FLIR A700sc Series Science Kit
With its unmatched precision, seamless connectivity, and advanced analytical capabilities, FLIR A-Series Science Kits streamline temperature measurement for researchers and engineers across diverse fields, spanning from electronics and aerospace to the life sciences.
FLIR A-Series Science Kits simplify temperature measurement for researchers and engineers across a range of industries, from electronics and aerospace to the life sciences. With streamlined connections and a variety of lens options, users can quickly view, capture, and analyse thermal data within the FLIR Research Studio software.
Effortless connections ensure swift setup and testing initiation, enabling users to seamlessly view, capture, and analyse data through the included FLIR Research Studio software.
Simplified Analysis, Sharing, & Collaboration
- Begin collecting and sharing meaningful data swiftly with minimal ramp-up time and simple connections.
- Utilise FLIR Research Studio's straightforward Connect-View-Record-Analyse workflow for quick thermal result acquisition and analysis.
- Operate in the operating system you prefer and share data globally with colleagues in their preferred language.
- Stream fully radiometric compressed data over Wi-Fi to devices running FLIR Research Studio for seamless data access.*
Unparalleled Thermal Imaging & Innovations
- Acquire precise thermal data on your entire device and individual subcomponents.
- Obtain accurate thermal measurements with crisp remote, automatic, and manual focusing capabilities.
- Choose from multiple lens options to ensure maximum pixel coverage on your test article.
- Accurately measure temperatures on small objects without the need to switch lenses using the included one-touch enabled FLIR Macro Mode.
- Enhance differentiation between features and components with the patented FLIR MSX® image enhancement.*
Advanced Features for Unmatched Connectivity
- Start your operations swiftly with simple yet robust connections.
- Ensure secure and correct camera connections with M-style, positive lock connectors.
- Eliminate the necessity for additional cables by utilizing standard Power over Ethernet (PoE).
- Connect the camera to your workstation via Wi-Fi for camera control, data recording, and image analysis.
- Easily control camera parameters and recording through digital I/O.
* Included in the Professional Science Kits Only
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IR Resolution 640 x 480 pixels Detector Pitch 12 µm Pixels Pitch 12 µm Spectral Range 7.5-14.0 µm Detector Type Uncooled microbolometer Dynamic Range 16-bit Thermal Sensitivity/NETD Lens dependent: <30 mK to <40 mK Frame Rate 30 Hz Standard Temperature Range -20°C to 120°C (-4°F to 248°F); 0°C to 650°C (32°F to 1202°F); 300°C to2000°C (572°F to 3632°F)Focus One-shot contrast, motorised, manual Imaging & Optical
Available Lenses 2.0x Macro, DFOV (24°/14°), 6°, 14°, 42° Detector Pitch 12 µm Detector Type Uncooled microbolometer Digital Data Streaming to PC Gigabit Ethernet (RTSP,GigE Vision) to workstation running included Research Studio Software Dynamic Range 16-bit Field of View (FOV) 24° x 18° Focus One-shot contrast, motorised, manual Frame Rate 30 Hz IR Resolution 640 x 480 pixels Lens 24° Lens Identification Automatic Macro Mode Included Minimum Focus Distance 2.0x Macro: 18 mm (0.71 in) 24°: 0.15 m (0.49 ft) 24° with Macro Mode: 17 mm (0.67 in) 42°: 0.15 m (0.49 ft) 14°: 1.0 m (3.28 ft) 6°: 5.0 m (16.4 ft) DFOV (24°/14°): 0.18m (0.59 ft) and 1.0 m (3.28 ft)Pixel Pitch 12µm Spectral Range 7.5-14.0 µm Thermal Sensitivity/NETD Lens dependent: <30 mK to <40 mK Visible Camera Optional accessory Weight [inc lens] 0.82 kg (1.8 lb) Measurement & Analysis
Accuracy ±2°C (±3.6°F) or ±2% of reading for ambient temperature 15°C to 35°C (59°F to 95°F), object temperature above 0°C (32°F) Standard Temperature Range -20°C to 120°C (-4°F to 248°F); 0°C to 650°C (32°F to 1202°F); 300°C to 2000°C (572°F to 3632°F) Communication & Data Storage
Command and Control Gigabit Ethernet (RTSP, GigE Vision) Digital I/O connector type M12 Male 12-pin A-coded (shared with ext. power) Digital Inputs 2 x opto-isolated, Vin (low) = 0–1.5 V, Vin (high) = 3–25V Digital Outputs 3 x opto-isolated, 0–48 VDC, max. 350 mA (derated to 200 mA at 60°C). Solid-state opto relay, 1× dedicated as fault output (NC) Ethernet Communication GigE Vision ver. 1.2, Client API GenICam compliant, TCP/IP socket-based (FLIR proprietary) Ethernet Connector Type M12 8-pin X-coded, female Ethernet Image Streaming Yes Ethernet Power Power over Ethernet, PoE IEEE 802.3af class 3 WiFi Optional feature
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