M306H7MG-XXXFP Datasheet, PDF(62/329 Page) Renesas Technology Corp – SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER with DATA ACQUISITION CONTROLLER

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M306H7MG-XXXFP Datasheet, PDF (62/329 Pages) Renesas Technology Corp – SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER with DATA ACQUISITION CONTROLLER

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M306H7MG-XXXFP/MC-XXXFP/FGFP

8. DMAC

8. DMAC

The DMAC (Direct Memory Access Controller) allows data to be transferred without the CPU intervention.

Two DMAC channels are included. Each time a DMA request occurs, the DMAC transfers one (8 or 16-bit) data from

the source address to the destination address. The DMAC uses the same data bus as used by the CPU. Because the

DMAC has higher priority of bus control than the CPU and because it makes use of a cycle steal method, it can transfer

one word (16 bits) or one byte (8 bits) of data within a very short time after a DMA request is generated. Figure 8.1

shows the block diagram of the DMAC.

Table 8.1 shows the DMAC specifications. Figures 8.2 to 8.4 show the DMAC-related registers.

Address bus

DMA0 transfer counter reload register TCR0 (16)

(addresses 002916, 002816)

DMA0 transfer counter TCR0 (16)

DMA1 transfer counter reload register TCR1 (16)

(addresses 003916, 003816)

DMA1 transfer counter TCR1 (16)

DMA0 source pointer SAR0(20)

(addresses 002216 to 002016)

DMA0 destination pointer DAR0 (20)

(addresses 002616 to 002416)

DMA0 forward address pointer (20) (Note)

DMA1 source pointer SAR1 (20)

(addresses 003216 to 003016)

DMA1 destination pointer DAR1 (20)

(addresses 003616 to 003416)

DMA1 forward address pointer (20) (Note)

DMA latch high-order bits DMA latch low-order bits

Data bus low-order bits

Data bus high-order bits

Figure 8.1 DMAC Block Diagram

Note: Pointer is incremented by a DMA request.

A DMA request is generated by a write to the DMiSL register (i = 0 to 1)âs DSR bit, as well as by an interrupt request

which is generated by any function specified by the DMiSL registerâs DMS and DSEL3 to DSEL0 bits. However,

unlike in the case of interrupt requests, DMA requests are not affected by the I flag and the interrupt control register, so

that even when interrupt requests are disabled and no interrupt request can be accepted, DMA requests are always

accepted. Furthermore, because the DMAC does not affect interrupts, the interrupt control registerâs IR bit does not

change state due to a DMA transfer.

A data transfer is initiated each time a DMA request is generated when the DMiCON registerâs DMAE bit = â1â

(DMA enabled). However, if the cycle in which a DMA request is generated is faster than the DMA transfer cycle, the

number of transfer requests generated and the number of times data is transferred may not match. For details, refer to

âDMA Requestsâ.

Rev.2.10 Oct 25, 2006 Page 62 of 326

REJ03B0152-0210

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