Alimentation répétiteur 2 canaux série Eaton MTL4500 MTL 4544

Product Overview

The MTL 4544 (MTL4544) is a high-performance, 2-channel repeater power supply designed to provide fully isolated, intrinsically safe (IS) power to 2-wire or 3-wire 4-20 mA transmitters located in hazardous areas. As a dual-channel module within the MTL4500 series, it serves as a critical interface for DCS and PLC systems in industries such as oil and gas refining, chemical processing, and wastewater treatment. The MTL 4544 excels in maintaining signal integrity by providing robust galvanic isolation, which effectively eliminates ground loops and protects safe-area control equipment from field-side electrical faults. Its dual-channel density makes it an ideal choice for high-I/O count applications where cabinet space is at a premium.

Technical Configuration (Deep Dive)

The MTL 4544 is engineered for versatility and reliability in process control loops, featuring a transparent architecture that supports advanced field diagnostics.

• Dual-Channel Independence: Each channel is electrically isolated from the other, from the power supply, and from the safe-area output. This prevents a fault on one loop from impacting the other.

• HART Transparency: The module is fully transparent to HART (Highway Addressable Remote Transducer) digital communication signals. This allows maintenance teams to perform remote diagnostics, configuration, and calibration of smart transmitters directly from the control room.

• Transmitter Support: Capable of powering standard 2-wire transmitters or 3-wire current sources. It provides a stabilized 14 VDC (minimum) at 20 mA to ensure field devices have sufficient operating voltage even over long cable runs.

• High Density: The slim, 16 mm wide housing allows for significant reduction in DIN rail space, facilitating more compact control cabinet designs without sacrificing thermal performance.

Technical Specifications

Technical FAQs

Q1: Can the MTL 4544 handle 3-wire transmitters?

A1: Yes, the module is designed to support both 2-wire and 3-wire 4-20 mA transmitters. Proper terminal wiring on the hazardous-area side must be observed to accommodate the third wire for power.

Q2: Is the module compatible with smart transmitters using HART protocol?

A2: Absolutely. The MTL 4544 allows the FSK (Frequency Shift Keying) digital signal used by HART to pass through the isolator in both directions, enabling full communication between the field device and the DCS.

Q3: How does the dual-channel design affect power consumption?

A3: The unit is highly efficient, typically drawing only 60 mA to 70 mA at 24 VDC when both channels are fully loaded at 20 mA. This low heat dissipation allows for high-density mounting on the backplane.

Engineering & Installation Guide

• Backplane Integration: The MTL 4544 is designed to plug directly into MTL4500 series backplanes. Ensure the module is firmly seated and the plastic retention clips are engaged to maintain electrical contact in high-vibration environments.

• Loop Resistance Calculation: When calculating the maximum allowable cable length, include the module's internal resistance and the minimum operating voltage of the transmitter to ensure the loop remains within the 4-20 mA specification at full scale.

• Safe-Area Loading: The safe-area output is a current-sink or current-source depending on the wiring. Ensure the input impedance of the receiving DCS/PLC card does not exceed the module's maximum load specification (typically 600 Ohms).

Engineering Advantages

The MTL 4544 is a cornerstone of modern intrinsic safety due to its "plug-and-play" simplicity and long-term stability. The 3-port isolation (input/output/supply) ensures that even in the event of a catastrophic field failure, the safe-area electronics are completely shielded from high energy. Its high transfer accuracy and low temperature drift ensure that process variables are reported with high precision, which is essential for optimizing control loops and meeting strict regulatory standards in hazardous process environments.