beautypg.com

Intel ECB-870 User Manual

Page 44

background image

User’s Manual

32 ECB-870 User’s Manual


PDIORDY

Primary IO Channel Ready. In normal IDE mode, this input signal is directly driven by the

corresponding IDE device IORDY signal. In an Ultra DMA/33 read cycle, this signal is used as

STROBE, with the PIIX4 latching

data on rising and falling edges of STROBE. In an Ultra DMA/33 write cycle, this signal is used

as the DMARDY# signal which is negated by the drive to pause Ultra DMA/33 transfers.

If the IDE signals are configured for Primary and Secondary, this signal is connected to the

corresponding signal on the Primary IDE connector.

If the IDE signals are configured for Primary Master and Primary Slave, this signal is used for

the Primary Master connector.

This is a Schmitt triggered input.

SDIORDY

Secondary IO Channel Ready. In normal IDE mode, this input signal is directly driven by the

corresponding IDE device IORDY signal. In an Ultra DMA/33 read cycle, this signal is used as

STROBE, with the PIIX4 latching

data on rising and falling edges of STROBE. In an Ultra DMA write cycle, this signal is used as

the DMARDY# signal which is negated by the drive to pause Ultra DMA/33 transfers.

If the IDE signals are configured for Primary and Secondary, this signal is connected to the

corresponding signal on the Secondary IDE connector.

If the IDE signals are configured for Primary Master and Primary Slave, these signals are used

for the Primary Slave connector.

This is a Schmitt triggered input.

PDDREQ

Primary Disk DMA Request. This input signal is directly driven from the IDE device DMARQ

signal. It is asserted by the IDE device to request a data transfer, and used in conjunction with

the PCI bus master IDE function. It is not associated with any AT compatible DMA channel.

If the IDE signals are configured for Primary and Secondary, this signal is connected to the

corresponding signal on the Primary IDE connector.

If the IDE signals are configured for Primary Master and Primary Slave, this signal is used for

the Primary Master connector.

SDDREQ

Secondary Disk DMA Request. This input signal is directly driven from the IDE device

DMARQ signal. It is asserted by the IDE device to request a data transfer, and used in

conjunction with the PCI bus master IDE function. It is not associated with any AT compatible

DMA channel.

If the IDE signals are configured for Primary and Secondary, this signal is connected to the

corresponding signal on the Secondary IDE connector.

If the IDE signals are configured for Primary Master and Primary Slave, these signals are used

for the Primary Slave connector.

PDDACK#

Primary DMA Acknowledge. This signal directly drives the IDE device DMACK# signal. It is

asserted by PIIX4 to indicate to IDE DMA slave devices that a given data transfer cycle

(assertion of PDIOR# or PDIOW#) is a DMA data transfer cycle. This signal is used in

conjunction with the PCI bus master IDE function. It is not associated with any AT compatible

DMA channel. If the IDE signals are configured for Primary and Secondary, this signal is

connected to the corresponding signal on the Primary IDE connector. If the IDE signals are

configured for Primary Master and Primary Slave, this signal is used for the Primary Master

connector.