AV9107C-03CS14WLF [IDT]

Processor Specific Clock Generator, 100.23MHz, CMOS, PDSO14, 0.300 INCH, SOIC-14;


型号：	AV9107C-03CS14WLF
厂家：	INTEGRATED DEVICE TECHNOLOGY
描述：	Processor Specific Clock Generator, 100.23MHz, CMOS, PDSO14, 0.300 INCH, SOIC-14 光电二极管
文件：	总9页 (文件大小：491K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

AV9107C

Integrated

Circuit

Systems, Inc.

CPU Frequency Generator

Features

General Description

The AV9107C offers a tiny footprint solution for generating

two simultaneous clocks. One clock, the REFCLK, is a fixed

output frequency which is the same as the input reference

crystal (or clock).The other clock, CLK1, can vary between 2

and 120 MHz, with up to 16 selectable preprogrammed fre-

quencies stored in internal ROM (frequency range depends on

design option).

Patented on-chip Phase-Locked Loop with VCO for

clock generation

Provides reference clock and synthesized clock

Generates frequencies from 2 to 120 MHz (depending

on option), operates to 80 MHz for V_DD3.3V±10%

8-pin DIP or SOIC package or 14-pin DIP or SOIC

package

2 to 32 MHz input reference frequency (depending on

option)

The device has advanced features which include on-chip loop

filters, tristate outputs, and power-down capability. A mini-

mum of external components - two decoupling capacitors and

an optional ferrite bead - are all that are required for jitter-free

operation. Standard versions for computer motherboard appli-

cationsaretheAV9107C-03, andAV9107C-05. Custommasked

versions, withcustomizedfrequenciesandfeatures, areavailable

in 6-8 weeks for a small NRE.

On-chip loop filter

Up to 16 frequencies stored internally

Low power CMOS technology

Single +3.3 or +5 volt power supply

Applications

power in computers. The device provides smooth, glitch-

free frequency transitions so that the CPU can continue to

operate during slow down or speed up. The rate of

frequency change makes the AV9107C compatible with all

386DX, 386SX, 486DX, 486DX2, and 486SX devices.

Standard versions include the AV9107C-03, -05, -10,

-11. Disk Drives: Smaller than a single crystal or an

oscillator, the tiny SOIC package can be used for any

general purpose frequency generation in disk drives.

Graphics: The AV9107C is the easiest to use, lowest cost,

and smallest footprint frequency generator for graphics

applications. It can generate up to 16 different frequencies,

including all frequencies necessary for VGA standards. It

should be used in place of the AV9105/6 when the reference

clock is also needed.

Computer: The AV9107C is the ideal solution for replacing

high speed oscillators and for reducing clock speeds to save

Block Diagram

Pentium is a trademark of Intel Corporation

PowerPC is a trademark of Motorola Corporation

9107CRevD2/3/98

ICS reserves the right to make changes in the device data identified in this

publication without further notice. ICS advises its customers to obtain the latest

version of all device data to verify that any information being relied upon by the

customer is current and accurate.

AV9107C

Applications (cont.)

The most popular application is for Constant Density

Recording, where its low jitter output clock provides the

necessary frequencies for reading and recording. Another

popular application is for slowing the disk drive CPU to

save power.

High Speed Systems: TheAV9107C can be used as a

proximity oscillator - using a low frequency (down to 2

MHz) input to generate a high frequency clock (up to 120

MHz) near the device requiring the high frequency

(depending on option). This avoids the need to route high

speed traces over a long distance.

Pin Configuration

AV9107C

Actual Frequencies

Decoding Table forAV9107C-05, 14.318 MHz input

Decoding Table for AV9107C-10, 14.318 MHz input

FS1

FS0

CLK1

FS1

FS0

CLK1

40.01 MHz

50.11 MHz

66.61 MHz

80.01 MHz

25.06 MHz

33.29 MHz

40.00 MHz

50.11 MHz

Decoding Table forAV9107C-03, 14.318 MHz input

Decoding Table for AV9107C-11 (in MHz)

FS3

FS2

FS1

FS0

CLK1

SLOW CLOCK FS3 FS2 FS1 FS0

CLK1

16.00 MHz

39.99 MHz

50.11 MHz

80.01 MHz

66.58 MHz

100.23 MHz*

8.02 MHz

16.00 MHz

39.99 MHz

50.11 MHz

80.01 MHz

66.58 MHz 100.23

MHz* 8.02 MHz

4.01 MHz

8.02 MHz

20.00 MHz

25.06 MHz

40.01 MHz

33.29 MHz

50.11 MHz*

4.01 MHz

20.00 MHz

25.06 MHz

39.99 MHz

33.25 MHz

50.11 MHz

30.00 MHz

4.01 MHz

2.05 MHz

8.05 MHz

*@ VDD=5 volts

AV9107C

Pin Descriptions for AV9107C-03, AV9107C-05, AV9107C-10 and AV9107C-11

PIN NUMBER

PIN NAME

TYPE

DESCRIPTION

-05/-10

-03

-11

FS0

Input

Frequency Select 0 for CLK1 (-03 and -11 have pull-ups).

Frequency Select 1 for CLK1 (-03 and -11 have pull-ups).

Frequency Select 2 for CLK1 (-03 and -11 have pull-ups).

Frequency Select 3 for CLK1 (-03 and -11 have pull-ups).

Analog GROUND.

FS1

FS2

FS3

AGND

GND

Digital GROUND.

Input

POWER-DOWN. Shuts off chip when low. Internal pull-up.

SLOW CLOCK

SLOW CLOCK input. Forces CLK1 to 8 MHz (regardless of

FS condition). Has internal pull-up.

X1/ICLK

Input

CRYSTAL OUTPUT or INPUT CLOCK frequency. Typically

14.318 MHz system clock. This input includes load

capacitance and feedback bias for a crystal.

CRYSTAL OUTPUT (No Connect when clock used.) This

input includes XTAL load capacitance.

OUTPUT ENABLE. Tristates REFCLK when low. Has

internal pull-up.

OUTPUT ENABLE. Tristates CLK1 when low. Has internal

pull-up.

Output

Input

OE(REFCLK)

OE(CLK1)

Input

CLK1

Output

CLOCK1 Output (see decoding tables).

VDD

Digital power supply.

REFCLK

Output

REFERENCE CLOCK output. Produces a buffered version of

the input clock or crystal frequency (typically 14.318 MHz).

AV9107C

Allowable Input and Output

Frequency Accuracy and Calculation

The accuracy of the frequencies produced by the AV9107C-

07 depends on the input frequency and the desired actual

output frequency. The formula for calculating the exact

frequency is as follows:

Frequencies for Possible Options

The input frequency should be between 2 and 32 MHz,

depending on options, and the A/B ratio should not exceed

24. The output should fall in the range of 2-120 MHz,

depending on options.

Output Frequency = Input Frequency ∞

Output Enable

The Output Enable feature tristates the specified output

clock pins. This places the selected output pins in a high

impedance state to allow for system level diagnostic testing.

where A=2, 3, 4 ... 128, and

B=2, 3, 4 ... 32.

For example, to calculate the actual output frequency for a

video monitor expecting a 44.900 MHz clock and using a

14.318 MHz input clock, the closest A/B ratio is 69/22,

which gives an output of 44.906 MHz (within 0.02% of the

target frequency). Generally, the AV9107C-07 can produce

frequencies within 0.1% of the desired output.

Power-Down

If equipped, the power-down shuts off the specified PLL or

entire chip to save current. A few milliseconds are required

to reach full functioning speed from a power-down state.

Frequency Transitions

Slow Clock

A key AV9107C-07 feature is the ability to provide glitch-

free frequency transitions across its output frequency range.

The AV9107C-07-03 provides smooth transitions between

any of the two groups of eight frequencies (when FS3=0 or

FS3=1), so that the device will switch glitch-free between

4-100 MHz and 2-50 MHz.

If equipped, the Slow Clock forces a smooth frequency

transition on the VCO to an 8 MHz output on CLK1 when

Slow Clock is taken to logic low level. A few milliseconds

are required for the frequency transition into and out of the

Slow Clock Mode.

Absolute Maximum Ratings

AVDD, VDD referenced to GND ........................................................................................................................................... 7V

Operating temperature under bias ........................................................................................................................ 0°C to +70°C

Storage temperature ......................................................................................................................................... -65°C to +150°C

Voltage on I/O pins referenced to GND ........................................................................................ GND -0.5V to VDD +0.5V

Power dissipation .......................................................................................................................................................... 0.5 Watts

Stresses above those listed underAbsolute Maximum Ratings may cause permanent damage to the device.This is a stress rating

only and functional operation of the device at these or any other conditions above those indicated in the operational sections of

the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect product

reliability.

AV9107C

Electrical Characteristics at 5V

Operating V_DD= +4.5V to +5.5V; T_A=0°C to 70°C unless otherwise stated

DC Characteristics

PARAMETER

SYMBOL

TEST CONDITIONS

MIN

TYP

MAX

UNITS

Input Low Voltage

Input High Voltage

Input Low Current

V_IL

V_IH

I_IL

0.8

2.0

-16.0

-2.0

-6.0

V_IN=0V (Pull-up input)

µA

I_IL

V_IN=0V (Input with no

pull-up)

2.0

Input High Current

Output Low Voltage¹

Output High Voltage¹

Output Low Current¹

Output High Current¹

Supply Current

I_IH

V_OL

V_OH

I_OL

V_IN=VDD

-2.0

2.0

0.40

µA

I_OL=10mA

0.15

3.25

35.0

-50.0

18.0

38.0

I_OH=-30mA

V_OL=0.8V

2.4

22.0

µA

I_OH

I_DD

V_OH=2.0V

-35.0

42.0

100.0

Unload, 50 MHz

Supply Current;

I_DD(PD low) Unload, Logic Inputs 000

Power-down (-03 only)

Supply Current;

Power-down (-03 only)

Supply Current;

Slow Clock (-11 only)

Pull-up Resistor¹

I_DD(PD low) Unload, Logic Inputs 111

14.0

5.5

40.0

9.0

µA

I_DD(Slow

Clock low)

R_pu

Unloaded, Slow Clock pin low

380.0

700.0

k ohms

AC Characteristics

15pF load, 0.8 to 2.0V

15pF load, 2.0 to 0.8V

15pF load, 20% to 80%

15pF load, 80 to 20%

15pF load @ 1.4V

Rise Time¹

Fall Time¹

Rise Time¹

Fall Time¹

T_r

T_f

0.60

0.40

2.0

1.0

50.0

100.0

0.2

1.40

1.00

3.5

T_r

T_f

2.5

Duty Cycle¹

D_t

45.0

55.0

150.0

200.0

1.0

Jitter, One Sigma¹

Jitter, Absolute¹

Input Frequency¹

Output Frequency¹

Power-up Time¹

Transition Time¹

T_jis

T_jab

F_i

From 20 to 100 MHz

From 14 to 16 MHz

From 14 to Below

From 20 to 100 MHz

From 14 to 16 MHz

From 14 to Below

-250.0

250.0

500.0

3.0

-500.0

11.0

2.0

1.0

14.3

19.0

120.0

18.0

13.0

MHz

F_o

T_pu

T_ft

7.58

6.0

8 to 66.6 MHz

Note: 1. Parameter is guaranteed by design and characterization. Not 100% tested in production.

AV9107C

Electrical Characteristics at 3.3V

Operating V_DD= +3.0V to +3.7V; T_A=0°C to 70°C unless otherwise stated

DC Characteristics

PARAMETER

SYMBOL

TEST CONDITIONS

MIN

TYP

MAX

UNITS

Input Low Voltage

Input High Voltage

Input Low Current

V_IL

V_IH

I_IL

0.20V_DD

0.7V_DD

-7.0

V_IN=0V (Pull-up input)

-2.5

µA

I_IL

V_IN=0V (Input with no

pull-up)

-2.0

2.0

Input High Current

Output Low Voltage¹

Output High Voltage¹

Output Low Current¹

Output High Current¹

Supply Current

I_IH

V_OL

V_OH

I_OL

V_IN=V_DD

-2.0

2.0

0.1

µA

V_DD

µA

I_OL=6mA

0.05

0.92

22.0

-17.0

22.0

13.0

I_OH=-5mA

0.85

V_OL=0.2V_DD

V_OL=0.7V_DD

Unloaded, 50 MHz

15.0

I_OH

-10.0

40.0

I_DD

Supply Current;

I_DD(PD low) Unload, Logic Inputs 000

Power-down (-03 only)

Supply Current;

Power-down (-03 only)

Supply Current;

Slow Clock (-11 only)

Pull-up Resistor¹

I_DD(PD low) Unload, Logic Inputs 111

4.0

3.5

12.0

6.0

µA

I_DD(Slow

Clock low)

R_pu

Unloaded, Slow Clock pin low

550.0

900.0

k ohms

AC Characteristics

15pF load, 20% to 80%

15pF load, 80% to 20%

15pF load @ 50%

Rise Time¹

Fall Time¹

Duty Cycle¹

T_r

T_f

2.2

1.2

46.0

50.0

100.0

0.4

3.5

2.5

D_t

40.0

53.0

150.0

200.0

1.0

Jitter, One Sigma¹

Jitter, Absolute¹

Input Frequency¹

Output Frequency¹

Power-up Time¹

Transition Time¹

T_jis

T_jab

F_i

From 25 to 80 MHz

From 14 to 20 MHz

From 14 to Below

From 25 to 80 MHz

From 14 to 20 MHz

From 14 to Below

-250.0

250.0

500.0

3.0

-500.0

13.3

2.0

1.0

14.3

15.3

66.6

18.0

13.0

MHz

F_o

T_pu

T_ft

7.58

6.0

8 to 66.6 MHz

Note: 1. Parameter is guaranteed by design and characterization. Not 100% tested in production.

AV9107C

8-Pin DIP Package

14-Pin DIP Package

Ordering Information

AV9107C-05CN8, AV9107C-10CN8, AV9107C-03CN14, AV9107C-11CN14

Example:

XXX XXXX-PPP M X#W

Lead Count & Package Width

Lead Count=1,2, or 3 digits

W=0.3" SOIC or 0.6" DIP; None=Standard Width

Package Type

N=DIP (Plastic)

Pattern Number (2 or 3-digit number for parts with ROM-code patterns, if applicable)

Device Type (consists of 3 or 4-digit numbers)

Prefix

ICS, AV=Standard Device

ICS reserves the right to make changes in the device data identified in this

publication without further notice. ICS advises its customers to obtain the latest

version of all device data to verify that any information being relied upon by the

customer is current and accurate.

AV9107C

8-Pin Plastic SOIC Package

14-Pin SOIC Package

Ordering Information

AV9107C-03CS14, AV9107C-05CS08, AV9107C-10CS08, AV9107C-11CS14

Example:

XXX XXXX-PPP M X#W

Lead Count & Package Width

Lead Count=1,2, or 3 digits

W=0.3" SOIC or 0.6" DIP; None=Standard Width

Package Type

S=SOIC

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

Device Type (consists of 3 or 4-digit numbers)

Prefix

ICS, AV=Standard Device

ICS reserves the right to make changes in the device data identified in this

publication without further notice. ICS advises its customers to obtain the latest

version of all device data to verify that any information being relied upon by the

customer is current and accurate.

AV9107C-03CS14WLF [IDT]

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