Description |
Expandable: Inputs/outputs and bus systems individual laser inscription possible with EC4-COMBINATION-* |
Digital |
easyNet/CANopen® and Ethernet on board |
of which can be used as analog |
|
Transistor |
12 |
Analog |
4 |
Supply voltage |
|
Dimensions (W x H x D) |
8 |
Weight |
1 |
Mounting |
24 V DC |
Solid |
|
Flexible with ferrule |
107.5 x 90 x 72 without/79 with adapter for MCC (6 SU) mm |
Standard screwdriver |
0.3 kg |
Max. tightening torque |
Top-hat rail IEC/EN 60715, 35 mm or screw fixing using 3 fixing brackets ZB4-101-GF1 (accessories) |
Operating ambient temperature |
|
Condensation |
0.2/4 (AWG 22 - 12) mm2 |
LCD display (clearly legible) |
0.2/2.5 (AWG 22 - 12) mm2 |
Storage [ϑ] |
0.8 x 3.5 mm |
Relative humidity, non-condensing (IEC/EN 60068-2-30) |
0.6 Nm |
Air pressure (operation) |
|
Protection type (IEC/EN 60529, EN50178, VBG 4) |
-25 to 55, cold as per IEC 60068-2-1, heat as per IEC 60068-2-2 °C |
Vibrations (IEC/EN 60068-2-6) >Constant amplitude 0.15 mm |
Take appropriate measures to prevent condensation |
Vibrations (IEC/EN 60068-2-6) >Constant acceleration 2 g |
0 - 55 °C |
Mechanical shock resistance (IEC/EN 60068-2-27) semi-sinusoidal 15 g/11 ms |
-40 - +70 °C |
Drop to IEC/EN 60068-2-31 [Drop height] |
5 - 95 % |
Free fall, packaged (IEC/EN 60068-2-32) |
1080 - 1080 hPa |
Mounting position |
|
Overvoltage category/pollution degree |
IP20 |
Electrostatic discharge (ESD) >applied standard |
10 - 57 Hz |
Electrostatic discharge (ESD) >Air discharge |
57 - 150 Hz |
Electrostatic discharge (ESD) >Contact discharge |
18 Impacts |
Electromagnetic fields (RFI) to IEC EN 61000-4-3 |
50 mm |
Radio interference suppression |
1 m |
Burst |
Vertical or horizontal |
Burst >Supply cable |
|
Burst >Signal lines |
II/2 |
power pulses (Surge) |
IEC EN 61000-4-2, Level 3 |
Immunity to line-conducted interference to (IEC/EN 61000-4-6) |
8 kV |
Clearance in air and creepage distances |
6 kV |
Insulation resistance |
10 V/m |
Back-up of real-time clock |
EN 55011 Class B, EN 55022 Class B |
Accuracy of the real-time clock |
IEC/EN 61000-4-4, level 3 kV |
Write cycles of the retentive memory |
2 kV |
Rated operational voltage [Ue] |
2 kV |
Permissible range [Ue] |
2 kV (supply cables, symmetrical, EASY...AC) 0.5 kV (supply cables, symmetrical, easy-DC) according to IEC/EN 61000-4-5 |
Residual ripple |
10 V |
Input current |
|
Voltage dips |
EN 50178, UL 508, CSA C22.2, No. 142 |
Heat dissipation [P] |
EN 50178 |
Processor |
|
Memory >Program code/data |
|
Memory >Marker/retentive data |
① Backup time (hours) with fully charged double layer capacitor ② Service life (years) |
Cycle time for 1 k of instructions (Bit, Byte) |
part no. ± 5 (± 0.5 h⁄Year) s/day |
PRG interface RS232 >Data transfer rate |
|
PRG interface RS232 >Connection types |
10000000000 (10¹⁰) (Read-write cycles) |
PRG interface RS232 >Potential isolation |
|
PRG interface RS232 >Master mode >Data transfer rate |
24 DC (-15/+20%) V |
PRG interface RS232 >Master mode >Character formats |
20.4 - 28.8 V DC |
PRG interface RS232 >Master mode >Number of transmission bytes in a block |
≦ 5 % |
PRG interface RS232 >Master mode >Number of received bytes in a block |
normally 140 mA at Ue |
Ethernet >Data transfer rate |
≤ 10 (IEC/EN 61131-2) ms |
Ethernet >Connection types |
Normally 3.4 W |
Ethernet >Potential isolation |
|
CANopen® >Data transfer rate |
Infineon XC161 |
CANopen® >Bus termination (first and last station) |
256/14 segments of 16 KB each kByte |
CANopen® >Connection types |
16/4/4/8 KByte |
Master mode >Number |
< 0.3 ms |
Mode slave >Stations |
|
Mode slave >PDO type |
4.8, 9.6, 19.2, 38.4, 57.6, 115.2 (character format: 8 bit data, no parity, 1 stop bit) kBit/s |
Mode slave >Control contact rated current |
RJ45-bus |
Number |
none |
Inputs can be used as analog inputs |
0.3, 0.6, 1.2, 2.4, 4.8, 9.6, 19.2, 38.4, 57.6 kbit/s |
Status Display |
8E1, 8O1, 8N1, 8N2, 7E2, 7O2, 7N2, 7E1 |
Potential isolation |
190 bytes |
Rated operational voltage [Ue] |
190 bytes |
Input voltage |
10 MBit/s, 100 m Mbit/s |
Input current on 1 signal >Input current at signal 1 |
RJ45 |
Deceleration time |
No |
Cable length |
500 kBit/s, 25 m
250 kBit/s, 60m
125 kBit/s, 125 m
50 kBit/s, 300 m
20 kBit/s, 700 m
10 kBit/s, 1000 m |
Incremental counter >Number of counter inputs |
EASY-NT-R plug (incl. bus terminating resistor 120 Ω) |
Incremental counter >Value range |
2 x RJ45, 8 pole |
Incremental counter >Counter frequency |
8 |
Incremental counter >Pulse shape |
max. 126 Number |
Incremental counter >Counter inputs |
Asynchronous, cyclic, acyclic |
Incremental counter >Reference input |
To DS 301 V4 |
Incremental counter >Input for reference switch |
|
Incremental counter >Counter inputs I1 and I2, I3 and I4 |
12 |
Incremental counter >Signal offset |
4 (I7, I8, I11, I12) |
Rapid counter inputs >Number |
LCD-Display |
Rapid counter inputs >Value range |
from the outputs: yes to network easyNet, easyLink |
Rapid counter inputs >Cable length |
24 V DC |
Rapid counter inputs >Counter frequency |
< 5 (I1 - I6, I9 - I10) < 8 (I7, I8, I11, I12) at signal "0" > 15.0 (I1 - I6, I9, I10) > 8.0 (I7, I8, I11, I12) at signal "1" V DC |
Rapid counter inputs >Pulse shape |
3.3 (I1 to I6) 2.2 (I7, I8) 3.3 (I9, I10) 2.2 (I11, I12) mA |
Number |
normally 0.02 (I1 - I4), normally 0.25 (I5 - I12) (from ´´0´´ to "1") normally 0.02 (I1 - I4), normally 0.25 (I5 - I12) (from ´´0´´ to "1") ms |
Potential isolation |
100 (unshielded) m |
Input type |
1 (I1, I2, I3, I4) |
Signal range |
32 Bit |
Resolution |
≦ 40 kHz |
Input impedance |
Square |
Accuracy of actual value >Within a single device |
I1, I2 |
Conversion time, analog/digital |
I3 |
Input current |
I4 |
Cable length |
1 |
Number |
90° |
Output type |
2 (I1, I2) at 16 Bit or 1 (I1) at 32 Bit |
Max. output current |
16/32 Bit |
Load resistance |
≦ 20 (screened) m |
Overload and short-circuit protection |
≦ 50 kHz |
Resolution |
Square |
Recovery time |
|
Accuracy >-25 °C - 55 °C |
4 (I7, I8, I11, I12) |
Accuracy >25°C |
from the outputs: yes to interface/memory card: no |
Conversion time, analog/digital |
DC voltage |
Number |
0-10 V DC |
Rated operational voltage [Ue] |
0.01 V analog 0.01 V digital 10 Bit (value 0 - 1023) |
Permissible range [Ue] |
11.2 kΩ |
Residual ripple |
± 2, (I7, I8, I11, I12) ± 0.12 V % |
Supply current |
each CPU cycle ms |
Protection against polarity reversal |
< 1 mA |
Potential isolation |
≦ 30, screened m |
Rated operational current at signal „1” DC per channel [Ie] |
|
Lamp load without Rv per channel |
1 |
Residual current on 0 signal per channel |
DC voltage |
Max. output voltage |
0.01 A |
Short-circuit protection |
1 kΩ |
Short-circuit tripping current for Ra ≦ 10 mΩ |
Yes |
Total short-circuit current |
0.01 V DC analog 10 Bit (value 0 - 1023) digital |
Peak short-circuit current |
100 µs |
Thermal cutout |
2 % |
Max. operating frequency with constant resistive load |
1 % |
Parallel connection of outputs >With resistive load, inductive load with external suppressor circuit, combination within a group |
each CPU cycle ms |
Parallel connection of outputs >Number of outputs [max.] |
|
Parallel connection of outputs >Max. total current |
8 |
Output status indication |
24 V DC |
Inductive load to EN 60947-5-1 >Without external suppressor circuit >T0.95 = 1 ms, R = 48 Ω, L = 16 mH >Utilization factor |
20.4 - 28.8 V DC |
Inductive load to EN 60947-5-1 >Without external suppressor circuit >T0.95 = 1 ms, R = 48 Ω, L = 16 mH >Duty factor |
5 % |
Inductive load to EN 60947-5-1 >Without external suppressor circuit >T0.95 = 1 ms, R = 48 Ω, L = 16 mH >Max. switching frequency f = 0.5 Hz (max. DF = 50 %) |
Norm./max. 18/32 at signal 0 24/44 at signal 1 mA |
Inductive load to EN 60947-5-1 >Without external suppressor circuit >DC-13, T0.95 = 72 ms, R = 48 Ω, L = 1.15 H
>Utilization factor |
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.) |
Inductive load to EN 60947-5-1 >Without external suppressor circuit >DC-13, T0.95 = 72 ms, R = 48 Ω, L = 1.15 H
>Duty factor |
from power supply, inputs to the memory card: yes From the inputs: yes |
Inductive load to EN 60947-5-1 >Without external suppressor circuit >DC-13, T0.95 = 72 ms, R = 48 Ω, L = 1.15 H
>Max. switching frequency f = 0.5 Hz (max. DF = 50 %) |
Max. 0.5 A |
Inductive load to EN 60947-5-1 >Without external suppressor circuit >T0.95 = 15 ms, R = 48 Ω, L = 0.24 H
>Utilization factor |
5 W |
Inductive load to EN 60947-5-1 >Without external suppressor circuit >T0.95 = 15 ms, R = 48 Ω, L = 0.24 H
>Duty factor |
< 0.1 mA |
Inductive load to EN 60947-5-1 >Without external suppressor circuit >T0.95 = 15 ms, R = 48 Ω, L = 0.24 H
>Max. switching frequency f = 0.5 Hz (max. DF = 50 %) |
2.5 (signal 0 at external load < 10 MΩ) U = Ue - 1 V (signal 1 at Ie = 0.5 A) V |
Inductive load to EN 60947-5-1 >With external suppressor circuit >Utilization factor |
Yes, electronic (Q1 - Q4), thermal (Q5 - Q8), (analysis via diagnostics input I16, I15) |
Inductive load to EN 60947-5-1 >With external suppressor circuit >Duty factor |
0.7 ≦ Ie ≦ 2 per output A |
Inductive load to EN 60947-5-1 >With external suppressor circuit >Max. switching frequency, max. duty factor |
16 A |
Protection against polarity reversal |
32 A |
Potential isolation |
Yes |
Bus termination (first and last station) |
40000 Operations/h |
Rated operational current for specified heat dissipation [In] |
Group 1: Q1 - Q4 Group 2: Q5 - Q8 |
Heat dissipation per pole, current-dependent [Pvid] |
4 |
Equipment heat dissipation, current-dependent [Pvid] |
2 (Caution! Outputs must be actuated simultaneously and for the same length of time.) A |
Static heat dissipation, non-current-dependent [Pvs] |
LCD-display |
Heat dissipation capacity [Pdiss] |
0.25 g |
Operating ambient temperature min. |
100 % DF |
Operating ambient temperature max. |
1500 Operations |
10.2 Strength of materials and parts >10.2.2 Corrosion resistance |
0.25 g |
10.2 Strength of materials and parts >10.2.3.1 Verification of thermal stability of enclosures |
100 % DF |
10.2 Strength of materials and parts >10.2.3.2 Verification of resistance of insulating materials to normal heat |
1500 Operations |
10.2 Strength of materials and parts >10.2.3.3 Verification of resistance of insulating materials to abnormal heat and fire due to internal electric effects |
0.25 g |
10.2 Strength of materials and parts >10.2.4 Resistance to ultra-violet (UV) radiation |
100 % DF |
10.2 Strength of materials and parts >10.2.5 Lifting |
1500 Operations |
10.2 Strength of materials and parts >10.2.6 Mechanical impact |
1 g |
10.2 Strength of materials and parts >10.2.7 Inscriptions |
100 % DF |
10.3 Degree of protection of ASSEMBLIES |
Depending on the suppressor circuit Operations |
10.4 Clearances and creepage distances |
|
10.5 Protection against electric shock |
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.) |
10.6 Incorporation of switching devices and components |
Yes |
10.7 Internal electrical circuits and connections |
|
10.8 Connections for external conductors |
EASY-NT-R plug (incl. bus terminating resistor 120 Ω) |
10.9 Insulation properties >10.9.2 Power-frequency electric strength |
|
10.9 Insulation properties >10.9.3 Impulse withstand voltage |
0 A |
10.9 Insulation properties >10.9.4 Testing of enclosures made of insulating material |
0 W |
10.10 Temperature rise |
0 W |
10.11 Short-circuit rating |
3.4 W |
10.12 Electromagnetic compatibility |
0 W |
10.13 Mechanical function |
-25 °C |
Contains function building blocks |
+55 °C |
Contains basic device |
|
Contains module rack |
Meets the product standard´s requirements. |
Contains power supply |
Meets the product standard´s requirements. |
Contains analogue input module |
Meets the product standard´s requirements. |
Contains analogue output module |
Meets the product standard´s requirements. |
Contains digital input module |
Meets the product standard´s requirements. |
Contains digital output module |
Does not apply, since the entire switchgear needs to be evaluated. |
Contains function module |
Does not apply, since the entire switchgear needs to be evaluated. |
Contains technology module |
Meets the product standard´s requirements. |
Contains communication module |
Meets the product standard´s requirements. |
Contains memory unit |
Meets the product standard´s requirements. |
Contains simulation module |
Does not apply, since the entire switchgear needs to be evaluated. |
Contains connection cable |
Does not apply, since the entire switchgear needs to be evaluated. |
Contains control unit |
Is the panel builder´s responsibility. |
Contains monitor |
Is the panel builder´s responsibility. |
Contains programming software |
Is the panel builder´s responsibility. |
Contains engineering software |
Is the panel builder´s responsibility. |
Contains visualization |
Is the panel builder´s responsibility. |
Contains libraries |
The panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices. |
Contains documentation |
Is the panel builder´s responsibility. |
Contains other components |
Is the panel builder´s responsibility. |
Software preinstalled |
The device meets the requirements, provided the information in the instruction leaflet (IL) is observed. |
Product Standards |
|
UL File No. |
|
UL Category Control No. |
Yes |
CSA File No. |
Yes |
CSA Class No. |
No |
North America Certification |
Yes |
Specially designed for North America |
Yes |
Current Limiting Circuit-Breaker |
Yes |
Degree of Protection |
Yes |