MT9P401I12STC Aptina LLC, MT9P401I12STC Datasheet - Page 51
MT9P401I12STC
Manufacturer Part Number
MT9P401I12STC
Description
SENSOR IMAGE CMOS 5MP 48LCC
Manufacturer
Aptina LLC
Type
CMOS Imagingr
Series
DigitalClarity®r
Specifications of MT9P401I12STC
Pixel Size
2.2µm x 2.2µm
Active Pixel Array
2592H x 1944V
Frames Per Second
60
Voltage - Supply
2.6 V ~ 3.1 V
Package / Case
48-iLCC
Sensor Image Color Type
Monochrome
Sensor Image Size
2592x1944Pixels
Operating Supply Voltage (typ)
1.8/2.8V
Operating Supply Voltage (max)
3.1V
Operating Temp Range
-30C to 70C
Package Type
ILCC
Operating Temperature Classification
Commercial
Mounting
Surface Mount
Pin Count
48
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
557-1263
MT9P401I12STC
Q3412742
MT9P401I12STC
Q3412742
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
MT9P401I12STC
Manufacturer:
APTINA
Quantity:
20 000
Digital Gain
Offset
Analog Black Level Calibration
PDF: 09005aef82acb06f/Source: 09005aef81a4a477
MT9P401_DS_2 - Rev. B 9/07 EN
1. Take a sample.
2. If necessary, adjust the analog offset.
analog multiplier is specified by Green1_Analog_Multiplier, Red_Analog_Multiplier,
Blue_Analog_Multiplier, and Green2_Analog_Multiplier. These combine to form the
analog gain for a given color C as shown in this equation:
The gain component can range from 0 to 7.875 in steps of 0.125, and the multiplier
component can be either 0 or 1 (resulting in a multiplier of 1 or 2). However, it is best to
keep the "gain" component between 1 and 4 for the best noise performance, and use the
multiplier for gains between 4 and 8.
The digital gain is specified independently for each color channel in steps of 0.125. It is
controlled by the register fields Green1_Digital_Gain, Red_Digital_Gain,
Blue_Digital_Gain, and Green2_Digital_Gain. The digital gain for a color C is given by:
The MT9P401 sensor can apply an offset or shift to the image data in a number of ways.
An analog offset can be applied on a color-wise basis to the pixel voltage as it enters the
ADC. This makes it possible to adjust for offset introduced in the pixel sampling and
gain stages to be removed, centering the resulting voltage swing in the ADC's range. This
offset can be automatically determined by the sensor using the automatic black level
calibration (BLC) circuit, or it can be set manually by the user. It is a fairly coarse adjust-
ment, with adjustment step sizes of 4 to 8 LSBs.
Digital offset is also added on a color-wise and line-wise basis to fine tune the black level
of the output image. This offset is based on an average black level taken from each row's
dark columns, and is automatically determined by the digital row-wise black level cali-
bration (RBLC) circuit. If the RBLC circuit is not used, a user-defined offset can be
applied instead. This offset has a resolution of 1 LSB.
A digital offset is added on a color-wise basis to account for channel offsets that can be
introduced due to "even" and "odd" pixels of the same color going through a slightly
different ADC chain. This offset is automatically determined based on dark row data, but
it can also be manually set.
The MT9P401 black level calibration circuitry provides a feedback control system since
adjustments to the analog offset are imprecise by nature. The goal is that within the dark
row region of any supported output image size, the offset should have been adjusted
such that the average black level falls within the specified target thresholds.
The analog offsets normally need a major adjustment only when leaving the Reset state
or when there has been a change to a color's analog gain. Factors like shutter width and
temperature have lower-order impact, and generally only require a minor adjustment to
the analog offsets. The MT9P401 has various calibration modes to keep the system
stable while still supporting the need for rapid offset adjustments when necessary.
The two basic steps of black level calibration are:
AG
DG
C
C
= (1 + C_Analog_Multiplier) × (C_Analog_Gain / 8)
= 1 + (C_Digital_Gain / 8)
Micron Confidential and Proprietary
MT9P401: 1/2.5-Inch 5Mp Digital Image Sensor
51
Micron Technology, Inc., reserves the right to change products or specifications without notice.
©2007 Micron Technology, Inc. All rights reserved.
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