FVXO-HC53BR-64 [IDT]

HCMOS Output Clock Oscillator;


型号：	FVXO-HC53BR-64
厂家：	INTEGRATED DEVICE TECHNOLOGY
描述：	HCMOS Output Clock Oscillator
文件：	总15页 (文件大小：817K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

Model: FVXO-HC53 SERIES

HCMOS 5 x 3.2mm 3.3V V C X O

Freq: 0.75 MHz to 250MHz

Rev. 11/28/2007

Features

XTREMELY Low Jitter

Low Cost

XPRESS Delivery

Frequency Resolution to six decimal places

Absolute Pull Range (APR) of ±50ppm

-20 to +70°C or -40 to +85°C operating temperatures

Tri-State Enable / Disable Feature

Industry Standard Package, Footprint & Pin-Out

Fully RoHS compliant

Applications

• ANY application requiring an oscillator

• SONET

Gold over Nickel Termination Finish

Serial ID with Comprehensive Traceability

• Ethernet

• Storage Area Network

• Broadband Access

V_C

V_DD

Enable / Disable

• Microprocessors / DSP / FPGA

• Industrial Controllers

• Test and Measurement Equipment

• Fiber Channel

FOX

Frequency

Control

Circuit

OUTPUT

X_PRESSO

ASICs

GND

For more information -- Click on the drawing

Contents

page

Description

Model Selection & Part Number Guide

Electrical Characteristic

Absolute Maximums

Output Wave Characteristics

Phase Noise

The Fox XPRESSO Crystal Oscillator is a

breakthrough in configurable Frequency Control

Solutions. XPRESSO utilizes a family of

proprietary ASICs, designed and developed by

Fox, with a key focus on noise reduction

technologies.

Jitter

Pin Assignment

Recommended Circuit

Reflow

Mechanical Drawing and Pad Layout

Tape and Reel Specification

Label

Traceability – LOT Number & Serial Identification

RoHS Material Declaration

SGS Report

Mechanical Test

Burn-In Test

MTTF / FITS calculations

Other XPRESSO Links

Fox Contact Information

The 3^rdorder Delta Sigma Modulator reduces

noise to the levels that are comparable to

traditional Bulk Quartz and SAW oscillators.

The ASICs family has ability to select the output

type, input voltages, and temperature

performance features.

11 & 12

With the XPRESS lead-time, low cost, low noise,

wide frequency range, excellent ambient

performance, XpressO is an excellent choice

over the conventional technologies.

Finished XPRESSO parts are 100% final tested.

Page 1 of 15

FOXElectronics 5570 Enterprise Parkway Fort Myers, Florida 33905 USA +1.239.693.0099 FAX +1.239.693.1554 http://www.foxonline.com

FVXO-HC53 Series

Model Selection Guide & Fox Part Number

STEP #1: Customer selects the Model Description and provides to Fox Customer Service

Model Description

F V X O – H C 5 3 B R – 3 5 . 3 2 8 Frequency (in MHz)

Resolutions to 6 places

past the decimal point

blank = -20°C to +70°C

R = -40°C to +85°C

B = ±50ppm Absolute Pull Range

H = HCMOS

L = LVDS

C = Ceramic

Q = Quartz

5 = 5 x 3.2mm

7 = 7 x 5mm

3 = 3.3 V

2 = 2.5 V

P = LVPECL

X = HCMOS (comp 2^ndOutput)

STEP #2: The Fox Customer Service team provides a customer specific Part Number

for use on their Bill Of Materials (BOM).

Fox Part Number (The assigned Fox Part Number must be on the BOM – not the above Model Description)

(This will ensure receipt of the proper part)

The 1^stField

7 9 3 – 3 5 . 3 2 8 – 2

Product Code #

The 3^rdField

Fox Internally Generated Number

(If any specification changes,

the last digits change)

(The same specs for a different customer

also changes the last digits)

793 = FVXO–HC5

792 = FVXO–HC7

797 = FVXO–LC5

794 = FVXO–LC7

795 = FVXO–PC5

796 = FVXO–PC7

The 2^ndField

The Customer’s Frequency

This example, FVXO-HC53BR-35.328 = Voltage Controlled, HCMOS Output, Ceramic, 5 x 3.2mm Package, 3.3V,

±50 PPM Absolute Pull Range, -40 to +85°C Temperature Range, at 35.328 MHz

Absolute Maximum Ratings (Useful life may be impaired. For user guidelines only, not tested)

Maximum Value

Parameters

Input Voltage

Symbol

V_DD

Condition

(unless otherwise noted)

–0.5V to +5.0V

–55°C to +105°C

–55°C to +125°C

150°C

Operating Temperature

Storage Temperature

Junction Temperature

ESD Sensitivity

T_AMAX

T_STG

HBM

Human Body Model

1 kV

Page 2 of 15

FVXO-HC53 Series

Electrical Characteristics

Maximum Value

(unless otherwise noted)

Parameters

Symbol

Condition

Frequency Range

F_O

APR

T_O

0.750 to 250.000 MHz

± 50 ppm MIN

Absolute Pull Range ^{Note 1}

Temperature Range

Supply Voltage

Standard operating

Optional operating

Storage

-20°C to +70°C

-40°C to +85°C

-55°C to +125°C

T_STG

V_DD

Standard

3.3 V ± 5%

0.75 ~ 20 MHz

20+ ~ 50 MHz

50+ ~ 130 MHz

130+ ~ 200 MHz

200+ ~ 250 MHz

Standard

32 mA

35 mA

47 mA

55 mA

60 mA

15 pF

30 pF

Input Current _{(@ 15pF LOAD)}

Output Load

I_DD

HCMOS

T_S

Operational To 125MHz

Start-Up Time

10 mS

100 nS

Output Enable / Disable Time

Moisture Sensitivity Level

Termination Finish

MSL

JEDEC J-STD-20

Note 1 – Inclusive of 25°C tolerance, operating temperature range, input voltage change, load change, aging, shock and vibration.

Frequency Control (V_C) Input -- pin # 1

Maximum Value

Parameters

Symbol

Condition

(unless otherwise noted)

40 ~ 75 ppm/V Typ²

± 10%

Control Voltage Tuning Slope ¹

Control Voltage Linearity ²

Control Voltage Tuning Range

Modulation Bandwidth

0V to V_DD

L_VC

V_C

0V ~ 3.3V

10 kHz

Nominal Control Voltage

V_CNOM

@ f₀

1.65V

NOTES:

Actual slope is affected by frequency and accuracy settings.

For an example of linearity, see the graph below. (The middle line represents the default Fox factory setting)

FVXO Oscillator Pull

(range of typical responses)

@ 25°C --

150.0

100.0

50.0

0.0

-50.0

-100.0

-150.0

0.00

0.30

0.60

0.90

1.20

1.50

1.80

2.10

2.40

2.70

3.00

3.30

Voltage Applied to Pin # 1

Page 3 of 15

FVXO-HC53 Series

Output Wave Characteristics

Maximum Value

(unless otherwise noted)

Parameters

Symbol

Condition

0.75 to 150 MHz

150+ to 250 MHz

0.75 to 150 MHz

150+ to 250 MHz

10% V_DD

20% V_DD

90% V_DDMIN

80% V_DDMIN

Output LOW Voltage

V_OL

Output HIGH Voltage

V_OH

Output Symmetry (See Drawing Below)

Output Enable _{(PIN # 2)}Voltage

Output Disable _{(PIN # 2)}Voltage

@ 50% V_DDLevel

45% ~ 55%

> 70% V_DD

< 30% V_DD

V_IH

V_IL

0.75 to 150 MHz

150+ to 250 MHz

0.75 to 150 MHz

150+ to 250 MHz

3 nS

(10%~90%)

Cycle Rise Time (See Drawing Below)

T_R

T_F

(20%~80%)

(90%~10%)

Cycle Fall Time ^{(See Drawing Below)}

(80%~20%)

If 30% to 70% times are used, Rise and Fall times change to 1.5 nS from 0.75 to 250MHz

If 20% to 80% times are used, Rise and Fall times change to 2 nS from 0.75 to 150MHz

Rise Time / Fall Time Measurements

10% to 90%

0V to V_DD

30% to 70%

20% to 80%

70 - 30

Times

90% - 10%

10% - 90%

80 - 20

Times

Fall Time

Rise Time

Oscillator Symmetry

Off Time

On Time

1/2 Period

50% V_DD

Period

Ideally, Symmetry should be 50/50 -- Other expressions are 45/55 or 55/45

Page 4 of 15

FVXO-HC53 Series

Phase Noise

0 dBc

Phase Noise Graph

-10dBc

-20dBc

-30dBc

-40dBc

-50dBc

-60dBc

-70dBc

-80dBc

-90dBc

(dBc / Hz) vs. offset frequency

Data Collected using HP 3048A

Three Frequencies from Jitter Tables

156.25MHz

62.5 MHz

-100dBc

-110dBc

-120dBc

-130dBc

-140dBc

106.25 MHz

62.5 MHz

156.25MHz

106.25 MHz

-150dBc

-160dBc

100

10k

100k

10M

40M

Offset Frequency (10Hz to 40MHz)

Jitter is frequency dependent. Below are typical values at select frequencies.

Phase Jitter & Time Interval Error (TIE)

Phase Jitter

T I E

Frequency

62.5 MHz

Units

pS RMS

(12kHz to 20MHz)

(Sigma of Jitter Distribution)

0.93

0.86

0.75

0.77

2.8

3.2

2.7

3.3

106.25 MHz

125 MHz

156.25 MHz

Phase Jitter is integrated from HP3048 Phase Noise Measurement System; measured directly into 50 ohm input; V_DD= 3.3V.

TIE was measured on LeCroy LC684 Digital Storage Scope, directly into 50 ohm input, with Amherst M1 software; V_DD= 3.3V.

Per MJSQ spec (Methodologies for Jitter and Signal Quality specifications)

Random & Deterministic Jitter Composition

Total Jitter (Tj)

Random (Rj) Deterministic (Dj)

Frequency

62.5 MHz

(14 x Rj) + Dj

(pS RMS)

1.28

(pS P-P)

6.8

25.1 pS

26.6 pS

25.2 pS

26.6 pS

106.25 MHz

125 MHz

1.28

8.4

1.20

8.0

1.27

156.25 MHz

8.6

Rj and Dj, measured on LeCroy LC684 Digital Storage Scope, directly into 50 ohm input, with Amherst M1 software.

Per MJSQ spec (Methodologies for Jitter and Signal Quality specifications)

Page 5 of 15

FVXO-HC53 Series

Pin Description and Recommended Circuit

Pin #

Name

V_C

E / D ¹

GND

Output

N. C.

Type

Control

Logic

Function

Frequency Control by changing voltage

Enable / Disable Control of Output (0 = Disabled)

Electrical Ground for V_DD

Ground

Output

Hi Z

HCMOS Oscillator Output

No Connection (Factory Use ONLY)

Power

Power Supply Source Voltage

V_DD

NOTES:

Includes pull-up resistor to V_DDto provide output when the pin (2) is No Connect.

Installation should include a 0.01µF bypass capacitor placed between V_DD

(Pin 6) and GND (Pin 3) to minimize power supply line noise.

V_C

V_DD

0.01 F

V_DD

# 1

# 2

# 3

# 6

# 5

# 4

V_C

E / D 2

N. C.

Output

N C

E / D

GND

OUT

HCMOS LOAD

(15 pF)

Terminations as viewed from the Top

Enable / Disable Control

Pin # 2 (state)

OPEN _{(No Connection)}

Output (Pin # 4)

ACTIVE Output

High Impedance

“1” Level V_IH> 70% V_DD

“0” Level V_IL< 30% V_DD

Soldering Reflow Profile (2 times Maximum at 260°C for 10 seconds MAX)

10 Seconds Max

within 5°C of 260°C peak

260°C

Ramp-Up

3°C/s Max

Ramp Down

Not to exceed 6°C/s

225°C

180°C

50±10 Seconds

Above 225°C Reflow Area

120 ± 20 Seconds

In Pre-heating Area

160°C

25°C

400 Seconds MAX from +25°C to 260°C peak

Page 6 of 15

FVXO-HC53 Series

Mechanical Dimensional Drawing & Pad Layout

5.15 Max

#6 #5 #4

Actual part marking

is depicted.

TOP

VIEW

X ^PRESS

3.35 Max

1.4 Max

See Traceability (pg. 9)

for more information

#1 #2 #3

0.5

2.54

1.27

#1 #2 #3

#6 #5 #4

1.2

0.64

Recommended

Solder Pad Layout

2.54

0.8

1.29

2.25

1.27

1.24

Pin Connections

#1) V_C

#4) Output

#5) NC

#2) E/D

#3) GND

#6) V_DD

Drawing is for reference to critical specifications defined by size measurements.

Certain non-critical visual attributes, such as side castellations, reference pin shape, etc. may vary

Page 7 of 15

FVXO-HC53 Series

Tape and Reel Dimensions

4.0mm

Ø1.5mm

7.5mm

5.5mm

16mm

12mm

2.15mm

8.0mm

2k Reel Dimensions

in mm

1k Reel Dimensions

2.0

in mm

2.0

120°

Ø21.0

Ø13.0

Ø21.0

255.0

Ø13.0

2.0

80.0

178.0

62.0

2.0

17.5

Labeling (Reels and smaller packaging are labeled with the below)

•

Fox Part Number: 793-35.328-2

Quantity: 2000 pieces

Description: FVXO-HC53BR-35.328

793-35.328-2

•

FVXO-HC53BR-35.328

•

Date Code

0745

(YYWW 2007 45^thwk)

•

LOT #

24435

If traceability should become necessary

An additional identification code is contained internally if tracking should ever be necessary

Page 8 of 15

FVXO-HC53 Series

Traceability – LOT Number & Serial Identification

LOT Number

The LOT Number has direct ties to the customer purchase order. The LOT Number is marked on the

“Reel” label, and also stored internally on non-volatile memory inside the XPRESSO part. XPRESSO parts

that are shipped Tape and Reel, are also placed in an Electro Static Discharge (ESD) bag and will have the

LOT Number labeled on the exterior of the ESD bag.

It is recommended that the XPRESSO parts remain in this ESD bag during storage for protection and

identification.

If the parts become separated from the label showing the LOT Number, it can be retrieved from inside one

of the parts, and the information that can be obtained is listed below:

•

Customer Purchase Order Number

Internal Fox Sales Order Number

Dates that the XPRESSO part was shipped from the factory

The assigned customer part number

The specification that the part was designed for

Serial Identification

The Serial ID is the individualized information about the configuration of that particular XPRESSO part. The

Serial ID is unique for each and every XPRESSO part, and can be read by special Fox equipment.

With the Serial ID, the below information can be obtained about that individual, XPRESSO part:

•

Equipment that the XPRESSO part was configured on

Raw material used to configure the XPRESSO part

Traceability of the raw material back to the foundries manufacturing lot

Date and Time that the part was configured

Any optimized electrical parameters based on customer specifications

Electrical testing of the actual completed part

Human resource that was monitoring the configuration of the part

Fox has equipment placed at key Fox locations World Wide to read the Lot Identification and Serial

Number of any XPRESSO part produced and can then obtain the information from above within 24 hours

Page 9 of 15

FVXO-HC53 Series

RoHS Material Declaration

Material Name

Kovar

Component

Content

(mg)

Content

（ｗｔ％）

(CAS Number)

7440-02-0

7440-48-4

7439-89-6

1344-28-1

14808-60-7

1308-38-9

18868-43-4

1309-48-4

1305-78-8

7440-33-7

7439-98-7

7440-02-0

7440-48-4

7440-57-5

7439-89-6

7440-02-0

7440-48-4

7440-22-4

7440-50-8

7429-90-5

7440-21-3

7440-57-5

7440-22-4

Cover

Base

Nickel (Ni)

1.890

3.09%

Cobalt (Co)

1.113

1.82%

Iron (Fe)

3.540

5.78%

Ceramic

Alumina (Al₂O₃)

35.484

1.733

57.98%

2.83%

Silicon Oxide (SiO₂)

Chromium Oxide (Cr₂O₃)

Molybdenum Oxide (MoO₂)

Magnesium Oxide (MgO)

Calcium Oxide (CaO)

Tungsten (W)

0.268

0.44%

0.364

0.59%

0.234

0.38%

0.253

0.41%

+ Metallization

6.290

10.28%

0.32%

Molybdenum (Mo)

0.195

+ Nickel Plating Nickel (Ni)

Cobalt (Co)

0.810

1.32%

0.203

0.33%

+ Gold Plating

Gold (Au)

0.281

0.46%

＋Seal ring

Iron (Fe)

2.438

3.98%

Nickel (Ni)

Cobalt (Co)

Silver (Ag)

Copper (Cu)

Aluminum (Al)

Silicon (Si)

Gold (Au)

1.309

2.14%

0.768

1.25%

＋silver solder

1.191

1.95%

0.210

0.34%

ＩＣ

0.0021

0.950

0.00343%

1.55%

Gold

0.480

0.784%

0.000343%

0.0001144%

1.91%

Adhesive

Silver (Ag)

Epoxy

0.000210

0.0000700

1.170

Crystal

TOTAL

Crystal

Silicon Dioxide (SiO₂)

Silver (Ag)

Nickel (Ni)

Silver (Ag)

Silicon (Si)

14808-60-7

7440-22-4

7440-02-0

7440-22-4

7440-21-3

Electrode

0.019

0.0310%

0.000260%

0.000605%

0.000204%

100.00%

0.000159

0.00037

0.000125

61.196

Adhesive

Page 10 of 15

FVXO-HC53 Series

3^rdParty (SGS) Material Report

Page 11 of 15

FVXO-HC53 Series

3^rdParty (SGS) Material Report (continued)

Page 12 of 15

FVXO-HC53 Series

Mechanical Testing

Parameter

Test Method

Mechanical Shock

Drop from 75cm to hardwood surface – 3 times

10~55Hz, 1.5mm amplitude, 1 Minute Sweep

2 Hours each in 3 Directions (X, Y, Z)

Mechanical Vibration

High Temperature Burn-in

Hermetic Seal

Under Power @ 125°C for 2000 Hours (results below)

He pressure: 4 ±1 kgf / cm²2 Hour soak

2,000 Hour Burn-In

Burn-In Testing – under power 2000 Hours, 125°C

Page 13 of 15

FVXO-HC53 Series

MTTF / FITS Calculations

Products are grouped together by process for MTTF calculations.

(All XpressO output and package types are manufactured with the same process)

Number of Parts Tested:

Number of Failures: 0

360 (120 of each output type: HCMOS, LVDS, LVPECL)

Test Temperature: 125°C

Number of Hours:

2000

MTTF was calculated using the following formulas:

[1.] Device Hours (devhrs) = (number of devices) x (hours at elevated temperature in °K)

devhrs× af × 2

[2.] MTTF =

χ²

[3.] FITS =

* 10⁹

MTTF

Where:

Label

Name

Formula/Value

1 1

)×( −

t₁t₂

)

e⁽

Acceleration Factor

Activation Energy

0.40 V

8.62 X 10^-5eV/°K

Bolzman’s Constant

t₁

t₂

Operating Temperature (°K)

Accelerated Temperature (°K)

Confidence Level (60% industry standard)

Number of failed devices

Theta

Failures

statistical significance for bivariate tabular analysis [table look-

up] based on assumed Θ (Theta – confidence) and number of

failures (r) For zero failures (60% Confidence): χ²= 1.830

χ²

Chi-Square

DEVICE-HOURS = 360 x 2000 HOURS = 720,000

0.40

(

)×(

−

)

8.625

298 398

ACCELERATION FACTOR =

= 49.91009

720,000× 49.91009× 2

MTTF =

= 15,607,065 Hours

1.833

Failure Rate =

= 6.41E-8

720,000× 49.91009× 2

FITS = Failure Rate *1E9 = 64

Page 14 of 15

FVXO-HC53 Series

Notes :

FVXO-HC53BR-64 [IDT]

相关型号：

SI9130DB

SI9135LG-T1

SI9135LG-T1-E3

SI9135_11

SI9136_11

SI9130CG-T1-E3

SI9130LG-T1-E3

SI9130_11

SI9137

SI9137DB

SI9137LG

SI9122E