- Includes FLIR A40/A50/A70 thermal camera(s) with integrated visual camera
- Perfect for early fire detection and condition monitoring applications
- Detect hot spots and/or monitor asset health
- Event-based notifications for real-time updates
- User-friendly: no software installation needed
- Simple setup: mount the camera and gateway, connect to the same network
- 24/7 alerts via text, voice, and email
- Access images and trends anytime, anywhere
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Highlights: -
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. -
FLIR A400 Science Kits offer researchers and engineers a streamlined solution for accurate temperature measurement. -
FLIR A500 Science Kits offer researchers and engineers a streamlined solution for accurate temperature measurement.
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FLIR A700 Science Kits offer researchers and engineers a streamlined solution for accurate temperature measurement.
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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. -
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.
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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 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 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 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. -
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.
