MCF5307CFT66B Freescale Semiconductor, MCF5307CFT66B Datasheet - Page 207

MCF5307CFT66B

Manufacturer Part Number

MCF5307CFT66B

Description

IC MPU 32BIT 66MHZ COLDF 208FQFP

Manufacturer

Freescale Semiconductor

Series

MCF530xr

Datasheets

1.MCF5307AI66B.pdf (484 pages)

2.MCF5307AI66B.pdf (16 pages)

3.MCF5307AI66B.pdf (2 pages)

Specifications of MCF5307CFT66B

Core Processor

Coldfire V3

Core Size

32-Bit

Speed

66MHz

Connectivity

EBI/EMI, I²C, UART/USART

Peripherals

DMA, POR, WDT

Number Of I /o

Program Memory Type

ROMless

Ram Size

4K x 8

Voltage - Supply (vcc/vdd)

3 V ~ 3.6 V

Oscillator Type

External

Operating Temperature

-40°C ~ 85°C

Package / Case

208-FQFP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Eeprom Size

Program Memory Size

Data Converters

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determines the relative priority of competing devices. A device loses arbitration if it sends

logic high while another sends logic low; it immediately switches to slave-receive mode

and stops driving SDA. In this case, the transition from master to slave mode does not

generate a STOP condition. Meanwhile, hardware sets I2SR[IAL] to indicate loss of

arbitration.

8.4.2 Clock Synchronization

Because wire-AND logic is used, a high-to-low transition on SCL affects devices

connected to the bus. Devices start counting their low period when the master drives SCL

low. When a device clock goes low, it holds SCL low until the clock high state is reached.

However, the low-to-high change in this device clock may not change the state of SCL if

another device clock is still in its low period. Therefore, the device with the longest low

period holds the synchronized clock SCL low. Devices with shorter low periods enter a high

wait state during this time (See Figure 8-4). When all devices involved have counted off

their low period, the synchronized clock SCL is released and pulled high. There is then no

difference between device clocks and the state of SCL, so all of the devices start counting

their high periods. The ﬁrst device to complete its high period pulls SCL low again.

8.4.3 Handshaking

The clock synchronization mechanism can be used as a handshake in data transfers. Slave

devices can hold SCL low after completing one byte transfer (9 bits). In such a case, the

clock mechanism halts the bus clock and forces the master clock into wait states until the

slave releases SCL.

8.4.4 Clock Stretching

Slaves can use the clock synchronization mechanism to slow down the transfer bit rate.

After the master has driven SCL low, the slave can drive SCL low for the required period

and then release it. If the slave SCL low period is longer than the master SCL low period,

the resulting SCL bus signal low period is stretched.

SCL1

SCL2

SCL

Freescale Semiconductor, Inc.

Figure 8-4. Synchronized Clock SCL

For More Information On This Product,

Internal Counter Reset

Go to: www.freescale.com

Chapter 8. I

Wait

C Module

Start counting high period

C Protocol

8-5

MCF5307CFT66B Freescale Semiconductor, MCF5307CFT66B Datasheet - Page 207

MCF5307CFT66B

Specifications of MCF5307CFT66B

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