Emerson 5081FG instruction manual Reset MAX Cell T, SET O2 Filter Time, Trim 4 mA?

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Instruction Manual

IB-106-5081, Rev. 1.0 May 2005

Model 5081FG

f.RESET MAX CELL T

Refer to Figure 3-12. The transmitter tracks the maximum cell temperature obtained. Use this screen to reset the maximum cell temperature attained value to the current cell temperature. Press ENTER to begin editing. Use the arrow keys to select and change the value (Y/N). Then, press EN- TER to accept the value. Pressing NEXT displays the SET O2 FILTER TIME screen.

O2 CONCENTRATION

%

g.SET O2 FILTER TIME

Refer to Figure 3-13. In some applications, it is beneficial to dampen the raw O2 signal coming from the cell. Use this screen to enter the amount of time it will take the O2 to reach 90% of the new reading. Press EN- TER to begin editing. Use the arrow keys to select and change the screen value to the O2 filter value (in seconds). Enter a value between 0 and 300 seconds and press EN- TER to accept the value. Press NEXT to access the TRIM 4 mA? screen.

h.TRIM 4 mA?

Refer to Figure 3-14. Use this screen to trim the 4 mA value of the 4-20 mA output.

NOTE

Y/N (TO RESET

MAXIMUM CELL

TEMPERATURE)

26020013

Figure 3-12. RESET MAX CELL T

O2 CONCENTRATION

Before trimming the 4 mA value, you must break the loop to add the amme- ter. Power down the unit, connect the ammeter in series with Model 5081 Transmitter terminals 15(-) and 16(+), power up the unit, and return to the TRIM 4 mA? screen.

Press ENTER to begin editing. Use the ar- row keys to select and change the screen value to the value displayed on the installed ammeter. Press ENTER to accept the value. After the value is entered, the unit calibrates itself to ensure it outputs 4 mA. Both the display and the ammeter will dis- play 4 mA. Pressing EXIT returns to the ini- tial TRIM 4 mA? screen, and pressing NEXT displays the TRIM 20 mA? screen.

O2 CONCENTRATION

%

%

ANALYZER

ACCESS CODE

 

26020047

 

26020014

Figure 3-13. SET O2 FILTER TIME

Figure 3-14. TRIM 4 mA?

3-8 Startup and Operation

Rosemount Analytical Inc. A Division of Emerson Process Management

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Contents Model 5081FG Essential Instructions Summary Highlights of ChangesEffective May, 2005 Rev Page Table of Contents Model 5081FGList of Illustrations List of Tables Model 5081FG Preface DefinitionsModel 5081FG Belangrijk Vigtigt Model 5081FG Tärkeää Model 5081FG Wichtig Importante Viktig Model 5081FG Model 5081FG Viktigt Model 5081FG Section Description and Specifications Component Checklist of Typical System Package ContentsProduct Matrix Code Mounting Adapter Stack SideScope System ConfigurationSystem Overview System DescriptionSystem Features Handling the Analyzer System Considerations Typical System Installation TransmitterSpecifications ProbeVDC Lift OFF Maximum Power Supply VoltageOhms Operating Load RegionMechanical Installation Section InstallationPRE-INSTALLATION InspectFront View Side View Bottom ViewMetal Wall Masonry Wall Stack or Duct Horizontal Probe Installation Adjusting Probe Insertion Depth Model 5081FG Installing Model 5081 Transmitter Block TB Cover LockCircuit Terminal END Mounting HolesDisplay Positioning Assembly Electrical InstallationThermocouple CELL-WH CELL+BK Model 5081 Transmitter 4-20 mA and Signal ConnectionsTerminal Block Conduit Instrument Air Reference Air Pneumatic InstallationReference Air Package Calibration Check GasInlet Connection Outlet ConnectionOutlet Flow SET MAX Point Knob Mounting HolesGeneral Power UPSection Startup and Operation Reestablishing Proper Calibration Check GAS Flow Rate Proper Calibration Check Gas Flow RateDisplay OperationOverview Menu TreeMenu DiagnosticsCalcheck ProgramInfrared Remote Control IRC NavigationProgram Menu O2 Concentration Analyzer Access Code Or SecurityAnalyzer Access Code O2 ConcentrationUpper Range VAL O2 Concentration Indicator Fault ValueO2 Concentration Upper Cell Temperature Fault Value Cell T HIO2 Concentration Analyzer Access Code Reset MAX Cell TTo Reset Maximum Cell Temperature SET O2 Filter TimeConcentration SET HI Bottle O2SET LO Bottle O2 Model 5081 Transmitter Parameters SET Code Parameter Range DefaultModel 5081 Transmitter Parameters C mV Diagnostics MenuShow Fault 23. Cell Impedance 24. Previous Slope Previous ConstantCalcheck Menu 27. in MANUAL? Accept LOW O229. Accept LOW O2 Slope Model 5081FG Overview Hart Communicator Signal LineSection HART/AMS ConnectionsMethod 2, For Load Resistance 250 Ohms Analog Output DeviceOFF-LINE and ON-LINE Operations TWO-WIRE in Situ Oxygen AnalyzerHart Communicator PC Menu Tree for Hart CommunicatorDevice Setup From Sheet Basic Setup Detailed From Sheet Signal Condition Detailed Setup Output Hart Communicator Start CAL- Check Method Model 5081FG Display Board Replacement Section Maintenance and ServiceModel 5081 Electronics Replacement Spare Board Stack ReplacementTwo-Wire In Situ Oxygen Analyzer Exploded View Ribbon Cable Analog Board CPUOxygen Probe Replacement Oxygen Probe Terminal Block Normal Operational Conditions Section TroubleshootingProbe Life IMPEDANCE, ΩSpeed Fault IndicationsOfresponse Identifying and Correcting Fault Indications ThermocoupleFault 1, Open Thermocouple Fault 3, Shorted Thermocouple Fault 5, O2 Cell Open Fault 5, O2 Cell Open Fault 6, Cell Impedance Too HighFault 7, Reversed O2 Cell 11. Fault 7, Reversed O2 CellModel 5081FG Section Return of Material Model 5081FG Section Replacement PartsReplacement Parts List Index No Part Number DescriptionModel 5081FG Section Index Model 5081FG Model 5081FG Page Warranty Two-Wire In Situ Oxygen Analyzer Serial no Order no

5081FG specifications

The Emerson 5081FG Series is a cutting-edge digital smart transmitter designed for various industrial applications, including oil and gas, chemical processing, and water treatment. Known for its accuracy and reliability, the Emerson 5081FG integrates an array of advanced technologies to enhance measurement capabilities and operational efficiency.

One of the main features of the 5081FG is its multi-variable measurement, which allows for the integration of differential pressure, static pressure, and temperature readings into a single device. This capability significantly reduces the need for multiple instruments, leading to lower installation costs and improved data collection efficiency.

With Smart Wireless technology, the Emerson 5081FG offers robust wireless communication, making it ideal for remote or hard-to-reach locations. Its ability to transmit real-time data wirelessly enhances operational awareness and enables proactive maintenance decisions. The transmitter can easily connect to various process control systems for seamless integration and data sharing.

The 5081FG also incorporates Emerson's advanced diagnostics and predictive maintenance algorithms. These features continuously monitor the health of the transmitter and the processes it measures, alerting operators to potential issues before they escalate into serious problems. This proactive approach to maintenance not only improves safety but also minimizes downtime and maximizes productivity.

Another significant characteristic of the Emerson 5081FG is its rugged design, built to withstand harsh industrial environments. With an IP67 rating, it is resistant to dust and water ingress, ensuring reliable operation even in challenging conditions. The device is also designed to handle a wide range of temperatures and pressures, making it versatile for diverse applications.

User-friendly configuration and programming are facilitated by Emerson's intuitive software tools, which provide easy setup and calibration processes. This simplicity allows operators to optimize performance without needing extensive training or support.

In conclusion, the Emerson 5081FG is a powerful and reliable smart transmitter that addresses the needs of various industries. Its multi-variable measurement capability, wireless communication, advanced diagnostics, and rugged design make it an excellent choice for companies looking to enhance their operational efficiency and maintain high standards of safety and reliability. With the Emerson 5081FG, businesses can expect not only accurate measurements but also valuable insights that contribute to smarter decision-making.