Description
Product Overview
The MU-PLAM02 51304362-100 Analog Input Module from Honeywell delivers high-performance signal acquisition for industrial automation systems. As part of the MU-T Series, this module features advanced analog multiplexing, reducing system complexity while maintaining precise data transmission.
Its slim 2.8 × 37.8 × 27.8 cm profile and 0.62 kg weight make it ideal for space-constrained control cabinets. The MU-PLAM02 51304362-100 operates reliably across extreme temperatures from -40°C to +85°C, ensuring consistent performance in harsh industrial environments.
Engineers value the module’s energy-efficient design, which minimizes power consumption without sacrificing performance. The MU-PLAM02 51304362-100 includes a standard industrial interface connector, simplifying installation and ensuring compatibility with a wide range of DCS platforms.
Technical Specifications
| Specification |
Details |
| Model Number |
MU-PLAM02 51304362-100 |
| Manufacturer |
Honeywell |
| Module Type |
Analog Input Module |
| Product Series |
MU-T Series |
| System Compatibility |
DCS |
| Signal Type |
Analog Multiplexed Input |
| Operating Temp. |
-40°C to +85°C |
| Power Efficiency |
Low Power Consumption |
| Connector Type |
Standard Industrial Interface |
| Dimensions |
2.8 × 37.8 × 27.8 cm |
| Weight |
0.62 kg |
| HS Code |
8537101190 |
| MOQ |
1 |
| Origin |
USA |
| Condition |
Brand New |
| Availability |
In Stock |
Key Features
-
Supports analog multiplexing for efficient signal processing.
-
Operates across extreme temperature ranges from -40°C to +85°C.
-
Energy-efficient design reduces power usage and operational costs.
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Compact and lightweight for easy cabinet integration.
-
Standard interface ensures quick installation and broad compatibility.
Applications & Compatibility
The MU-PLAM02 51304362-100 integrates with Honeywell MU-T Series and DCS platforms. It suits analog input tasks in energy, manufacturing, and process control sectors. Use the MU-PLAM02 51304362-100 in systems requiring high-density signal acquisition and low power consumption.
