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NOIP1SN1300A_16 Datasheet, PDF (1/75 Pages) ON Semiconductor – PYTHON 1.3/0.5/0.3 MegaPixels Global Shutter CMOS Image Sensors
NOIP1SN1300A
PYTHON 1.3/0.5/0.3 MegaPixels
Global Shutter CMOS
Image Sensors
FEATURES
• Size Options:
♦ PYTHON 300: 640 x 480 Active Pixels, 1/4” Optical Format
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♦ PYTHON 500: 800 x 600 Active Pixels, 1/3.6” Optical Format
♦ PYTHON 1300: 1280 x 1024 Active Pixels, 1/2” Optical Format
• Data Output Options:
♦ P1: 4 LVDS Data Channels
♦ P2: 10 bit Parallel
♦ P3: 2 LVDS Data Channels
• 4.8 mm x 4.8 mm Low Noise Global Shutter Pixels with In-pixel CDS
• Monochrome (SN), Color (SE) and NIR (FN)
• Protective Foil Option Available
• Zero Row Overhead Time (ZROT) Mode Enabling Higher Frame
Rate
• Frame Rate at Full Resolution, 4 LVDS Data Channels (P1 only)
♦ 210/165 frames per second @ SXGA (ZROT/NROT)
♦ 545/385 frames per second @ SVGA (ZROT/NROT)
Figure 1. PYTHON 1300
♦ 815/545 frames per second @ VGA (ZROT/NROT)
• Frames Rate at Full Resolution (CMOS)
♦ 50/43 Frames per Second @ SXGA (ZROT/NROT)
• On−chip 10−bit Analog−to−Digital Converter (ADC)
• Four/Two/One LVDS High Speed Serial Outputs or
Parallel CMOS Output
• Random Programmable Region of Interest (ROI)
Readout
• Serial Peripheral Interface (SPI)
DESCRIPTION
The PYTHON 300, PYTHON 500, and PYTHON 1300
image sensors utilize high sensitivity 4.8 mm x 4.8 mm pixels
that support low noise “pipelined” and “triggered” global
shutter readout modes. The sensors support correlated
double sampling (CDS) readout, reducing noise and
increasing dynamic range.
The image sensors have on−chip programmable gain
amplifiers and 10−bit A/D converters. The integration time
• Automatic Exposure Control (AEC)
• Phase Locked Loop (PLL)
• High Dynamic Range (HDR) Modes Possible
• Dual Power Supply (3.3 V and 1.8 V)
• −40°C to +85°C Operational Temperature Range
• 48−pin LCC
• Power Dissipation:
and gain parameters can be reconfigured without any visible
image artifact. Optionally the on−chip automatic exposure
control loop (AEC) controls these parameters dynamically.
The image’s black level is either calibrated automatically or
can be adjusted by adding a user programmable offset.
A high level of programmability using a four wire serial
peripheral interface enables the user to read out specific
regions of interest. Up to eight regions can be programmed,
♦ 620 mW (P1, 4 LVDS, ZROT)
achieving even higher frame rates.
♦ 420 mW (P1, P3, 2 LVDS, NROT)
The image data interface of the P1 devices consists of four
♦ 270 mW (P1, P3, 1 LVDS, NROT)
LVDS lanes, enabling frame rates up to 210 frames per
♦ 420 mW (P2, ZROT)
second in Zero ROT mode for the PYTHON 1300. Each
• These Devices are Pb−Free and are RoHS Compliant
APPLICATIONS
• Machine Vision
• Motion Monitoring
channel runs at 720 Mbps. A separate synchronization
channel containing payload information is provided to
facilitate the image reconstruction at the receiving end. The
P2 devices provide a parallel CMOS output interface at
reduced frame rate. The P3 devices are the same as the P1 but
• Security
with only two of the four LVDS data channels enabled,
• Barcode Scanning (2D)
facilitating frame rates of 90 frames per second in Normal
ROT for the PYTHON 1300.
© Semiconductor Components Industries, LLC, 2016
1
June, 2016 − Rev. 2
Publication Order Number:
NOIP1SN1300A/D