RF Ceramic Chip Inductors

Johanson Technology unpatterned thin film ceramic substrates – high-purity polished alumina plates for RF, microwave, and hybrid circuits with precise tolerances and smooth surface

RF Ceramic Chip Inductors for High-Frequency Wireless Designs

Johanson Technology's RF Inductors are optimized for high-frequency applications requiring low loss, tight tolerances, and stable inductance across temperature and frequency ranges. These inductors are ideal for compact PCB layouts in wireless, IoT, and embedded systems.

Key Features:

High Q and low DCR for efficient RF performance
Tight inductance tolerance for precision matching
Stable performance across temperature and frequency
Available in multiple case sizes and inductance values
RoHS compliant and non-magnetic options available

Typical Applications:

CELL/PCS Modules
Wireless LAN
Broadband Components
RFID
RF transceivers
RoHS Compliant (Standard, "V" Code)
Sn/Pb Terminations Optional ("T" Code)

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EIA Size (mm)	L RANGE	Q FACTOR (Min.)	SRF(Typ.)	TEMPERATURE
0201 (0603)	0.6 - 39 nH	4 (100 MHz)	>21 GHz (1.0 nH)	-55°C to + 100°C
0402 (1005)	1.0 - 120 nH	8 (100 Mhz)	>21 GHz (1.0 nH)	-55°C to + 100°C
0603 (1608)	1.2 - 220 nH	12 (1 MHz)	>23 GHz (1.0 nH)	-55°C to + 100°C

RF Ceramic Inductors from Johanson Technology

Inductance Range / Electrical Characteristics

EIA Size \ Inductor Value			0201	0402	0603
Inductance			0201	0402	0603
nH	Code	Tolerance
0.6	0N6	C S	300 mA
0.7	0N7		300 mA
0.8	0N8		300 mA
0.9	0N9		300 mA
1.0	1N0		300 mA	300 mA	300 mA (S only)
1.2	1N2		300 mA	300 mA (S only)	300 mA (S only)
1.3	1N3		300 mA
1.5	1N5		300 mA	300 mA (S only)	300 mA (S only)
1.8	1N8		300 mA	300 mA (S only)	300 mA (S only)
1.9	1N9		300 mA	300 mA (S only)
2.0	2N0		300 mA	300 mA (S only)
2.2	2N2		300 mA	300 mA (S only)	300 mA (S only)
2.3	2N3		300 mA
2.4	2N4		300 mA	300 mA (S only)
2.5	2N5		300 mA
2.7	2N7		300 mA	300 mA (S only)	300 mA (S only)
3.0	3N0		300 mA	300 mA (S only)
3.3	3N3	K S	300 mA	300 mA	300 mA
3.6	3N6		300 mA	300 mA
3.7	3N7		300 mA	300 mA
3.9	3N9		300 mA	300 mA	300 mA
4.3	4N3			300 mA
4.7	4N7		300 mA	300 mA	300 mA
5.1	5N1		300 mA	300 mA
5.6	5N6		300 mA	300 mA	300 mA
6.2	6N2			300 mA
6.8	6N8	J K	250 mA	250 mA	300 mA
7.5	7N5			250 mA
8.2	8N2		250 mA	250 mA	300 mA
10	10N		250 mA	250 mA	300 mA
12	12N		250 mA	250 mA	300 mA
13	13N		250 mA	250 mA	300 mA
15	15N		250 mA	250 mA
18	18N		200 mA	200 mA	300 mA
20	20N		200 mA	200 mA
22	22N		200 mA	200 mA	300 mA
23	23N			200 mA
27	27N		200 mA	200 mA	300 mA
33	33N		200 mA	200 mA	300 mA
39	39N		200 mA	150 mA	300 mA
43	43N			150 mA
47	47N			150 mA	300 mA
56	56N			150 mA	300 mA
68	68N			100 mA	300 mA
82	82N			100 mA	300 mA
100	R10			100 mA	300 mA
120	R12			100 mA	300 mA
150	R15				300 mA
180	R18				300 mA
220	R22				300 mA
270	R27
330	R33
390	R39
420	R42
560	R56
680	R68

Example Part Number: LRC0402CC1N0GV001B

Description: Ceramic Inductor, 0402, 1.0nH±0.2nH, 300mA, Ni/Sn (RoHS), Orientation Mark Full Marking, Bulk

How to Order

Valid options are shown except for Capacitance
A typical PN is LRC0201CC10NGV001T. This part number breaks down as follows:

L R C 0 2 0 1 C C 1 0 N G V 0 0 1 T

New Johanson Global Part Number Breakdown

* Not all combinations create valid part numbers, ask our Apps Engineering Team for assistance creating a valid part number Request for assistance

Click below to see the new Global Part Number Reference Chart for this product

Inductor RF Ceramic Chip

0201

0402

0603

C0402 & 0603 (See "Marking")

B Polarity Half-Markked (all 0201)

±0.2nH

±0.3nH

±5%

±10%

1 N 0

See table

1st two digits are significant, 3rd digit denotes number of zeros:

1 0 1

1000 pF

1 0 2

0.10 µF

No Mark

EIA Mark

Cap Code & Tol

Marking available on 0805 and larger sizes

G V

Ni/Sn (RoHS) for "F" types

N T

Ni/SbPb

0 0 1

Standard Catalog Part

0 0 2

Automotive (AEC-Q200)

Tape & Reel

Bulk

Johanson has instituted a new Global Part Numbering (GPN) system.

Only the part number is changing. The parts are produced with the exact same materials, manufacturing processes, manufacturing controls, dimensions, physical attributes and testing as the parts supplied with the legacy part numbers.

The GPNs will be phased in over the next several years and are planned to be completed by January 1, 2026.

We will continue to quote and accept orders with the current (legacy) part numbers throughout this period.

Beginning January 1, 2022, all samples will be provided with the GPN.

Updates associated with this change will occur periodically.

A database for the approximate 2 million crosses can be accessed at: https://www.johansontechnology.com/pn-search