MT9P031I12STM-ES Aptina LLC, MT9P031I12STM-ES Datasheet - Page 45

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MT9P031I12STM-ES

Manufacturer Part Number

MT9P031I12STM-ES

Description

Manufacturer

Aptina LLC

Datasheet

1.MT9P031I12STM-ES.pdf (60 pages)

Specifications of MT9P031I12STM-ES

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Image Acquisition Modes

Electronic Rolling Shutter

Global Reset Release

Exposure

PDF: 09005aef81a4a477/Source: 09005aef81a4a495

MT9P031_DS - Rev. E 7/10 EN

The MT9P031 supports two image acquisition modes (Shutter Types) (see “Operating

Modes” on page 46), electronic rolling shutter and global reset release.

The ERS modes take pictures by scanning the rows of the sensor twice in the order

described in “Full-Array Readout” on page 37. On the first scan, each row is released

from reset, starting the exposure. On the second scan, the row is sampled, processed,

and returned to the reset state. The exposure for any row is therefore the time between

the first and second scans. Each row is exposed for the same duration, but at slightly

different point in time, which can cause a shear in moving subjects.

Whenever the mode is changed to an ERS mode (even from another ERS mode), and

before the first frame following reset, there is an anti-blooming sequence where all rows

are placed in reset. This sequence must complete before continuous readout begins.

This delay is:

t

The GRR modes attempt to address the shearing effect by starting all rows' exposures at

the same time. Instead of the first scan used in ERS mode, the reset to each row is

released simultaneously. The second scan occurs as normal, so the exposure time for

each row would different. Typically, an external mechanical shutter would be used to

stop the exposure of all rows simultaneously.

In GRR modes, there is a startup overhead before each frame as all rows are initially

placed in the reset state (

each frame. However, it occurs as soon as possible after the preceding frame, so typically

the time from trigger to the start of exposure does not include this delay. To ensure that

this is the case, the first trigger must occur no sooner than

frame is read out.

The nominal exposure time,

defined by the shutter width, SW, and the shutter overhead, SO, which includes the effect

of Shutter_Delay. Exposure time for other modes is defined relative to this time.

Increasing Shutter_Delay (SD) decreases the exposure time. Exposure times are typically

specified in units of row time, although it is possible to fine-tune exposures in units of

t

t

where:

SW = max(1, (2 * 16 × Shutter_Width_Upper) + Shutter_Width_Lower)

SO = 208 × (Row_Bin + 1) + 98 + min(SD, SDmax) – 94

SD = Shutter_Delay + 1

SDmax = 1232; if SW < 3

ALLRESET = 16 × 2004 ×

ACLKs (where

EXP = SW ×

1504, otherwise

t

ROW – SO × 2 ×

t

ACLK is 2 *

t

t

ALLRESET). Unlike ERS mode, this delay always occurs before

ACLK

t

PIXCLK).

t

t

EXP , is the effective shutter time in ERS modes, and is

PIXCLK

45

MT9P031: 1/2.5-Inch 5Mp Digital Image Sensor

Aptina reserves the right to change products or specifications without notice.

t

ALLRESET after the previous

©2005 Aptina Imaging Corporation. All rights reserved.

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