DATA SHEET www.onsemi.com LUPA300 CMOS Image Sensor NOIL1SM0300A Features 640(H) x 480(V) Active Pixels (VGA Resolution) 9.9 m x 9.9 m Square Pixels (Based on the High-Fill Factor Active Pixel Sensor Technology of FillFactory (US patent No. 6,225,670 and others)). Optical Format: 1/2 Optical Inch Pixel Rate of 80 MHz Frame Rate: 250 fps at Full Resolution On-Chip 10 bit ADCs Figure 1. LUPA300 Package Photo Global Shutter Subsampling (Y Direction) Serial Pheripheral Interface (SPI) Programmable Read Out Direction (X and Y) Random Programmable Windowing Power Dissipation: 190 mW 48-pin LCC Package These Devices are PbFree and are RoHS Compliant Applications Machine Vision Motion Tracking Overview This document describes the interfacing and driving of the LUPA300 image sensor. The pixel size and resolution result in a 6.3 mm x 4.7 mm optical active area (1/2 inch). This VGA-resolution CMOS active pixel sensor features global shutter and a maximal frame rate of 250 fps in full resolution, where integration during readout is possible. The readout speed can be boosted by means of subsampling and windowed Region Of Interest (ROI) readout. High dynamic range scenes can be captured using the double and multiple slope functionality. User programmable row and column start/stop positions allow windowing. subsampling reduces resolution while maintaining the constant field of view and an increased frame rate. The programmable gain and offset amplifier maps the signal swing to the ADC input range. A 10-bit ADC converts the analog data to a 10-bit digital word stream. The sensor uses a 3-wire Serial-Parallel (SPI) interface. It operates with a 3.3 V and 2.5 V power supply and requires only one master clock for operation up to 80 MHz pixel rate. It is housed in an 48-pin ceramic LCC package. The sensor is available in a monochrome version or Bayer (RGB) patterned color filter array. This data sheet allows the user to develop a camera-system based on the described timing and interfacing. ORDERING INFORMATION Marketing Part Number Description Package NOIL1SM0300A-QDC Mono with Glass 48 pin LCC NOIL1SE0300A-QDC Color micro lens with Glass NOIL1SM0300A-WWC Mono Wafer Sales Wafer Sales Semiconductor Components Industries, LLC, 2014 1 Publication Order Number: August, 2021 Rev. 12 NOIL1SM0300A/DNOIL1SM0300A SPECIFICATIONS GENERAL SPECIFICATIONS ELECTROOPTICAL SPECIFICATIONS Parameter Specifications Parameter Typical Specifications Pixel Architecture 6 transistor pixel Optical Format optical inch Pixel Size 9.9 m x 9.9 m Shutter Type Pipelined Global shutter Resolution 640 (H) x 480 (V) Frame Rate 250 fps Subsampling subsampling is possible (only in the FPN 2.5% RMS (Min: 10%, Max: 3.1%) p-p Y-direction) PRNU 2.5% RMS, Max: 3.1% Sub-sampling pattern: Y0Y0Y0Y0 - Conversion gain 34 uV/e at output Windowing (ROI) Randomly programmable ROI read out. Implemented as scanning of lines/col- - Saturation charge 35.000 e umns from an uploaded position Sensitivity 3200 V.m2/W.s Read out direction Read out direction can be reversed in X 2 and Y 17 V/lux.s (180 lux = 1 W/m ) Programmable gain Range x1 to x16, in 16 steps using Peak QE * FF 45% 4-bits programming Dark current (at 21C) 300 mV/s Programmable offset 256 steps (8 bit) - Noise electrons 32e Digital output Onchip 10bit ADCs at 80 S/N ratio 43 dB Msamples/s Parasitic sensitivity 1/5000 Power dissipation 160 mW not including output load Dynamic Range 61 dB 190 mW with output load of 15 pF Extended dynamic Multiple slope (up to 90 dB optical dy- Package type 48 pin LCC range namic range) Mass 1 g MTF 60% Table 1. RECOMMENDED OPERATING RATINGS (Notes 1 and 2) Symbol Parameter Min Max Units T Operating temperature range 40 70 C J Table 2. ABSOLUTE MAXIMUM RATINGS (Notes 2, 3 and 4) Symbol Parameter Min Max Units 5 V DC Supply Voltage 0.5 4.3 V DD T Storage Temperature 30 +85 C S %RH Humidity (Relative) 85% at 85C 3 4 ESD & LU ESD & Latchup (Notes 3 and 4) mA 1. Operating ratings are conditions in which operation of the device is intended to be functional. All parameters are characterized for DC conditions after thermal equilibrium is established. Unused inputs must always be tied to an appropriate logic level, for example, VDD or GND. 2. Stresses above these ratings may cause permanent damage. Exposure to absolute maximum conditions for extended periods may degrade device reliability. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those specified is not implied. 3. This device does NOT contain circuitry to protect the inputs against damage caused by high static voltages or electric fields. onsemi recommends that customers become familiar with, and follow the procedures in JEDEC Standard JESD625 A. Refer to Application Note AN52561. 4. The LUPA300 does not have latchup protection. 5. V = V = V (V is supply to digital circuit, V to analog circuit). DD DDD DDA DDD DDA www.onsemi.com 2