Fluke Ti20 user manual Operating the Controls, Focusing the Imager

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Getting Started

1

 

 

Operating the Controls

 

 

Table 1-3. Features and Controls

 

 

 

 

 

 

 

Number

Description

 

 

 

 

 

 

 

 

A

Focus control

 

 

 

 

 

 

 

 

B

Optical channel

 

 

 

 

 

 

 

 

C

Laser aperture

 

 

 

 

 

 

 

 

D

Wrist strap and attachment clip

 

 

 

 

 

 

 

 

E

Trigger. The trigger is used to freeze a thermal image. Press the trigger one time to freeze

 

 

 

 

the image for evaluation. You can save the image or press and release the trigger again to

 

 

 

 

delete the image.

 

 

 

 

 

 

 

 

F

USB port

 

 

 

 

 

 

 

 

G

AC adapter terminal

 

 

 

 

 

 

 

 

H

Display

 

 

 

 

 

 

 

 

I

The three soft keys (F, G, and H) are used to navigate the menu structure of the

 

 

 

 

Imager, access all functions, and select values for the various adjustable parameters. The

 

 

 

 

Gsoft key is also used to turn the Imager On and Off. Press and hold Gfor two

 

 

 

 

seconds to turn off the Imager.

 

 

 

 

 

 

 

 

J

Battery compartment

 

 

 

 

 

 

 

 

K

Threaded tripod mount

 

 

 

 

 

 

 

Operating the Controls

The following sections describe the purpose and function of the two Imager controls, focus and trigger.

Focusing the Imager

Proper focus is critically important in radiometric imaging applications. The correct focus ensures that the infrared energy is being properly directed onto the pixels of the detector. Without the correct focus, the thermal image appears blurry and the radiometric data will be inaccurate. Correct focus is necessary to accurately capture a thermal image.

Focus the Imager by turning the focus control in a clockwise or counterclockwise direction (similar to the operation of a single lens reflex 35 mm photographic camera). The Imager is designed to focus at a minimum distance of 61 cm (24 in) or less (rotated fully clockwise as viewed from the rear of the instrument) and to a maximum of infinity (rotated fully counterclockwise).

As you turn the focus control, you will see a changing, live, thermal image on the display. When your target comes into focus, it will appear sharper. When the target moves out of focus, it becomes blurry. One way to verify proper focus is to find what focus adjustment produces the highest temperature indication on the display (keeping emissivity and Reflected Temperature Compensation (RTC) values constant, preferably with emissivity set at 1.0 and RTC disabled). See Figure 1-4 for an illustration of focusing the Imager.

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Contents Ti20 Limited Warranty and Limitation of Liability Table of Contents Ti20 List of Tables Ti20 List of Figures Ti20 Getting Started IntroductionContacting Fluke Symbols Safety InformationLaser Warning Labels Ti20Unpacking the Imager Standard AccessoriesUnpacking the Imager Ti20 Features and ControlsOperating the Controls Focusing the ImagerUnderstanding the Trigger Ti20Using the AC Power Adapter Using the AC Power AdapterCharging and Replacing the Batteries Using the Battery ChargerReplacing the Battery Pack Installing or Replacing the BatteriesAttaching the Wrist Strap Attaching the Wrist StrapInputs and Connections Connecting the USB CableCleaning Cleaning the CaseMounting the Imager on a Tripod Cleaning the Lens Ti20 Turning the Imager On and Off Basic OperationImager Home Display Zones Understanding the Home DisplayContents of the Home display is described in Table Aiming and Activating the Laser Comparing Frozen Images to Stored Images Capturing ImagesAdjusting the Backlight Setting the Level Setting the Temperature ScalePress Flevel to access the set Level function Adjusting the Span Using Distance to Spot Size Ratio DSManually Activating the Calibration Flag FOV Environmental Conditions Ambient Temperature Derating and Thermal ShockEmissivity Tape methodContact thermometer method Reflected Temperature Compensation Reflected Temperature CompensationTi20 Advanced Imager Operation Data Management and StorageViewing Stored Images Deleting Images Selecting a Palette Adjusting Emissivity Press FNto access the Adjust Emissivity display Adjusting Reflected Temperature Compensation Values Setting Alarm Limits Dag124f.bmp Adjusting Sleep Mode Ti20 Appendices Page Glossary Calibration Source Display ResolutionBlackbody CalibrationFull Scale Accuracy Field of View FOVFocus Point or Distance Full ScaleMinimum spot size Optical ResolutionLevel Micron or µmRepeatability Reflected Temperature CompensationResolution Relative HumidityTemperature Resolution Storage Temperature RangeTemperature Temperature Coefficient or Ambient DeratingWhy use non-contact infrared thermometers? Basics of Infrared MeasurementHow does IR work? What is emissivity? How to assure accurate temperature measurement?What is the distance to spot ratio? How to take temperature measurement?What are some uses for non-contact thermometers? Ti20 Typical Emissivity Values Table C-1. Emissivity Values for Metals Material To 14 µm Table C-1. Emissivity Values for Metals Material To14 µm Tin Unoxidized 0.3 Titanium Polished Typical Emissivity Values Ti20 Thermal SpecificationsOther
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