The Rosemount 5300 Series is our superior 2-wire Guided Wave Radar (GWR) for challenginglevel and interface measurements on liquids, slurries and solids. It leverages our 30 years of proven radar expertise and is designed to focus on your plant’s profitability. The 5300 delivers everything you would expect from a best-in-class process radar – superior reliability, state-of-the-art safety features, effortless handling, and unlimited connectivity.
- Direct Switch Technology enables a stronger signal than other 2-wire GWR transmitters, providing better measurement capability and reliability.
- Probe End Projection allows for measurement on very low dielectric products over long ranges.
- Improved EMC performance with a Smart Galvanic Interface increases safety.
- Easy integration into new or existing plants with a choice of 4-20 mA with superimposed HART, modbus output, or FOUNDATION ™ fieldbus with extensive support for PlantWeb® Alerts.
- Powerful and easy-to-use configuration tools.
- A wide range of probe styles to cover virtually any applications including extreme temperature and pressure probes for demanding environments.
- Robust modular design and MultivariableTM transmitter resulting in low cost and increased safety.
- Virtually unaffected by application conditions such as dust, vapor and interfering obstacles.
- SIL 2 suitable
- Rosemount 9901 – high quality chambers for process level instrumentation
Features & Benefits:
Guided Wave Radar is a continuous level measurement technique that offers several advantages. It is virtually unaffected by temperature, pressure and vapor gas mixtures. It has no moving parts and therefore requires little or no maintenance. It measures the level directly and is therefore unaffected by most fluid property changes, including but not limited to density and viscosity changes. Additionally, the Rosemount 5300 Series offers the following benefits:
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Specifications:
Key Specifications |
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Product |
Model 5301 for level of liquids or
submerged interfaces. |
Measurement Principle |
Time Domain Reflectometry (TDR) |
Measuring Range |
Up to 164 ft. (50 m) |
Dielectric Constant |
Minimum 1.2 for coaxial probe or single probe installed in bypass, other probes from 1.4. SeeProduct Data Sheet for complete data. |
Probe Materials |
SST, Alloy 400, Alloy C276 (UNS N10276), or PTFE-covered SST |
Reference Accuracy |
± 0.1 in. (± 3 mm) or ± 0.03% of measured distance, whichever is greatest |
Repeatability |
±0.04 in. (±1 mm) |
Output |
4-20mA with superimposed digital HART®
communication |
Process Temperature |
Up to 752 ºF (400 ºC). See Product Data Sheetfor complete data |
Lowest Temperature |
From -320 ºF (-196 ºC) |
Process Pressure |
4-20mA with superimposed digital HART® communication, and FOUNDATION® Fieldbus |
Ex-Approvals |
Intrinsic Safety (IS) or Explosion-proof/Flameproof (ATEX, CSA, IECEx, FM, ...) |
Display |
5-digit integral display (Optional) |
Output Variables |
Level, Interface Level, Distance, Interface Distance, Upper Product Thickness, Volume, Level Rate, Signal Strength, Housing Internal Temperature, Aout current and % of Range |
Enclosure |
Polyurethane-covered die-cast Aluminum or stainless steel housing with dual compartments. |
Ingress Protection |
Type 4X, IP66, IP67 |
Fieldbus Functionality |
Link-master device (backup LAS), PlantWeb Alerts, Methods |
Fieldbus Blocks |
Resource, 3xTransducer, 6xAnalog Input (30 ms), PID (40 ms), Arithmetic, Input Selector, Output selector (65 ms) ,Signal Characterizer (75 ms) |
Configuration Tools |
Rosemount Radar Master, 375 Field Communicator, AMS Suite: Intelligent Device Manager, DeltaV or any other DD- or EDDL-compatible host-system. |
Applications:
The Rosemount 5300 series is suitable for all types of processing industries including oil & gas production, refining, petrochemical, chemical, power, and water & waste treatment. The Rosemount 5300 offers radar level measurement benefits for a wide range of applications in these industries. Its probe guided radar signal combined with innovative engineering makes the 5300 virtually unaffected by process conditions and it has almost no installation restrictions. |
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Accuracy in saturated steam applications Saturated steam under high pressure slows down radar wave propagation giving an incorrect distance. This, together with varying pressure and/ or temperature is a challenge. The Rosemount 5300 withDynamic Vapor Compensation (DVC) automatically compensates for this and maintains the level accuracy. |
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Guided Wave Radar is the ideal choice for measurements in chambers. It is unaffected by density changes, chamber configuration and has no moving parts which minimizes maintenance. This makes it an easy and reliable substitute for displacer technology. |