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FLIR A700 Elevated Skin Temperature Thermal System

SKU: FLIRA700
  • Thermal imaging system capable of detecting Elevated Body Temperatures (EBT)
  • Featuring a 24˚ lens, ±2˚ accuracy and 640 x 480 pixel thermal resolution
  • Tailor to new or pre-existing networks via the incorporated Wi-Fi
More Info
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FLIR A700 Elevated Skin Temperature Thermal System

The FLIR A700 Elevated Skin Temperature Thermal System is designed for advanced thermal imaging, providing a highly customisable system compatible with new or pre-existing networks capable of detecting abnormal skin temperatures. The A700 is not a diagnostic tool however it can be used in conjunction with the relative medical equipment for determining EBT (elevated body temperatures), assisting in the detection of illnesses. Incorporating a smart sensor built for individual screening the A700 features a 24˚ lens, an accuracy of ±2˚C and an impressive thermal resolution of 640 x 480 pixels. With the vast array of configurable options, tailor the system to suit specific safety needs.

Easy to use, the FLIR A700 features a wealth of analytical tools alongside a motorised focus function. The thermal camera includes 10 boxes or mask polygons, 10 spotmeters, 3 Deltas, hot/cold detection capabilities and 2 isotherms (above/below/interval). The polygon line analysis feature enables the user to adjust thermal imagery definition for improved analysis, whilst the Flexible Scene Enhancement (FSX) increases contrast, enhancing details in low light even in areas with minimal difference in temperature. The option to adjust alarms and measurements based on a reference temperature source is also included with the advanced model.

Combining an Industrial Internet of Things (IIOT) and edge computing with built-in Wi-Fi, the FLIR A700 Elevated Skin Temperature Thermal System is a sophisticated tool for IR imaging. Reduce the bandwidth needed to to share images from the A700 by 90% using the compressed radiometric streaming feature, which in turn also allows for multiple cameras to be connected together. The device simplifies integration into HMI/SCADA systems by supporting both Modbus TCP and EtherNet/IP. Easily integrate the imager into web services with the REST API over XML or JSON. The FLIR A700 Thermal advanced system comes complete with the smart sensor configuration and a FLIR Axxx Accessory Kit.

Blackbody Accessory

To further ensure the accuracy of the thermal readings, combine the FLIR A700 with a FLIR Blackbody Accessory. Designed to provide a stable reference source, this lightweight addition is built to help operators filter out changing ambient external temperatures which may be triggering false alarms. The blackbody is an important piece of any screening station set-up.

Key Features

  • Thermal System for detecting Elevated Skin Temperature
  • Smart Sensor for screening individual bodies
  • 24˚ lens with motorised focus
  • Reliable accuracy of ±2˚C
  • 640 x 480 pixel thermal resolution
  • Compatible with new or pre-existing networks
  • Highly customisable
  • Analytical tools such as spotmeters, boxes & isotherms
  • Polygon line function for highly detailed thermal images
  • Flexible Scene Enhancement improves details in low light conditions
  • Adjustable measurement settings
  • Adjustable alarms
  • Edge computing included
  • An Industrial Internet of Things included
  • Wi-Fi compatible
  • Compressed radiometric streaming for sharing images
  • Reduce bandwidth by 90% with the compressed radiometric streaming
  • Connect multiple systems together
  • Modbus TCP & EtherNet/IP supported
  • Easy integration into HMI/SCADA systems
  • Easy integration into web services with the REST API over XML or JSON
  • FLIR Axxx Accessory kit included

FLIR part number: A700

DISCLAIMER: Although Non-Contact Forehead thermometer products should never be used to make a diagnosis of a disease or virus, they are vital in screening those with a higher skin surface temperature so that they can be medically assessed.

What's In The Box?

  • FLIR A700 Thermal Camera
  • 24° Lens
  • Advanced Smart Sensor Software
  • FLIR EBT Software
  • Integrated Wi-Fi
  • FLIR Axxx Accessory Kit
Specification

Image and Optical Data

  • IR resolution: 640 × 480
  • Visual resolution: 1280 × 960
  • Thermal resolution: <30 mK to <50 mK, lens dependent
  • Lens: 24°
  • IR Camera Focus: One-shot contrast, motorised, manual

Measurement

  • Object temperatures: -20°C to 2000°C (-4°F to 3632°F), 3 ranges
  • Accuracy: ±2°C (±3.6°F) or ±2% of reading

Measurement analysis

  • Standard functions: 10 spotmeters, 10 boxes & mask polygons, 3 Deltas, 2 isotherm, 2 iso-coverage, 1 reference temperature, 2 lines, 1 polyline
  • Automatic hot/cold detection: Max./min. temperature value and position shown within box
  • Scheduled response: SFTP (image), SMTP (image and/or measurement data/result)
  • Measurement frequency: Up to 10 Hz
  • Measurement result read-out: Yes; common protocols include EtherNet/IP, Modbus TCP, MQTT, and REST API

Alarm

  • Alarm function: On any selected measurement function; digital in; internal camera temperature
  • Alarm output: Yes: common output includes e-mail, EtherNet/IP, Modbus TCP, and RESTful API

Video streaming, RTSP protocol

  • Unicast: Yes
  • Multicast: Yes
  • Multiple image streams: Yes

Video stream 0

  • Source: Visual, IR, MSX®
  • Contrast enhancement: FSX , histogram equalization (IR only)
  • Overlay: With, without
  • Pixel format: YUV411
  • Encoding: H.264/MPEG4/MJPEG

Video stream 1

  • Source: Visual
  • Overlay: No
  • Pixel format: YUV411
  • Encoding: H.264/MPEG4/MJPEG

Radiometric streaming

  • Source: IR
  • Pixel format: MONO 16
  • Encoding: Compressed JPEG-LS; FLIR radiometric

Ethernet

  • Interface: Wired; Wi-Fi
  • Connector types: M12 8-pin X-coded, female; RP-SMA, female
  • Ethernet type & standard: 1000 Mbps, IEEE 802.3
  • Ethernet power: Power over Ethernet, PoE IEEE 802.3af class 3
  • Ethernet protocols: Include EtherNet/IP, Modbus TCP, and MQTT

Digital input/output

  • Connector type: M12 Male 12-pin A-coded (shared with ext. power)
  • Digital input: 2× opto-isolated, Vin (low) = 0-1.5 V, Vin (high) = 3-25 V
  • Digital output: 3× opto-isolated, 0–48 V DC, max. 350 mA (derated to 200 mA at 60°C). Solid-state opto relay, 1× dedicated as fault output (NC)

Power system

  • Connector type: M12 Male 12-pin A-coded (shared with Digital I/O)
  • Power consumption: 7.5 W at 24 V DC typical; 7.8 W at 48 V DC typical; 8.1 W at 48 V PoE typical

Wi-Fi

  • Connector type: Female RP-SMA