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FLIR A500f/A700f Advanced Smart Sensor

FLIR T1020 – HD Thermal Camera with Viewfinder
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FLIR A500f and A700f Advanced Smart Sensor Thermal Cameras are ideal for users who want built-in, on-camera analytics and alarm capabilities for outdoor condition monitoring and early fire detection applications. These cameras can help companies protect assets, improve safety, maximize uptime, and minimize maintenance costs. Featuring a protective housing designed to withstand harsh environmental conditions, FLIR A500f/A700f cameras combine unmatched thermal imaging with edge computing and industrial internet of things (IIoT) for simplified inclusion in new or existing networks. For VMS integrations, thermal and visible streams can be viewed independently or simultaneously. The cameras are easy to add, set up, and operate in HMI/SCADA systems, offering automation system solution providers a running start.

SKU: FLIR A500f/A700f Categories: ,
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  • FOR OUTDOOR MONITORING

    The protective housing can withstand temperatures between -30° to 50°C, providing a high level of protection against challenging environmental conditions and theft.

  • SIMPLIFY INTEGRATION

    Multiple communication and control options enable easy integration into standard security and IiOT solutions including HMI/SCADA, ONVIF, Modbus, MQTT, and REST API protocol.

  • CONSISTENT, ACCURATE RESULTS

    With up to 640 × 480 thermal resolution, remote motor focus, FSX® (Flexible Scene Enhancement) technology, and three fields of view, A500f/A700f cameras provide reliable measurements every time.

OVERVIEW
Alarm Functions
On any selected measurement function, digital in, and internal camera temperature
Alarm Output
• Digital out • E-mail (SMTP) (push) • Ethernet/IP • File transfer (FTP) (push) • Modbus TCP server (pull) • MQTT (push) • Query over RESTful API (pull) • Store image or video
Encoding
Video stream: H.264, MPEG4, or MJPEG Radiometric stream: Compressed JPEG-LS, FLIR radiometric
Housing material
Aluminium housing, sunshield in ABS
Multi-Streaming
Yes
Size (L x W x H)
51.5×17.7×22.9 cm (20.28×6.97×9.02 in)
Web interface
Yes
COMPLIANCE & CERTIFICATIONS
ONVIF Conformance
Yes. ONVIF Profile S
CONNECTIONS & COMMUNICATIONS
Digital I/O connector type
Terminal block inside housing
Digital I/O isolation voltage
500 VRMS
Digital input purpose
NUC, NUC disable, alarm
Digital Inputs
2x opto-isolated, Vin(low)= 0–1.5 V, Vin(high)= 3–25 V
Digital Output Purpose
• As a function of alarm, output to external device • Fault (NC)
Digital Outputs
3x opto-isolated, 0–48 V DC, max. 350 mA; solid-state opto relay; 1x dedicated as Fault output (NC)
Ethernet
For control, result, image, and power
Ethernet Communication
TCP/IP socket-based FLIR proprietary
Ethernet Connector Type
IP67 rated RJ45 port
Ethernet Interface
Wired
Ethernet Power
Power over Ethernet, PoE IEEE 802.3af class 3
Ethernet Protocols
• EtherNet/IP • IEEE 1588 • Modbus TCP • MQTT • SNMP • TCP, UDP, SNTP, RTSP, RTP, HTTP, HTTPS, ICMP, IGMP, sftp (server), FTP (client), SMTP, DHCP, MDNS (Bonjour), uPnP
Ethernet Standard
IEEE 802.3
Ethernet Type
10/100Base-T
Multicast
Yes
RS-232
M8 A-coded, male connector directly on camera, inside housing
ELECTRICAL & MECHANICAL
Cable Glands
1xM12, 1xM16, 1xM20
ENVIRONMENTAL
Atmospheric transmission correction
Based on inputs of distance, atmospheric temperature, and relative humidity
EMC
EN50130-4, EN61000-6-3, EN55022 Classe B, FCC Part. 15 Class B
Encapsulation
IP67
Mounting
Bought separately, pole and wall adaptors available
Operating Temperature Range
-30°C to 50°C (-22°F to 122°F)
IMAGING & OPTICAL
Contrast Enhancement
FSX® / Histogram equalization (IR only)
Detector Pitch
17 µm
Detector Time Constant
Typical 10 ms
f-number
1.5
Focal Length
29 mm
Focal Plane Array (FPA)
Uncooled microbolometer
Focus
Motorized focus, manual & on-command automatic (scene contrast method)
iFoV
0.52 mrad/pixel
Image Fequency
30 Hz
IR Resolution
464 × 348
Minimum Focus Distance
1.0 m (3.28 ft)
MSX
Yes
Overlay
With / Without
Radiometric IR video streaming
RTSP protocol to FLIR Atlas SDK
Readout
Measurement results: • Ethernet/IP • Modbus TCP server (pull) • Modbus TCP client (push) • MQTT (push) • REST API (GET/POST) • Measurements and still image (radiometric JPEG, visual 640 × 480, visual 1280 × 960) • Web interface
Spectral Range
7.5–14 µm
Streaming Resolution
Video stream 0: 640 × 480 pixels Video stream 1: 1280 × 960 pixels Radiometric stream: 464 × 348 pixels
Video Streaming
RTSP protocol
Visual Resolution
1280 × 960
MEASUREMENT & ANALYSIS
Accuracy
±2°C (±3.6°F) or ±2% of reading, for ambient temperature 15° to 35°C (59° to 95°F) and object temperature above 0°C (32°F)
Automatic hot & cold detection
Max./min. temperature value and position shown within box
Measurement Corrections
Global object parameters; local parameters per analyze function
Measurement Presets
Yes
Measurement Tools
10 spotmeters, 10 boxes or mask polygons, 3 Deltas (difference any value/reference/external lock), 2 isotherms (above/below/interval), 2 iso-coverage, 1 reference temperature, 2 lines, 1 polyline Maximum 12 measurement functions at the same time.
Object Temperature Range
–20° to 120°C (–4° to 248°F) 0° to 650°C (32° to 1202°F) 300° to 1500°C (572° to 2732°F)
OTHER
Heater
8W, electronically controlled, T_ON 20°C±2°C (68°F±4°F), T_OFF 23°C±2°C (73.4°F±4°F)
Window Transmission
Automatic Compensation
PHYSICAL
Package Dimensions [L × W × H]
62 × 20.2 × 22 cm (24.41 × 7.92 × 8.66 in)
POWER
Power Consumption
30W PoE,  PoE+, Type 2. IEEE 802.3af, IEEE 802.3at/PoE Plus
STORAGE MEDIA
Image Storage
Records up to 100 FLIR radiometric JPEG; storage as function of: alarm, scheduling, or user interaction (camera web)