FLIR A6750 MWIR Camera + Complete Active Thermography System

This product is currently out of stock and unavailable.

This product is currently out of stock and unavailable.

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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Description

FLIR A6750 MWIR Camera – High Performance MWIR InSb Camera

The FLIR A6750 MWIR camera offers short exposure times and high-speed windowed frame rates, making it an ideal choice for recording rapid thermal events and fast-moving targets. Freeze motion or achieve accurate temperature measurements on moving subjects, and perform a variety of non-destructive testing with this cooled InSb camera.

The 327,680 (640 x 512) pixel IR resolution and high sensitivity produce crisp imagery, well suited to electronics inspections, scientific research, and more.

  • Crisp Thermal Images: FLIR A6750 MWIR camera operates in the 3.0–5.0 µm waveband (1.0–5.0 µm broadband option) and produces finely-detailed 327,680 pixel images.
  • High-Speed Recording: The FLIR A6750 captures at full resolution with full frame rates of 125Hz. Captures all pixels from a scene simultaneously in under 190µs for room temperature scenes.
  • Standard Video Interfaces: Gigabit Ethernet and analog video are simultaneously active yet independently controlled allowing greater flexibility for recording and display purpose.

Key Features:

  • FLIR built cryo cooler and insb detector
  • Excellent image quality: 640 x 512 pixels
  • High sensitivity: <20 mk
  • High-speed image acquisition: up to 4,1 kHz in windowing mode
  • Synchronization with other instruments and events
  • Wide choice of optics & extender rings
  • Works with FLIR ResearchIR Max software
  • Compatible with MathWorks® MATLAB software

About the Active Thermography System

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.

Features:

  • Non‐contact irNDT
  • Works with cooled and uncooled IR Cameras
  • Compatible with multiple irNDT methods
  • Effective even on low emissivity targets
  • Modular hardware and software
  • Configurable for different geometries and materials

What is Active Thermography?

Active thermography is an effective method for non-destructive testing of materials involving the induction of heat flow in a test object by external excitation. The heat flow within the test object is influenced by internal conditions and measured on the surface by an IR camera. This technique detects not only the smallest surface defects, but also internal structural defects under the surface.

Active vs Passive Thermography

Active and passive thermography are techniques used for detecting heat patterns and abnormalities in various applications. While passive thermography relies on naturally occurring temperature changes, active thermography introduces an external energy source to create thermal contrast.

How does the system work?

MoviTHERM’s modular irNDT system works by utilizing active thermography. A heat source provides the inspected material with a thermal excitation. The flow of thermal energy through the material has a direct effect on surface temperatures. The surface temperature is recorded over a certain time period with an infrared camera and analyzed by the irNDT software.

The software produces an image that provides information about the internal structure of the material.

  • Non-Contact Defect Detection: Active thermography reveals the most subtle defects that are visibly undetectable.
  • Flexible & Expandable: Upgrade a system by adding excitation sources, irNDT methods, and higher end IR cameras.
  • irNDT Made Easy: Complex analysis technology is simplified for dependable inspection results.

 

The Software Interface

Specifications

FLIR A6750 MWIR Camera Specifications
Resolution 640 × 512
Pixel Size [Square] 15 µm
Spectral Range 1.0 – 5.0 µm
Detector Type FLIR indium antimonide (InSb)
Camera f-number f/2.5
Dynamic Range 14-bit
Frame Rate [Full Window] Programmable; 0.0015 Hz to 125 Hz
Integration Time 480 ns to ~full frame
Standard Temperature Range [with band matched optics] -20°C to 300°C (-4°F to 572°F)
Optional Temperature Range [with band matched optics] 45°C to 600°C (113°F to 1112°F) (ND1); 250°C to 2000°C (482°F to 3632°F) (ND2); 500°C to 3000°C (932°F to 5432°F) (ND3)
Filter Holder [Warm] Behind lens mount for standard 1 inch diameter filters
Focus Manual
Imaging & Optical
Sensor Cooling Closed-cycle rotary
Thermal Sensitivity_NETD [typical] ≤25 mK
Environmental & Certifications
Detection Zones 40 g, 11 msec ½ sine pulse/4.3 g RMS random vibration, all 3 axes

Documentation

Active Thermography Brochure

FLIR A6750 MWIR Datasheet