OV7960 NTSC/PAL product brief lead free available in a lead-free package Superior Image Quality for Professional Grade CCTV Cameras Optimized for NTSC and PAL applications, the OV7960 system on chip (SoC) with advanced image signal processing capabilities delivers vivid image capture even in the most challenging lighting conditions, making it an ideal solution for both indoor and outdoor security applications. white balance, lens correction and defective pixel correction to provide full-frame images. The functions are programmable through the serial camera control bus (SCCB) interface. For storage purposes, the OV7960 includes 16 bytes of one-time programmable (OTP) memory. The low-voltage, high-performance OV7960 provides the full functionality of a single-chip analog NTSC/PAL sensor. Based on OmniVision's 6.0 µm OmniPixel3-HS™ architecture, the OV7960 features the industry's best-inclass low light sensitivity of >12 V/(lux-sec). The OV7960 has an active array of 768 x 576 to support both PAL and NTSC formats without scaling. The OV7960 features automatic exposure/gain with 16 zone control, horizontal and vertical windowing capability, aperture/gamma correction, external frame sync capability and extremely low dark current for high temperature applications. The OV7960 comes in a CLCC package and is capable of operating within a temperature range of -20°C to 70°C. The OV7960 incorporates advanced image processing functions, including exposure control, gain control, Find out more at www.ovt.com. TM OV7960 Applications ¬ Security and Surveillance Cameras Ordering Information Product Features ¬ NTSC and PAL output ¬ high sensitivity ¬ 16 bytes of one-time programmable memory (OTP) to control overlay and set other customer variables ¬ automatic exposure/gain with 16 zone control ¬ SPI master for single static overlay and loading setting ¬ horizontal and vertical windowing capability ¬ dynamic overlay controls ¬ auto white balance control ¬ OV07960-C48N (color, NTSC, lead-free, 48-pin CLCC) ¬ OV07461-C48N (B&W, NTSC. lead-free, 48-pin CLCC) ¬ OV07960-C48P (color, PAL, lead-free, 48-pin CLCC) ¬ OV07461-C48P (B&W, PAL, lead-free, 48-pin CLCC) Product Specifications ¬ defective pixel correction ¬ aperture/gamma correction ¬ external frame sync capability (Genlock) ¬ slave compatible serial camera control bus (SCCB) control interface for register programming ¬ active array size: - NTSC: 656 x 492 - PAL: 768 x 576 ¬ lens chief ray angle: 0° ¬ power supply: - core: 1.5 V - analog: 3.3 V - I/O: 1.8 ~ 3.3 V ¬ maximum image transfer rate: - NTSC: 60 fields per second - PAL: 50 fields per second ¬ output formats: NTSC/PAL, CCIR656 ¬ sensitivity: >12 V/(lux-sec) ¬ power requirements: - active: 225 mV ¬ low power consumption ¬ extremely low dark current for high temperature applications ¬ pixel size: 6.0 µm x 6.0 µm OmniPixel3-HS ¬ temperature range: - operating: -20°C to 70°C - stable image: 0°C to 50°C ¬ 50/60 Hz flicker cancellation ¬ image area: 4752 µm x 3552 µm ¬ package dimensions: 14.22 mm x 14.22 mm ¬ optical size: - NTSC: 1/3.6" - PAL: 1/3" ¬ overlay with four layers, 16 colors and eight transparencies each Functional Block Diagram OV7960 DVP FIFO DAC gain control image output interface encoder column sample/hold 10-bit ADC DSP AMP digital gain image array image sensor processor black level calibration row select image sensor core Y[9:0] VCON/VCOP mirror PAL/NTSC color/BW 4275 Burton Drive Santa Clara, CA 95054 USA Tel: + 1 408 567 3000 Fax: + 1 408 567 3001 www.ovt.com video input SCCB slave interface SCL SDA SPI master interface VICK VI_[7:0] timing generator and system control logic PWDN RESET_B OVLEN FSIN VSYNC HREF PCLK PLL XI XO OSC ESI CS SCK ESO control register bank OmniVision reserves the right to make changes to their products or to discontinue any product or service without further notice. OmniVision and OmniPixel are registered trademarks of OmniVision Technologies, Inc. The OmniVision logo and OmniPixel3-HS are trademarks of OmniVision Technologies, Inc. All other trademarks are the property of their respective owners. TM Version 2.1, September, 2009