Teledyne Operational Theory Model 3010MB, Block Diagram of the 3010TB CU Electronics

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2 Operational Theory

Model 3010MB

 

 

 

 

 

 

 

 

 

Current

to Voltage Amplifier

Sensor*

*From Analysis Unit

Auto

Rang

To Analysis

Unit

Control Valves

Self Test

Signal

Second

Stage

Amplifier

Power

Supply

System

Failure

Alarm

Display

A t Conv

M

Pro

Figure 2-1: Block Diagram of the 3010TB CU Electronics

2-2: Part I

Teledyne Analytical Instruments

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Contents Model 3010MB Teledyne Analytical InstrumentsModel 3010MB Copyright 1999 Teledyne Analytical InstrumentsTable of Contents IiiSpecific Model Information Instrument Serial NumberOverview Typical ApplicationsMain Features of the Analyzer Model 3010MB Operational Theory InstallationIi Part OperationPart I Control Unit MaintenancePart I AppendixIv Part Model 3010MB Percent Paramagnetic Oxygen AnalyzerControl Unit Inner Control Panel Percent Paramagnetic Oxygen Analyzer Part I Control UnitIntroduction Model 3010MB Front of Unmounted Control UnitRecognizing Difference Between LCD VFDControl Unit Interface Panel Model 3010MB Rear PanelRemote Probe Analog OutputsRS-232 Port Network I/OIntroduction Model 3010MB Electronics and Signal Processing Operational Theory IntroductionBlock Diagram of the 3010TB CU Electronics Operational Theory Model 3010MBUnpacking the Control Unit Mounting the Control UnitInstallation Model 3010MB NPTElectrical Connections Required Front Door ClearancePrimary Input Power Connections Examples Analog Output ConnectionsRange Voltage Current mA Alarm Relays Connectors arePart RS-232 Signals RS-232 Sig RS-232 Pin PurposeCommand Description Parameter SettingFET Series Resistance Testing the System Operation Using the Data Entry and Function Buttons Operation Model 3010MBSystem Function Span ZeroPart Setting up an Auto-Cal Password Protection Entering the PasswordInstalling or Changing the Password Characters Available for Password Definition System Self-Diagnostic Test LogoutVersion Screen Showing Negative Oxygen ReadingsZero and Span Functions Auto Mode Zeroing Zero CalManual Mode Zeroing Cell FailureAuto Mode Spanning Span CalManual Mode Spanning Alarms Function Span FailurePart I Range Function Range LimitsSetting the Analog Output Ranges Analyze Function Operation Model 3010MB Fixed Range AnalysisSignal Output Voltage Signal Current Signal Ppm O Output V dc Output mA dcOperation Model 3010MB Fuse Replacement Part I Control Unit MaintenanceSystem Self Diagnostic Test PowerAnalog Major Internal Components PreampPart Model 3010M Ii Part Precise Paramagnetic Sensor Percent Paramagnetic Oxygen Analyzer Operational TheoryPrinciples of Operation Operational Theory Model 3010M Cross Interference Sensor Rear view shownTotal Cross Interference Percent Paramagnetic Oxygen Analyzer Maintenance Routine MaintenanceSensor Replacement Output Goes NegativeMaintenance Model 3010M Specifications Operating Temperature 0-45 CPercent Paramagnetic Oxygen Analyzer Appendix Appendix Model 3010M Recommended 2-Year Spare Parts List Drawing ListAppendix Model 3010M Percent Paramagnetic Oxygen Analyzer Appendix Zero Cal ZeroSettlingMan ENT To Begin

3010MB specifications

The Teledyne 3010MB is a cutting-edge instrument designed for the analysis of various gases in a multitude of applications. It is renowned for its reliability, accuracy, and advanced features that cater to diverse industrial needs. This sophisticated gas analyzer is particularly favored in environmental monitoring, process control, and emissions measurement sectors.

One of the main features of the Teledyne 3010MB is its ability to measure gaseous components such as carbon dioxide, methane, and various other hydrocarbons. Its robust design is complemented by state-of-the-art technology, ensuring consistent performance even in challenging environments. The analyzer leverages a microprocessor-controlled system, which allows for real-time data processing and enhanced operational efficiency.

The Teledyne 3010MB employs advanced infrared (IR) measurement techniques, providing superior sensitivity and specificity compared to conventional methods. The optical system utilizes a multi-path sample cell, which significantly increases the interaction of light with the sample gas, thereby improving the detection limits. This feature is particularly useful when dealing with trace gas measurements, where minute concentrations need to be accurately quantified.

Another key characteristic of the 3010MB is its user-friendly interface, which facilitates ease of operation. The large, graphic LCD display provides clear readouts of measured concentrations, operational status, and diagnostics, enabling operators to quickly interpret data. Moreover, intuitive menus and controls streamline navigation, reducing the learning curve for new users.

For data management, the Teledyne 3010MB offers comprehensive connectivity options. It can interface with various data logging systems and can be integrated into existing monitoring networks. This adaptability enhances its functionality, allowing users to easily collect and analyze data over time.

Furthermore, the device is built to withstand harsh operating conditions, featuring durable materials and a design that minimizes maintenance requirements. Its compact footprint makes it suitable for installation in limited spaces, while its versatility accommodates both laboratory and field applications.

In summary, the Teledyne 3010MB stands out as a leading gas analyzer, boasting features such as precise infrared measurement technology, a user-centric interface, and robust data connectivity capabilities. Its reliability and accuracy make it an invaluable tool for professionals in environmental monitoring and industrial process control, solidifying its reputation as a premier choice in gas analysis.