DS2482-100 Dallas Semiconducotr, DS2482-100 Datasheet - Page 15

DS2482-100

Manufacturer Part Number

DS2482-100

Description

Single-Channel 1-Wire Master

Manufacturer

Dallas Semiconducotr

Datasheet

1.DS2482-100.pdf (21 pages)

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

DS2482-100

Manufacturer:

Company:

Meier Automation Equipment Co., Limited

Part Number:

DS2482-100

Manufacturer:

MAXIM/美信

Quantity:

20 000

Current page: 15 of 21
Download datasheet (256Kb)

I²C Definitions

The following terminology is commonly used to describe I²C data transfers. The timing references are defined in

Figure 10.

Figure 10. I²C Timing Diagram

NOTE: Timing is referenced to V

Bus Idle or Not Busy: Both, SDA and SCL, are inactive and in their logic HIGH states.

START Condition: To initiate communication with a slave, the master has to generate a START condition. A

START condition is defined as a change in state of SDA from HIGH to LOW while SCL remains HIGH.

STOP Condition: To end communication with a slave, the master has to generate a STOP condition. A STOP

condition is defined as a change in state of SDA from LOW to HIGH while SCL remains HIGH.

Repeated START Condition: Repeated starts are commonly used for read accesses to select a specific data

source or address to read from. The master can use a repeated START condition at the end of a data transfer to

immediately initiate a new data transfer following the current one. A repeated START condition is generated the

same way as a normal START condition, but without leaving the bus idle after a STOP condition.

Data Valid: With the exception of the START and STOP condition, transitions of SDA may occur only during the

LOW state of SCL. The data on SDA must remain valid and unchanged during the entire high pulse of SCL plus

the required setup and hold time (t

Figure 10). There is one clock pulse per bit of data. Data is shifted into the receiving device during the rising edge

of the SCL.

When finished with writing, the master must release the SDA line for a sufficient amount of setup time (minimum

SDA at the falling edge of the previous SCL pulse and the data bit is valid at the rising edge of the current SCL

pulse. The master generates all SCL clock pulses, including those needed to read from a slave.

Acknowledge: Usually, a receiving device, when addressed, is obliged to generate an acknowledge after the

receipt of each byte. The master must generate a clock pulse that is associated with this acknowledge bit. A device

that acknowledges must pull SDA LOW during the acknowledge clock pulse in such a way that SDA is stable LOW

during the HIGH period of the acknowledge-related clock pulse plus the required setup and hold time (t

the falling edge of SCL and t

Not Acknowledged by Slave: A slave device may be unable to receive or transmit data, e.g., because it is busy

performing some real-time function. In this case the slave device does not acknowledge its slave address and

leaves the SDA line HIGH.

SU:DAT

SCL

SDA

+ t

STOP START

in Figure 10) before the next rising edge of SCL to start reading. The slave shifts out each data bit on

BUF

HD:STA

LOW

SU:DAT

ILMAX

before the rising edge of SCL).

HD:DAT

and V

HD:DAT

after the falling edge of SCL and t

IHMIN

HIGH

SU:DAT

15 of 21

Repeated

START

SU:STA

HD:STA

SU:DAT

Suppression

before the rising edge of SCL, see

Spike

SU:STO

HD:DAT

after

DS2482-100 Dallas Semiconducotr, DS2482-100 Datasheet - Page 15

DS2482-100

Available stocks

Related parts for DS2482-100