EP7212 Datasheet, PDF(34/136 Page) Cirrus Logic – HIGH-PERFORMANCE, LOW-POWER SYSTEM-ON-CHIP WITH LCD CONTROLLER AND DIGITAL AUDIO INTERFACE(DAI)

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EP7212 Datasheet, PDF (34/136 Pages) Cirrus Logic – HIGH-PERFORMANCE, LOW-POWER SYSTEM-ON-CHIP WITH LCD CONTROLLER AND DIGITAL AUDIO INTERFACE(DAI)

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EP7212

A complete description of the protocol and AC tim-

ing characteristics can be found in the CL-PS6700

data sheet. A transaction is initiated by an access to

the nCS4 or nCS5 area. The chip select is asserted,

and on the first clock, the upper 10 bits of the PC

Card address, along with 6 bits of size, space, and

slot information are put out onto the lower 16 bits

of the EP7212âs data bus. Only word (i.e., 4-byte)

and single-byte accesses are supported, and the slot

field is hardcoded to 11, since the slot field is de-

fined as a âReserved fieldâ by the CL-PS6700. The

chip selects are used to select the device to be ac-

cessed. The space field is made directly from the

A26 and A27 CPU address bits, according to the

decode shown in Table 18. The size field is forced

to 11 if a word access is required, or to 00 if a byte

access is required. This avoids the need to config-

ure the interface after a reset. On the second clock

cycle, the remaining 16 bits of the PC Card address

are multiplexed out onto the lower 16 bits of the

data bus. If the transaction selected is a CL-PS6700

suming there is space available in the CL-PS6700âs

internal write buffer) then the access will continue

on the following two clock cycles. During these

following two clock cycles the upper and lower

halves of the word to be read or written will be put

onto the lower 16 bits of the main data bus.

The âptypeâ signal on the CL-PS6700s should be

connected to the EP7212âs WRITE output pin.

During PC Card accesses, the polarity of this pin

changes, and it becomes low to signify a write and

high to signify a read. It is valid with the first half

word of the address. During the second half word

of the address, it is always forced high to indicate

to the CL-PS6700 that the EP7212 has initiated ei-

ther the write or read.

The PRDY signals from each of the two CL-

PS6700 devices are connected to Port B bits 0 and

1, respectively. When the PC CARD1 or PC

CARD2 control bits in the SYSCON2 register are

de-asserted, these port bits are available for GPIO.

When asserted, these port bits are used as the

Access Type

Attribute

I/O

Common memory

CL-PS6700 registers

Addresses for CL-PS6700 Interface 1

0x40000000â0x43FFFFFF

0x44000000â0x47FFFFFF

0x48000000â0x4BFFFFFF

0x4C000000â0x4FFFFFFF

Addresses for CL-PS6700 Interface 2

0x50000000â 0x53FFFFFF

0x54000000â0x57FFFFFF

0x58000000â0x5BFFFFFF

0x5C000000â0x5FFFFFFF

Table 17. CL-PS6700 Memory Map

Space Field Value

PC CARD Memory Space

Attribute

I/O

Common memory

CL-PS6700 registers

Table 18. Space Field Decoding

DS474PP1

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