MT9V135L12STCES Micron Technology Inc, MT9V135L12STCES Datasheet

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System-On-A-Chip (SOC) VGA NTSC/PAL CMOS Digital Image Sensor MT9V135C12STC (Pb-Free CLCC) Features ® ® • Micron DigitalClarity CMOS imaging technology • System-On-a-Chip (SOC)—Completely integrated camera system • NTSC/PAL (true two field) analog composite video output • ITU-R BT.656 parallel ...

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General Description The MT9V135 is a VGA CMOS image sensor featuring Micron’s breakthrough Digital- Clarity technology—a low-noise CMOS imaging technology that achieves CCD image quality (based on signal-to-noise ratio and low-light sensitivity) while maintaining the inherent size, cost, low power, ...

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Functional Overview The MT9V135 is a fully-automatic, single-chip camera, requiring only a single power supply, lens, and clock source for basic operation. Output video is streamed via the chosen output port. The MT9V135 internal registers are configured using a two-wire ...

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Figure 3 shows a typical application using a DSP to produce a video overlay (such as a logo or menu text). The parallel digital video output is sent to the DSP, which adds the overlay. The digital video with the ...

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Typical Connections Figure 4 shows a detailed MT9V135 device configuration. For low-noise operation, the MT9V135 requires separate analog and digital power supplies. Incoming digital and analog ground conductors can be tied together next to the die. Power supply voltages V ...

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Figure 5: 48-pin CLCC Assignment DIN_CLK 14 D GND CLK_IN 17 ...

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Table 4: Pin Descriptions (continued) Pin Assignment Name 27 PEDESTAL 26 LVDS_ENABLE 10, D [7:0] IN 11, 12 DIN_CLK 20 S DATA 48, D [7:0] OUT 47 ...

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Detailed Architecture Overview Sensor Core The sensor consists of a pixel array of 695 x 512, an analog readout chain, 10-bit ADC with programmable gain and black offset, and timing and control, as illustrated in Figure 6. Figure 6: Sensor ...

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Figure 7: Image Capture Example IMAGE SENSOR (Rear view) Start Rasterization The sensor core uses a paired RGB Bayer color pattern, as shown in Figure 9 on page 11. Row pairs consist of the following: rows 0, 1, rows 2, ...

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Figure 8: Pixel Color Pattern Detail (top right corner) Row Readout Direction Output Data Format The sensor core image data is read out in an interlaced scan order. Progressive readout— which is not supported by the color pipe—is an option, ...

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Figure 9: Spatial Illustration of Image Readout P 0,0 P 2,0 P m-2 ..................................... ..................................... ..................................... ..................................... ...

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Image Flow Processor The MT9V135 IFP consists of a color processing pipeline, and a measurement and control logic block (the camera controller). The stream of raw data from the sensor enters the pipeline and undergoes several transformations. Image stream processing ...

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Defect Correction This device supports 2D defect correction defect detection/correction, pixels with values different from their neighbors by greater than a defined threshold are considered defects unless near the image boundary. The approach is termed 2D, as pixels ...

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Electrical Specifications Table 5: Electrical Characteristics and Operating Conditions T = 25° Parameter I/O and core digital voltage ( LVDS PLL voltage Video DAC voltage Analog voltage ( Pixel supply voltage (V ) AAPIX ...

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Table 7: Digital I/O Parameters Signal Parameter All Load capacitance Outputs Output signal slew V Output high voltage OH V Output low voltage OL I Output high current OH I Output low current OL All V Input high voltage IH ...

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Package Diagram Figure 10: 48-Pin CLCC Package Outline Drawing D Seating plane A 8.8 0.8 47X 4.4 TYP 1.0 ±0 48X 0.40 ±0.05 8.8 4.4 4X 0.2 5.215 5.715 11.43 Lead finish: Au plating, 0.50 microns minimum thickness ...

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Revision History Rev ...