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The FLIR A615 is a compact and affordable thermal imaging camera, fully controlled by a PC. Due to it’s compliance to standard, FLIR A615 is Plug&Play with third-party Machine Vision software like National Instruments, Cognex, Matrox, MVtec and Stemmer Imaging. Designed with precision and versatility in mind, the FLIR A615 thermal camera delivers exceptional image quality and reliable thermal analysis, making it an ideal choice for a wide range of applications. -
The FLIR A6260 SWIR camera offers superior sensitivity and dynamic range paired with the flexibility of customized windowing and integration times. This InGaAs camera is very linear in the 0.9 to 1.7 µm sensing waveband, making it the perfect tool for high temperature thermal measurements and applications that require measuring through standard glass. The A6260 offers control over settings such as integration time, while allowing you to synchronize and trigger to external events and devices. -
Advanced Thermal Camera for 24/7 Process Monitoring and Quality Control
FLIR A6301 Advanced Thermal Camera offer engineers and system integrators the best and most advanced thermal camera for Process Control, Monitoring and Quality Assurance. Its industry-leading 27,000-hour cryocooler lifetime maximizes camera uptime for consistent production throughput, while minimizing cost through planned maintenance. Its fast integration times improves yield, through-put time, costs, while ensuring consistent quality. -
MoviTHERM’s FLIR A6700 MWIR Camera non‐destructive testing systems use active thermography for the reliable detection of delaminations, impact damages, “near side” defects, water inclusions, debondings, and other defects. The system achieves precise measurements and is ideal for inspecting composites, metals, semiconductors, microelectronics, batteries, ceramics, and more. Our irNDT system accommodates a wide range of irNDT measurement methods, including: Flash‐Thermography, Lock‐In Thermography, Transient Thermography, and Vibro‐Thermography. It also works with multiple excitation sources and with cooled or uncooled infrared camera systems. -
MoviTHERM’s FLIR A6750 MWIR Camera non‐destructive testing systems use active thermography for the reliable detection of delaminations, impact damages, “near side” defects, water inclusions, debondings, and other defects. The system achieves precise measurements and is ideal for inspecting composites, metals, semiconductors, microelectronics, batteries, ceramics, and more. Our irNDT system accommodates a wide range of irNDT measurement methods, including: Flash‐Thermography, Lock‐In Thermography, Transient Thermography, and Vibro‐Thermography. It also works with multiple excitation sources and with cooled or uncooled infrared camera systems.
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MoviTHERM’s FLIR A6750 SLS LWIR Camera non‐destructive testing systems use active thermography for the reliable detection of delaminations, impact damages, “near side” defects, water inclusions, debondings, and other defects. The system achieves precise measurements and is ideal for inspecting composites, metals, semiconductors, microelectronics, batteries, ceramics, and more. Our irNDT system accommodates a wide range of irNDT measurement methods, including: Flash‐Thermography, Lock‐In Thermography, Transient Thermography, and Vibro‐Thermography. It also works with multiple excitation sources and with cooled or uncooled infrared camera systems.
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MoviTHERM’s FLIR A6780 MWIR Camera non‐destructive testing systems use active thermography for the reliable detection of delaminations, impact damages, “near side” defects, water inclusions, debondings, and other defects. The system achieves precise measurements and is ideal for inspecting composites, metals, semiconductors, microelectronics, batteries, ceramics, and more. Our irNDT system accommodates a wide range of irNDT measurement methods, including: Flash‐Thermography, Lock‐In Thermography, Transient Thermography, and Vibro‐Thermography. It also works with multiple excitation sources and with cooled or uncooled infrared camera systems. -
MoviTHERM’s FLIR A6780 SLS LWIR Camera non‐destructive testing systems use active thermography for the reliable detection of delaminations, impact damages, “near side” defects, water inclusions, debondings, and other defects. The system achieves precise measurements and is ideal for inspecting composites, metals, semiconductors, microelectronics, batteries, ceramics, and more. Our irNDT system accommodates a wide range of irNDT measurement methods, including: Flash‐Thermography, Lock‐In Thermography, Transient Thermography, and Vibro‐Thermography. It also works with multiple excitation sources and with cooled or uncooled infrared camera systems.
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FLIR A700 Science Kits offer researchers and engineers a streamlined solution for accurate temperature measurement. -
MoviTHERM’s FLIR A8580 MWIR Camera non‐destructive testing systems use active thermography for the reliable detection of delaminations, impact damages, “near side” defects, water inclusions, debondings, and other defects. The system achieves precise measurements and is ideal for inspecting composites, metals, semiconductors, microelectronics, batteries, ceramics, and more. Our irNDT system accommodates a wide range of irNDT measurement methods, including: Flash‐Thermography, Lock‐In Thermography, Transient Thermography, and Vibro‐Thermography. It also works with multiple excitation sources and with cooled or uncooled infrared camera systems. -
MoviTHERM’s FLIR A8580 SLS LWIR Camera non‐destructive testing systems use active thermography for the reliable detection of delaminations, impact damages, “near side” defects, water inclusions, debondings, and other defects. The system achieves precise measurements and is ideal for inspecting composites, metals, semiconductors, microelectronics, batteries, ceramics, and more. Our irNDT system accommodates a wide range of irNDT measurement methods, including: Flash‐Thermography, Lock‐In Thermography, Transient Thermography, and Vibro‐Thermography. It also works with multiple excitation sources and with cooled or uncooled infrared camera systems. -
Combining thermal and visual cameras in a small, affordable package, the FLIR AX8 provides continuous temperature monitoring and alarming capabilities to protect critical electrical and mechanical equipment.
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Key features:- Designed for FLIR A40/A50/A70 and/or FLIR A400/A500/A700 thermal automation cameras
- Camera accuracy remains within standard specifications with FLIR’s proprietary radiometric formulas
- Aluminum (IP67) or stainless steel (IP69k) construction with germanium window
- IP69k enclosure: made of A316L electro-polished to Ra <0.8 μm; all seals are made of FDA certified material
(Note: The germanium window blocks the visual camera except when using T912493) -
Multispectral Fixed Thermal Camera for Early Fire Detection
The FLIR FH-Series R are ruggedized, multispectral fixed cameras that integrate industry-leading thermal imaging with 4K visible imaging to provide rapid visual verification of hot spots in early fire detection applications. When a hot spot or temperature change is detected, the contactless temperature measurement is sent to the operator through a connected Video Management System (VMS) for instantaneous assessment and deployment of response tactics. Custom scheduling provides security personnel the flexibility to enable and disable alarms depending on business hours and seasonality. Combining the power of thermal hot-spot detection with intelligent vehicle detection, false alarms from hot exhaust pipes can be dramatically reduced.
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Are you looking for an easy way to turn your FLIR cameras into a complete remote monitoring system? Introducing the NEW & IMPROVED MoviTHERM MIO Max Intelligent I/O Module. Simply connect your thermal cameras via Ethernet and easily set temperature alarm thresholds for each camera using a user-friendly web interface. -
Standing only six inches tall when fully integrated, the new FLIR PTU-5 can hold up to five pounds on its top bracket, packing incredible performance into a compact package. -
The PTU D100 EX E-Series (PTU D100E EX) is designed for high-speed, accurate positioning of camera laser, antenna, or other payloads up to 25 lbs. or more. It includes larger motors and higher tilt gear ration for heavier top-mounted payloads. The integrated controller includes Ethernet connectivity, programmable ranges of motion, and improved motion control fidelity. It is fully weatherized, vibration tolerant offers mil-style connectors for outdoor fixed and mobile applications. Payload braketing options include top mount, or dual-side mount. Highlights:- Payloads to 25 lbs (top or side mount)
- Integrated slip-ring for 360-continuous pan rotation (optional)
- Small form-factor
- Tilt position resolution down to 0.0075°
- Pan/tilt speeds up to 120° / Sec.
- Wide range DC voltage input
- Integrated Ethernet
- Programmable ranges of motion
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The PTU D300E EX builds on the PTU-D300E family and utilizes a higher ratio, all-stainless gear drive to provide increased torque and durability. The result is increased payload capacity, and extremely low-wear over high duty cycles. It features an integrated Ethernet, programmable ranges of motion, high-resolution digital encoders and integrated power protection circuitry. The PTU D300E EX is available in most of the PTU-D300E configurations, making it an ideal OEM platform for a wide range of applications. Highlights:- Payloads to 90 lbs
- Integrated slip-ring for 360-continuous pan rotation with (RF option available)
- Small form-factor
- Light-weight
- Position resolution down to 0.00625°
- Wide range DC voltage input
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The FLIR PTU-D48E is a lightweight, high-performance pan-tilt system designed for precise positioning of cameras, sensors, and antennas in both fixed and mobile applications. With smooth motion control, durable construction, and flexible mounting options, the D48 delivers dependable accuracy for surveillance, inspection, and remote sensing in demanding environments. -
Includes Power Supply 30VDC (US) 25ft. Breakout cable, and USB to RS485 adapter. -
MoviTHERM’s FLIR X6800sc MWIR non‐destructive testing systems use active thermography for the reliable detection of delaminations, impact damages, “near side” defects, water inclusions, debondings, and other defects. The system achieves precise measurements and is ideal for inspecting composites, metals, semiconductors, microelectronics, batteries, ceramics, and more. Our irNDT system accommodates a wide range of irNDT measurement methods, including: Flash‐Thermography, Lock‐In Thermography, Transient Thermography, and Vibro‐Thermography. It also works with multiple excitation sources and with cooled or uncooled infrared camera systems. -
MoviTHERM’s FLIR X6980 MWIR non‐destructive testing systems use active thermography for the reliable detection of delaminations, impact damages, “near side” defects, water inclusions, debondings, and other defects. The system achieves precise measurements and is ideal for inspecting composites, metals, semiconductors, microelectronics, batteries, ceramics, and more. Our irNDT system accommodates a wide range of irNDT measurement methods, including: Flash‐Thermography, Lock‐In Thermography, Transient Thermography, and Vibro‐Thermography. It also works with multiple excitation sources and with cooled or uncooled infrared camera systems.
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MoviTHERM’s FLIR X6980 SLS LWIR non‐destructive testing systems use active thermography for the reliable detection of delaminations, impact damages, “near side” defects, water inclusions, debondings, and other defects. The system achieves precise measurements and is ideal for inspecting composites, metals, semiconductors, microelectronics, batteries, ceramics, and more. Our irNDT system accommodates a wide range of irNDT measurement methods, including: Flash‐Thermography, Lock‐In Thermography, Transient Thermography, and Vibro‐Thermography. It also works with multiple excitation sources and with cooled or uncooled infrared camera systems.
