Model:MMS6211
Brand:Emerson
Application:Industrial machinery vibration monitoring
Operating Temperature Range:-40°C to +70°C
Sampling Rate:Up to 1 kHz
Accuracy:±0.5% FS
Input Signal:2-wire, 4-20mA
Power Consumption:Less than 5W
Communication Interface:MODBUS RTU
Size:Compact (4.0 x 5.0 x 1.0 cm)
The Emerson MMS6211 Vibration Monitoring Card is engineered with precision to provide unparalleled accuracy in measuring machine vibrations. This card is essential for industries aiming to optimize their maintenance schedules and prevent unexpected downtimes, thereby maximizing equipment uptime and productivity.
Featuring a wide operating frequency range from 10 Hz to 1 kHz, it can detect even the slightest changes in vibration patterns, which are critical indicators of impending mechanical failures. Its high measurement resolution of 0.01 mm/s ensures that you receive precise data for informed decision-making.
Equipped with a fast sampling rate of 50 samples per second, this card captures the dynamics of machinery in real-time, enabling predictive maintenance actions before any critical failure occurs. This proactive approach minimizes the risk of sudden breakdowns and reduces maintenance costs.
Adaptable to various environmental conditions, the MMS6211 operates reliably in temperatures ranging from -40°C to +70°C, making it suitable for use in diverse industrial settings worldwide. It draws its power from a standard 12V DC supply, ensuring compatibility with most industrial power sources.
With a communication interface based on MODBUS RTU, the MMS6211 facilitates seamless integration with existing industrial automation systems. This feature allows for easy data transfer and management, streamlining the process of integrating vibration monitoring data into broader operational analytics.
Crafted from lightweight yet robust aluminum alloy, the MMS6211 is designed for ease of installation, featuring a panel mount design that accommodates various mounting scenarios. Its compact size (100mm x 80mm x 20mm) and low weight (150g) make it a practical choice for space-constrained environments.
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