About this project
More example videos:
What the people are saying:
"A product for the professional market, but it's well below the cost of the Phantom" - Norman Chan, Tested
"A high-end "microscope for time", finally within relative reach." - Norman Chan, Tested
"If you’re a sucker for super slow-mo, this could be the best game in town" - Darrell Etherington, TechCrunch
"The quality truly is professional grade." - DL Cade, PetaPixel.
"Edgertronic camera shoots Hollywood-style high-res, slo-mo videos, minus the big budget" - Les Shu, Digital Trends
A high-speed camera that belongs in your bag:
What frame rates and resolutions are currently supported?
The edgertronic supports resolutions from 192x96 up to 1280x1024 in multiples of 16 horizontal and vertical. That's 4,130 possible resolutions.
Are you frustrated that access to professional grade, high-speed video cameras is limited to big budget shows on the Discovery Channel? Do you dream of having the frame rate and resolution of a truly professional camera sitting on your tripod? We’ve created an easy-to-use system that rivals the quality of high-priced cameras at a fraction of the cost.
edgertronic is disrupting the high-speed video camera market.
We started this project for one simple reason: There are no low-cost high-speed video cameras that offer the video quality that professional photographers demand. Since Mike first modified a low-cost strobe flash in 1975, he's been pursuing his passion for low-cost, high-speed photography. He's been frustrated by ridiculously expensive rentals (thousands of dollars per day) of medium quality, high-speed cameras that are bulky and complex to use. In 2011, we set out to solve these problems, and now we're ready to show it to the world.
We've been hard at work for almost 2 years, and with your help, we're ready to take the edgertronic into full-fledged production. By supporting this effort, you’ll be the first to get your hands on an amazing high-speed video camera AND help usher in a new generation of high-speed photography.
Tech specs for the revolution:
We've gone through exhaustive lengths to design a new type of high-speed camera:
- Engineered from the ground up to produce high-quality, high-speed video
- Intuitive and simple to use software so you can spend less time setting up the camera and more time shooting
- Uses standard video codecs, and video is stored on a local SD card so it can easily be imported into the video editing suite of your choice
- Standard Nikon F mount allows use of fast primes, zooms, and other lenses
Read on for a more detailed description of why this camera is revolutionary and how you’ll help our efforts if you support this project.
How does the edgertronic work?
The edgertronic contains a specialized CMOS image sensor, ultra high-speed electronics, memory, and image processing electronics in a compact form factor.
The camera runs a web server and connects to a computer/laptop or to a LAN over Ethernet. The user directs a standard web browser to the camera’s IP address and controls the camera via a user interface (UI) appearing on the web browser. The camera’s UI allows the user to set exposure, frame rate, preview composition, adjust focus, and finally trigger the camera to take a high-speed video.
While running, the edgertronic is constantly capturing frames of high-speed video into an internal buffer. Depending on frame size and frame rate, this buffer contains, at a minimum, the last 8 seconds of video. When a trigger occurs, video before and/or after the trigger is captured and compressed into H.264 video and saved to a removable SD card.
Continuous capture into a this large buffer allows the user to trigger the edgertronic even after an event has occurred. Unpredictable events, like a lightning bolt, are captured with ease.
Once the video is saved, it can be downloaded to the computer, or replayed in the web browser. Alternately, you can remove the SD card and download the videos to their computer or laptop.
High-speed videography has unique challenges in how frame rate, shutter speed, aperture, and resolution settings interact. We completely rethought the control interface to reduce complexity while allowing full creative override. You can specify as many or as few of the settings as you want, and the camera will fill in the remaining ones. This allows you to optimally concentrate on your creative process.
Clicking outside of the control panel puts the camera into live preview mode, allowing the user to focus, compose, capture, and save a high-speed video.
Revision A was a hardware proof of concept and a software development platform. Design began in December 2011, using complete chip and board level simulation (no rework wires!). Revision A powered up in March 2012 and took the first demo video in May 2012. A great start!
Revision B was a repackaging of the Revision A into a more compact design. Improvements included thermal, image quality, and manufacturability. Good but still not perfect.
Revision C is ready for production. Changes made the camera smaller, lighter, easier to manufacture, and more elegant. The last image quality issues were solved. Revision C successfully passed FCC Class B emissions testing, allowing the camera to legally be offered for sale. Along the way, we wrote code. A lot of code.
Excellent design inside:
- Custom camera hardware and software designed for high-speed video
- 1280 x 1024 color sensor (high-speed monochrome sensor limited production)
- Proprietary Global Shutter technology allows crisp exposures without rolling shutter jello effect
- Exposures down to 1/200,000 seconds
- Resolution settable from 192x96 to 1280x1024
- ISO 100-400 sensitivity (color), ISO 400-1600 (monochrome)
- Frame rates up to 17,791 frames/sec. depending on resolution
- Stores captured videos in H.264 format on a removable SD card
- Web-browser based control panel
- Compact 111x108x79 mm form factor (roughly the size of a D-SLR) allows it to fit into spaces previously too small for high-speed cameras
- 2 USB ports
- 10/100 Ethernet
- 12 VDC Power, 1.5A with 2.5/5.5mm locking connector
- Hard Anodize Type III Aluminum enclosure
- Audio Input port (not supported in ver. 1.0 SW)
- Accessory expansion I/O port (external trigger, etc.)
- Manual trigger button
- 4 status indicator LEDs
- Accepts Nikon F-mount lenses (manual and D series)
- Built-in fan
- Size: 111x108x79 mm exclusive of lens
- Weight: ~862 gr exclusive of lens
- Field upgradeable software/firmware
What accessories come with the edgertronic?:
- Ethernet Cable
- AC Power Adapter
- Nikon 50mm F1.8 D Lens
- Airline Grade Fitted Case
- 12V Car Adapter
- Wired Remote Trigger
Where can I learn more about the edgertronic?
So where are we in this whole process? We’ve:
- Formed an awesome team in the San Francisco Bay Area
- Built and tested 3 generations of hardware prototypes
- Engineered the system to be mass-produced
- Written and optimized tens of thousands of lines of code
- Tested a production run of alpha units
We’ve spent the last year designing, prototyping and identifying the best manufacturing processes and partners for local production here in the San Francisco Bay Area. We need your help to complete the final phases that will put our first cameras in the hands of artists, directors, scientists, experimenters and creators just like you. This will position us to ramp up production so we can insure that everyone has access to professional quality high-speed cameras at prices amateurs can afford.
This final phase includes:
- Purchasing components and raw materials
- PCB assembly and testing
- Machining and anodizing the camera’s aluminum housing
- Final camera assembly and testing
- Local San Francisco bay area manufacturing
- Software improvements and testing
- Developing community site for video sharing, best practice suggestions, and posting ideas for improving the camera software
We’re nearly ready to set up full-scale manufacturing to get your edgertronic delivered as soon as possible. We take this last crucial step seriously, and we’ll need a lot of support to do the job right. That’s why we are turning to Kickstarter to get the production process up and running!
If you decide to pitch in, you’ll get a discount and be one of the first to have our product in your camera bag. More importantly, you’ll play a huge part in starting this revolution in high-speed photography by providing your feedback and creating amazing images and videos with the edgertronic. We can’t wait to see what your imagination will capture!
The edgertronic team
I have extensive experience in the architecture and design of high performance digital systems. I use a detailed knowledge of analog and digital design techniques to create state-of-the-art systems that improve performance, lower cost, and work the first time. Products include work stations, super-computers, computer graphics, digital audio/video, and consumer electronics. Notables include the Stellar GS Series and the Apple Powerbook 540c.
I am interested in building all things digital. I have broad knowledge and experience in computer/digital software/systems at all levels from web/desktop apps to DOM to operating systems to digital architecture to firmware to RTL to analog circuits and even some device physics.
Mike's been designing and building products in Silicon Valley since 1990. Over the years he's dealt with many suppliers, consultants, and assembly shops … some good and some bad. He's created a shortlist of firms that we trust for this most important project.
For example, the company Mike's used for years to do PCB layout also assembled the boards for our Rev A, B and C prototypes. These boards had zero defects and worked the first time. We'll use the same company to assemble our production boards as well.
Risks and challenges
The biggest challenge we face is managing the timing of our supply chain beyond development of the first 60 cameras.
The majority of the components in the design are commonly stocked. A few specialized components have long lead times, and we have held these in reserve for the initial limited edition run of 60 cameras. After that, we’ll be batching up production once per quarter to manage any supply chain timing issues. This timing is reflected in the tiers that are available in the campaign. One advantage of moving to a batch production model is that we’ll be able to produce a higher number of cameras with each batch. This increase in production is also reflected in the tiers.
At this point, the hardware (the enclosure and the electronics) are very solid. Our first prototypes worked and were used to take the first demo videos. Rev. B made the camera more compact, and improved video quality. Rev C incorporated changes to refine the mechanical design and perfect the video quality. This is now ready to go into production.
We have built a total of 19 test cameras from Rev A through Rev C. All 19 cameras powered up and worked on the first try. Production will use the exact same suppliers for components, fabrication, machining and assembly as were used for prototypes. Based on the previous turnaround times of our suppliers, we are very confident of meeting our production schedule.
Once the campaign closes, we’ll keep you posted on the status of production and inform you should any issues arise.Learn about accountability on Kickstarter
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