Description
Designed for intrinsically safe signal acquisition in hazardous environments, the Beckhoff ELX1054 enables direct connection of up to four NAMUR field sensors located in Zone 0 or Zone 20. This compact EtherCAT terminal integrates high-density electrical isolation and comprehensive diagnostic features, allowing process automation plants to transmit field signals to the control level without additional external barriers. By combining intrinsically safe inputs and EtherCAT communication in a single 12 mm housing, it minimizes DIN rail space requirements and simplifies Ex-protection loop design.
Features
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Hazardous Area Integration: Directly connects Ex i field devices from Zones 0/20 and 1/21 to the EtherCAT network.
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Standard Compliance: Fully compliant with NAMUR specifications according to IEC 60947-5-6 for reliable sensor status monitoring.
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Integrated Diagnostics: Continuous monitoring of field circuits for cable breaks (current below 200 uA) and short circuits (current above 6.3 mA).
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Compact Form Factor: Standard 12 mm terminal housing containing four independent intrinsically safe input channels.
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High-Speed Communication: Integrates directly with the standard Beckhoff EtherCAT Bus system.
Applications
- Chemical and petrochemical processing facilities requiring Ex ia classification.
- Oil and gas storage facilities, pipelines, and custody transfer stations.
- Pharmaceutical manufacturing plants processing volatile organic compounds.
- Grain elevators, milling stations, and environments prone to explosive dust (Zone 20/21).
Technical Specifications
| Parameter |
Specification |
| Manufacturer |
Beckhoff |
| Model |
ELX1054 |
| Technology |
Digital Input (Intrinsically Safe, Ex i) |
| Specification Standard |
NAMUR (IEC 60947-5-6) |
| Number of Inputs |
4 |
| Connection Method |
2-wire |
| Open Circuit Voltage |
typ. 8.2 V DC |
| "0" Signal Current |
<= 1.2 mA |
| "1" Signal Current |
>= 2.1 mA |
| Switching Hysteresis |
typ. 200 uA |
| Short-Circuit Current |
typ. 7 mA |
| Fault Detection Limits |
I <= 200 uA (cable break), I >= 6.3 mA (short circuit) |
| Max. Switching Frequency |
typ. 5 kHz (duty factor 50%) |
| E-Bus Current Consumption |
typ. 70 mA |
| Power Contact Current Consumption |
typ. 15 mA + load |
| Supply Voltage Electronics |
24 V DC (via power contacts from ELX9560 power supply) |
| Operating Temperature |
-25 to +60 degC |
| Storage Temperature |
-40 to +85 degC |
| Relative Humidity |
95%, no condensation |
| Vibration/Shock Resistance |
Conforms to EN 60068-2-6 / EN 60068-2-27 |
| EMC Immunity/Emission |
Conforms to EN 61000-6-2 / EN 61000-6-4 |
| Material |
Polycarbonate |
| Dimensions (W x H x D) |
12 mm x 100 mm x 68 mm |
| Shipping Weight (Calculated) |
0.15 kg (Net weight: 55 g) |
| Package Dimensions (Calculated) |
150 mm x 120 mm x 40 mm |
| Ex Markings |
ATEX: II 3(1)G Ex ec [ia Ga] IIC T4 Gc, II (1)D [Ex ia Da] IIIC, I (M1) [Ex ia Ma] I
IECEx: Ex ec [ia Ga] IIC T4 Gc, [Ex ia Da] IIIC, [Ex ia Ma] I
cFMus: AIS Class I, II, III, Div 1, Groups A-G; Class I, Div 2, Groups A-D; Class I, Zone 2, AEx ec [ia Ga] IIC T4 Gc
|
Connections & Interfaces
| Terminal Connection |
Signal Assignment |
| Input 1 (Ex i) |
Terminal 1 (+), Terminal 5 (-) |
| Input 2 (Ex i) |
Terminal 2 (+), Terminal 6 (-) |
| Input 3 (Ex i) |
Terminal 3 (+), Terminal 7 (-) |
| Input 4 (Ex i) |
Terminal 4 (+), Terminal 8 (-) |
Empirical Engineering Insights
Alternative Models & Compatibility
The ELX1054 is exclusively intended for applications requiring intrinsically safe (Ex i) signal processing. For standard (non-hazardous) applications, the Beckhoff EL1054 or EL1004/EL1008 can be used instead. Note that the ELX series must be fed using the specialized ELX9560 power supply terminal to ensure compliance with the required safety barriers and intrinsic safety standards. Mixing Ex i and non-Ex i modules on the same segment without the appropriate separation barriers (such as the ELX9012 distance terminal) is strictly forbidden.
Application Pitfalls & Engineering Notes
When designing your loop, always ensure that the maximum inductance (Lo) and capacitance (Co) calculations match the Ex-certified values of your NAMUR sensors. Thermal buildup can occur when placing multiple high-density Ex i modules side-by-side. Maintain standard 50 mm clearance above and below the terminal block to allow convection cooling. Failure to supply 24 V DC through the ELX9560 power contacts will cause diagnostic faults on the TwinCAT system, reporting standard E-bus power failure or field-side undervoltage.
Commissioning & Wiring Tips
For wiring connection, use the spring-clamp terminals with standard 2-wire shielded twisted-pair cables. Strip insulation exactly 8 to 9 mm. Ensure that you do not mix the positive and negative terminals of the NAMUR loops, as this can trigger false cable break alarms (current below 200 uA). In TwinCAT 3, use the standard process data objects (PDOs) to monitor status bits for cable break and short circuit diagnostic errors per channel to enable rapid remote troubleshooting.
Installation Guidelines
CRITICAL WARNING: High-voltage danger. Always de-energize the entire control cabinet before inserting, removing, or wiring any ELX-series terminals. Verify complete isolation and measure residual voltages before touching terminal contacts. Failure to strictly follow local Ex-safety regulations and Beckhoff installation codes may cause electrical sparks, risking terminal destruction, explosion in hazardous environments, or severe personal injury.
1
Mount the ELX9560 Ex-power supply terminal onto the 35 mm DIN rail to establish safe power contacts.
2
Slide the ELX1054 terminal into position along the rail guide, engaging the side-by-side double slot and key connection securely.
3
Using a standard flat-head screwdriver, depress the spring-actuation mechanism, insert the stripped NAMUR sensor wires, and release to lock.
4
Establish the correct separation distances between the Ex i intrinsic safety wiring and standard non-intrinsically safe cabling inside the cabinet trunking.