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| MCIMX35_10 Datasheet, PDF (67/148 Pages) Freescale Semiconductor, Inc – i.MX35 Applications Processors for Industrial and Consumer Products | |||
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4.9.12 IPUâSensor Interfaces
This section contains a list of supported camera sensors, a functional description, and the electrical
characteristics.
4.9.12.1 Supported Camera Sensors
Table 50 lists the known supported camera sensors at the time of publication.
Table 50. Supported Camera Sensors1
Vendor
Conexant
Agilant
Toshiba
ICMedia
iMagic
Transchip
Fujitsu
Micron
Matsushita
STMicro
OmniVision
Sharp
Motorola
National Semiconductor
Model
CX11646, CX204902, CX204502
HDCPâ2010, ADCSâ10212, ADCSâ10212
TC90A70
ICM202A, ICM1022
IM8801
TC5600, TC5600J, TC5640, TC5700, TC6000
MB86S02A
MI-SOCâ0133
MN39980
W6411, W6500, W65012, W66002, W65522, STV09742
OV7620, OV6630, OV2640
LZ0P3714 (CCD)
MC30300 (Python)2, SCM200142, SCM201142, SCM221142, SCM200272
LM96182
1 Freescale Semiconductor does not recommend one supplier over another and in no way suggests that these are the only
camera suppliers.
2 These sensors have not been validated at the time of publication.
4.9.12.2 Functional Description
There are three timing modes supported by the IPU.
4.9.12.2.1 Pseudo BT.656 Video Mode
Smart camera sensors, which typically include image processing capability, support video mode transfer
operations. They use an embedded timing syntax to replace the SENSB_VSYNC and SENSB_HSYNC
signals. The timing syntax is defined by the BT.656 standard.
This operation mode follows the recommendations of the ITU BT.656 specifications. The only control
signal used is SENSB_PIX_CLK. Start-of-frame and active-line signals are embedded in the data stream.
An active line starts with a SAV code and ends with an EAV code. In some cases, digital blanking is
i.MX35 Applications Processors for Automotive Products, Rev. 8
Freescale Semiconductor
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