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Schneider Optics: 27-1991816 |
CINEGON 1.8/16MM 27-1991816 COMPACT 1-inch Format (16mm Image Circle) Ruggedized Lens
The Schneider Optics Cinegon 1.8/16 (p/n: 21-1001482, 27-1991816, 22-1061375, 27-2201816) wide angle 16 mm focal length C-Mount lens for 1” sensor with 5 megapi... |
Kowa: lm3nc1m |
Kowa LM3NC1M 1/1.8" 3 Megapixel 3.5mm Super Wide Angle C Mount Lens
The Kowa LM3NC1M (also known as LM3NCM) is a wide angle C-Mount Lens used for megapixel applications. The LM3NC1M Wide Megapixel lens series offer...
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Kowa: lm4hc |
Kowa LM4HC 1" 4.7mm F2.4 Manual Iris C-Mount Lens, 5 Megapixel Rated
The Kowa LM4HC is a 4.7mm wide angle 1" format lens with a 5MP rating. This is a unique addition to the renowned Kowa HC Series. It can be used for cameras with p... |
Kowa: lm6hc |
Kowa LM6HC 1" 6mm F1.8 Manual Iris C-Mount Lens, 2-Megapixel Rated
Kowa's LM6HC lenses are designed for 1" megapixel cameras. 1" megapixel LM6HC lenses have low distortion, excellent light transmission, and can be...
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Kowa: lm6ncm |
Kowa LM6NCM 1/2", 6mm, F1.2, 2 Megapixel Rated, Manual Iris, C-Mount Lens
The Kowa LM6NCM wide megapixel lens is a wide angle lens used for megapixel applications. The LM6NCM has excellent corner brightness and low distortion. The Wide M...
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Theia: sl183a |
Varifocal Ultra wide No Distortion 5 Megapixel Lens
Theia's SL183A lenses provide ultra wide field of view without distortion. These are varifocal lenses allowing the user to optimize the field of view from wide angle to ultra wide....
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Theia: sl183m |
Varifocal Ultra wide No Distortion 5 Megapixel Lens
Theia's SL183M lenses provide ultra wide field of view without distortion. These are varifocal lenses allowing the user to optimize the field of view from wide angle to ultra wide....
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Marshall Electronics: v-pl27-cs-120 |
Marshall Electronics V-PL27-CS-120 Wide Angle and Long Focal Length Pinhole Lenses
The Marshall Electronics V-PL27-CS-120 2.7mm Wide Angle Pinhole Lens (CS/12mm Mount) is designed for use with 1/3”, 1/4” and 1/5” format CCD sensors, and offers compatibilit...
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VS-Technology: vs-ft12hv |
12 MP 1.1" Wide Angle 12mm Fixed Focal Lens
The VS Technology VS-FT12HV 12mm fixed focal length lens is optimized for 1.1", 12 megapixel sensors, with built-in liquid focusing and a wide angle. |
Canon: 4968b001 |
RS-IL03WF Ultra Wide Angle Lens
The Canon 4968B001 RS-IL03WF Ultra Wide Angle Lens is an easy-to-use lens that provides a 1x optical zoom (powered). The RS-IL03WF incorporates Canon's highest sta... |
Canon: 7667a001 |
LV-IL01 Ultra Wide Lens - for LV-7545 and 7565 Projector's
The Canon 7667A001 LV-IL01 Ultra Wide Lens is compatible with the LV-7545 and 7565 Projectors. |
JVC: hm600wc8x72hu |
WIDE ANGLE CONVERTER FOR GY-HM600/650/850/890
The JVC HM600WC8X72HU Wide Angle Converter for GY-HM600 & GY-HM650 is a 0.8x wide angle converter lens with 72mm threading for the JVC GY-HM600 and GY-HM650 camcorders. It convert... |
Opto Engineering: pc12030hp |
Pericentric lens for 1/2″ detectors
Working distance: distance between the front end of the mechanics and the object. The design working f-number (wf/N) is specified. The working f-number could be changed using the variable iris. Measur... |
Opto Engineering: pc12030xs |
Compact pericentric lens for 1/2″ detectors
Working distance: distance between the front end of the mechanics and the object. The design working f-number (wf/N) is specified. The working f-number could be changed using the variable iris. Measur... |
Opto Engineering: pc13030hp |
Pericentric lens for 1/3″ detectors
Working distance: distance between the front end of the mechanics and the object. The design working f-number (wf/N) is specified. The working f-number could be changed using the variable iris. Measur... |
Opto Engineering: pc13030xs |
Compact pericentric lens for 1/3″ detectors
Working distance: distance between the front end of the mechanics and the object. The design working f-number (wf/N) is specified. The working f-number could be changed using the variable iris. Measur... |
Opto Engineering: pc23030xs |
Compact pericentric lens for 2/3″ detectors
Working distance: distance between the front end of the mechanics and the object. The design working f-number (wf/N) is specified. The working f-number could be changed using the variable iris. Measur... |
Opto Engineering: pcbp012 |
Boroscopic probe for 1/2" detectors
Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2% Used in continuous (not pulsed) mode. Constant voltage power supply Constant current power supply Measured... |
Opto Engineering: pcbp012-af |
Boroscopic probe for 1/2" detectors, liquid lens focusing
Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2% Used in continuous (not pulsed) mode. Constant voltage power supply Constant current power supply Measured... |
Opto Engineering: pcbp013 |
Boroscopic probe for 1/3" detectors
Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2% Used in continuous (not pulsed) mode. Constant voltage power supply Constant current power supply Measured... |
Opto Engineering: pcbp013-af |
Boroscopic probe for 1/3" detectors, liquid lens focusing
Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2% Used in continuous (not pulsed) mode. Constant voltage power supply Constant current power supply Measured... |
Opto Engineering: pcbp023 |
Boroscopic probe for 2/3" detectors
Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2% Used in continuous (not pulsed) mode. Constant voltage power supply Constant current power supply Measured... |
Opto Engineering: pcbp023-af |
Boroscopic probe for 2/3" detectors, liquid lens focusing
Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2% Used in continuous (not pulsed) mode. Constant voltage power supply Constant current power supply Measured... |
Opto Engineering: pcbpn013 |
Boroscopic probe for 1/3" detectors, 4 mm probe diam
Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2% Used in continuous (not pulsed) mode. Constant voltage power supply Constant current power supply Measured... |
Opto Engineering: pcbpn013-wg |
Boroscopic probe for 1/3" detectors, 7 mm probe diam, with illuminator
Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2% Used in continuous (not pulsed) mode. Constant voltage power supply Constant current power supply Measured... |
Opto Engineering: pccd012 |
Pericentric catadioptric lens for 1/2" sensors
Working distance: distance between the front end of the mechanics and the object. The design working f-number (wf/N) is specified. The working f-number could be changed using the variable iris. Measur... |
Opto Engineering: pccd013 |
Pericentric catadioptric lens for 1/3" sensors
Working distance: distance between the front end of the mechanics and the object. The design working f-number (wf/N) is specified. The working f-number could be changed using the variable iris. Measur... |
Opto Engineering: pccd023 |
Pericentric catadioptric lens for 2/3" sensors
Working distance: distance between the front end of the mechanics and the object. The design working f-number (wf/N) is specified. The working f-number could be changed using the variable iris. Measur... |
Opto Engineering: pccd2m |
Pericentric catadioptric lens for 1" sensors
Working distance: distance between the front end of the mechanics and the object. The design working f-number (wf/N) is specified. The working f-number could be changed using the variable iris. Measur... |
Opto Engineering: pchi012 |
Hole inspection optics for 1/2" sensors
Working distance: distance between the front end of the mechanics and the object. Working f-number (wf/N): the real f-number of a lens in operating conditions. Measured from the front end of the mecha... |
Opto Engineering: pchi012-af |
Hole inspection optics for 1/2"sensors, liquid lens focusing
Working distance: distance between the front end of the mechanics and the object. Working f-number (wf/N): the real f-number of a lens in operating conditions. Measured from the front end of the mecha... |
Opto Engineering: pchi012-mf |
Hole inspection optics for 1/2" sensors, manual focusing gear
Working distance: distance between the front end of the mechanics and the object. Working f-number (wf/N): the real f-number of a lens in operating conditions. Measured from the front end of the mecha... |
Opto Engineering: pchi013 |
Hole inspection optics for 1/3" sensors
Working distance: distance between the front end of the mechanics and the object. Working f-number (wf/N): the real f-number of a lens in operating conditions. Measured from the front end of the mecha... |
Opto Engineering: pchi023 |
Hole inspection optics for 2/3" sensors
Working distance: distance between the front end of the mechanics and the object. Working f-number (wf/N): the real f-number of a lens in operating conditions. Measured from the front end of the mecha... |
Opto Engineering: pchi023-af |
Hole inspection optics for 2/3"sensors, liquid lens focusing
Working distance: distance between the front end of the mechanics and the object. Working f-number (wf/N): the real f-number of a lens in operating conditions. Measured from the front end of the mecha... |
Opto Engineering: pchi023-mf |
Hole inspection optics for 2/3" sensors, manual focusing gear
Working distance: distance between the front end of the mechanics and the object. Working f-number (wf/N): the real f-number of a lens in operating conditions. Measured from the front end of the mecha... |
Opto Engineering: pchi3m |
Hole inspection optics for 1.1" sensors
Working distance: distance between the front end of the mechanics and the object. Working f-number (wf/N): the real f-number of a lens in operating conditions. Measured from the front end of the mecha... |
Opto Engineering: pchi3m-af |
Hole inspection optics for 1.1"sensors, liquid lens focusing
Working distance: distance between the front end of the mechanics and the object. Working f-number (wf/N): the real f-number of a lens in operating conditions. Measured from the front end of the mecha... |
Opto Engineering: pchi3m-mf |
Hole inspection optics for 1.1" sensors, manual focusing gear
Working distance: distance between the front end of the mechanics and the object. Working f-number (wf/N): the real f-number of a lens in operating conditions. Measured from the front end of the mecha... |
Opto Engineering: pcmp012 |
Micro poliview lens for 1/2″ sensors
Working distance: distance between the front end of the mechanics and the object. Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. With constant driving v... |
Opto Engineering: pcmp023 |
Micro poliview lens for 2/3″ sensors
Working distance: distance between the front end of the mechanics and the object. Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. With constant driving v... |
Opto Engineering: pcpw012 |
Polyview lens for 1/2'' sensors
Working distance: distance between the front end of the mechanics and the object. The design working f-number (wf/N) is specified. The working f-number could be changed using the variable iris. Measur... |
Opto Engineering: pcpw013 |
Polyview lens for 1/3'' sensors
Working distance: distance between the front end of the mechanics and the object. The design working f-number (wf/N) is specified. The working f-number could be changed using the variable iris. Measur... |
Opto Engineering: pcpw023 |
Polyview lens for 2/3'' sensors
Working distance: distance between the front end of the mechanics and the object. The design working f-number (wf/N) is specified. The working f-number could be changed using the variable iris. Measur... |
Panasonic: pla22t3dn |
1/3" CS-Mount 2.2mm, F=1.2, Wide-Angle Lens
The Panasonic PLA22T3DN is a quality wide-angle lens suitable for use with general purpose color or B/W cameras. An auto iris function ensures proper exposure in a... |
Opto Engineering: tccage12048 |
Bi-telecentric multi-mirror system for 1/2″ sensors
Sensors with different dimensions may cause incomplete images Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. Drop to 50% intensity @ 25°C. Indicates th... |
Opto Engineering: tccage12048hp |
High power bi-telecentric mult-imirror system for 1/2″ sensors
Sensors with different dimensions may cause incomplete images Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. Drop to 50% intensity @ 25°C. Indicates th... |
Opto Engineering: tccage12096 |
Bi-telecentric multi-mirror system for 1/2″ sensors
Sensors with different dimensions may cause incomplete images Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. Drop to 50% intensity @ 25°C. Indicates th... |
Opto Engineering: tccage12096hp |
High power bi-telecentric mult-imirror system for 1/2″ sensors
Sensors with different dimensions may cause incomplete images Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. Drop to 50% intensity @ 25°C. Indicates th... |
Opto Engineering: tccage23048 |
Bi-telecentric multi-mirror system for 2/3″ sensors
Sensors with different dimensions may cause incomplete images Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. Drop to 50% intensity @ 25°C. Indicates th... |
Opto Engineering: tccage23048hp |
High power bi-telecentric mult-imirror system for 2/3″ sensors
Sensors with different dimensions may cause incomplete images Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. Drop to 50% intensity @ 25°C. Indicates th... |
Opto Engineering: tccage23096 |
Bi-telecentric multi-mirror system for 2/3″ sensors
Sensors with different dimensions may cause incomplete images Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. Drop to 50% intensity @ 25°C. Indicates th... |
Opto Engineering: tccage23096hp |
High power bi-telecentric mult-imirror system for 2/3″ sensors
Sensors with different dimensions may cause incomplete images Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. Drop to 50% intensity @ 25°C. Indicates th... |
Opto Engineering: tccage2mhr048-c |
Bi-telecentric multi-mirror system for 1″ sensors
Sensors with different dimensions may cause incomplete images Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. Drop to 50% intensity @ 25°C. Indicates th... |
Opto Engineering: tccage2mhr048hp-c |
High power bi-telecentric mult-imirror system for 1″ sensors
Sensors with different dimensions may cause incomplete images Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. Drop to 50% intensity @ 25°C. Indicates th... |
Opto Engineering: tccage2mhr096-c |
Bi-telecentric multi-mirror system for 1″ sensors
Sensors with different dimensions may cause incomplete images Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. Drop to 50% intensity @ 25°C. Indicates th... |
Opto Engineering: tccage2mhr096hp-c |
High power bi-telecentric mult-imirror system for 1″ sensors
Sensors with different dimensions may cause incomplete images Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. Drop to 50% intensity @ 25°C. Indicates th... |
Opto Engineering: tccage3mhr048-c |
Bi-telecentric multi-mirror system for 1.1″ sensors
Sensors with different dimensions may cause incomplete images Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. Drop to 50% intensity @ 25°C. Indicates th... |
Opto Engineering: tccage3mhr048hp-c |
High power bi-telecentric mult-imirror system for 1.1″ sensors
Sensors with different dimensions may cause incomplete images Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. Drop to 50% intensity @ 25°C. Indicates th... |
Opto Engineering: tccage3mhr096-c |
Bi-telecentric multi-mirror system for 1.1″ sensors
Sensors with different dimensions may cause incomplete images Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. Drop to 50% intensity @ 25°C. Indicates th... |
Opto Engineering: tccage3mhr096hp-c |
High power bi-telecentric mult-imirror system for 1.1″ sensors
Sensors with different dimensions may cause incomplete images Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. Drop to 50% intensity @ 25°C. Indicates th... |
Opto Engineering: tccage4mhr096-c |
Bi-telecentric multi-mirror system for 4/3″ sensors
Sensors with different dimensions may cause incomplete images Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. Drop to 50% intensity @ 25°C. Indicates th... |
Opto Engineering: tccage4mhr096hp-c |
High power bi-telecentric mult-imirror system for 4/3″ sensors
Sensors with different dimensions may cause incomplete images Working f-number (wf/N): the real f-number of a lens in operating conditions. Tolerance ± 2%. Drop to 50% intensity @ 25°C. Indicates th... |