TCA9555 Datasheet, PDF(10/32 Page) Texas Instruments – LOW VOLTAGE 16-BIT I2C AND SMBus I/O EXPANDER WITH INTERRUPT OUTPUT AND CONFIGURATION REGISTERS

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TCA9555

SCPS200A â JULY 2009 â REVISED JULY 2009 .............................................................................................................................................................. www.ti.com

Interrupt (INT) Output

An interrupt is generated by any rising or falling edge of the port inputs in the input mode. After time, tiv, the

signal INT is valid. Resetting the interrupt circuit is achieved when data on the port is changed to the original

setting, data is read from the port that generated the interrupt or in a Stop event. Resetting occurs in the read

mode at the acknowledge (ACK) bit or not acknowledge (NACK) bit after the falling edge of the SCL signal.

Interrupts that occur during the ACK or NACK clock pulse can be lost (or be very short) due to the resetting of

the interrupt during this pulse. Each change of the I/Os after resetting is detected and is transmitted as INT.

Reading from or writing to another device does not affect the interrupt circuit, and a pin configured as an output

cannot cause an interrupt. Changing an I/O from an output to an input may cause a false interrupt to occur if the

state of the pin does not match the contents of the Input Port register. Because each 8-bit port is read

independently, the interrupt caused by port 0 is not cleared by a read of port 1, or vice versa.

INT has an open-drain structure and requires a pullup resistor to VCC.

Bus Transactions

Data is exchanged between the master and the TCA9555 through write and read commands.

Writes

Data is transmitted to the TCA9555 by sending the device address and setting the least-significant bit to a logic 0

(see Figure 4 for device address). The command byte is sent after the address and determines which register

receives the data that follows the command byte.

The eight registers within the TCA9555 are configured to operate as four register pairs. The four pairs are input

ports, output ports, polarity inversion ports, and configuration ports. After sending data to one register, the next

data byte is sent to the other register in the pair (see Figure 6 and Figure 7). For example, if the first byte is sent

to output port (register 3), the next byte is stored in Output Port 0 (register 2).

There is no limitation on the number of data bytes sent in one write transmission. In this way, each 8-bit register

may be updated independently of the other registers.

SCL

123 456 78 9

Slave Address

Command Byte

Data to Port 0

Data to Port 1

SDA S 0 1 0 0 A2 A1 A0 0 A 0 0 0 0 0 0 1 0 A 0.7

Data 0

Start Condition

Write to Port

R/W Acknowledge

From Slave

Acknowledge

From Slave

0.0 A 1.7

Data 1

Acknowledge

From Slave

1.0 A P

Data Out from Port 0

Data Out from Port 1

tpv

Figure 6. Write to Output Port Registers

Data Valid

tpv

SCL

1 2 3 4 56 7 8 9 1 2 34 5 6 789 1 2 3 4 56 7 8 91 2 3 4 5

Slave Address

Command Byte

Data to Register

SDA S 0 1 0 0 A2 A1 A0 0 A 0 0 0 0 0 1 1 0 A MSB

Data 0

LSB A MSB

Data 1

Start Condition

R/W Acknowledge

From Slave

Acknowledge

From Slave

Figure 7. Write to Configuration Registers

Acknowledge

From Slave

LSB A P

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