ELANSC310 AMD [Advanced Micro Devices], ELANSC310 Datasheet - Page 52
ELANSC310
Manufacturer Part Number
ELANSC310
Description
Single-Chip, 32-Bit, PC/AT Microcontroller
Manufacturer
AMD [Advanced Micro Devices]
Datasheet
1.ELANSC310.pdf
(119 pages)
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data onto the parallel port data bus, as shown in
Figure 5.
When the ÉlanSC310 microcontroller parallel port is
configured for Bidirectional mode operation, the
PPDWE pin is reconfigured via firmware to function as
the Parallel Port Data Register address decode
(PPDCS). The PPOEN output from the ÉlanSC310 mi-
crocontroller is controlled via the Parallel Port Control
Register Bit 5. This signal is then used to control the
output enable of the external parallel port data latch. By
setting this bit, the parallel port data latch is disabled,
and then data can be transferred from an external par-
allel port device into the ÉlanSC310 microcontroller
through an external 244 type buffer. A typical bidirec-
tional Parallel Port Data Bus implementation is shown
in Figure 6 on page 53.
If the VCC5 supply pins are connected to a 5-V power
supply, then the Parallel Port control signals will be
driven by 5-V outputs and can be connected directly to
the parallel port connector. If VCC5 is connected to
3.3 V, the parallel port control signals should be trans-
lated to 5 V.
The ÉlanSC310 CPU also supports Enhanced Parallel
Port (EPP) mode. The EPP mode pins are defined in
Table 24.
52
SD7–SD0
PPDWE
Figure 5.
Unidirectional Parallel Port Data Bus
374 Octal D Flip Flop
Implementation
ÉlanSC310 Microcontroller
OE
CLK
D Q
Élan™SC310 Microcontroller Data Sheet
Parallel Port
Data Bus
P R E L I M I N A R Y
In Normal mode, the outputs shown in Table 24 func-
tion as open-collector or open-drain outputs. In EPP
mode, these outputs must function as standard CMOS
outputs that are driven High and Low. Figure 6 shows
the design that should be used to support EPP mode.
Table 24. Parallel Port EPP Mode Pin Definition
SLCTIN
Normal
STRB
BUSY
AFDT
Mode
ACK
DSTRB
WRITE
ASTRB
Mode
WAIT
INTR
EPP
EPP write signal. This signal is
driven active during writes to
the EPP data or address regis-
ter.
EPP data strobe. This signal is
driven active during reads or
writes to the EPP data register.
EPP address strobe. This sig-
nal is driven active during
reads or writes to the EPP ad-
dress register.
EPP interrupt. This signal is an
input used by the EPP device
to request service.
EPP wait. This signal is used to
add wait states to the current
cycle. It is similar to the ISA IO-
CHRDY signal.
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