DS4550 Datasheet, PDF(14/18 Page) Dallas Semiconductor – I2C and JTAG Nonvolatile 9-Bit I/O Expander Plus Memory

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DS4550 Datasheet, PDF (14/18 Pages) Dallas Semiconductor – I2C and JTAG Nonvolatile 9-Bit I/O Expander Plus Memory

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I2C and JTAG Nonvolatile 9-Bit I/O

Expander Plus Memory

Table 5. EEPROM Write Cycle

STEP

Select

Address

Load

EEPROM

Address

Select

Write

EEPROM

Data

TAP STATE

Select-IR-Scan

Capture-IR

Shift-IR (4 x TCK)

Exit1-IR

Update-IR

Select-DR-Scan

Capture-DR

Shift-DR (8 x TCK)

Exit1-DR

Update-DR

Select-IR-Scan

Capture-IR

Shift-IR (4 x TCK)

Exit1-IR

Update-IR

Select-DR-Scan

Capture-DR

Shift-DR (8 x TCK)

Exit1-DR

Update-DR

COMMENTS

ï£§

The 4-bit instruction is shifted in through TDI.

ï£§

No-op.

The 8-bit address is shifted in through TDI.

ï£§

The shifted 8-bit Address Register data is output latched.

ï£§

The 4-bit instruction is shifted in through TDI.

ï£§

No-op.

The 8-bit data is shifted in through TDI.

ï£§

The shifted 8-bit EEPROM Write Register data is output latched and written to the

EEPROM.

I2C Serial Interface Description

I2C Definitions

The following terminology is commonly used to

describe I2C data transfers.

Master Device: The master device controls the slave

devices on the bus. The master device generates SCL

clock pulses, start and stop conditions.

Slave Devices: Slave devices send and receive data

at the masterâs request.

Bus Idle or Not Busy: Time between stop and start

conditions when both SDA and SCL are inactive and in

their logic high states. When the bus is idle it often initi-

ates a low-power mode for slave devices.

Start Condition: A start condition is generated by the

master to initiate a new data transfer with a slave.

Transitioning SDA from high to low while SCL remains

high generates a start condition. See the timing dia-

gram for applicable timing.

Stop Condition: A stop condition is generated by the

master to end a data transfer with a slave. Transitioning

SDA from low to high while SCL remains high gener-

ates a stop condition. See the timing diagram for

applicable timing.

Repeated Start Condition: The master can use a

repeated start condition at the end of one data transfer to

indicate that it will immediately initiate a new data trans-

fer following the current one. Repeated starts are com-

monly used during read operations to identify a specific

memory address to begin a data transfer. A repeated

start condition is issued identically to a normal start con-

dition. See the timing diagram for applicable timing.

Bit Write: Transitions of SDA must occur during the low

state of SCL. The data on SDA must remain valid and

unchanged during the entire high pulse of SCL plus the

setup and hold-time requirements (see Figure 5). Data is

shifted into the device during the rising edge of the SCL.

14 ____________________________________________________________________

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