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Sensor Technology Kevin Dickey. Traditional CCD and CMOS sensors CCD – Charge Coupled Device CMOS – Complimentary Metal Oxide Semiconductor CMOS sensors.

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Presentation on theme: "Sensor Technology Kevin Dickey. Traditional CCD and CMOS sensors CCD – Charge Coupled Device CMOS – Complimentary Metal Oxide Semiconductor CMOS sensors."— Presentation transcript:

1 Sensor Technology Kevin Dickey

2 Traditional CCD and CMOS sensors CCD – Charge Coupled Device CMOS – Complimentary Metal Oxide Semiconductor CMOS sensors offer higher performance capabilities, and are commonly found in ultra-high frame rate videography CCDs are more common in consumer camera applications due to lower cost of development

3 CCD vs. CMOS Main differences: CCDCMOS Signal from PixelElectron packetvoltage Relative R&D costLowHigh Cost to ManufactureHigherLower Dynamic rangeHighModerate SpeedModerately fastVery fast Relative power consumption ModerateVery low

4 Traditional Film and Foveon Sensors

5 The Bayer Array Sensor Extrapolates color data from adjacent pixels Cannot reproduce colors to extreme accuracy without moving a camera to three positions Less expensive to produce than Foveon sensors

6 Workings of an RGB CCD sensor (and microlenses)

7 So, how do they produce images? Photons strike the sensor, and are converted into electrical charges Charges of pixels are read – CCDs transport the charge across the chip to be read at one corner of the array – CMOS sensors can read charge at each individual pixel. Analog-to-digital conversion of voltages to digital values

8 Most consumer cameras utilize 8-bit pixels – Bit depth refers to a sensors sensitivity to greyscale depth. – 8 bits per pixel, 3 channels (RGB); 2 8 = 256 discrete colors

9 What does it mean? This information is sent to a post-processing system, which continues to process incoming data. Post-processing uses numerous algorithms to de-mosaic, reduce image noise, and enhance edges. Images are compressed and saved into their respective format on a hard disk.

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