spd6722qcce Intel Corporation, spd6722qcce Datasheet - Page 31

spd6722qcce

Manufacturer Part Number

spd6722qcce

Description

Isa-to-pc-card Pcmcia Controllers

Manufacturer

Intel Corporation

Datasheet

1.SPD6722QCCE.pdf (138 pages)

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4.1.5

4.1.5.1

4.1.5.2

Datasheet

Connection of Interrupt Pins

IRQ interrupts in PC-compatible systems are not generally shared by hardware. Therefore, each

device in the system using IRQ interrupts must have a unique interrupt line. Additionally, many

software applications assume that certain I/O devices use specific IRQ signals. To allow PC Cards

with differing I/O functionalities to be connected to appropriate nonconflicting IRQ locations, the

PD67XX can steer the interrupt signal from a PC Card to any one of the ten different hardware

interrupt lines.

For some I/O-type cards, software is written so that IRQ interrupts can be shared. The PD67XX

contains unique logic that allows IRQ interrupts to be shared under software control. This is

accomplished by programming the PD67XX to alternately pulse and then three-state the desired

interrupt pin, which has been programmed as an IRQ output. This unique IRQ interrupt sharing

technique can be controlled through software so that systems incapable of IRQ sharing have no

loss of functionality.

Alternate Functions of Interrupt Pins

The PD67XX has two interrupt pins that can be programmed for alternate functions: IRQ12/

LED_OUT* and IRQ15/RI_OUT*. In addition, the PD6722 allows IRQ9 and IRQ10 to be

programmed for system DMA transfer handshake functions.

IRQ12 as LED_OUT* Driver

If a disk-activity or card-cycle-activity indicator is desired, IRQ12/LED_OUT* can be

programmed as an open-collector LED driver, capable of driving most common LEDs. There is no

specific bit that programs the IRQ12 pin to become an LED driver; instead, whenever a socket

interface is programmed to support a drive status LED input or is programmed to show card

activity on the LED (as described below), the IRQ12 pin becomes reconfigured as an open-

collector LED driver.

The Extension Control 1 register’s LED Activity Enable bit (extended index 03h bit 2) is used to

enable the LED being used to show card activity. When this bit is set, any type of read or write

cycles to the respective socket cause the IRQ12/LED_OUT* signal to be driven low for the

duration of the card activity.

The Drive LED Enable bit (Misc Control 2 register bit 4) is used to enable the BVD2/-SPKR/-

LED input from an I/O-interfaced card to be interpreted as a drive LED input, where an open-

collector signal driven low on this input will cause the IRQ12/LED_OUT* open-collector output to

go low.

Any combination of settings of LED Activity Enable and Drive LED Enable bits can be used on

each socket, with each type of activity being able to separately cause the LED to be illuminated.

Status from non-present or non-activated cards is automatically masked off from causing the

IRQ12/LED_OUT* signal to be driven low.

IRQ15 as RI_OUT*

If the capability to ‘wake up’ a system on an incoming phone call to a PC Card modem is desired,

it may be necessary in some systems to use a dedicated wakeup signal to the system’s SMI or NMI

controller to facilitate this instead of using the normal interrupt connections. If this is the case, the

IRQ15 connection can be reprogrammed to pass through a qualified version of an I/O interfaced

card’s -RI signal.

ISA-to-PC-Card (PCMCIA) Controllers — PD6710/’22

spd6722qcce Intel Corporation, spd6722qcce Datasheet - Page 31

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