PD6710 Datasheet, PDF(80/138 Page) Intel Corporation – ISA-to-PC-Card (PCMCIA) Controllers

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PD6710 Datasheet, PDF (80/138 Pages) Intel Corporation – ISA-to-PC-Card (PCMCIA) Controllers

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PD6710/â22 â ISA-to-PC-Card (PCMCIA) Controllers

During a DMA data transfer process, an ISA-based system typically follows its issuance of a DMA

acknowledge with a DMA read or write cycle. However, during a DMA write-verify operation, a

system can issue a DMA acknowledge without following it with a DMA read or write cycle.

Because a DMA-capable PC Card receives DMA acknowledgment only by reception of a DMA

read or write cycle, conditions may occur where the card never receives a DMA acknowledge. To

prevent this from happening in an ISA-based system, a maximum DMA acknowledge delay feature

has been added that generates a âdummyâ DMA write cycle (reads DMA data from the card) if

there are no system-generated DMA read or write cycles to the card within a programmable time.

Once a DMA acknowledge is received from the system, the PD6722 starts counting the time from

the assertion of the DACK* signal until the system issues a DMA read or write command (IOR* or

IOW*). If this interval exceeds the programmed time, the PD6722 assumes that a system write-

verify is in progress and generates a dummy DMA write cycle at the PC Card interface. This allows

the passing of the DMA acknowledge (and terminal count status) to the card so it can perform any

intended verify-cycle functions.

Figure 12. Selection of Acknowledge Time-out Interval

DREQ

DACK*

AEN

IOR*/IOW*

t1 = time delay from DMA acknowledge to IOR* or IOW* command (specified by system design).

t2 = time to program into the Maximum DMA Acknowledge Delay register for when IOR* or IOW* falling edge does not occur (t2 > t1).

The maximum DMA acknowledge delay (t2 as shown in Figure 12) should be programmed to a

time greater than the maximum time required from the systemâs issuance of a DMA acknowledge

to its issuance of a DMA read or write cycle (t1 as shown in Figure 12). The t1 time is indicated in

the specifications for the systems DMA cycle timing.

Typical system specifications for t1 are 190â270 ns, making a value of 80h for the Maximum

DMA Acknowledge Delay register suitable for many applications. If the PD6722 is used in an

add-in card application, a value of 20h may be suitable. Table 14 shows Maximum DMA

Acknowledge Delay register values to be programmed for a desired maximum DMA acknowledge

delay.

Table 14. Maximum DMA Acknowledge Delay Register Values (Sheet 1 of 2)

80h

40h

C0h

20h

A0h

60h

Maximum DMA Acknowledge Delay

(25-MHz internal clock and default Setup timing)

7 clocks = 280 ns

8 clocks = 320 ns

9 clocks = 360 ns

10 clocks = 400 ns

11 clocks = 440 ns

12 clocks = 480 ns

Datasheet

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