Datasheet

ManualsBrandsNXP SEMICONDUCTORS ManualsMicrocontrollers, Microprocessors & QuartzesEmbedded microcontroller QFP 160 (28x28) 32-Bit 40 MHz I/O number 8

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Bus Operation

MOTOROLA MCF5206e USER’S MANUAL 6-77

Clock 3 (C3)

At the start of C3, if the EMAA bit in the Default Memory Control Register (DMCR) is set

to 1 and the number of wait states is zero, the MCF5206e drives TA signal to the asserted

state. During C3, the external master samples the level of TA. If TA is asserted, the

external master latches the first byte of data from D[31:24]. If TA

is negated, the external

master continues to insert wait states instead of terminating the transfer. The external

master must continue to sample TA

on successive rising edges of CLK until it is asserted.

Clock 4 (C4)

During C4, the external master increments the address by one to access the second byte

of data in the longword transfer. The external master also samples the level of TA. If TA

is asserted, the external master latches the second byte of data from D[31:24]. If TA

negated, the external master continues to insert wait states instead of terminating the

transfer. The external master must continue to sample TA

on successive rising edges of

CLK until it is asserted.

The selected slave decodes the address and outputs the next byte of data on D[31:24].

The MCF5206e continues to assert TA.

Clock 5 (C5)

This clock is identical to C4 except the external master increments the address to point to

the third byte of data, and the selected slave decodes the address and outputs the third

byte of data of the longword transfer.

Clock 6 (C6)

This clock is identical to C4 except the external master increments the address to point to

the fourth byte of data, and the selected slave decodes the address and outputs the fourth

byte of data of the longword transfer.

Clock 7 (C7)

During C7, the selected slave device drives the data bus to a high impedence state. The

MCF5206e drives TA to the inactive state and then drives TA to a high-impedence state

after the next rising edge of CLK.

6.10.4 External Master Bursting Write Using MCF5206e-Generated

Transfer Termination

The bursting write transfer of an external master using MCF5206e-generated termination

is similar to a ColdFire core initiated bursting write transfer except that one additional CLK

cycle is inserted between the assertion of TS

by the external master and the start of the

internal wait state counter by the MCF5206e. If the transfer is to default memory, the

external master must increment the address to the appropriate value after each assertion

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