Datasheet-1
Table Of Contents
- 1/3-Inch Wide-VGA CMOS Digital Image Sensor
- Features
- Applications
- Ordering Information
- Table of Contents
- List of Figures
- List of Tables
- General Description
- Ball Descriptions
- Pixel Data Format
- Color Device Limitations
- Output Data Format
- Serial Bus Description
- Two-Wire Serial Interface Sample Read and Write Sequences
- Feature Description
- Operational Modes
- Signal Path
- On-Chip Biases
- Window Control
- Blanking Control
- Pixel Integration Control
- Variable ADC Resolution
- Gain Settings
- Black Level Calibration
- Row-wise Noise Correction
- Automatic Gain Control and Automatic Exposure Control
- Pixel Clock Speed
- Hard Reset of Logic
- Soft Reset of Logic
- STANDBY Control
- Monitor Mode Control
- Read Mode Options
- LINE_VALID
- LVDS Serial (Stand-Alone/Stereo) Output
- LVDS Output Format
- Electrical Specifications
- Package Dimensions
- Appendix A – Serial Configurations
- Appendix B – Power-On Reset and Standby Timing
- Revision History
PDF: 3295348826/Source:7478516499 Aptina reserves the right to change products or specifications without notice.
MT9V022_DS - Rev.H 6/10 EN
33 ©2005 Aptina Imaging Corporation. All rights reserved.
MT9V022: 1/3-Inch Wide-VGA Digital Image Sensor
Feature Description
Hard Reset of Logic
The RC circuit for the MT9V022 uses a 10kΩ resistor and a 0.1μF capacitor. The rise time
for the RC circuit is 1μs maximum.
Soft Reset of Logic
Soft reset of logic is controlled by:
•R0x0C Reset
Bit 0 is used to reset the digital logic of the sensor while preserving the existing two-wire
serial interface configuration. Furthermore, by asserting the soft reset, the sensor aborts
the current frame it is processing and starts a new frame. Bit 1 is a shadowed reset
control register bit to explicitly reset the automatic gain and exposure control feature.
These two bits are self-resetting bits and also return to “0” during two-wire serial inter-
face reads.
STANDBY Control
The sensor goes into standby mode by setting STANDBY to HIGH. Once the sensor
detects that STANDBY is asserted, it completes the current frame before disabling the
digital logic, internal clocks, and analog power enable signal. To release the sensor out
from the standby mode, reset STANDBY back to LOW. The LVDS must be powered to
ensure that the device is in standby mode. See "Appendix B – Power-On
Reset and Standby Timing" on page 52 for more information on standby.
Monitor Mode Control
Monitor mode is controlled by:
• R0x0E Monitor Mode Enable
• R0xC0 Monitor Mode Image Capture Control
The sensor goes into monitor mode when R0x0E bit 0 is set to HIGH. In this mode, the
sensor first captures a programmable number of frames (R0xC0), then goes into a sleep
period for five minutes. The cycle of sleeping for five minutes and waking up to capture a
number of frames continues until R0x0E bit 0 is cleared to return to normal operation.
In some applications when monitor mode is enabled, the purpose of capturing frames is
to calibrate the gain and exposure of the scene using automatic gain and exposure
control feature. This feature typically takes less than 10 frames to settle. In case a larger
number of frames is needed, the value of R0xC0 may be increased to capture more
frames.
During the sleep period, none of the analog circuitry and a very small fraction of digital
logic (including a five-minute timer) is powered. The master clock (SYSCLK) is therefore
always required.