Laserliner Thermo Camera HighSense Pro User Manual
- June 9, 2024
- Laserliner
Table of Contents
Thermos Camera Highnesses Pro
User
Manual
Thermos Camera Highnesses Pro
Completely read through the operating instructions, the „Warranty and
Additional Information“ booklet as well as the latest information under the
internet link at the end of these instructions.
Follow the instructions they contain. This documents must be kept in a safe
place and if the device is passed on, this documents must be passed on with
it.
Function / Application
This thermal imaging camera provides non-contact temperature measurement of
surfaces. The device evaluates the radiation in the infrared wavelength via an
integral, uncooled microbolometer. The sensor‘s imaging technology provides a
visual image of the temperatures surrounding the inspected object. Optimum
visualisation of the temperature differences is achieved by colour coding the
different measured temperatures in a thermogram using a false colour display.
The additional digital camera allows photographs to be taken of the inspected
area for recording purposes. Amongst other things, the product is suitable for
detecting thermal bridges and insulation errors in buildings, analyzing
heating systems, locating overheated components, cables and fuses, and
identifying defective solar cells in PV modules. The device is operated
directly using the colour touchscreen display and the focus is adjusted
manually. Analysis can be carried out on infrared, digital or MIX images. The
MIX image provides an extremely easy to interpret and comprehensive
representation of the temperature profiles by combining digital and infrared
images. Measured data can be saved to an exchangeable SD card and transferred
to a PC via the USB-C interface. The Custom Apps function offers optimized
default parameter settings for an extremely wide range of uses. This allows
thermal imaging camera applications to be set quickly and safely for each
specific use. Ten menu languages and a 1/4″ tripod connection are also
included.
General safety instructions
- The device must only be used in accordance with its intended purpose and within the scope of the specifications.
- The measuring tools and accessories are not toys. Keep out of reach of children.
- Modifications or changes to the device are not permitted, this will otherwise invalidate the approval and safety specifications.
- Do not expose the device to mechanical stress, extreme temperatures, moisture or significant vibration.
- The device must no longer be used if one or more of its functions fail or the battery charge is weak.
- Use only original accessories. Using other accessories invalidates the warranty.
- When using the device outdoors, make sure that the weather conditions are appropriate and/or that suitable protection measures are taken.
- Use the power supply/charger unit only in closed rooms; do not expose to moisture or rain otherwise risk of electric shock.
- The battery may only be charged with the power pack/charger and charging cradle provided and used only with this laser device. Any other use may cause injury or fire. The battery can also be charged directly in the device using the USB-C cable provided.
- Charge the device‘s battery completely prior to use.
- Make sure there are no conductive objects in the vicinity of the battery contacts. Short-circuiting of these contacts can cause burn injuries or fire.
- Do not open the rechargeable battery. This could cause short-circuits.
- The charging process is complete when the battery symbol with five stripes is permanently superimposed on the display.
- If the battery has a weak charge, the battery symbol is shown in red and a written warning appears in the display.
- Disconnect the power pack from the mains when the device is not in use.
Safety instructions
Using electromagnetic radiation and RF wireless radiation
- Local operating restrictions – for example, in hospitals, aircraft, petrol stations or in the vicinity of people with pacemakers – may apply. Electronic devices can potentially cause hazards or interference or be subject to hazards or interference.
- The measuring accuracy may be affected when working close to high voltages or high electromagnetic alternating fields.
- The measuring device is equipped with a wireless interface.
- The measuring device complies with electromagnetic compatibility and wireless radiation regulations and limits in accordance with the RED 2014/53/EU.
- Umaru GmbH & CO. KG hereby declares that the ThermoCamera Highnesses and
Thermos Camera High Sense Pro radio equipment meets the specific requirements and other provisions of the European Radio Equipment Directive 2014/53/EU (RED). The complete texts of the EC declaration of conformity is available at the following internet address:
ThermoCamera Highnesses: https://packd.li/ll/alf/in
ThermoCamera Highnesses Pro: https://packd.li/ll/alg/in
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Shaft
-
3,5″ TFT colour display and touchscreen
-
Hot keys
-
Battery pack
-
1/4″ tripod connection
-
Camera
a Media gallery / Shutter
b Change temperature mode / ON/OFF
c Hot keys / Manual IR calibration
d Confirm/Next / Custom Apps -
Infrared camera lens
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Focusing ring
-
Suspension eye Lens cover
-
Trigger: Capture
-
USB-C interface
-
Micro-SD card
Standard measurement view
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Temperature unit
-
Unit of distance
-
Set emissivity coefficient
-
Zoom factor
-
Video recording
-
Micro-SD card inserted
-
WLAN active
-
Battery charge indicator
-
Time
-
Centre point temperature
-
Centre point marking
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Thermography image
-
Temperature range
-
Max. temperature
-
Colour spectrum with temperature range
-
Min. temperature
-
Select temperature mode
Main menu -
Main menu
-
above/below alarm
-
Set parameter
-
Set measurement point
-
Set image
-
Change colour pallet
-
General and measurement- specific settings
-
ON / OFF
-
Charging the li-ion battery
To charge the Li-Ion battery pack, plug the supplied power supply/battery charger into charging socket „11“ and connect it to an appropriate power source. Operation while charging is possible. -
Inserting micro-SD card
To insert a micro-SD card, first open the rubber cover and then insert the memory card as illustrated. SD card prerequisite: microSD, class 10, FAT32 -
Removing / inserting li-ion battery pack
Open battery compartment (12). Before removing the battery, switch off the device and disconnect it from the mains. -
Main menu
General and measurement-specific settings can be made in the main menu. The menu is controlled directly or via the touchscreen.
Alarm: Set the alarm above and below the specified temperature level.
Parameter: Before each use, check the relevant parameters for infrared
measurement or adjust them to the specific measuring situation to ensure
accurate measurements. In doing so, please pay particular attention to the
general parameters with respect to the emissivity coefficient, distance to
target and ambient conditions.
Measuring de v ice: Set the measurement points and areas.
Image mode: Select image mode from IR Thermal, MIX Image, Visible image,
Auto Fusion and Zoom.
Colour palettes: Several colour palettes are available to display the
infrared temperatures.
Settings: Set language, temperature units, date, time, etc., display the
WLAN connection, select CustomApps, automatic switch off and display
information about the device.
Alarm : Below MIN / above MAX alarm
The
alarm threshold values above and below the specified temperature levels can be
set in this menu.
Instructions for activating the alarm are provided in Section 14.3.
7.0 Parameter: Ambient temperature
Influences measurements taken with the
thermal imaging camera are affected by the ambient temperature.
This parameter compensates the influence of the ambient temperature on the
measurement. This can be set between 0 °C and 50 °C.
7.1 Parameter: Reflection temperature
Infrared measurements of specific objects can be affected by reflection from
other objects nearby or even from the ambient air because the measured object
cannot be fully isolated. The reflection temperature setting can help
compensate for the interference. The reflection temperature is generally the
same as the ambient temperature. However, if larger objects with significantly
different temperatures (approx. > 20 °C) are in close proximity to the
measured area, its effects must be taken into account. For this purpose,
follow these steps: 
- Set emissivity coefficient to 1.0
- Blur the object out of focus (Refer to Section 15.1)
- Aim the camera in the opposite direction of the actual measured object
- Determine the average temperature
- Set the average temperature as the reflection temperature
7.2 Parameter: Relative humidity High humidity can lead to the lens of the
thermal imaging camera misting over which means the infrared radiation is not
fully received. The infrared radiation is absorbed on the way to the lens by
the atmosphere and distributed by the water vapour suspended in the air,
amongst other things (relative humidity).
These influences should be taken into consideration, particularly when the distance to the measured object exceeds around 30 m. This can have a negative influence on the measuring accuracy. The parameter can be set from 10 % to 100 % to compensate for the influence of the relative humidity. Thick fog can also affect the measurement as the water droplets in the transmission path allow less infrared radiation through.
7.3 Parameter: Temp. Compensation
The
temperature compensation can be set between
-5.0 °C and +5.0 °C.
7.4 Parameter: Distance
Air contains many different substances which can
absorb infrared rays. The infrared radiation from the inspected object
therefore decreases as the distance increases. At distances greater than 10
metres, the atmospheric influences of the air must always be taken into
account. The distance can be set between 0 and 2,000 m.
7.5 Parameter: Emissivity
The level of infrared emissions given off by
everything depends on the specific material and surface.
This factor is determined by the emissivity coefficient (0.10 … 1.0). For accurate measurements, it is absolutely essential that the emissivity coefficient is set first. The emissivity coefficient can either be custom set or selected based on the predefined emissivity coefficients from the material list.
Emissivity table (reference values with tolerances)
Metals
Alloy A3003 Oxidized
Roughened| 0.20
0.20| Iron Oxidized
With rust| 0.75
0.60
---|---|---|---
Aluminium Oxidized
Polished| 0.30
0.05| Iron, cast Non-oxidized Molten mass| 0.20
0.25
Brass Polished Oxidized| 0.30
0.50| Iron, forged Matt| 0.90
Chromium oxide| 0.81| Lead Rough| 0.40
Copper Oxidized Superoxide| 0.72
0.78| Platinum Black| 0.90
Inconel Oxidized Electropolished| 0.83
0.15| Steel Cold rolled
Ground plate Polished plate| 0.80
0.50
0.10
Steel
Alloy (8% nickel,
18% chromium)
Galvanised
Oxidised
Heavily oxidised
Freshly rolled
Rough, flat surface
Rusty, red
Sheet, nickel plated
Sheet, rolled
Stainless steel| 0.35
0.28
0.80
0.88
0.24
0.96
0.69
0.11
0.56
0.45
---|---
Zinc
Oxidized| 0.1
Nonmetals
| Asbestos | 0.93 |
|---|---|
| Asphalt | 0.95 |
| Basalt | 0.7 |
| Brick, red | 0.93 |
| Carborundum | 0.9 |
| Cement | 0.95 |
| Ceramics | 0.95 |
| China Brilliant white With glaze | 0.73 0.92 |
| Clay | 0.95 |
| Coal Non-oxidised | 0.85 |
| Concrete, plaster, mortar | 0.93 |
| Cotton | 0.77 |
| Earthenware, matt | 0.93 |
| Fabric | 0.95 |
| Glass | 0.9 |
| Glass wool | 0.95 |
| Gravel | 0.95 |
| --- | --- |
| Grit | 0.95 |
| Gypsum | 0.88 |
| Gypsum cardboard | 0.95 |
| Heat sink Black, anodized | 0.98 |
| Human skin | 0.98 |
| Ice Clear With heavy frost | 0.97 |
0.98
Laminate| 0.9
Lime| 0.35
Lime malm brick| 0.95
Limestone| 0.98
Marble Black, dull finish Greyish, polished| 0.94 0.93
Masonry| 0.93
Paint Black, matt Heat-resistant White| 0.97 0.92 0.90
Paper All colors| 0.96
---|---
Plastic Translucent PE, P, PVC| 0.95 0.94
Quartz glass| 0.93
Rubber Hard Soft, grey| 0.94 0.89
Sand| 0.95
Screed| 0.93
Snow| 0.8
Soil| 0.94
Tar| 0.82
Tar paper| 0.92
Transformer paint| 0.94
Wallpaper, lightcoloured Water| 0.89
Water| 0.93
Wood Untreated Beech, planed| 0.88 0.94
A simplified table for the emissivity coefficient is available from the
Measurement Settings menu under Emissivity Coefficient.
Before each use, check the settings for infrared measurement and adjust them
to the respective measuring situation to ensure accurate measurements. Pay
particular attention to the general parameters for the emissivity coefficient
and the reflection temperature.
Set measurement
Center point: Measure the temperature in the centre of the image area.
Measure point: Measure the temperature at a manually determined point. A
maximum of three measuring points are available.
Hot/Cold: Measure maximum and minimum temperature.
Area: Measure the temperature in a manually determined area. A maximum of
three measuring areas are available.
Line: Measure the temperature along a horizontal or vertical line in the
display. Both lines can be moved. Particularly small temperature differences
along the line of measurement are indicated graphically by the line display.
Delete: Delete all measuring settings.
Set image
There are five different image modes for display: IR Thermal, MIX Image,
Visible image, Auto Fusion, Zoom.
9.1 Image: IR Thermal
In IR Thermal mode, only the infrared image is
shown.
9.2 Image: MIX Image
In MIX Image mode, a detail from the infrared image is displayed in the
digital image.
9.3 Image: Visible image
In Visible image mode, the digital image is
displayed.
9.4 Image: Auto Fusion
In Auto Fusion mode, the digital image and infrared
image are overlaid. This allows the location of the relevant infrared areas to
be quickly and precisely identified. The temperature in the central area is
compared to the digital image. The mix ratio between the infrared image and
the digital image can be adjusted manually. The detail of the overlaid area
occupies approximately half the display area and is placed centrally but can
be moved to a specific position using the touchscreen.
9.5 Image: Zoom
In zoom mode, the viewed area can be magnified by a factor of 32.
Set palette
Eight standard palettes and four special palettes are available to
display the captured infrared temperatures.
The choice of palette allows the false colour display of the infrared images
displayed or taken to be modified. The measured temperatures are adjusted
within the current image section and displayed in the respective colour space.
The barograph for the respective minimum/maximum temperatures serves as a
reference for the temperature and colour mapping. The standard palettes
provide a smooth and linear reproduction.
10.1 Palette: Above MAX alarm
Areas with a temperature that exceeds the
threshold set for the upper temperature are shown in red.
10.2 Palette: Below MIN alarm
Areas with a temperature that falls below the
threshold set for the lower temperature are shown in blue.
10.3 Palette: Interval alarm
Areas with a temperature within the threshold
set for the upper and lower temperatures are shown in orange.
10.4 Palette: Visible zone
Areas with a temperature within the threshold set
for the upper and lower temperatures are shown using the palette. The other
areas in the image are shown as a digital image.
11 Temperature mode: Automatic, Manual and Histogram mode
In
Automatic mode, the measured temperature range of the infrared image and the
resultant distribution of the colour spectrum are permanently set. The colour
spectrum of the measured infrared image is determined by the temperature range
and colour scale. The colour distribution of the infrared image is
automatically and dynamically adjusted in the barograph based on the measured
min./max. values.
In manual settings mode, the temperature range is no
longer set automatically based on the measured min./max. values but rather
determined on the basis of manual values.
In Histogram mode, the colour distribution of the infrared image is adjusted
in the same way as in Automatic mode. In addition, a statistical analysis of
the temperature distribution in the infrared image (histogram) stabilizes the
minimax. values. If the temperatures vary significantly, this stabilizes the
view from one image to the next, e.g. hen measuring moving objects
The min/max values last measured are taken as the default setting every time
the temperature range is switched from histogram (HG) to manual (MANUAL).
Procedure when measuring in Manual temperature mode. For quick localisation
and inspection of the relevant measuring positions, view the measured object
in Automatic mode and determine the optimum measuring position in which the
min/max temperature range approximately corresponds to the required
temperature range. Once the min/max values have stabilised, select Manual mode
without changing position to transfer the current values as a default setting
using button (b).
Settings
13.0 Device settings: USB Mode 
The data recorded by the
thermal imaging camera can be transferred to a PC in USB mode. To allow
several people to view the image on the camera at the same time, the PC can be
used for live transmission. The USB drive must be correctly removed from the
PC after use to avoid read errors on the PC.
13.1 Device settings: Brightness The screen brightness can be adjusted using
the slider.
13.2 Device settings: WiFi
13.3 Device settings: Date/Time
The
time and date can be adjusted using the arrow buttons.
13.4 Device settings: Language
The preferred language can be set in this
menu.
The preferred language can be set in this menu.
The device switches off
automatically after the set period of inactivity. The time is stopped by
touching the screen or pressing a button.
13.6 Device settings: About
14.0 Measure Settings: Distance unit
The
unit of distance can be set in this menu.
14.1 Measure Settings: Temperature unit
The unit of temperature
can be set in this menu.
14.2 Measure Settings: Temperature range
The default setting for
the temperature range can be selected in this menu. Choose between two ranges:
-20 – +150 °C (optimum for indoor and outdoor thermal imaging of buildings) 0
– +650 °C (optimum for industrial applications)
14.3 Measure Settings: Alarm mode The upper and low alarm levels can be
activated in the Alarm Mode menu.
The upper and lower alarm levels must be activated to use the Alarm Range function.
The Alarm Range is defined by the threshold values for the upper and lower alarm levels. The acoustic alarm sounds if a temperature is measured which is within these two threshold values, for example when the temperature is 35 °C and the upper alarm is set at 40 °C and the lower alarm at 30 °C.
14.4 Measure Settings: Image Align
The digital image and infrared image
can be aligned to each other using the arrow keys.
Reset
The
current media gallery can be deleted by selecting ‘Delete memory’. All
previous settings can be deleted by selecting ‘Default settings’. We recommend
formatting the SD card directly on a PC using FAT32 Format.
15.0 Camera: Menu
The device features an image and video function. Images are saved as JPG and
HIR files and also include the radiometric measurement data as well as the
infrared/digital image. Videos are saved as MP4 files and include the infrared
data of the recording.
15.1 Camera: Focus and shutter
In addition to the basic settings in the measuring device, the camera focus
and shutter function play an essential role in achieving high-quality
thermographyresults. Bring the
measured object into the best possible focus so that the outlines and contours
are clearly visible on the display. Do not touch the lens. The image can be
calibrated either manually or automatically. Manual calibration is activated
by holding down button (a). Automatic calibration is performed, after a period
of time, to keep the IR image sensor cyclically in the highest accuracy range.
15.2 Camera: Capture image
Pressing the trigger freezes the image and the save
menu appears. The shot can be edited in the save menu before it is saved.
There is an option for adding text comments. Pressing the text notes symbol
opens an editor with a keyboard. Use the tick symbol to close the editor after
entering the text.
15.3 Camera: Video capture
Pressing the trigger for a minimum of two seconds
starts video capture. To end and save the video, press the trigger again.
15.4 Camera: Media gallery
You can access, play, and manage all of the images
and videos recorded with the thermal imaging camera in the media gallery. Call
up the media gallery using the left hot key.
16.0 Custom Apps: Menu
One-click configuration allows the device to be configured quickly using
the Custom App function for a wide range of standard applications, even with
extensive parameter setups. Custom Apps can be accessed by pressing the menu
hot key for 2 seconds or from the Settings menu. Further information on Custom
Apps is available here:
https://packd.li/ll/ca2/ap/wi
16.1 Custom Apps: Factory Settings
All parameters are reset to the default factory settings, the language
settings remain the same. Due to the number of parameters and the subsequent
possibility of entering incorrect information, it is advisable to reset the
the camera to the default settings before every important measurement. This
allows parameters to be entered from a known starting point.
16.2 Custom Apps: Cold View-Inspection
Cold View-Inspection is suitable for detailed examination of cold areas.
Problem points such as thermal bridges, cold air flows or air leakages, such
as around window frames or doors, can be identified quickly and accurately.
The MIX image overlays the digital image on the coldest 20 % of the
temperature range captured on site. The condensed colour palette provides an
optimum visualisation of the precise extreme temperature points. A standard
colour palette can be used for subsequent temperature measurement of the
extremes in order to produce a balanced colour image for measurement and
evaluation. The centre point (P1) provides direct temperature measurement.
16.3 Custom Apps: Hot View-Inspection
Hot View-Inspection is suitable for detailed examination of hot areas and
determination of points with predominantly high temperatures. These include
heating pipes, fuses and electrical connections. The MIX image overlays the
digital image on the warmest 20 % of the temperature range captured on site.
The condensed colour palette provides an optimum visualisation of the precise
extreme temperature points. A standard colour palette can be used for
subsequent temperature measurement of the extremes in order to produce a
balanced colour image for measurement and evaluation. The centre point
(P1)provides direct temperature measurement.
16.4 Custom Apps: Alarm high
Alarm high provides point measurement of temperatures and emits an acoustic
alarm when the upper threshold value is exceeded. Set the threshold value
(Section 6, Setting the alarm) to suit the application. All other parameters
have already been set. Check the function on a hot item before measuring the
temperature. Applications include checking temperature threshold values in
production areas and determining overheated areas in buildings. Overheated
components in machines and vehicles can also be identified, for example,
brakes on lorries. To ensure stable measuring conditions, the best option is
to use a tripod.
16.5 Custom Apps: Alarm low
Alarm low provides point measurement of temperatures and emits an acoustic
alarm when the value falls below the lower threshold value. Set the threshold
value (Section 6, Setting the alarm) to suit the application. All other
parameters have already been set. Check the function on a cold item before
measuring the temperature. Applications include quick identification of areas
in buildings where the temperature is too low and checking air conditioning
systems. To ensure stable measuring conditions, the best option is to use a
tripod.
16.6 Custom Apps: Fever Detection FeverDetection allows people running a
temperature to be identified, perfect for a quick check before starting work.
The temperature is to be taken at head level. The forehead of the person being
checked acts as the measuring point. Skin temperature is usually less than the
actual body temperature due to the cooling effects of air and is taken into
consideration in the alarm setting. Infrared measurement of skin temperature
can be affected by a range of factors and may vary much more than in other
measuring methods. Factors include the ambient temperature, skin type, skin
hydration, cosmetics and creams. It is therefore important to make sure you
take the measurement out of the wind and the measuring point is as dry and
free of products as possible. If the threshold temperature is exceeded, the
device produces an acoustic alarm which should indicate a raised temperature.
The visual marker for fever is also shown on the display. For precise
adjustment of the body temperature difference and the tolerances, the
temperature compensation (offset) can be adjusted (see 7.3) to increase the
measuring accuracy, for example, use a water bath set to a precise temperature
(35 °C) and adjust the offset until the display shows a temperature of 36.5
°C.
16.7 Custom Apps: High Sense
High Sense is suitable for precise measuring of the mean temperature on large,
evenly heated, flat areas such as walls. Determining the mean value allows
more accurate and reliable measurement results to be achieved than with a
single point measurement. There must be no visible hot or cold spots during
the measurement and the entire image area should be heated as evenly as
possible. To avoid the measuring area being displaced during measurement,
measure the thermal imaging camera insecure. The best option is to use a
tripod. The mean temperature determined is then displayed as the AVG (mean
temperature) for the entire area measured.
16.8 Custom Apps: Sense Line
SenseLine provides a visualisation of the temperature curve. Small temperature
differentials can be quickly identified in the area under examination. The
measurement is taken along the horizontal base line. The maximum, minimum and
mean temperatures are also indicated. Objects which are difficult to identify
visually, such as underfloor heating, can be easily identified using the
temperature curves as the curve rises and falls at the edges of the object.
17 Software for Windows desktop PC
The software available online allows the recorded data to be transferred to a
PC and used for further processing and documentation. Download the software
and follow the installation instructions. https://packd.li/ll/qrplus/ap/wi
It is not necessary to install a driver. The software operates under Windows
10 and 11.
18 Laser liner High Sense App (optional)
The High Sense app provides easy viewing and documentation of the measured
results. Switch on the WiFi interface on the thermal imaging camera and
connect to the smart phone. App functions include viewing videos in real time
as well as taking and saving screen shots. It is also possible to make text
notes, export pdf reports, view image information, and delete images.
https://packd.li/ll/hs/ap
There is also a Help function to help with using the app.
Fault diagnosis
If problems occur when using the thermal imaging camera, take the following
steps as shown in the table
below. Should the problem persist, please contact the UMAREX Laserliner
service department.
| Error | Reason | Solution |
|---|---|---|
| Device does not start | No battery / battery depleted | Insert / charge battery |
| Device switches off suddenly | No power on the device | Charge battery |
Information on maintenance and care
Clean all components with a damp cloth and do not use cleaning agents,
scouring agents and solvents. Remove the battery(ies) before storing for
longer periods. Store the device in a clean and dry place.
Calibration
The measuring device must be calibrated and tested on a regular basis to
ensure it is accurate and working properly. We recommend carrying out
calibration once a year. Contact your distributor or the UMAREX-LASERLINER
service department.
Technical data
| ThermoCamera High Sense| ThermoCamera High Sense Pro
---|---|---
Sensor type| uncooled microbolometer
Infrared temperature resolution| 160 x 120 pixels| 384 x 288 pixels
Resolution display| 640 x 480 pixels
Field of view (FOV)| 20.7° x 15.6°| 41.5° x 31.1°
Spatial resolution (IFOV)| 2,26 mrad| 1,89 mrad
Focus| adjustable
Shutter Period| Auto, 1 min, 3 min, 5 min, 10 min, 15 min, 30 min, Off
Thermal sensitivity (NETD)| < 50 mK @30°C
Measurement range / Precision| -20°C … 150°C, 0°C … 650°C / ± 2°C or 2% of
measured value
Screen type| 3.5″ colour TFT
Mode| Infrared image, digital image, MIX image, image-in-image
Image function| 1-32x digital zoom
Image-Nideoformat| JPEG / MPEG-4
Memory| Micro-SD card up to 8 GB
Ports| USB type C, 1/4″ tripod thread
Radio module operating data| WLAN standard: IEEE 802.11 b/g/n; Frequency band:
2.400 – 2.4835 GHz (IEEE 802.11 b/g/n); Radio channels: Channel 9; Transmit
power: 17 dBm max.; Transmission rate: IEEE 802.11 b to 11 Mbps, IEEE 802.11
g/n to 54 Mbps (at 15 ± 2 dBm); Safety: open; Local server mode: IP address
192.168.230.1, HTTP, no DHCP; Port: 80
Operating conditions| -15°C … 50°C, humidity 10 … 90% rH, no condensation,
max. working altitude 2000 m above sea level
Storage conditions| -20°C … 70°C, humidity 10 … 99% rH
Power supply / Charging time / Operating time| Li-Ion pack battery 3,7V /
2,6Ah / 9,62Wh approx. 4 h. / approx. 4 h
Dimensions (W x H x D) / Weight| 95 x 230 x 112 mm / 530 g (incl. battery
pack)
EU and UK directives and disposal
This device complies with all necessary standards for the free movement of
goods within the EU and the UK.
This product is an electric device and must be collected separately for
disposal according to the European and Directive on waste electrical and
electronic equipment.
Further safety and supplementary notices at:
https://www.laserliner.com
SERVICE
Umarex GmbH & Co. KG
Donnerfeld 2
59757 Arnsberg, Germany
Tel.: +49 2932 638-300, Fax: -333
www.laserliner.com
SERVICE
Murex GmbH & Co. KG
Möhnestraße 149, 59755 Arnsberg, Germany
Tel.: +49 2932 638-300,
Fax: +49 2932 638-333
info@laserliner.com
References
- Home
- Info - Laserliner
- Info - Laserliner
- Info - Laserliner
- HighSense
- packd.li/ll/hs/apFehlerdiagnoseHinweise
- Info - Laserliner
- Home
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