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Optical Imaging Technologies for Machine Vision |
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 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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.... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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.... |
 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... |
 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.... |
 Opto Engineering: tc12016 |
Bi-telecentric lens for 1/2" sensors, magnification 0.385 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 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... |
 Opto Engineering: coe-4k-c-poe-010-j |
4K Line Scan Camera, 4096 x 2, 7 μm, CMOS, GigE, Color, M42x1 FD 12 mount
Using image compression mode Measured at 12VDC |
 Opto Engineering: coe-4k-m-poe-010-j |
4K Line Scan Camera, 4096 x 2, 7 μm, CMOS, GigE, Mono, M42x1 FD 12 mount
Using image compression mode Measured at 12VDC |
 Opto Engineering: el5mp0656 |
5 MP fixed focal lens with liquid lens technology, focal length 6 mm, ƒ/N 5.6, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Percent deviation of the real image compared to an ideal, undistorted image.... |
 Opto Engineering: tc12024 |
Bi-telecentric lens for 1/2" sensors, magnification 0.255 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 Opto Engineering: tc12036 |
Bi-telecentric lens for 1/2" sensors, magnification 0.177 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 Opto Engineering: tc12048 |
Bi-telecentric lens for 1/2" sensors, magnification 0.134 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 Opto Engineering: tc12056 |
Bi-telecentric lens for 1/2" sensors, magnification 0.114 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 Opto Engineering: tc12064 |
Bi-telecentric lens for 1/2" sensors, magnification 0.100 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 Opto Engineering: tc12080 |
Bi-telecentric lens for 1/2" sensors, magnification 0.080 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 Opto Engineering: tc12096 |
Bi-telecentric lens for 1/2" sensors, magnification 0.068 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 Opto Engineering: tc12120 |
Bi-telecentric lens for 1/2" sensors, magnification 0.052 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 Opto Engineering: tc12144 |
Bi-telecentric lens for 1/2" sensors, magnification 0.044 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 Opto Engineering: tc12192 |
Bi-telecentric lens for 1/2" sensors, magnification 0.033 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 Opto Engineering: tc13016 |
Bi-telecentric lens for 1/3" sensors, magnification 0.290 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 Opto Engineering: tc13024 |
Bi-telecentric lens for 1/3" sensors, magnification 0.192 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 Opto Engineering: tc13036 |
Bi-telecentric lens for 1/3" sensors, magnification 0.133 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 Opto Engineering: tc13048 |
Bi-telecentric lens for 1/3" sensors, magnification 0.098 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 Opto Engineering: tc13056 |
Bi-telecentric lens for 1/3" sensors, magnification 0.084 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 Opto Engineering: tc13064 |
Bi-telecentric lens for 1/3" sensors, magnification 0.074 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 Opto Engineering: tc13080 |
Bi-telecentric lens for 1/3" sensors, magnification 0.059 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 Opto Engineering: tc13096 |
Bi-telecentric lens for 1/3" sensors, magnification 0.050 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 Opto Engineering: tc13120 |
Bi-telecentric lens for 1/3" sensors, magnification 0.038 x, C-mount
Object field of view (mm x mm). For the fields with the indication "Ø =", the image of a circular object of such diameter is fully inscribed into the detector. Working distance: distance between the... |
 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.... |
 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.... |
 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.... |
 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.... |
 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.... |
 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.... |
 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.... |
 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.... |
 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.... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 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... |
 Opto Engineering: en2mp0814 |
Fixed focal 2 Megapixel lens, focal length 8 mm, f/N 1.4 - close, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: en2mp1214 |
Fixed focal 2 Megapixel lens, focal length 12 mm, f/N 1.4 - close, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: en2mp1614 |
Fixed focal 2 Megapixel lens, focal length 16 mm, f/N 1.4 - close, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: en2mp2514 |
Fixed focal 2 Megapixel lens, focal length 25 mm, f/N 1.4 - close, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: en2mp3514 |
Fixed focal 2 Megapixel lens, focal length 35 mm, f/N 1.4 - close, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: en2mp5018 |
Fixed focal 2 Megapixel lens, focal length 50 mm, f/N 1.8 - close, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: en2mp7528 |
Fixed focal 2 Megapixel lens, focal length 75 mm, f/N 2.8 - close, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: rt-m3514-mp |
Megapixel lens, focal length 35 mm, f/N 1.4 - 16, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: rt-m7528-mp |
Megapixel lens, focal length 75 mm, f/N 2.8 - 16, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: rt-h0514-mp2 |
Megapixel lens, focal length 5 mm, f/N 1.4 - 16, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: rt-m0814-mp2 |
Megapixel lens, focal length 8 mm, f/N 1.4 - 16, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: rt-m1214-mp2 |
Megapixel lens, focal length 12 mm, f/N 1.4 - 16, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: rt-m1614-mp2 |
Megapixel lens, focal length 16 mm, f/N 1.4 - 16, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: rt-m2514-mp2 |
Megapixel lens, focal length 25 mm, f/N 1.4 - 16, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: rt-m5018-mp2 |
Opto Engineering RT-M5018-MP2 Megapixel lens, focal length 50 mm, f/N 1.8 - 16, C-mount
Opto Engineering RT-M5018-MP2 lens: Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value... |
 Opto Engineering: en5mp0816 |
Fixed focal 5 Megapixel lens, focal length 8 mm, f/N 1.6 - 22, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: en5mp1216 |
Fixed focal 5 Megapixel lens, focal length 12 mm, f/N 1.6 - 22, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: en5mp1616 |
Fixed focal 5 Megapixel lens, focal length 16 mm, f/N 1.6 - 22, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: en5mp2514 |
Fixed focal 5 Megapixel lens, focal length 25 mm, f/N 1.4 - 22, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: en5mp3514 |
Fixed focal 5 Megapixel lens, focal length 35 mm, f/N 1.4 - 22, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: en5mp5018 |
Fixed focal 5 Megapixel lens, focal length 50 mm, f/N 1.8 - 22, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: en5mp7520 |
Fixed focal 5 Megapixel lens, focal length 75 mm, f/N 2.0 - 22, C-mount
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: en10mpl1220 |
10 Megapixel high resolution fixed focal lens for 4/3” sensors, focal length 12 mm
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: en10mpl1620 |
10 Megapixel high resolution fixed focal lens for 4/3” sensors, focal length 16 mm
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: en10mpl2520 |
10 Megapixel high resolution fixed focal lens for 4/3” sensors, focal length 25 mm
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: en10mpl3520 |
10 Megapixel high resolution fixed focal lens for 4/3” sensors, focal length 35 mm
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: en10mpl5020 |
10 Megapixel high resolution fixed focal lens for 4/3” sensors, focal length 50 mm
Calculated at minimum object distance. Working distance: distance between the front end of the mechanics and the object. Value calculated at the corner point of the sensor diagonal. For distortion... |
 Opto Engineering: rt-hr-1m-71 |
1.000x telecentric lens for detectors up to 2/3″, WD 71.0 mm
Working distance: distance between the front end of the mechanics and the object. Set this distance within ±3% of the nominal value for maximum resolution and minimum distortion. Working f-number... |
 Opto Engineering: rt-hr-2m-71 |
2.000x telecentric lens for detectors up to 2/3″, WD 71.0 mm
Working distance: distance between the front end of the mechanics and the object. Set this distance within ±3% of the nominal value for maximum resolution and minimum distortion. Working f-number... |
 Opto Engineering: rt-hr-4m-71 |
4.000x telecentric lens for detectors up to 2/3″, WD 71.1 mm
Working distance: distance between the front end of the mechanics and the object. Set this distance within ±3% of the nominal value for maximum resolution and minimum distortion. Working f-number... |
 Opto Engineering: rt-hr-6m-71 |
6.000x telecentric lens for detectors up to 2/3″, WD 71.1 mm
Working distance: distance between the front end of the mechanics and the object. Set this distance within ±3% of the nominal value for maximum resolution and minimum distortion. Working f-number... |
 Opto Engineering: rt-hr-1m-110 |
1.000x telecentric lens for detectors up to 2/3″, WD 110.0 mm
Working distance: distance between the front end of the mechanics and the object. Set this distance within ±3% of the nominal value for maximum resolution and minimum distortion. Working f-number... |
 Opto Engineering: rt-hr-2m-110 |
2.000x telecentric lens for detectors up to 2/3″, WD 110.0 mm
Working distance: distance between the front end of the mechanics and the object. Set this distance within ±3% of the nominal value for maximum resolution and minimum distortion. Working f-number... |
 Opto Engineering: rt-hr-4m-110 |
4.000x telecentric lens for detectors up to 2/3″, WD 110.0 mm
Working distance: distance between the front end of the mechanics and the object. Set this distance within ±3% of the nominal value for maximum resolution and minimum distortion. Working f-number... |
 Opto Engineering: rt-hr-6m-110 |
6.000x telecentric lens for detectors up to 2/3″, WD 110.0 mm
Working distance: distance between the front end of the mechanics and the object. Set this distance within ±3% of the nominal value for maximum resolution and minimum distortion. Working f-number... |
 Opto Engineering: rt-hr-1f-71 |
1.000x High magnification telecentric lens with built-in coaxial illumination for detectors up to 2/3″, WD 71.0 mm
Working distance: distance between the front end of the mechanics and the object. Set this distance within ±3% of the nominal value for maximum resolution and minimum distortion. Working f-number... |
 Opto Engineering: rt-hr-2f-71 |
2.000x High magnification telecentric lens with built-in coaxial illumination for detectors up to 2/3″, WD 71.0 mm
Working distance: distance between the front end of the mechanics and the object. Set this distance within ±3% of the nominal value for maximum resolution and minimum distortion. Working f-number... |
 Opto Engineering: rt-hr-4f-71 |
4.000x High magnification telecentric lens with built-in coaxial illumination for detectors up to 2/3″, WD 71.1 mm
Working distance: distance between the front end of the mechanics and the object. Set this distance within ±3% of the nominal value for maximum resolution and minimum distortion. Working f-number... |
 Opto Engineering: rt-hr-6f-71 |
6.000x High magnification telecentric lens with built-in coaxial illumination for detectors up to 2/3″, WD 71.1 mm
Working distance: distance between the front end of the mechanics and the object. Set this distance within ±3% of the nominal value for maximum resolution and minimum distortion. Working f-number... |
 Opto Engineering: rt-hr-1f-110 |
1.000x High magnification telecentric lens with built-in coaxial illumination for detectors up to 2/3″, WD 110.0 mm
Working distance: distance between the front end of the mechanics and the object. Set this distance within ±3% of the nominal value for maximum resolution and minimum distortion. Working f-number... |
 Opto Engineering: rt-hr-2f-110 |
2.000x High magnification telecentric lens with built-in coaxial illumination for detectors up to 2/3″, WD 110.0 mm
Working distance: distance between the front end of the mechanics and the object. Set this distance within ±3% of the nominal value for maximum resolution and minimum distortion. Working f-number... |
 Opto Engineering: rt-hr-4f-110 |
4.000x High magnification telecentric lens with built-in coaxial illumination for detectors up to 2/3″, WD 110.0 mm
Working distance: distance between the front end of the mechanics and the object. Set this distance within ±3% of the nominal value for maximum resolution and minimum distortion. Working f-number... |
 Opto Engineering: rt-hr-6f-110 |
6.000x High magnification telecentric lens with built-in coaxial illumination for detectors up to 2/3″, WD 110.0 mm
Working distance: distance between the front end of the mechanics and the object. Set this distance within ±3% of the nominal value for maximum resolution and minimum distortion. Working f-number... |
 Opto Engineering: rt-mp-1f-65 |
1.000 x telecentric lens with built-in coaxial illumination for detectors up to 1″
Working distance: distance between the front end of the mechanics and the object. Set this distance within ±3% of the nominal value for maximum resolution and minimum distortion. Working f-number... |
 Opto Engineering: rt-mp-2f-65 |
2.000 x telecentric lens with built-in coaxial illumination for detectors up to 1″
Working distance: distance between the front end of the mechanics and the object. Set this distance within ±3% of the nominal value for maximum resolution and minimum distortion. Working f-number... |
 Opto Engineering: rt-mp-4f-65 |
4.000 x telecentric lens with built-in coaxial illumination for detectors up to 1″
Working distance: distance between the front end of the mechanics and the object. Set this distance within ±3% of the nominal value for maximum resolution and minimum distortion. Working f-number... |
Call Now: 1-800-284-2288 |
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Email Us: sales@avsupply |
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Audio Video Supply Inc.
4542 Ruffner St. Suite 220
San Diego, CA 92111
Prices and specifications subject to change without notice.