EAGLE VISION EV3000-D, Руководство пользователя

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D C C h c n i 2 / 1 r o s n e S e g a m I
l e x i P 6 9 4 x 8 5 6 s l e x i P e v i t c A
E ective Picture Element 319 k Pixel
Video Output Signal VBS (NTSC:BNC), Y/C
) a r e m a C h t i W d e d u l c n I t o N s n e L ( t n u o M C t n u o M s n e L
l a n r e t n I m e t s y S C N Y S
) T U O C S T N ( L V T 0 2 4 n o i t u l o s e R
Minimum Illumination 0.001 Lux (F1.2 CMG x 1000, AGC 12 dB, White 50%)
0.00025 Lux (F1.2 CMG x 1000, AGC 12 dB, White 10%)
0.000004 Lux (256 x long term exposure*, AGC O , White 10%)
B d 0 5 ) C S T N ( o i t a R N / S
L A U N A M / B W h s u P e n O / W T A e c n a l a B e t i h W
) C D / E E ( s n e L s i r I o t u A l o r t n o C S I R I
) 0 0 0 2 / 1 , 0 0 0 1 / 1 , 0 0 5 / 1 , 0 5 2 / 1 , 0 0 1 / 1 , 0 6 / 1 , F F O ( l a u n a M r e t t u h S c i r t c e l E
) e l b a t c e l e S p e t S B d 1 ( B d 8 1 o t B d 0 , F F O N I A G
Charge Multiplication GAIN (CMG) x 1000 approximately (maximum)
Backlight Compensation 7-Mode Selectable, 16 Area Photometry
d n o c e S r e P s e m a r F 0 3 e t a R e m a r F
) p 9 - b u s D ( C 2 3 2 - S R l o r t n o C a r e m a C
C D V 2 1 y l p p u S r e w o P
s t t a w 2 1 : F ° 4 0 1 t A , s t t a w 6 : F ° 7 7 t A n o i t p m u s n o C r e w o P
Operating Temperature 14 °F to 113 °F
m u m i x a M % 0 9 y t i d i m u H
) g 0 5 4 ( z o 8 . 5 1 t h g i e W
) D ( ” 4 2 . 5 x ) H ( ” 3 . 2 x ) W ( ” 8 2 . 2 s n o i s n e m i D
A s s a l C C C F d r a d n a t S n o i s s i m E
y t n a r r a W d e t i m i L r a e Y e n O y t n a r r a W
*Slow Shutter
EXTREME LOW LIGHT COLO UR VIDEO CAMERA
APPLICATIONS
Suggested applications for
the camera:
• Military
• Bio Science
• Scienti c
• Non-Destructive Testing
• Extreme Low Light
Underwater Video
• Realism Broadcast TV
• Mine & Safety Inspection
WHAT IS EMCCD?
Electronic multiplying architecture
di ers from traditional CCD tech-
nology in that a gain register is
inserted between the end of the
shift register and the output ampli-
er. The gain register has two
phases with independent elec-
trodes, each holding a di erent
voltage potential. The resultant
intense electric eld causes the
electrons to undergo impact
ionization. This generates new
electrons that manifest themselves
as dramatically increased sensitivi-
ty at very fast speeds without the
common readout noise of tradition-
al CCDs.
The result is virtually
noiseless 30 FPS full color in
near total darkness
.