EV Spectral Imaging System
The EV system offers simplicity of design and operation with state-of-the-technology equipment for precisely controlled scene illumination, automated and controlled image collection, and efficient handling of captured image data and associated metadata.
The EV system has been developed to provide digital imaging capabilities of sufficient integrity and scope as to more than satisfy a range of goals which other imaging technologies not only do not, but in large measure cannot, contemplate.
The EV system integrates two previously disparate imaging capabilities: High-resolution photography and multi-spectral imaging.
The EV system offers simplicity of design and operation with state-of-the-technology equipment for precisely controlled scene illumination, automated and controlled image collection, and efficient handling of captured image data and associated metadata
| Digital Back | MegaVision monochrome digital back, options include: 150 Mpixel Q15, 50 Mpixel E7, 39 Mpixel E6, 11 Mpixel E427i. |
| Camera Body | MegaVision’s EV camera or variety of 2X3 and 4X5 technical cameras. Camera includes computer controlled aperture and shutter. |
| Lens | A range of optics are available, not the least of which is MegaVision’s specifically designed 120 mm f4.5 hyperspectral lens which is apochromatic and parfocal over the spectral range of 350nm – 1000nm. |
| Dynamic Range | 14bit/16bit ADC, 12 bits minimum per channel |
| File Size/image | Band Dependant on sensor: 16 bits 8 bits 150 Mpixel Q15 300 Mbytes 150 Mbytes 50 Mpixel E7 100 Mbytes 50 Mbytes 39 Mpixel E6 78 Mbytes 39 Mbytes 11 Mpixel E427i 22 Mbytes 11 Mbytes |
| Capture Rate | Typically one image frame per 1 to 4 seconds, subject to illumination constraints, sensor and computer system configurations. |
| CCD/CMOS Array | Q15 14000 x 10000 pixels, 3.76 micron pixel size E7 8100 x 6200 pixels, 6.0 micron pixel size. E6 7216 x 5412 pixels, 6.8 micron pixel size. E427i 4000 X 2700 pixels, 9.0 micron pixel size |
| Equivalent Film Speed Adjustable | 100, 200, & 400 ISO. |
| Connectivity | Q15: USB 3, 10GigE E7: GigE E427i & E6: IEEE 1394 Firewire 400 |
| Capturing Software | PhotoShoot™, Windows 7, 10, 11 Pro 64bit |
MegaVision EVTM MultiSpectral Imaging Systems
Digital imaging’s impact on the guardians of our cultural heritage treasures is profound. Digital imaging has opened new avenues of research, offered new opportunities of service, and permanently altered perspectives on preservation and conservation. Digital imaging, while unquestionably nascent, offers such compelling promise that even in its infancy it is being widely deployed and is beginning to deliver on some of its promises. The many initiatives underway realize to varying degrees the promises; some would be well served with additional careful consideration of the goals. In a rush to deploy, the digital image data that is collected often leaves much to be desired.
The EV system has been developed to provide digital imaging capabilities of sufficient integrity and scope as to more than satisfy a range of goals which other imaging technologies not only do not, but in large measure cannot, contemplate. The EV system integrates two previously disparate imaging capabilities: High- resolution photography and multi-spectral imaging. It captures very high resolution, high dynamic range, and highly repeatable digital images over a range of 12 or more spectral bands from the near ultra-violet to the near infra-red. The spectral bands are created not by using band pass filters to filter the light after it is reflected from the treasured object, but by using narrow-band LED illumination which subjects the treasure to only the light energy that is required to expose a highly sensitive, unfiltered monochrome sensor. This strategy results in orders of magnitude reduction in the light energy to which the treasure is exposed, and provides images of unprecedented resolution, registration, quality, and spectral content. Because the capture process is highly repeatable and because the captured image metadata is replete with not only artifact and collection specific data but also with capture specific detail, the captured images are documentary milestones that will be used not only in current conservation, preservation, scholarly, and reproduction initiatives, but by those of future generations as well. The image datasets acquired by the EV technology become, in and of themselves, assets of scientific and historical value.
The EVTM multi-spectral imaging system is designed for preservation and scholarlystudies of cultural objects, for studies of parchment, paper, papyrus, photographs, fabric, dyes, inks, paint, and other constituents of valuable objects, and for accurate color reproduction of cultural objects and art. The system includes an advanced largesensor digital camera, a low-heat multi spectral LED illumination system, operational software, and selected options and peripherals all operating as an efficient integrated system.
The EV system offers simplicity of design and operation with state-of-the-technology equipment for precisely controlled scene illumination, automated and controlled image collection, and efficient handling of captured image data and associated metadata. Image capture with a monochrome sensor yields unrivaled image quality. Illumination in distinct spectral bands with LED’s provides efficient high quality light with limited heat and yields precise spectral response for scientific studies and color reproduction.
Image capture with a monochrome sensor yields unrivaled image quality.
Who is it for?
The EVTM multi-spectral imaging system is designed for preservation and scholarly studies of cultural objects, for studies of parchment, paper, papyrus, photographs, fabric, dyes, inks, paint, and other constituents of valuable objects, and for accurate color reproduction of cultural objects and art.