Teledyne 2002 GAS Mode, Midrange Coefficient Adjustment, Atmosphere Coefficient Adjustment

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3.Place the instrument in the CAL mode, then simultaneously press the UP and DOWN switches to bypass the interlock. The CAL light will start to flash indicating that the calibration mode has been activated.

4.Press the ZERO switch once if below 6x10-5 Torr otherwise use the UP and DOWN switch to adjust the display of the Model 2002 to match the pressure indicated by the reference. If using the UP and DOWN switch to adjust the display, wait 20 seconds between presses at very low pressure to allow the adjustment to take affect the data to settle.

5.The unit is now fully zeroed. Place the Model 2002 back in the RUN mode to store the zero in permanent memory.

Midrange Coefficient Adjustment

The midrange coefficient corrects for errors in the slope of the power curve of the thin film Pirani. Typically, this is due to the geometry of a particular sensor and will only need to be performed once in the lifetime of the sensor. This adjustment might be needed if a full calibration is being performed in a gas other than nitrogen. The zero adjustment will need to be performed before making this adjustment.

To adjust the midrange coefficient use the following procedure:

1.Evacuate the vacuum chamber and refill with the desired gas to a pressure of 7 Torr, as indicated by a reference vacuum gauge.

2.Press the MODE switch repeatedly until the CAL mode is illuminated.

3.Simultaneously, press both the UP and DOWN switches. The CAL light will start to flash, signaling that the calibration can now be conducted.

4.Press, hold and release the UP and DOWN switches as necessary to adjust the display to match the pressure indicated by the reference. Note: It may be necessary to hold the desired switch down for a few seconds before any movement is seen.

5.Press and release the MODE switch as necessary to return the 2002 to the RUN mode and store the coefficients to permanent memory.

Atmosphere Coefficient Adjustment

If a reference high pressure gauge is not available, the ambient barometric pressure acquired from the weather channel or other weather service can be used to adjust the proper reading.

To adjust the atmosphere coefficient, use the following procedure:

1.Press the MODE switch a sufficient number of times to enter the CAL mode.

2.Simultaneously, press both the UP and DOWN switches to bypass the interlock. The CAL light will start to flash, signaling that the calibration can now be conducted.

3.Press, hold and release either of the UP or DOWN switches as necessary to adjust the display to match the pressure indicated by the reference. Note: It may be necessary to hold the desired switch down for a few seconds before any movement is seen.

4.Press and release the MODE switch as necessary to return the Model 2002 to the RUN mode and store the coefficients to permanent memory.

3.5.GAS Mode

The Model 2002 can provide true pressure measurements in many gas environments. At pressure levels above 32 Torr where the direct force piezoresistive sensor is operative, the instrument is gas composition insensitive and measures the true pressure regardless of gas composition. The Pirani is gas composition sensitive so below 32 Torr, the actual composition must be known and the Pirani calibrated in that gas.

When the vacuum system’s gas composition is dominated by a single gas species (for example, during system venting with an inert gas), the user can enter a gas selection into the Model 2002. To view the gas selection, place the instrument in the GAS mode and reference Table 1.

The Model 2002 is factory set to display N2 pressure readings. To select a different gas, refer to Table 1 to find the number code of the gas to be entered. Press the UP and DOWN switches simultaneously, the GAS

Model 2002 Vacuum Gauge

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Contents Teledyne Hastings Manual Print History Table of Contents Features General InformationModel 2002 Sensors Model 2002 Control UnitSpecifications Installation Transducer InstallationReceiving Inspection Quick StartControl Unit Installation Initial OperationPanel Mount Instructions Transducer Cable AttachmentFront Panel Operation Overall Functional DescriptionRUN Mode Speed AdjustScientific Notation Normal OperationCAL Mode High and Low Set Point ModesPage GAS Mode Midrange Coefficient AdjustmentAtmosphere Coefficient Adjustment Units Mode Default Calibration RestorationRear Panel Description Remote Zero InputAnalog Output Voltage to pressure conversion example Power Entry Module TTL OutputsModel Rear Panel Detail Theory of Operation Piezoresistive SensorDual Sensor Emodiment = ΔRL Pirani Sensor Et = Es + Er + EgEg = Kg DT As/Dx Dual Sensor Operation RS-232-E Interface Specifications Communications Option BoardInterface Connector Pin Assignments for RS-485 For RS-485 Half Duplex 2 wireInterrogation Commands Parameter Modification CommandsCalibration Adjustment Commands Reset / Restore Commands Device StatusRelay Board Specifications Relay Connector Pin AssignmentRelay Interface Option Board 20 mA Interference Connector Pin Assignments MA Interface Option BoardOperation 0-10V Interface Connector Pin Assignmets 10V Interface Option Board= PTorr Channel1 Troubleshooting Guide Warranty Repair Policy Non-Warranty Repair PolicyDiagrams and Drawings Model 2002 Vacuum Gauge Model Outline Dimensions Model 2002 Vacuum Gauge Model 2002 Vacuum Gauge
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2002 specifications

Teledyne 2002 represents a significant advancement in the realm of sophisticated instrumentation and systems used across various industries. This innovative platform emerged as a versatile solution for a multitude of applications including environmental monitoring, industrial automation, and scientific research.

One of the most notable features of the Teledyne 2002 is its robust data analysis capability. Equipped with powerful processing units, it allows users to conduct real-time data analysis, ensuring accurate and timely results. This is particularly beneficial in fields where immediate decision-making is crucial, such as environmental assessments and industrial quality control.

The technology behind the Teledyne 2002 encompasses a variety of sensors and analytical instruments. Its modular design enables users to customize the system according to their specific needs, integrating various sensors such as gas analyzers, spectrometers, and temperature sensors. This flexibility makes the Teledyne 2002 applicable in diverse settings, from laboratory environments to rugged field conditions.

Another characteristic of the Teledyne 2002 is its user-friendly interface. The system is designed with an intuitive control panel and advanced software that provides comprehensive data visualization. This ease of use enhances productivity, allowing operators to facilitate complex analyses without extensive training.

Security and data integrity are also focal points of the Teledyne 2002. The system implements state-of-the-art encryption protocols to protect sensitive data. Moreover, it maintains compliance with industry standards, ensuring that the collected data is reliable and trustworthy.

In addition to its technological features, the Teledyne 2002 is built with durability in mind. The rugged construction allows it to withstand harsh environmental conditions, making it ideal for outdoor applications. Its compact design enables easy transportation, which is essential for fieldwork.

Moreover, the Teledyne 2002 includes connectivity options that facilitate seamless integration with existing systems. It can connect to cloud services, enabling remote monitoring and data storage. This feature not only enhances the functionality of the device but also allows for collaborative data sharing among teams.

Overall, the Teledyne 2002 symbolizes a convergence of advanced technology, user-centric design, and robust performance. With its extensive features and versatility, it stands out as a premier solution for professionals demanding precision and reliability in their analytical endeavors. Whether for environmental monitoring or industrial applications, the Teledyne 2002 is equipped to meet the challenges of modern data analysis.