MC9S08DN60_08 Datasheet, PDF(207/356 Page) Freescale Semiconductor, Inc – Microcontrollers

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MC9S08DN60_08 Datasheet, PDF (207/356 Pages) Freescale Semiconductor, Inc – Microcontrollers

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Chapter 11 Inter-Integrated Circuit (S08IICV2)

11.4.2 10-bit Address

For 10-bit addressing, 0x11110 is used for the ï¬rst 5 bits of the ï¬rst address byte. Various combinations of

read/write formats are possible within a transfer that includes 10-bit addressing.

11.4.2.1 Master-Transmitter Addresses a Slave-Receiver

The transfer direction is not changed (see Table 11-9). When a 10-bit address follows a start condition,

each slave compares the first seven bits of the first byte of the slave address (11110XX) with its own

address and tests whether the eighth bit (R/W direction bit) is 0. More than one device can find a match

and generate an acknowledge (A1). Then, each slave that finds a match compares the eight bits of the

second byte of the slave address with its own address. Only one slave finds a match and generates an

acknowledge (A2). The matching slave remains addressed by the master until it receives a stop condition

(P) or a repeated start condition (Sr) followed by a different slave address.

Slave Address 1st 7 bits R/W

Slave Address 2nd byte

S

A1

A2 Data A ... Data A/A P

11110 + AD10 + AD9

0

AD[8:1]

Table 11-9. Master-Transmitter Addresses Slave-Receiver with a 10-bit Address

After the master-transmitter has sent the first byte of the 10-bit address, the slave-receiver sees an IIC

interrupt. Software must ensure the contents of IICD are ignored and not treated as valid data for this

interrupt.

11.4.2.2 Master-Receiver Addresses a Slave-Transmitter

The transfer direction is changed after the second R/W bit (see Table 11-10). Up to and including

acknowledge bit A2, the procedure is the same as that described for a master-transmitter addressing a

slave-receiver. After the repeated start condition (Sr), a matching slave remembers that it was addressed

before. This slave then checks whether the ï¬rst seven bits of the ï¬rst byte of the slave address following

Sr are the same as they were after the start condition (S) and tests whether the eighth (R/W) bit is 1. If there

is a match, the slave considers that it has been addressed as a transmitter and generates acknowledge A3.

The slave-transmitter remains addressed until it receives a stop condition (P) or a repeated start condition

(Sr) followed by a different slave address.

After a repeated start condition (Sr), all other slave devices also compare the ï¬rst seven bits of the ï¬rst byte

of the slave address with their own addresses and test the eighth (R/W) bit. However, none of them are

addressed because R/W = 1 (for 10-bit devices) or the 11110XX slave address (for 7-bit devices) does not

match.

S

Slave Address

1st 7 bits

R/W

Slave Address

A1

2nd byte

A2

Sr

Slave Address

1st 7 bits

R/W

A3 Data A ... Data A P

11110 + AD10 + AD9 0

AD[8:1]

11110 + AD10 + AD9 1

Table 11-10. Master-Receiver Addresses a Slave-Transmitter with a 10-bit Address

After the master-receiver has sent the ï¬rst byte of the 10-bit address, the slave-transmitter sees an IIC

interrupt. Software must ensure the contents of IICD are ignored and not treated as valid data for this

interrupt.

MC9S08DN60 Series Data Sheet, Rev 3

Freescale Semiconductor

207

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