SH7211 Datasheet, PDF(365/1228 Page) Renesas Technology Corp – 32-Bit RISC Microcomputer SuperHTM RISC engine Family

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SH7211 Datasheet, PDF (365/1228 Pages) Renesas Technology Corp – 32-Bit RISC Microcomputer SuperHTM RISC engine Family

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Section 9 Direct Memory Access Controller (DMAC)

DREQ

Bus mastership returned to CPU once

Bus cycle

CPU

CPU CPU DMAC DMAC CPU DMAC DMAC CPU

Read/Write

Read/Write

Figure 9.9 DMA Transfer Example in Cycle-Steal Normal Mode

(Dual Address, DREQ Low Level Detection)

â¢ Intermittent Mode 16 and Intermittent Mode 64

In intermittent mode of cycle steal, DMAC returns the bus mastership to other bus master

whenever a unit of transfer (byte, word, longword, or 16 bytes) is completed. If the next

transfer request occurs after that, DMAC obtains the bus mastership from other bus master

after waiting for 16 or 64 cycles of BÏ clock. DMAC then transfers data of one unit and returns

the bus mastership to other bus master. These operations are repeated until the transfer end

condition is satisfied. It is thus possible to make lower the ratio of bus occupation by DMA

transfer than normal mode of cycle steal.

The cycle-steal intermittent mode can be used for any transfer section; transfer request source,

transfer source, and transfer destination. The bus modes, however, must be cycle steal mode in

all channels.

Figure 9.10 shows an example of DMA transfer timing in cycle-steal intermittent mode.

Transfer conditions shown in the figure are;

â¯ Dual address mode

â¯ DREQ low level detection

DREQ

More than 16 or 64 BÏ clock cycles

(depends on the CPU's condition of using bus)

Bus cycle

CPU CPU CPU DMAC DMAC CPU

Read/Write

CPU DMAC DMAC CPU

Read/Write

Figure 9.10 Example of DMA Transfer in Cycle-Steal Intermittent Mode

(Dual Address, DREQ Low Level Detection)

Rev. 2.00 May. 08, 2008 Page 341 of 1200

REJ09B0344-0200

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