Fairchild CAM/CMOS-2K.LS user manual RDI and Mrdi Responsivity Curve Image Sensor

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Figure 1.3.1

RDI and MRDI Responsivity Curve

1.4 Image Sensor

Pixel level processing image sensors are based on the principle that photons induced by charge at the pixel site should be converted to, as nearly as possible, a noise-free signal at the pixel site. The application of this principle produces the lowest possible noise and also allows signal control at each pixel.

As is true in other sensors, photons induce charge which is collected on a capacitor at the photo site. In a pixel level processing sensor, this charge is converted to an amplified voltage at the pixel. This voltage is then read out through a multiplexor to an external circuit. Since the readout starts with a strong signal, the dominant read noise source is the noise associated with the charge accumulation at the pixel.

The 2048 x 1 linear CMOS image sensor uses a low fixed pattern noise capacitive transimpedance amplifier (LFPN CTIA) pixel architecture. The pixel also includes circuitry for reducing 1/f noise, correlated double sampling, electronic shuttering, and a horizontal anti-blooming drain. High speed non-destructive readout of the sensor is achieved by using a hierarchial readout structure with two output ports.

In simplified form, the pixel integration cycle consists of three steps: 1) reset the capacitor to fully charged, 2) accumulate electrons on the capacitor, and 3) read the resulting charge value. Conventionally these steps have been done by sensor-wide controls. Use of pixel level processing results in at least an order of magnitude reduction in noise due to the reset step as well as noise reduction in the multiplexing of the pixel values and the noise due to amplification for off chip drive.

Shown on the following page is a block diagram of the Fairchild Imaging 2048 x 1 CMOS sensor.

Fairchild Imaging • CAM/CMOS-2K.LS Line Scan Camera User’s Manual • Rev C• 9 of 42

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Contents OWL Camera Series CAM/CMOS-2K.LS EMC EMC ConformanceTerminology CAM/CMOS-2K.LS Line Scan Camera Rev B Fairchild Imaging, IncTable of Contents Handling Instructions TroubleshootingProduct Support Camera Link IntroductionDescription Camera HighlightsProgrammability UsabilityFull Spectrum of Applications Camera Specification RDI and Mrdi Performance SpecificationLink Thermal ConsiderationsRDI and Mrdi Responsivity Curve Image Sensor Page Installation Overview Connectors, Pinouts, and CablesCamera Hardware Interface Camera Pin # Frame Grabber Pin # Channel Link Signal Power SupplyLED Indicator Status Lamp Hirose ReceptacleBack View of CAM/CMOS 2K.LS Commands Camera ControlQuick Start with the Camera LinkTM Interface You must cover lens when performing this operation SSM LED Command Definition Summary Camera Command SummaryGSN Four Modes for Synchronizing with the CAM/CMOS 2K.LSSummary of CAM/CMOS-2K.LS Modes Line Start End 1 -- Mode 1 Freerunning 2 -- Mode 2 ExSync Synchronization ExSync Camera Input LineValid Camera Output ElectShutter CAM/CMOS-2K.LS Synchronization Timing ValuesMechanical and Optical Guidance Camera Dimensions and Mounting FacilitiesLens Mount Extender Tube LensingPage Page Positioning Accuracy of the Sensor Chip in the Camera LensesIllumination Light SourcesLens Modeling Handling Instructions Cleaning the Sensor WindowElectrostatic Discharge Preventing ESD DamageCheck the Obvious Things Out First TroubleshootingUse the Camera Control Interface to Perform Checks Other Areas You Should CheckNo Output Or Non Specification Output Data Clocking/Output SignalsEverything Seems To Be Working, But No Image Horizontal Lines or Patterns in OutputProduct Support Camera LinkTM Introduction Channel Link is a Widely-Used Signaling MethodVideo Data Signals Camera Control SignalsCommunication Power Port AssignmentsFor More Information on CameraLinkTM Figure A.1 Channel Link Operation Camera Link Connections -- the MDR 26-Pin ConnectorPage Page Figure A.4 Camera Link Cable
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