Vibrating fork level switch for safety instrumented systems
Rosemount 2130 switch certified for SIL 2 applications, even with low-density products.
Emerson Process Management has extended the capability of its Rosemount 2100 series of vibrating short-fork level switches with the introduction of the Rosemount 2130 for SIL 2 (safety integrity level) safety instrumented systems. This new version features built-in fault monitoring / self-checking diagnostics and is ideal for high and low level alarms.
Following successful third-party evaluation by Exida, the Rosemount 2130 has the required FMEDA (failure modes, effects, and diagnostic analysis) report. As a result, companies in the oil & gas production, refining, petrochemical, chemical, and power industries can benefit from low-maintenance vibration fork technology while ensuring compliance with associated IEC industry standards.
With several output types with a safe failure fraction (SFF) over 90%, the resulting FMEDA report shows SIL 2 suitability. As per IEC 61508 and IEC 61511, the documentation provides safety instrumentation engineers with the required failure data and with proof test recommendations. With a five-year-plus proof test interval, the proof test can be coordinated with plant turnaround, minimizing process interruption and reducing risk to personnel.
The Rosemount 2100 series is already a popular choice for high- and low-level alarm and pump control duties. The new 2130 version is simple and easy-to-use, reliable in a wide range of applications and requires no on-site calibration. The visible heart-beat LED gives an instant visual indication that the unit is operational. In addition, built-in fault monitoring / self diagnostics can detect extreme corrosion of the forks, or any other internal or external damage to the fork sensor, which triggers a warning LED and safe handling of the load.
Further functionality in the new version includes a low-density option suitable for liquids with a specific gravity down to 0.5 (500 kg/m3), a wide choice of electronic output options for use on their own, or as part of an analog or digital plant monitoring network.
The Rosemount 2130 is designed for use in extreme temperatures ranging from -70 to 260 °C (-94 to 500 °F) and like other models in the Rosemount 2100 range, the new model is available with 316L stainless steel as standard, ECTFE/PFA copolymer coated 316L stainless steel, or corrosion resistant alloy C wet side, as well as a choice of electronic output types and aluminum or stainless steel housing options.
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Edited by Peter Welander, firstname.lastname@example.org