fdc37m707 Standard Microsystems Corp., fdc37m707 Datasheet - Page 184

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fdc37m707

Manufacturer Part Number

fdc37m707

Description

Fdc37m707 Enhanced Super I/o Controller With Wake-up Features

Manufacturer

Standard Microsystems Corp.

Datasheet

1.FDC37M707.pdf (194 pages)

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Parallel Port FIFO (Mode 101)

The standard parallel port is run at or near the

peak 500KBytes/sec allowed in the forward

direction using DMA. The state machine does

not examine nACK and begins the next transfer

based on Busy. Refer to Figure 17.

ECP Parallel Port Timing

The timing is designed to allow operation at

approximately 2.0 Mbytes/sec over a 15ft cable.

will increase.

Forward-Idle

When the host has no data to send it keeps

HostClk (nStrobe) high and the peripheral will

leave PeriphClk (Busy) low.

Forward Data Transfer Phase

The interface transfers data and commands

from the host to the peripheral using an inter-

locked PeriphAck and HostClk. The peripheral

may indicate its desire to send data to the host

by asserting nPeriphRequest.

The Forward Data Transfer Phase may be

entered from the Forward-Idle Phase. While in

the

asynchronously

(nFault) to request that the channel be reversed.

When the peripheral is not busy it sets

PeriphAck (Busy) low. The host then sets

HostClk (nStrobe) low when it is prepared to

send data. The data must be stable for the

specified setup time prior to the falling edge of

HostClk. The peripheral then sets PeriphAck

(Busy) high to acknowledge the handshake. The

host then sets HostClk (nStrobe) high. The

peripheral then accepts the data and sets

PeriphAck (Busy) low, completing the transfer.

This sequence is shown in Figure 17.

If a shorter cable is used then the bandwidth

Forward

Phase

assert

the

the

peripheral

nPeriphRequest

ECP PARALLEL PORT TIMING

may

184

The timing is designed to provide 3 cable

round-trip times for data setup if Data is driven

simultaneously with HostClk (nStrobe).

Reverse-Idle Phase

The peripheral has no data to send and keeps

PeriphClk high. The host is idle and keeps

HostAck low.

Reverse Data Transfer Phase

The interface transfers data and commands

from the peripheral to the host using an inter-

locked HostAck and PeriphClk.

The Reverse Data Transfer Phase may be en-

tered from the Reverse-Idle Phase.

previous byte has beed accepted the host sets

HostAck (nALF) low. The peripheral then sets

PeriphClk (nACK) low when it has data to send.

The data must be stable for the specified setup

time prior to the falling edge of PeriphClk. When

the host is ready to accept a byte it sets

HostAck (nALF) high to acknowledge the

handshake. The peripheral then sets PeriphClk

(nACK) high. After the host has accepted the

data it sets HostAck (nALF) low, completing the

transfer. This sequence is shown in Figure 18.

Output Drivers

To facilitate higher performance data transfer,

the use of balanced CMOS active drivers for

critical

PeriphAck, PeriphClk) are used ECP Mode.

Because the use of active drivers can present

compatibility

Mode (the control signals, by tradition, are

specified

dynamically changed from open-collector to

totem-pole. The timing for the dynamic driver

change is specified in

Extended Capabilities Port Protocol and ISA

signals

as open-collector), the drivers are

problems

(Data,

then

HostAck,

in Compatible

IEEE

After the

HostClk,

1284

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