EL3111 | BECKHOFF | Bornier EtherCAT entrée analogique 1 canal

Product Overview

The EL3111 (EL3111) stands as a high-precision EtherCAT terminal engineered for demanding industrial data acquisition tasks. As a 1-channel analog input module, it processes differential signals in the 0 to 20 mA range with a superior 16-bit resolution. In modern manufacturing environments—such as semiconductor fabrication, automotive assembly lines, and precision chemical processing—the EL3111 plays a critical role in digitizing field sensor data with minimal latency. Its integration of Distributed Clocks (DC) technology ensures synchronized sampling across complex EtherCAT networks with precision of less than 1 microsecond, effectively eliminating jitter and reducing system downtime by providing highly accurate feedback loops for closed-loop control systems.

Technical Configuration

The EL3111 utilizes a differential input architecture, which is inherently superior at rejecting common-mode noise in electrically "noisy" industrial environments. The module features a sophisticated internal processing engine that allows for the activation of FIR (Finite Impulse Response) or IIR (Infinite Impulse Response) filters, enabling engineers to tailor the signal processing to specific application needs—whether prioritizing speed or noise suppression. With a conversion time of approximately 40 microseconds and a 5 kHz limit frequency, this terminal is optimized for fast-acting control processes. The hardware is housed in a compact 12 mm polycarbonate shell, designed for high-density DIN rail mounting, and utilizes the E-bus for both power supply and high-speed communication.

Technical Specifications

Technical FAQs

How does the differential input on the EL3111 benefit long-distance wiring?

Differential signaling measures the voltage difference between two wires rather than the difference between one wire and ground. This effectively cancels out electromagnetic interference (EMI) that affects both wires equally, ensuring signal integrity even when the analog sensors are located far from the PLC cabinet.

Can the EL3111 detect a wire break in the 0 to 20 mA loop?

Since the EL3111 operates on a 0 to 20 mA range, it does not naturally support "live zero" detection like 4 to 20 mA modules. However, users can monitor the process image for specific limit values or sudden drops to zero to implement diagnostic logic within the TwinCAT environment.

What is the difference between the FIR and IIR filters in this module?

The FIR filter is a non-recursive filter that provides a linear phase response and is generally more stable but requires more processing power. The IIR filter is a recursive filter that mimics analog filters; it is faster and more efficient for steep roll-offs but may introduce phase shift. Both can be toggled via the CoE (CanOverEtherCAT) settings.

Engineering & Installation Guide

• Shielding and Grounding: For high-precision 16-bit measurements, ensure the signal cable shield is connected to the functional earth (FE) via the terminal's mounting rail. Use low-impedance grounding straps for the DIN rail to minimize high-frequency noise interference.

• Thermal Management: When mounting multiple EL3111 terminals side-by-side, ensure the ambient temperature does not exceed 60 deg C. If the cabinet lacks active cooling, maintain a minimum 30 mm clearance above and below the terminal block to allow for natural convection.

• Wiring Precision: Use ferrules for flexible conductors to ensure a gas-tight connection in the spring-loaded terminals. The stripping length must be 8 to 9 mm; exposed copper outside the terminal or insufficient insertion can lead to measurement fluctuations or signal loss due to vibration.