LL1608-FS1N2S datasheet, PDF - EEWORLD Datasheet

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LL1608-FS1N2S: DescriptionMultilayer Chip Inductors; CategoryPassive components inductor; File Size371KB，2 Pages; ManufacturerTOKO, INC.; Websitehttps://www.murata.com/

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LL1608-FS1N2S Overview

Multilayer Chip Inductors

LL1608-FS1N2S Parametric

Parameter Name	Attribute value
Is it Rohs certified?	incompatible
Maker	TOKO, INC.
package instruction	0603
Reach Compliance Code	unknow
ECCN code	EAR99
uppercase and lowercase codes	0603
structure	Chi
core material	CERAMIC
DC Resistance	0.1 Ω
Nominal inductance(L)	0.0012 µH
Inductor Applications	RF INDUCTOR
Inductor type	GENERAL PURPOSE INDUCTOR
Number of functions	1
Number of terminals	2
Maximum operating temperature	100 °C
Minimum operating temperature	-40 °C
Package height	0.8 mm
Package length	1.6 mm
Package form	SMT
Package width	0.8 mm
method of packing	TR
Minimum quality factor (at nominal inductance)	10
Maximum rated current	1 A
self resonant frequency	10000 MHz
series	LL1608-FS
Shape/Size Description	RECTANGULAR PACKAGE
shield	NO
special characteristics	INDUCTANCE TOLERANCE IS 0.3 NANO HENRY
surface mount	YES
Terminal location	DUAL ENDED
Terminal shape	WRAPAROUND
Test frequency	100 MHz
Tolerance	25%
Base Number Matches	1

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TYPE

LL1608FS

Multilayer Chip Inductors

Meeting Your Needs

The LL1608-FS Series is a miniature multilayer ceramic chip

inductor. TOKO's proprietary laminated ceramic material pro-

vides high SRF, excellent Q, and superior reliability. The FS al-

lows up to 3 times the current handling of standard multilayers.

In addition, the Qs are 1.3-1.6 times higher. It has an industry

standard 0603 footprint and comes on tape in 4,000 piece reels.

It is an ideal solution for higher current needs in high frequency

RF and wireless communications equipment.

Polarity Marking

Unit: mm

Type

LL1608FS

L (mm)

1.6±0.15

W (mm)

0.8±0.15

T (mm)

0.8±0.15

A (mm)

0.3±0.2

Features

• Inductance range: 1.2-270nH (E-12 Series)

• Miniature size: 0603 footprint (1.6mm x 0.8mm)

• Laminated ceramic allows high SRF

• Q: 43 ~ 71 typical (at 1800MHz)

• High current handling, up to 1A

• Temperature coefficient of inductance: +250ppm/°C

• Temperature range: –40°C to +100°C

• S-parameter data available upon request

• Packaged on tape and reel in 4,000 piece quantity

• Reflow solderable

Part Numbering

LL 1608 - FS 1N2 S

Tolerance

(S=±0.3nH, J=±5%, K=±10%)

Inductance

Material

Dimensions

(LxW)

Type Name

STANDARD PARTS SELECTION GUIDE

TYPE LL1608-FS

TOKO

Part

Number

LL1608-FS1N2S

LL1608-FS1N5S

LL1608-FS1N8S

LL1608-FS2N2S

LL1608-FS2N7S

LL1608-FS3N3_*

LL1608-FS3N9_*

LL1608-FS4N7_*

LL1608-FS5N6_*

LL1608-FS6N8_*

LL1608-FS8N2_*

LL1608-FS10N_*

LL1608-FS12N_*

LL1608-FS15N_*

LL1608-FS18N_*

LL1608-FS22N_*

LL1608-FS27N_*

LL1608-FS33N_*

LL1608-FS39N_*

LL1608-FS47N_*

LL1608-FS56N_*

LL1608-FS68N_*

LL1608-FS82N_*

LL1608-FSR10_*

LL1608-FSR12_*

LL1608-FSR15_*

LL1608-FSR18_*

LL1608-FSR22_*

LL1608-FSR27_*

Inductance (nH)

at 100MHz

1.2

1.5

1.8

2.2

2.7

3.3

3.9

4.7

5.6

6.8

8.2

100

120

150

180

220

270

Inductance

Tolerance *

S, K

J, K

Q (typ.) at---MHz

100MHz

**18

**19

***15

800MHz

–

1800MHz

–

SRF (MHz)

typ.

10000

8000

7200

6200

5350

5250

4750

4100

3300

3000

2500

2350

2050

1900

1750

1450

1250

1200

1100

950

850

680

600

500

450

RDC (

Ω

)

max.

0.10

0.11

0.13

0.15

0.17

0.20

0.22

0.26

0.30

0.35

0.40

0.47

0.54

0.62

0.71

0.74

0.86

0.94

1.20

1.80

2.00

2.40

2.70

3.00

3.50

IDC (mA)

max.

1000

600

500

400

300

200

150

* Add tolerance to part number: S=±0.3nH, J =

±5%,

K =

±10%

**50MHz, ***25MHz

Testing Conditions: (1) L,Q: Agilent 4291A at 100MHz (Test fixture Agilent 16192A)

(2) SRF: Agilent 8719D

(3) RDC: Agilent 4338B

1.800.PIK.TOKO

www.tokoam.com

1.847.297.0070

R-LOG0703A

LL1608-FS1N2S Related Products

	LL1608-FS1N2S	LL1608-FS1N2J	LL1608-FS1N2K	LL1608FS1N2S	LL1608FS1N2K	LL1608FS1N2J	LL1608FS	LL1608-FSxx
Description	Multilayer Chip Inductors	Multilayer Chip Inductors	Multilayer Chip Inductors	Multilayer Chip Inductors	Multilayer Chip Inductors	Multilayer Chip Inductors	Multilayer Chip Inductors	Multilayer Chip Inductors

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