OX9162 Datasheet, PDF(13/41 Page) List of Unclassifed Manufacturers – Integrated Parallel Port/Local Bus and PCI interface

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OX9162 Datasheet, PDF (13/41 Pages) List of Unclassifed Manufacturers – Integrated Parallel Port/Local Bus and PCI interface

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OXFORD SEMICONDUCTOR LTD.

OX9162

4.4.2 Multi-purpose I/O Configuration register âMICâ (Offset 0x04)

This register configures the operation of the multi-purpose I/O pins âMIO[1:0] as follows.

Bits

Description

1:0

MIO0 Configuration Register

00 -> MIO0 is a non-inverting input pin

01 -> MIO0 is an inverting input pin

10 -> MIO0 is an output pin driving â0â

11 -> MIO0 is an output pin driving â1â

3:2

MIO1 Configuration Register

00 -> MIO1 is a non-inverting input pin

01 -> MIO1 is an inverting input pin

10 -> MIO1 is an output pin driving â0â

11 -> MIO1 is an output pin driving â1â

MIO0_PME Enable. A value of â1â enables MIO0 pin to set the

PME_Status in PMCSR register, and hence assert the PME# pin if

enabled. A value of â0â disables MIO0 from setting the PME_Status bit.

MIO1_PME Enable. A value of â1â enables MIO1 pin to set the

PME_Status in PMCSR register, and hence assert the PME# pin if

enabled. A value of â0â disables MIO1 from setting the PME_Status bit.

MIO0 Power Down Request: A â1â enables MIO0 to control the power

down request filter.

MIO1 Power Down Request: A â1â enables MIO1 to control the power

down request filter.

31:8

Reserved

Read/Write

EEPROM

PCI

Reset

4.4.3 Local Bus Timing Parameter register 1 âLT1â (Offset 0x08):

The Local Bus Timing Parameter registers (LT1 and LT2) define the operation and timing parameters used by the Local Bus.

The timing parameters are programmed in 4-bit registers to define the assertion/de-assertion of the Local Bus control signals.

The value programmed in these registers defines the number of PCI clock cycles after a Reference Cycle when the events

occur, where the reference Cycle is defined as two clock cycles after the master asserts the IRDY# signal. The following

arrangement provides a flexible approach for users to define the desired bus timing of their peripheral devices. The timings refer

to I/O or Memory mapped accesses.

Bits

Description

Read/Write

Reset

EEPROM PCI

3:0

Read Chip-select Assertion (Intel-type interface). Defines the number of

clock cycles after the Reference Cycle when the LBCS[1:0]# pins are

asserted (low) during a read operation from the Local Bus.1

These bits are unused in Motorola-type interface.

7:4

Read Chip-select De-assertion (Intel-type interface). Defines the number

of clock cycles after the Reference Cycle when the LBCS[1:0]# pins are

(2h for

de-asserted (high) during a read from the Local Bus. 1

parallel port)

These bits are unused in Motorola-type interface.

11:8

Write Chip-select Assertion (Intel-type interface). Defines the number of

clock cycles after the Reference Cycle when the LBCS[1:0]# pins are

asserted (low) during a write operation to the Local Bus. 1

Data Sheet Revision 1.1 PRELIMINARY

Page 13

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