L04024R7CHNTR [KYOCERA AVX]

General Purpose Inductor, 0.0047uH, 1 Element, SMD, 0402, CHIP, ROHS COMPLIANT;


型号：	L04024R7CHNTR
厂家：	KYOCERA AVX
描述：	General Purpose Inductor, 0.0047uH, 1 Element, SMD, 0402, CHIP, ROHS COMPLIANT 测试射频感应器电感器
文件：	总10页 (文件大小：178K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

Thin-Film RF/Microwave

Inductor Technology

Accu-L^®

Accu-L 0201 Tight Tolerance

SMD RF Thin Film Tuning Inductor

ACCU-L TECHNOLOGY

The L0201 SMD Tuning Inductor is based on thin-film multilayer

technology. The technology provides a miniature part with

excellent high frequency performance and rugged construction

for reliable automatic assembly.

APPLICATIONS

• Mobile Communications

• Satellite TV Receivers

• GPS

• Vehicle Location Systems

• Wireless LAN’s

• Filters

• Matching Networks

HOW TO ORDER

L0201

XXX

Inductance

(nH)

Tolerance

Series

Lead Free

Termination

Taped &

Reeled

P/N Example: L02013R3BHSTR

QUALITY INSPECTION

TERMINATION

Finished parts are 100% tested for electrical parameters and

visual characteristics. Each production lot is evaluated on a

sample basis for:

Nickel/Lead Free solder coating compatible with automatic

soldering technologies: reflow, wave soldering, vapor phase

and manual.

• Static Humidity: 85°C, 85% RH, 160 hours

• Endurance: 125°C, I_R, 4 hours

DIMENSIONS:

(TOP View)

millimeters (inches)

Recommended Pad Layout Dimensions

mm (inches)

0.26

(0.010)

0.78

(0.031)

0.26

(0.010)

0.26

(0.010)

0.34

(0.013)

0.600 0.0ꢀ0

(0.024 0.002ꢁ

0.32ꢀ 0.0ꢀ0

(0.013 0.002ꢁ

0.22ꢀ 0.0ꢀ0

(0.009 0.002ꢁ

0.100 0.100

(0.004 0.004ꢁ

0.1ꢀ0 0.0ꢀ0

(0.006 0.002ꢁ

Accu-L 0201 Tight Tolerance

SMD RF Thin Film Tuning Inductor

ELECTRICAL SPECIFICATIONS

450MHz

Tolerance

A= 0ꢀ05nH ꢁ B= 0ꢀ1nHꢁ

C= 0ꢀ2nHꢁ D= 0ꢀ5nH

900MHz

1900MHz 2400MHz

SRF

minꢀ

(MHz)

RDC

maxꢀ

(⍀)

IDC

maxꢀ

(mA)

(min)

(Typ)

L(nH)

(Typ)

0.33

0.39

0.47

0.56

0.68

0.82

1.0

1.2

1.5

1.8

2.2

0.05nH , 0.1nH , 0.2nH

0.1nH , 0.2nH , 0.5nH

0.1

0.2

0.3

0.5

0.6

0.7

1.0

550

500

400

300

250

200

180

150

2.7

3.3

All intermediate Inductance values within the indicated range are available.

L0402 Tight Tolerance

RF Inductor

GENERAL DESCRIPTION

ITF TECHNOLOGY

DIMENSIONS:

(Bottom View)

millimeters (inches)

The L0402 LGA Inductor is based on thin-film multilayer technology.

The technology provides a miniature part with excellent high frequency

performance and rugged construction for reliable automatic assembly.

APPLICATIONS

LAND GRID ARRAY

ADVANTAGES

• Inherent Low Profile

• Self Alignment during Reflow

• Excellent Solderability

• Low Parasitics

• Mobile Communications

• Satellite TV Receivers

• GPS

• Vehicle Location Systems

• Wireless LAN’s

• Filters

• Better Heat Dissipation

• Matching Networks

1.00 0.10

(0.039 0.004ꢁ

0.48 0.0ꢀ

(0.019 0.002ꢁ

0.ꢀ8 0.0ꢂ

(0.023 0.003ꢁ

0.1ꢂ 0.0ꢀ

(0.00ꢂ 0.002ꢁ

HOW TO ORDER

0.3ꢀ 0.10

(0.014 0.004ꢁ

0.064 0.0ꢀ

(0.003 0.002ꢁ

S, H

L0402

XXX

Inductance

(nH)

Tolerance

Series

LGA

Termination

Sn100

Taped &

Reeled

P/N Example: L04023R3BHNTR

LEAD-FREE COMPATIBLE

COMPONENT

QUALITY INSPECTION

TERMINATION

Finished parts are 100% tested for electrical parameters and

visual characteristics. Each production lot is evaluated on a

sample basis for:

Nickel/Lead Free solder coating compatible with automatic

soldering technologies: reflow, wave soldering, vapor phase

and manual.

• Static Humidity: 85°C, 85% RH, 160 hours

• Endurance: 125°C, I_R, 4 hours

Recommended Pad Layout Dimensions

mm (inches)

MAKING AND ORIENTATION IN TAPE

(Top View)

0.7

(0.028)

0.6 (0.024)

1.6 (0.063)

L0402 Tight Tolerance

RF Inductor

ELECTRICAL SPECIFICATIONS

450MHz

Tolerance

A= 0ꢀ05nH ꢁ B= 0ꢀ1nHꢁ

C= 0ꢀ2nHꢁ D= 0ꢀ5nH

900MHz

1900MHz 2400MHz

SRF

minꢀ

(MHz)

RDC

maxꢀ

(⍀)

IDC

maxꢀ

(mA)

(min)

(Typ)

L(nH)

(Typ)

0.56

0.68

0.82

1.0

1.2

1.5

1.8

2.2

2.7

3.3

3.9

4.7

5.6

6.8

0.05nH, 0.1nH

20000

18000

16000

15000

9500

8500

8000

7500

7000

0.02

0.04

0.06

0.15

0.20

0.25

0.40

0.45

0.65

0.90

1000

750

500

400

250

200

0.05nH, 0.1nH, 0.2nH

0.1nH, 0.2nH, 0.5nH

6500

Please contact factory for intermediate inductance values within the indicated range.

3ꢀ

Accu-L

SMD High-Q RF Inductor

10 nH Inductor (Top Viewꢁ

ACCU-L TECHNOLOGY

The Accu-L^®SMD Inductor is based on thin-film multilayer

technology. This technology provides a level of control on the

electrical and physical characteristics of the component which

gives consistent characteristics within a lot and lot-to-lot.

The Accu-L^®inductor is particularly suited for the telecom-

munications industry where there is a continuing trend

towards miniaturization and increasing frequencies. The

Accu-L^®inductor meets both the performance and tolerance

requirements of present cellular frequencies 450MHz and

900MHz and of future frequencies, such as 1700MHz,

1900MHz and 2400MHz.

The original design provides small size, excellent high-

frequency performance and rugged construction for reliable

automatic assembly.

FEATURES

APPLICATIONS

• High Q

• Mobile Communications

• Satellite TV Receivers

• GPS

• RF Power Capability

• High SRF

• Low DC Resistance

• Ultra-Tight Tolerance on Inductance

• Standard 0603 and 0805 Chip Size

• Low Profile

• Vehicle Locations Systems

• Filters

• Matching Networks

• Rugged Construction

• Taped and Reeled

Operating/Storage

Temp. Range:

-55°C to +125°C

DIMENSIONS: millimeters (inches)

0603

0805

1.6 0.10

2.11 0.10

(0.063 0.004ꢁ

0.81 0.10

(0.032 0.004ꢁ

0.61 0.10

(0.024 0.004ꢁ

top: 0.0 +0.3/-0.0

(0.0+0.012ꢁ

(0.083 0.004ꢁ

1.ꢀ 0.10

(0.0ꢀ9 0.004ꢁ

0.91 0.13

(0.036 0.00ꢀꢁ

0.2ꢀ 0.1ꢀ

(0.010 0.006ꢁ

bottom:

0.3ꢀ 0.20

(0.014 0.008ꢁ

Accu-L 0603 and 0805

SMD High-Q RF Inductor

HOW TO ORDER

0805

4R7

Product

Size

0603

0805

Termination

Code

W = Nickel/

solder coated

(Sn 63, Pb 37)

**S = Nickel/

Lead Free

Packaging

Code

TR = Tape and Reel

(3,000/reel)

Inductance

Expressed in nH

(2 significant digits +

number of zeros)

for

values <10nHꢁ

letter R denotes

decimal point.

Example:

Tolerance

for

L ≤ 4.7nH,

B = 0.1nH

C = 0.2nH

D = 0.5nH

Specification

Code

Inductor

E = Accu-L^®0805

technology

G = Accu-L^®0603

technology

Solder coated

(Sn100)

4.7nH<L<10nH,

C = 0.2nH

D = 0.5nH

Not RoHS Compliant

22nH = 220

4.7nH = 4R7

**RoHS compliant

L ≥ 10nH,

G = 2%

J = 5%

Engineering Kits Available

see pages 114-115

LEAD-FREE COMPATIBLE

COMPONENT

For RoHS compliant products,

please select correct termination style.

ELECTRICAL SPECIFICATIONS TABLE FOR ACCU-L 0603

450 MHz

900 MHz

1900 MHz

2400 MHz

max

Test Frequency

(mA)

SRF min

(MHz)

max

Inductance

L (nH)

Available

(Ω)

L (nH)

Typical

170

Inductance Tolerance

(1)

1000

750

500

300

1.2

1.5

1.8

2.2

2.7

3.3

3.9

4.7

5.6

6.8

8.2

10.0

12.0

15.0

1.2

134

1.2

10000

9000

8400

6500

5500

5000

4500

3800

3500

3000

2500

0.04

0.06

0.07

0.08

0.12

0.15

0.25

0.30

0.35

0.45

0.50

0.60

0.1, 0.2nH

0.1, 0.2, 0.5nH

0.2, 0.5nH

2%, 5%

1.54

1.74

2.2

2.7

3.33

3.9

4.68

5.65

6.9

8.4

1.52

1.73

2.24

2.75

3.39

4.06

4.92

5.94

7.3

1.52

1.72

2.24

2.79

3.47

4.21

5.2

6.23

8.1

12.1

11.8

14.1

25.9

14.1

17.2

49.8

2%, 5%

13.2

16.2

Inductance and Q measured on Agilent 4291B / 428ꢂ using the 16196A test fixture.

(1ꢁ

measured for 1ꢀ°C rise at 2ꢀ°C ambient temperature when soldered to FR-4 board.

ELECTRICAL SPECIFICATIONS TABLE FOR ACCU-L 0805

450 MHz

900 MHz

1700 MHz

2400 MHz

max

(mA)

Test Frequency

Test Frequency Test Frequency Test Frequency

SRF min

(MHz)

max

Inductance

L (nH)

ΔT = 15°C

(1)

ΔT = 70°C

Available

(Ω)

L (nH)

Typical

Inductance Tolerance

(2)

1.2

1.5

1.8

2.2

2.7

3.3

3.9

4.7

5.6

6.8

8.2

1.2

1.5

1.8

2.2

2.7

3.3

3.9

4.8

5.7

1.2

1.5

1.8

2.2

2.8

3.4

4.0

5.3

6.3

7.7

10.0

13.4

17.3

122

102

–

1.2

1.5

1.9

2.3

2.9

3.5

4.1

5.8

7.6

9.4

15.2

–

10000

5500

4600

4500

3500

2500

0.05

0.06

0.07

0.08

0.11

0.20

0.10

0.11

0.12

0.13

0.20

0.35

0.40

1000

750

500

2000

1500

1000

0.1nH, 0.2nH, 0.5nH

0.5nH

2%, 5%

7.0

8.5

10.6

12.9

16.7

21.9

27.5

–

2400

2200

1700

1400

–

(1ꢁ I_DCmeasured for 1ꢀ°C rise at 2ꢀ°C ambient temperature

(2ꢁ I_DCmeasured for ꢂ0°C rise at 2ꢀ°C ambient temperature

L, Q, SRF measured on HP 4291A, Boonton 34A and Wiltron 360

Vector Analyzer, R_DCmeasured on Keithley ꢀ80 micro-ohmmeter.

3ꢂ

Accu-L 0603 and 0805

SMD High-Q RF Inductor

L0603

Typical Q vs. Frequency

Typical Inductance vs. Frequency

L0603

180

160

140

120

100

1.2nH

15nH

100

8.2nH

6.8nH

1.5nH

5.6nH

4.7nH

3.3nH

2.2nH

8.2nH

15nH

1.8nH

1.2nH

0.5

1.5

2.5

Frequency (GHz)

Measured on AGILENT 4291B/428ꢂ

using the 16196A test fixture

Measured on AGILENT 4291B/428ꢂ

using the 16196A test fixture

L0805

Typical Inductance vs. Frequency

L0805

Typical Q vs. Frequency

L0805

140

100

120

1.2nH

100

1.5nH

22nH

1.8nH

15nH

10nH

5.6nH

1.8nH

10nH

15nH

22nH

0.01

0.1

Frequency (GHz)

Measured on HP4291A and

Boonton 34A Coaxial Line

Measured on HP4291A and

Wiltron 360 Vector Analyzer

Maximum Temperature Rise

at 25°C ambient temperature (on FR-4)

L0805

200

15nH

10nH 6.8nH 4.7nH

2.7nH

100

0.5

1.5

2.5

3.5

Current (A)

Temperature rise will typically be no higher than shown by the graph

Accu-L 0603 and 0805

SMD High-Q RF Inductor

FINAL QUALITY INSPECTION

Finished parts are tested for electrical parameters and visual/

mechanical characteristics.

Parts are 100% tested for inductance at 450MHz. Parts are

100% tested for R_DC. Each production lot is evaluated on a

sample basis for:

• Q at test frequency

• Static Humidity Resistance: 85°C, 85% RH, 160 hours

• Endurance: 125°C, I_R, 4 hours

ENVIRONMENTAL CHARACTERISTICS

TEST

CONDITIONS

REQUIREMENT

Solderability

Components completely immersed in

a solder bath at 235 5°C for 2 secs.

Terminations to be well tinned.

No visible damage.

Leach Resistance

Components completely immersed in

Dissolution of termination faces

a solder bath at 260 5°C for 60 secs. ≤ 15% of area.

Dissolution of termination edges

≤ 25% of length.

Storage

Shear

12 months minimum with components Good solderability

stored in “as received” packaging.

Components mounted to a substrate.

A force of 5N applied normal to the

line joining the terminations and in

a line parallel to the substrate.

No visible damage

Rapid Change of

Temperature

Components mounted to a substrate.

5 cycles -55°C to +125°C.

Tested as shown in diagram

No visible damage

Bend Strength

1mm

deflection

45mm

Temperature

Coefficient of

Inductance

(TCL)

Component placed in

environmental chamber

-55°C to +125°C.

+0 to +125 ppm/°C

• 10⁶

L₂-L₁

L₁(T₂-T₁)

TCL =

(typical)

T₁= 25°C

Accu-L

Application Notes

HANDLING

HAND SOLDERING & REWORK

SMD chips should be handled with care to avoid damage or

contamination from perspiration and skin oils. The use of

plastic tipped tweezers or vacuum pick-ups is strongly

recommended for individual components. Bulk handling

should ensure that abrasion and mechanical shock are min-

imized. For automatic equipment, taped and reeled product

is the ideal medium for direct presentation to the placement

machine.

Hand soldering is permissible. Preheat of the PCB to 100°C

is required. The most preferable technique is to use hot air

soldering tools. Where a soldering iron is used, a tempera-

ture controlled model not exceeding 30 watts should be

used and set to not more than 260°C. Maximum allowed

time at temperature is 1 minute. When hand soldering, the

base side (white side) must be soldered to the board.

COOLING

CIRCUIT BOARD TYPE

All flexible types of circuit boards may be used (e.g. FR-4,

G-10) and also alumina.

After soldering, the assembly should preferably be allowed to

cool naturally. In the event of assisted cooling, similar condi-

tions to those recommended for preheating should be used.

For other circuit board materials, please consult factory.

CLEANING RECOMMENDATIONS

Care should be taken to ensure that the devices are thor-

oughly cleaned of flux residues, especially the space beneath

the device. Such residues may otherwise become conduc-

tive and effectively offer a lossy bypass to the device. Various

recommended cleaning conditions (which must be optimized

for the flux system being used) are as follows:

COMPONENT PAD DESIGN

Component pads must be designed to achieve good joints

and minimize component movement during soldering.

Pad designs are given below for both wave and reflow

soldering.

The basis of these designs is:

Cleaning liquids . . . . . . i-propanol, ethanol, acetylace-

tone, water, and other standard

a. Pad width equal to component width. It is permissible

to decrease this to as low as 85% of component width

but it is not advisable to go below this.

PCB cleaning liquids.

Ultrasonic conditions . . power – 20w/liter max.

frequency – 20kHz to 45kHz.

b. Pad overlap about 0.3mm.

Temperature. . . . . . . . . 80°C maximum (if not otherwise

limited by chosen solvent system).

c. Pad extension about 0.3mm for reflow.

Pad extension about 0.8mm for wave soldering.

Time. . . . . . . . . . . . . . . 5 minutes max.

REFLOW SOLDERING

DIMENSIONS: millimeters (inches)

STORAGE CONDITIONS

Recommended storage conditions for Accu-L^®prior to use

are as follows:

0201

0402

0603

0805

Accu-L^®

Temperature. . . . . . . . . 15°C to 35°C

Humidity . . . . . . . . . . . ≤65%

0.26

(0.010)

0.7

0.6

(0.024)

(0.028)

0.90

(0.035)

0.78

(0.031)

1.6

(0.063)

0.26

Air Pressure . . . . . . . . . 860mbar to 1060mbar

0.4

(0.015)

(0.010)

2.3

(0.091)

0.50

2.8

1.4

(0.020)

(0.110) (0.055)

0.26

(0.010)

0.6

(0.024)

0.90

0.34

(0.013)

(0.035)

0.7

(0.028)

0.7

RECOMMENDED SOLDERING PROFILE

For recommended soldering profile see page 29

(0.028)

0.8

(0.031)

1.5

(0.059)

PREHEAT & SOLDERING

The rate of preheat in production should not exceed

4°C/second. It is recommended not to exceed 2°C/second.

Temperature differential from preheat to soldering should not

exceed 150°C.

For further specific application or process advice, please

consult AVX.

L04024R7CHNTR [KYOCERA AVX]

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