1 z 1

Honeywell MU-TAMR03 51309218-125 Low Level Analog Input Multiplexer RTD FTA

Honeywell MU-TAMR03 51309218-125 Low Level Analog Input Multiplexer RTD FTA

Only 8 item(s) left in stock
  • Manufacturer: Honeywell

  • Product No.: MU-TAMR03

  • Country of origin:Stany Zjednoczone

  • Product Type: PLC Analog Input Modules

  • Payment: T/T, Western Union

  • Weight: 5000g

  • Dimensions: 31.0 x 14.5 x 8.0 cm (12.2 x 5.7 x 3.1 in)

  • Shipping port: Xiamen

  • Warranty: 12 months

Ilość
Pokaż kompletne dane

Description

Designed for seamless integration within legacy TDC 3000 and Experion safety or control architectures, this Honeywell MU-TAMR03 serves as a specialized Low Level Analog Multiplexer (LLMux) Field Termination Assembly (FTA) dedicated to RTD temperature sensor interfaces. Operating as a critical link between field-level RTDs and the Low Level Analog Input Multiplexer (LLMux) Input/Output Processor (IOP), this module enables high-density, millivolt-level temperature data acquisition. The assembly features robust compression terminals for point-to-point field wiring and is specifically engineered for non-redundant configurations in controlled control room environments.

Features

  • High-Density Interface: Supports up to 16 independent low-level analog input channels for RTD measurement.
  • Compression Terminal Blocks: Features secure, direct compression connections to accommodate standard field wiring without soldering or specialized lugs.
  • Single IOP Architecture: Configured for non-redundant, single-channel interface systems, maximizing slot efficiency in standard loops.
  • TDC 3000 Compatibility: Engineered to connect via standard Honeywell proprietary cabling directly to the LLMux IOP card.

Applications

  • Power Generation: High-density temperature monitoring of bearing housing, stator windings, and exhaust gases.
  • Refining and Petrochemicals: Multi-point RTD tracking on distillation columns and heat exchangers.
  • Pulp and Paper: Multi-channel continuous thermal profiling in harsh drying sections.

Ordering Information

Model Number Part Number Terminal Type Conformal Coating
MU-TAMR03 51309218-125 Compression No (Uncoated)
MC-TAMR03 51309218-175 Compression Yes (Conformally Coated)
MU-TAMR13 51309218-225 Screw Terminal No (Uncoated)

Technical Specifications

Manufacturer Honeywell
Model Reference MU-TAMR03
Part Number 51309218-125
Module Type Low Level Analog Input Multiplexer RTD FTA
Number of Channels 16 Channels
Terminal Type Compression Terminals
Redundancy Support Not Supported (Single IOP Only)
Conformal Coating No
CE Compliance No
Operating Temperature 0 to 60 degC
Country of Origin USA
Shipping Weight (Calculated) 2.5 kg / 5.5 lbs
Package Dimensions (Calculated) 31.0 x 14.5 x 8.0 cm (12.2 x 5.7 x 3.1 in)

Connections and Interfaces

The MU-TAMR03 routes 3-wire RTD connections from the field directly to the LLMux multiplexing circuitry. Each of the 16 channels requires three dedicated termination points to ensure accurate lead-wire resistance compensation.

Terminal Node Name Signal Assignment Description
A RTD Source (+) Current excitation source line to the RTD sensor element.
B RTD Sense (-) Voltage sensing return path for lead-wire resistance calculation.
C RTD Return / Shield Common reference return and instrumentation shield grounding point.

Empirical Engineering Insights

Alternative Models & Compatibility

The 51309218-125 (MU-TAMR03) belongs to the non-conformally coated class of TDC 3000 assemblies. For harsh or corrosive petrochemical installations, engineers must specify the MC-TAMR03 (51309218-175), which incorporates a protective conformal coating layer. Additionally, if your facility standardizes on screw-type termination barriers rather than compression clamps, the MU-TAMR13 variant should be deployed instead.

Application Pitfalls & Engineering Notes

Because this FTA is a non-redundant system, the loss of this module or its direct serial cable interface will cause the immediate drop of all 16 analog monitoring loops. Crucially, as an uncoated board, placing the MU-TAMR03 in an environment subject to condensing humidity or corrosive gases (such as hydrogen sulfide) will lead to early degradation of the analog multiplexing chips, resulting in erratic, drifting, or open-circuit RTD error statuses.

Commissioning & Wiring Tips

To maintain maximum accuracy, ensure all three wires of the RTD circuit have the identical physical resistance. Discrepancies in wire length or contact oxidation at the compression terminals will degrade the lead resistance compensation calculation inside the LLMux IOP. During commissioning, run high-quality shielded twisted-pair cables, and ensure the shield drain wire is terminated only at the designated FTA shield ground terminal to mitigate ground loop noise.

Installation Guidelines

CRITICAL WARNING

Before installing or servicing the FTA, verify that all system power sources associated with the IOP rack and field instrumentation are fully de-energized. Failure to isolate power paths can lead to short circuits, permanent damage to the multi-channel multiplexing circuitry, or false control loops in active processes.

1

Mount the FTA card securely to the cabinet DIN rail or standard mounting plate inside a dust-free, environmentally controlled enclosure.

2

Connect the dedicated LLMux serial interface cable from the FTA card socket to the corresponding channel connector on the non-redundant IOP card.

3

Strip field RTD cables back 6mm and insert individual conductors into the compression block terminals. Hand-tighten the retention screws firmly, ensuring no bare copper wire is exposed.

Can this unit be configured with redundant IOP interfaces?

No. The design of this specific model does not support dual-path redundancy. It is intended strictly for single, non-redundant LLMux IOP configurations.

What is the structural difference between MU-TAMR03 and MC-TAMR03?

The MU-TAMR03 (51309218-125) is non-conformally coated, whereas the MC-TAMR03 (51309218-175) is conformally coated, making the MC variant more suitable for corrosive or highly humid industrial environments.

What type of connection terminals are provided on this assembly?

This module features compression terminals. These terminals allow direct, screw-down wire clamping without the need for pre-crimped spade lugs or ring terminals.

What types of temperature sensors are compatible with this module?

It is optimized for low-level millivolt RTD inputs, primarily supporting 3-wire RTD configurations such as Pt100, Cu10, and Ni120 depending on system software configuration.

Globalna ekspresowa wysyłka

  • Standardowa dostawa: 4-6 dni roboczych za pośrednictwem DHL, FedEx i UPS.
  • Ekspresowa wysyłka: Wysyłka tego samego dnia dla zamówień dostępnych w magazynie złożonych przed godziną 14:00 (GMT+8).
  • Globalne pokrycie: Obsługujemy ponad 150 krajów, w tym szybką dostawę do Arabii Saudyjskiej i ZEA.

Zwroty i gwarancja

  • 30-dniowa gwarancja: Zwroty przyjmowane są dla produktów dostępnych w magazynie, w oryginalnym, fabrycznie zapieczętowanym opakowaniu.
  • 12-miesięczna gwarancja: Każdy komponent przemysłowy objęty jest naszą profesjonalną gwarancją techniczną.

Zamówienia są przetwarzane i dostarczane od poniedziałku do piątku (z wyłączeniem dni świątecznych).


Aby poznać pełne warunki kwalifikowalności, opłaty za przyjęcie towaru z powrotem oraz szczegóły dotyczące zwrotów międzynarodowych, prosimy zapoznać się z naszym oficjalnym Polityka zwrotów i zwrotu pieniędzy .

TECHNICAL SPECIFICATIONS

Country of origin
Stany Zjednoczone

Ostatnio oglądane produkty

Wiedza techniczna

Electric Actuators Designed to Replace Fluid Power Systems: A Practical Industrial Automation Guide

This article explains how integrated electric actuators, such as SMC’s e-Actuator series, are transforming industrial motion control by replacing traditional pneumatic and hydraulic systems. It...

Math Operations Using OpenPLC for Industrial Automation Applications

This article explains how PLC systems perform core mathematical operations such as addition, subtraction, multiplication, division, modulo, and exponentiation within industrial automation. It shows...

Advanced Boolean Logic with FBD PLC Programming: Practical Industrial Applications Beyond Basic Logic

The article explains several advanced Boolean logic functions used in PLC programming beyond basic AND, OR, and NOT operations. It covers how tools like truth tables, multiplexers, pulse generators,...

Boolean Logic in PLC Programming: Understanding FBD Logic Gates

Boolean logic is the foundation of every PLC program. From simple machine controls to complex industrial automation systems, logic gates determine how controllers respond to changing inputs and...

Deep-Dive Guide to Industrial Firewalls and OT Network Segmentation

Industrial firewalls play a critical role in OT cybersecurity, protecting PLC, DCS, and SCADA networks through segmentation, ingress/egress control, and IDS/IPS integration aligned with IEC 62443...

Guide to Robotic Grippers: From Delicate Handling to Heavy-Duty Automation

Modern robotic grippers are evolving beyond traditional mechanical jaws. From gecko-inspired adhesive systems and soft food-grade grippers to AI-powered warehouse tools, advanced gripping...