pulses (Surge), EMC |
| Terminal capacity (flexible with ferrule) |
0.2/2.5 mm²
|
| Terminal capacity (flexible with ferrule AWG) |
22 - 12
|
| Terminal capacity (solid) |
0.2/4 mm²
|
| Terminal capacity (solid AWG) |
22 - 12
|
| Screwdriver size |
3.5 x 0.8 mm, Terminal screw
|
| Tightening torque |
0.6 Nm
|
| Heat dissipation |
3.4 W
|
| Input voltage |
Signal 0: < 8 V DC (I7 - I8, I11 - I12, Digital inputs, 24 V DC)
Signal 1: > 15 V DC (I1 - I6, I9 - I10, Digital inputs, 24 V DC) Signal 1: > 8 V DC (I7 - I8, I11 - I12, Digital inputs, 24 V DC) Signal 0: < 5 V DC (I1 - I6, I9 - I10, Digital inputs, 24 V DC) |
| Output voltage |
U = Uₑ - 1 V (signal 1 at Iₑ = 0.5 A, transistor outputs)
Max. 2.5 V (at signal 0 at external load < 10 MΩ, transistor outputs) |
| Residual ripple |
5 % (transistor outputs)
≤ 5 % |
| Supply current |
24/44 mA, Normally⁄max., On 1 signal, Transistor outputs
18/32 mA, Normally⁄max., On 0 signal, Transistor outputs |
| Supply voltage at DC - max |
24 VDC
|
| Voltage dips |
According to EN 61131-2
≤ 10 ms |
| Bus termination |
EASY-NT-R plug (incl. bus terminating resistor 120 Ω),first and last station, CANopen®
|
| Character formats |
8E1, 8O1, 8N1, 8N2, 7E2, 7O2, 7N2, 7E1, PRG interface RS232, Master mode
|
| Connection type |
RJ45, Ethernet
2 x RJ45, 8 pole, CANopen® RJ45, PRG Interface RS232 |
| Cycle time |
< 0.3 ms, for 1 k of instructions (Bit, Byte), CPU
|
| Data transfer rate |
10 MBit/s, 100 m, Ethernet
250 kBit/s at 60 m, CANopen® 20 kBit/s at 700 m, CANopen® 19.2 kBit/s, PRG interface RS232, Master mode 0.3 kBit/s, PRG interface RS232, Master mode 50 kBit/s at 300 m, CANopen® 0.6 kBit/s, PRG interface RS232, Master mode 2.4 kBit/s, PRG interface RS232, Master mode 500 kBit/s at 25 m, CANopen® 125 kBit/s at 125 m, CANopen® 10 kBit/s at 1000 m , CANopen® 9.6 kBit/s, PRG interface RS232, Master mode 38.4 kBit/s, PRG interface RS232, Master mode 1.2 kBit/s, PRG interface RS232, Master mode 4.8 kBit/s, PRG interface RS232, Master mode 57.6 kBit/s, PRG interface RS232, Master mode |
| Memory |
4 kByte Input Memory
4 kByte Output Memory 8 kByte Retain Memory 14 segments of 16 kByte Program memory data 256 kByte Program memory code 16 kByte Marker Memory |
| Number of bytes |
190 transmission bytes (in a block)
|
| Number of modules |
Max. 126 (slaves)
|
| Station |
To DS 301 V4, Control contact rated current, Mode slave, Interfaces
|
| Write cycles of the retentive memory |
10,000,000,000 read-write cycles
|
| Accuracy |
± 3 %, of actual value, two devices (Analog Inputs)
± 2, (I7, I8, I11, I12) ± 0.12 V, of actual value, within a single device (Analog Inputs) ± 5 s/day (± 0.5 h⁄year), Real-time clock, normally |
| Conversions |
Each CPU cycle, Analog inputs
|
| Delay time |
0.25 ms typ., Digital inputs 24 DC (I5 - I12), Delay time from 0 to 1
0.02 ms typ., Digital inputs 24 DC (I1 - I4), Delay time from 0 to 1 |
| Duty factor |
100 % (Inductive load to EN 60947-5-1, Without external suppressor circuit, T0.95 = 15 ms, R = 48 Ω, L = 0.24 H)
100 % (Inductive load to EN 60947-5-1, Without external suppressor circuit, T0.95 = 1 ms, R = 48 Ω, L = 16 mH) 100 % (Inductive load to EN 60947-5-1, Without external suppressor circuit, DC-13, T0.95 = 72 ms, R = 48 Ω, L = 1.15 H) 100 % (Inductive load to EN 60947-5-1, With external suppressor circuit) |
| Incremental counter |
Counter frequency: ≤ 40 kHz
Counter inputs: I1, I2 Signal offset: 90° Pulse shape: Square Number of counter inputs: 1 (I1, I2, I3, I4) Input for reference switch: I4 Reference input: I3 Value range: 32 Bit |
| Indication |
LCD-display used as status indication of Digital inputs 24 V DC
LCD-display used as Output status indication of Transistor outputs |
| Input |
Voltage (DC)
|
| Input current |
2.2 mA (I7 - I8, at 24 V DC, at signal 1)
140 mA 3.3 mA (I1 - I6, at 24 V DC, at signal 1) 2.2 mA (I11 - I12, at 24 V DC, at signal 1) 1 mA (Analog inputs) 3.3 mA (I9 - I10, at 24 V DC, at signal 1) |
| Input impedance |
11.2 kΩ
|
| Insulation resistance |
According to EN 50178
|
| Lamp load |
5 W (without Rv per channel)
|
| Number of inputs (analog) |
4 (I7, I8, I11, I12)
|
| Number of inputs (digital) |
4 (can also be used as analog inputs)
12 (24 V DC) 4 (I7, I8, I11, I12, can also be used as analog inputs) 12 |
| Number of outputs |
Max. 4 (for parallel connection)
8 Transistor Outputs |
| Operating frequency |
Depending on the suppressor circuit (Inductive load to EN 60947-5-1, With external suppressor circuit, Max. switching frequency, max. duty factor)
40000 Operations/h at resistive load |
| Peak short-circuit current |
32 A
|
| Rapid counter inputs |
2 (I1, I2) at 16 Bit or 1 (I1) at 32 Bit
≤ 20 m (cable length, screened) 16/32 Bit (value range) 50 kHz, Counter frequency Square (pulse shape) |
| Rated operational current (Ie) |
Max. 0.5 A at signal „1” DC per channel
|
| Rated operational voltage (Ue) at DC - max |
24 V
|
| Short-circuit current |
16 A, Transistor outputs
|
| Short-circuit tripping current |
0.7 ≤ Ie ≤ 2 per output, For Ra ≤ 10 mΩ, Transistor outputs
|
| Signal range |
0 - 10 V DC, Analog inputs
|
| Switching frequency |
Max. 1500 Operations (Inductive load to EN 60947-5-1, without external suppressor circuit, DC-13, T0.95 = 72 ms, R = 48 Ω, L = 1.15 H, f = 0.5 Hz (max. DF = 50 %))
Max. 1500 Operations (Inductive load to EN 60947-5-1, without external suppressor circuit, T0.95 = 15 ms, R = 48 Ω, L = 0.24 H, f = 0.5 Hz (max. DF = 50 %)) Max. 1500 Operations (Inductive load to EN 60947-5-1, without external suppressor circuit, T0.95 = 1 ms, R = 48 Ω, L = 16 mH, f = 0.5 Hz (max. DF = 50 %)) |
| Utilization factor |
0.25 (Inductive load to EN 60947-5-1, Without external suppressor circuit, T0.95 = 1 ms, R = 48 Ω, L = 16 mH)
0.25 (Inductive load to EN 60947-5-1, Without external suppressor circuit, DC-13, T0.95 = 72 ms, R = 48 Ω, L = 1.15 H) 0.25 (Inductive load to EN 60947-5-1, Without external suppressor circuit, T0.95 = 15 ms, R = 48 Ω, L = 0.24 H) 1 (Inductive load to EN 60947-5-1, With external suppressor circuit) |
| Potential isolation |
Between Digital inputs 24 V DC and Outputs: yes
Supply voltage UAUX: yes Between Transistor outputs and Inputs: yes Between Transistor outputs and Power supply: yes Between Transistor outputs and Memory card: yes Between Digital inputs 24 V DC and network easyNet, easyLink Between Analog inputs and Outputs: yes Between Analog inputs and Interface/memory card: no |
| Protection against polarity reversal |
Yes (Caution: A short circuit will result if 0 V or earth is applied to the outputs in the event that the supply voltage is connected to the wrong poles.)
|
| Equipment heat dissipation, current-dependent Pvid |
0 W
|
| Heat dissipation capacity Pdiss |
0 W
|
| Heat dissipation per pole, current-dependent Pvid |
0 W
|
| Rated operational current for specified heat dissipation (In) |
0 A
|
| Static heat dissipation, non-current-dependent Pvs |
3.4 W
|
| 10.2.2 Corrosion resistance |
Meets the product standard's requirements.
|
| 10.2.3.1 Verification of thermal stability of enclosures |
Meets the product standard's requirements.
|
| 10.2.3.2 Verification of resistance of insulating materials to normal heat |
Meets the product standard's requirements.
|
| 10.2.3.3 Resist. of insul. mat. to abnormal heat/fire by internal elect. effects |
Meets the product standard's requirements.
|
| 10.2.4 Resistance to ultra-violet (UV) radiation |
Meets the product standard's requirements.
|
| 10.2.5 Lifting |
Does not apply, since the entire switchgear needs to be evaluated.
|
| 10.2.6 Mechanical impact |
Does not apply, since the entire switchgear needs to be evaluated.
|
| 10.2.7 Inscriptions |
Meets the product standard's requirements.
|
| 10.3 Degree of protection of assemblies |
Meets the product standard's requirements.
|
| 10.4 Clearances and creepage distances |
Meets the product standard's requirements.
|
| 10.5 Protection against electric shock |
Does not apply, since the entire switchgear needs to be evaluated.
|
| 10.6 Incorporation of switching devices and components |
Does not apply, since the entire switchgear needs to be evaluated.
|
| 10.7 Internal electrical circuits and connections |
Is the panel builder's responsibility.
|
| 10.8 Connections for external conductors |
Is the panel builder's responsibility.
|
| 10.9.2 Power-frequency electric strength |
Is the panel builder's responsibility.
|
| 10.9.3 Impulse withstand voltage |
Is the panel builder's responsibility.
|
| 10.9.4 Testing of enclosures made of insulating material |
Is the panel builder's responsibility.
|
| 10.10 Temperature rise |
The panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices.
|
| 10.11 Short-circuit rating |
Is the panel builder's responsibility.
|
| 10.12 Electromagnetic compatibility |
Is the panel builder's responsibility.
|
| 10.13 Mechanical function |
The device meets the requirements, provided the information in the instruction leaflet (IL) is observed.
|
Product specifications
