S9S08SG8E2VTG Freescale Semiconductor, S9S08SG8E2VTG Datasheet - Page 177

S9S08SG8E2VTG

Manufacturer Part Number

S9S08SG8E2VTG

Description

8-bit Microcontrollers - MCU 9S08 UC W/ 8K 0.25UM SGF

Manufacturer

Freescale Semiconductor

Datasheet

1.S9S08SG8E2VTG.pdf (320 pages)

Specifications of S9S08SG8E2VTG

Rohs

yes

Core

S08

Processor Series

MC9S08SG8

Data Bus Width

8 bit

Maximum Clock Frequency

40 MHz

Program Memory Size

8 KB

Data Ram Size

8 KB

On-chip Adc

Yes

Operating Supply Voltage

2.7 V to 5.5 V

Operating Temperature Range

- 40 C to + 105 C

Package / Case

TSSOP-16

Mounting Style

SMD/SMT

A/d Bit Size

10 bit

A/d Channels Available

Interface Type

SCI, SPI

Maximum Operating Temperature

+ 105 C

Minimum Operating Temperature

- 40 C

Number Of Programmable I/os

Number Of Timers

Program Memory Type

Flash

Supply Voltage - Max

5.5 V

Supply Voltage - Min

2.7 V

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11.4.1.5

As shown in

signal to terminate the communication. This is used by the master to communicate with another slave or

with the same slave in different mode (transmit/receive mode) without releasing the bus.

11.4.1.6

The IIC bus is a true multi-master bus that allows more than one master to be connected on it. If two or

more masters try to control the bus at the same time, a clock synchronization procedure determines the bus

clock, for which the low period is equal to the longest clock low period and the high is equal to the shortest

one among the masters. The relative priority of the contending masters is determined by a data arbitration

procedure, a bus master loses arbitration if it transmits logic 1 while another master transmits logic 0. The

losing masters immediately switch over to slave receive mode and stop driving SDA output. In this case,

the transition from master to slave mode does not generate a stop condition. Meanwhile, a status bit is set

by hardware to indicate loss of arbitration.

11.4.1.7

Because wire-AND logic is performed on the SCL line, a high-to-low transition on the SCL line affects all

the devices connected on the bus. The devices start counting their low period and after a device’s clock has

gone low, it holds the SCL line low until the clock high state is reached. However, the change of low to

high in this device clock may not change the state of the SCL line if another device clock is still within its

low period. Therefore, synchronized clock SCL is held low by the device with the longest low period.

Devices with shorter low periods enter a high wait state during this time (see

devices concerned have counted off their low period, the synchronized clock SCL line is released and

pulled high. There is then no difference between the device clocks and the state of the SCL line and all the

devices start counting their high periods. The first device to complete its high period pulls the SCL line

low again.

Freescale Semiconductor

SCL1

SCL2

Figure

SCL

Repeated Start Signal

Arbitration Procedure

Clock Synchronization

11-9, a repeated start signal is a start signal generated without first generating a stop

Internal Counter Reset

Figure 11-10. IIC Clock Synchronization

MC9S08SG8 MCU Series Data Sheet, Rev. 7

Delay

Start Counting High Period

Figure

Inter-Integrated Circuit (S08IICV2)

11-10). When all

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S9S08SG8E2VTG Freescale Semiconductor, S9S08SG8E2VTG Datasheet - Page 177

S9S08SG8E2VTG

Specifications of S9S08SG8E2VTG

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