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6- 2 MC68340 USER’S MANUAL MOTOROLA

6.1 DMA MODULE OVERVIEW

The main purpose of the DMA controller module is to transfer data at very high rates,

usually much faster than the CPU32 under software control can handle. The term DMA is

used to refer to the ability of a peripheral device to access memory in a system in the

same manner as a microprocessor does. DMA operations can greatly increase overall

system performance.

The MC68340 DMA module consists of two, independent, programmable channels. The

term DMA is used throughout this section to reference either channel 1 or channel 2 since

the two are functionally equivalent. Each channel has independent request, acknowledge,

and done signals. However, both channels cannot own the bus at the same time.

Therefore, it is impossible to implicitly address both DMA channels at the same time. The

MC68340 on-chip peripherals do not support the single-address transfer mode.

DMA requests may be internally generated by the channel or externally generated by a

device. For an internal request, the amount of bus bandwidth allocated for the DMA can

be programmed. The DMA channels support two external request modes: burst mode and

cycle steal mode.

The DMA controller supports single- and dual-address transfers. In single-address mode,

a channel supports 32 bits of address and 32 bits of data. Only an external request can be

used to start a transfer in the single-address mode. The DMA provides address and

control signals during a single-address transfer. The requesting device either sends or

receives data to or from the specified address (see Figure 6-2). In dual-address mode, a

channel supports 32 bits of address and 16 bits of data. The dual-address transfers can

be started by either the internal request mode or by an external device using the request

signal. In this mode, two bus transfers occur, one from a source device and the other to a

destination device (see Figure 6-3). In dual-address mode, operands are packed or

unpacked according to port sizes and addresses.

Any operation involving the DMA will follow the same basic steps: channel initialization,

data transfer, and channel termination. In the channel initialization step, the DMA channel

registers are loaded with control information, address pointers, and a byte transfer count.

The channel is then started. During the data transfer step, the DMA accepts requests for

operand transfers and provides addressing and bus control for the transfers. The channel

termination step occurs after operation is complete. The channel indicates the status of

the operation in the channel status register.

Frees

cale Semiconductor,

Freescale Semiconductor, Inc.

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