Teledyne LXT-230 manual Two-Point Buffer Calibration Span

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Procedure:

1.Press the appropriate MENU SELECTION key to reach the Electrode Standardization Menu and locate the cursor under the "1" as illustrated in section 3.2.4.

2.For diagnostic reasons note the pH and mV values from the prior calibration.

3.Clean the electrode and insert the sensor into the desired buffer.

4.Press both horizontal CALIBRATE keys simultaneously to enter the calibrate mode. Observe the diagnostic value on the bottom line change from historical data to a real-time value and that the term "CAL" has disappeared.

1 pH

7.00

 

-3.2 mV@25

 

 

1 ORP

.0 mV

 

85.9 mVa

 

 

5.To change the buffer point, position the cursor under the desired digit using the left- hand CALIBRATE key.

6.Increase or decrease the value by pressing the appropriate vertical CALIBRATE key.

7.Wait for the real-time mV value to stabilize.

8.To file the calibration and exit the calibrate mode, press either MENU SELECTION key.

6.4Two-Point Buffer Calibration (Span)

When first installing an electrode, a two-point buffer calibration should be used to compensate for electrode slope variations or efficiency.

Procedure:

1.Perform a one-point calibration as outlined in section 5.3.

2.Press the appropriate MENU SELECTION key to reach the Electrode Span Menu and locate the cursor under the "2" as illustrated in section 3.2.5.

3.For diagnostic reasons note the pH and mV values from the prior calibration.

4.Press both horizontal CALIBRATE keys simultaneously to enter the calibrate mode. Observe the diagnostic value on the bottom line becomes a real-time value and that the term "CAL" has disappeared.

2 pH

4.00

 

-58.2 mV/pH

2 ORP

180.0 mV

 

.980 mV/ORP

5.To change the buffer point, position the cursor under the desired digit using the left- hand CALIBRATE key.

6.Increase or decrease the value by pressing the appropriate vertical CALIBRATE key.

7.Wait for the real-time mV value to stabilize.

8.To file the calibration and exit the calibrate mode, press either MENU SELECTION key.

A perfect electrode slope (efficiency) is -59.1 mV/pH and ORP is 1mV/mV. If the value falls below -50.0 mV/pH or ORP .9 mV/mV, the electrode should be serviced or replaced.

IMPORTANT

If a flashing asterisk appears during or after calibration, the electrode may require service, or the buffer solution may be contaminated. Refer to section 5.6 for details.

NOTE:

Comparing the millivolt values before and after the calibration provides a valuable

Model LXT-230 Instruction Manual / 14

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Contents Model LXT-230 Transmitter Table of Contents Temperature Units Calibration Celsius/Fahrenheit Conversion Unpacking the Instrument General DescriptionDual Output Optional PID Output OptionalDual Input Optional Three Outputs OptionalSensor Wiring InstallationPower Wiring MountingDisplay Menus and Screens FamiliarizationKey Functions Electrode Standardization Menu Electrode Diagnostic ScreenMain Menu Electrode Span MenuTemperature Calibration Menu Output Calibration MenuSentinel Diagnostics Diagnostic set up and configuration menusPage Replacement of the Microprocessor MaintenanceCleaning Calibration Manual Output ModeContrast Adjustment One-Point Buffer Calibration StandardizeTwo-Point Buffer Calibration Span Back-to-Factory Calibration Calibration Using a Grab Sample as a StandardProcedure at the Standardization Menu Output CalibrationProcedure for trim adjust Temperature Calibration Trim AdjustmentTemperature Units Calibration Celsius/Fahrenheit Conversion Page LXT-230 Model Number Designators TMP1Check polarity of transmitter Troubleshooting GuideWiring Check the sensor Appendix a Specifications Measurement Range

LXT-230 specifications

The Teledyne LXT-230 is a versatile and advanced sensor solution tailored for the demanding realms of aerospace, defense, and industrial applications. Designed to meet the high-performance requirements of these sectors, the LXT-230 brings together a blend of cutting-edge technologies and robust design to ensure reliability and precision.

One of the standout features of the LXT-230 is its exceptional data processing capability. The sensor incorporates a powerful onboard processing unit, which enables real-time data analysis and decision-making. This feature is crucial in applications where time is of the essence, such as in defense systems or real-time surveillance. The onboard processing not only enhances the speed of data acquisition but also reduces the need for extensive external processing resources.

In terms of sensing technology, the LXT-230 utilizes advanced photonics and electronic systems, allowing it to capture a diverse range of environmental parameters with high accuracy. Its multi-modal sensor architecture enables it to function effectively across various spectrum ranges, ensuring its adaptability to different operational contexts. Whether it’s monitoring atmospheric conditions, assessing structural integrity, or gathering intelligence, the LXT-230 excels in delivering reliable and precise outcomes.

The robust construction of the LXT-230 further enhances its appeal. Designed to withstand extreme environmental conditions, the sensor features robust materials that offer resistance to harsh weather, vibrations, and temperature fluctuations. This durability makes it particularly well-suited for deployment in remote and challenging locations, where other sensors might fail.

Another notable characteristic of the Teledyne LXT-230 is its user-friendly interface and flexible connectivity options. The system supports multiple communication protocols, allowing for seamless integration with other hardware and software platforms. This versatility ensures that operators can easily implement the LXT-230 into existing systems without undergoing substantial modifications.

Additionally, the LXT-230 is designed with energy efficiency in mind. Its low power consumption allows for extended operational periods, crucial for applications where continuous monitoring is required. As industries increasingly focus on sustainability and reduced operational costs, this energy-efficient design presents a significant advantage.

In summary, the Teledyne LXT-230 stands out as a premier sensor solution in today's tech-driven landscape. Its advanced processing capabilities, adaptable sensing technologies, robust construction, and user-friendly design make it an indispensable tool across various applications. Whether utilized in military operations, industrial monitoring, or scientific research, the LXT-230 is poised to deliver performance and reliability in challenging environments.