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Teledyne FLIR A310 PT 320 × 240 9.66mm 45°HFoV - LWIR Multi-Sensor Pan-Tilt

Teledyne FLIR A310 PT 320 × 240 9.66mm 45°HFoV - LWIR Multi-Sensor Pan-Tilt
FLIR A310 PT Series Price Increase 6/1
Teledyne FLIR A310 PT 320 × 240 9.66mm 45°HFoV - LWIR Multi-Sensor Pan-Tilt
Highlights:
  • FoV: 45°(H) × 33.8°(V)
  • Minimum focus distance: .20 mm (0.66 ft.)
  • Focal Length: 9.66 mm (0.38 in.)
  • F#: 1.3
  • Available in <9 Hz or 30 Hz
  • Focus: Automatic or manual (built in motor)
  • Zoom: 1–8× continuous, digital, interpolating zooming on images

  • SKU: 61002-1104
Price Increases In:
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$29,550.00
$31,029.00

Available Options

FLIR A310 PT

Multi-Sensor Thermal Imaging Camera for Condition Monitoring

FLIR A310 PT thermal cameras can be installed almost anywhere to monitor the condition of your critical equipment and other valuable assets. Designed to help safeguard your plant and measure temperature differences, they allow you to see problems before they become costly failures -- preventing downtime and enhancing worker safety.

FLIR A310 PT is ideal for various applications that require temperature measurement capabilities including: substation, transformer, waste bunker, and coal pile monitoring.

MULTI-SENSOR

The FLIR A310 PT pan/tilt has all the necessary features and functions to build single- or multi-camera solutions. The FLIR A310 PT can pan +/- 360º continuous and tilt +/- 45º. It is ideal to cover large areas. Typical application examples are coal pile, waste bunker and substation monitoring, utilizing standard Ethernet hardware and software protocols. The FLIR A310 PT is a multi-sensor and includes a lowlight 36x zoom color CCD camera.

EXCELLENT IMAGE QUALITY

FLIR A310 PT contains an uncooled Vanadium Oxide (VOx) microbolometer detector. It produces crisp thermal images of 320 x 240 pixels and makes temperature differences as small as 50 mK clearly visible. It comes with a built-in 25 degree lens with motorized focus. MPEG-4 streamed video output over Ethernet to show live images on a PC, and 640 x 480 with overlay up to 30 Hz. Composite video outputs, PAL and NTSC compatible are available. Both cameras can be controlled remotely over the Web and TCP/IP protocol.

PERIMETER SECURITY

PERIMETER SECURITY

Dual thermal and visible payloads with analytics provide best-in-class intrusion detection

  • 320 × 240 thermal resolution and multiple lens options quickly detect objects of interest
  • Visible light 36x continuous optical zoom offers long-range imaging
  • Pan/tilt capabilities allow tracking of moving targets
EQUIPMENT MONITORING

EQUIPMENT MONITORING

The A310 PT can detect hot spots and overheating equipment by measuring slight changes in surface temperature

  • Built-in spot, area measurement, and temperature measurement analysis
  • Rugged IP66 environmental rating allows use in harsh environments
  • Monitors subtle temperature differences in substations, transformers, waste bunkers, and coal piles
WIDE-AREA SURVEILLANCE FOR FIRE DETECTION

WIDE-AREA SURVEILLANCE FOR FIRE DETECTION

Temperatures exceeding pre-set levels will trigger an alarm

  • Set various alarms to different temperature thresholds
  • Quickly notify operators of any equipment or area in need of immediate attention
  • MPEG-4 video streaming allows live imaging over Ethernet connections
OVERVIEW
Spectral Band LWIR | 7.5 µm to 13.5 µm
Field of View 45°(H) × 33.8°(V)
(Horizontal x Vertical)
Alarm Functions 6 automatic alarms on any selected measurement function, camera temperature
Minimum Focus Distance 0.20 meters (0.66 ft.)
Automatic Heater Clears window from ice. Switched on at +4°C (39°F). Switched off at +15°C (59°F).
Resolution 320 × 240 Pixels
Azimuth Range Az velocity 360° continuous, 0.1 to 60°/sec max
Spot Meter 10
Elevation Range El velocity ± 45°, 0.1 to 30°/sec. max
Packaging Size 671 x 564 x 464 mm (26.4 x 22.2 x 18.3 in.)
Sensitivity/NEdT < 0.05°C @ +30°C (+86°F) / 50 mK
Temperature Range –20 to +120°C (–4 to +248°F) 0 to +350°C (+32 to +662°F)
Zoom 1–8× continuous, digital, interpolating zooming on images
Detector Type Focal Plane Array (FPA), uncooled microbolometer
f-number 1.3
Focal Length 9.66 mm (0.38 in.)
Power 24 VAC (21-30 VAC; 24 VAC: 215 VA max. with heater) or 24 VDC (21-30 VDC; 24 VDC: 195 W max. with heater).
Weight 17.8 kg (39.3 lb.)
Dimensions (L x W x H) 460 × 467 × 326 mm (18.1 × 18.4 × 12.8 in.)
Housing material Aluminum
CONNECTIONS & COMMUNICATIONS
Ethernet Control, result and image
Ethernet Video Streaming Two independent channels for each camera - MPEG-4, H.264, or M-JPEG
Ethernet Communication TBA
Ethernet Connector Type RJ-45
Ethernet Protocols Ethernet/IP, Modbus TCP, TCP, UDP, SNTP, RTSP, RTP, HTTP, ICMP, IGMP, ftp, SMTP, SMB (CIFS), DHCP, MDNS (Bonjour), uPnP
Ethernet Standard IEEE 802.3
Ethernet Type 100 Mbps
IMAGING & OPTICAL
Color Palettes Color palettes (BW, BW inv, Iron, Rain)
Detector Pitch 25 µm
Detector Time Constant Typical 12 ms
Focal Plane Array (FPA) 1/4" Exview HAD CCD
Focus Automatic or manual (built in motor)
Effective Pixels 380
Image Frequency 30Hz
Spatial resolution (IFoV) 2.59 mrad
Electronic Zoom 12× continuous, digital, interpolating
Lens Identification Automatic
Optical Zoom 36× continuous
Video Standard CVBS (ITU-R-BT.470 PAL), CVBS (SMPTE 170M NTSC)
MEASUREMENT & ANALYSIS
Accuracy ±4°C (±7.2°F) or ±4% of reading
Area 10 boxes with max./min./average/position
External Optics & Windows Correction Automatic, based on input of optics/window transmission and temperature
Programmable Presets 128
Measurement Corrections Global and individual object parameters
Optics Transmission Correction Automatic, based on signals from internal sensors
Isotherm 1 with above/below/interval
Reflected apparent temperature correction Automatic, based on input of reflected temperature
Set-up Commands Date/time, Temperature°C/°F
ELECTRICAL
Video Outputs Composite video output, PAL /NTSC compatible
ENVIRONMENTAL
Atmospheric transmission correction Automatic, based on inputs for distance, atmospheric temperature and relative humidity
Bump 5 g, 11 ms (IEC 60068-2-27)
EMC EN 61000-6-2 (Immunity), EN 61000-6-3 (Emission), FCC 47 CFR Part 15 Class B (Emission)
Emissivity Correction Variable from 0.01 to 1.0
Operating Temperature Range –25°C to +50°C (-13°F to +122°F)
Encapsulation IP 66 (IEC 60529)
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)
Vibration 2 g (IEC 60068-2-6)
INFORMATION
Specifications

   
Product name FLIR A310pt 45° NTSC  
Imaging and optical data    
IR resolution 320 × 240 pixels  
Thermal sensitivity/NETD < 0.05°C @ +30°C (+86°F) / 50 mK  
Field of view (FOV) 45° × 33.8°  
Minimum focus distance 0.20 m (0.66 ft.)  
Focal length 9.66 mm (0.38 in.)  
Spatial resolution (IFOV) 2.59 mrad  
Lens identification Automatic  
F-number 1.3  
Image frequency 30 Hz  
Focus Automatic or manual (built in motor)  
Zoom 1–8× continuous, digital, interpolating zooming on images  
Detector data    
Detector type Focal plane array (FPA), uncooled microbolometer  
Spectral range 7.5–13 µm  
Detector pitch 25 µm  
Detector time constant Typical 12 ms  
Measurement    
Object temperature range
  • –20 to +120°C (–4 to +248°F)
  • 0 to +350°C (+32 to +662°F)
 
Accuracy ±4°C (±7.2°F) or ±4% of reading  
Measurement analysis    
Spotmeter 10  
Area 10 boxes with max./min./average/position (7 if FLIR Sensors Manager is used)  
Isotherm 1 with above/below/interval  
Atmospheric transmission correction Automatic, based on inputs for distance, atmospheric temperature and relative humidity  
Optics transmission correction Automatic, based on signals from internal sensors  
Emissivity correction Variable from 0.01 to 1.0  
Reflected apparent temperature correction Automatic, based on input of reflected temperature  
External optics/windows correction Automatic, based on input of optics/window transmission and temperature  
Measurement corrections Global and individual object parameters  
Alarm    
Alarm functions 6 automatic alarms on any selected measurement function, camera temperature  
Set-up    
Color palettes Color palettes (BW, BW inv, Iron, Rain)  
Set-up commands Date/time, Temperature (°C/°F)  
Imaging and optical data (visual camera)    
Field of view (FOV) 57.8° (H) to 1.7° (H)  
Focal length 3.4 mm (wide) to 122.4 mm (tele)  
F-number 1.6 to 4.5  
Focus Automatic or manual (built in motor)  
Optical Zoom 36× continuous  
Electronic Zoom 12× continuous, digital, interpolating  
Detector data (visual camera)    
Focal plane array (FPA) 1/4” Exview HAD CCD  
Effective pixels 380.000  
Technical specification (pan & tilt)    
Azimuth Range Az velocity 360° continuous, 0.1 to 60°/sec max  
Elevation Range El velocity ± 45°, 0.1 to 30°/sec. max  
Programmable presets 128  
Automatic heaters Clears window from ice. Switched on at +4°C (39°F). Switched off at +15°C (59°F).  
Ethernet    
Ethernet Control, result and image  
Ethernet, type 100 Mbps  
Ethernet, standard IEEE 802.3  
Ethernet, connector type RJ-45  
Ethernet, communication
Ethernet, video streaming Two independent channels for each camera - MPEG-4, H.264, or M-JPEG  
Ethernet, protocols TCP, UDP, SNTP, RTSP, RTP, HTTP, ICMP, IGMP, ftp, SMTP, SMB (CIFS), DHCP, MDNS (Bonjour), uPnP  
Composite video    
Video out Composite video output, NTSC compatible  
Video, standard CVBS (SMPTE 170M NTSC)  
Power system    
Power 24 VAC (21-30 VAC; 24 VAC: 215 VA max. with heater) or 24 VDC (21-30 VDC; 24 VDC: 195 W max. with heater).  
Environmental data    
Operating temperature range –25°C to +50°C (-13°F to +122°F)  
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)  
EMC
  • EN 61000-6-2 (Immunity)
  • EN 61000-6-3 (Emission)
  • FCC 47 CFR Part 15 Class B (Emission)
 
Encapsulation IP 66 (IEC 60529)  
Bump 5 g, 11 ms (IEC 60068-2-27)  
Vibration 2 g (IEC 60068-2-6)  
Physical data    
Weight 17.9 kg (39.5 lb.)  
Size (L × W × H) 460 × 467 × 326 mm (18.1 × 18.4 × 12.8 in.)  
Base mounting
Housing material Aluminum  
Shipping information    
Packaging, type Cardboard box  
List of contents
  • Pan & tilt with infrared camera including lens and visual camera
  • download card
  • Lens cap
  • Printed documentation
  • Small accessories kit
 
Packaging, weight
Packaging, size 671 × 564 × 464 mm (26.4 × 22.2 × 18.3 in.)  
EAN-13 7332558008935  
UPC-12 845188009472  
Country of origin Sweden  
What's In The Box Cardboard box, Pan & tilt with infrared camera including lens, and visual camera, FLIR Sensors Manager download card, Lens cap, Printed documentation, Small accessories kit, User documentation CD-ROM

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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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