MT9V012 Micron, MT9V012 Datasheet - Page 41

MT9V012

Manufacturer Part Number

MT9V012

Description

1/6-Inch VGA CMOS Digital Image Sensor

Manufacturer

Micron

Datasheet

1.MT9V012.pdf (53 pages)

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Row-Wise Noise Cancellation

Digital Signal Path

Output Enable Control

Table 9:

PDF: 814eb99f/Source: 8175e929

MT9V012_2.fm - Rev. B 2/05 EN

“Don’t Care”

Standby

Output Enable Control

Reg0x0D[4] (output_dis)

Pixel value =

After changes to the sensor configuration, large shifts in the black level calibration can

result. To quickly adapt to this shift, a rapid sweep of the black level during the dark-row

readout is performed on the first frame after certain changes to the sensor registers. Any

changes to the registers noted above will cause this recalculation. The data from this

sweep allows the sensor to choose an accurate new starting point for the running aver-

age. In the rapid sweep mode, fewer pixels of each color are averaged and used to set the

new applied offset. Rapid sweep mode allows several offset values to be tried during the

black row readout. The rapid sweep mode can be disabled or triggered manually using

control bits in Reg0x60.

The current black level calibration values can be read back from Reg0x61, Reg0x62,

Reg0x63, and Reg0x64. Each value is a 9-bit signed value for one of the four colors of the

Bayer pattern. In normal operation, these values are calculated at the beginning of each

frame. However, if Reg0x60[0] is set to “1,” these registers can be written to, overriding

the automatic black level calculation. This feature can be used in conjunction with read-

out of the black rows (Reg0x22[7]) if the user would like to use an external black level cal-

ibration circuit.

The formula for the offset correction voltage is shown in "Offset Voltage: V

page 39.

In addition to the automatic black level calibration applied to the whole frame, a row-

wise noise cancellation algorithm is applied digitally to the ADC output value.

Data from the ADC is processed digitally to generate the pixel output data.

When the sensor is configured to operate in default mode, the D

LINE_VALID, PIXCLK, and FLASH outputs can be placed in High-Z under hardware or

software control, as shown in Table 9.

In all cases, the transition between driven and high impedance states occurs asynchro-

nously. Output enable control is provided as a mechanism to allow multiple sensors to

share a single set of interface signals with a host controller.

When the sensor is configured to operate in serial mode, output enable control is not

available: The D

in High-Z, and the FLASH signal is always driven.

There is no benefit in placing the signals in High-Z while the sensor is in its low-power

standby state. Therefore, in single-sensor applications that use STANDBY to enter and

leave the standby state, programming Reg0x0D[6] = 1 is recommended.

0 (default)

OUT

ADC value - dark column average + Reg0x30[9:0]

, FRAME_VALID, LINE_VALID and PIXCLK signals are always placed

MT9V012 - 1/6-Inch VGA CMOS Digital Image Sensor

Reg0x0D[6] (drive_SIGNALS)

0 (default)

Micron Technology, Inc., reserves the right to change products or specifications without notice.

Feature Description

OUT

Output State

, FRAME_VALID,

High-Z

driven

OFFSET

Preliminary

" on

‡

MT9V012 Micron, MT9V012 Datasheet - Page 41

MT9V012

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