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Based on the TRUESENSE 5.5 micron Interline Transfer CCD Platform, the sensor features broad dynamic range, excellent www.onsemi.com imaging performance, and a flexible readout architecture that enables use of 1, 2, or 4 outputs. The sensor supports full resolution readout up to 32 frames per second, while a Region of Interest (ROI) mode enables partial readout of the sensor at even higher frame rates. A vertical overflow drain structure suppresses image blooming and enables electronic shuttering for precise exposure control. Table 1. GENERAL SPECIFICATIONS Parameter Typical Value Architecture Interline CCD, Progressive Scan Total Number of Pixels 2404 (H) 1800 (V) Figure 1. KAI04050 Interline CCD Number of Effective Pixels 2360 (H) 1776 (V) Image Sensor Number of Active Pixels 2336 (H) 1752 (V) Pixel Size 5.5 m (H) 5.5 m (V) Features Active Image Size 12.85 mm (H) 9.64 mm (V), Bayer Color Pattern, TRUESENSE Sparse 16.06 mm (Diagonal), 1 Optical Format Color Filter Pattern, and Monochrome Aspect Ratio 4:3 Configurations Number of Outputs 1, 2, or 4 Progressive Scan Readout Charge Capacity 20,000 electrons Flexible Readout Architecture Output Sensitivity 34 V/e High Frame Rate Quantum Efficiency High Sensitivity Pan (ABA, QBA, PBA) 44% Low Noise Architecture R, G, B (FBA, QBA) 31%, 37%, 38% R, G, B (CBA, PBA) 29%, 37%, 39% Excellent Smear Performance Read Noise (f = 40 MHz) 12 e rms Package Pin Reserved for Device Dark Current Identification Photodiode 7 e /s VCCD 100 e /s Application Dark Current Doubling Temp. Industrial Imaging Photodiode 7C VCCD 9C Medical Imaging Dynamic Range 64 dB Security Charge Transfer Efficiency 0.999999 Blooming Suppression > 300 X ORDERING INFORMATION Smear 100 dB See detailed ordering and shipping information on page 2 of this data sheet. Image Lag < 10 electrons Maximum Pixel Clock Speed 40 MHz Maximum Frame Rate Quad Output 32 fps Dual Output 16 fps Single Output 8 fps Package 68 Pin PGA Cover Glass AR Coated, 2 Sides or Clear Glass NOTE: All Parameters are specified at T = 40C unless otherwise noted. Semiconductor Components Industries, LLC, 2014 1 Publication Order Number: February, 2017 Rev. 6 KAI04050/D