Integrated
Circuit
Systems, Inc.

ICS94225

Third party brands and names are the property of their respective owners.

Block Diagram

94225 Rev A 5/10/01

Functionality

Pin Configuration

48-Pin 300mil SSOP

Recommended Application:
AMD 750/760 style chipset
Output Features:
·

3 differential pair open drain CPU clocks (1.5V external
pull-up; up to 150MHz achieviable through I

2 - AGPCLK @ 3.3V

8 - PCI @3.3V, including 1 free running

1 - 48MHz @ 3.3V

1 - 24/48MHz @ 3.3V

2- REF @3.3V, 14.318MHz.

Features:
·

Programmable ouput frequency

Programmable ouput rise/fall time

Programmable group skew

Real time system reset output

Spread spectrum for EMI control typically
by 7dB to 8dB,
with programmable spread percentage

Watchdog timer technology to reset system
if over-clocking causes malfunction

Uses external 14.318MHz crystal

AMD-K7

System Clock Chip

* Internal 120K pullup resistor on indicated inputs
** Internal 240K pullup resistor on indicated inputs

**FS0/REF0
**FS1/REF1

GNDREF

X1
X2

GNDPCI

PCICLK_F

PCICLK0

VDDPCI

PCICLK1
PCICLK2

GNDPCI

PCICLK3
PCICLK4

VDDPCI

PCICLK5
PCICLK6
VDDAGP

AGP0
AGP1

GNDAGP

VDD48

48MHz

SEL24_48#/24-48MHz

VDDREF
GNDSD
SDRAM_OUT
VDDSD
RESERVED
CPUCLKC2
CPUCLKT2
GNDCPU
CPUCLKC1
CPUCLKT1
GND
CPUCLKC0
CPUCLKT0
RESET#
VDD
GND
PCI_STOP#
CPU_STOP#
PD#
SPREAD#
FS2*
SDATA
SCLK
GND48

ICS94225

1
2
3
4
5
6
7
8
9

10
11
12
13
14
15
16
17
18
19
20
21
22
23
24

48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25

Preliminary Product Preview

Power Groups

VDD48, GND48 = 48MHz, PLL2

VDDREF, GNDREF= REF, X1, X2

VDD, GND = PLL Core

133.33

33.33

66.67

31.67

63.33

100.99

33.66

67.33

115

38.33

76.67

100.7

33.57

67.13

103

34.33

68.67

105

35.00

70.00

110

36.67

73.33

PCI

AGP

FS2

FS1

FS0

CPU,

SDRAM

SEL24_48#

SDATA

SCLK

FS (2:0)

PD#

PCI_STOP#

CPU_STOP#

SPREAD#

PLL2

PLL1

Spread

Spectrum

48MHz

24_48MHz

SDRAM_OUT

PCICLK (6:0)

AGP (1:0)

PCICLK_F

XTAL

OSC

CPU

DIVDER

SDRAM

DIVDER

PCI

DIVDER

AGP

DIVDER

Stop

Control

Logic

Config.

Reg.

/ 2

REF (1:0)

CPUCLKT (2:0)

CPUCLKC (2:0)

PRODUCT PREVIEW documents contain information on new
products in the sampling or preproduction phase of development.
Characteristic data and other specifications are subject to change
without notice.

ICS94225

Third party brands and names are the property of their respective owners.

Preliminary Product Preview

Pin Descriptions

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General Description

The ICS94225 is a main clock synthesizer chip for AMD-K7 based systems with AMD 750/760 style chipsets. This provides
all clocks required for such a system.

The ICS94225 belongs to ICS new generation of programmable system clock generators. It employs serial programming I

interface as a vehicle for changing output functions, changing output frequency, configuring output strength, configuring
output to output skew, changing spread spectrum amount, changing group divider ratio and dis/enabling individual clocks.
This device also has ICS propriety 'Watchdog Timer' technology which will reset the frequency to a safe setting if the system
become unstable from over clocking.

ICS94225

Preliminary Product Preview

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Byte 1: Reserved Active/Inactive Register
(1= enable, 0 = disable)

Byte 2: Reserved, Active/Inactive Register
(1= enable, 0 = disable)

Notes:

1. Inactive means outputs are held LOW and are disabled
from switching.
2. Latched Frequency Selects (FS#) will be inverted logic
load of the input frequency select pin conditions.

Byte 4: Clock Control Register
(1= enable, 0 = disable)

Byte 5: PCI Clock Control Register
(1= enable, 0 = disable)

Byte 3: Reserved Active/Inactive Register
(1= enable, 0 = disable)

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ICS94225

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Preliminary Product Preview

Notes:

1. Default at power-up will be latched logic inputs to define frequency, as displayed by Bit 1.

2. PWD = Power-Up Default

Byte 6: SDRAM Clock & Generator Mode Control Register

Bit

PWD

133.33

33.33

66.67

31.67

63.33

100.99

33.66

67.33

115

38.33

76.67

100.7

33.57

67.13

103

34.33

68.67

105

35.00

70.00

110

36.67

73.33

102

34.00

68.00

104

34.67

69.33

106

35.33

70.67

107

35.67

71.33

108

36.00

72.00

109

36.33

72.67

30.00

60.00

111

37.00

74.00

112

37.33

74.67

113

37.67

75.33

114

38.00

76.00

116

38.67

77.33

117

39.00

78.00

118

39.33

78.67

119

39.67

79.33

120

30.00

60.00

142

35.50

71.00

144

36.00

72.00

146

36.50

73.00

138

34.50

69.00

136

34.00

68.00

135

33.75

67.50

140

35.00

70.00

150

37.50

75.00

Description

Spread Spectrum enable (+/- 0.25% center spread) 0=OFF 1=ON

6:2

Bit 3

Bit 2

FS2

Bit 6

FS1

Bit 5

FS0

Bit 4

CPU,

SDRAM

PCI

0 - SDRAM_OUT Disable
1 - SDRAM_OUT Enable

AGP

0010

Note1

0 - Frequency is selected by hardware select, latched input;
Spread controlled by pin 29
1 - Frequency is selected by Bit (6:2); Spread controlled by Bit 7

ICS94225

Preliminary Product Preview

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Byte 7: Vendor ID and Revision ID Register

Byte 8: Byte Count and Read Back Register

Notes:

1. PWD = Power on Default

Byte 11: VCO Frequency Control Register

Note: The decimal representation of these 7 bits (Byte 11
[6:0]) + 2 is equal to the REF divider value .

Byte 12: VCO Frequency Control Register

Note: The decimal representation of these 9 bits (Byte 12
bit [7:0] & Byte 11 bit [7] ) + 8 is equal to the VCO divider
value. For example if VCO divider value of 36 is desired,
user need to program 36 - 8 = 28, namely, 0, 00011100 into
byte 12 bit & byte 11 bit 7.

Note: FS values in bit [0:4] will correspond to Byte 0 FS

values. Default safe frequency is same as 00000 entry in
byte0.

Byte 10: VCO Control Selection Bit &
Watchdog Timer Control Register

Byte 9: Watchdog Timer Count Register

ICS94225

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Preliminary Product Preview

Byte 13: Spread Sectrum Control Register

Byte 14: Spread Sectrum Control Register

Note: Please utilize software utility provided by ICS

Application Engineering to configure spread spectrum.
Incorrect spread percentage may cause system failure.

Note: Please utilize software utility provided by ICS

Application Engineering to configure spread spectrum.
Incorrect spread percentage may cause system failure.

Byte 15: Output Skew Control

Byte 16: Output Skew Control

Byte 17: Output Rise/Fall Time Select Register

Byte 18: Output Rise/Fall Time Select Register

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Notes:

1. PWD = Power on Default

2. The power on default for byte 13-20 depends on the harware (latch inputs FS[0:4]) or I

C (Byte 0 bit [1:7]) setting. Be sure

to read back and re-write the values of these 8 registers when VCO frequency change is desired for the first pass.

3. If Byte 8 bit 7 is driven to "1" meaning programming is intended, Byte 21-24 will lose their default power up value.

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ICS94225

Preliminary Product Preview

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VCO Programming Constrains

VCO Frequency ...................... 150MHz to 500MHz
VCO Divider Range ................ 8 to 519
REF Divider Range ................. 2 to 129
Phase Detector Stability .......... 0.3536 to 1.4142
Useful Formula
VCO Frequency = 14.31818 x VCO/REF divider value
Phase Detector Stabiliy = 14.038 x (VCO divider value)

-0.5

Note:

1. User needs to ensure step 3 & 7 is carried out. Systems with wrong spread percentage and/or group to group skew relation

programmed into bytes 13-16 could be unstable. Step 3 & 7 assure the correct spread and skew relationship.

2. If VCO, REF divider values or phase detector stability are out of range, the device may fail to function correctly.

3. Follow min and max VCO frequency range provided. Internal PLL could be unstable if VCO frequency is too fast or too

slow. Use 14.31818MHz x VCO/REF divider values to calculate the VCO frequency (MHz).

4. ICS recommends users, to utilize the software utility provided by ICS Application Engineering to program the VCO

frequency.

5. Spread percent needs to be calculated based on VCO frequency, spread modulation frequency and spreadamount desired.

See Application note for software support.

To program the VCO frequency for over-clocking.

0. Before trying to program our clock manually, consider using ICS provided software utilities for easy programming.

1. Select the frequency you want to over-clock from with the desire gear ratio (i.e. CPU:SDRAM:3V66:PCI ratio) by

writing to byte 0, or using initial hardware power up frequency.

2. Write 0001, 1001 (19

) to byte 8 for readback of 21 bytes (byte 0-20).

3. Read back byte 11-20 and copy values in these registers.

4. Re-initialize the write sequence.

5. Write a '1' to byte 9 bit 7 and write to byte 11 & 12 with the desired VCO & REF divider values.

6. Write to byte 13 to 20 with the values you copy from step 3. This maintains the output spread, skew and slew rate.

7. The above procedure is only needed when changing the VCO for the 1st pass. If VCO frequency needed to be changed

again, user only needs to write to byte 11 and 12 unless the system is to reboot.

Byte 19: Reserved Register

Note:

Byte 19 and 20 are reserved registers, these are

unused registers writing to these registers will not
affect device performance or functinality.

Byte 20: Reserved Register

ICS94225

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Preliminary Product Preview

Absolute Maximum Ratings

Supply Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.5 V

Logic Inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . GND 0.5 V to V

+0.5 V

Ambient Operating Temperature . . . . . . . . . . . . . 0°C to +70°C

Storage Temperature . . . . . . . . . . . . . . . . . . . . . . . 65°C to +150°C

Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to the device. These ratings are
stress specifications only and functional operation of the device at these or any other conditions above those listed in the
operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended
periods may affect product reliability.

Electrical Characteristics - Input/Supply/Common Output Parameters

= 0 - 70º C; Supply Voltage V

= 3.3 V +/-5% (unless otherwise stated)

PARAMETER

SYMBOL

CONDITIONS

MIN

TYP

MAX

UNITS

Input High Voltage

+0.3

Input Low Voltage

-0.3

0.8

Input High Current

= V

Input Low Current

IL1

= 0 V; Inputs with no pull-up resistors

-5

Input Low Current

IL2

= 0 V; Inputs with pull-up resistors

-200

Operating

DD3.3OP66

= 0 pF; Select @ 66MHz

Supply Current

DD3.3OP100

= 0 pF; Select @ 100MHz

DD3.3OP133

= 0 pF; Select @ 133MHz

Power Down

600

Input frequency

= 3.3 V;

MHz

Logic Inputs

INX

X1 & X2 pins

Clk Stabilization

STAB

From V

= 3.3 V to 1% target Freq.

CP U-SDRAM

-125

125

CP U-P CI

-100

100

CPU-AGP

-500

500

Guaranteed by design, not 100% tested in production.

180

Skew

= 50%

Input Capacitance

ICS94225

Preliminary Product Preview

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Electrical Characteristics - USB, REF(1:0)

= 0 - 70º C; V

= 3.3 V +/-5%; C

= 20 pF (unless otherwise stated)

PARAMETER

SYMBOL

CONDITIONS

MIN

TYP

MAX UNITS

Output High Voltage

OH5

= -12 mA

2.4

Output Low Voltage

OL5

= 9 mA

0.4

Output High Current

OH5

= 2.0 V

-22

Output Low Current

OL5

= 0.8 V

Rise Time

= 0.4 V, V

= 2.4 V

Fall Time

= 2.4 V, V

= 0.4 V

Duty Cycle

= 50%

Guaranteed by design, not 100% tested in production.

Electrical Characteristics - CPUCLK (Open Drain)

= 0 - 70º C; V

= 3.3 V +/-5%; C

= 20 pF (unless otherwise stated)

PARAMETER

SYMBOL

CONDITIONS

MIN

TYP

MAX

UNITS

Output Impedance

= V

Output High Voltage

OH2B

Termination to

pull-up(external)

1.2

Output Low Voltage

OL2B

Termination to

pull-up(external)

0.4

Output Low Current

OL2B

= 0.3 V

Rise Time

r2B

= 0.3 V, V

= 1.2 V

0.9

Fall Time

f2B

= 1.2 V, V

= 0.3 V

0.9

Differential voltage-AC

DIF

Note 2

0.4

pullup(external)

+ 0.6

Differential voltage-DC

DIF

Note 2

0.2

pullup(external)

+ 0.6

Differential Crossover

Voltage

Note 3

550

1100

Duty Cycle

t2B

= 50%

Skew

sk2B

VT = 50%

200

Jitter, Cycle-to-cycle

jcyc-cyc2B

= V

250

Jitter, Absolute

jabs2B

VT = 50%

-250

+250

Notes:
1 - Guaranteed by design, not 100% tested in production.

3 - Vpullup

(external)

= 1.5V, Min = Vpullup

(external)

/2-150mV; Max=(Vpullup

(external)

/2)+150mV

2 - V

DIF

specifies the minimum input differential voltages (V

-V

) required for switching, where V

is the "true"

input level and V

is the "complement" input level.

ICS94225

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Preliminary Product Preview

Electrical Characteristics - PCICLK(6:0)

= 0 - 70º C; V

= 3.3 V +/-5%; C

= 30 pF (unless otherwise stated)

PARAMETER

SYMBOL

CONDITIONS

MIN

TYP

MAX UNITS

Output High Voltage

OH1

= -11 mA

2.6

Output Low Voltage

OL1

= 9.4 mA

0.4

Output High Current

OH1

= 2.0 V

-16

Output Low Current

OL1

= 0.8 V

Rise Time

= 0.4 V, V

= 2.4 V

Fall Time

= 2.4 V, V

= 0.4 V

Duty Cycle

= 50%

Skew

= 50%

Skew

(window)

VT = 50%

200

Guaranteed by design, not 100% tested in production.

Electrical Characteristics - PCICLK_F

= 0 - 70º C; V

= 3.3 V +/-5%; C

= 20 pF (unless otherwise stated)

PARAMETER

SYMBOL

CONDITIONS

MIN

TYP

MAX UNITS

Output High Voltage

OH1

= -11 mA

2.6

Output Low Voltage

OL1

= 9.4 mA

0.4

Output High Current

OH1

= 2.0 V

-12

Output Low Current

OL1

= 0.8 V

Rise Time

= 0.4 V, V

= 2.4 V

Fall Time

= 2.4 V, V

= 0.4 V

Duty Cycle

= 50%

Skew

(window)

VT = 50%

200

Guaranteed by design, not 100% tested in production.

ICS94225

Preliminary Product Preview

Third party brands and names are the property of their respective owners.

Electrical Characteristics - AGP(1:0)

= 0 - 70º C; V

= 3.3 V +/-5%; C

= 20 pF (unless otherwise stated)

PARAMETER

SYMBOL

CONDITIONS

MIN

TYP

MAX UNITS

Output High Voltage

OH4B

= -18 mA

Output Low Voltage

OL4B

= 18 mA

0.4

Output High Current

OH4B

= 2.0 V

-19

Output Low Current

OL4B

= 0.8 V

Rise Time

r4B

= 0.4 V, V

= 2.0 V

Fall Time

f4B

= 2.0 V, V

= 0.4 V

Duty Cycle

t4B

= 50%

Skew

(window)

VT = 50%

Guaranteed by design, not 100% tested in production.

Electrical Characteristics - SDRAM_OUT

= 0 - 70º C; V

= 3.3 V +/-5%, C

= 20 pF (unless otherwise stated)

PARAMETER

SYMBOL

CONDITIONS

MIN

TYP

MAX UNITS

Output High Voltage

OH3

= -11 mA

Output Low Voltage

OL3

= 11 mA

0.4

Output High Current

OH3

= 2.0 V

-12

Output Low Current

OL3

= 0.8 V

Rise Time

= 0.4 V, V

= 2.4 V

2.2

Fall Time

= 2.4 V, V

= 0.4 V

2.2

Duty Cycle

= 50%

Skew

(window)

VT = 50%

250

Guarenteed by design, not 100% tested in production.

ICS94225

Third party brands and names are the property of their respective owners.

Preliminary Product Preview

General I

C serial interface information for the ICS94225

How to Write:

· Controller (host) sends a start bit.
· Controller (host) sends the write address D2

(H)

· ICS clock will acknowledge
· Controller (host) sends a dummy command code
· ICS clock will acknowledge
· Controller (host) sends a dummy byte count
· ICS clock will acknowledge
· Controller (host) starts sending Byte 0 through Byte 20

(see Note)

· ICS clock will acknowledge each byte one at a time
· Controller (host) sends a Stop bit

How to Read:

· Controller (host) will send start bit.
· Controller (host) sends the read address D3

(H)

· ICS clock will acknowledge
· ICS clock will send the byte count
· Controller (host) acknowledges
· ICS clock sends Byte 0 through byte 8 (default)
· ICS clock sends Byte 0 through byte X (if X

(H)

was

written to byte 8).

· Controller (host) will need to acknowledge each byte
· Controller (host) will send a stop bit

*See notes on the following page

Controller (Host)

ICS (Slave/Receiver)

Start Bit

Address D2

(H)

ACK

Dummy Command Code

ACK

Dummy Byte Count

ACK

Byte 0

ACK

Byte 1

ACK

Byte 2

ACK

Byte 3

ACK

Byte 4

ACK

Byte 5

ACK

Byte 6

ACK

Byte 18

ACK

Byte 19

ACK

Byte 20

ACK

Stop Bit

How to Write:

Controller (Host)

ICS (Slave/Receiver)

Start Bit

Address D3

(H)

ACK

Byte Count

ACK

Byte 0

ACK

Byte 1

ACK

Byte 2

ACK

Byte 3

ACK

Byte 4

ACK

Byte 5

ACK

Byte 6

ACK

If 7

has been written to B6

Byte 7

ACK

If 12

has been written to B6

Byte18

ACK

If 13

has been written to B6

Byte 19

ACK

If 14

has been written to B6

Byte 20

ACK

Stop Bit

How to Read:

ICS94225

Preliminary Product Preview

Third party brands and names are the property of their respective owners.

The ICS clock generator is a slave/receiver, I

C component. It can read back the data stored in the latches for

verification. Readback will support standard SMBUS controller protocol. The number of bytes to readback is
defined by writing to byte 8.

When writing to byte 11 - 12, and byte 13 - 14, they must be written as a set. If for example, only byte 14 is
written but not 15, neither byte 14 or 15 will load into the receiver.

The data transfer rate supported by this clock generator is 100K bits/sec or less (standard mode)

The input is operating at 3.3V logic levels.

The data byte format is 8 bit bytes.

To simplify the clock generator I

C interface, the protocol is set to use only Block-Writes from the controller. 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. The Command code and Byte count shown above must be sent, but the data is ignored
for those two bytes. The data is loaded until a Stop sequence is issued.

At power-on, all registers are set to a default condition, as shown.

Notes:

Brief I

C registers description for ICS94225

Programmable System Frequency Generator

Register N ame

Byte

Description

PWD Default

Functionality & Frequency
Select Register

Output frequency, hardware / I

frequency select, spread spectrum &
output enable control register.

See individual
byte description

Output Control Registers

1-6

Active / inactive output control
registers/latch inputs read back.

See individual
byte description

Vendor ID & Revision ID
Registers

Byte 11 bit[7:4] is ICS vendor id - 1001.
Other bits in this register designate device
revision ID of this part.

See individual
byte description

Byte Count
Read Back Register

Writing to this register will configure
byte count and how many byte w ill be

read back. Do not write 00

to this byte.

Watchdog Timer
Count Register

Writing to this register will configure the
number of seconds for the watchdog
timer to reset.

Watchdog Control Registers 10 Bit [6:0]

Watchdog enable, watchdog status and
programmable 'safe' frequency' can be
configured in this register.

000,0000

VCO Control Selection Bit

10 Bit [7]

This bit select w hether the output
frequency is control by hardware/byte 0
configurations or byte 11&12
programming.

VCO Frequency Control
Registers

11-12

These registers control the dividers ratio
into the phase detector and thus control
the V CO output frequency.

Depended on
hardware/byte 0
configuration

Spread Spectrum Control
Registers

13-14

These registers control the spread
percentage amount.

Depended on
hardware/byte 0
configuration

Group Skews Control
Registers

15-16

Increment or decrement the group skew
amount as compared to the initial skew .

See individual
byte description

Output Rise/Fall Time
Select Registers

17-20

These registers will control the output
rise and fall time.

See individual
byte description

ICS94225

Third party brands and names are the property of their respective owners.

Preliminary Product Preview

Fig. 1

Shared Pin Operation -
Input/Output Pins

The I/O pins designated by (input/output) serve as dual

signal functions to the device. During initial power-up, they

act as input pins. The logic level (voltage) that is present on

these pins at this time is read and stored into a 5-bit internal

data latch. At the end of Power-On reset, (see AC

characteristics for timing values), the device changes the

mode of operations for these pins to an output function. In

this mode the pins produce the specified buffered clocks to

external loads.

To program (load) the internal configuration register for these

pins, a resistor is connected to either the VDD (logic 1) power

supply or the GND (logic 0) voltage potential. A 10 Kilohm

(10K) resistor is used to provide both the solid CMOS

programming voltage needed during the power-up

programming period and to provide an insignificant load on

the output clock during the subsequent operating period.

Figure 1 shows a means of implementing this function when

a switch or 2 pin header is used. With no jumper is installed

the pin will be pulled high. With the jumper in place the pin

will be pulled low. If programmability is not necessary, than

only a single resistor is necessary. The programming resistors

should be located close to the series termination resistor to

minimize the current loop area. It is more important to locate

the series termination resistor close to the driver than the

programming resistor.

ICS94225

Preliminary Product Preview

Third party brands and names are the property of their respective owners.

PD# Timing Diagram

The power down selection is used to put the part into a very low power state without turning off the power to the part. PD# is
an asynchronous active low input. This signal needs to be synchronized internal to the device prior to powering down the
clock synthesizer.

Internal clocks are not running after the device is put in power down. When PD# is active low all clocks need to be driven to
a low value and held prior to turning off the VCOs and crystal. The power up latency needs to be less than 3 mS. The power
down latency should be as short as possible but conforming to the sequence requirements shown below. PCI_STOP# and
CPU_STOP# are considered to be don't cares during the power down operations. The REF and 48MHz clocks are expected to
be stopped in the LOW state as soon as possible. Due to the state of the internal logic, stopping and holding the REF clock
outputs in the LOW state may require more than one clock cycle to complete.

Notes:
1. All timing is referenced to the Internal CPUCLK (defined as inside the ICS94225 device).
2. As shown, the outputs Stop Low on the next falling edge after PD# goes low.
3. PD# is an asynchronous input and metastable conditions may exist. This signal is synchronized inside this part.
4. The shaded sections on the VCO and the Crystal signals indicate an active clock.
5. Diagrams shown with respect to 133MHz. Similar operation when CPU is 100MHz.

CPUCLKT

CPUCLKC

PCICLK

VCO

Crystal

PD#

ICS94225

Third party brands and names are the property of their respective owners.

Preliminary Product Preview

Ordering Information

ICS94225yF-T

Designation for tape and reel packaging

Pattern Number (2 or 3 digit number for parts with ROM code patterns)

Package Type
F=SSOP

Revision Designator (will not correlate with datasheet revision)

Device Type

Prefix
ICS, AV = Standard Device

Example:

ICS XXXX y F - PPP - T

PRODUCT PREVIEW documents contain information on new
products in the sampling or preproduction phase of development.
Characteristic data and other specifications are subject to change
without notice.

INDEX

AREA

INDEX

AREA

1 2

h x 45°

SEATING

PLANE

SEATING

PLANE

- C -

.10 (.004) C

300 mil SSOP Package

MIN

MAX

MIN

MAX

2.41

2.80

.095

.110

0.20

0.40

.008

.016

0.20

0.34

.008

.0135

0.13

0.25

.005

.010

D
E

10.03

10.68

.395

.420

7.40

7.60

.291

.299

e
h

0.38

0.64

.015

.025

0.50

1.02

.020

.040

0°

8°

0°

8°

MIN

MAX

MIN

MAX

15.75

16.00

.620

.630

10-0034

SYMBOL

In Millimeters

In Inches

COMMON DIMENSIONS

SEE VARIATIONS

0.635 BASIC

0.025 BASIC

Reference Doc.: JEDEC Publication 95, MO-118

VARIATIONS

SEE VARIATIONS

D mm.

D (inch)

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