Teledyne operating instructions 3000TA Examples

Page 84

Appendix

3000TA- EU

 

 

 

the pressure). For operation at pressures below atmospheric pressure a suffix C (clamped) cell is required.

RESTRICTION DEVICES:

For proper operation, all 3000 series analyzers require a flow restriction device. This device is typically a restrictor or a valve. This restriction device serves two functions in the sample path. The first function is to limit the flow rate of the sample through the analyzer. A restrictor is chosen to operate over a range of pressures and provide a useable flow rate over that range.

The second function that the restriction device provides is a pressure drop. This device is selected to provide the only significant pressure drop in the sample path.

RESTRICTOR KIT

The current revision of the 3000 series analyzers are supplied with a kit containing two restrictors and a union which are user installed. These parts supplied to give the end user more flexibility when installing the analyzer. The restrictor kit is suitable for high and low positive pressure applications as well as vacuum service (atmospheric pressure sample) applications (see manual for installation instructions).

The standard restrictor (BLUE DOT) is recommended for pressures between 5 psig and 50 psig. For positive low pressure application (5 psig or less) the un-marked restrictor is better suited . For non-pressurized sample applications the marked restrictor should be used and configured for vacuum service.

For extremely low positive pressure applications (less than 2 psig) the vacuum service configuration should provide higher performance (higher flow rates). For vacuum service the end user must supply a vacuum pump and a bypass valve for the pump. A vacuum level of 5 - 10 inches of mercury should provide the optimum flow rate.

CAUTION: FLOW RESTRICTORS HAVE VERY SMALL ORIFICES AND MAY BE PLUGGED BY SMALL PARTICLES (.005” DIA OR LARGER) A SAMPLE FILTER MUST BE INCLUDED IN THE SAMPLE LINE PRIOR TO THE RESTRICTOR! A 60 MICRON FILTER IS RECOMMENDED.

3000TA EXAMPLES:

Teledyne Analytical Instruments

72

Image 84
Contents Model 3000TA Teledyne Analytical Instruments3000TA- EU Copyright 2011 Teledyne Analytical InstrumentsSpecific Model Information Trace Oxygen AnalyzerImportant Notice Safety Messages 3000TA- EU Vii Table of Contents Maintenance OperationAppendix List of Figures Model 3000TA Front PanelList of Tables Main Features of the Analyzer IntroductionOverview Typical ApplicationsModel Designations Introduction 3000TA- EUFront Panel Operator Interface Model 3000TA Front PanelRecognizing Difference Between LCD & VFD Rear Panel Equipment Interface ∙ 50-Pin Equipment Interface PortIntroduction 3000TA- EU Operational Theory IntroductionMicro-Fuel Cell Sensor Trace Oxygen Analyzer Operational TheoryOperational Theory 3000TA- EU Anatomy of a Micro-Fuel CellElectrochemical Reactions Calibration Characteristics Effect of PressureCharacteristic Input/Output Curve for a Micro-Fuel Cell Sample SystemPiping Layout and Flow Diagram for Standard Model Electronics and Signal Processing Flow Diagram3000TA Internal Electronic Component Location Block Diagram of the Model 3000TA-EU Electronics Operational Theory 3000TA- EU Installation Trace Oxygen Analyzer InstallationUnpacking the Analyzer Mounting the AnalyzerInstallation 3000TA- EU Front Panel of the Model 3000TARear Panel Connections Gas ConnectionsSample Exhaust OUT Electrical ConnectionsEquipment Interface Connector Pin Arrangement ∙ Threshold Alarm Alarm Relay Contact Pins Pin Function Range ID Relay Connections Remote Probe Connections 2.3 RS-232 PortCommands via RS-232 Input Installing the Micro-Fuel Cell Testing the SystemPage Using the Data Entry and Function Buttons OperationTrace Oxygen Analyzer Operation Operation 3000TA- EU System Function Hierarchy of Functions and Sub functionsTracking Oxygen Readings During Calibration and Alarm Delay TRAK/HLD Auto-Cal Pswd Logout More Setting up an Auto-Cal Password Protection A a a Characters Available for Password Definition Logout System Self-Diagnostic Test Version Screen Showing Negative Oxygen ReadingsZero and Span Functions Zero Cal Zero Settling Man ENT To Begin Span Cal Span Val 000008.00 ENTSpan UPMod # #### % Span Slope=#### ppm/s Alarms Function Span FailureAL-1AL-2 Choose Alarm Range Function Setting the Analog Output Ranges Fixed Range Analysis Signal Output Analyze FunctionMED Operation 3000TA- EU Teledyne Analytical Instruments Maintenance Routine MaintenanceTrace Oxygen Analyzer Maintenance Storing and Handling Replacement CellsMaintenance 3000TA- EU When to Replace a CellRemoving the Micro-Fuel Cell Installing a New Micro-Fuel Cell Removing the Micro-FuelMaintenance 3000TA- EU Fuse Replacement Cell WarrantySystem Self Diagnostic Test Installing FusesMajor Internal Components Cleaning TroubleshootingTrace Oxygen Analyzer Maintenance Maintenance 3000TA- EU Teledyne Analytical Instruments Model 3000TA Specifications AppendixTrace Oxygen Analyzer Appendix Recommended 2-Year Spare Parts List Appendix 3000TA- EUOrders should be sent to Drawing List 19-inch Relay Rack Panel MountApplication notes Flow Rate Recommendations3000TA Examples Bypass Conversions Material Safety Data Sheet Section I Product IdentificationSection II Physical and Chemical Data Appendix 3000TA- EU Section III -Physical Hazards Section IV Health Hazard DataSection VI Handling Information
Related manuals
Manual 19 pages 17.56 Kb

3000TA specifications

The Teledyne 3000TA is an advanced telemetry system designed for high-performance applications in various industries such as aerospace, automotive, and research. This innovative device combines cutting-edge technologies with user-friendly features, making it an essential tool for engineers and scientists alike.

One of the standout features of the Teledyne 3000TA is its robust data acquisition capabilities. It offers a high sampling rate, which allows users to capture rapid changes in measurements accurately. This is particularly beneficial for applications that require real-time data analysis and decision-making, such as testing the performance of new aircraft components or monitoring engine behavior under different loads.

The 3000TA integrates multiple sensor interfaces, enabling it to connect seamlessly with various types of sensors, including temperature, pressure, and strain gauges. This versatility makes it suitable for a wide range of testing scenarios, from structural analysis to environmental monitoring. Users can customize the system to fit their specific needs, significantly enhancing its functionality.

Another significant advantage of the Teledyne 3000TA is its advanced wireless communication technology. By employing protocols like Bluetooth and Wi-Fi, it allows for remote data monitoring and access, which improves safety and convenience during testing processes. Engineers can easily gather data from hazardous environments without being physically present, ensuring both efficiency and safety.

The device is also equipped with an intuitive user interface, which simplifies the setup and operation processes. The touchscreen display provides real-time data visualizations and easy navigation through various menus, making it accessible even to those new to telemetry systems. This user-centric design reduces the learning curve and enhances overall productivity.

In terms of data integrity, the Teledyne 3000TA features robust error-checking and validation protocols. These built-in safeguards ensure that the data collected is accurate and reliable, which is crucial for making informed decisions based on telemetry data.

The system's compact and lightweight design ensures portability, allowing for use in various fields and environments. This flexibility enhances its appeal for field applications, where space and weight can be significant constraints.

In summary, the Teledyne 3000TA stands out as a versatile and reliable telemetry solution, combining high-performance data acquisition, advanced communication technologies, and user-friendly features. Its application across multiple industries makes it an invaluable tool for professionals seeking to optimize their testing and analysis processes.