Benutzeranleitung / Produktwartung ThermoView Ti30 des Produzenten RayTek
Zur Seite of 83
ThermoView Ti30 User’s Manual July 1, 2003 Version 1.0 i i Tel: (01943) 602001- WWW.ISSLTD.CO.UK - Fax: (01943) 816796 Systems & Services PO Box 1 Ilkley W est Y orkshire LS29 8EU Phone: 01943 602001 Fax : 01943 816796 Phone: 01943 602001 Fax : 01943 816796 Ltd i nstrumentation n Website : www .
CONTENTS Introduction ..................................................................................................................... 7 Quick Specifications Table ..................................................................................
Looking at Your Downloaded Images .......................................................................... 38 Chapter 4 Obtaining the Best Image ........................................................ 41 The Importance of Focusing .................
Appendix B – Infrared Theory Q&A........................................................ 71 Glossary ....................................................................................................... 75 July 1, 2003 - 4 - Version 1.0 i i Tel: (01943) 602001- WWW.
© 2003 Raytek Corporation. The information contained in this document is subject to change without notice. Raytek and the Raytek logo are registered trademarks and ThermoView and InsideIR are trademarks of Raytek Corporation. Windows is a registered trademark of Microsoft Corporation in the United States and/or other countries.
Customer Service Contact Information Instrumentation Systems & Services Ltd P.O. Box 1 ILKLEY West Yorks LS29 9QE UK July 1, 2003 - 6 - Version 1.0 i i Tel: (01943) 602001- WWW.
Introduction The Raytek ThermoView Ti30 imager is a state-of-the-art, lightweight, gun-grip style thermal imaging unit that lets you obtain instant and accurate thermal images and radiometric readings at a remote distance from your target.
Quick Specifications Table Thermal Measurement Range 0 to 250°C (32 to 482°F) Accuracy ± 2% or ± 2°C, whichever is greater at calibration geometry and 25°C Repeatability ± 1% or ± 1°C, whichever is greater NETD 250 mK Thermal Temperature Indication Resolution 0.
Chapter 1 Unpacking Your New Imager Begin by opening the shipping box. Be sure to save the box and shipping materials in the event you need to ship the imager.
First, the Batteries The battery compartment is located in the handle of the unit. The unit is shipped with an empty battery pack for non-rechargeable batteries installed in the battery compartment. Battery Lock Tab Remove the empty battery pack from the battery compartment.
At this point, you have two options: insert six new AA batteries into the empty non- rechargeable batteries pack or replace it with the supplied rechargeable battery pack.
Charging the Rechargeable Battery Pack Connect the docking station to a power outlet using the supplied universal power adapter. Be sure to use the plug adapter that fits your local electrical standards. Connect the power jack of the power adaptor to the DC power inlet located on the docking station.
A charge cycle takes a rechargeable battery pack from whatever level of charge it presently has and brings it to a fully charged condition. The charger will not over-charge a battery pack no matter how many times the button is pushed. ght Restart / Sync button GREEN light RED li Figure 4.
Chapter 2 Getting Started Your ThermoView imager has settings and capabilities that let you customize its operation for the task at hand. The following section describes each setting on the imager.
Turning the Unit On Power is switched on or off by opening or closing the lens door. Sliding down the lens door turns the imager on (see Figure 6 below).
x Unit Serial Number x Date and Time (configured by the user through the software) x Tag name is the name of the user-defined folder from which data was uploaded through the software. Useful tag names are department names or area associated with the unit.
Figure 8. Normal Mode Mode icon Palette icon LCD backlight icon Target Temperature Emissivity value Location name Temperature scale Take time to experiment with the imager and become familiar with how the thermal image is updated on the display as you aim the imager at different targets with different thermal patterns.
Settings and Controls Keypad Three buttons located below the LCD screen allow you to select operation modes and change parameter values. These buttons are the MODE button, the Up button, and the Down button. The Up and Down buttons are used mostly to increment and decrement parameter values.
Pull door up to show control swi tches Push buttons (toggle) 3-position Switches Thum bwheels Figure 10. ThermoView Imager Settings Switches (icons not show n) The illustration below shows the top view of the switch bay without the door.
Figure 11. ThermoView Imager Settings Switches Laser On/Off Toggle Button LCD back light selection Palette selection Measurem ent m ode selection Level ad j ustm ent Gain a d j ustm ent Laser ON/OFF Centigrade / Fahrenheit selec tion The Laser On/Off toggle button switches the laser on and off.
Laser Apertur e Optical Channel Figure 12. Laser Aperture and Optical Channel Note: The laser is only a sighting aid. It is not required to take measurements. The laser is not coaxial with the infrared channel, thus the laser dot is offset from the center of the thermal image.
Centigrade/Fahrenheit Toggle Button Centigrade/Fahrenheit button toggles the displayed temperature data in either Centigrade or Fahrenheit temperature scales. The factory default is Centigrade. LCD Backlight Illumination Switch LCD Backlight Illumination switch provides three backlight illumination levels as shown below.
There are three measurement mode positions associated with this switch: Automatic Semi Automatic Manual In Automatic mode the ThermoView imager automatically adjusts the image to show the lowest temperature value present in the thermal scene (MIN) and the highest temperature value in the scene (MAX).
Focus W heel Figure 14. Location of the Focus Wheel See The Importance of Focusing on page 41 for more details. Trigger Actuating the trigger freezes an image prior to storage. While in a regular measurement mode, pull the trigger momentarily, release it, and the thermal image on the display will be frozen so you can evaluate it for storage.
Man Machine Interface Flow Charts Main Loop July 1, 2003 - 25 - Version 1.0 i i Tel: (01943) 602001- WWW.ISSLTD.CO.UK - Fax: (01943) 816796.
Image Recording Procedure Emissivity Adjustment Procedure July 1, 2003 - 26 - Version 1.0 i i Tel: (01943) 602001- WWW.ISSLTD.CO.UK - Fax: (01943) 816796.
Reflected Temperature Compensation Adjustment Procedure Recall Images Procedure July 1, 2003 - 27 - Version 1.0 i i Tel: (01943) 602001- WWW.ISSLTD.CO.
Quick Image Fix Procedure Array Recalibration Procedure Recording an Image Recording images with the ThermoView imager is simple. Repeat the steps below and record as many images you want until you get familiar with the process. x First, note the number of the current image location.
Note: To erase an image, just store a new image over the one you wish to delete. To do this, go to Recall Images Procedure, press Down button once to decrement the location, press Mode button or trigger to get back to measurement mode, and pull trigger again to save a new image.
Chapter 3 Downloading and Looking at Images This chapter begins with the InsideIR software installation. Prior to installing the software however, please take a moment to verify that your computer mee.
Connecting the Docking Station to Your Computer The docking station provides a solid and convenient base for the ThermoView imager. The docking station keeps the ThermoView imager available and connected to the computer or workstation. In addition, it keeps the batteries charged and ready to go.
Figure 18. Connecting the USB Connector to the USB Port x Dock the imager in the docking station. x The first time you place the imager in its docking station and press the SYNC button with the docking station connected, your computer's operating system will detect new hardware and locate the correct communication driver.
Figure 20. InsideIR Main Screen at Program Launch If you wish to view the sample images now, click the plus sign to the right of the Samples folder to open it. Then double-click on the session name ( My collection , in our example below). Figure 21. InsideIR Main Screen With Session Open July 1, 2003 - 33 - Version 1.
Downloading Images You are now ready to download the images you recorded in your ThermoView Ti30 imager. Locate the SYNC button in the docking station.
Figure 23. Download Data Screen You can browse through the images by clicking and dragging the horizontal and vertical scroll bars. You cannot delete individual images. You must decide whether to save the entire collection or not. Click Save Data to save it.
Figure 24. Contents of Images Folder Your newly recorded images appear as thumbnails as they are downloaded into the program. Each set of images is in a fixed order so that you cannot rearrange the images. Use the scroll bars to browse through the thumbnail images.
The following window appears: 2. Click the Date arrow to see the calendar. The following window appears: x Click on the side arrow buttons to change the current year / month x Click to select the day of the month. The following windows appears: July 1, 2003 - 37 - Version 1.
x To set the current time, click on the hour and min (minute) boxes to enter time information. Use the 24-hour time format only. x Press the Set button to upload the information to the imager.
Figure 26. Viewing Thumbnail Images You can view a larger version of a single image by clicking on the thumbnail of the image you wish to view. When viewing a single image, you may move to the next or the previous image by clicking on the Previous Image or Next Image button on the left side of the screen (see Figure 27 below).
Figure 27. Viewing a Single Image July 1, 2003 - 40 - Version 1.0 i i Tel: (01943) 602001- WWW.ISSLTD.CO.UK - Fax: (01943) 816796.
Chapter 4 Obtaining the Best Image The Importance of Focusing The focusing ability of the imager is similar to the one found on regular photographic cameras, and it is defined as the ability to adjust.
Tip: When focusing an image, look for identifiable patterns or shapes on the object surface that can help establishing the best image definition. Objects contours, dividing lines or limits are particularly useful. Proper focusing is not only important to the image quality, but also greatly affects the accuracy of temperature measurements.
temperature value in the scene (MAX). The MIN and MAX values are displayed at the beginning and at the end of color scale. This mode does not require any other adjustment (other than properly focusing the unit). Automatic mode is recommended every time the user first starts looking at a given target since the temperature limits are unknown.
Graphically, it would look like this: The imager automatically calculates Level and Gain when switched from Automatic to Manual or Semi Automatic modes, thus providing a smooth and meaningful transition of the thermal boundaries of the scene.
In Manual mode the user can adjust Gain and Level manually. Use this measurement mode when you need more freedom to define Level and Gain values. This mode provides the flexibility to bring both MIN and MAX values to the desired cut-off levels and to adjust the temperature interval to a minimum, thus maximizing color resolution.
Chapter 5 Qualitative and Quantitative Temperature Measurements Most of the time thermal imager users are measuring apparent temperatures that are inextricably linked to qualitative inspections. Qualitative inspections focus on temperature differences as opposed to actual temperatures .
D:S ratio: D / S = 90 The number “90” means that at a distance D equal to 1 meter the unit will measure a circle of diameter S equal to 1.1cm (1meter divided by 90); at distance D equal to 2 meters it will measure a circle with diameter S equal to 2.
Figure 30. Field of View Tip: When accuracy is critical make sure that the target is at least twice as large as the spot size. Environmental Conditions Watch for environmental conditions in the working area. Steam, dust, smoke, etc., can prevent accurate measurement by obstructing the path between the target and the unit's optics.
Emissivity Emissivity is the measure of an object's ability to emit infrared energy. Emitted infrared energy is exponentially proportional to the temperature of the object. Emissivity can have a value from 0 (shiny mirror, perfect reflector) to 1.
furnaces, or other heat sources) have a temperature much higher than that of the target. In these situations it is necessary to compensate for the reflected energy from those objects. Note: The Reflected Temperature Compensation (RTC) feature is disabled if the emissivity is set to 1.
Chapter 6 Organizing Your Data The ThermoView imager when used together with the InsideIR software provides a powerful way to organize and track maintenance data.
Uploading Data to the Imager Click the Upload Setup Imager button on the InsideIR main screen to upload data to the ThermoView imager. This displays the following screen: Select the folder and session you want to upload and press Next . Figure 33. Uploading Data to Your ThermoView Ti30 Imager July 1, 2003 - 52 - Version 1.
If you wish to change parameters for different locations such as location name, emissivity, reflected temperature compensation, low and high alarms, and comments, you can do so by right-clicking the thumbnail of the image you wish to edit, clicking Edit data in the pop-up menu, and changing the desired field(s).
Note 2: If you wish to restore the default parameters on the unit press the Restore button. By doing this all 100 locations on the imager will be restored with the factory parameters.
Chapter 7 Analyzing Your Data There are many ways to analyze your thermal data now that you have it downloaded and organized. After clicking on a thumbnail in the Main InsideIR screen, the data for that specific thermal image is displayed in one of four tabs: Image, Temperature Table, Profile, and Histogram.
Figure 35. Sample Image at Original Scale Limits Figure 36. Sample Image After Increasing Scale Limits July 1, 2003 - 56 - Version 1.0 i i Tel: (01943) 602001- WWW.
Isotherms When the Isotherm radio button at the bottom of the Image screen is selected, the limit bar underneath the image shows the temperature range captured in the current thermal image. The red area on the limit bar indicates the range of temperatures displayed in red in the image.
Figure 38. Sample Image After Adjusting Isotherm Level Additional Image Analysis Tools You can tile the window vertically or horizontally by selecting the appropriate choice under the Window menu. The tiled windows may then be resized by grabbing any corner of the window and dragging accordingly.
Figure 39. The Temperature Table As mentioned above, this data can be saved as a .txt file, for import into a spreadsheet program for your own in-depth analysis.
Figure 40. The Profile Tab The Histogram Tab The Histogram tab provides a summary of the pixel data presented on the previous screens. The histogram displays temperature values as either a percentage of the all temperature values captured in a given thermal scene, or by number of representative pixels in the thermal scene.
Figure 41. The Histogram Tab – Changing the Histogram Limits If you wish to use the chart or chart data in another program, you may select Copy Chart on the Images > Histogram menu. The information will be saved to your Windows clipboard, and can then be pasted into Word or Excel, using either the Paste or Paste Special command.
ThermoView Imager Info Product-specific information about each ThermoView Ti30 imager you have used with a specific computer. This is useful when contacting the factory for service information.
Image Note: The Image menu items are only active when at least one image is selected. Export Image Allows you to save an image for use with another application in any of the following file formats: x .bmp x .jpg x .gif x .png x .tiff x .
Copy Profile Chart Saves the chart from the Profile tab to your Windows clipboard, and can then be pasted into Word or Excel, using either the Paste or Paste Special command. Window Cascade Cascades all open windows. Tile Horizontal If you have more than one window open, this command will divide display them tiled horizontally.
Reporting Your Findings The ThermoView Ti30 imager provides report forms for you to use in reporting your findings. To generate a report, you must first select an image from a given location. Then select Image from the Menu Bar and choose Create Report from the drop down list.
Appendix A - Technical Reference Imager Accuracy Chart The following graph shows the measurement accuracy for a typical instrument over the measurement range of 0 – 250ºC. The heavy lines show the specified accuracy. 0 50 100 150 200 250 4 2 0 2 4 SOURCE TEMPERATURE [C] READING ERROR [C] Specification Measured Data July 1, 2003 - 66 - Version 1.
Imager Reading Error vs Source D:S The following example uses the above Typical Reading Error vs. Source D/S graph: A 5" diameter source (Size = 5) at a Distance of 50" has D/S = 50/5 = 10. According to the above graph the imager would read less than 1% low in temperature (as shown by the dashed line) for this size target.
Table 1. Emissivity Values for Metals Material Emissivity 1.0µ m 1.6µ m 8-14µm Aluminum Unoxidized 0.1-0.2 0.02-0.2 n.r. Oxidized 0.4 0.4 0.2-0.4 Alloy A3003, Oxidized n.r. 0.4 0.3 Roughened 0.2-0.8 0.2-0.6 0.1-0.3 Polished 0.1-0.2 0.02-0.1 n.r. Brass Polished 0.
Material Emissivity 1.0µ m 1.6µ m 8-14µm Oxidized 0.5-0.9 0.4-0.9 0.2-0.6 Unoxidized 0.25-0.35 0.1-0.35 0.1 Monel (Ni-Cu) 0.3 0.2-0.6 0.1-0.14 Nickel Oxidized 0.8-0.9 0.4-0.7 0.2-0.5 Electrolytic 0.2-0.4 0.1-0.3 n.r. Platinum Black n.r. 0.95 0.9 Silver n.
Material Emissivity 1.0µ m 1.6µ m 8-14µm “Gob” n.r. 0.9 n.r. Gravel n.r. 0.95 0.95 Gypsum n.r. 0.4-0.97 0.8-0.95 Ice n.r. — 0.98 Limestone n.r. 0.4-0.98 Paint (non-Al.) — 0.9-0.95 0.9-0.95 Paper (any color) n.r. 0.95 0.95 Plastic (opaque, over 20 mils) n.
Appendix B – Infrared Theory Q&A Q. Why use noncontact infrared thermometers? A. Noncontact infrared (IR) thermometers use infrared technology to quickly and conveniently measure the surface temperature of objects. They provide fast temperature readings without physically touching the object.
Q. How to assure accurate temperature measurement? A. A solid understanding of infrared technology and its principles lies behind accurate temperature measurement.
temperature of a shiny object you can compensate by covering the surface to be measured with masking tape or flat black paint. Allow time for the tape or paint to reach the same temperature as the material underneath. Measure the temperature of the taped or painted surface.
that the target is at least twice as large as the spot size. Q. How to take temperature measurement? A. To take a temperature measurement, just point the unit at the object you wish to measure. Be sure to consider distance-to-spot size ratio and field of view.
Glossary Absolute Zero The temperature (0 Kelvin) of an object defined by the theoretical condition where the object has zero energy. Accuracy Maximum deviation, expressed in temperature units, or as .
Background Temperature Temperature behind and surrounding the target, as viewed from the instrument. Blackbody A perfect emitter; an object that absorbs all the radiant energy incident on it at all wavelengths and reflects and transmits none. A surface with emissivity of unity (1.
Display Resolution The level of precision to which a temperature value can be displayed, usually expressed in degrees or tenths of degrees. Drift The change in instrument indication over a long period of time, not caused by external influences on the device (per the ASTM standard test method E 1256-88).
Focus Point (or Distance) The distance from the instrument where the optical resolution is greatest. Full Scale The maximum of the temperature range or output signal. Full Scale Accuracy A convention for expressing the accuracy as percentage of an instrument’s (highest) full- scale temperature.
LAL Low Alarm. Units with this feature can sound an alarm when they sense that a user-defined low temperature has been reached. Laser Single or dual lasers are used in some units for aiming and/or locating the optimum temperature measurement point. LOC Location.
Non-Gray Body A radiating object that is partly transparent to infrared (transmits infrared energy at certain wavelengths); also called Colored Bodies.
Reflected Temperature Compensation Correction feature used to achieve greater accuracy when, due to a high uniform background temperature, IR energy is reflected off the target into the instrument. If the background temperature is known the instrument reading can be corrected by using this feature.
Spectral Response The wavelength region in which the IR Thermometer is sensitive. Spot The diameter of the area on the target where the temperature determination is made.
Temperature Resolution The minimum simulated or actual change in target temperature that gives a usable change in output and/or indication (per the ASTM standard test method E 1256-88). Thermal Shock A short-term error in accuracy caused by a transient ambient temperature change.
Ein wichtiger Punkt beim Kauf des Geräts RayTek ThermoView Ti30 (oder sogar vor seinem Kauf) ist das durchlesen seiner Bedienungsanleitung. Dies sollten wir wegen ein paar einfacher Gründe machen:
Wenn Sie RayTek ThermoView Ti30 noch nicht gekauft haben, ist jetzt ein guter Moment, um sich mit den grundliegenden Daten des Produkts bekannt zu machen. Schauen Sie zuerst die ersten Seiten der Anleitung durch, die Sie oben finden. Dort finden Sie die wichtigsten technischen Daten für RayTek ThermoView Ti30 - auf diese Weise prüfen Sie, ob das Gerät Ihren Wünschen entspricht. Wenn Sie tiefer in die Benutzeranleitung von RayTek ThermoView Ti30 reinschauen, lernen Sie alle zugänglichen Produktfunktionen kennen, sowie erhalten Informationen über die Nutzung. Die Informationen, die Sie über RayTek ThermoView Ti30 erhalten, werden Ihnen bestimmt bei der Kaufentscheidung helfen.
Wenn Sie aber schon RayTek ThermoView Ti30 besitzen, und noch keine Gelegenheit dazu hatten, die Bedienungsanleitung zu lesen, sollten Sie es aufgrund der oben beschriebenen Gründe machen. Sie erfahren dann, ob Sie die zugänglichen Funktionen richtig genutzt haben, aber auch, ob Sie keine Fehler begangen haben, die den Nutzungszeitraum von RayTek ThermoView Ti30 verkürzen könnten.
Jedoch ist die eine der wichtigsten Rollen, die eine Bedienungsanleitung für den Nutzer spielt, die Hilfe bei der Lösung von Problemen mit RayTek ThermoView Ti30. Sie finden dort fast immer Troubleshooting, also die am häufigsten auftauchenden Störungen und Mängel bei RayTek ThermoView Ti30 gemeinsam mit Hinweisen bezüglich der Arten ihrer Lösung. Sogar wenn es Ihnen nicht gelingen sollte das Problem alleine zu bewältigen, die Anleitung zeigt Ihnen die weitere Vorgehensweise – den Kontakt zur Kundenberatung oder dem naheliegenden Service.
