DS90UB914ATRHSTQ1 Datasheet, PDF(45/68 Page) Texas Instruments – DS90UB913A-Q1/DS90UB914A-Q1 25 to100 MHz 10/12-Bit

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DS90UB914ATRHSTQ1 Datasheet, PDF (45/68 Pages) Texas Instruments – DS90UB913A-Q1/DS90UB914A-Q1 25 to100 MHz 10/12-Bit

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DS90UB913A-Q1, DS90UB914A-Q1

www.ti.com

SNLS443A â MAY 2013 â REVISED JUNE 2013

Camera A

CMOS

Image

Sensor

DATA

PCLK

Serializer A

FSYNC

I2C

Deserializer

DATA

PCLK

FSYNC

I2C

Camera B

CMOS

Image

Sensor

DATA

PCLK

Serializer B

FSYNC

I2C

ECU

Module

Figure 30. Using the multiplexer on the Deserializer to enable a two camera system

Serial Frame Format

The High Speed Forward Channel is composed of 28 bits of data containing video data, sync signals, I2C and

parity bits. This data payload is optimized for signal transmission over an AC-coupled link. Data is randomized,

balanced and scrambled. The 28-bit frame structure changes in the 12-bit low frequency mode, 12-bit high

frequency mode and the 10-bit mode internally and is seamless to the customer. The bidirectional control

channel data is transferred over the single serial link along with the high-speed forward data. This architecture

provides a full duplex low speed forward and backward path across the serial link together with a high speed

forward channel without the dependence on the video blanking phase.

Error Detection

The chipset provides error detection operations for validating data integrity in long distance transmission and

reception. The data error detection function offers users flexibility and usability of performing bit-by-bit data

transmission error checking. The error detection operating modes support data validation of the following signals:

â¢ Bidirectional control channel data across the serial link

â¢ Parallel video/sync data across the serial link

The chipset provides 1 parity bit on the forward channel and 4 CRC bits on the back channel for error detection

purposes. The DS90UB913A/914A chipset checks the forward and back channel serial links for errors and stores

the number of detected errors in two 8-bit registers in the Serializer and the Deserializer respectively.

To check parity errors on the forward channel, monitor registers 0x1A and 0x1B on the Deserializer. If there is a

loss of LOCK, then the counters on registers 0x1A and 0x1B are reset.Whenever there is a parity error on the

forward channel, the PASS pin will go low.

To check CRC errors on the back-channel, monitor registers 0x0A and 0x0B on the Serializer.

Description of Bidirectional Control Bus and I2C Modes

The I2C compatible interface allows programming of the DS90UB913A-Q1, DS90UB914A-Q1, or an external

remote device (such as image sensor) through the bidirectional control channel. Register programming

transactions to/from the DS90UB913A-Q1/914A-Q1 chipset are employed through the clock (SCL) and data

(SDA) lines. These two signals have open drain I/Os and both lines must be pulled-up to VDDIO by an external

resistor. Pull-up resistors or current sources are required on the SCL and SDA busses to pull them high when

they are not being driven low. A logic LOW is transmitted by driving the output low. Logic HIGH is transmitted by

releasing the output and allowing it to be pulled-up externally. The appropriate pull-up resistor values will depend

upon the total bus capacitance and operating speed. The DS90UB913A/914A I2C bus data rate supports up to

400 kbps according to I2C fast mode specifications.

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Product Folder Links: DS90UB913A-Q1 DS90UB914A-Q1

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