CYPRESS CY28301PVC

CY28301
Frequency Generator for Intel® Integrated Chipset
Features
Key Specifications
• Single chip FTG solution for Intel® Solano/810E/810
• Support SMBus byte Read/Write and block Read/Write
operations to simplify system BIOS development
• Vendor ID and revision ID support
• Maximized EMI suppression using Cypress’s Spread
Spectrum technology
• Low jitter and tightly controlled clock skew
• Two copies of CPU clock
• Thirteen copies of SDRAM clock
• Eight copies of PCI clock
• One copy of synchronous APIC clock
• Three copies of 66-MHz outputs
• Two copies of 48-MHz outputs
• One copy of 14.31818-MHz reference clock
CPU, SDRAM Outputs Cycle-to-Cycle Jitter: .............250 ps
APIC, 48-MHz, 3V66, PCI Outputs
Cycle-to-Cycle Jitter: ................................................... 500 ps
CPU, 3V66 Output Skew:............................................ 175 ps
SDRAM, APIC, 48-MHz Output Skew: ........................250 ps
PCI Output Skew:........................................................ 500 ps
CPU to SDRAM Skew (@ 133 MHz) ......................... ±0.5 ns
CPU to SDRAM Skew (@ 100 MHz)..................4.5 to 5.5 ns
CPU to 3V66 Skew (@ 66 MHz) ........................7.0 to 8.0 ns
3V66 to PCI Skew (3V66 lead)...........................1.5 to 3.5 ns
PCI to APIC Skew ...................................................... ±0.5 ns
Pin Configuration[1]
Block Diagram
VDD_REF
X1
X2
PLL REF FREQ
SDATA
SCLK
SMBus
Logic
Divider,
Delay, and
Phase
Control
Logic
(FS0:4)
PLL 1
PD#
PLL2
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
CY28301
VDD_REF
X1
X2
GND_REF
VDD_CPU
GND_3V66
3V66_0
CPU0:1
3V66_1
2
3V66_2
VDD_3V66
VDD_APIC
VDD_PCI
APIC
PCI0
PCI1
VDD_3V66
PCI2/SEL24_48MHz#*
3V66_0:2
GND_PCI
3
VDD_PCI
PCI3
PCI4
PCI0
PCI5
PCI1
VDD_PCI
PCI2/SEL24_48MHz#*
PCI6
PCI3:7
5
PCI7
GND_PCI
VDD_SDRAM
PD#*
SDRAM0:11,
SCLK
13
SDRAM_F
SDATA
VDD_SDRAM
SDRAM11
SDRAM10
VDD_48MHz
GND_SDRAM
REF/FS1
XTAL
OSC
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
REF/FS1*
VDD_APIC
APIC
VDD_CPU
CPU0
CPU1
GND_CPU
GND_SDRAM
SDRAM0
SDRAM1
SDRAM2
VDD_SDRAM
SDRAM3
SDRAM4
SDRAM5
GND_SDRAM
SDRAM6
SDRAM7
SDRAM_F
VDD_SDRAM
GND_48MHz
24_48MHz
48MHz/FS0*
VDD_48MHz
VDD_SDRAM
SDRAM8
SDRAM9
GND_SDRAM
48MHz/FS0
24_48MHz
/2
Cypress Semiconductor Corporation
Document #: 38-07011 Rev. *C
•
Note:
1. Internal 100K pull-up resistors present on inputs marked with *. Design
should not rely solely on internal pull-up resistor to set I/O pins HIGH.
3901 North First Street
•
San Jose
•
CA 95134 • 408-943-2600
Revised September 24, 2002
CY28301
Pin Definitions
Pin No.
Pin
Type
REF/FS1
56
I/O
Reference Clock /Frequency Select 1: 3.3V 14.318-MHz clock output.
This pin also serves as the select strap to determine the device operating
frequency (as described in Table 5).
X1
2
I
Crystal 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
3
O
Crystal Output: An input connection for an external 14.318-MHz crystal
connection. If using an external reference, this pin must be left
unconnected.
PCI0
11
O
PCI Clock 0: 3.3V 33-MHz PCI clock output.
PCI1
12
O
PCI Clock 1: 3.3V 33-MHz PCI clock output.
PCI2/SEL24_48MHz#
13
O
PCI Clock 2/Select 24 or 48 MHz: 3.3V 33-MHz PCI clock outputs. This
pin also serves as the select strap to determine the output frequency for
24_48MHz output. Logic 1 = 24 MHz on pin 35.
15, 16, 17, 19,
20
O
PCI Clock 3 through 7: 3.3V 33-MHz PCI clock outputs. PCI0:7 can be
individually turned off via the SMBus interface.
6, 7, 8
O
66-MHz Clock Output: 3.3V output clocks. The operating frequency is
controlled by FS0:1 (see Table 5).
48MHz/FS0
34
I/O
48-MHz Output/Frequency Selection 1: 3.3V 48-MHz non-spread
spectrum output. This pin also serves as the select strap to determine the
device operating frequency (as described in Table 5.)
24_48MHz
35
O
24- or 48-MHz Output: 3.3V 24- or 48-MHz non-spread spectrum output.
PD#
22
I
Power-down Input: LVTTL-compatible asynchronous input that places
the device in power-down mode when held LOW.
52, 51
O
CPU Clock Outputs: Clock outputs for the host bus interface. Output
frequencies depending on the configuration of FS0:1. Voltage swing is set
by VDDQ2.
48, 47, 46, 44,
43, 42, 40, 39,
31, 30, 27, 26,
38
O
SDRAM Clock Outputs: 3.3V outputs for SDRAM and chipset. The
operating frequency is controlled by FS0:1 (see Table 5).
APIC
54
O
Synchronous APIC Clock Outputs: Clock outputs running synchronous
with the PCI clock outputs. Voltage swing set by VDDQ2.
SDATA
24
I/O
Data pin for SMBus circuitry.
SCLK
23
I
Clock pin for SMBus circuitry.
1, 9, 10, 18, 25,
32, 37, 45, 33
P
3.3V Power Connection: Power supply for SDRAM output buffers, PCI
output buffers, reference output buffers, and 48-MHz output buffers.
Connect to 3.3V.
53, 55
P
2.5V Power Connection: Power supply for APIC and CPU output buffers.
Connect to 2.5V.
4, 5, 14, 21, 28,
29, 41, 49, 50,
36
G
Ground Connections: Connect all ground pins to the common system
ground plane.
Pin Name
PCI3:7
3V66_0:2
CPU0:1
SDRAM0:11,
SDRAM_F
VDD_REF,
VDD_3V66, VDD_PCI,
VDD_SDRAM,
VDD_48MHz
VDD_CPU,
VDD_APIC
GND_REF,
GND_3V66,
GND_PCI,
GND_SDRAM,
GND_48MHZ,
GND_CPU
Document #: 38-07011 Rev. *C
Pin Description
Page 2 of 15
CY28301
Serial Data Interface
The CY28301 features a two-pin, serial data interface that can
be used to configure internal register settings that control
particular device functions.
Data Protocol
The clock driver serial protocol supports byte/word Write,
byte/word Read, block Write, and block Read operations from
the controller. For block Write/Read operation, the bytes must
be accessed in sequential order from lowest to highest byte
with the ability to stop after any complete byte has been transferred. For byte/word Write and byte Read operations, the
system controller can access individual indexed bytes. The
offset of the indexed byte is encoded in the command code.
The definition for the command code is defined as follows.
Table 1. Command Code Definition
Bit
Descriptions
7
0 = Block Read or block Write operation
1 = Byte/Word Read or byte/word Write operation
6:0
Byte offset for byte/word Read or Write operation. For block Read or Write operations, these
bits need to be set at ‘0000000.’
Table 2. Block Read and Block Write Protocol
Block Write Protocol
Bit
1
2:8
Description
Start
Slave address – 7 bits
Block Read Protocol
Bit
1
2:8
Description
Start
Slave address – 7 bits
9
Write
9
Write
10
Acknowledge from slave
10
Acknowledge from slave
11:18
19
20:27
28
29:36
37
38:45
46
Command code – 8-bits
‘00000000’ stands for block operation
11:18
Command code – 8 bits
‘00000000’ stands for block operation
Acknowledge from slave
19
Acknowledge from slave
Byte count – 8 bits
20
Repeat start
Acknowledge from slave
21:27
Slave address – 7 bits
Data byte 0 – 8 bits
28
Read
Acknowledge from slave
29
Acknowledge from slave
Data byte 1 – 8 bits
Acknowledge from slave
...
Data byte N/Slave acknowledge...
...
Data byte N – 8 bits
...
Acknowledge from slave
...
Stop
Document #: 38-07011 Rev. *C
30:37
38
39:46
47
48:55
56
Byte count from slave –8 bits
Acknowledge
Data byte from slave – 8 bits
Acknowledge
Data byte from slave – 8 bits
Acknowledge
...
Data bytes from slave/acknowledge
...
Data byte N from slave – 8 bits
...
Not acknowledge
...
Stop
Page 3 of 15
CY28301
Table 3. Word Read and Word Write Protocol
Word Write Protocol
Bit
1
2:8
Description
Start
Word Read Protocol
Bit
1
Slave address – 7 bits
2:8
Description
Start
Slave address – 7 bits
9
Write
9
Write
10
Acknowledge from slave
10
Acknowledge from slave
11:18
19
20:27
28
29:36
Command Code – 8-bits
‘1xxxxxxx’ stands for byte or word operation
bit[6:0] of the command code represents the
offset of the byte to be accessed
11:18
Command code – 8 bits
‘1xxxxxxx’ stands for byte or word operation
bit[6:0] of the command code represents the
offset of the byte to be accessed
Acknowledge from slave
19
Acknowledge from slave
Data byte low – 8 bits
20
Repeat start
Acknowledge from slave
21:27
Slave address – 7 bits
Data byte high – 8 bits
28
Read
37
Acknowledge from slave
29
Acknowledge from slave
38
Stop
30:37
38
39:46
Data byte low from slave – 8 bits
Acknowledge
Data byte high from slave – 8 bits
47
Not acknowledge
48
Stop
Table 4. Byte Read and Byte Write Protocol
Byte Write Protocol
Bit
1
2:8
Description
Start
Slave address – 7 bits
Byte Read Protocol
Bit
1
2:8
Description
Start
Slave address – 7 bits
9
Write
9
Write
10
Acknowledge from slave
10
Acknowledge from slave
11:18
19
20:27
Command code 8 – bits
‘1xxxxxxx’ stands for byte operation
bit[6:0] of the command code represents the
offset of the byte to be accessed
11:18
Command code – 8 bits
‘1xxxxxxx’ stands for byte operation
bit[6:0] of the command code represents the
offset of the byte to be accessed
Acknowledge from slave
19
Acknowledge from slave
Data byte 8 – bits
20
Repeat start
28
Acknowledge from slave
29
Stop
21:27
Read
29
Acknowledge from slave
30:37
Document #: 38-07011 Rev. *C
Slave address – 7 bits
28
Data byte from slave – 8 bits
38
Not Acknowledge
39
Stop
Page 4 of 15
CY28301
CY28301 Serial Configuration Map
Byte 1 – Bits 7, 6, 5, 4, 3, 2, 1, 0
1. The serial bits will be read by the clock driver in the following
order:
Byte 0 – Bits 7, 6, 5, 4, 3, 2, 1, 0
Byte N – Bits 7, 6, 5, 4, 3, 2, 1, 0
2. All unused register bits (reserved and N/A) should be
written to a “0” level.
3. All register bits labeled “Initialize to 0" must be written to “0”
during initialization.
Byte 0: Control Register 0
Bit
Pin#
Name
Default
Description
Bit 7
–
SEL1
0
See 5
Bit 6
–
SEL0
0
See 5
Bit 5
–
Reserved
0
Reserved
Bit 4
–
Reserved
0
Reserved
Bit 3
–
FS_Override
0
0 = Select operating frequency by FS[1:0] input pins
1 = Select operating frequency by SEL[1:0] settings
Bit 2
–
Spread Select2
0
‘000’ = Normal (spread off)
Bit 1
–
Spread Select1
0
‘001’ = Test mode
Bit 0
–
Spread Select0
0
‘010’ = Reserved
‘011’ = Three-stated
‘100’ = –0.5%
‘101’ = –0.75%
‘110’ = –1.0%
‘111’ = –0.3%
Byte 1: Control Register 1
Bit
Pin#
Bit 7
56
Bit 6
Bit 5
Name
Default
Description
Latched FS1 input
X
34
Latched FS0 input
X
–
Reserved
0
Reserved
Bit 4
–
Reserved
0
Reserved
Bit 3
–
Reserved
0
Reserved
Bit 2
–
Reserved
0
Reserved
Bit 1
56
REF
1
(Active/Inactive)
Bit 0
56
REF_DRV
0
REF Clock output drive strength
0 = Normal
1= High drive
Document #: 38-07011 Rev. *C
Latched FS[1:0] inputs. These bits are Read-only.
Page 5 of 15
CY28301
Byte 2: Control Register 2
Bit
Pin#
Name
Default
Description
Bit 7
20
PCI7
1
(Active/Inactive)
Bit 6
19
PCI6
1
(Active/Inactive)
Bit 5
17
PCI5
1
(Active/Inactive)
Bit 4
16
PCI4
1
(Active/Inactive)
Bit 3
15
PCI3
1
(Active/Inactive)
Bit 2
13
PCI2
1
(Active/Inactive)
Bit 1
12
PCI1
1
(Active/Inactive)
Bit 0
11
PCI0
1
(Active/Inactive)
Byte 3: Control Register 3
Bit
Pin#
Name
Default
Description
Bit 7
8
3V66_2
1
(Active/Inactive)
Bit 6
7
3V66_1
1
(Active/Inactive)
Bit 5
6
3V66_0
1
(Active/Inactive)
Bit 4
54
APIC
1
(Active/Inactive)
Bit 3
–
Reserved
0
Reserved
Bit 2
–
Reserved
0
Reserved
Bit 1
51
CPU1
1
(Active/Inactive)
Bit 0
52
CPU0
1
(Active/Inactive)
Byte 4: Control Register 4
Bit
Pin#
Name
Default
Description
Bit 7
39
SDRAM7
1
(Active/Inactive)
Bit 6
40
SDRAM6
1
(Active/Inactive)
Bit 5
42
SDRAM5
1
(Active/Inactive)
Bit 4
43
SDRAM4
1
(Active/Inactive)
Bit 3
44
SDRAM3
1
(Active/Inactive)
Bit 2
46
SDRAM2
1
(Active/Inactive)
Bit 1
47
SDRAM1
1
(Active/Inactive)
Bit 0
48
SDRAM0
1
(Active/Inactive)
Byte 5: Control Register 5
Bit
Pin#
Name
Default
Description
Bit 7
–
Reserved
0
Reserved
Bit 6
–
Reserved
0
Reserved
Bit 5
–
Reserved
0
Reserved
Bit 4
38
SDRAM_F
1
(Active/Inactive)
Bit 3
26
SDRAM11
1
(Active/Inactive)
Bit 2
27
SDRAM10
1
(Active/Inactive)
Bit 1
30
SDRAM9
1
(Active/Inactive)
Bit 0
31
SDRAM8
1
(Active/Inactive)
Document #: 38-07011 Rev. *C
Page 6 of 15
CY28301
Byte 6: Vendor ID and Revision ID Register (Read-only)
Bit
Name
Default
Pin Description
Bit 7
Revision_ID3
0
Revision ID bit[3]
Bit 6
Revision_ID2
0
Revision ID bit[2]
Bit 5
Revision_ID1
0
Revision ID bit[1]
Bit 4
Revision_ID0
0
Revision ID bit[0]
Bit 3
Vendor_ID3
1
Bit[3] of Cypress’s Vendor ID. This bit is Read-only.
Bit 2
Vendor_ID2
0
Bit[2] of Cypress’s Vendor ID. This bit is Read-only.
Bit 1
Vendor _ID1
0
Bit[1] of Cypress’s Vendor ID. This bit is Read-only.
Bit 0
Vendor _ID0
0
Bit[0] of Cypress’s Vendor ID. This bit is Read-only.
Byte 7: Control Register 7
Bit
Pin#
Name
Default
Pin Description
Bit 7
–
Reserved
0
Reserved
Bit 6
35
24_48MHz_DRV
1
0 = Norm, 1 = High drive
Bit 5
34
48MHz_DRV
1
0 = Norm, 1 = High drive
Bit 4
–
Reserved
0
Reserved
Bit 3
35
24_48MHz
1
(Active/Inactive)
Bit 2
34
48 MHz
1
(Active/Inactive)
Bit 1
–
Reserved
0
Reserved
Bit 0
–
Reserved
0
Reserved
Byte 8: Reserved Register
Bit
Name
Default
Pin Description
Bit 7
PCI_Skew1
0
PCI skew control
00 = Normal
01 = –500 ps
10 = Reserved
11 = +500 ps
Bit 6
PCI_Skew0
0
Bit 5
Reserved
1
Reserved. Write with ‘1’
Bit 4
Reserved
1
Reserved. Write with ‘1’
Bit 3
Reserved
1
Reserved. Write with ‘1’
Bit 2
Reserved
1
Reserved. Write with ‘1’
Bit 1
Reserved
1
Reserved. Write with ‘1’
Bit 0
Reserved
0
Reserved
Byte 9: Reserved Register
Bit
Name
Default
Pin Description
Bit 7
SDRAM_DRV
0
SDRAM clock output drive strength
0 = Normal
1 = High Drive
Bit 6
PCI_DRV
0
PCI and AGP clock output drive strength
0 = Normal
1 = High drive
Bit 5
Reserved
0
Reserved
Bit 4
Reserved
0
Reserved
Bit 3
Reserved
0
Reserved
Bit 2
Reserved
0
Reserved
Document #: 38-07011 Rev. *C
Page 7 of 15
CY28301
Byte 9: Reserved Register (continued)
Bit
Name
Default
Pin Description
Bit 1
Reserved
0
Reserved
Bit 0
Reserved
0
Reserved
Byte 10: Reserved Register
Bit
Name
Default
Bit 7
CPU_Skew2
0
Bit 6
CPU_Skew1
0
Bit 5
CPU_Skew0
0
Bit 4
SDRAM_Skew2
0
Bit 3
SDRAM_Skew1
0
Bit 2
SDRAM_Skew0
0
Bit 1
AGP_Skew1
0
Bit 0
AGP_Skew0
0
Description
CPU skew control
000 = Normal
001 = –150 ps
010 = –300 ps
011 = –450 ps
100 = +150 ps
101 = +300 ps
110 = +450 ps
111 = +600 ps
SDRAM skew control
000 = Normal
001 = –150 ps
010 = –300 ps
011 = –450 ps
100 = +150 ps
101 = +300 ps
110 = +450 ps
111 = +600 ps
AGP skew control
00 = Normal
01 = –150 ps
10 = +150 ps
11 = +300 ps
Byte 11: Reserved Register
Bit
Name
Default
Pin Description
Bit 7
Reserved
0
Reserved
Bit 6
Reserved
0
Reserved
Bit 5
Reserved
0
Reserved
Bit 4
Reserved
0
Reserved
Bit 3
Reserved
0
Reserved
Bit 2
Reserved
0
Reserved
Bit 1
Reserved
0
Reserved
Bit 0
Reserved
0
Reserved
Byte 12: Reserved Register
Bit
Name
Default
Pin Description
Bit 7
Reserved
0
Reserved
Bit 6
Reserved
0
Reserved
Bit 5
Reserved
0
Reserved
Bit 4
Reserved
0
Reserved
Bit 3
Reserved
0
Reserved
Bit 2
Reserved
0
Reserved
Bit 1
Reserved
0
Reserved
Bit 0
Reserved
0
Reserved
Document #: 38-07011 Rev. *C
Page 8 of 15
CY28301
Byte 13: Reserved Register
Bit
Name
Default
Pin Description
Bit 7
Reserved
0
Reserved
Bit 6
Reserved
0
Reserved
Bit 5
Reserved
0
Reserved
Bit 4
Reserved
0
Reserved
Bit 3
Reserved
0
Reserved
Bit 2
Reserved
0
Reserved
Bit 1
Reserved
0
Reserved
Bit 0
Reserved
0
Reserved
Byte 14: Reserved Register
Bit
Name
Default
Description
Bit 7
Reserved
0
Reserved
Bit 6
Reserved
0
Reserved
Bit 5
Reserved
0
Reserved
Bit 4
Reserved
0
Reserved
Bit 3
Reserved
0
Reserved
Bit 2
Reserved
0
Reserved
Bit 1
Reserved
0
Reserved
Bit 0
Reserved
0
Reserved
Byte 15: Reserved Register
Bit
Pin#
Name
Default
Description
Bit 7
–
Reserved
0
Reserved
Bit 6
–
Reserved
0
Reserved
Bit 5
–
Reserved
0
Reserved
Bit 4
–
Reserved
0
Reserved
Bit 3
–
Reserved
0
Reserved
Bit 2
–
Reserved
0
Reserved
Bit 1
–
Reserved
1
Reserved. Write with ‘1’
Bit 0
–
Reserved
1
Reserved. Write with ‘1’
Byte 16: Reserved Register
Bit
Pin#
Name
Default
Description
Bit 7
–
Reserved
0
Reserved
Bit 6
–
Reserved
0
Reserved
Bit 5
–
Reserved
0
Reserved
Bit 4
–
Reserved
0
Reserved
Bit 3
–
Reserved
0
Reserved
Bit 2
–
Reserved
0
Reserved
Bit 1
–
Reserved
0
Reserved
Byte 17: Reserved Register
Bit
Pin#
Name
Default
Description
Bit 7
–
Reserved
0
Reserved
Bit 6
–
Reserved
0
Reserved
Document #: 38-07011 Rev. *C
Page 9 of 15
CY28301
Byte 17: Reserved Register (continued)
Bit
Pin#
Name
Default
Description
Bit 5
–
Reserved
0
Reserved
Bit 4
–
Reserved
0
Reserved
Bit 3
–
Reserved
0
Reserved
Bit 2
–
Reserved
0
Reserved
Bit 1
–
Reserved
0
Reserved
Table 5. Frequency Selections through HW Strap Option and Serial Data Interface Data Bytes
Input Conditions
FS1
FS0
SEL1
SEL0
0
0
Output Frequency
CPU
SDRAM
3V66
PCI
APIC
0
66.6
100.0
66.6
33.3
16.6
1
100.0
100.0
66.6
33.3
16.6
1
0
133.3
133.3
66.6
33.3
16.6
1
1
133.3
100.0
66.6
33.3
16.6
DC Electrical Characteristics[2]
DC parameters must be sustainable under steady state (DC) conditions.
Absolute Maximum DC Power Supply
Parameter
Description
Min.
Max.
Unit
VDDQ3
3.3V Core Supply Voltage
–0.5
4.6
V
VDDQ2
2.5V I/O Supply Voltage
–0.5
3.6
V
TS
Storage Temperature
–65
150
°C
Min.
Max.
Unit
–0.5
4.6
V
3.6
V
Absolute Maximum DC I/O
Parameter
Description
Vi/o3
3.3V Core Supply Voltage
Vi/o3
2.5V I/O Supply Voltage
–0.5
ESD prot.
Input ESD Protection
2000
V
DC Operating Requirements
Parameter
Description
Condition
Min.
Max.
Unit
VDD3
3.3V Core Supply Voltage
3.3V ±5%
3.135
3.465
V
VDDQ3
3.3V I/O Supply Voltage
3.3V ±5%
3.135
3.465
V
VDDQ2
2.5V I/O Supply Voltage
2.5V ±5%
2.375
2.625
V
VDD3
VDD3 = 3.3V ±5%
Vih3
3.3V Input High Voltage
Vil3
3.3V Input Low Voltage
2.0
VDD + 0.3
V
VSS – 0.3
0.8
V
Iil
Input Leakage Current[3]
0 < Vin <VDD3
–5
+5
µA
Voh2
Vol2
2.5V Output High Voltage
Ioh = (–1 mA)
2.0
2.5V Output Low Voltage
Iol = (1 mA)
0.4
V
VDDQ2 = 2.5V ±5%
V
Note:
2. 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.
3. Input leakage current does not include inputs with pull-up or pull-down resistors.
Document #: 38-07011 Rev. *C
Page 10 of 15
CY28301
DC Operating Requirements (continued)
Parameter
Description
Condition
Min.
Max.
Unit
VDDQ3 = 3.3V ±5%
Voh3
3.3V Output High Voltage
Ioh = (–1 mA)
Vol3
3.3V Output Low Voltage
Iol = (1 mA)
Vpoh3
PCI Bus Output High Voltage
Ioh = (–1 mA)
Vpol3
PCI Bus Output Low Voltage
Iol = (1 mA)
Cin
Input Pin Capacitance
Cxtal
Xtal Pin Capacitance
Cout
Output Pin Capacitance
Lpin
Pin Inductance
Ta
Ambient Temperature
.4
V
0.4
V
VDDQ3 = 3.3V ±5%
Document #: 38-07011 Rev. *C
2.4
0.55
V
5
pF
22.5
pF
6
pF
0
7
nH
0
70
°C
13.5
No airflow
V
Page 11 of 15
CY28301
AC Electrical Characteristics[2] (TA = 0°C to +70°C, VDDQ3 = 3.3V ±5%, VDDQ2= 2.5V ±5% fXTL = 14.31818 MHz)
Parameter
Description
66.6-MHz Host
100-MHz Host
133-MHz Host
Min.
Max.
Min.
Max.
Min.
Max.
Unit
15.0
15.5
10.0
10.5
7.5
8.0
ns
4
Notes
CPUCLK
TPeriod
Host/CPUCLK Period
THIGH
Host/CPUCLK High Time
5.2
N/A
3.0
N/A
1.87
N/A
ns
5
TLOW
Host/CPUCLK Low Time
5.0
N/A
2.8
N/A
1.67
N/A
ns
6
TRISE
Host/CPUCLK Rise Time
0.4
1.6
0.4
1.6
0.4
1.6
ns
TFALL
Host/CPUCLK Fall Time
0.4
1.6
0.4
1.6
0.4
1.6
ns
SDRAM
TPeriod
SDRAM CLK Period
10.0
10.5
10.0
10.5
10.0
10.5
ns
4
THIGH
SDRAM CLK High Time
3.0
N/A
3.0
N/A
3.0
N/A
ns
5
TLOW
SDRAM CLK Low Time
2.8
N/A
2.8
N/A
2.8
N/A
ns
6
TRISE
SDRAM CLK Rise Time
0.4
1.6
0.4
1.6
0.4
1.6
ns
TFALL
SDRAM CLK Fall Time
0.4
1.6
0.4
1.6
0.4
1.6
ns
APIC
TPeriod
APIC CLK Period
60.0
64.0
60.0
N/A
60.0
64.0
ns
4
THIGH
APIC CLK High Time
25.5
N/A
25.5
N/A
25.5
N/A
ns
5
TLOW
APIC CLK Low Time
25.3
N/A
25.30
N/A
25.30
N/A
ns
6
TRISE
APIC CLK Rise Time
0.4
1.6
0.4
1.6
0.4
1.6
ns
TFALL
APIC CLK Fall Time
0.4
1.6
0.4
1.6
0.4
1.6
ns
3V66
TPeriod
3V66 CLK Period
15.0
16.0
15.0
16.0
15.0
16.0
ns
4, 8
THIGH
3V66 CLK High Time
5.25
N/A
5.25
N/A
5.25
N/A
ns
5
TLOW
3V66 CLK Low Time
5.05
N/A
5.05
N/A
5.05
N/A
ns
6
TRISE
3V66 CLK Rise Time
0.5
2.0
0.5
2.0
0.5
2.0
ns
TFALL
3V66 CLK Fall Time
0.5
2.0
0.5
2.0
0.5
2.0
ns
PCI
TPeriod
PCI CLK Period
30.0
N/A
30.0
N/A
30.0
N/A
ns
4, 7
THIGH
PCI CLK High Time
12.0
N/A
12.0
N/A
12.0
N/A
ns
5
TLOW
PCI CLK Low Time
12.0
N/A
12.0
N/A
12.0
N/A
ns
6
TRISE
PCI CLK Rise Time
0.5
2.0
0.5
2.0
0.5
2.0
ns
TFALL
PCI CLK Fall Time
0.5
2.0
0.5
2.0
0.5
2.0
ns
tpZL, tpZH
Output Enable Delay (All outputs)
1.0
10.0
1.0
10.0
1.0
10.0
ns
tpLZ, tpZH
Output Disable Delay
(All outputs)
1.0
10.0
1.0
10.0
1.0
10.0
ns
tstable
All Clock Stabilization from
Power-Up
3
ms
3
3
Notes:
4. Period, jitter, offset, and skew measured on the rising edge at 1.25 for 2.5V clocks and at 1.5V for 3.3V clocks.
5. The time specified is measured from when VDDQ3 achieves its nominal operating level (typical condition VDDQ3 = 3.3V) until the frequency output is stable
and operating within specifications.
6. TRISE and TFALL are measured as transitions through the threshold region Vol = 0.4V and Voh = 2.0V (1 mA) JEDEC specification.
7. THIGH is measured at 2.0V for 2.5V outputs, and 2.4V for 3.3V outputs.
8. TLOW is measured at 0.4V for all outputs.
Document #: 38-07011 Rev. *C
Page 12 of 15
CY28301
Group Skew and Jitter Limits
Output Group
Pin-Pin Skew Max.
Cycle-Cycle Jitter
Duty Cycle
Nom. VDD
Skew, Jitter
Measure Point
CPU
175 ps
250 ps
45/55
2.5V
1.25V
SDRAM
250 ps
250 ps
45/55
3.3V
1.5V
APIC
250 ps
500 ps
45/55
2.5V
1.25V
48MHz
250 ps
500 ps
45/55
3.3V
1.5V
3V66
175 ps
500 ps
45/55
3.3V
1.5V
PCI
500 ps
500 ps
45/55
3.3V
1.5V
REF
N/A
1000 ps
45/55
3.3V
1.5V
Output
Buffer
Test Point
Test Load
Clock Output Wave
TPERIOD
Duty Cycle
THIGH
2.0
2.5V Clocking
Interface
1.25
0.4
TLOW
TRISE
TFALL
TPERIOD
Duty Cycle
THIGH
2.4
3.3V Clocking
Interface
1.5
0.4
TLOW
TRISE
TFALL
Figure 1. Output Buffer
Document #: 38-07011 Rev. *C
Page 13 of 15
CY28301
Ordering Information
Ordering Code
Package Type
Operating Range
CY28301PVC
56-pin SSOP (300 mils)
Commercial, 0°C to 70°C
CY28301PVCT
56-pin SSOP (300 mils) - Tape and Reel
Commercial, 0°C to 70°C
Package Drawing and Dimension
56-Lead Shrunk Small Outline Package O56
51-85062-*C
Intel is a registered trademark of Intel Corporation. All product or company names mentioned in this document are the trademarks
of their respective holders.
Document #: 38-07011 Rev. *C
Page 14 of 15
© Cypress Semiconductor Corporation, 2002. 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.
CY28301
Document History Page
Document Title: CY28301 Frequency Generator for Intel® Integrated Chipset
Document Number: 38-07011
ECN
NO.
Issue
Date
**
106533
06/27/01
*A
109365
11/06/01
IKA
Revise AC and DC Tables
*B
118785
09/25/02
DMG
Corrected the spread spectrum values in Bits 0 to 2 in Byte 0 (Control
register 0) table to match the device.
Changed the Package Drawing and Dimension to CY Standard.
Added the tape and reel option in the ordering information table.
*C
122717
12/21/02
RBI
Added power up requirements to operating conditions information.
REV.
Document #: 38-07011 Rev. *C
Orig. of
Change
IKA
Description of Change
Change from Spec #: 38-01096 to 38-07011
Changed I2C to SMBus and Updated Byte Tables
Page 15 of 15