Texas Instruments Dual/Single Socket CardBus and UntraMedia Controller PCI7621 User Manual

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Table 2−14. CardBus PC Card Interface Control Terminals

If any CardBus PC Card interface control terminal is unused, then the terminal may be left floating.

SKT A TERMINAL

SKT B TERMINAL†

DESCRIPTION

I/O

INPUT

OUTPUT

PU/

POWER

NAME

NO.

NAME

NO.

DESCRIPTION

I/O

TYPE

INPUT

OUTPUT

PU/

PD

POWER

RAIL

A_CAUDIO

A02

B_CAUDIO

C17

CardBus audio. CAUDIO is a digital input signal from
a PC Card to the system speaker. The controller
supports the binary audio mode and outputs a binary
signal from the card to SPKROUT.

I

PCII4

PCIO4

PU3

VCCA/
VCCB

A_CBLOCK

E10

B_CBLOCK

J19

CardBus lock. CBLOCK is used to gain exclusive
access to a target.

I/O

PCII4

PCIO4

PU3

VCCA/
VCCB

A_CCD1

C15

B_CCD1

N13

CardBus detect 1 and CardBus detect 2. CCD1 and
CCD2 are used in conjunction with CVS1 and CVS2

I

TTLI2

PU4

A_CCD1
A_CCD2

C15
E05

B_CCD1
B_CCD2

N13
B17

CCD2 are used in conjunction with CVS1 and CVS2
to identify card insertion and interrogate cards to
determine the operating voltage and card type.

I

TTLI2

PU4

A_CDEVSEL

C09

B_CDEVSEL

H19

CardBus device select. The controller asserts
CDEVSEL to claim a CardBus cycle as the target
device. As a CardBus initiator on the bus, the
controller monitors CDEVSEL until a target responds.
If no target responds before timeout occurs, then the
controller terminates the cycle with an initiator abort.

I/O

PCII4

PCIO4

PU3

VCCA/
VCCB

A_CFRAME

C08

B_CFRAME

G19

CardBus cycle frame. CFRAME is driven by the
initiator of a CardBus bus cycle. CFRAME is asserted
to indicate that a bus transaction is beginning, and
data transfers continue while this signal is asserted.
When CFRAME is deasserted, the CardBus bus
transaction is in the final data phase.

I/O

PCII7

PCIO7

VCCA/
VCCB

A_CGNT

B09

B_CGNT

J15

CardBus bus grant. CGNT is driven by the controller
to grant a CardBus PC Card access to the CardBus
bus after the current data transaction has been
completed.

O

PCII7

PCIO7

VCCA/
VCCB

A_CINT

C04

B_CINT

B19

CardBus interrupt. CINT is asserted low by a CardBus
PC Card to request interrupt servicing from the host.

I

PCII4

PCIO4

PU3

VCCA/
VCCB

A_CIRDY

B08

B_CIRDY

J13

CardBus initiator ready. CIRDY indicates the ability of
the CardBus initiator to complete the current data
phase of the transaction. A data phase is completed
on a rising edge of CCLK when both CIRDY and
CTRDY are asserted. Until CIRDY and CTRDY are
both sampled asserted, wait states are inserted.

I/O

PCII4

PCIO4

PU3

VCCA/
VCCB

A_CPERR

F10

B_CPERR

J18

CardBus parity error. CPERR reports parity errors
during CardBus transactions, except during special
cycles. It is driven low by a target two clocks following
the data cycle during which a parity error is detected.

I/O

PCII4

PCIO4

PU3

VCCA/
VCCB

A_CREQ

E07

B_CREQ

E18

CardBus request. CREQ indicates to the arbiter that
the CardBus PC Card desires use of the CardBus bus
as an initiator.

I

PCII4

PCIO4

PU3

VCCA/
VCCB

A_CSERR

B03

B_CSERR

B18

CardBus system error. CSERR reports address parity
errors and other system errors that could lead to
catastrophic results. CSERR is driven by the card
synchronous to CCLK, but deasserted by a weak
pullup; deassertion may take several CCLK periods.
The controller can report CSERR to the system by
assertion of SERR on the PCI interface.

I

PCII4

PCIO4

PU3

VCCA/
VCCB

† These terminals are reserved for the PCI7611 and PCI7411 controllers.