Teledyne Comprehensive Guide to the 3110 Oxygen Analyzer and Maintenance Protocols

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Portable Trace Oxygen Analyzer

Maintenance

 

 

Effect of CO2 on B-2 Cell Life

1.This curve assumes continuous exposure.

2.Intermittent exposure will extend life. In general, the CO2 effect is cumulative and the average CO2 concentration should be used to find the predicted cell life.

3.Cells can be used to make spot check measurements of O2 in the presence of high concentrations of CO2 (up to 50% and more). Any sample containing CO2 should be purged as soon as a constant reading is obtained.

4.Abnormally slow response and recovery is characteristic of cells used as indicated in notes 1, 2, and 3 above.

5.The reduction in cell life is primarily due to a drop in output. Cell life will reduce to a point where the instrument can no longer be spanned. Instruments using B-2

cells in CO2 atmospheres should be spanned at intervals of 10-20% of the predicted cell life.

6.The CO2 effect on B-2 cells is independent of the O2 level. Usage in CO2 contributes significantly to cell life reduction and thus affects cell warranty.

Figure 4-2: Effects of CO2 on B-2 Cell Life

Teledyne Analytical Instruments

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Contents Teledyne Analytical Instruments ModelIi Teledyne Analytical Instruments ModelPortable Trace Oxygen Analyzer Specific Model InformationIv Teledyne Analytical Instruments Safety MessagesPortable Trace Oxygen Analyzer Table of Contents Maintenance & Troubleshooting AppendixIndex Teledyne Analytical Instruments Viii Teledyne Analytical Instruments List of FiguresCombustible GAS Usage Introduction IntroductionIntroduction Model Portable Trace Oxygen Analyzer Introduction FeaturesIntroduction Model Cell Warranty Method of AnalysisMicro-Fuel Cell Signal Output Accuracy and ResponseCompact Packaging Portable Trace Oxygen Analyzer Introduction Intentionally left blank Installation Portable Trace Oxygen Analyzer InstallationCharging the Batteries Gas Connections Installation ModelPortable Trace Oxygen Analyzer Installation Installing a Trace Sensor Sensor InstallationCalibration Calibration Procedure for Trace AnalysisBleeding the Regulator and Purging the Gas Line Set the Sample Flow rateExternal Signal Front Panel Interface OperationOperation Model Enter KeyPortable Trace Oxygen Analyzer Operation Escape Key3 UP/DOWN Keys Available Menus and Their Sequence Operation and Setup Screens and MenusPower on Screen Home ScreenDate Screen Time Screen EnterAlarm Enable Standard Alarm ScreenHI-LOW Alarm Screen FS Alarm ScreenLtch Alarm Screen Range 2 Screen Range 1 ScreenRange Screen Span Screen Span Value ScreenFilter Screen LOG Intv Screen LOG Reset & Start ScreenLOG Transmit Screen Power Down Screen Portable Trace Oxygen Analyzer Operation Routine Maintenance Maintenance & TroubleshootingReplacing the Battery Maintenance ModelPortable Trace Oxygen Analyzer Maintenance Battery Power Supply ServiceBattery Charger Port on the Model Cell ReplacementCell Warranty Temperature Compensation Effects of CO2 on B-2 Cell Life Effect of CO2 on B-2 Cell LifeProcedure Leak TestingIntentionally left blank Specifications AppendixAppendix Model Portable Trace Oxygen Analyzer Appendix Spare Parts ListIndex Portable Trace Oxygen Analyzer Index Power Down screen, 39 power offAppendix Model

3110 specifications

The Teledyne 3110 is a sophisticated, high-performance data acquisition and analysis system that has garnered attention in a range of scientific and industrial applications. Designed with advanced technologies, the Teledyne 3110 is optimized for versatility, enabling users to gather and analyze data from various sources with seamless integration.

One of the main features of the Teledyne 3110 is its modular design. This allows users to customize the system to meet their specific needs by adding or removing modules as necessary. It supports a wide range of input types, making it compatible with numerous sensors and devices, which enhances its utility in diverse environments.

The device boasts high precision and accuracy in data collection, which is crucial for applications where minute measurements matter. The instrument employs cutting-edge analog-to-digital converters, ensuring that data is captured with remarkable fidelity. Additionally, the Teledyne 3110 incorporates advanced signal processing technologies that improve data quality and reduce noise, facilitating clearer and more reliable analysis results.

Another key characteristic of the Teledyne 3110 is its user-friendly interface. The system comes equipped with intuitive software for data visualization and analysis, allowing users, even those with limited technical experience, to navigate the system efficiently. With comprehensive data export options, users can easily integrate the system's outputs into other software for further analysis and reporting.

Durability and reliability are also hallmarks of the Teledyne 3110. Built to endure harsh environments, the system is tested rigorously to ensure it meets high standards for protection against dust, moisture, and temperature variations. This robustness makes it applicable in fields such as environmental monitoring, industrial automation, and research laboratories.

Furthermore, the Teledyne 3110 supports real-time monitoring and data logging capabilities. This feature is essential for applications that require continuous oversight and data collection to respond promptly to any changes in conditions or parameters being monitored.

In summary, the Teledyne 3110 stands out as a versatile and reliable data acquisition system, leveraging modularity, precision, user-friendliness, and durability to serve a variety of applications effectively. Whether for research, industrial applications, or environmental monitoring, the Teledyne 3110 proves to be an invaluable tool for professionals seeking high-quality data insights.