ox16pci954 ETC-unknow, ox16pci954 Datasheet - Page 53
ox16pci954
Manufacturer Part Number
ox16pci954
Description
Integrated Quad Uart Interface
Manufacturer
ETC-unknow
Datasheet
1.OX16PCI954.pdf
(72 pages)
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9
9.1
The OX16PCI954 offers a compact, low power, IEEE-1284
(EPP-only) compliant host-interface parallel port, designed
to interface to many peripherals such as printers, scanners
and external drives. It supports compatibility modes, SPP,
NIBBLE and PS2, as well as EPP mode. The register set is
compatible with the Microsoft
enable the parallel port function, the Mode[1:0] pins should
be set to ‘01’. The system can access the parallel port via
two 8-byte blocks of I/O space; BAR0 contains the address
of the basic parallel port registers, BAR1 contains the
address of the upper registers. These are referred to as the
‘lower block’ and ‘upper block’ in this section. If the upper
block is located at an address 0x400 above the lower
block, generic PC device drivers can be used to configure
the port, as the addressable registers of legacy parallel
ports always have this relationship. If not, a custom driver
will be needed.
9.1.1
SPP (output-only) is the standard implementation of a
simple parallel port. In this mode, the PD lines always drive
the value in the PDR register. All transfers are done under
software control. Input must be performed in nibble mode.
Generic device driver-software may use the address in I/O
space encoded in BAR0 of function 1 to access the parallel
port. The default configuration allocates 8 bytes to BAR0 in
I/O space.
9.1.2
This mode is also referred to as bi-directional or compatible
parallel port. In this mode, directional control of the PD
lines is possible by setting & clearing DCR[5]. Otherwise
operation is similar to SPP mode.
9.1.3
To use the Enhanced Parallel Port ‘EPP’ the mode bits
(ECR[7:5]) must be set to ‘100’. The EPP address and data
port registers are compatible with the IEEE 1284 definition.
A write or read to one of the EPP port registers is passed
through the parallel port to access the external peripheral.
In EPP mode, the STB#, INIT#, AFD# AND SLIN# pins
Data Sheet Revision 1.3
OXFORD SEMICONDUCTOR LTD.
B
Operation and Mode selection
IDIRECTIONAL
SPP mode
PS2 mode
EPP mode
P
ARALLEL
register definition. To
P
ORT
change from open-drain outputs to active push-pull (totem
pole) drivers (as required by IEEE 1284) and the pins
ACK#, AFD#, BUSY, SLIN# and STB# are redefined as
INTR#, DATASTB#, WAIT#, ADDRSTB# and WRITE#
respectively.
An EPP port access begins with the host reading or writing
to one of the EPP port rgisters. The device automatically
buffers the data between the I/O registers and the parallel
port depending on whether it is a read or a write cycle.
When the peripheral is ready to complete the transfer it
takes the WAIT# status line high. This allows the host to
complete the EPP cycle.
If a faulty or disconnected peripheral failed to respond to an
EPP cycle the host would never see a rising edge on
WAIT#, and subsequently lock up. A built-in time-out facility
is provided in order to prevent this from happening. It uses
an internal timer which aborts the EPP cycle and sets a
flag in the PSR register to indicate the condition. When the
parallel port is not in EPP mode the timer is switched off to
reduce current consumption. The host time-out period is
10 s as specified with the IEEE-1284 specification.
The register set is compatible with the Microsoft register
definition. Assuming that the upper block is located 400h
above the lower block, the registers are found at offset
000-007h and 400-402h.
9.1.4
The Extended Capabilities Port ‘ECP’ mode is not
supported.
9.2
The parallel port interrupt is asserted on INTB# (or INTA# if
specified with the serial EEPROM). It is enabled by setting
DCR[4]. When DCR[4] is set, an interrupt is asserted on
the rising edge of the ACK# (INTR#) pin and held until the
status register is read, which resets the INT# status bit
(DSR[2]).
Parallel port interrupt
ECP mode (not supported)
OX16PCI954
Page 53
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