See in the Dark Pixim IR Night Vision
WIDE Dynamic LOW Smear Digital Pixel System Colour Day Night Vandal
Hardened high resolution Pixim Security Camera with inbuilt LED
Illuminator IR Focus Shift Corrected Auto Iris Vari-Focal Length Lenses
720 H-Pixels Motorised movable IR Cut Filter Aluminium Case Thick
Polycarbonate Acrylic Dome Variable-Focal-Length Automatic-Iris 3.7 ~ 12
mm or 9 ~ 22 mm Lens suitable for high to zero illumination levels in
Homes, Shops, Showrooms, Offices, Warehouses, sheltered outdoor use
Powered by Pixim®
Infrared Night-Vision Wide
Dynamic negligible Smear
High Resolution True Colour Day Night
Security Camera for troublesome High-Contrast
Back-Lit Shop Entrance/Window type situations
See-in-the-Dark Vandal Hardened Housing
Polycarbonate-Dome DPS®
technology
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⅓"
PIXIM®
Wide Dynamic
Digital Pixel System®
Technology
! Superb Images ! Superb Value !
Versatile !
Digital Pixel System®
from PIXIM®
with Wide 120 dB Dynamic Range for near perfect
exposure in high contrast situations with brightly
lit areas. Ideal for troublesome situations where
strong Backlight results in poorly exposed images
with ordinary CCD Cameras
J
PIXIM®
DPS®
is a new LOW Smear WIDE Dynamic image
sensor technology (not CCD)
J
This IR Night-Vision Security Camera
addresses shortcomings associated
with ordinary Day / Night Colour Cameras it has a
motorised movable Infrared Cut Filter for Vivid
Colour Rendition & improved low-light / Infrared
sensitivity
J
Fast Automatic Iris 3.7~12 mm or 9~22 mm VariFocal
IR focus-shift
corrected Lens to cope
with High Levels of Illumination increase
depth-of-field & maximise low light transmittance
J
24 vac / DC Power for long cable runs -
Vandal Hardened Housing & Dome
J
Progressive Scan Image Sensor better than
Interlaced maximises 'Frame' recording
quality
Use
out-of-box or tailor parameters (hundreds) to
suit your application via push-button
On-Screen-Display
DPS Sensor &
Chipset from USA
PCB & Housing from Taiwan
Lens & LEDs from Japan
Built in Taiwan
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Out-of-the-Box solution
for difficult Back Lit High Contrast situations and
brightly illuminated (Sunlight, Daylight) areas such as
off-street entrances, car parks, windows, etc.
SEE-in-the-DARK
IR Illuminator.
New Technology
WIDE-DYNAMIC
progressive-scan DPS Image Sensor in a True Day /
Night Security Camera with inbuilt
Infrared Illuminator.
Movable IR-Cut Filter for excellent Colour Rendition in
Daylight & maximum low light / IR sensitivity.
Versatile
3.7 ~ 12 mm or
9 ~ 22 mm Variable-Focal-Length Automatic-Iris, IR
focus-shift corrected
Lens.
Wide-Angle
4+ m
wide view
@ 3 metres, (20+ m @ 15 m).
Full-Screen
0.7 m 'Head & Shoulders' or
'Cash Drawer' shots @ 3 metres.
Full-Screen
'Entry' 2 m wide shots @ 9 metres.
for: Backlit
situations illustrated below
for:
High Resolution images.
for:
high to zero
illumination levels.
Ideal
for Shops, Showrooms,
Homes, Offices, Warehouses, Car Parks, Service Stations,
sheltered outdoor use under eaves, etc.
This Camera
excels
in all illumination levels including
difficult high contrast
situations with
bright & dark areas.
VANDAL HARDENED - Robust
Aluminium Case - Thick Polycarbonate Dome - Security
Screws with Wrench - Side or Top Cable entry.
Tri-Axis
internal Bracket allows
mounting at almost any angle Vertical - Sloped -
Horizontal on Walls, Ceilings, etc.
Order Code:
[DomeIR-DPSw]
$469
Wide 3.7 ~ 12 mm Lens
$389
for
mixed order over $1000
$319 < 10 + >
Order Code:
[DomeIR-DPSt]
$499
Tele 9 ~ 22 mm Lens
$419
for
mixed order over $1000
$339 < 10 + >
Reseller Info
here need unbranded product with
YOUR NAME
See Pixim Technology in Action
Demo DVD
$10 including Postage
$10 will be
reimbursed on purchase
of a Pixim Camera.
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! NEWS
!
"Pixim® technology"
chosen for 500 Camera Port Security installation
more
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All values are
approximate. |
@ 3 metres |
@ 5 metres |
@ 9 metres |
@ 15 metres |
| Width of
Vision @ 3.7 mm setting |
4.1 metres |
6.8 metres |
12.2 metres |
20.4 metres |
| Width of
Vision @ 9 mm setting |
1.7
metres |
2.8 metres |
5 metres |
8.4 metres |
| Width of
Vision @ 12 mm setting |
1.2
metres |
2.1 metres |
3.8 metres |
6.3 metres |
| Width of
Vision @ 22 mm setting |
0.7
metres |
1.1 metres |
2 metres |
3.4 metres |
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Additional
CCTV Lens selection information |
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Image
Device: (Made in USA),
(742 x 552 Pixel), 720 (H) x 540 (V) 388 800 Active
Pixels
⅓" (5.04 x 3.78 mm, 7
µm x 7 µm pixel)
PIXIM® Wide Dynamic
Digital Pixel System®
Progressive-Scan Image Sensor for:
"Digital Pixel System®"
technology info @ "PIXIM®"
Lens: (Made
in Japan), Variable Focal
Length
IR focus-shift corrected
3.7 mm ~ 12mm (w)
or 9 mm ~ 22 mm
(t)
Automatic Iris, copes with High levels of illumination,
passes more light and provides greater depth-of-field than
ordinary fixed Iris Lenses.
There
are no Accessory Lenses for this Camera
Lens Width of Vision
Table.
Video System: 2:1 Interlace
switchable between PAL
50/625
or
NTSC 60/525. PAL 50 Hz
vertical, 15 625 Hz horizontal. Compatible with TV Systems
in Australia, NZ, UK, USA, Japan, etc.
Video Output: Composite Video
75 ohms
1.14 V p-p, video level can be increased to
compensate for Cable length/loss,
~ 100 cm
long cable with
BNC socket,
suitable for TV, DVR, VCR, AV
& Video inputs in Australia, NZ, UK, USA, Japan, etc.
Horizontal Resolution
(Pixels): 600 ~ 700, this value is provided for comparative
purposes only. Better than Super-VHS resolution near DTV /
DVD (720 pixel) resolution.
Minimum Illumination: ~ 0.8
lux @ F1.2 in low light monochrome mode,
0 lux with LEDs 'ON'.
Depending on Lens 'focal length' setting Infrared LEDs
illuminate up to ~ 80% of the Width-of-Vision and are
effective up to ~ 20 m (w)
and up to ~ 30 m (t)
depending on the Infrared reflective characteristics of
subject, objects closer than ~ 2 metres may be overexposed
when illuminated by LEDs,
these values are provided for
comparative purposes only.
Automatic Electronic Shutter
(AES):
Up to 1/30 720 second.
Smear (more):
Zero for most practical purposes, copes with
highlights better than ordinary CCD cameras,
Smear is illustrated on this page.
Spectral Response:
~ 400 to ~ 1100 nm with
Infrared 'CUT' Filter 'out' of optical path, additional
CCTV Infrared Night Vision information.
Signal to Noise ratio (SNR):
50 + dB, measured with AGC off.
Back Light Compensation
(BLC): Automatic, Manual variable position.
Gamma: 0.45.
Infrared Illuminator: Light
Emitting Diodes (Made in Japan) 12 High Power,
automatically switches On/Off depending on illumination
level, user
adjustable via rotary potentiometer.
Setup:
Via On-Screen-Display and 5-way Joystick type push button
located in base of Camera.
Due to ongoing product development functions
listed below may change in the future [30/06/09]
Main Menu:
"WDR Mode" Normal, Indoor, Outdoor, Fluro 1,
Fluro 2.
"Exposure" Gain Mode:
AGC Low, Medium, High, Custom Bias 37
increments Limit 61 increments, Manual
102 increments, Slow Shutter 2X to 32X, 5
increments. WD Range:
Auto, Manual 10 increments. Backlight Zone:
On 21 x 14 positions, Off. Transitions:
Normal, Fast, Slow.
"White Balance" Mode:
ATW Extend, ATW Normal, ATW Desat, AWB, Manual
Colour-Temp 2000~11000ºK
90 increments, Red & Blue 40 increments.
Magenta Ctrl: On, Off,
Custom 100 increments. WB Bias:
40 increments. Transitions:
ATW Slew 100 increments. Hysteresis 100 increments.
"Viewing"
Horizontal-Mirror: On, Off.
Gamma Mode: Auto, Off,
Manual 75 increments. Sharpness:
Detail Boost Auto, Off. Noise Reduction On,
Off. Sharpness 16 increments. Aperture
16 increments. Chroma:
Bias: 16 increments. Resolution:
Normal 1, Advanced 1, Normal 2, Advanced 2.
"Setup" Video I/O:
TV System PAL,
NTSC. Video Level 8 increments. Colour Bars
On, Off.
Synchronisation
Int, Int2, Line-Lock 625 increments. ID Setup:
On, Off. Characters 8. Position Up-left,
Up-center, Up-right, Down-left, Down-right. Day Night
Setup: D/N Ctrl
*Auto,
Colour, Mono. Gain Boost On, Off. AI
Threshold: 102 increments.
"Save/Restore" Restore User Settings, Save User Settings,
Restore Factory Settings, Reset Camera.
*Day/Night
setting = Automatic:
When illumination is
adequate for colour movable Infrared CUT Optical Filter is
positioned between Lens & Image Sensor to exclude Infrared
radiation that would otherwise adversely affect colour
reproduction, this ensures colour
rendition not possible with ordinary non-filtered or
notch-filter type Day/Night cameras.
When illumination
level is low Optical Filter is removed to allow Infrared to
pass enhancing Infrared and low light sensitivity, the
result is significantly better low light
images using
the inbuilt Infrared Illuminator or with Infrared rich light
sources. Infrared Response
without Infrared filter is ~ 700 to ~
1100 nm better than a
'notch
IR Filter' visit
this page for more
Infrared Night Vision information.
Power Requirements: 24 volts
ac, ~ 110/220 mA LEDs OFF/ON
(can also be powered
from 15 ~ 24 VDC,
current @ 15 V: ~230/350 mA LEDs OFF/ON),
via
~ 100 cm
cable and stripped & tinned
wires.
Dimension / Weight: ~
142 mm diameter, ~ 110 mm deep, ~ 1.2 kg.
Manufacturer's experience: 20
+ Years,
Made in Taiwan
using
PIXIM® Wide Dynamic
Digital Pixel System®
D1110 Image Sensor.
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Every Pixel Tells A Story
Pixim-Powered cameras provide the surveillance
market with something truly unique—the Digital Pixel System ®
technology. Not only is Pixim’s technology the only all-digital
image solution, but it is the only technology to employ hundreds
of thousands of pixels each acting like individual cameras. These
constantly self-adjusting pixels eliminate image-compromising
visual noise and deliver high-resolution, natural colour and
clarity. The result is simply unparalleled image quality
regardless of lighting conditions or applications.
Pixim’s patented Digital Pixel System ®
technology marks a fundamental breakthrough in imaging technology.
Building upon technology developed at Stanford University in the
1990s, Pixim has created an image capture and processing system
that provides high-quality pictures with enhanced dynamic range.
Greater dynamic range significantly improves image quality in
scenes consisting of both bright and dark areas.
Pixim Inside
The core invention in the Digital Pixel System
technology is the inclusion of an analog-to-digital converter
(ADC) within each pixel of the image sensor. The ADC translates
the light signal into a digital value at the immediate point of
capture, thus minimizing signal degradation and cross-talk in the
array and allowing for greater noise reduction methods. Once the
data is captured in a digital format, a variety of digital signal
processing techniques are used for optimal image reproduction.
Analog CCD Camera
All pixels in the array have
the exact same shutter speed
Result:
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Bright areas overexposed
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Dark areas underexposed
Because each pixel has its own
analog-to-digital converter and the information generated is
captured and processed independently, each pixel in effect acts as
its own camera. The exposure time for each pixel is adjusted to
handle the unique lighting conditions at that pixel location in
the image sensor array. A product built with the Digital Pixel
System platform essentially has hundreds of thousands of
individual cameras, each of which produces the best image
possible. These images are then combined to create a high quality
video frame or picture.
Pixim-Powered Camera
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Pixels in bright areas
automatically adjust to eliminate overexposure
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Pixel in dark areas
automatically adjust to eliminate underexposure
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Only all-digital solution
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Every pixel is a
self-adjusting camera
In contrast, other
technologies typically set one exposure time for the frame and
sample each pixel at that time – resulting in images with some
pixels that are underexposed (too dark) and some that are
overexposed (too bright).
Pixim’s Video Imaging System, is comprised of a
digital image sensor and a digital image processor. The digital
image sensor and digital image processor function much like the
eyes and brain in humans, with two-way real-time interactivity to
capture the highest quality image possible. Just as the brain of a
person walking into a dark room instructs the eyes to open the
pupil to allow in more light, the digital image processor loads
new code into the sensor to alter not only exposure times but the
actual image capture algorithms. The result: the best possible
picture given the specific image characteristics and lighting
conditions.
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Ideal
for use with 720 H-Pixel
Air
