THS7313 Datasheet, PDF(34/48 Page) Texas Instruments – 3-Channel Low Power SDTV Video Amplifier with I2C Control, 6-dB Gain, SAG Correction, 2:1 Input MUX, and Selectable Input Bias Modes

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THS7313 Datasheet, PDF (34/48 Pages) Texas Instruments – 3-Channel Low Power SDTV Video Amplifier with I2C Control, 6-dB Gain, SAG Correction, 2:1 Input MUX, and Selectable Input Bias Modes

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THS7313

SLOS483 â NOVEMBER 2005

www.ti.com

APPLICATION INFORMATION (continued)

Slave Address

Both the SDA and the SCL must be connected to a positive supply voltage via a pullup resistor. These resistors

should comply with the I2C specification that ranges from 2 kâ¦ to 19 kâ¦. When the bus is free, both lines are

high. The address byte is the first byte received following the START condition from the master device. The first

5 Bits (MSBs) of the address are factory preset to 01011. The next two bits of the THS7313 address are

controlled by the Logic levels appearing on the I2C-A1 and I2C-A0 pins. The I2C-A1 and I2C-A0 address inputs

can be connected to VS+ for Logic 1, GND for Logic 0, or it can be actively driven by TTL/CMOS logic levels. The

device address is set by the state of these pins and is not latched. Thus, a dynamic address control system can

be used to incorporate several devices on the same system. Up to four THS7313 devices can be connected to

the same I2C-Bus without requiring additional glue logic. Table 1 lists the possible addresses for the THS7313

Bit 7 (MSB)

Bit 6

Table 1. THS7313 Slave Addresses

FIXED ADDRESS

Bit 5

Bit 4

Bit 3

SELECTABLE WITH

ADDRESS PINS

Bit 2 (A1)

Bit 1 (A0)

READ/WRITE

BIT

Bit 0

Channel Selection Register Description (Subaddress)

The THS7313 operates using only a single byte transfer protocol similar to Figure 62 and Figure 64. The internal

subaddress registers and the functionality of each are found in Table 2. When writing to the device, it is required

to send one byte of data to the corresponding internal subaddress. If control of all three channels is desired, then

the master has to cycle through all the subaddresses (channels) one at a time, see the example section âWriting

to the THS7313 for the proper procedure of writing to the THS7313.

During a read cycle, the THS7313 sends the data in its selected subaddress (or channel) in a single transfer to

the master device requesting the information. See the example section âReading from the THS7313 for the

proper procedure on reading from the THS7313.

On power up, the THS7313 registers are in a random state from part-to-part. It remains in this random state until

a valid write sequence is made to the THS7313. A total of 9 bytes of data completely configures all channels of

the THS7313. As such, configuring the THS7313 should be done on power-up of the system. Note that one such

random state (acknowledge state) can be engaged. To circumvent this state, have one SCL cycle run, and the

acknowledge state disengages.

Table 2. THS7313 Channel Selection Register Bit Assignments

Channel 1

Channel 2

Channel 3

BIT ADDRESS

(b7b6b5....b0)

0000 0001

0000 0010

0000 0011

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