| |
|
| |
Presented below are the most recent updates regarding products in the domains of drones, optical vibrometry, spectroscopy, microscopy, sensor technology, imaging solutions, and the benefits of our integrated circuit technology. Our cutting-edge technology enables precise tracking of light-induced chemical reactions through microscopic and spectroscopic solutions. Central to each drone are cameras equipped with our proprietary image sensor technology known as 'HRHS-AI®,' denoting "High Resolution High Speed through Alternate Imaging." This technology currently reigns as the most ubiquitous in image sensor production worldwide, is / being incorporated into every image sensor available today. This technology is nowadays the most widely used technology in the world for image sensor manufacturing, photography, cinematography and it continues to dominate for fastest imaging and highest resolution at any given time.
|
|
|
|
 |
| |
| |
|
Industrial Digital Camera 5MP for Food and Crop Inspection C4 Model
The model boasts a robust dynamic range coupled with 16-bit color accuracy. A contemporary trend in the food and crop inspection sector involves continual monitoring of crop growth, as well as the harvesting and sorting of high-quality grains. This practice also facilitates the early identification of potential hazards and risks linked to food handling, storage, and preparation, thereby mitigating the occurrence of foodborne illnesses and outbreaks. The food safety and inspection service holds the mandate of guaranteeing the safety, proper labeling, and packaging of meat, poultry, siluriformes, and eggs.
Courtesy: To support OSEPL's 'HRHS-AI®' technology, the robotic manufacturing of key components has been done by PS Japan.
|
|
|
|
 |
| | | |
 Industrial Camera for a Ultra Wideband Imaging 52.9 FPS C5 Model
The system operates within a wavelength range of 380 nm to 1680 nm, rendering it ideal for broad-spectrum spectroscopic imaging applications in medical, agricultural, recycling, and Sustainable Development Goals (SDGs) contexts. The C5 model features a meticulously crafted prism housed internally. Utilizing a robotic manufacturing facility at PS Japan, the two CMOS image sensors are precisely mounted with high accuracy. The optical path lengths of the CMOS image sensors are configured to ensure that both surfaces remain in the focal plane of a shared lens in the 2CMOS/3CMOS arrangement.
Courtesy: To support OSEPL's 'HRHS-AI®' technology, the robotic manufacturing of key components has been done by PS Japan.
|
|
|
| | | |
Industrial Digital Camera 5MP, 13.5 FPS C3 Model The C3 model is also built for broadband spectrum imaging in the range of 380 nm - 1000 nm wavelength. The camera body accommodates a precisely manufactured prism inside the camera body. We have a scope to grind the prism from λ/4 - λ/10 to improve the optical characteristics. The two CMOS image sensors of 5 MP 2-Bayer, with high-dynamic range are mounted precisely using a robotic manufacturing facility at PS Japan. The optical path lengths of the CMOS image sensors are configured to ensure both surfaces remain in the focal plane of a 2CMOS/3CMOS common lens. This model is designed for food and crop inspection purposes.
Courtesy: To support OSEPL's 'HRHS-AI®' technology, the robotic manufacturing of key components has been done by PS Japan..
|
|
|
| |
|
|
 Industrial Digital Camera 5MP, 13.5 FPS C2 Model
The C2 model is engineered for HR color measurements, offering 5MP @ 13.3 FPS in conventional spectrum imaging applications through the MIPI FCC interface. Marketed under the trademark HRHS-AI®, this product features a meticulously crafted prism housed within the camera body. We possess the capability to grind the prism to λ/4 - λ/10 for enhanced optical characteristics. Illumination conditions are set at 680lx with 2563 clocks/line. The precise mounting of three CMOS image sensors is facilitated by a robotic manufacturing facility at PS Japan. The optical path lengths of the CMOS image sensors are arranged to maintain both surfaces within the focal plane of a 2CMOS/3CMOS common lens. Tailored for R/G/B color inspection, this model is designed for integration into conventional spectroscopic imaging systems.
Courtesy: To support OSEPL's 'HRHS-AI®' technology, the robotic manufacturing of key components has been done by PS Japan.
|
|
|
| |
|
|
Industrial Digital Camera 1.6 MP, 41.5 FPS, C1 Model
C1 is an industrial purpose prism block that uses three 1.6 MP R/G/B CMOS sensors @ 41.5 FPS and 3,600lx illumination with 1584 clocks/line. It is built for conventional image processing tasks and color measurements.
Courtesy: To support OSEPL's 'HRHS-AI®' technology, the robotic manufacturing of key components has been done by PS Japan.
|
|
 |
| | | |
Image sensors and their Integration 250 MP, 120 MP... Image sensors are the basis of all the visualisation based camera systems and a wide range of devices and instruments such as security cameras, optical microscopes, drones. The majority of contemporary image sensors leverage our HRHS-AI® technology. HRHS-AI®, embodies the 'High Resolution High Speed through Alternate Imaging' methodology, thus serving as the genesis of our products. This trademark originates from the methodology outlined in our patent publications. Credit goes to Canon Singapore and PS Japan for manufacturing. Nearly all image sensors within the Sony Semiconductor Group fall under our intellectual property rights. Our technology has emerged as the predominant standard in today's imaging landscape.
|
|
|
| |
|
|
A scattering based laser beam profiler
This instrument was realized during the multiphase flow measurements using a single laser beam. A laser beam illuminated a non-opaque spherical surface in motion and the reflection scattering order was captured on a detector that was transmitted and observed as a Gaussian signal on an oscilloscope. This laser beam profiler is based on a ratio of Gaussian beam width to the Gaussian scattered intensity profiles of the same laser beam transmitted from a spherical surface of a sphere having thrice the size of the beam. A notable advantage of this instrument lies in its ability to detect interference patterns resulting from the intersection of coherent laser beams and to measure the corresponding band spacing.
|
|
 |
| | | |
 ® for electronic devices / ICs" />HRHS-AI® for electronic devices / ICs Camera sensors are the integrated circuits. Additional instances of integrated circuits include mobile phone processors such as Qualcomm Snapdragon, MediaTek Dimensity, Apple A17 Pro, Tensor G3, Google Tensor, Kirin 9000, Exynos 2100, Unisoc T820, Helio G99, among others. Further examples of integrated circuits and devices encompass Intel, Celeron, Pentium, Xeon, as well as DAQ systems/digitizers, and similar components. |
|
|
|
|
|
|
Microspectroscopy and imaging: One tool to do it all
We have series of products in the area of :
A. UV-Vis-NIR Absorbance
B. UV-Vis-NIR Reflectance
C. UV-Vis-NIR Fluorescence
D. Photoluminescence
E. Microspot Thin Film Thickness
F. UV-Vis-NIR Polarization
G. Raman Microspectroscopy
H. Microspot Colorimetry
I. Kinetic Microspectroscopy
J. 5D Spectral Mapping
K. UV, color & NIR Microscope Imaging
L. Refractive Index Measurements
Courtesy: CRAICT, USA.
|
|
|
|
|
|
|
Featured Product: A reference grid disk
We can supply a series of reference grids for optical measurement. These grids are references used for comparison with visualized objects and the size of the objects is estimated. Following is the reference grid of 60 microns diameter. We have an ability and technique to manufacture these grids with some initial cost effective investments. On the left hand side we see a product and on the right hand side the enlarged view of the grid under a high resolution microscope. Special materials can be used to produce this device and these materials could be laminated onto the lenses.
|
|
|
|
|
|
|
Proposed Product: Quick decanting bottles
The initial frames in the sequence depict the pouring of liquid from a bottle, a process lasting 15 minutes and 30 seconds, attributed to the low pressure formed at the bottom surface inside the bottle when inverted. Subsequent frames illustrate pressure alleviation by swirling the liquid, creating a vertical column of air serving as an air supply conduit to the lower region, a common feature in pressure swirl atomizers. Swirling enhances flow velocity and streamlines the flow. As the frames progress, a straw is introduced into the bottle, relieving bottom pressure, facilitating air access, and accelerating flow velocity. The entire emptying process concludes in a mere 4.61 seconds. We propose implementing hollow structural reinforcements in industrial vessels, cans, and bottles in the RO water industry. Click on photo to view a video!
Industrial applicability: bottles, vessels, wine bottles, RO water bottles and cans.
|
|
|
|
|
|
|
Click to see the CV/RESUME of the Director
|
|
| | |
