Optics: CCD technology |
CCD
TOSHIBA CCD Linear Image Sensor CCD (charge coupled device), TCD2561D, The
TCD2561D is a high sensitive and low dark current 5340 elements × 4 line CCD
color image sensor which includes CCD drive circuit, clamp circuit,
pdf file |
CCD_3Phases_3D-Layout |
CCD and CMOS Imaging
Array Technologies: Technology Review CCDs consist of thousands (or
millions) of light sensitive cells or pixels that are capable of producing an
electrical charge proportional to the amount of light they receive. Typically,
the pixels are arranged in either a single line (linear array CCDs) or in a
two-dimensional grid (area array CCDs). The particular application will, in
general, dictate the type of CCD that is used. Flatbed scanners, for example,
use linear array CCDs and, in this case, it is necessary to progressively move
the CCD over the object being imaged (or vice versa) while capturing multiple
one-dimensional images in order to build up the final two-dimensional image,
pdf file |
CCD cameras |
CCD detector |
CCD image sensors
CCD image sensors, CCDs, basic operation, well capacity, charge transfer,
readout speed, CMOS Passive Pixel Sensor (PPS), basic operation, charge to
output voltage transfer function, readout speed, CMOS Active Pixel Sensor (APS),
basic operation, charge to output voltage transfer function, readout speed,
Photogate APS,
pdf file |
CCD
Imaging Systems The CCD Element, Preamplifier Stage, Requirements With
DC-Restoration, Correlated Double Sampling, A/D Converter, pdf file |
CCD Linear Image Sensors
A CCD image sensor consists of a photodiode (photosensitive unit), CCD (transfer
unit), and signal detection circuit (output unit). The photodiode converts light
into electrons (charges) and stores them. The CCD transfers these electrons to
the signal detection circuit. The signal detection circuit then converts
electrons into electrical signals |
CCD
operation charged coupled devices (CCDs) feature high-density pixel arrays capable of producing digital images with the highest resolution currently
available |
CCD primer
Characteristics and use of FFT-CCD, pdf file |
CCD primer
Charge Coupled Device primer, pdf file |
CCD Primer
provide a good introduction to CCDs, Charge
Coupled Device |
CCD systems
blooming vs. anti-blooming, pixel binning, system gain, camera test methods, digitization, correlated
double, sampling, readout noise, dark count, system throughput, dynamic range,
charge transfer efficiency, telescope optics & pixel size |
CCD technology
CMOS Image Sensors |
CCD technology
CCD Architecture from Kodak, Increasing the Blue Channel Response, CCD Sensors
and Image Capture, Converting Light to an Electronic Charge, Charge Transfer
Techniques |
CCD TECHNOLOGY pdf file |
CCD vs. CMOS
CCD (charge coupled device) and CMOS (complementary metal oxide semiconductor)
image sensors are two different technologies for capturing images digitally.
Both types of imagers convert light into electric charge and process it into
electronic signals. In a CCD sensor, every pixel's charge is transferred through
a very limited number of output nodes (often just one) to be converted to
voltage. a CMOS sensor, each pixel has its own charge-to-voltage conversion, and
the sensor often also includes amplifiers, noise-correction, and digitization
circuits, so that the chip outputs digital bits |
CCD vs. CMOS- Facts and Fiction Both image sensors are pixelated metal oxide
semiconductors. They accumulate signal charge in each
pixel proportional to the local illumination intensity, CCD vs. CMOS- Facts and
Fiction, pdf file |
Characteristics and use of back-thinned TDI-CCD Characteristics and use of
back-thinned TDI-CCD, pdf file |
Charge Coupled Device
MOS Capacitor, Single CCD Cell, Array of Cells to Form a Device, Charge Transfer
Process, Scanning Formants, Device Architectures, Color, pdf file |
Charge-coupled
device A charge-coupled device (CCD) is a device for the movement of
electrical charge, usually from within the device to an area where the charge
can be manipulated, for example conversion into a digital value |
Charge Coupled Device and
Charge Injection Device Technology
Charge
Coupled Device and Charge Injection Device Technology, pdf file |
Charge-Coupled Device and CMOS based electronic images pdf file |
Charge-Coupled Device (CCD) and Digital Imaging |
CMOS vs. CCD pdf file |
Frame Transfer CCD
Image Sensor Frame Transfer CCD Image Sensor. The FXA 1012 is a colour
frame-transfer CCD image sensor designed for consumer digital photography
applications. The combination of high speed and a high linear dynamic range of
over 10 true bits makes this device the perfect solution for use in compact high quality imaging
applications, pdf file |
Full Frame CCD Image
Sensor |
High Dynamic Range Image Sensors
CCD image sensors, pdf file |
How CCDs Work How CCDs Work |
Introduction to CCDs CCDs work by converting light into a pattern of
electronic charge in a silicon chip. This pattern of charge is converted into a
video waveform, digitised and stored as an image file on a computer |
KODAK CCD
PRIMER CHARGE-COUPLED DEVICE (CCD) IMAGE SENSORS. CCD's can take on various
architectures. The primary CCD's in use today are called Full-Frame Transfer and Frame-Transfer devices,
which use MOS photocapacitors as detectors and Interline Transfer devices which
use photodiodes and photocapacitors as the detector, pdf file |
TC237B CCD Image
Sensor Data Sheet |
TDA9965 CCD
SIGNAL PROCESSOR The TDA9965 is an analog to digital interface for CCD based
cameras. This chip includes a clamp and track&hold block (CTH), a programmable gain amplifier (PGA), a calibration
clamp loop and a 12-bits analog to digital converter (ADC). CTH bandwidth, PGA
gain, ADC black reference and other control pulses polarities are programmed
through a simple 3 wires serial interface, pdf file |
Horizontaal |
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Last updated on:
2011-01-02
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