CYPRESS W215B

PRELIMINARY
W215B
Notebook PC System Frequency Generator for K6 Processors
Features
Table 1. Pin Selectable Frequency
• Generates system clocks for CPU, IOAPIC, SDRAM,
PCI, USB plus 14.318 MHz (REF0:1)
• MODE input pin selects optional power management
input control pins (reconfigures pins 26 and 27)
• Two fixed outputs separately selectable as 24-MHz or
48-MHz (default = 48-MHz)
• VDDQ3 = 3.3V±5%, VDDQ2 = 3.3V±5%
• Uses external 14.318-MHz crystal
• Available in 48-pin TSSOP (6.1-mm)
• 10Ω CPU output impedance
95/100_SEL
Block Diagram
CPU, SDRAM
Clocks (MHz)
PCI Clocks
0
95.0
CPU/3
1
100.0
CPU/3
Pin Configuration
VDDQ3
REF0
X1
X2
REF1
XTAL
OSC
PLL Ref Freq
VDDQ2
IOAPIC
VDDQ2
CPU1
www.DataSheet4U.com
MODE
I/O
Control
CPU2
Stop
Output
Control
CPU3
VDDQ3
SDRAM0
SDRAM1
SDRAM2
95/100_SEL
SDRAM3
PLL 1
SDRAM4
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
W215B
CPU0
CPU_2.5#
REF1
REF0
GND
X1
X2
MODE
VDDQ3
PCI_F
PCI0
GND
PCI1
PCI2
PCI3
PCI4
VDDQ3
PCI5
GND
95/100_SEL
Reserved
Reserved
VDDQ3
48/24MHZ
48/24MHZ
GND
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
VDDQ3
CPU_2.5#
VDDQ2
IOAPIC
PWR_DWN#
GND
CPU0
CPU1
VDDQ2
CPU2
CPU3
GND
SDRAM0
SDRAM1
VDDQ3
SDRAM2
SDRAM3
GND
SDRAM4
SDRAM5
VDDQ3
SDRAM6/CPU_STOP#
SDRAM7/PCI_STOP#
VDDQ3
SDRAM5
SDRAM6/CPUSTOP#
SDRAM7/PCISTOP#
PCI_F
PCI0
Stop
Output
Control
PCI1
PCI2
Power
Down
Control
PWR_DWN#
PCI3
PCI4
PCI5
PLL2
48/24MHZ
48/24MHZ
Cypress Semiconductor Corporation
Document #: 38-07222 Rev. *A*
•
3901 North First Street
•
San Jose
•
CA 95134 • 408-943-2600
Revised December 15, 2002
PRELIMINARY
W215B
Pin Definitions
Pin
No.
Pin
Type
CPU0:3
42, 41, 39,
38
O
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.
PCI0:5
9, 11, 12, 13,
14, 16
O
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.
PCI_F
8
O
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.
36, 35, 33,
32, 30, 29
O
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.
SDRAM6/
CPU_STOP#
27
I/O
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.
SDRAM7/
PCI_STOP#
26
I/O
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.
IOAPIC
45
O
I/O APIC Clock Output: Provides 14.318-MHz fixed frequency. The output voltage
swing is controlled by VDDQ2.
22, 23
O
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
REF0:1
2, 1
O
Fixed 14.318-MHz Outputs 0 through 1: Used for various system applications. Output voltage swing is controlled by voltage applied to VDDQ3. REF0 is stronger than
REF1 and should be used for driving ISA slots.
CPU_2.5#
47
I
Set to logic 1 for 3.3V CPU I/O.
95/100_SEL
18
I
95- or 100-MHz Input Selection: Selects power-up default CPU clock frequency as
shown in Table 1 on page 1 (also determines SDRAM and PCI clock frequency selections).
X1
4
I
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.
X2
5
I
Crystal Connection: An input connection for an external 14.318-MHz crystal. If using
an external reference, this pin must be left unconnected.
Pin Name
SDRAM0:5
www.DataSheet4U.com
48/24MHz
Document #: 38-07222 Rev. *A*
Pin Description
Page 2 of 14
PRELIMINARY
W215B
Pin Definitions
Pin Name
Pin
No.
Pin
Type
PWR_DWN#
44
I
Power-Down Control: When this input is LOW, device goes into a low-power standby
condition. All outputs are actively held LOW while in power-down. CPU, SDRAM, and
PCI clock outputs are stopped LOW after completing a full clock cycle (2–4 CPU clock
cycle latency). When brought HIGH, CPU, SDRAM, and PCI outputs start with a full
clock cycle at full operating frequency (3 ms maximum latency).
MODE
6
I
Mode Control: This input selects the function of device pin 26 (SDRAM7/PCI_STOP#)
and pin 27 (SDRAM6/CPU_STOP#). Refer to description for those pins.
VDDQ3
7, 15, 21, 25
28, 34, 48
P
Power Connection: Power supply for PCI0:5, REF0:1, and 48-/24-MHz output buffers. Connected to 3.3V supply.
VDDQ2
46, 40
P
Power Connection: Power supply for IOAPIC0, CPU0:3 output buffer. Connected to
3.3V supply.
3, 10, 17,
24, 31, 37,
43
G
Ground Connection: Connect all ground pins to the common system ground plane.
19, 20
I
Reserved Pins: Connect to Logic 1.
GND
Reserved
Pin Description
www.DataSheet4U.com
Document #: 38-07222 Rev. *A*
Page 3 of 14
www.DataSheet4U.com
PRELIMINARY
W215B
Absolute Maximum Ratings[1]
Stresses greater than those listed in this table may cause permanent damage to the device. These represent a stress rating
only. Operation of the device at these or any other conditions
Parameter
above those specified in the operating sections of this specification is not implied. Maximum conditions for extended periods may affect reliability.
Description
Rating
Unit
VDD, VIN
Voltage on any pin with respect to GND
–0.5 to +7.0
V
TSTG
Storage Temperature
–65 to +150
°C
TB
Ambient Temperature under Bias
–55 to +125
°C
TA
Operating Temperature
0 to +70
°C
ESDPROT
Input ESD Protection
2 (min.)
kV
DC Electrical Characteristics
TA = 0°C to +70°C, VDDQ3 = 3.3V±5% (3.135–3.465V), fXTL = 14.31818 MHz, VDDQ2 = 3.3V±5%
Parameter
Description
Test Condition
Min.
Typ.
Max.
Unit
Supply Current
IDDQ3
Supply Current (3.3V)
CPU0:3 = 100 MHz
Outputs Loaded[2]
150
mA
IDDQ2
Supply Current (3.3V)
CPU0:3 = 100 MHz
Outputs Loaded[2]
80
mA
Logic Inputs
VIL
Input Low Voltage
0.8
V
VIH
Input High Voltage
IIL
Input Low Current[3]
10
µA
IIH
Input High Current[3]
10
µA
50
mV
2.0
V
Clock Outputs
VOL
Output Low Voltage
IOL = 2 mA
VOH
Output High Voltage
IOH = –1 mA
IOL
Output Low Current
IOH
Output High Current
3.1
V
CPU0:3
VOL = 1.5V
140
mA
SDRAM0:7
VOL = 1.5V
110
mA
PCI_F, PCI0:5
VOL = 1.5V
110
mA
IOAPIC
VOL = 1.5V
95
mA
REF0
VOL = 1.5V
75
mA
REF1
VOL = 1.5V
70
mA
48/24MHZ
VOL = 1.5V
70
mA
CPU0:3
VOL = 1.5V
120
mA
SDRAM0:7
VOL = 1.5V
95
mA
PCI_F, PCI0:5
VOL = 1.5V
95
mA
IOAPIC
VOL = 1.5V
95
mA
REF0
VOL = 1.5V
80
mA
REF1
VOL = 1.5V
62
mA
48/24MHZ
VOL = 1.5V
60
mA
Notes:
1. Multiple Supplies: The voltage on any input or I/O pin cannot exceed the power pin during power-up. Power supply sequencing is NOT required.
2. All clock outputs loaded with maximum lump capacitance test load specified in AC Electrical Characteristics section.
3. W215B logic inputs have internal pull-up devices (not CMOS level).
Document #: 38-07222 Rev. *A*
Page 4 of 14
PRELIMINARY
W215B
DC Electrical Characteristics (continued)
TA = 0°C to +70°C, VDDQ3 = 3.3V±5% (3.135–3.465V), fXTL = 14.31818 MHz, VDDQ2 = 3.3V±5%
Parameter
Description
Test Condition
Min.
Typ.
Max.
Unit
Crystal Oscillator
VTH
X1 Input Threshold Voltage[4]
CLOAD
Load Capacitance, Imposed on External
Crystal[5]
CIN,X1
X1 Input Capacitance[6]
VDDQ3 = 3.3V
1.65
V
14
pF
28
pF
Pin X2 unconnected
Pin Capacitance/Inductance
CIN
Input Pin Capacitance
5
pF
COUT
Output Pin Capacitance
6
pF
LIN
Input Pin Inductance
7
nH
Except X1 and X2
Notes:
4. X1 input threshold voltage (typical) is VDDQ3/2.
5. The W215B contains an internal crystal load capacitor between pin X1 and ground and another between pin X2 and ground. Total load placed on crystal is
14 pF; this includes typical stray capacitance of short PCB traces to crystal.
6. X1 input capacitance is applicable when driving X1 with an external clock source (X2 is left unconnected).
AC Electrical Characteristics (Lump Load Model)
TA = 0°C to +70°C, VDDQ3 = 3.3V±5% (3.135–3.465V) fXTL = 14.31818 MHz, VDDQ2 = 3.3V±5%
AC clock parameters are tested and guaranteed over stated operating conditions using the stated lump capacitive load at the
clock output.
Test Point
www.DataSheet4U.com
FTG
*20pF for CPU, REF1, IOAPIC,
24MHz & 48MHz
*30pF for SDRAM & PCI
CPU Clock Outputs, CPU0:3 (Lump Capacitance Test Load = 20 pF)
CPU = 100 MHz
Parameter
Description
Test Condition/Comments
Min.
Typ.
Max.
Unit
tP
Period
Measured on rising edge at 1.5V
10
ns
f
Frequency, Actual
Determined by PLL divider ratio
100
MHz
tH
High Time
Duration of clock cycle above 2.4V
5
ns
tL
Low Time
Duration of clock cycle below 0.4V
5
ns
tR
Output Rise Edge Rate
Measured from 0.4V to 2.4V
1
4
V/ns
tF
Output Fall Edge Rate
Measured from 2.4V to 0.4V
1
4
V/ns
tD
Duty Cycle
Measured on rising and falling edge at 1.5V
45
55
%
tJC
Jitter, Cycle-to-Cycle
Measured on rising edge at 1.5V. Maximum difference of cycle time between two adjacent cycles.
500
ps
tSK
Output Skew
Measured on rising edge at 1.5V
250
ps
fST
Frequency Stabilization from
Power-up (cold start)
Assumes full supply voltage reached within 1 ms
from power-up. Short cycles exist prior to frequency
stabilization.
3
ms
Zo
AC Output Impedance
Average value during switching transition. Used for
determining series termination value.
Document #: 38-07222 Rev. *A*
50
10
Ω
Page 5 of 14
www.DataSheet4U.com
PRELIMINARY
W215B
SDRAM Clock Outputs, SDRAM0:7 (Lump Capacitance Test Load = 30 pF)
CPU = 100 MHz
Parameter
Description
Test Condition/Comments
Min.
Typ.
Max.
Unit
tP
Period
Measured on rising edge at 1.5V
10
ns
f
Frequency, Actual
Determined by PLL divider ratio
100
MHz
tR
Output Rise Edge Rate
Measured from 0.4V to 2.4V
tF
Output Fall Edge Rate
Measured from 2.4V to 0.4V
1
tD
Duty Cycle
Measured on rising and falling edge at 1.5V
45
tJC
Jitter, Cycle-to-Cycle
Measured on rising edge at 1.5V. Maximum difference of cycle time between two adjacent cycles.
tSK
Output Skew
Measured on rising edge at 1.5V
tSK
CPU to SDRAM Clock Skew
Covers all CPU/SDRAM outputs. Measured on
rising edge at 1.5V.
fST
Frequency Stabilization from
Power-up (cold start)
Assumes full supply voltage reached within 1 ms
from power-up. Short cycles exist prior to frequency
stabilization.
Zo
AC Output Impedance
Average value during switching transition. Used for
determining series termination value.
1
50
4
V/ns
4
V/ns
55
%
500
ps
100
ps
1.5
ns
3
ms
Ω
16
PCI Clock Outputs, PCI0:5 (Lump Capacitance Test Load = 30 pF)
CPU = 100 MHz
Parameter
Description
Test Condition/Comments
Min.
Typ.
Max.
Unit
tP
Period
Measured on rising edge at 1.5V
30
ns
f
Frequency, Actual
Determined by PLL divider ratio
33.3
MHz
tH
High Time
Duration of clock cycle above 2.4V
12
ns
tL
Low Time
Duration of clock cycle below 0.4V
12
ns
tR
Output Rise Edge Rate
1
4
V/ns
tF
Output Fall Edge Rate
1
4
V/ns
tD
Duty Cycle
Measured on rising and falling edge at 1.5V
tJC
Jitter, Cycle-to-Cycle
Measured on rising edge at 1.5V. Maximum
difference of cycle time between two adjacent cycles.
tSK
Output Skew
Measured on rising edge at 1.5V
tO
CPU to PCI Clock Skew
Covers all CPU/PCI outputs. Measured on rising
edge at 1.5V. CPU leads PCI output.
fST
Frequency Stabilization
from Power-up (cold
start)
Assumes full supply voltage reached within 1 ms
from power-up. Short cycles exist prior to frequency
stabilization.
Zo
AC Output Impedance
Average value during switching transition. Used for
determining series termination value.
Document #: 38-07222 Rev. *A*
45
50
1
15
55
%
500
ps
250
ps
4
ns
3
ms
Ω
Page 6 of 14
www.DataSheet4U.com
PRELIMINARY
W215B
I/O APIC Clock Output (Lump Capacitance Test Load = 20 pF)
CPU = 100 MHz
Parameter
Description
Test Condition/Comments
f
Frequency, Actual
tR
Output Rise Edge Rate
tF
Output Fall Edge Rate
tD
Duty Cycle
Measured on rising and falling edge at 1.5V
fST
Frequency Stabilization
from Power-up (cold start)
Assumes full supply voltage reached within
1 ms from power-up. Short cycles exist prior to
frequency stabilization.
Zo
AC Output Impedance
Average value during switching transition.
Used for determining series termination value.
Min.
Frequency generated by crystal oscillator
Typ.
Max.
14.31818
1
1
45
50
Unit
MHz
4
V/ns
4
V/ns
55
%
1.5
ms
Ω
15
REF0 Clock Output (Lump Capacitance Test Load = 45 pF)
CPU = 100 MHz
Parameter
Description
Test Condition/Comments
Min.
Frequency generated by crystal oscillator
Typ.
Max.
14.318
Unit
f
Frequency, Actual
tR
Output Rise Edge Rate
1
4
V/ns
tF
Output Fall Edge Rate
1
4
V/ns
tD
Duty Cycle
Measured on rising and falling edge at 1.5V
fST
Frequency Stabilization from
Power-up (cold start)
Assumes full supply voltage reached within 1 ms
from power-up. Short cycles exist prior to
frequency stabilization.
Zo
AC Output Impedance
Average value during switching transition. Used
for determining series termination value.
45
50
MHz
55
%
1.5
ms
Ω
16
REF1 Clock Output (Lump Capacitance Test Load = 20 pF)
CPU = 100 MHz
Parameter
Description
Test Condition/Comments
Min.
Max.
14.318
Unit
Frequency, Actual
tR
Output Rise Edge Rate
0.5
2
V/ns
tF
Output Fall Edge Rate
0.5
2
V/ns
tD
Duty Cycle
Measured on rising and falling edge at 1.5V
fST
Frequency Stabilization from
Power-up (cold start)
Assumes full supply voltage reached within 1 ms
from power-up. Short cycles exist prior to
frequency stabilization.
Zo
AC Output Impedance
Average value during switching transition. Used
for determining series termination value.
Document #: 38-07222 Rev. *A*
Frequency generated by crystal oscillator
Typ.
f
45
25
MHz
55
%
1.5
ms
Ω
Page 7 of 14
PRELIMINARY
W215B
48-/24-MHz Clock Output (Lump Capacitance Test Load = 20 pF)
CPU = 100 MHz
Parameter
Description
Test Condition/Comments
Min.
Typ.
Max.
Unit
m/n
PLL Ratio
57/17
tR
Output Rise Edge Rate
0.5
2
V/ns
tF
Output Fall Edge Rate
0.5
2
V/ns
tD
Duty Cycle
Measured on rising and falling edge at 1.5V
55
%
fST
Frequency Stabilization
from Power-up (cold start)
Assumes full supply voltage reached within 1 ms
from power-up. Short cycles exist prior to frequency stabilization.
3
ms
Zo
AC Output Impedance
Average value during switching transition. Used
for determining series termination value.
45
50
Ω
25
AC Electrical Characteristics (Transmission Line Model)
TA = 0°C to +70°C, VDDQ3 = 3.3V±5% (3.135–3.465V), fXTL = 14.31818 MHz, VDDQ2 = 3.3±5%
AC clock parameters are tested and guaranteed over stated operating conditions using the stated transmission line load at the
clock output.
22 Ohm
6 inches 60 Ohm trace
www.DataSheet4U.com
FTG
CPU Clock Outputs, CPU0:3 (Test Load: R = 33Ω; C = 22 pF)
CPU = 100 MHz
Parameter
Description
Test Condition/Comments
Min.
Typ.
Max.
Unit
tP
Period
Measured on rising edge at 1.5V
10
ns
f
Frequency, Actual
Determined by PLL divider ratio
100
MHz
tH
High Time
Duration of clock cycle above 2.4V
5
ns
tL
Low Time
Duration of clock cycle below 0.4V
5
ns
tR
Output Rise Edge Rate
Measured from 0.4V to 2.4V
1
4
V/ns
tF
Output Fall Edge Rate
Measured from 2.4V to 0.4V
1
4
V/ns
tD
Duty Cycle
Measured on rising and falling edge at 1.5V
45
55
%
tJC
Jitter, Cycle-to-Cycle
Measured on rising edge at 1.5V. Maximum difference of cycle time between two adjacent cycles.
250
ps
tSK
Output Skew
Measured on rising edge at 1.5V
250
ps
fST
Frequency Stabilization from
Power-up (cold start)
Assumes full supply voltage reached within 1 ms
from power-up. Short cycles exist prior to frequency
stabilization.
3
ms
Zo
AC Output Impedance
Average value during switching transition. Used for
determining series termination value.
Document #: 38-07222 Rev. *A*
50
10
Ω
Page 8 of 14
www.DataSheet4U.com
PRELIMINARY
W215B
SDRAM Clock Outputs, SDRAM0:7 (Test Load: R = 22Ω; C = 22 pF)
CPU = 100 MHz
Parameter
Description
Test Condition/Comments
Min.
Typ.
Max.
Unit
tP
Period
Measured on rising edge at 1.5V
10
ns
f
Frequency, Actual
Determined by PLL divider ratio
100
MHz
tR
Output Rise Edge Rate
Measured from 0.4V to 2.4V
tF
Output Fall Edge Rate
Measured from 2.4V to 0.4V
1
tD
Duty Cycle
Measured on rising and falling edge at 1.5V
45
tJC
Jitter, Cycle-to-Cycle
Measured on rising edge at 1.5V. Maximum difference of cycle time between two adjacent cycles.
tSK
Output Skew
Measured on rising edge at 1.5V
tSK
CPU to SDRAM Clock Skew
Covers all CPU/SDRAM outputs. Measured on
rising edge at 1.5V.
fST
Frequency Stabilization from
Power-up (cold start)
Assumes full supply voltage reached within 1 ms
from power-up. Short cycles exist prior to frequency
stabilization.
Zo
AC Output Impedance
Average value during switching transition. Used for
determining series termination value.
1
50
4
V/ns
4
V/ns
55
%
250
ps
100
ps
850
ps
3
ms
Ω
16
PCI Clock Outputs, PCI0:5 (Test Load: R = 22Ω; C = 22 pF)
CPU = 100 MHz
Parameter
Description
Test Condition/Comments
Min.
Typ.
Max.
Unit
tP
Period
Measured on rising edge at 1.5V
30
ns
f
Frequency, Actual
Determined by PLL divider ratio
33.3
MHz
tH
High Time
Duration of clock cycle above 2.4V
12
ns
tL
Low Time
Duration of clock cycle below 0.4V
12
ns
tR
Output Rise Edge Rate
1
4
V/ns
tF
Output Fall Edge Rate
1
4
V/ns
tD
Duty Cycle
Measured on rising and falling edge at 1.5V
tJC
Jitter, Cycle-to-Cycle
Measured on rising edge at 1.5V. Maximum
difference of cycle time between two adjacent cycles.
tSK
Output Skew
Measured on rising edge at 1.5V
tO
CPU to PCI Clock Skew
Covers all CPU/PCI outputs. Measured on rising
edge at 1.5V. CPU leads PCI output.
fST
Frequency Stabilization
from Power-up (cold
start)
Assumes full supply voltage reached within 1 ms
from power-up. Short cycles exist prior to frequency
stabilization.
Zo
AC Output Impedance
Average value during switching transition. Used for
determining series termination value.
Document #: 38-07222 Rev. *A*
45
50
1
15
55
%
250
ps
250
ps
4
ns
3
ms
Ω
Page 9 of 14
www.DataSheet4U.com
PRELIMINARY
W215B
I/O APIC Clock Output (Test Load: R = 33Ω; C = 22 pF)
CPU = 100 MHz
Parameter
Description
Test Condition/Comments
f
Frequency, Actual
tR
Output Rise Edge Rate
tF
Output Fall Edge Rate
tD
Duty Cycle
Measured on rising and falling edge at 1.5V
fST
Frequency Stabilization
from Power-up (cold start)
Assumes full supply voltage reached within
1 ms from power-up. Short cycles exist prior to
frequency stabilization.
Zo
AC Output Impedance
Average value during switching transition.
Used for determining series termination value.
Min.
Frequency generated by crystal oscillator
Typ.
Max.
14.31818
1
1
45
50
Unit
MHz
4
V/ns
4
V/ns
55
%
1.5
ms
Ω
15
REF0 Clock Output (Test Load: R = 33Ω; C = 22 pF)
CPU = 100 MHz
Parameter
Description
Test Condition/Comments
Min.
Typ.
Max.
14.318
Unit
f
Frequency, Actual
Frequency generated by crystal oscillator
tR
Output Rise Edge Rate
Measured from 0.4V to 2.4V
1
4
V/ns
tF
Output Fall Edge Rate
Measured from 2.4V to 0.4V
1
4
V/ns
tD
Duty Cycle
Measured on rising and falling edge at 1.5V
45
fST
Frequency Stabilization from
Power-up (cold start)
Assumes full supply voltage reached within 1 ms
from power-up. Short cycles exist prior to
frequency stabilization.
Zo
AC Output Impedance
Average value during switching transition. Used
for determining series termination value.
50
MHz
55
%
1.5
ms
Ω
16
REF1 Clock Output (Lump Capacitance Test Load = 20 pF)
CPU = 100 MHz
Parameter
Description
Test Condition/Comments
Min.
Max.
14.318
Unit
Frequency, Actual
tR
Output Rise Edge Rate
0.5
2
V/ns
tF
Output Fall Edge Rate
0.5
2
V/ns
tD
Duty Cycle
Measured on rising and falling edge at 1.5V
fST
Frequency Stabilization from
Power-up (cold start)
Assumes full supply voltage reached within 1 ms
from power-up. Short cycles exist prior to
frequency stabilization.
Zo
AC Output Impedance
Average value during switching transition. Used
for determining series termination value.
Document #: 38-07222 Rev. *A*
Frequency generated by crystal oscillator
Typ.
f
45
25
MHz
55
%
1.5
ms
Ω
Page 10 of 14
PRELIMINARY
W215B
48-/24-MHz Clock Output (Test Load: R = 33Ω; C = 22 pF)
CPU = 100 MHz
Parameter
Description
Test Condition/Comments
Min.
Typ.
Max.
Unit
m/n
PLL Ratio
57/17
tR
Output Rise Edge Rate
0.5
2
V/ns
tF
Output Fall Edge Rate
0.5
2
V/ns
tD
Duty Cycle
Measured on rising and falling edge at 1.5V
55
%
fST
Frequency Stabilization
from Power-up (cold start)
Assumes full supply voltage reached within 1 ms
from power-up. Short cycles exist prior to frequency stabilization.
3
ms
Zo
AC Output Impedance
Average value during switching transition. Used
for determining series termination value.
45
50
25
Ω
Ordering Information
Ordering Code
Package
Name
W215B
X
Package Type
48-pin TSSOP (6.1 mm)
www.DataSheet4U.com
Document #: 38-07222 Rev. *A*
Page 11 of 14
PRELIMINARY
W215B
Layout Example
+2.5V Supply
+3.3V Supply
FB
FB
VDDQ2
VDDQ3
0.005 µF
10 µF
G
G
C1
G
C2
C4
G
G
VDDQ3
5Ω
C5 G
G C6
0.005 µF
G
G
1 G
2
3
4
5 G
6
7 V
8 G
9
10 G
11
12
13
14 G
15 V
16 G
17
18
19
20 G
21
22
23
24 G
C2
48
47
V 46
G
45
44
43
42
G
41
V 40
G 39
38
37
36
G 35
VDDQ3
V
Core 34
G 33
32
G
31
30
G 29
V 28
G
27
26
V
25
G
G
G
G
W215B
www.DataSheet4U.com
10 µF
C1
C3
G
G
G
FB = Dale ILB1206 - 300 (300Ω @ 100 MHz)
C1 & C3 = 10–22 µF
C2 & C4 = 0.005 µF
G = VIA to GND plane layer
C5 = 47 µF
C6 = 0.1 µF
V =VIA to respective supply plane layer
Note: Each supply plane or strip should have a ferrite bead and capacitors
Document #: 38-07222 Rev. *A*
Page 12 of 14
PRELIMINARY
W215B
Package Diagram
48-Pin Small Shrink Outline Package (TSSOP, 6.1 mm)
www.DataSheet4U.com
Document #: 38-07222 Rev. *A*
Page 13 of 14
© Cypress Semiconductor Corporation, 2001. The information contained herein is subject to change without notice. Cypress Semiconductor Corporation assumes no responsibility for the use
of any circuitry other than circuitry embodied in a Cypress Semiconductor product. Nor does it convey or imply any license under patent or other rights. Cypress Semiconductor does not authorize
its products for use as critical components in life-support systems where a malfunction or failure may reasonably be expected to result in significant injury to the user. The inclusion of Cypress
Semiconductor products in life-support systems application implies that the manufacturer assumes all risk of such use and in doing so indemnifies Cypress Semiconductor against all charges.
PRELIMINARY
W215B
Document Title: W215B Notebook PC System Frequency Generator for K6 Processors
Document Number: 38-07222
REV.
ECN NO.
Issue
Date
Orig. of
Change
**
110487
10/21/01
SZV
Change from Spec number: 38-00886 to 38-07222
*A
122839
12/15/02
RBI
Added power-up requirements to maximum ratings information.
Description of Change
www.DataSheet4U.com
Document #: 38-07222 Rev. *A*
Page 14 of 14