FLIR's Axxx thermal imaging streaming and smart sensor cameras provide the monitoring capabilities needed to accurately detect and identify thermal issues in manufacturing and industrial processes, or the very features automation solution providers need for complex monitoring applications. With a wide choice of lenses, motorised focus control and unmatched connectivity, the A400/A500/A700 series cameras offer unprecedented performance and flexibility. Easy configuration allows you to tailor this surveillance system to meet your organisation's specific quality, productivity, maintenance and security needs.
PLUG-AND-PLAY WITH SUPPORT FOR A VARIETY OF PROTOCOLS.
GigE Vision and GenICam compliance for simplified integration with existing surveillance systems; advanced configuration supports both GigE and RTSP video.
SEAMLESS INTEGRATION WITH EXISTING SYSTEMS
Compressed radiometric streaming reduces bandwidth and allows multiple cameras to be added - without the additional expense of expanding infrastructure
WORLD-CLASS THERMAL IMAGING
Provides excellent image quality with 640 × 480 (307,200) pixel resolution and high accuracy (<±2°C)
TECHNICAL DATA:
- Digital inputs': 2x opto-isolated, Vin(low)= 0 - 1.5 V, Vin(high)= 3 - 25 V
- Purpose digital output: - As measuring function of the alarm, output to external device - error (NC).
- Digital outputs: 3x opto-isolated, 0 - 48 V DC, max. 350 mA; solid-state opto-relay; 1x as error output (NC)
- Encoding: Video stream: H.264, MPEG4, or MJPEG Radiometric stream: Compressed JPEG-LS, FLIR radiometric
- Ethernet interface: Wired, WLAN (optional)
- WLAN: Optional feature, sold separately RP-SMA socket
- EMC: - ETSI EN 301 489-1 (radio) - ETSI EN 301 489-17 (radio) - EN 61000-4-8 (magnetic field) - FCC 47 CFR Part 15 Class B (emission US) - ISO 13766-1 (EMC - earth-moving and construction machinery) - EN ISO 14982 (EMC - agricultural and forestry machinery).
- Frame rate: 30 Hz
- Thermal sensitivity / NETD: Lens dependent
- Accuracy: ±2 °C or ±2 % of reading, for ambient temperature of 15 °C - 35 °C and object temperature above 0 °C
- Alarm functions: At each selected measurement function, digital input and internal camera temperature.
- Alarm output: - Digital output - Email (SMTP) (Push) - EtherNet/IP (Pull) - File transfer (FTP) (Push) - Modbus TCP Master Write (Push) - Modbus TCP Slave (Pull) - MQTT (Push) - Query via RESTful API (Pull) - Save image or video
COMMUNICATION AND DATA STORAGE
- Image memory; Records up to 100 FLIR radiometric JPEG files; Storage as a function of: Alarm, Scheduling or User Interaction (Camera Web).
- Digital outputs: 3x opto-isolated, 0 - 48 V DC, max. 350 mA; solid state opto relays; 1x as error output (NC)
- Digital inputs: 2x opto-isolated, Vin(low)= 0 - 1.5 V, Vin(high)= 3 - 25 V
- Ethernet: For control, result, image and power supply
- Ethernet communication: Based on a TCP/IP socket, proprietary to FLIR.
- Ethernet protocols: - EtherNet/IP - IEEE 1588 - Modbus TCP Master - Modbus TCP Slave - MQTT - SNMP - TCP, UDP, SNTP, RTSP, RTP, HTTP, HTTPS, ICMP, IGMP, sftp (server), FTP (client), SMTP, DHCP, MDNS (Bonjour), uPnP.
- Ethernet interface: Wired, WLAN (optional)
- Ethernet standard: IEEE 802.3
- Ethernet power supply: Power over Ethernet, PoE IEEE 802.3af Class 3
- Ethernet type: 1000 Mbit/s
- Encoding: Video stream: H.264, MPEG4, or MJPEG Radiometric stream: Compressed JPEG-LS, FLIR radiometric
- Multicast: Yes
- RS-232: N. Z.
- Video storage: Records up to 10 H.264 videos; storage as a function of alarm - 5 sec. before alarm and 5 sec. after alarm
- WLAN: Optional function, sold separately RP-SMA socket
- Purpose Digital output: - As a measuring function of the alarm, output to external device - error (NC).
- Purpose of digital input: NUC, deactivate NUC, alarm
IMAGING AND OPTICAL DATA
- Display: Measurement results: - Ethernet/IP (Pull) - Modbus TCP Master (Push) - Modbus TCP Slave (Pull) - MQTT (Push) - Query via REST API (Pull) - Measurements and still images (radiometric JPEG, visual 640 × 480, visual 1280 × 960), read-only access - Web Interface
- Frame rate: 30 Hz
- Image source: Video stream 0: visual/IR/MSX® (visual camera is an option) Video stream 1: visual Radiometric video stream: IR
- Detector grid: 17 µm
- Focal Plane Array (FPA): Uncooled microbolometer
- Focus: Single point contrast, motor driven, manual
- IR resolution: 320 × 240
- Contrast enhancement: FSX®/Histogram equalisation (IR only)
- Multi-streaming: Yes
- Overlay: With/without
- Pixel format: Video stream: YUV411 Radiometric stream: MONO 16
- Radiometric IR video streaming: RTSP protocol
- Spectral range: 7.5 - 14 µm
- Streaming resolution: Video stream 0: 640 x 480 pixels Video stream 1: 1280 x 960 pixels Radiometric images: 320 x 240 pixels
- Thermal sensitivity / NETD: Lens dependent
- Available lenses: 6°, 24°, 14°, 42°, dual field of view (14° + 24°) athermalised lenses
- Video streaming: RTSP protocol
- Visual camera: Optional accessories
MEASUREMENT AND ANALYSIS
- Alarm output: - Digital output - E-mail (SMTP) (Push) - EtherNet/IP (Pull) - File transfer (FTP) (Push) - Modbus TCP Master Write (Push) - Modbus TCP Slave (Pull) - MQTT (Push) - Query via RESTful API (Pull) - Save image or video.
- Alarm functions: For each selected measurement function, digital input and internal camera temperature.
- Automatic detection of hot/cold zones: Display of max/min temperature value and position in rectangle
- Accuracy: ±2 °C or ±2 % of reading, for ambient temperature of 15 °C - 35 °C and object temperature above 0 °C
- Atmospheric transmittance correction: based on distance, atmospheric temperature and relative humidity data
- Measuring instruments: 10 measuring points, 10 rectangles or masking polygons, 3 deltas (difference of any value/reference/external shutter), 2 isotherms (over/under/interval), 2 iso-covers, 1 reference temperature, 2 lines, 1 auxiliary contour
- Measured value corrections: Global object parameters, local parameters per analysis function
- Object temperature range: -20 °C to 120 °C, 0 °C to 650 °C, 300 °C to 2000 °C
- Presets for measurements (presets): Yes
ALLGEMEINE ANGABEN
- Abmessungen (L × B × H): 123 x 77 x 77 mm
- Gehäusematerial: Aluminium
- Gewicht: 0,82 kg, nur Kamera
- Sockelbefestigung: 4× M4 auf 4 Seiten
UMGEBUNGSFAKTOREN UND ZERTIFIZIERUNGEN
- Betriebstemperaturbereich: -20 °C bis 50 °C: • -20 °C bis 40 °C (in freier Luft) • 40 °C bis 50 °C (montiert auf Kühlplattenzubehör) Maximale Temperatur des Kameragehäuses: 65 °C
- EMV: • ETSI EN 301 489-1 (Funk) • ETSI EN 301 489-17 (Funk) • EN 61000-4-8 (Magnetfeld) • FCC 47 CFR Teil 15 Klasse B (Emission US) • ISO 13766-1 (EMV - Erdbaumaschinen und Baumaschinen) • EN ISO 14982 (EMV - Land- und forstwirtschaftliche Maschinen)
- Funkwellenspektrum: • FCC 47 CFR Teil 15 Klasse C (2,4 GHz Band US) • FCC 47 CFR Teil 15 Klasse E (5 GHz Band US) • RSS-247 (2,4 GHz und 5 GHz Band Kanada) • ETSI EN 300 328 V2.1.1 (2,4 GHz Band EU) • ETSI EN 301 893 V2.1.1 (5 GHz Band EU)
- Gehäuse: IEC 60529, IP 54, IP66 mit Zubehör
- Korrosion: • ISO 12944 C4 G oder H • EN60068-2-11
- Luftfeuchtigkeit (Betrieb und Lagerung): IEC 60068-2-30/24 Stunden, 95 % relative Luftfeuchte, 25 °C – 40 °C/2 Zyklen
- ONVIF-Konformität: Ja. ONVIF Profil S
- Stativbefestigung: UNC ¼″-20 auf 2 Seiten
- Stoßfestigkeit: IEC 60068-2-27, 25 g
- Vibrationen: • IEC 60068-2-6, 0,15 mm bei 10 – 58 Hz und 2 g bei 58 – 500 Hz, sinusoidal • IEC 61373 Cat 1 (Railway)
POWER SUPPLY
- Operation with external power supply: 24/48 V DC, max. 8 W
- External voltage: Permissible measuring range 18-56 V DC
- 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.
- Power supply connection: M12 12-pin A-coded connector (shared with digital I/O)
SCOPE OF DELIVERY:
- 1x FLIR A400 / A500 / A700