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Teledyne FLIR A35 7.5mm 45° FoV IR Temperature Sensor with GigE (Manual Focus)

Teledyne FLIR A35 7.5mm 45° FoV IR Temperature Sensor with GigE (Manual Focus)
Teledyne FLIR A35 7.5mm 45° FoV IR Temperature Sensor with GigE (Manual Focus)
Teledyne FLIR A35 7.5mm 45° FoV IR Temperature Sensor with GigE (Manual Focus)
Teledyne FLIR A35 7.5mm 45° FoV IR Temperature Sensor with GigE (Manual Focus)
FLIR A35 Price Increase 6/1
Teledyne FLIR A35 7.5mm 45° FoV IR Temperature Sensor with GigE (Manual Focus)
Teledyne FLIR A35 7.5mm 45° FoV IR Temperature Sensor with GigE (Manual Focus)
Teledyne FLIR A35 7.5mm 45° FoV IR Temperature Sensor with GigE (Manual Focus)
Teledyne FLIR A35 7.5mm 45° FoV IR Temperature Sensor with GigE (Manual Focus)
Teledyne FLIR A35 7.5mm 45° FoV IR Temperature Sensor with GigE (Manual Focus)
Highlights:

FLIR A35 7.5mm Thermal Imaging Camera

  • 7.5mm Lens
  • 45°(H) × 35°(V) FoV
  • 320 × 256 Resolution
  • 17 µm Pixel Pitch
  • GigE Vision and GenICam compliant
  • GigE Vision lockable connector
  • PoE (power over Ethernet)

  • SKU: 83207-0102
PRICE INCREASES IN:
Days
Hours
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$5,400.00
$5,669.00

Available Options

FLIR A35 7.5mm - 45° FoV Thermal Imaging Camera

IR TEMPERATURE SENSOR

The FLIR A35 7.5mm - 45° (60 Hz) is a thermal imaging temperature sensor for process control/quality assurance, fire prevention, and condition monitoring that offers comprehensive visual temperature monitoring. The A35 integrates seamlessly into existing systems and provides temperature linear output through GenICam™ compliant software.


Advanced Thermal Imaging For Condition Monitoring

Affordable and Compact

AFFORDABLE AND COMPACT

At just 4.1 × 1.9 × 1.8 in, the A35 brings thermal imaging to your smallest spaces at an affordable price.

Plug and Play

PLUG-AND-PLAY

Easy setup thanks to GigE Vision and GenICam compliance and GigE Vision lockable connector.

Connect Multiple Cameras

CONNECT MULTIPLE CAMERAS

Synchronize between multiple cameras for greater coverage and communication, or for stereoscopic applications.


Temperature Sensing With the Advantage of Image Quality

The FLIR A35 produces high quality, 81,920 pixel thermal images that are low noise, and can show temperature differences as small as 50 mK. This allows you to easily track temperature changes, whether your application is process control/quality assurance, condition monitoring, or fire prevention.




VISUALIZE HEAT

These non-contact temperature sensors are enhanced with thermal imaging

• Detect temperature differences as small as 50 mK
• Choose the right field of view for your measurement area, from wide (90°) to narrow (6.2°)
• Measures accurately in conditions up to 140°F (60°C)



COMMUNICATE DATA SEAMLESSLY

Stream temperature linear output through GenICam™ compliant software

• Integrate easily with Cognex, National Instruments, and other top machine vision systems
• Stream thermal images at up to 60 Hz directly to your system, for instant data analysis
• Synchronize cameras for stereoscopic applications



DESIGNED TO FIT YOUR APPLICATIONS

Get more out of your data with advanced analysis tools

• Compact size makes for easy installation in electrical cabinets and other small spaces.
• Offering the stability of a GigE Vision lockable connector, and the flexibility of Power over Ethernet (PoE)
• Ideal for any environment, the cameras’ robust design can withstand harsh conditions

OVERVIEW
Spectral Band LWIR | 7.5 µm – 13 µm
Accuracy ±5°C (±9°F) or ±5% of reading
Field of View 45°(H) × 35°(V)
(Horizontal x Vertical)
Resolution 320 × 256 pixels
Packaging Size 295 x 200 x 105 mm (11.6 x 7.9 x 4.1 in.)
Sensitivity/NEdT < 0.05°C @ 30°C (86°F) / 50 mK
Temperature Range -25°C to 135°C (-13 to 275°F) / –40°C to 550°C (-40 to 1022°F)
Detector Type Focal plane array (FPA), uncooled VOX microbolometer
f-number 1.4
Focal Length 7.5mm Lens
Weight 0.200 kg (0.44 lb.)
Dimensions (L x W x H) 106 × 40 × 43 mm (4.2 × 1.6 × 1.7 in.)
FLIR Screen - EST Mode No
Housing material Magnesium and aluminum
CONNECTIONS & COMMUNICATIONS
Digital I/O connector type 12-pole M12 connector (shared with Digital Synchronization and External power)
Digital I/O isolation voltage 500 VRMS
Digital input purpose General Purpose
Digital Inputs 1× opto-isolated, "0" <1.2 VDC, "1" = 2–25 VDC.
Digital Output Purpose General purpose output to ext. device (programmatically set)
Digital Outputs 1× opto-isolated, 2–40 VDC, max 185 mA
Ethernet Control and image
Ethernet Communication GigE Vision ver. 1.2 Client API GenICam compliant
Ethernet Image Streaming 8-bit monochrome @ 60 Hz Signal linear/ DDE Automatic/ Manual Flip H&V
14-bit 320 × 256 pixels @ 60 Hz Signal linear/ DDE Temperature linear GigE Vision and GenICam compatible
Ethernet Connector Type RJ-45
Ethernet Power Power over Ethernet, PoE IEEE 802.3af class 0 Power
Ethernet Protocols TCP, UDP, ICMP, IGMP, DHCP, GigEVision
Ethernet Standard IEEE 802.3
Ethernet Type Gigabit Ethernet
Connection Type 12-pole M12 connector (shared with Digital I/O and External power)
Synchronization in 1×, non-isolated
Synchronization in - purpose Frame synchronization in to control camera
Synchronization in - type LVC Buffer @3.3V, "0" <0.8 V, "1" >2.0 V.
Synchronization out 1×, non-isolated
Synchronization out - purpose Frame sync out to control another Ax5 camera
Synchronization Out - type LVC Buffer @ 3.3V, "0"=24 MA max, "1"= –24 mA max.
IMAGING & OPTICAL
Detector Pitch 17 µm
Detector Time Constant Typical 12 ms
Focus Fixed
Image Frequency 60 Hz
Spatial resolution (IFoV) 1.31 mrad
INTERFACE (ELECTRICAL)
Supply voltage 2–40 VDC, max 200 mA
MEASUREMENT & ANALYSIS
External Optics & Windows Correction Automatic, based on input of optics/window transmission and temperature
Measurement Corrections Global object parameters
Optics Transmission Correction Automatic, based on signals from internal sensors
Reflected apparent temperature correction Automatic, based on input of reflected temperature
ENVIRONMENTAL
Atmospheric transmission correction Automatic, based on inputs for distance, atmospheric temperature and relative humidity
EMC EN 61000-6-2 (Immunity) EN 61000-6-3 (Emission) FCC 47 CFR Part 15 Class B (Emission)
Emissivity Correction Variable from 0.5 to 1.0
Operating Temperature Range –15°C to 50°C (5°F to 122°F) The operating temperature range assumes that the camera is mounted
on the base support (included in the package) or a similar type of heat-sink.
Encapsulation IP 40 (IEC 60529) with base support mounted
Storage Temperature Range –40°C to 70°C (–40°F to 158°F)
Humidity (Operating and Storage) IEC 60068-2-30/24 h 95% relative humidity 25°C to 40°C (77°F to 104°F)
Shock 25 g (IEC 60068-2-27)
Tripod Mounting UNC ¼"-20 (on three sides)
Vibration 2 g (IEC 60068-2-6 & MIL-STD810G)
POWER
External Power Operation 12/24 VDC, < 3.5 W nominal < 6.0 W absolute max
Input Voltage Allowed range 10–30 VDC
MECHANICAL
Base Mounting 4 × M3 thread mounting holes (bottom)
INFORMATION
What's In The Box Cardboard box, thermal imaging camera with lens, focus adjustment tool, printed documentation, user documentation CD-ROM, FLIR Tools download card

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FLIR Boson Frequently Asked Questions

The table below shows sensitivity as a function of configuration, normalized to f/1.0. The specified requirements are when operating in the high-gain state at 20C, with the averager disabled, in free-running mode, imaging a 30C background. (NEDT values with averager enabled are approximately 20% lower than shown in the table.)

For the 320 configuration, NEDT requirements in low-gain state are 250% of the values shown in Table. (Only industrial and professional-grade configurations provide a low-gain state.)

For the 640 configuration, NEDT requirements in low-gain state 300% of the values shown in the table.

TEMPORAL NEDT IN HIGH-GAIN STATE

NEDT values shown are acceptance-test limits representing the lensless configuration with an f/1.0 aperture installed. With a lens installed, test limits are scaled by (f/#)2 / τ

The FLIR Boson requires at least one interface board to allow Power and acquire Video from it's high-density connector. 

The most popular board in our product list is the Low Profile VPC module. It allows for power input, streaming USB and composite analog video as well as controlling the cameras settings.

A complete list of accessories are available at: https://www.oemcameras.com/boson_accessories.

To choose the proper FOV and resolution we recommend the Field of View tool here: https://www.oemcameras.com/fov_tool

For video acquisition and control you will need to use the Boson Controller GUI 3.0 available from Teledyne FLIR. 

With  the RHP Boson interface boards, you may also use the RHP Boson GUI

There are three variables that need to be known in order to determine the most appropriate lens for an application:
 
1. The distance from the camera to the object being imaged. This is usually expressed in feet or meters.
 
2. The size of the object being imaged. This is usually the largest dimension, also in feet or meters, as long as the same units are used.

3. The number of pixels that the object needs to cover in the image, usually using the larger of the horizontal or vertical dimension.
 
Using these variables, it is possible to calculate the optimal lens, since the sensor resolutions and pixels sizes of Boson or Tau2 cameras are known values.
Note that these calculations become less accurate at very close ranges, or for very wide field of view lenses. 

We have implemented a simple form to help you choose the right lens. To open, click the button below

All Boson thermal camera modules feature FLIR infrared video processing architecture, noise reduction filters, and local-area contrast, utilizing a high sensitivity 12-micron pixel pitch detector that provides high-resolution thermal imaging in a small, lightweight, and low-power package. The image processing capabilities accommodate industry-standard communication interfaces, including visible CMOS and USB.

Boson Radiometric cameras bring absolute temperature measurement capabilities for quantitative assessment and analysis across commercial and industrial uses. The Boson Radiometric models feature radiometric temperature measurement, meaning the cameras capture the temperature data of every pixel in every frame of a scene. This makes them ideal for implementation with unmanned aerial systems, firefighting, automotive, security, surveillance, and industrial inspection. 

Configurations of Boson which are radiometric capable feature the ability to output a “temperature stable” output or a “temperature linear” output. In the former case, the 16b output is intended to be linear with input flux (i.e. target irradiance) and independent of the camera’s own temperature. In the latter case, the input flux is translated to absolute temperature (Kelvin). That is, the output is linear with scene temperature. For temp-linear output, parameters such as target emissivity atmospheric transmission can be adjusted to reflect current imaging conditions.


Standard Boson or Radiometric Bosons

Radiometry Disabled (T-linear Enable/Disable has no effect on output): 16b output varies with both scene flux and camera temperature.

Radiometric Bosons

Radiometry Enabled, T-linear Disabled:
Temperature-stable output: 16b output value is intended to be proportional to scene-flux only and independent of the camera temperature. That is, when imaging a given scene, the output image is stable even if the camera’s temperature varies. By comparison, output varies significantly with camera temperature when radiometry is disabled.

Radiometry Enabled, T-linear Enabled:
Temperature-linear output: 16b output value is intended to be directly proportional to scene temperature. In high-gain state, the 16b output value corresponds to scene-temperature in Kelvin multiplied by 100, and in low-gain state, it corresponds to Kelvin multiplied by 50. For example, expected output in high-gain state when imaging a 20C BB is [(20C + 273.15)] * 100 = 29315. In practice, radiometric error prevents an output which corresponds perfectly with scene temperature. 

Radiometric accuracy provides ±5 °C (±8 °F) or ±5% temperature measurement accuracy and include a Spot Meter Accuracy software feature that provides an assessment of how accurate a given temperature measurement appears in the scene.



Some of the benefits of advanced radiometric cameras include:

  • Improved accuracy (typical performance on the order of +5 Co or 5% in high-gain state, varying slightly across the full operating temperature range)
  • Moveable and resizable spot-meter (coordinates can be user-selectable to any location on the array)
  • Additional spot-meter data (average, standard deviation, minimum, and maximum value)
  • Digital data linear in scene temperature (in real-time operation, the pixel values in the digital data correspond to the temperature of the scene)
  • Detailed temperature information (users derive temperature information per pixel from objects in the scene)
  • Temperature precision (allows external scene parameters to be compensated for emissivity– a measure of the efficiency of a surface to emit thermal energy relative to a perfect blackbody source– and window transmission, to more accurately determine temperature)
  • Image Metric Feature (enables users to query the camera for scene temperature data via serial command, such as maximum, minimum, and standard deviation for user-defined regions).


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