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W48S87-72 Datasheet, PDF (2/19 Pages) Cypress Semiconductor – Desktop/Notebook Frequency Generator
W48S87-72
Pin Definitions
Pin Name
CPU0:3
PCI0:5
PCI_F
SDRAM0:5
SDRAM6/
CPU_STOP#
SDRAM7/
PCI_STOP#
IOAPIC
48/24MHz
REF0:1
CPU_2.5#
60/66_SEL
X1
X2
Pin
No.
42, 41, 39,
38
9, 11, 12,
13, 14, 16
8
36, 35, 33,
32, 30, 29
27
26
45
22, 23
2, 1
47
18
4
5
Pin
Type
O
O
O
O
I/O
I/O
O
O
O
I
I
I
I
Pin Description
CPU Outputs 0 through 3: These four CPU outputs are controlled by the
CPU_STOP# control pin. Output voltage swing is controlled by voltage applied
to VDDQ2.
PCI Bus Outputs 0 through 5: These six PCI outputs are controlled by the
PCI_STOP# control pin. Output voltage swing is controlled by voltage applied
to VDDQ3.
Free Running PCI Output: Unlike PCI0:5 outputs, this output is not controlled
by the PCI_STOP# control pin. Output voltage swing is controlled by voltage
applied to VDDQ3.
SDRAM Clock Outputs 0 through 5: These six SDRAM clock outputs run
synchronous to the CPU clock outputs. Output voltage swing is controlled by
voltage applied to VDDQ3.
SDRAM Clock Output 6 or CPU Clock Output Stop Control: This pin has
dual functions, selectable by the MODE input pin. When MODE = 0, this pin
becomes the CPU_STOP# input. When MODE = 1, this pin becomes SDRAM
clock output 6.
Regarding use as a CPU_STOP# input: When brought LOW, clock outputs
CPU0:3 are stopped LOW after completing a full clock cycle (2–3 CPU clock
latency). When brought HIGH, clock outputs CPU0:3 are started beginning with
a full clock cycle (2–3 CPU clock latency).
Regarding use as a SDRAM clock: Output voltage swing is controlled by voltage
applied to VDDQ3.
SDRAM Clock Output 7 or PCI Clock Output Stop Control: This pin has
dual functions, selectable by the MODE input pin. When MODE = 0, this pin
becomes the PCI_STOP# input. When MODE = 1, this pin becomes SDRAM
clock output 7.
PCI_STOP# input: When brought LOW, clock outputs PCI0:5 are stopped LOW
after completing a full clock cycle. When brought HIGH, clock outputs PCI0:5
are started beginning with a full clock cycle. Clock latency provides one PCI_F
rising edge of PCI clock following PCI_STOP# state change.
Regarding use as a SDRAM clock: Output voltage swing is controlled by voltage
applied to VDDQ3.
I/O APIC Clock Output: Provides 14.318-MHz fixed frequency. The output
voltage swing is controlled by VDDQ2.
48-MHz / 24-MHz Output: Fixed clock outputs that default to 48 MHz following
device power-up. Either or both can be changed to 24 MHz through use of the
serial data interface (Byte 0, bits 2 and 3). Output voltage swing is controlled
by voltage applied to VDDQ3
Fixed 14.318-MHz Outputs 0 through 1: Used for various system applica-
tions. Output voltage swing is controlled by voltage applied to VDDQ3. REF0
is stronger than REF1 and should be used for driving ISA slots.
Set to logic 0 for VDDQ2 = 2.5V (0 to 2.5V CPU output swing).
60- or 66-MHz Input Selection: Selects power-up default CPU clock frequency
as shown in Table 1 on page 1 (also determines SDRAM and PCI clock fre-
quency selections). Can be used to change CPU clock frequency while device
is in operation if serial data port bits 0–2 of Byte 7 are logic 1 (default power-
up condition).
Crystal Connection or External Reference Frequency Input: This pin has
dual functions. It can be used as an external 14.318-MHz crystal connection
or as an external reference frequency input.
Crystal Connection: An input connection for an external 14.318-MHz crystal.
If using an external reference, this pin must be left unconnected.
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