AR0330 Datasheet, PDF(60/77 Page) ON Semiconductor

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AR0330 Datasheet, PDF (60/77 Pages) ON Semiconductor – CMOS Digital Image Sensor

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AR0330: 1/3-Inch CMOS Digital Image Sensor

Two-Wire Serial Register Interface

Walking 1s

When the walking 1s mode is selected, a walking 1s pattern will be sent through the

digital pipeline. The first value in each row is 1.

Two-Wire Serial Register Interface

The two-wire serial interface bus enables read/write access to control and status regis-

ters within the AR0330. This interface is designed to be compatible with the electrical

characteristics and transfer protocols of the I2C specification.

The interface protocol uses a master/slave model in which a master controls one or

more slave devices. The sensor acts as a slave device. The master generates a clock (SCLK)

that is an input to the sensor and is used to synchronize transfers. Data is transferred

between the master and the slave on a bidirectional signal (SDATA). SDATA is pulled up to

VDD_IO off-chip by a 1.5kï resistor. Either the slave or master device can drive SDATA

LOWâthe interface protocol determines which device is allowed to drive SDATA at any

given time.

The protocols described in the two-wire serial interface specification allow the slave

device to drive SCLK LOW; the AR0330 uses SCLK as an input only and therefore never

drives it LOW.

Protocol

Start Condition

Stop Condition

Data Transfer

Data transfers on the two-wire serial interface bus are performed by a sequence of low-

level protocol elements:

1. a (repeated) start condition

2. a slave address/data direction byte

3. an (a no-) acknowledge bit

4. a message byte

5. a stop condition

The bus is idle when both SCLK and SDATA are HIGH. Control of the bus is initiated with a

start condition, and the bus is released with a stop condition. Only the master can

generate the start and stop conditions.

A start condition is defined as a HIGH-to-LOW transition on SDATA while SCLK is HIGH.

At the end of a transfer, the master can generate a start condition without previously

generating a stop condition; this is known as a ârepeated startâ or ârestartâ condition.

A stop condition is defined as a LOW-to-HIGH transition on SDATA while SCLK is HIGH.

Data is transferred serially, 8 bits at a time, with the MSB transmitted first. Each byte of

data is followed by an acknowledge bit or a no-acknowledge bit. This data transfer

mechanism is used for both the slave address/data direction byte and for message bytes.

One data bit is transferred during each SCLK clock period. SDATA can change when SCLK

is LOW and must be stable while SCLK is HIGH.

AR0330_DS Rev. U Pub. 4/15 EN

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