The FLIR A615 provides 640 × 480 radiometric thermal imaging with 16-bit temperature linear output for industrial inspection, quality assurance, and process monitoring.
The FLIR A615 is a high-resolution fixed thermal camera built for machine vision and industrial monitoring applications where accurate temperature measurement and repeatable performance are critical. With a 640 × 480 thermal detector and 16-bit temperature linear output, it delivers clear thermal imagery and reliable non-contact measurement for process validation, automated inspection, and quality assurance.
Designed for PC-based control and streamlined integration, the A615 supports GigE Vision and GenICam standards and is Plug & Play with Emitted Energy’s Enlighten software, helping teams reduce setup time and accelerate deployment in new or existing automation environments. Motorized focus with autofocus, optional high-speed windowing, and real-time streaming make the A615 a strong fit for continuous industrial use where thermal data supports better decisions, improved product quality, and process consistency.
High-Resolution Thermal Imaging
640 × 480 thermal resolution provides crisp images with greater detail and improved measurement performance at longer distances.
Plug & Play with Enlighten Software
Standards-based compatibility makes the A615 easy to integrate and operate using Emitted Energy’s Enlighten software for machine vision and monitoring applications.
GigE Vision & GenICam Compatibility
Supports industry-standard protocols for fast image transfer and seamless integration into existing inspection and automation environments.
16-Bit Temperature Linear Output
Provides real-time, non-contact temperature measurement with radiometric streaming for analysis and process control.
Motorized Focus with Autofocus
Built-in motorized focus and autofocus help maintain image clarity and measurement consistency during operation.
High-Speed IR Windowing Option
Enables faster image capture for select applications involving dynamic processes or moving targets.
Machine Vision Inspection & Automation
Integrate thermal imaging into automated inspection systems for temperature-based validation and defect detection.
Quality Assurance Monitoring
Verify product consistency during manufacturing by identifying thermal variations that indicate defects or process drift.
Process Control & Optimization
Monitor heating, cooling, and thermal process stability in real time to improve yield, throughput, and performance.
Thermal Inspection of Components & Assemblies
Detect overheating, missing elements, or irregular thermal patterns in electrical or mechanical parts.
Non-Contact Temperature Measurement for R&D
Capture accurate temperature data during testing and development without contact sensors.
| Feature | Details |
|---|---|
| Sensor Resolution | 640 × 480 thermal resolution |
| Detector Type | Uncooled microbolometer (7.5–14 µm spectral range) |
| Thermal Sensitivity (NETD) | <50 mK at 30°C (86°F) |
| Frame Rate | 50 Hz (up to 100/200 Hz with windowing) |
| Optics | Built-in 25° lens with motorized focus and autofocus; optional lenses available |
| Temperature Range | –20°C to 150°C; 100°C to 650°C; up to 2000°C (application dependent) |
| Accuracy | ±2°C or ±2% of reading |
| Streaming Output | 16-bit temperature linear output for radiometric measurement and analysis |
| Integration & Protocols | GigE Vision and GenICam compatible; Ethernet (RJ-45, Gigabit Ethernet) |
| Digital I/O | 2 opto-isolated inputs and 2 opto-isolated outputs (10–30 VDC) |
| Power | 12/24 VDC (external power) |
Need assistance selecting the right lens option, mounting kit, or integration bundle? I’d be happy to help tailor it to your project requirements!
