W83194R-67A Datasheet, PDF(6/18 Page) Winbond – 100MHZ 3-DIMM CLOCK FOR VIA MVP4

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W83194R-67A Datasheet, PDF (6/18 Pages) Winbond – 100MHZ 3-DIMM CLOCK FOR VIA MVP4

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W83194R-67A

PRELIMINARY

8.0 FUNTION DESCRIPTION

8.1 POWER MANAGEMENT FUNCTIONS

All clocks can be individually enabled or disabled via the 2-wire control interface. On power up,

external circuitry should allow 3 ms for the VCOâs to stabilize prior to enabling clock outputs to

assure correct pulse widths. When MODE=0, pins 15 and 46 are inputs (PCI_STOP#),

(CPU_STOP#), when MODE=1, these functions are not available. A particular clock could be

enabled as both the 2-wire serial control interface and one of these pins indicate that it should be

enable.

The W83194R-67A may be disabled in the low state according to the following table in order to

reduce power consumption. All clocks are stopped in the low state, but maintain a valid high period

on transitions from running to stop. The CPU and PCI clocks transform between running and stop by

waiting for one positive edge on PCICLK_F followed by negative edge on the clock of interest, after

which high levels of the output are either enabled or disabled.

CPU_STOP# PCI_STOP#

CPUCLK 0:2,

SDRAM 0:11

LOW

RUNNING

PCI

LOW

RUNNING

LOW

RUNNING

SDRAM_F,

CPU_F,PCI_F

RUNNING

OTHER CLKs

RUNNING

8.2 2-WIRE I2C CONTROL INTERFACE

The clock generator is a slave I2C component which can be read backâthe data stored in the latches

for verification. All proceeding bytes must be sent to change one of the control bytes. The 2-wire

control interface allows each clock output individually enabled or disabled. On power up, the

W83194R-67A initializes with default register settings, and then it is optional to use the 2-wire control

interface.

The SDATA signal only changes when the SDCLK signal is low, and is stable when SDCLK is high

during normal data transfer. There are only two exceptions. One is a high-to-low transition on

SDATA while SDCLK is high used to indicate the beginning of a data transfer cycle. The other is a

low-to-high transition on SDATA while SDCLK is high used to indicate the end of a data transfer

cycle. Data is always sent as complete 8-bit bytes followed by an acknowledge generated.

Byte writing starts with a start condition followed by 7-bit slave address and a write command bit

[1101 0010], command code checking [0000 0000], and byte count checking. After successful

reception of each byte, an acknowledge (low) on the SDATA wire will be generated by the clock chip.

Controller can start to write to internal I2C registers after the string of data. The sequence order is as

follows:

Publication Release Date: Feb. 1999

-6-

Revision 0.30

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