PD6710 Datasheet, PDF(35/138 Page) Intel Corporation – ISA-to-PC-Card (PCMCIA) Controllers

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PD6710 Datasheet, PDF (35/138 Pages) Intel Corporation – ISA-to-PC-Card (PCMCIA) Controllers

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

bit 5 is â0â), system software can determine the cardâs operating voltage range and then power-up

the socket and initialize the card (or simply initialize the card if programmed for automatic power-

on (Power Control register bit 5 is â1â and Extension Control 1 register bit 1 is â1â)).

4.1.10

Write FIFO

To increase performance when writing to PC Cards, two, independent, four-word-deep write

FIFOs are used. Writes to PC Cards will complete without wait states until the FIFO is full.

4.1.11

Bus Sizing

The PD67XX incorporates logic to automatically detect its connection to 8- or 16-bit buses. This is

accomplished by sensing SBHE* input activity. If the SBHE* pin is always high (that is, tied to

ISA_VCC), the PD67XX operates in 8-bit mode where all transfers occur on the lower data bus,

bits 7:0. Any occurrence of the SBHE* going low triggers the PD67XX to operate thereafter as a

16-bit device. 16-bit operation of the PD67XX is properly triggered when the SBHE* input is

connected to the systemâs SBHE* signal. When the PD67XX is operating in 16-bit mode, all ISA

bus transactions are 16-bit whenever possible, even if installed PC cards only support 8-bit

transfers. In 16-bit mode, the signals SBHE* and SA0 are used to specify the width of the data

transfer and the location of data on the bus (which byte lane has the data) during 8-bit transfers.

The possible combinations for SBHE* and SA0 are shown in Table 9 and Table 10

Table 9. 16-Bit Mode Operation

16-Bit Mode Transfer Types

Word

Upper Byte/Odd Address

Low Byte/Even Address

Not Valid

SBHE*

SA0

Table 10. 8-Bit Mode Operation

8-Bit Mode Transfer Types1

SA0

Even Address

Odd Address

1. The SBHE* signal is pulled up. If the SBHE*

signal remains high, thePD67XX causes all

transfers to occur on D[7:0] only

Typically, there are three types of data transfers to and from the PD67XX:

â¢ 16-Bit Transfer from 16-Bit Processor â The CPU puts the address on the bus. Then the

PD67XX identifies the address on the bus as either an 8- or 16-bit transfer. If the transfer is

identified as 16-bit, the host acknowledges with the appropriate signal, either MEMCS16* or

IOCS16*. Data is transferred to/from the data bus as a word on both byte lanes.

â¢ 8-Bit Transfer from 16-Bit Processor â The CPU puts the address on the bus. Then the

PD67XX identifies the address on the bus as either an 8- or 16-bit transfer. In this case, the

transfer is identified as an 8-bit transfer. The host queries SA0 and SBHE* to determine the

Datasheet

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