Industrial video camera HyperVision HPV-X3

medicalinfraredX-ray

Visualization technology has been responsible for dramatic advances in medical care and the industrial sector. For example, the invention of the microscope allowed humans to observe microscopic objects otherwise too small for the naked eye, and radiography systems and infrared cameras are able to create images from wavelengths of light outside of the visible spectrum. Similarly, high-speed cameras allow humans to capture images of phenomena that are otherwise too quick for human perception. As an established tool in the field of ultra high-speed visualization, the HyperVision series high-speed video camera helps improve our understanding of ultra high-speed phenomena in a variety of fields. High Image Resolution Across an Impressive Range of Recording Speeds Improved Image Sensor Resolution for Improved DIC Analysis Performance External Input/Output Functionality for Synchronized Image Capture Flexible Design and Superior Ease-of-Use Camera Synchronization and Dual-Camera Control Software Development Kit (SDK) for Improved System Development Both static and dynamic material properties, such as impact characteristics, are important for understanding the behavior of materials. Carbon fiber reinforced plastics (CFRPs) exhibit brittle fracture behavior with fracture progression that occurs instantaneously upon damage, and observing this phenomenon requires high-speed video cameras with excellent recording speeds and resolution. The improved resolution of the image sensor in the HPV-X3 improves camera performance for DIC analysis. Observing Blast and Shock Waves During Detonation of Micro-Explosives