PI7C8150BMAIE Pericom Semiconductor, PI7C8150BMAIE Datasheet - Page 69

PI7C8150BMAIE

Manufacturer Part Number

PI7C8150BMAIE

Description

IC PCI-PCI BRIDGE ASYNC 208-FQFP

Manufacturer

Pericom Semiconductor

Datasheet

1.PI7C8150BNDE.pdf (109 pages)

Specifications of PI7C8150BMAIE

Applications

Interface

Voltage - Supply

Package / Case

208-FQFP

Mounting Type

Surface Mount

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Current page: 69 of 109
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10.2

Table 10-1. GPIO Operation

The bottom four bits of the output enable fields control whether each GPIO signal is input

only or bi-directional. Each signal is controlled independently by a bit in each output

enable control field. If a 1 is written to the write-1-to-set field, the corresponding pin is

activated as an output. If a 1 is written to the write-1-to-clear field, the output driver is tri-

stated, and the pin is then input only. Writing zeroes to these registers has no effect. The

reset for these signals is input only.

The input data field is read only and reflects the current value of the GPIO pins. A type 0

configuration read operation to this address is used to obtain the values of these pins. All

pins can be read at any time, whether configured as input only or as bi-directional.

The output data fields also use the write-1-to-set and write-1-to-clear mode. If a 1 is

written to the write-1-to-set field and the pin is enabled as an output, the corresponding

GPIO output is driven HIGH. If a 1 is written to the write-1-to-clear field and the pin is

enabled as an output, the corresponding GPIO output is driven LOW. Writing zeros to

these registers has no effect. The value written to the output register will be driven only

when the GPIO signal is configured as bi-directional. A type 0 configuration write

operation is used to program these fields. The rest value for the output is 0.

The PI7C8150B uses the GPIO pins and the MSK_IN signal to input a 16-bit serial data

stream. This data stream is shifted into the secondary clock control register and is used for

selectively disabling secondary clock outputs.

The serial data stream is shifted in as soon as P_RST_L is detected deasserted and the

secondary reset signal, S_RST_L, is detected asserted. The deassertion of S_RST_L is

delayed until the PI7C8150B completes shifting in the clock mask data, which takes 23

clock cycles. After that, the GPIO pins can be used as general-purpose I/O pins.

An external shift register should be used to load and shift the data. The GPIO pins are used

for shift register control and serial data input. Table 10-1 shows the operation of the GPIO

pins.

The data is input through the dedicated input signal, MSK_IN.

The shift register circuitry is not necessary for correct operation of PI7C8150B. The shift

outputs or tied HIGH to force all secondary clock outputs HIGH. Table 10-2 shows the

format of the serial stream.

SECONDARY CLOCK CONTROL

GPIO[0]

GPIO[1]

GPIO[2]

GPIO[3]

Input data field

GPIO Pin

Page 69 of 109

ASYNCHRONOUS 2-PORT PCI-TO-PCI BRIDGE

Shift register clock output at 33MHz max frequency

Not used

Shift register control

0: Load

1: Shift

Not used

ADVANCE INFORMATION

Operation

April 2009 – Revision 1.08

PI7C8150B

PI7C8150BMAIE Pericom Semiconductor, PI7C8150BMAIE Datasheet - Page 69

PI7C8150BMAIE

Specifications of PI7C8150BMAIE

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