Do you need a digital high speed camera? That depends. If you work in the scientific, military, aerospace, automotive, research, and entertainment industries and need to capture high speed movements for analysis, there’s probably a vision research phantom camera that’s right for you. With a range of slow motion cameras like the phantom flex4k and the 10000 fps camera, there are no limits to their uses in research, manufacturing and entertainment.
From wildlife photography to weather forecasting to industrial parts testing, there’s a ultra high speed camera that’s right for your current project.
Digital and high speed photography
Digital and high speed photography have transformed photography and expanded its applications in many different directions. Since George Eastman founded the Eastman Kodak Company in 1888, photography has become increasingly popular and accessible. The advent of digital technology, the Internet and social media have taken this even further, and for many people, taking pictures is almost second nature. By 2014, it was reported that digital cameras could be found in almost one third or 31% of all households in the U.S.
High speed photography captures motion on film, with shutter speeds as fast as 1/8000th of a second. The amount of light allowed on the film depends on shutter speed, which is measured in fractions of a second. Shutter speeds can be anywhere from one whole second to 1/1000th of a second. Regular photography uses shutter speeds of 1/125th of a second in sunlight.
High speed film and its applications
High speed cameras can capture video at speeds of 250 frames per second (fps) and upwards. This allows the camera to record very rapid motion. The film can then be slowed down for analysis of the movement. For instance, one of the earliest applications of high speed photography, as early as 1878, was to film running horses determine if all four feet were in the air at the same time at a gallop. In 1886, Austrian physicist Peter Salcher photographed a supersonic flying bullet.
High speed photography has developed into an engineering tool, which allows scientists, engineers and researchers to visualize and analyze motion. It can capture movements that are too fast to be seen by the the human eye or conventional cameras.
Taking high speed photography further
High speed photography finds applications in a whole range of industries, including basic research in academic settings, commercial product design and applied research, industrial manufacturing and production, defense, automotive testing, and of course media applications.
New technology makes high speed cameras like the 10000 fps camera accessible in terms of cost. There are many sturdy and portable models available, increasing the number of possible uses. High speed cameras have been used for wildlife photography, analysis of upper atmosphere weather phenomena, studying the impact of space debris on astronaut safety and much else.
The accessibility and versatility of high speed cameras like the 10000 fps camera means that there is no limit to their possible uses. Future developments in the field are expected to focus on electronic imaging with higher resolution and faster frame rates. Smart cameras with powerful software options will continue to revolutionize the technology and its applications.
