lan91c95 Standard Microsystems Corp., lan91c95 Datasheet - Page 98

lan91c95

Manufacturer Part Number

lan91c95

Description

Isa/pcmcia Full Duplex Single-chip Ethernet And Modem Controller With Ram

Manufacturer

Standard Microsystems Corp.

Datasheet

1.LAN91C95.pdf (144 pages)

Current page: 98 of 144
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The arbiter uses the pointer register as the CPU

provided address, and the internal DMA address

from the CSMA/CD side as the addresses to be

provided to the MMU.

The data path routed by the arbiter goes

between memory (the data path does not go

through the MMU) on one side and either the

CPU side bus or the data path of the CSMA/CD

core.

The data path between memory and the Data

each direction.

words, in any sequential combination.

presence of these FIFOs makes sure that word

transfers are possible on the system bus even if

the address loaded into the pointer is odd.

BUS INTERFACE

The bus interface handles the data, address and

control interfaces as a superset of the ISA and

PCMCIA specifications and allows 8 or 16 bit

adapters to be designed with the LAN91C95

with no glue to interface to the ISA or PCMCIA

bus.

The functions done in this block are address

decoding for I/O and ROM memory (including

address relocation support) for ISA, data path

routing, sequential memory address support,

optional wait state generation, boot ROM

support,

transceiver

generation/selection.

For ISA, I/O address decoding is done by

comparing A15-A4 to the I/O BASE address

determined in part by the upper byte of the

BASE

requiring that AEN be low. If the above address

comparison is satisfied and the LAN91C95 is in

16 bit mode, nIOCS16 will be asserted (low).

A valid comparison does not yet indicate a valid

I/O cycle is in progress, as the addresses could

be used for a memory cycle, or could even

ADDRESS

EEPROM

control,

The FIFOs beneath the Data

setup

and

function,

and

interrupt

also

The

bus

glitch through a valid value. Only when nIORD

or nIOWR are activated the I/O cycle begins.

In PCMCIA mode, A4-A15 are ignored for I/O

decodes, which rely on the PCMCIA host

decoding for the slot. Input A10 for ISA is used

as an output (nFWE) for PCMCIA to enable

Flash Memory Write for programming the

attribute memory. It is valid only when nWE is

0 and COR2 is 1. nA11/nFCS is used to select

the Flash Memory Chip.

WAIT STATE POLICY

The LAN91C95 can work on most system buses

without having to add wait states.

parameters that determine the memory access

profile are the read access time and the cycle

time into the Data Register.

The read access time is 40ns and the cycle time

is 185ns. If any one of them does not satisfy

the application requirements, wait states should

be added.

If the access time is the problem, IOCHRDY

should be negated for all accesses to the

LAN91C95.

programming the NO WAIT ST bit in the

configuration register to 0. The LAN91C95 will

negate IOCHRDY for 100ns to 150ns on every

access to any register.

If the cycle time is the problem, programming

NO WAIT ST as described before will solve it

but at the expense of slowing down all

accesses.

LAN91C95 negate IOCHRDY only when the

Data Register FIFOs require so. Namely, if NO

WAIT ST is set, IOCHRDY will only be negated

if a Data Register read cycle starts and there is

less than a full word in the read FIFO, or if a

write cycle starts and there is more than two

bytes in the write FIFO.

The cycle time is defined as the time between

leading edges of read from the Data Register, or

equivalently between trailing edges of write to

the Data Register.

The alternative is to let the

This

For example, in an ISA

can

achieved

The two

lan91c95 Standard Microsystems Corp., lan91c95 Datasheet - Page 98

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