MCF5307CFT66B Freescale Semiconductor, MCF5307CFT66B Datasheet - Page 292

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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Freescale Semiconductor, Inc.

DMA Controller Module Functional Description

is from memory to either a peripheral device or memory, the source address is the starting

address of the data block. This can be any aligned byte address. In single-address mode, this

data register is used regardless of transfer direction.

The DAR should contain the destination (write) address. If the transfer is from a peripheral

device to memory, or memory to memory, the DAR is loaded with the starting address of

the data block to be written. If the transfer is from memory to a peripheral device, DAR is

loaded with the address of the peripheral data register. This address can be any aligned byte

address. DAR is not used in single-address mode.

SAR and DAR change after each cycle depending on DCR[SSIZE,DSIZE,SINC,DINC]

and on the starting address. Increment values can be 1, 2, 4, or 16 for byte, word, longword,

or line transfers, respectively. If the address register is programmed to remain unchanged

(no count), the register is not incremented after the data transfer.

BCRn[BCR] must be loaded with the number of byte transfers to occur. It is decremented

by 1, 2, 4, or 16 at the end of each transfer, depending on the transfer size. DSR must be

cleared for channel startup.

As soon as the channel has been initialized, it is started by writing a one to DCR[START]

or asserting DREQ, depending on the status of DCR[EEXT]. Programming the channel for

internal request causes the channel to request the bus and start transferring data

immediately. If the channel is programmed for external request, DREQ must be asserted

before the channel requests the bus.

Changes to DCR are effective immediately while the channel is active. To avoid problems

with changing a DMA channel setup, write a one to DSR[DONE] to stop the DMA channel.

12.5.4 Data Transfer

This section includes timing diagrams that illustrate the interaction of signals in DMA data

transfers. It also describes auto-alignment and bandwidth control.

12.5.4.1 External Request and Acknowledge Operation

Channels 0 and 1 initiate transfers to an external module by means of DREQ[1:0]. The

request for channels 2 and 3 are connected internally to the UART0 and UART1 interrupt

signals, respectively. If DCR[EEXT] = 1 and the channel is idle, the DMA initiates a

transfer when DREQ is asserted.

Figure 12-11 shows the minimum 4-clock cycle delay from when DREQ is sampled

asserted to when a DMA bus cycle begins. This delay may be longer, depending on DMA

priority, bus arbitration, DRAM refresh operations, and other factors.

12-14

MCF5307 User’s Manual

For More Information On This Product,

Go to: www.freescale.com

MCF5307CFT66B Freescale Semiconductor, MCF5307CFT66B Datasheet - Page 292

MCF5307CFT66B

Specifications of MCF5307CFT66B

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