Teledyne manual Teledyne API Model M201E NH3 Analyzer Operator Manual

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Maintenance Schedule

Teledyne API Model M201E NH3 Analyzer Operator Manual

2.Remove the cover from the Converter chassis.

3.Unscrew the (4) nuts that secure the front panel to the chassis. They are located just behind the Front Panel along the top.

4.Lower the Front Panel to gain easier access to the end of the quartz tube.

5.Unscrew the (3) nuts that secure the inner cover protecting the Heater Block and quartz tube. Remove this cover.

6.Cut the tie-wrap that secures the thermocouple to the fitting at the end of the quartz tube.

7.Loosen the Teflon fitting at the end of the quartz tube taking care not to put any stress on the tube, and slide the fitting off the tube.

8.Remove the thermocouple.

9.Disconnect the thermocouple wires from the Temperature Controller noting that the ‘Yellow’ wire goes to pin 1 and the ‘Red’ wire goes to pin 2.

10.The thermocouple should slide into the Heater Block.

11.Replace the Tie-Wrap Hold-Down.

12.Form the thermocouple wire so that it rests in the cavity with little movement.

13.Connect the (2) wires of the thermocouple to the Temperature Controller. The “yellow” wire should be connected to pin 1 and the “red” wire should be connected to pin 2.

14.At this point, all connections have been made, both electrically and pneumatically. A leak check should be performed on the Converter to verify that all connections are leak free. If a leak is detected, the leak should be resolved before continuing.

15.Install the inner cover of the Heater Block and secure with the (3) nuts. Close the Front Panel and secure with the (4) nuts. Install the top cover on the Converter chassis.

16.The Converter is now ready for the application of power. You will be looking for an indication from the Temperature Controller that it is functioning correctly and driving the heater to the desired “set” temperature. Apply power now.

17.After the Converter comes to the regulated temperature, perform the Auto Tune function to tune the Temperature Controller to the new thermocouple.

18.After the Auto-Tune process is completed, verify that the “process” temperature is indicating that the desired temperature is stable and being regulated.

The converter is now ready for operation.

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05206H DCN5910

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Contents Model M201E Ammonia Analyzer Manual AddendumPage About this Manual Name/DescriptionThis page intentionally left blank 05206H DCN5910 Safety Messages This page intentionally left blank 05206H DCN5910 Table of Contents List of Tables Analog Output Manual CalibrationM201E Ammonia Analyzer Do not pressurize the Sample/Span/Zero port above ambientTeledyne API Model M201E NH3 Analyzer Operator Manual M201E and M501 NH 3, Pneumatic Flow Theory of Operation Minimizing PMT Drift Purging the Reaction Cell Sample Filtration M201E Analyzer Specifications Calibration Procedure Zero Calibration Procedure Zero Gas Through the Sample Port Step No Action CommentZero Calibration Procedure Zero Gas Through Zero Port No Calibration Procedure no Gas Through the Sample Port No ConvNo Calibration Procedure no Gas through the Span Port Spanning the Analyzer with Ammonia GAS Confirming Ammonia Converter Efficiency Press EXIT, ExitNH3 Calibration Procedure NH3 Gas Through The Sample Port NH3 Calibration Procedure NH3 Gas through the Span Port This page intentionally left blank 05206H DCN5910 Configurable Analog Output Overview Analog Output Data Default SettingsAnalog Output Pin-Outs Analog Output Voltage Range Min/Max Analog Output Current Loop Min/MaxAnalog Output Signal Type Selecting Auto or Manual Analog Output Calibration Auto Or Manual Analog Output Calibration Analog Output Group Calibration ZERO/SPAN Analog Output Signal Calibration Tolerances Setup For Calibrating Analog Output Signal LevelsAnalog Output Manual Calibration Analog Output Recorder Offset Calibration Maintenance Schedule Preventative Maintenance ScheduleM501 NH3 Converter Rebuild Parts List Catalytic CartridgeThermocouple Location Teledyne API Model M201E NH3 Analyzer Operator Manual Analyzer Flow Check This page intentionally left blank Alarms and Cautions M201E Functional Block Diagram M201E Spare Parts List Part Number DescriptionPCA, TEC DRIVER, PMT, M100/200, E Series ORING, 105M, 1MM W X 5 MM ID, Viton This page intentionally left blank 05206H DCN5910 Calculating Moly Converter Efficiencies NoneCalculating Moly Converter Efficiencies Moly Test Data Sheet

M201E specifications

The Teledyne M201E is a high-performance, compact oceanographic and environmental monitoring device designed for versatile underwater applications. Leveraging advanced technologies, the M201E presents a plethora of features appealing to researchers, engineers, and environmentalists seeking reliable data collection in challenging aquatic environments.

One of the standout characteristics of the M201E is its robust design, which allows it to operate in various underwater conditions, from shallow coastal regions to deep-sea environments. Built with durable materials, the device ensures long-term performance and resilience against corrosion, making it an ideal choice for long-term deployments.

The M201E is equipped with a range of sophisticated sensors, enabling it to collect comprehensive data on several environmental parameters. Key features include the ability to measure temperature, salinity, depth, and turbidity, among others. This multi-parameter capability allows for detailed assessments of underwater ecosystems and provides essential insights into vital oceanographic processes.

Another remarkable aspect of the M201E is its connectivity and data transmission technologies. It supports various communication protocols, enabling real-time data streaming to research teams, enhancing their ability to respond to changing conditions swiftly. The device can be integrated into larger networks of sensors, facilitating a more extensive monitoring system that collaborates and shares valuable data.

Moreover, the M201E is powered by advanced battery technologies that maximize operational longevity, allowing for extended missions without the need for frequent maintenance. Users can also benefit from intuitive user interfaces and software, streamlining the process of configuring the device, managing data, and analyzing results.

The M201E’s versatility is further demonstrated by its compatibility with various mounting options and its adaptability to different research or monitoring projects. Whether deployed by autonomous underwater vehicles (AUVs), buoys, or fixed platforms, the M201E meets diverse field requirements.

In conclusion, the Teledyne M201E stands out as a highly functional and reliable tool for underwater research. With its robust design, comprehensive sensing capabilities, advanced communications technologies, and ease of integration, it significantly contributes to our understanding of marine and freshwater environments. As the demand for precise and reliable environmental monitoring continues to grow, the M201E is poised to play a crucial role in the future of oceanographic research and environmental management.