JENOPTIK Optical Systems LLC

Jupiter, FL 33458

COMPANY OVERVIEW

About JENOPTIK Optical Systems LLC

Contact

16490 Innovation Dr
Jupiter, FL 33458
United States
http://www.jenoptik.com
561-881-7400

More Info on JENOPTIK Optical Systems LLC

Jenoptik Optical Systems is a global OEM supplier of solutions and products in the fields of optics, laser technology, digital imaging, opto-electronics, sensors and software.

Articles

(Image credit: Leonardo DRS)
FIGURE 1. DRS’s Image Contrast Enhancement (ICE) algorithm, available on the company’s Tenum 640 (top) and other of its cameras, is based upon the company’s patented Enhanced Multiresolution Local Area Processing (emLAP); DRS says that emLAP stably preserves the maximum visual content throughout the spectrum of the original sensor output with a user-definable degree of detail enhancement (lower images). EmLAP maps wide-dynamic-range sensor data into a clear lower-dynamic-range image sequence with smooth and stable transitions, including between dramatically different scene dynamics and temperature extremes. Notice that in the typical image at left, the firefighter is almost invisible. More details are visible in the low mode at center. In the highly enhanced image at right, many more details are visible, including a building that can be seen through the open window.
FIGURE 1. DRS’s Image Contrast Enhancement (ICE) algorithm, available on the company’s Tenum 640 (top) and other of its cameras, is based upon the company’s patented Enhanced Multiresolution Local Area Processing (emLAP); DRS says that emLAP stably preserves the maximum visual content throughout the spectrum of the original sensor output with a user-definable degree of detail enhancement (lower images). EmLAP maps wide-dynamic-range sensor data into a clear lower-dynamic-range image sequence with smooth and stable transitions, including between dramatically different scene dynamics and temperature extremes. Notice that in the typical image at left, the firefighter is almost invisible. More details are visible in the low mode at center. In the highly enhanced image at right, many more details are visible, including a building that can be seen through the open window.
FIGURE 1. DRS’s Image Contrast Enhancement (ICE) algorithm, available on the company’s Tenum 640 (top) and other of its cameras, is based upon the company’s patented Enhanced Multiresolution Local Area Processing (emLAP); DRS says that emLAP stably preserves the maximum visual content throughout the spectrum of the original sensor output with a user-definable degree of detail enhancement (lower images). EmLAP maps wide-dynamic-range sensor data into a clear lower-dynamic-range image sequence with smooth and stable transitions, including between dramatically different scene dynamics and temperature extremes. Notice that in the typical image at left, the firefighter is almost invisible. More details are visible in the low mode at center. In the highly enhanced image at right, many more details are visible, including a building that can be seen through the open window.
FIGURE 1. DRS’s Image Contrast Enhancement (ICE) algorithm, available on the company’s Tenum 640 (top) and other of its cameras, is based upon the company’s patented Enhanced Multiresolution Local Area Processing (emLAP); DRS says that emLAP stably preserves the maximum visual content throughout the spectrum of the original sensor output with a user-definable degree of detail enhancement (lower images). EmLAP maps wide-dynamic-range sensor data into a clear lower-dynamic-range image sequence with smooth and stable transitions, including between dramatically different scene dynamics and temperature extremes. Notice that in the typical image at left, the firefighter is almost invisible. More details are visible in the low mode at center. In the highly enhanced image at right, many more details are visible, including a building that can be seen through the open window.
FIGURE 1. DRS’s Image Contrast Enhancement (ICE) algorithm, available on the company’s Tenum 640 (top) and other of its cameras, is based upon the company’s patented Enhanced Multiresolution Local Area Processing (emLAP); DRS says that emLAP stably preserves the maximum visual content throughout the spectrum of the original sensor output with a user-definable degree of detail enhancement (lower images). EmLAP maps wide-dynamic-range sensor data into a clear lower-dynamic-range image sequence with smooth and stable transitions, including between dramatically different scene dynamics and temperature extremes. Notice that in the typical image at left, the firefighter is almost invisible. More details are visible in the low mode at center. In the highly enhanced image at right, many more details are visible, including a building that can be seen through the open window.
Detectors & Imaging

LWIR cameras are the powerhouse behind thermal imaging

Longwave-infrared focal-plane arrays enable a vast number of near-room-temperature thermal-imaging applications.
(Courtesy of Sill Optics)
FIGURE 1. An adaptive laser micromachining process operates in a way similar to an optical coherence tomography (OCT) measurement (a). The f-theta lens is seen inside the micromachining setup (b). A carbide drill with an undercut fabricated using adaptive microdrilling has a depth accuracy more accurate by a factor of about five in comparison to if it were made via a nonadaptive laser process (c).
FIGURE 1. An adaptive laser micromachining process operates in a way similar to an optical coherence tomography (OCT) measurement (a). The f-theta lens is seen inside the micromachining setup (b). A carbide drill with an undercut fabricated using adaptive microdrilling has a depth accuracy more accurate by a factor of about five in comparison to if it were made via a nonadaptive laser process (c).
FIGURE 1. An adaptive laser micromachining process operates in a way similar to an optical coherence tomography (OCT) measurement (a). The f-theta lens is seen inside the micromachining setup (b). A carbide drill with an undercut fabricated using adaptive microdrilling has a depth accuracy more accurate by a factor of about five in comparison to if it were made via a nonadaptive laser process (c).
FIGURE 1. An adaptive laser micromachining process operates in a way similar to an optical coherence tomography (OCT) measurement (a). The f-theta lens is seen inside the micromachining setup (b). A carbide drill with an undercut fabricated using adaptive microdrilling has a depth accuracy more accurate by a factor of about five in comparison to if it were made via a nonadaptive laser process (c).
FIGURE 1. An adaptive laser micromachining process operates in a way similar to an optical coherence tomography (OCT) measurement (a). The f-theta lens is seen inside the micromachining setup (b). A carbide drill with an undercut fabricated using adaptive microdrilling has a depth accuracy more accurate by a factor of about five in comparison to if it were made via a nonadaptive laser process (c).
Optics

F-theta lenses keep laser-scanning nice and linear

F-theta lenses have a laser spot position linearly proportional to the scan angle and are thus useful in many laser-scanning applications.
NASA
An artist's concept shows a rover on Mars
An artist's concept shows a rover on Mars
An artist's concept shows a rover on Mars
An artist's concept shows a rover on Mars
An artist's concept shows a rover on Mars
Optics

Jenoptik lenses will reveal the first images from NASA’s Mars 2020 mission

The Jenoptik Light & Optics team has been developing three types of mission critical lenses for the Mars Rover’s engineering cameras.
1712 Lfw Pro 3
1712 Lfw Pro 3
1712 Lfw Pro 3
1712 Lfw Pro 3
1712 Lfw Pro 3
Optics

Silicon optics from Jenoptik Optical Systems have use in optical data transfer applications

Standard quick-turn silicon optics will enable testing development systems quickly to get them to market.
(Image: Jenoptik)
Jay Kumler, president of Jenoptik, appointed to Luminate national advisory board
Jay Kumler, president of Jenoptik, appointed to Luminate national advisory board
Jay Kumler, president of Jenoptik, appointed to Luminate national advisory board
Jay Kumler, president of Jenoptik, appointed to Luminate national advisory board
Jay Kumler, president of Jenoptik, appointed to Luminate national advisory board
Optics

Jay Kumler, president of Jenoptik, appointed to Luminate national advisory board

Industry expert Jay Kumler joins 11 other optics, photonics, and imaging innovators on the Luminate advisory board.
(Image credit: Jenoptik)
The new Jenoptik Dome Theater in Jupiter, FL showcases laser cinema projection lenses.
The new Jenoptik Dome Theater in Jupiter, FL showcases laser cinema projection lenses.
The new Jenoptik Dome Theater in Jupiter, FL showcases laser cinema projection lenses.
The new Jenoptik Dome Theater in Jupiter, FL showcases laser cinema projection lenses.
The new Jenoptik Dome Theater in Jupiter, FL showcases laser cinema projection lenses.
Optics

Jenoptik Dome Theater showcases laser cinema projection lenses

The new Jenoptik Dome Theater was designed for testing and demonstrating laser projection lenses for digital cinema.
FIGURE 1. A new wafer-scale etching technique can create refractive micro-optic elements in calcium fluoride.
FIGURE 1. A new wafer-scale etching technique can create refractive micro-optic elements in calcium fluoride.
FIGURE 1. A new wafer-scale etching technique can create refractive micro-optic elements in calcium fluoride.
FIGURE 1. A new wafer-scale etching technique can create refractive micro-optic elements in calcium fluoride.
FIGURE 1. A new wafer-scale etching technique can create refractive micro-optic elements in calcium fluoride.
Lasers & Sources

UV OPTICS: Calcium fluoride micro-optics improve DUV excimer laser systems

Using non-traditional etching techniques, it is possible to fabricate diffractive/refractive calcium-fluoride (CaF2) micro-optics for deep-UV excimer laser systems that can increase...

KEY CONTACTS

Song Chung

VP Sls

Buyer's Guide Listing Information

Click here for listing information and directions on how to add or update your company.

Request More Information From JENOPTIK Optical Systems LLC

By clicking above, I acknowledge and agree to Endeavor Business Media’s Terms of Service and to Endeavor Business Media's use of my contact information to communicate with me about offerings by Endeavor, its brands, affiliates and/or third-party partners, consistent with Endeavor's Privacy Policy. In addition, I understand that my personal information will be shared with any sponsor(s) of the resource, so they can contact me directly about their products or services. Please refer to the privacy policies of such sponsor(s) for more details on how your information will be used by them. You may unsubscribe at any time.