C9835
Pin Description
[3]
Pin
1
3
4
49, 50, 52
7, 8, 9
12
REF
XIN
XOUT
CPU(0:2)
3V66(0:2)
PCI_F
Name
PWR
VDD
VDD
VDD
3.3V 14.318 MHz clock output
Oscillator buffer input.
Connect to a crystal or to an external clock.
Oscillator buffer output.
Connect to a crystal. Do not connect when an external
clock is applied at X
IN
.
3.3V Fixed 66.6 MHz clock outputs
3.3V PCI clock output.
This clock continues to run when PCI_STP# is at a logic
low level.
Description
VDDC 2.5V Host bus clock outputs
VDD
VDDP
13, 15, 16, 18,
PCI (1:6)
19, 20
25, 26
36
34
48M(0,1)
VCH_CLK
CPU_STP#
3.3V PCI clock outputs.
These clocks synchronously stop in a low state when
VDDP PCI_STP# is brought to a logic low level. They synchronously resume running
when PCI_STP# is brought to a logic high state.
VDD
VDD
VDD
3.3V Fixed 48 MHz clock outputs
3.3V selectable 66.6 MHz or 48 MHz clock output to VCH.
Spread spectrum
applies only when 66.6 MHz is selected. Select via SMBUS, byte 4 bit7.
CPU0 stop clock control input.
Stops only CPU0 in a low state when asserted
low. Using this pin to start and stop CPU0 clock insures synchronous (no short or
long clocks) transitioning of this clock.
PCI stop clock control input.
When this signal is at a logic low level (0), all PCI
clocks (except PCI_F) stop at a logic low level. Using this pin to start and stop PCI
clocks insures synchronous (no short or long clocks) transitioning of these clocks.
This pin has no effect on the PCI_F clock.
3.3V LVTTL inputs for logic selection.
These pins have Internal pull-ups,
typically 250k (range 200k to 800k).
Serial data input pin.
Conforms to the SMBUS specification of a Slave
Receive/Transmit device. This pin is an input when receiving data. It is an open
drain output when acknowledging or transmitting data. See 2-Wire SMBUS
Control Interface on page 7.
Serial clock input pin.
Conforms to the SMBUS specification. See 2-Wire
SMBUS Control Interface on page 7.
3.3V LVTTL-compatible input.
When held LOW, the device enters a power down
mode. This pin has an Internal Pull-Up. See Power Management Functions on
page 3.
3.3V LVTTL compatible input for selecting test mode.
See
Table 1.
3.3V SDRAM feedback clock output.
See
Table 1
for frequency selection. See
Figure 4
for timing relationship.
11
PCI_STP#
VDD
28, 29
SEL(0,1)
VDD
30
SDATA
VDD
31
32
33
38
SCLK
PD#
TEST#
DCLK
VDD
VDD
VDD
VDDS
39, 40, 42, 43,
SDRAM(0:5)
45, 46
54, 55
37, 44
17
53
51
2, 10, 27, 35
22
23
IOAPIC(0,1)
VDDS
VDDP
VDDI
VDDC
VDD
AVDD
AVSS
VDDS 3.3V SDRAM clock outputs
VDDI
2.5V IOAPIC clock outputs. See
Figure 4
for timing relationships.
3.3V Power for SDRAM and DCLK clock output buffers
3.3V Power for PCI clock output buffers
2.5V Power for IOAPIC clock output buffers
2.5V Power for CPU clock output buffers
3.3V Common power supply
Analog power
Analog ground
Common ground pins
5, 6, 14, 21, 24,
VSS
41, 47, 48, 56
Note:
3. A bypass capacitor (0.1
µ
F) should be placed as close as possible to each positive power pin. If these bypass capacitors are not close to the pins their
high-frequency filtering characteristic will be cancelled by the lead inductance of the traces.
Document #: 38-07303 Rev. **
Page 2 of 18