global solutions :
local support
™
Board Level EMI Filtering Solutions
Ferrite Chip Beads, Common Mode Chokes, Differential
Mode Filters, Chip Inductors, Ferrite Disks & Plates
www.lairdtech.com
Laird Technologies is the world leader in the design and supply of
customized performance critical products for wireless and other advanced
electronic applications. Laird Technologies partners with it's customers to
help find solutions for applications in various industries such as:
Aerospace
Automotive Electronics
Computers
Consumer Electronics
Data Communications
Medical Equipment
Military
Network Equipment
Telecommunications
Laird Technologies offers its customers unique product solutions, dedication
to research and development and a seamless network of manufacturing
and customer support facilities located all across the globe.
global solutions :
local support
™
www.lairdtech.com
Board Level EMI Solutions
Contents
EMI Ferrite Chip Beads ............................................................ 5
EMI Ferrite SMT Bead Assemblies ............................................ 9
Chip Bead Impedance Z Curves Under Bias ........................... 10
Technical Review of Common Mode Chokes ......................... 26
Common Mode Chokes - Series 05 (0805 size) ..................... 28
Common Mode Monolithic Beads ......................................... 29
Common Mode Chokes - Series 21 ........................................ 31
Common Mode Chokes - Series 22 Arrays ............................. 32
Common Mode Chokes - Series 32 Arrays ............................. 34
Common Mode Chokes - Series 40 ........................................ 36
Common Mode Choke - Series 44 (3 Line) ........................... 37
Common Mode Chokes - Series 41 (75 AMPS) ...................... 38
Common Mode Chokes - Series 45 ........................................ 39
Common Mode Chokes - Series LF (Low Frequency)............... 40
Equivalent Circuits ................................................................. 41
Master list of Common Mode Chokes
Sorted by Z @ 100 MHz and Rated Current ........................ 42
Ferrite EMI Beads with Axial Wire .......................................... 44
Multiple Turn Axial Wire Ferrite Beads / Cores ....................... 45
Differential Mode EMI Filter Arrays ........................................ 46
CAN-Bus Common Mode Chokes ........................................... 49
Chip Inductors ....................................................................... 51
Ferrite EMI Disks & Plates ...................................................... 53
Comparison Impedance Curves of Selected Part Groups ........ 54
All parts listed in this brochure are lead free and RoHS compliant.
This brochure contains a limited selection of products from Laird Technologies.
Refer to www.lairdtech.com for other board level ferrite part families not included in this brochure.
Laird Technologies, produces an extensive line of ferrite products for inductive and EMI filtering applications.
Products include ferrite EMI cable cores, connector plates, unique common mode chokes, can-bus chokes, high current
thru hole and surface mount components, impedance chip beads, surface mount inductors and toroid inductor cores.
Board Level Part Number Nomenclature Explanation
HZ0402A601R-10 (Part number example in BOLD)
HZ
Product Series
Code
HI = High Current Chip Beads
(>3,000 mA)
MI = Mid Current Chip Beads
(>1,000 mA to <3,000 mA)
LI = Low Current Chip Beads
(<1,000 mA, <400 W Z)
HZ = High Impedance
Chip Beads
(<1,000 mA, >400 W Z)
HF = High Frequency
Chip Beads
LF = Low Frequency
Chip Beads
HR = High Bias Retention
Chip Beads
(>3,000 mA)
CC = CAN-Bus Common Mode
CM = Common Mode
DI = Power Inductor
DA = Multiline Array Chip
IC = Chip Inductor
0402
A
601
R
-10
Part Size
Code
Rated
Continuous
Current Code
Impedance ( Z )
or Inductance ( L )
Value Code
Packaging
Code
Addtional
Description
0402
0603
0805
1206
1210
1612
1806
1812
1922
2021
2220
2520
2545
2722
3032
3312
3322
3421
3822
4545
4732
5022
5441
6032
A < 100 mA
B = 200 mA
C = 300 mA
D = 400 mA
E = 500 mA
F = 600 mA
G = 700 mA
H = 800 mA
I = 900 mA
J = 1,000 mA
K = 1,500 mA
L = 2,000 mA
M = 2,500 mA
N = 3,000 mA
O = 3,500 mA
P = 4,000 mA
Q = 4,500 mA
R = 5,000 mA
S = 5,500 mA
T = 6,000 mA
U = 7,000 mA
V = 8,000 mA
W = 9,000 mA
X = 10,000 mA
Y = 15,000 mA
Z > 20,000 mA
B = Bulk Standard
First two numbers
Thru-Hole
are Significant Digits.
Packaging
The last number
indicates how many
R = Tape & Reel
zeros are added to
Standard
the significant digits
SMT Package
for impedance.
28 & 29 = Broad
Band Material
35 = Low Frequency
Material
Product Type Code
C = Choke
L = Axial Leaded
Bead
F = Assembled
Part
J = Radial Leaded
Bead
Part Size
Code
Unique Part
Identifier or
Significant
Dimension
-10 = Lead Free
Standard Catalog
Part
-11 to -99 = Non Standard
or Custom Part
Impedance
Examples
100 = 10 OHMS
101 = 100 OHMS
102 = 1,000 OHMS
202 = 2,000 OHMS
060 = 6 OHMS
600 = 60 OHMS
601 = 600 OHMS
Inductance
Examples
470 = 47 nH
471 = 470 nH
472 = 4,700 nH
473 = 47,000 nH
474 = 470,000 nH
475 = 4,700,000 nH
29F0818-1SR-10 (Part number example in BOLD)
29
F
0818
-1
Material Type
00 = Legacy Part
Contains Lead
Minor
Dimension
Code
Height or
Length
Variation
S
R
-10
Board Mounting
Style
Packaging Code
Additional Part
Description
S = Surface Mount
T = Thru-Hole
O = Bulk Standard
R = Tape & Reel
Standard SMT
Package
-10 = Lead Free
Standard
Catalog
Part
-11 to -99 =
Non Standard or
Custom Part
Electrical specifications and tolerances are based on room temperature operation ( 23°C + 2°C ). Parts have an operating temperature
range of -40°C to +125°C. While the parts will continue to operate without damage over this range, they may not stay within the
specified electrical tolerances during exposure to extreme temperatures.
Note : Most current ratings (I MAX) are based upon a 40°C temperature rise during continuous operation.
4
Parts have no polarity.
Ferrite EMI Chip Beads
Features:
• Up to 10 Amps (I MAX) continuous operating capability • Low DCR • Vibration resistant • Rugged monolithic
construction • Small footprint • Excellent retention under bias • Superior impedance vs. frequency characteristics
• Economical • Broad range of sizes ( from EIA 0402 up to 3312 ) • Broad range of impedance values and current
ratings • Lead free & RoHS compliant • High bias current resistant versions (HR) available. • Broadband, low frequency
and high frequency chip beads available • SPICE models incorporating DC bias effects available at www.lairdtech.com.
PART NUMBERING SYSTEM EXAMPLE
HZ
Product Series Code
HI
MI
HR
DA
0402
Part Size
Code ( EIA )
A
Rated Continuous
Current Code
High Current Chips ( > 3 Amps )
Mid Current Chips ( 1 Amp to < 3 Amps )
High Retention Under Bias
4 Line Chip Array ( Page 8 )
LI
HZ
HF
LF
601
Impedance Value
Code
R
Packaging
Code
Low Current Chips ( < 1 Amp and < 400 Ohms )
High Impedance Chips ( < 1 Amp and > 400 Ohms )
High Frequency ( >5 GHz Peak / Page 8 )
Low Frequency ( Page 8 )
TYPICAL IMPEDANCE ( W )
Chip Array
Peak
Impedance
Frequency
(MHz)
RATED
I MAX
(continuous)
mA
DESCRIPTION /
SPECIAL
FEATURES
METRIC
PKG.
SIZE
Z@
25 MHz
HZ0402A152R-10
High Impedance
1005
400
1,500
441
200
1,500
143
2.00
50
HZ0402A601R-10
High Impedance
1005
182
600
600
300
965
241
1.000
100
HZ0402B102R-10
High Impedance
1005
225
1,000
489
222
1,116
182
1.000
200
Z@
500 MHz
Z@
1 GHz
DCR
MAX
(W)
Chip Bead
CHIP BEAD
PART NUMBER
Z@
100 MHz
Typical Peak
Impedance
(W)
-10
Additional
Description
0402 CHIP BEADS
LI0402B301R-10
Low Current
1005
96
300
454
351
549
374
0.800
200
LI0402B800R-10
Low Current
1005
32
80
220
224
243
769
0.800
200
LI0402C221R-10
Low Current
1005
72
220
443
243
453
440
0.350
300
LI0402C470R-10
Low Current
1005
15
47
76
90
92
1,402
0.150
300
LI0402D121R-10
Low Current
1005
40
120
205
195
213
682
0.400
400
LI0402E190R-10
Low Current
1005
6
19
43
56
59
1,519
0.100
500
LI0402E300R-10
Low Current
1005
9
30
50
57
58
1,195
0.300
500
LI0402E600R-10
Low Current
1005
29
60
90
57
97
801
0.300
500
HI0603P600R-10
High Current
1608
25
60
85
85
100
750
0.030
4,000
HZ0603A152R-10
High Impedance
1608
552
1,500
1,062
503
2,306
190
0.900
100
HZ0603A182R-10
High Impedance
1608
610
1,800
1,070
500
2,420
180
1.500
50
HZ0603A222R-10
High Impedance
1608
195
2,200
375
175
3,051
122
1.500
100
HZ0603A252R-10
High Impedance
1608
791
2,500
1,014
501
3,065
149
1.500
50
HZ0603B102R-10
High Impedance
1608
453
1,000
380
200
1,000
100
0.600
200
HZ0603B112R-10
High Impedance
1608
515
1,100
1,300
850
1,539
288
0.800
200
HZ0603B751R-10
High Impedance
1608
302
750
437
198
863
137
0.600
200
HZ0603C601R-10
High Impedance
1608
232
600
360
171
775
168
0.450
300
HZ0603C651R-10
High Impedance
1608
296
650
954
652
960
400
0.600
300
LI0603B201R-10
Low Current
1608
70
200
340
210
362
420
0.400
200
0603 CHIP BEADS
Impedance ( Z ) curves under bias on following pages.
Chip bead list continued on the next page.
See page 8 for low frequency, high frequency and array chips.
See pages 54 thru 63 for quick reference comparison curves for groups of chip beads and common mode chokes.
visit www.lairdtech.com for product additions and more product details
5
Ferrite EMI Chip Beads
CHIP BEAD
PART NUMBER
DESCRIPTION /
SPECIAL
FEATURES
METRIC
PKG.
SIZE
TYPICAL IMPEDANCE ( W )
Z@
25 MHz
Z@
100 MHz
Z@
500 MHz
Z@
1 GHz
Typical Peak
Impedance
(W)
Peak
Impedance
Frequency
(MHz)
DCR
MAX
(W)
RATED
I MAX
(continuous)
mA
0603 CHIP BEADS
LI0603D301R-10
Low Current
1608
144
(continued)
300
286
165
389
261
0.350
400
LI0603E151R-10
Low Current
1608
61
150
131
209
331
0.250
500
197
LI0603E470R-10
Low Current
1608
17
47
83
91
91
1,000
0.100
500
LI0603G121R-10
Low Current
1608
52
120
156
113
177
389
0.200
700
LI0603G221R-10
Low Current
1608
98
220
279
168
283
251
0.300
700
LI0603G800R-10
Low Current
1608
32
80
100
91
100
500
0.200
700
MI0603J600R-10
Mid Current
1608
25
60
91
92
95
700
0.100
1,000
MI0603J680R-10
Mid Current
1608
35
68
106
99
110
650
0.100
1,000
MI0603J601R-10
Mid Current
1608
225
600
400
200
620
150
0.200
1,000
MI0603K300R-10
Mid Current
1608
12
30
43
45
45
1,000
0.090
1,500
MI0603L221R-10
Mid Current
1608
107
220
219
121
240
280
0.050
2,000
MI0603L301R-10
Mid Current
1608
50
300
225
120
410
200
0.100
2,000
MI0603M121R-10
Mid Current
1608
55
120
169
138
170
420
0.050
2,500
HI0805O121R-10
High Current
2012
61
120
140
80
167
270
0.020
3,500
HI0805Q310R-10
High Current
2012
12
31
42
44
45
800
0.025
4,500
HI0805R800R-10
High Current
2012
38
80
70
38
100
200
0.010
5,000
HZ0805B222R-10
High Impedance
2012
648
2,200
419
213
2,200
100
0.800
200
HZ0805B272R-10
High Impedance
2012
400
2,700
400
150
2,900
88
0.800
200
0805 CHIP BEADS
HZ0805C202R-10
High Impedance
2012
350
2,000
300
150
2,000
100
0.500
300
HZ0805D102R-10
High Impedance
2012
280
1,000
328
168
1,268
113
0.300
400
HZ0805D152R-10
High Impedance
2012
289
1,500
333
166
1,525
110
0.400
400
HZ0805E601R-10
High Impedance
2012
277
600
304
151
696
155
0.300
500
LI0805G201R-10
Low Current
2012
100
200
221
128
272
250
0.300
700
LI0805G301R-10
Low Current
2012
124
300
248
146
350
205
0.200
700
HZ0805G471R-10
High Impedance
2012
221
470
286
150
572
149
0.200
700
LI0805H121R-10
Low Current
2012
53
120
170
114
170
340
0.150
800
LI0805H151R-10
Low Current
2012
73
150
207
150
210
400
0.150
800
LI0805H750R-10
Low Current
2012
31
75
128
130
132
769
0.150
800
MI0805J102R-10
Mid Current
2012
195
1,000
226
108
1,112
120
0.150
1,000
MI0805K110R-10
Mid Current
2012
5
11
18
19
20
1,000
0.060
1,500
MI0805K400R-10
Mid Current
2012
19
40
60
63
69
903
0.050
1,500
MI0805K601R-10
Mid Current
2012
280
600
240
120
723
130
0.100
1,500
MI0805L301R-10
Mid Current
2012
135
300
271
147
350
200
0.060
2,000
MI0805M221R-10
Mid Current
2012
100
220
274
115
287
260
0.050
2,500
HF1206J150R-10
High Frequency
3216
0.25
2
7
15
111
5,450
0.060
1,000
HI1206N101R-10
High Current
3216
41
100
144
145
150
600
0.035
3,000
1206 CHIP BEADS
HI1206N800R-10
High Current
3216
38
80
120
129
130
800
0.035
3,000
HI1206P121R-10
High Current
3216
56
120
130
105
142
300
0.030
4,000
HI1206T161R-10
High Current
3216
71
160
220
127
229
251
0.018
6,000
See page 8 for low frequency, high frequency and array chips.
6
Chip bead list continued on the next page.
Ferrite EMI Chip Beads
CHIP BEAD
PART NUMBER
DESCRIPTION /
SPECIAL
FEATURES
METRIC
PKG.
SIZE
TYPICAL IMPEDANCE ( W )
Z@
25 MHz
Z@
100 MHz
Z@
500 MHz
Z@
1 GHz
Typical Peak
Impedance
(W)
Peak
Impedance
Frequency
(MHz)
DCR
MAX
(W)
RATED
I MAX
(continuous)
mA
1206 CHIP BEADS
(continued)
50
66
70
70
1,000
0.010
6,000
1,673
915
180
100
2,505
41
0.500
300
HI1206T500R-10
High Current
3216
19
HZ1206C202R-10
High Impedance
3216
HZ1206D102R-10
High Impedance
3216
201
1,000
185
100
1,000
100
0.400
400
HZ1206E152R-10
High Impedance
3216
823
950
188
57
1,564
57
0.300
500
HZ1206E601R-10
High Impedance
3216
296
600
202
103
674
75
0.300
500
LI1206H121R-10
Low Current
3216
53
120
144
135
145
422
0.150
800
LI1206H151R-10
Low Current
3216
73
150
173
123
182
241
0.150
800
MI1206K260R-10
Mid Current
3216
12
26
44
46
46
1,000
0.060
1,500
MI1206K310R-10
Mid Current
3216
12
31
37
41
41
1,000
0.045
1,500
MI1206K601R-10
Mid Current
3216
300
600
250
130
650
80
0.080
1,500
MI1206K900R-10
Mid Current
3216
44
90
142
150
154
867
0.080
1,500
MI1206L391R-10
Mid Current
3216
100
390
160
90
460
130
0.050
2,000
MI1206L501R-10
Mid Current
3216
210
500
150
82
500
100
0.060
2,000
MI1210K600R-10
Mid Current
3225
30
105
900
0.035
1,500
HI1612X560R-10
High Current
4131
23
79
1,000
0.004
10,000
HI1806N910R-10
High Current
4516
42
91
140
150
150
1,000
0.030
3,000
HI1806T600R-10
High Current
4516
28
60
87
92
92
1,000
0.010
6,000
HZ1806K102R-10
High Impedance
4516
60
1,000
160
80
1,390
135
0.150
1500
LI1806C151R-10
Low Current
4516
60
150
219
222
223
871
0.500
300
LI1806E101R-10
Low Current
4516
45
100
157
164
166
966
0.300
500
LI1806E800R-10
Low Current
4516
28
80
117
117
117
1,000
0.300
500
MI1806J800R-10
Mid Current
4516
34
78
114
118
119
903
0.030
1,000
1210 CHIP BEAD
60
90
95
1612 HIGH CURRENT CHIP BEAD
56
75
79
1806 CHIP BEADS
1812 CHIP BEADS
HI1812T800R-10
High Current
4532
30
80
97
107
107
1,000
0.010
6,000
HI1812V101R-10
High Current
4532
45
100
136
134
139
800
0.010
8,000
LI1812D121R-10
Low Current
4532
55
120
182
184
186
738
0.400
400
MI1812K121R-10
Mid Current
4532
45
120
162
170
175
900
0.055
1,500
HI2220P171R-10
High Current
5620
78
170
256
237
256
500
0.030
4,000
HI2220P251R-10
High Current
5620
100
250
172
91
390
200
0.015
4,000
HI2220P271R-10
High Current
5620
110
270
360
250
390
300
0.035
4,000
HI2220P551R-10
High Current
5620
180
550
670
343
850
300
0.035
4,000
HI2220P601R-10
High Current
5620
220
600
184
106
600
100
0.025
4,000
HI2220P701R-10
High Current
5620
200
700
140
90
700
100
0.025
4,000
2220 CHIP BEADS
HI2220Q401R-10
High Current
5620
100
400
159
99
450
150
0.030
4,500
HI2220R151R-10
High Current
5620
60
150
230
196
230
500
0.015
5,000
HI2220R181R-10
High Current
5620
80
180
263
234
270
400
0.020
5,000
visit www.lairdtech.com for product additions and more product details
7
Ferrite EMI Chip Beads
CHIP BEAD
PART NUMBER
DESCRIPTION /
SPECIAL
FEATURES
METRIC
PKG.
SIZE
TYPICAL IMPEDANCE ( W )
Z@
25 MHz
Z@
100 MHz
Z@
500 MHz
Z@
1 GHz
Typical Peak
Impedance
(W)
Peak
Impedance
Frequency
(MHz)
DCR
MAX
(W)
RATED
I MAX
(continuous)
mA
2220 CHIP BEADS
HI2220R301R-10
High Current
5620
100
(continued)
300
190
100
380
200
0.020
5,000
HI2220T101R-10
High Current
5620
50
100
148
152
160
600
0.006
6,000
HR2220P601R-10
High Retention
5620
200
600
150
75
600
100
0.025
4,000
HR2220V801R-10
High Retention
5620
150
800
125
75
910
90
0.010
8,000
172
1,000
0.004
10,000
Peak
Impedance
Frequency
(MHz)
DCR
MAX
(W)
RATED
I MAX
(continuous)
mA
3312 HIGH CURRENT CHIP BEAD
HI3312X101R-10
High Current
8531
39
100
160
172
4 LINE 1206 CHIP ARRAYS
TYPICAL IMPEDANCE ( W )
CHIP BEAD
PART NUMBER
DESCRIPTION /
SPECIAL
FEATURES
METRIC
PKG.
SIZE
Z@
25 MHz
Z@
100 MHz
Z@
500 MHz
Z@
1 GHz
Typical Peak
Impedance
(W)
DA1206B102R-10
Array
3216
275
1,000
520
240
1,129
175
0.800
200
DA1206B601R-10
Array
3216
180
600
475
230
761
214
0.350
200
DA1206C121R-10
Array
3216
39
120
181
151
211
559
0.200
300
DA1206D301R-10
Array
3216
94
300
437
245
437
500
0.400
400
DA1206D600R-10
Array
3216
15
60
115
132
133
1,103
0.200
400
DA1206E300R-10
Array
3216
10
30
55
56
56
1,000
0.300
500
1206 HIGH FREQUENCY EMI CHIP BEAD
TYPICAL IMPEDANCE ( W )
CHIP BEAD
PART NUMBER
DESCRIPTION /
SPECIAL
FEATURES
METRIC
PKG.
SIZE
Z@
100 MHz
Z@
1 GHz
Z@
2 GHz
Z@
4 GHz
Typical Peak
Impedance
(W)
Peak
Impedance
Frequency
(MHz)
DCR
MAX
(W)
RATED
I MAX
(continuous)
mA
HF1206J150R-10
High Frequency
3216
2
15
21
42
111
5,450*
0.060
1,000
* Insertion loss peaks at beyond 10 GHz
0805 & 1206 LOW FREQUENCY EMI CHIP BEADS
TYPICAL IMPEDANCE ( W )
Z@
100 MHz
Typical Peak
Impedance
(W)
Peak
Impedance
Frequency
(MHz)
DCR
MAX
(W)
RATED
I MAX
(continuous)
mA
5,138
1,267
5,138
25
1.25
100
2,743
4,434
740
5,650
19
1.05
100
70
300
1,673
915
2,505
41
0.50
300
38
150
823
950
1,564
57
0.30
500
CHIP BEAD
PART NUMBER
DESCRIPTION /
SPECIAL
FEATURES
METRIC
PKG.
SIZE
Z@
5 MHz
Z@
10 MHz
Z@
25 MHz
LF0805A252R-10
Low Frequency
2012
1,162
2,553
LF1206A302R-10
Low Frequency
3216
1,143
LF1206C202R-10
Low Frequency
3216
LF1206E152R-10
Low Frequency
3216
8
Ferrite EMI SMT Bead Assemblies
• 10 amps continuous operating current capability
• Broadband (28F) & low frequency (35F) parts available
• Lead free & RoHS compliant
• Very low DCR
SMT Bead Assemblies provide EMI filtering in circuits carrying up to 10 amps continuous current. Products are
offered for low frequency and high frequency EMI filtering. The robust construction and low DCR are well suited for
applications operating in extreme conditions or applications that are sensitive to added circuit DCR. Better PC board
flex tolerance.
PART NUMBER SYSTEM EXAMPLE
28
F
0121
-0
S
R
-10
Material Type
Product Code
Part Size Code
Selected
Dimension
Code
Additional
Description
Packaging
Code
Additional
Description
TYPICAL IMPEDANCE ( W )
Z@
1 GHz
Typical Peak
Impedance
(W)
Peak
Impedance
Frequency
(MHz)
DCR
MAX
(W)
RATED
I MAX
(continuous)
mA
53
53
54
800
0.00075
10,000
96
115
114
117
833
0.001
10,000
72
115
123
123
125
900
0.001
10,000
@ 1 MHz
@ 5 MHz
PART
NUMBER
EIA
PKG.
SIZE
METRIC
PKG.
SIZE
Z@
25 MHz
Z@
100 MHz
Z@
500 MHz
28F0121-0SR-10
1612
4131
30
48
28F0121-1SR-10
3312
8531
60
28F0181-1SR-10
3318
8545
Low Frequency Parts
@ 10 MHz @ 25 MHz
35F0121-0SR-10
1612
4131
17
41
48
47
49
13
0.00075
10,000
35F0121-1SR-10
3312
8531
35
82
102
90
104
17
0.001
10,000
All current ratings (I MAX) are based upon continuous operation.
Impedance curves under bias on pages 10 to 24.
Parts have no polarity.
All data on charts can be sorted on www.lairdtech.com
Quick reference comparison curves for groups of chip beads and common mode chokes on pages 54 to 63.
visit www.lairdtech.com for product additions and more product details
9
0402 Chip Bead Impedance Under DC Bias
HZ0402A152R-10 - High Impedance
1600
1400
Impedance (Ω)
Impedance (Ω)
1000
0 mA
25 mA
50 mA
75 mA
100 mA
1000
0 mA
10 mA
20 mA
30 mA
40 mA
50 mA
1200
HZ0402A601R-10 - High Impedance
1200
800
600
800
600
400
400
200
200
100
Frequency (MHz)
1000
0
3000
800
400
1
100
Frequency (MHz)
1000
400
1000
200
100
Frequency (MHz)
LI0402C221R-10 - Low Current
0 mA
60 mA
120 mA
180 mA
250 mA
300 mA
400
150
10
1
500
Impedance (Ω)
200
300
200
100
50
1
10
100
1000
0
3000
Frequency (MHz)
LI0402C470R-10 - Low Current
100
90
50
40
30
20
10
1000
100
Frequency (MHz)
3000
LI0402D121R-10 - Low Current
0 mA
50 mA
100 mA
200 mA
300 mA
400 mA
200
Impedance (Ω)
60
1
250
0 mA
60 mA
120 mA
280 mA
240 mA
300 mA
80
70
Impedance (Ω)
100
300
0
3000
0 mA
40 mA
80 mA
120 mA
140 mA
200 mA
250
Impedance (Ω)
10
LI0402B800R-10 - Low Current
300
0
1000
100
200
0
100
0 mA
25 mA
50 mA
100 mA
150 mA
200 mA
500
600
Frequency (MHz)
LI0402B301R-10 - Low Current
600
0 mA
25 mA
50 mA
75 mA
100 mA
1000
10
1
HZ0402B102R-10 - High Impedance
1200
Impedance (Ω)
10
1
Impedance (Ω)
0
150
100
50
10
0
1
10
100
Frequency (MHz)
10
1000
3000
0
1
10
Frequency (MHz)
100
1000
0402 / 0603 Chip Bead Impedance Under DC Bias
LI0402E190R-10 - Low Current
70
60
Impedance (Ω)
30
10
10
10
1
100
1000
Frequency (MHz)
0
3000
LI0402E600R-10 - Low Current
100
0 mA
100 mA
200 mA
300 mA
400 mA
500 mA
80
40
10
1
Frequency (MHz)
100
60
50
40
30
2500
0 mA
20 mA
40 mA
60 mA
80 mA
100 mA
Impedance (Ω)
500
10
1
100
Frequency (MHz)
1000
3000
1000
3000
1000
3000
HZ0603A182R-10 - High Impedance
0 mA
10 mA
20 mA
30 mA
40 mA
50 mA
2000
1000
1500
1000
500
1
10
100
Frequency (MHz)
1000
3000
0 mA
25 mA
50 mA
75 mA
100 mA
10
1
1500
1000
500
100
Frequency (MHz)
HZ0603A252R-10 - High Impedance
0 mA
10 mA
20 mA
30 mA
40 mA
50 mA
2500
Impedance (Ω)
2000
0
3000
HZ0603A222R-10 - High Impedance
2500
0
70
0
1000
HZ0603A152R-10 - High Impedance
1500
3000
0 mA
200 mA
400 mA
800 mA
2400 mA
4000 mA
10
2000
0
1000
100
20
20
2500
Frequency (MHz)
HI0603P600R-10 - High Current
80
60
0
10
1
90
100
Impedance (Ω)
30
20
120
Impedance (Ω)
40
20
0
0 mA
100 mA
200 mA
300 mA
400 mA
500 mA
50
Impedance (Ω)
Impedance (Ω)
40
LI0402E300R-10 - Low Current
60
0 mA
100 mA
200 mA
300 mA
400 mA
500 mA
50
Impedance (Ω)
70
2000
1500
1000
500
1
10
100
Frequency (MHz)
1000
3000
0
1
10
100
Frequency (MHz)
visit www.lairdtech.com for product additions and more product details
11
0603 Chip Bead Impedance Under DC Bias
HZ0603B102R-10 - High Impedance
1200
800
600
400
800
600
0
1
10
Frequency (MHz)
HZ0603B751R-10 - High Impedance
100
1000
800
0 mA
25 mA
50 mA
100 mA
150 mA
200 mA
700
600
500
400
300
600
100
1200
1000
100
0
1000
1
400
350
0 mA
50 mA
100 mA
200 mA
300 mA
600
400
10
Frequency (MHz)
LI0603B201R-10 - Low Current
1000
0 mA
40 mA
80 mA
120 mA
160 mA
200 mA
300
Impedance (Ω)
800
100
300
100
Frequency (MHz)
HZ0603C651R-10 - High Impedance
1000
400
200
10
100
500
200
1
Frequency (MHz)
0 mA
50 mA
100 mA
200 mA
300 mA
700
Impedance (Ω)
800
0
10
1
900 HZ0603C601R-10 - High Impedance
900
Impedance (Ω)
1000
200
1000
Impedance (Ω)
1200
400
200
0
0 mA
50 mA
100 mA
150 mA
200 mA
1400
Impedance (Ω)
Impedance (Ω)
1600
0 mA
50 mA
100 mA
150 mA
200 mA
1000
HZ0603B112R-10 - High Impedance
1800
250
200
150
100
200
Frequency (MHz)
100
0
1000
LI0603D301R-10 - Low Current
450
400
250
0 mA
50 mA
100 mA
200 mA
300 mA
400 mA
350
Impedance (Ω)
10
1
300
250
10
1
200
150
100
100
1000
Frequency (MHz)
3000
LI0603E151R-10 - Low Current
0 mA
100 mA
200 mA
300 mA
400 mA
500 mA
200
Impedance (Ω)
0
50
150
100
50
50
0
12
1
10
Frequency (MHz)
100
1000
0
1
10
Frequency (MHz)
100
1000
0603 Chip Bead Impedance Under DC Bias
LI0603E470R-10 - Low Current
100
90
180
0 mA
100 mA
200 mA
300 mA
400 mA
500 mA
60
50
40
80
30
40
10
20
1
10
1000
100
Frequency (MHz)
LI0603G800R-10 - Low Current
40
10
1
100
Frequency (MHz)
100
1000
100
1000
100
1000
150
100
80
40
Frequency (MHz)
MI0603J680R-10 - Mid Current
100
60
10
1
120
0 mA
100 mA
200 mA
400 mA
800 mA
1000 mA
100
0 mA
100 mA
250 mA
500 mA
750 mA
1000 mA
80
60
40
20
20
01
10
100
Frequency (MHz)
0
1000
MI0603J601R-10 - Mid Current
600
0 mA
100 mA
250 mA
500 mA
1000 mA
1500 mA
40
300
Frequency (MHz)
MI0603K300R-10 - Mid Current
45
Impedance (Ω)
400
10
1
50
0 mA
100 mA
250 mA
500 mA
750 mA
1000 mA
500
35
30
25
20
15
200
10
100
0
1000
0 mA
100 mA
200 mA
300 mA
500 mA
700 mA
200
0
1000
MI0603J600R-10 - Mid Current
120
700
100
50
Impedance (Ω)
0
Frequency (MHz)
LI0603G221R-10 - Low Current
250
60
10
1
300
0 mA
100 mA
200 mA
300 mA
500 mA
700 mA
80
0
3000
20
Impedance (Ω)
120
100
20
100
Impedance (Ω)
140
60
120
Impedance (Ω)
Impedance (Ω)
70
0 mA
100 mA
200 mA
300 mA
500 mA
700 mA
160
Impedance (Ω)
Impedance (Ω)
80
0
LI0603G121R-10 - Low Current
200
5
1
10
100
Frequency (MHz)
1000
0
1
10
Frequency (MHz)
visit www.lairdtech.com for product additions and more product details
13
0603 / 0805 Chip Bead Impedance Under DC Bias
MI0603L221R-10 - Mid Current
300
350
0 mA
50 mA
100 mA
200 mA
500 mA
1000 mA
2000 mA
200
150
0 mA
100 mA
250 mA
500 mA
1000 mA
2000 mA
300
Impedance (Ω)
Impedance (Ω)
250
MI0603L301R-10 - Mid Current
400
100
250
200
150
100
50
1
10
Frequency (MHz)
MI0603M121R-10 - Mid Current
200
180
140
120
0
1000
60
1
10
100
1000
Frequency (MHz)
1000
3000
100
1000
3000
80
60
20
10
10
Frequency (MHz)
HI0805R800R-10 - High Current
0 mA
250 mA
500 mA
1000 mA
3000 mA
5000 mA
100
Impedance (Ω)
30
1
120
0 mA
1000 mA
2000 mA
3000 mA
4000 mA
5000 mA
40
80
60
40
20
10
1
100
0
1000
1
10
Frequency (MHz)
Frequency (MHz)
HZ0805B222R-10 - High Impedance
2500
3000
Impedance (Ω)
1500
HZ0805B272R-10 - High Impedance
3500
0 mA
25 mA
50 mA
75 mA
100 mA
200 mA
2000
Impedance (Ω)
100
100
0
3000
HI0805Q310R-10 - High Current
50
Impedance (Ω)
120
20
20
0
3000
40
40
0
1000
0 mA
750 mA
1500 mA
2000 mA
2750 mA
3500 mA
140
80
100
Frequency (MHz)
HI0805O121R-10 - High Current
160
100
10
1
180
0 mA
100 mA
250 mA
1000 mA
2500 mA
160
Impedance (Ω)
100
Impedance (Ω)
0
50
1000
0 mA
25 mA
50 mA
75 mA
100 mA
200 mA
2500
2000
1500
1000
500
0
14
500
1
10
100
Frequency (MHz)
1000
0
3000
1
10
Frequency (MHz)
100
1000
0805 Chip Bead Impedance Under DC Bias
HZ0805C202R-10 - High Impedance
2500
1500
1000
500
Frequency (MHz)
100
1200
1000
800
600
100
1000
100
1000
10
Frequency (MHz)
HZ0805E601R-10 - High Impedance
0 mA
100 mA
200 mA
300 mA
400 mA
500 mA
600
500
400
300
200
100
200
01
700
600
10
Frequency (MHz)
HZ0805G471R-10 - High Impedance
100
200
Frequency (MHz)
LI0805G201R-10 - Low Current
0 mA
100 mA
200 mA
300 mA
500 mA
700 mA
250
300
10
1
300
Impedance (Ω)
400
0
1000
0 mA
100 mA
200 mA
300 mA
500 mA
700 mA
500
Impedance (Ω)
1
700
400
200
150
100
50
100
10
1
Frequency (MHz)
100
0
1000
LI0805G301R-10 - Low Current
400
180
0 mA
100 mA
200 mA
300 mA
500 mA
700 mA
250
140
Impedance (Ω)
300
200
150
100
10
1
160
350
Impedance (Ω)
400
800
0 mA
50 mA
100 mA
200 mA
300 mA
400 mA
1400
120
100
Frequency (MHz)
100
1000
100
1000
LI0805H121R-10 - Low Current
0 mA
100 mA
200 mA
400 mA
600 mA
800 mA
80
60
40
50
0
600
0
1000
HZ0805D152R-10 - High Impedance
1600
Impedance (Ω)
10
1
1800
0
800
200
Impedance (Ω)
0
0 mA
100 mA
200 mA
300 mA
400 mA
1000
Impedance (Ω)
Impedance (Ω)
1200
0 mA
50 mA
100 mA
200 mA
300 mA
2000
HZ0805D102R-10 - High Impedance
1400
20
1
10
Frequency (MHz)
100
1000
01
10
Frequency (MHz)
visit www.lairdtech.com for product additions and more product details
15
0805 Chip Bead Impedance Under DC Bias
LI0805H151R-10 - Low Current
250
150
0 mA
100 mA
200 mA
400 mA
600 mA
800 mA
100
Impedance (Ω)
Impedance (Ω)
120
0 mA
100 mA
200 mA
400 mA
600 mA
800 mA
200
LI0805H750R-10 - Low Current
140
100
80
60
40
50
0
1000
100
800
200
100
10
Impedance (Ω)
500
400
300
20
200
10
100
0
1
400
350
10
1000
100
Frequency (MHz)
MI0805L301R-10 - Mid Current
250
200
150
1000
3000
1000
3000
0 mA
100 mA
250 mA
500 mA
1000 mA
2500 mA
250
200
150
100
100
50
50
16
100
Frequency (MHz)
MI0805M221R-10 - Mid Current
300
Impedance (Ω)
300
10
1
350
0 mA
100 mA
250 mA
500 mA
1000 mA
2000 mA
1000
100
0 mA
100 mA
250 mA
500 mA
750 mA
1500 mA
600
30
Frequency (MHz)
MI0805K601R-10 - Mid Current
700
40
10
1
800
0 mA
250 mA
500 mA
750 mA
1000 mA
1500 mA
50
0
1000
Frequency (MHz)
MI0805K400R-10 - Mid Current
60
Impedance (Ω)
10
1
70
Impedance (Ω)
15
5
80
0
0 mA
250 mA
500 mA
750 mA
1000 mA
1500 mA
20
400
0
MI0805K110R-10 - Mid Current
25
600
0
1000
100
Frequency (MHz)
0 mA
100 mA
200 mA
400 mA
800 mA
1000 mA
1000
10
1
Frequency (MHz)
MI0805J102R-10 - Mid Current
1200
Impedance (Ω)
10
1
Impedance (Ω)
0
20
1
10
100
Frequency (MHz)
1000
3000
0
1
10
100
Frequency (MHz)
1206 Chip Bead Impedance Under DC Bias
HF1206J150R-10 - High Frequency
120
140
100
Impedance (Ω)
Impedance (Ω)
Insertion loss peaks
beyond 10 GHz
60
40
80
60
20
0100
1000
HI1206N800R-10 - High Current
140
1000
100
Frequency (MHz)
HI1206P121R-10 - High Current
180
0 mA
200 mA
600 mA
800 mA
1600 mA
4000 mA
160
Impedance (Ω)
100
10
1
200
0 mA
500 mA
1000 mA
1500 mA
2000 mA
3000 mA
120
0
10000
4000
Frequency (MHz)
Impedance (Ω)
100
40
20
80
60
140
120
100
80
60
40
40
20
20
0
1
10
1000
100
Frequency (MHz)
HI1206T161R-10 - High Current
250
100
1000
3000
0 mA
1000 mA
2000 mA
3000 mA
4000 mA
5000 mA
60
Impedance (Ω)
150
100
Frequency (MHz)
HI1206T500R-10 - High Current
80
0 mA
300 mA
600 mA
900 mA
2400 mA
6000 mA
10
1
70
200
Impedance (Ω)
0 mA
250 mA
500 mA
1000 mA
2000 mA
3000 mA
120
Peak Z Beyond 5 GHz
80
0
HI1206N101R-10 - High Current
160
50
40
30
20
50
10
100
Frequency (MHz)
1000
2000
1000
100
1000
100
1000
0 mA
100 mA
200 mA
300 mA
400 mA
800
600
400
200
500
0
Frequency (MHz)
HZ1206D102R-10 - High Impedance
1000
1500
10
1
1200
0 mA
50 mA
100 mA
200 mA
300 mA
2500
0
3000
HZ1206C202R-10 - High Impedance
3000
Impedance (Ω)
10
1
Impedance (Ω)
0
1
10
100
Frequency (MHz)
1000
0
1
10
Frequency (MHz)
visit www.lairdtech.com for product additions and more product details
17
1206 Chip Bead Impedance Under DC Bias
HZ1206E152R-10 - High Impedance
1800
1600
1000
800
600
Frequency (MHz)
100
60
100
1000
100
1000
100
1000
100
1000
0 mA
100 mA
200 mA
400 mA
600 mA
800 mA
160
80
Frequency (MHz)
LI1206H151R-10 - Low Current
180
Impedance (Ω)
100
10
1
200
0 mA
100 mA
300 mA
500 mA
800 mA
120
140
120
100
80
60
40
40
20
20
10
1
100
Frequency (MHz)
0
1000
MI1206K260R-10 - Mid Current
50
1
10
Frequency (MHz)
MI1206K310R-10 - Mid Current
50
45
45
0 mA
250 mA
500 mA
750 mA
1000 mA
1500 mA
35
30
25
20
35
30
25
20
15
15
10
10
5
5
0
0
1
700
10
100
Frequency (MHz)
MI1206K601R-10 - Mid Current
1000
0 mA
200 mA
400 mA
800 mA
1000 mA
1500 mA
140
400
300
200
Frequency (MHz)
MI1206K900R-10 - Mid Current
160
Impedance (Ω)
500
10
1
180
0 mA
250 mA
500 mA
1000 mA
1500 mA
600
0 mA
250 mA
500 mA
1000 mA
1500 mA
40
Impedance (Ω)
40
Impedance (Ω)
300
0
1000
LI1206H121R-10 - Low Current
140
Impedance (Ω)
10
1
160
Impedance (Ω)
400
100
200
0
500
200
400
0
0 mA
100 mA
200 mA
300 mA
400 mA
500 mA
600
Impedance (Ω)
1200
Impedance (Ω)
700
0 mA
100 mA
200 mA
300 mA
400 mA
500 mA
1400
HZ1206E601R-10 - High Impedance
800
120
100
80
60
40
100
0
18
20
1
10
100
Frequency (MHz)
1000
0
1
10
Frequency (MHz)
1210 / 1612 / 1806 Chip Bead Impedance Under DC Bias
MI1206L501R-10 - Mid Current
500
450
Impedance (Ω)
300
250
200
300
250
200
150
150
100
100
50
50
1
10
1000
100
Frequency (MHz)
0
3000
MI1210K600R-10 - Mid Current
120
80
3000
0 mA
1000 mA
2000 mA
3000 mA
4000 mA
5000 mA
70
40
1000
100
Frequency (MHz)
HI1612X560R-10 - High Current
80
60
10
1
90
0 mA
250 mA
500 mA
1000 mA
1500 mA
100
0 mA
250 mA
500 mA
1000 mA
1500 mA
2000 mA
350
Impedance (Ω)
Impedance (Ω)
350
0
Impedance (Ω)
400
0 mA
100 mA
250 mA
500 mA
1000 mA
2000 mA
400
MI1206L391R-10 - Mid Current
450
60
50
40
30
20
20
0
10
10
1
Frequency (MHz)
HI1806N910R-10 - High Current
160
01
1000
100
100
80
Impedance (Ω)
Impedance (Ω)
1000
100
1000
100
1000
0 mA
1000 mA
2000 mA
3000 mA
4000 mA
5000 mA
80
60
70
60
50
40
30
40
20
20
10
1
Frequency (MHz)
1400
800
600
400
Frequency (MHz)
LI1806C151R-10 - Low Current
0 mA
50 mA
100 mA
200 mA
300 mA
200
Impedance (Ω)
1000
10
1
250
0 mA
100 mA
250 mA
500 mA
1000 mA
1500 mA
1200
10
0
1000
100
HZ1806K102R-10 - High Impedance
1600
Impedance (Ω)
100
90
0 mA
250 mA
500 mA
1000 mA
2000 mA
3000 mA
120
150
100
50
200
0
Frequency (MHz)
HI1806T600R-10 - High Current
100
140
0
10
1
10
100
Frequency (MHz)
1000
3000
0
1
10
Frequency (MHz)
visit www.lairdtech.com for product additions and more product details
19
1806 / 1812 / 2220 Chip Bead Impedance Under DC Bias
LI1806E101R-10 - Low Current
180
160
120
100
80
60
60
20
20
10
1
Frequency (MHz)
100
120
Impedance (Ω)
80
60
10
1
Frequency (MHz)
100
1000
HI1812T800R-10 - High Current
150
0 mA
100 mA
200 mA
400 mA
800 mA
1000 mA
100
0
1000
MI1806J800R-10 - Mid Current
140
Impedance (Ω)
80
40
40
0
0 mA
100 mA
200 mA
300 mA
400 mA
500 mA
100
Impedance (Ω)
Impedance (Ω)
120
0 mA
100 mA
200 mA
300 mA
400 mA
500 mA
140
LI1806E800R-10 - Low Current
140
0 mA
600 mA
1200 mA
2400 mA
3600 mA
6000 mA
100
50
40
20
0
1
160
140
Frequency (MHz)
HI1812V101R-10 - High Current
100
100
100
1000
Frequency (MHz)
3000
LI1812D121R-10 - Low Current
180
0 mA
50 mA
100 mA
200 mA
300 mA
400 mA
160
80
60
140
120
100
80
60
40
40
20
20
0
10
1
Frequency (MHz)
100
180
120
100
80
60
40
Frequency (MHz)
100
1000
100
1000
HI2220P171R-10 - High Current
250
Impedance (Ω)
140
10
1
300
0 mA
250 mA
500 mA
1000 mA
1500 mA
160
0
1000
MI1812K121R-10 - Mid Current
200
Impedance (Ω)
10
1
200
0 mA
1000 mA
2000 mA
3000 mA
4000 mA
5000 mA
120
Impedance (Ω)
10
1000
Impedance (Ω)
0
0 mA
1000 mA
2000 mA
3000 mA
4000 mA
200
150
100
50
20
0
20
1
10
Frequency (MHz)
100
1000
0
1
10
Frequency (MHz)
2220 Chip Bead Impedance Under DC Bias
HI2220P251R-10 - High Current
350
200
150
100
100
600
600
400
300
200
10
1
Frequency (MHz)
100
400
100
1000
100
1000
100
1000
300
200
600
450
300
200
Frequency (MHz)
HI2220Q401R-10 - High Current
0 mA
1000 mA
2000 mA
3000 mA
4000 mA
4500 mA
400
Impedance (Ω)
400
10
1
500
0 mA
500 mA
1000 mA
2000 mA
3000 mA
4000 mA
500
0
1000
HI2220P701R-10 - High Current
700
Impedance (Ω)
1000
100
100
350
300
250
200
150
100
100
50
10
1
Frequency (MHz)
100
100
50
Frequency (MHz)
HI2220R181R-10 - High Current
250
Impedance (Ω)
150
10
1
300
0 mA
1000 mA
2000 mA
3000 mA
4000 mA
5000 mA
200
0
1000
HI2220R151R-10 - High Current
250
Impedance (Ω)
100
0 mA
500 mA
1000 mA
2000 mA
3000 mA
4000 mA
500
500
Frequency (MHz)
HI2220P601R-10 - High Current
700
0 mA
1000 mA
2000 mA
3000 mA
4000 mA
10
1
1000
Impedance (Ω)
Impedance (Ω)
Frequency (MHz)
HI2220P551R-10 - High Current
700
0
150
0
10
1
800
0
250
200
50
900
0
300
100
50
0
0 mA
1000 mA
2000 mA
3000 mA
4000 mA
350
Impedance (Ω)
250
Impedance (Ω)
400
0 mA
1000 mA
2000 mA
3000 mA
4000 mA
300
HI2220P271R-10 - High Current
450
0 mA
1000 mA
2000 mA
3000 mA
4000 mA
5000 mA
200
150
100
50
1
10
Frequency (MHz)
100
1000
0
1
10
Frequency (MHz)
visit www.lairdtech.com for product additions and more product details
21
2220 / 3312 and 4 Line Array Impedance Under DC Bias
HI2220R301R-10 - High Current
400
350
Impedance (Ω)
200
150
80
60
50
20
10
Frequency (MHz)
100
400
100
10
1
Frequency (MHz)
100
500
400
300
200
180
140
120
80
60
40
20
Frequency (MHz)
1000
100
DA1206B102R-10 - 4 Line Chip Array
1000
100
10
1
1200
0 mA
1000 mA
2000 mA
3000 mA
4000 mA
5000 mA
160
0
1000
HI3312X101R-10 - High Current
200
0 mA
50 mA
100 mA
150 mA
200 mA
800
600
400
200
10
1
Frequency (MHz)
100
DA1206B601R-10 - 4 Line Chip Array
800
700
500
300
200
Frequency (MHz)
1000
100
DA1206C121R-10 - 4 Line Chip Array
0 mA
25 mA
50 mA
100 mA
200 mA
300 mA
200
400
10
1
250
0 mA
50 mA
100 mA
150 mA
200 mA
600
0
1000
Impedance (Ω)
0
700
600
100
Impedance (Ω)
0
1000
100
0 mA
1000 mA
2000 mA
3000 mA
4000 mA
5000 mA
800
200
Frequency (MHz)
HR2220V801R-10 - High Retention Under Bias
900
300
10
1
1000
0 mA
500 mA
1000 mA
2000 mA
3000 mA
4000 mA
500
0
1000
HR2220P601R-10 - High Retention Under Bias
600
Impedance (Ω)
100
40
700
Impedance (Ω)
120
100
1
0 mA
1000 mA
2000 mA
3000 mA
4000 mA
5000 mA
140
Impedance (Ω)
Impedance (Ω)
250
0
Impedance (Ω)
160
0 mA
1000 mA
2000 mA
3000 mA
4000 mA
5000 mA
300
HI2220T101R-10 - High Current
180
150
100
50
100
0
22
0
1
10
Frequency (MHz)
100
1000
1
10
100
Frequency (MHz)
1000
3000
4 Line Array and LF Chip Bead Impedance Under DC Bias
DA1206D301R-10 - 4 Line Chip Array
450
400
0 mA
50 mA
100 mA
200 mA
300 mA
400 mA
300
250
200
150
10
1
100
20
4000
3000
2000
1000
10
1
100
Frequency (MHz)
3000
2000
10
2000
1000
100
Frequency (MHz)
LF1206C202R-10 - Low Frequency Chip Bead
Peak Z @ 40 MHz
0 mA
50 mA
100 mA
200 mA
300 mA
2500
Impedance (Ω)
4000
1
3000
Peak Z Below 20 MHz
0 mA
20 mA
40 mA
60 mA
80 mA
100 mA
5000
0
1000
LF1206A302R-10 - Low Frequency Chip Bead
6000
Impedance (Ω)
1000
100
Peak Z @ 25 MHz
10
1500
1000
500
1000
0
10
1
100
Frequency (MHz)
LF1206E152R-10 - Low Frequency Chip Bead
1600
1
60
50
Impedance (Ω)
1200
1000
Peak Z @ 50 MHz
0 mA
100 mA
200 mA
300 mA
400 mA
500 mA
1400
Impedance (Ω)
Frequency (MHz)
0 mA
20 mA
40 mA
60 mA
80 mA
100 mA
5000
30
1000
800
600
400
10
1000
100
Frequency (MHz)
28F0121-0SR-10 - Broadband Bead Assembly
0 mA
500 mA
1000 mA
2000 mA
4000 mA
8000 mA
40
30
20
10
200
0
10
LF0805A252R-10 - Low Frequency Chip Bead
6000
Impedance (Ω)
40
1800
60
01
1000
0 mA
20 mA
40 mA
60 mA
80 mA
100 mA
50
Impedance (Ω)
Frequency (MHz)
DA1206E300R-10 - 4 Line Chip Array
60
0
80
20
50
0
100
40
100
0
0 mA
50 mA
100 mA
200 mA
300 mA
400 mA
120
Impedance (Ω)
Impedance (Ω)
350
DA1206D600R-10 - 4 Line Chip Array
140
0
1
10
Frequency (MHz)
100
1000
1
10
100
1000
3000
Frequency (MHz)
visit www.lairdtech.com for product additions and more product details
23
Ferrite SMT Bead Assemblies Impedance Under DC Bias
28F0121-1SR-10 - Broadband Bead Assembly
140
120
Impedance (Ω)
80
60
60
20
20
1
10
100
1000
Frequency (MHz)
40
1
10
100
20
10
80
60
40
20
1
10
100
Frequency (MHz)
1000
3000
0
1
10
100
1000
Frequency (MHz)
Quick reference comparison impedance curves
for groups of chip beads and common mode
chokes are on pages 54 to 63.
24
3000
0 mA
250 mA
500 mA
750 mA
1000 mA
5000 mA
100
30
1000
Frequency (MHz)
35F0121-1SR-10 - Low Frequency Bead Assembly
120
0 mA
250 mA
500 mA
750 mA
1000 mA
5000 mA
50
0
0
3000
35F0121-0SR-10 - Low Frequency Bead Assembly
60
Impedance (Ω)
80
40
0
0 mA
500 mA
1000 mA
2000 mA
3000 mA
5000 mA
100
40
Impedance (Ω)
Impedance (Ω)
120
0 mA
500 mA
1000 mA
2000 mA
3000 mA
5000 mA
100
28F0181-1SR-10 - Broadband Bead Assembly
140
3000
Ferrite EMI Chip Bead Dimensions
LAND PATTERN FOR
REFLOW SOLDERING
CHIP SIZE
Monolithic Chip Bead
B
A
C
D
See Page 41 for Equivalent
Circuit Diagrams
Metric
( EIA )
Pkg.
Size
A
mm
(inches)
B
mm
(inches)
C*
mm
(inches)
D
mm
(inches)
1005
(0402)
1.01
(0.040)
0.50
(0.020)
0.50
(0.020)
1608
(0603)
1.60
(0.063)
0.80
(0.031)
2010
(0804)
2.00
(0.079)
2012
(0805)
L
mm
(inches)
G
mm
(inches)
H
mm
(inches)
0.30
(0.012)
2.10
(0.083)
0.50
(0.020)
0.55
(0.022)
0.80
(0.031)
0.36
(0.014)
2.60
(0.102)
0.60
(0.023)
0.80
(0.031)
1.00
(0.039)
0.50
(0.020)
0.025
(0.010)
1.50
(0.059)
0.50
(0.020)
0.25
(0.010)
2.00
(0.079)
1.25
(0.049)
0.90
(0.035)
0.51
(0.020)
3.23
(0.127)
0.66
(0.026)
1.47
(0.058)
3216
(1206)
3.20
(0.126)
1.60
(0.063)
1.10
(0.043)
0.51
(0.020)
4.40
(0.173)
2.20
(0.087)
2.06
(0.081)
3225
(1210)
3.20
(0.126)
2.50
(0.098)
1.40
(0.055)
0.46
(0.018)
4.06
(0.160)
2.13
(0.084)
2.74
(0.108)
4030
(1612)
4.06
(0.160)
3.05
(0.120)
2.28
(0.090)
0.46
(0.018
8.64
(0.340)
2.13
(0.084)
4.06
(0.160)
4516
(1806)
4.50
(0.177)
1.60
(0.063)
1.60
(0.063)
0.51
(0.020)
5.70
(0.224)
2.70
(0.106)
2.24
(0.088)
4532
(1812)
4.50
(0.177)
3.20
(0.126)
1.40
(0.055)
0.46
(0.018)
5.90
(0.232)
2.57
(0.101)
4.22
(0.166)
5650
(2220)
5.59
(0.220)
5.08
(0.200)
3.45
(0.136)
0.76
(0.030)
9.19
(0.362)
3.05
(0.120)
6.10
(0.240)
8530
(3312)
8.50
(0.335)
3.05
(0.120)
2.28
(0.090)
0.51
(0.020)
13.08
(0.515)
6.48
(0.255)
4.06
(0.160)
Part
Number
A
mm
(inches)
B
mm
(inches)
C
mm
(inches)
D
mm
(inches)
L
mm
(inches)
G
mm
(inches)
H
mm
(inches)
_ _F0121-0SR
3.05
(0.120)
2.54
(0.100)
4.06
(0.160)
--
7.29
(0.287)
1.02
(0.040)
3.45
(0.136)
_ _F0121-1SR
3.05
(0.120)
2.54
(0.100)
8.51
(0.335)
--
10.74
(0.423)
4.14
(0.163)
4.60
(0.160)
_ _F0181-0SR
4.57
(0.180)
2.54
(0.100)
8.51
(0.335)
--
10.74
(0.423)
4.14
(0.163)
4.60
(0.160)
Parts have
no polarity
Land Pattern
2
L
G
1
Ferrite SMT Bead
& Wire Assembly
A
B
C
H
*C Dimension (height) may vary with current and impedance rating requirements.
Refer to part print for specific dimensions. Parts have no polarity.
Electrical specifications and tolerances are based on room temperature operation ( 23°C + 2°C ). Parts have an
operating temperature range of -45°C to +125°C. While the parts will continue to operate without damage over
this range, they may not stay within the specified electrical tolerances during exposure to extreme temperatures.
Visit www.LAIRDTECH.com for additional and the most up-to-date information and for other board level part families not
included in this catalog. All data charts are sortable at www.lairdtech.com.
A revolutionary new SPICE model for EMI ferrite chip beads is now available from Laird Technologies. This
new design aid includes the de-rating effects of DC bias currents providing much greater accuracy for better
designs the first time. This chip bead SPICE model is available on www.lairdtech.com or by contacting your local
Laird Technologies office.
visit www.lairdtech.com for product additions and more product details
25
Common Mode and Differential Mode Explanation
Common mode chokes are the ideal components for EMI filtering of power and signal lines. These components withstand high DC currents
without degradation of filtering performance that can occur with differential mode filters like small chip beads. Stable common mode chokes
allow most signals to pass unaffected, yet filter the noise (EMI) from these circuits.
Switch mode power supplies are required for most advanced electronics and harmonics of the switch mode power supply can escape the
power supply as EMI. Also, the power delivery circuit often creates opportunities for unintended common mode current loops to form in the
end product even when using a “certified” or “regulation compliant” power supply. Installation of a common mode choke to the supply output
can significantly reduce this common mode energy flow and help insure product performance and EMI regulatory compliance. Small ferrite chip
beads or inductors are degraded by the power supply output. However, common mode chokes continue their high performance regardless of
the high power currents that might flow or spike in the circuit.
Modern systems are frequently an interconnection of functional blocks and connections made by cables or wiring harnesses. These
interconnections often present the opportunity for common mode current loops between devices that can lead to EMI regulatory failure.
The addition of a common mode choke before the connector filters these common mode currents while allowing the desired signals to pass
unaffected. The result is effective communication between devices, reliable product and system operation and product EMI regulatory compliance.
Most well-designed power and signal circuits present no EMI that is caused from intended currents. As an example, at 30 MHz, a pair of
traces or wires 1m long, separated by 1.3 mm, requires over 20mA differential current imbalance to exceed 100mV/m radiation 3 meters
away. However, unintended, unforeseen common mode currents can exceed 100mV/m radiation with only 8mA common mode current flow!
Suppression of these tiny common mode currents is often crucial to assuring EMI regulatory compliance and reliable product performance.
Ferrite common mode chokes operate by acting on the magnetic fields surrounding a pair of conductors.
Black arrows represent differential (normal) mode.
Red arrows represent common mode.
Two conductors used in a standard “differential” transmission circuit create
magnetic fields surrounding the conductors. These magnetic fields flow around
the conductors in the directions depicted by the black arrows.
Likewise, common mode currents generate magnetic fields surrounding the
conductors. The red arrows depict the common-mode current path and the
associated flux paths around the wires.
The same two wires shown above have been fitted with two seperate ferrite
EMI cores in a differential-mode configuration with one core per line. In this
application, each core must contain the total magnetic flux resulting from both
the differential mode (intended) current and the common mode (unintended)
current. In this case, the performance of the ferrite core is significantly altered
by the intended current. Differential mode filters (like small chip beads) are not
stable under significant load.
The same two wires have now been fitted with a ferrite EMI core in a common-mode
configuration; a single core with both lines through a common opening in the core. The
differential mode (black) fields in the core are now equal and opposite, which yields a
net flux seen by the core of approximately zero. Saturation is no longer an issue, and a
much smaller ferrite core / choke can be used. The field from the common-mode noise
(red arrows) is additive and is the only remaining flux to be influenced by the core.
The common mode choke configuration applies to both cable cores and board level
components.
Common Mode Chokes are stable under load.
26
Common Mode Chokes
Common Mode Choke Families
Part
Series
Special
Features
EIA
Package
Size
Impedance ( Z )
W @ 100 MHz
Rated I MAX
(continuous)
mA
Peak
Impedance ( Z )
Frequency
# of Single Line
Pairs or Chokes
CM Beads
“High Current, Small Package,
High Frequency”
1812 - 3322
33 - 110
4,000 - 10,000
800 MHz to 2.3 GHz
1
CM 05
“USB 2.0,
Low Normal Mode Z”
0805
90 - 370
100 - 400
1 GHz - 1.4 GHz
1
CM 21
“High Current, Low Profile”
2021 - 3421
33 - 60
15,000
1 GHz
1
CM 22 Array
“Firewire,
Gigabit Ethernet”
2722 - 5022
45 - 200
5,000
200 MHz - 3 GHz
2, 3, 4
CM 32 Array
“High Current,
High Frequency”
3032 - 6032
120 - 300
8,000
150 MHz - 2 GHz
2, 3, 4
CM 40 Array
“High Current,
Low to High Frequency”
3440 - 5740
170
20,000
1 GHz
1, 2
CM 41
“Ultra High Current,
Low to High Frequency”
5441
90 - 160
75,000
600 MHz - 700 MHz
1
CM 44
“3 Line Power”
4440
110
20,000
500 MHz
3
CM 45
“2 & 4 Line Power”
2545 - 4545
130 - 170
10,000
500 MHz - 1 GHz
1, 2
LF CM
“Low Frequency”
1812 - 5740
100 - 3500
200 - 20,000
3 MHz - 80 MHz
1
Impedance Testing For Common Mode Chokes
e
rit
r
Fe
Network
Analyzer
Network
Analyzer
Open Mode
e
rit
te
r
Fe
rri
Fe
Network
Analyzer
Normal / Differential Mode
Common Mode
Open-Mode Impedance Measurement - The open-mode impedance characterizes the impedance of only a single conductor in
the ferrite common mode choke.
Normal (Differential) Mode Impedance Measurement - The normal mode impedance characterizes the impedance presented
by the common mode choke to the normal (differential) signals present in the circuit. The test circuit represents the forward and
return paths through the device.
Common Mode Impedance Measurement - The common mode impedance characterizes the impedance presented by the
choke to the unintended common mode currents that might flow in the circuit and cause EMI failures. Since this current flows in
both conductors, it is necessary to short the conductors on each side of the choke so that test current flows equally through both
conductors.
visit www.lairdtech.com for product additions and more product details
27
Common Mode Choke - Series 05
USB 2.0 • Broadband •
High Density Storage Devices
Video Applications • Imaging • Surface Mount
• Low Normal (Differential) Mode Impedance
The Series 05 Common Mode Chokes provide excellent filtering capabilities for workload speeds of 25 to 480 Mb/s. Series 05
Common Mode Chokes handle filtering for bandwidth-hungry data lines in USB 2.0 designs. By using these parts on data lines (D+
and D-), they will suppress common mode noise without affecting the integrity of the differential signal. Low normal (differential)
mode impedance allows signals to pass. Available in EIA package size 0805.
PART NUMBER SYSTEM EXAMPLE
•
•
CM
0805
D
900
R
-10
Product Series
Code
Part Size
Code
Rated Current
Code
Impedance Value Code
Packaging
Code
Additional
Description
TYPICAL IMPEDANCE ( W )
Typical
Peak
Impedance
Frequency
( MHz )
DCR
MAX
(W)
Rated I MAX
(continuous)
mA
Z@
25 MHz
Z@
100 MHz
Z@
500 MHz
Z@
1 GHz
Typical
Peak
Impedance
(W)
CM0805D900R-10
24
90
340
435
445
1405
0.30
400
CM0805C161R-10
49
160
540
684
684
1000
0.35
300
CM0805C221R-10
57
220
570
720
724
1147
0.40
300
CM0805A371R-10
186
370
730
878
878
1000
0.50
100
Part
Number
A
mm
(inches)
B
mm
(inches)
C
mm
(inches)
2.00
(0.079)
1.20
(0.047)
1.20
(0.047)
B
A
Surface Mount. Refer to part print for additional dimensions
C
CM0805D900R-10
600
CM0805C161R-10
800
Open
Open
700
500
Common
300
Normal
200
Impedance (Ω)
Impedance (Ω)
600
400
Common
500
400
300
Normal
200
100
0
100
1
10
CM0805C221R-10
800
100
Frequency (MHz)
1000
0
3000
1000
3000
Open
800
Common
500
Impedance (Ω)
Impedance (Ω)
100
Frequency (MHz)
900
600
400
300
Normal
200
700
Common
600
500
400
300
200
100
28
10
CM0805A371R-10
1000
Open
700
0
1
Normal
100
1
10
100
Frequency (MHz)
1000
3000
0
1
10
100
Frequency (MHz)
1000
3000
Common Mode Monolithic Chip Beads
• Up To 10 Amps Continuous Operation
• Stable Under Load
• Low Profile
• Monolithic
• Small Footprint
• Vibration Resistant
Surface Mount Common Mode Chip Beads offer low profile, compact filtering of common mode noise (EMI) for
applications carrying up to 10 amps of continuous current. The advanced monolithic construction provides low profiles
with a package size as small as EIA 1812, perfect for filtering power supply circuits in notebook computers, power
adapters, and other mobile products. Servers, workstations, and consumer products benefit as the compact packages
allow increased component density in high current circuits. All versions are lead-free and RoHS compliant. Stable
performance under load.
PART NUMBER SYSTEM EXAMPLE
CM
1812
R
600
R
-10
Product Series Code
Part Size
Code
Rated Current
Code
Impedance Value Code
Packaging
Code
Additional
Description
TYPICAL IMPEDANCE ( W )
Typical
Peak
Impedance
Frequency
( MHz )
DCR
MAX
(W)
Rated I MAX
(continuous)
mA
Z@
25 MHz
Z@
100 MHz
Z@
500 MHz
Z@
1 GHz
Typical
Peak
Impedance
(W)
CM1812R600R-10
22
60
112
138
146
1519
0.0005
5,000
CM1812X330R-10
18
33
62
74
88
2359
0.0030
10,000
CM1922X330R-10
14
33
64
86
93
1783
0.0030
10,000
CM3312R111R-10
44
110
168
165
170
800
0.0050
5,000
CM3322P400R-10
13
40
121
185
251
1931
0.0300
4,000
CM3322U610R-10
26
61
123
170
191
1581
0.0090
7,000
CM3322X630R-10
26
63
114
152
165
1459
0.0080
10,000
Part
Number
Fig #
EIA
PKG.
SIZE
METRIC
PKG.
SIZE
A
mm
(inches)
B
mm
(inches)
C
mm
(inches)
3.05
(0.120)
2.36
(0.093)
Part
Number
CM1812R600R-10
2
1812
4532
4.57
(0.180)
CM1812X330R-10
2
1812
4532
4.57
(0.180)
3.05
(0.120)
1.60
(0.063)
CM1922X330R-10
1
1922
4756
4.70
(0.185)
5.60
(0.220)
2.85
(0.112)
CM3312R111R-10
2
3312
8531
8.50
(0.335)
3.05
(0.120)
2.36
(0.093)
CM3322P400R-10
1
3322
8556
8.50
(0.335)
5.60
(0.220)
2.10
(0.083)
CM3322U610R-10
1
3322
8556
8.50
(0.335)
5.60
(0.220)
2.10
(0.083)
CM3322X630R-10
1
3322
8556
8.50
(0.335
5.60
(0.220)
2.85
(0.112)
Figure 1
A
B
C
Figure 2
A
B
C
Parts have no polarity.
See Page 41 for Equivalent Circuit Examples. Common Mode Choke Master List on Pages 42 & 43.
visit www.lairdtech.com for product additions and more product details
29
Normal (differential), Open & Common Mode Impedance
CM1812R600R-10
CM1812X330R-10
160
140
200
Normal
150
Open
100
Normal
120
Impedance (Ω)
Impedance (Ω)
250
Common
100
Open
80
60
Common
40
50
20
1
10
100
Frequency (MHz)
CM1922X330R-10
180
1
Normal
140
120
100
Open
80
Common
60
100
Frequency (MHz)
10000
1000
250
40
Normal
200
Open
150
100
Common
50
20
0
10
CM3312R111R-10
300
160
Impedance (Ω)
0
10000
1000
Impedance (Ω)
0
1
10
100
Frequency (MHz)
CM3322P400R-10
450
0
10000
1000
1
Normal
100
Frequency (MHz)
10000
1000
CM3322U610R-10
350
400
10
Normal
300
250
300
Open
250
200
Common
150
1
10
100
Frequency (MHz)
10000
1000
Normal
250
Impedance (Ω)
Common
0
1
10
100
Frequency (MHz)
1000
10000
CM3322X630R-10
300
200
Open
150
100
Common
50
30
Open
150
50
50
0
200
100
100
0
Impedance (Ω)
Impedance (Ω)
350
1
10
100
Frequency (MHz)
1000
10000
Quick reference comparison impedance curves
for groups of chip beads and common mode
chokes are on pages 54 to 63.
All data charts can be sorted at
www.lairdtech.com.
Common Mode - Series 21
• 15 Amps Continuous Operation Capability • Robust Construction
• Broadband Performance
• More Board Flex Tolerance Than Monolithic Components
• Surface Mount
• Stable Performance Under Load
The Series 21 Common Mode Chokes offer compact common mode EMI filtering in applications carrying up to 15 amps
continuous current. The robust construction, large conductors, and broad impedance vs frequency characteristics provide secure
mounting and wide-ranging performance in applications that operate in extreme conditions. Stable performance under load.
PART NUMBER SYSTEM EXAMPLE
CM
2021
Y
330
R
-10
Product Series Code
Part Size
Code
Rated Current
Code
Impedance Value Code
Packaging
Code
Additional
Description
TYPICAL IMPEDANCE ( W )
Part
Number
Typical Peak
Impedance
(W)
Typical Peak
Impedance
Frequency
( MHz )
DCR
MAX
(W)
Rated I MAX
(continuous)
mA
Z@
25 MHz
Z@
100 MHz
Z@
500 MHz
Z@
1 GHz
CM2021Y330R-10
18
33
52
61
62
1100
0.0008
15,000
CM3421Y600R-10
39
60
96
110
110
1000
0.0008
15,000
Part
Number
A
mm
(inches)
B
mm
(inches)
C
mm
(inches)
CM2021Y330R-10
5.00
(0.197)
5.60
(0.220)
2.85
(0.112)
CM3421Y600R-10
8.68
(0.342)
5.60
(0.220)
2.85
(0.112)
A
B
C
Normal (differential), Open, Common Mode Impedance
CM2021Y330R-10
200
180
140
Impedance (Ω)
Impedance (Ω)
160
120
100
80
Open
60
40
20
0
Common
1
10
100
Frequency (MHz)
1000
CM3421Y600R-10
260
Normal
10000
240
220
200
180
160
140
120
100
80
60
40
20
0
1
Normal
Open
Common
10
100
Frequency (MHz)
1000
10000
See Page 41 for Equivalent Circuit Examples
visit www.lairdtech.com for product additions and more product details
31
Common Mode Array - Series 22
• Up to 5 Amps Continuous Operating Capability • Surface Mount
• Stable Performance Under Load
• 2, 3 & 4 Choke Array Versions
• Low Normal (Differential) Mode Impedance at 100 MHz
PART NUMBER SYSTEM EXAMPLE
CM
Product Series Code
2722
Part Size
Code
R
Rated Current
Code
800
Impedance Value
Code
ONE PASS TYPICAL IMPEDANCE ( W )
Part
Number
Z@
25 MHz
Z@
100 MHz
Z@
500 MHz
R
Packaging
Code
-10
Additional
Description
ONE PASS TYPICAL PEAK
Z@
1 GHz
DCR
MAX
(W)
Impedance
Frequency
( MHz )
Impedance
(W)
Rated I MAX
(continuous)
mA
CM2722R800R-10
60
80
92
98
140
3000
0.0200
5,000
CM2722R151R-10
113
150
165
165
168
1783
0.0200
5,000
CM2722R201R-10
141
200
202
187
206
272
0.0200
5,000
CM3822R800R-10
63
80
97
105
151
3000
0.0200
5,000
CM3822R151R-10
108
150
170
169
172
1646
0.0200
5,000
CM3822R201R-10
140
200
207
187
213
218
0.0200
5,000
CM5022R800R-10
61
80
95
102
150
3000
0.0200
5,000
CM5022R151R-10
112
150
165
167
177
2092
0.0200
5,000
CM5022R201R-10
144
200
206
188
210
306
0.0200
5,000
Part
Number
Fig #
# of Chokes
A
mm
(inches)
B
mm
(inches)
C
mm
(inches)
CM2722R800R-10
1
2
CM2722R151R-10
1
2
CM2722R201R-10
1
2
CM3822R800R-10
2
3
CM3822R151R-10
2
3
CM3822R201R-10
2
3
CM5022R800R-10
3
4
CM5022R151R-10
3
4
CM5022R201R-10
3
4
6.99
(0.275)
6.99
(0.275)
6.99
(0.275)
9.78
(0.385)
9.78
(0.385)
9.78
(0.385)
12.57
(0.495)
12.57
(0.495)
12.57
(0.495)
5.72
(0.225)
5.72
(0.225)
5.72
(0.225)
5.72
(0.225)
5.72
(0.225)
5.72
(0.225)
5.72
(0.225)
5.72
(0.225)
5.72
(0.225)
4.32
(0.170)
7.62
(0.300)
9.53
(0.375)
4.32
(0.170)
7.62
(0.300)
9.53
(0.375)
4.32
(0.170)
7.62
(0.300)
9.53
(0.375)
B
B
A
A
C
C
Figure 1
Two Chokes
Figure 2
Three Chokes
B
A
C
Side by side
arrays can be
installed in
series to multiply
impedance
Figure 3
Four Chokes
TYPICAL IMPEDANCE ( W ) FOR MULTIPLE PASS BOARD LAYOUT OPTIONS
32
Part
Number
# of
Chokes
CM2722R800R-10
2
One Pass
Two Pass
Three Pass
Four Pass
100
MHz
500
MHz
1
GHz
100
MHz
500
MHz
1
GHz
100
MHz
500
MHz
1
GHz
100
MHz
500
MHz
1
GHz
80
92
98
174
190
173
-
-
-
-
-
-
CM2722R151R-10
2
150
165
165
292
311
222
-
-
-
-
-
-
CM2722R201R-10
2
200
202
187
433
362
187
-
-
-
-
-
-
CM3822R800R-10
3
80
97
105
174
190
173
304
334
257
-
-
-
CM3822R151R-10
3
150
170
169
292
311
222
490
448
226
-
-
-
CM3822R201R-10
3
200
207
187
433
362
187
670
470
208
-
-
-
CM5022R800R-10
4
80
95
102
174
190
173
304
334
257
389
446
283
CM5022R151R-10
4
150
165
167
292
311
222
490
448
226
674
535
229
CM5022R201R-10
4
200
206
188
433
362
187
670
470
208
945
499
212
Common Mode Array, Series 22 Impedance
200
Part Impedance
Multi-Pass Impedance
Normal (Differential) / Open / Common
(for multiple pass board layout options)
CM2722R800R-10, CM3822R800R-10, CM5022R800R-10
CM2722R800R-10, CM3822R800R-10, CM5022R800R-10
Multi-Pass Impedance (Z) vs. Frequency
180
Normal
160
450
4 Pass
400
3 Pass
140
350
120
300
Open
100
80
Common
60
40
Impedance (Ω)
Impedance (Ω)
500
1 Pass
250
200
150
100
50
20
0
2 Pass
1
10
100
01
10000
1000
10
Frequency (MHz)
CM2722R151R-10, CM3822R151R-10, CM5022R151R-10
250
Open
100
Common
50
Impedance (Ω)
Impedance (Ω)
150
10000
1000
CM2722R151R-10, CM3822R151R-10, CM5022R151R-10
Multi-Pass Impedance (Z) vs. Frequency
800
Normal
200
100
Frequency (MHz)
700
4 Pass
600
3 Pass
500
2 Pass
400
1 Pass
300
200
100
0
1
10
100
1000
Frequency (MHz)
450
100
10000
1000
CM2722R201R-10, CM3822R201R-10, CM5022R201R-10
Multi-Pass Impedance (Z) vs. Frequency
1000
900
Normal
400
4 Pass
800
3 Pass
350
700
300
600
2 Pass
500
1 Pass
250
200
150
Open
100
Common
50
0
1
10
100
Frequency (MHz)
1000
10000
Impedance (Ω)
Impedance (Ω)
10
Frequency (MHz)
CM2722R201R-10, CM3822R201R-10, CM5022R201R-10
500
01
10000
400
300
200
100
0
1
10
100
1000
10000
Frequency (MHz)
See Page 41 for Multiple Pass Equivalent Circuit Examples And Explanation
visit www.lairdtech.com for product additions and more product details
33
Common Mode Array - Series 32
• Up to 8 Amps Continuous Operating Capability
• 2, 3 & 4 Choke Array Versions
PART NUMBER SYSTEM EXAMPLE
• Low Normal Mode Impedance at 100 MHz
• Surface Mount
• Stable Performance Under Load
CM
3032
V
121
R
-10
Product Series
Code
Part Size
Code
Rated Current
Code
Impedance Value
Code
Packaging
Code
Additional
Description
ONE PASS TYPICAL IMPEDANCE ( W )
ONE PASS TYPICAL PEAK
DCR
MAX
(W)
Rated I MAX
(continuous)
mA
200
0.0100
8,000
214
319
0.0100
8,000
224
307
214
0.0100
8,000
218
187
229
241
0.0100
8,000
300
250
172
328
168
0.0100
8,000
140
200
219
213
219
500
0.0100
8,000
CM6032V301R-10
240
300
258
170
346
149
0.0100
8,000
Part
Number
Fig
#
# of Chokes
A
mm
(inches)
B
mm
(inches)
C
mm
(inches)
8.13
(0.320)
5.72
(0.225)
Part
Number
Z@
25 MHz
Z@
100 MHz
Z@
500 MHz
Z@
1 GHz
Impedance
(W)
Impedance
Frequency
( MHz )
CM3032V121R-10
80
120
130
140
169
CM3032V201R-10
143
200
210
199
CM3032V301R-10
211
300
280
CM4732V201R-10
152
200
CM4732V301R-10
217
CM6032V201R-10
CM3032V121R-10
1
2
7.62
(0.300)
CM3032V201R-10
1
2
7.62
(0.300)
8.13
(0.320)
9.45
(0.372)
8.13
(0.320)
14.48
(0.570)
CM3032V301R-10
1
2
7.62
(0.300)
CM4732V201R-10
2
3
11.94
(0.470)
8.13
(0.320)
9.45
(0.372)
8.13
(0.320)
14.48
(0.570)
CM4732V301R-10
2
3
11.94
(0.470)
CM6032V201R-10
3
4
15.24
(0.600)
8.13
(0.320)
9.45
(0.372)
CM6032V301R-10
3
4
15.24
(0.600)
8.13
(0.320)
14.48
(0.570)
B
B
A
A
C
C
Figure 1
Two Chokes
Figure 2
Three Chokes
B
A
C
Side by side
arrays can be
installed in
series to multiply
impedance
Figure 3
Four Chokes
TYPICAL IMPEDANCE ( W ) FOR MULTIPLE PASS BOARD LAYOUT OPTIONS
34
Part
Number
# of
Chokes
CM3032V121R-10
One Pass
Two Pass
Three Pass
Four Pass
100
MHz
500
MHz
1
GHz
100
MHz
500
MHz
1
GHz
100
MHz
500
MHz
1
GHz
100
MHz
500
MHz
1
GHz
2
120
130
140
266
284
241
-
-
-
-
-
-
CM3032V201R-10
2
200
210
199
432
300
175
-
-
-
-
-
-
CM3032V301R-10
2
300
280
224
631
251
156
-
-
-
-
-
-
CM4732V201R-10
3
200
218
187
491
317
182
771
331
194
-
-
-
CM4732V301R-10
3
300
250
172
684
258
156
967
278
172
-
-
-
CM6032V201R-10
4
200
219
213
472
313
179
737
315
193
995
358
250
CM6032V301R-10
4
300
258
170
681
266
161
926
273
167
1075
317
300
Impedance Of Common Mode Array, Series 32
450
Part Impedance
Multi-Pass Impedance
Normal (Differential) / Open / Common
(for multiple pass board layout options)
CM3032V121R-10
350
400
1 Pass
250
250
200
Open
150
Common
100
Impedance (Ω)
300
Impedance (Ω)
2 Pass
300
Normal
350
200
150
100
50
50
0
1
10
100
Frequency (MHz)
01
10000
1000
10
500
4 Pass
1000
3 Pass
800
Impedance (Ω)
400
300
200
Open
1
10
100
1 Pass
600
400
01
10000
1000
2 Pass
200
Common
0
10
CM3032V301R-10, CM4732V301R-10, CM6032V301R-10
700
600
1400
Impedance (Ω)
400
300
Open
200
100
Common
10
100
Frequency (MHz)
1000
4 Pass
1200
500
1
10000
1000
CM3032V301R-10, CM4732V301R-10 & CM6032V301R-10
Multi-Pass Impedance (Z) vs. Frequency
1600
Normal
0
100
Frequency (MHz)
Frequency (MHz)
800
10000
1000
CM3032V201R-10, CM4732V201R-10 & CM6032V201R-10
Multi-Pass Impedance (Z) vs. Frequency
1200
Normal
100
Impedance (Ω)
100
Frequency (MHz)
CM3032V201R-10, CM4732V201R-10, CM6032V201R-10
600
Impedance (Ω)
CM3032V121R-10
Multi-Pass Impedance (Z) vs. Frequency
10000
3 Pass
1000
2 Pass
800
1 Pass
600
400
200
0
1
10
100
Frequency (MHz)
1000
10000
See Page 41 for Multiple Pass Equivalent Circuit Examples and Explanation
visit www.lairdtech.com for product additions and more product details
35
Common Mode Chokes - Series 40
• Both Thru-Hole (B) & Surface Mount (R) Versions Available • Up to 20 Amps Operating Capability
• Broadband Filtering At High Currents
• Low DCR
TYPICAL IMPEDANCE ( W )
Part
Number
CM3440Z171B-10
Z@
25 MHz
Z@
100 MHz
Z@
500 MHz
Z@
1 GHz
Typical
Peak
Impedance
(W)
116
170
189
202
202
1000
0.0010
20,000
116
170
189
202
202
1000
0.0010
20,000
116
170
189
202
202
1000
0.0010
20,000
CM5740Z171R-10
116
170
189
202
202
1000
0.0010
20,000
Part
Number
Fig #
Installation
Orientation
# of Chokes
A
mm
(inches)
B
mm
(inches)
C
mm
(inches)
CM3440Z171B-10
1
Thru-Hole
1
CM3440Z171R-10
2
Surface Mount
1
CM5740Z171B-10
3
Thru-Hole
2
CM5740Z171R-10
4
Surface Mount
2
8.51
(0.335)
8.51
(0.335)
14.48
(0.570)
14.48
(0.570)
10.03
(0.395)
10.03
(0.395)
10.03
(0.395)
10.03
(0.395)
9.32
(0.367)
9.32
(0.367)
9.32
(0.367)
9.32
(0.367)
A
B
Figure #1
Thru-Hole
B
A
B
A
C
Figure #3
Two Chokes / Thru-Hole
Figure #2
Surface Mount
Figure #4
Two Chokes / Surface Mount
CM5740Z171B-10, CM5740Z171R-10
500
450
500
Normal
Impedance (Ω)
400
300
Open
200
100
Common
0
1
10
100
Frequency (MHz)
1000
10000
CM5740Z171B-10, CM5740Z171R-10
Multi-Pass Impedance (Z) vs. Frequency
450
400
2 Pass
350
1 Pass
300
250
200
150
100
50
0
A
C
C
CM3440Z171B-10, CM3440Z171R-10
600
Impedance (Ω)
Rated I MAX
(continuous)
mA
CM3440Z171R-10
C
Impedance (Ω)
DCR
MAX
(W)
CM5740Z171B-10
B
36
Typical
Peak
Impedance
Frequency
( MHz )
1
10
100
Frequency (MHz)
1000
10000
Normal
400
350
300
250
200
Open
150
100
50
0
Common
1
10
100
Frequency (MHz)
1000
10000
3 Line Common Mode Choke - Series 44
• 3-Line Common Mode Choke
• Surface Mount Design
• 20 Amps Continuous Current
• Tape and Reel Packaging
• Broadband Performance 50MHz to 3GHz+ • Stable Performance Under Load
As devices become more complex, flexibility in delivering power supply becomes more challenging. Multiple voltages
must be supplied to power the variety of components present in modern devices. The new Laird Technologies
CM4440V111R-10 filters multiple supply conductors carrying up to 20A continuous current.
PART NUMBER SYSTEM EXAMPLE
CM
2021
Y
330
R
-10
Product Series Code
Part Size
Code
Rated Current
Code
Impedance Value Code
Packaging
Code
Additional
Description
TYPICAL IMPEDANCE ( W )
Typical
Peak
Impedance
Frequency
( MHz )
DCR
MAX
(W)
Rated I MAX
(continuous)
mA
0.0010
20,000
Z@
25 MHz
Z@
100 MHz
Z@
500 MHz
Z@
1 GHz
Typical
Peak
Impedance
(W)
79
110
122
117
122
500
A
mm
(inches)
B
mm
(inches)
C
mm
(inches)
T1
mm
(inches)
T2
mm
(inches)
T3
mm
(inches)
11.05
(0.435)
10.03
(0.395)
9.32
(0.367)
3.56
(0.14)
0.76
(0.030)
0.76
(0.030)
T3
Z, R, XL VS Frequency
150
Normal
125
300
Impedance (Ω)
Impedance (Ω)
C
T1
375
Open
225
150
Common
75
0
A
T2
Normal (differential), Open, Common Mode Impedance
450
B
1
10
100
Frequency (MHz)
100
75
Z
R
50
XL
25
1000
10000
0
1
10
100
Frequency (MHz)
1000
10000
See Page 41 for Equivalent Circuit Examples
visit www.lairdtech.com for product additions and more product details
37
High Current Common Mode Chokes - Series 41
• Up To 75 Amps Continuous Operation Capability
• Compact Design
• Thru-Hole Installation
• Robust Construction
• Very Low DCR
The Series 41 Common Mode Arrays filter common mode EMI in applications of up to 75 amps continuous operating
current. The combination of very low DCR and small package size allows this choke to be used when high current and
high temperature limits other common mode chokes. Additionally, the high resistivity of this ferrite material and robust
product design, limits concerns about product placement experienced with conventional wire wound toroidal chokes.
All versions are lead-free and RoHS compliant. Stable performance under load.
PART NUMBER SYSTEM EXAMPLE
CM
5441
Z
101
B
-10
Product Series Code
Part Size
Code
Rated Current
Code
Impedance Value Code
Packaging
Code
Additional
Description
TYPICAL IMPEDANCE ( W )
DCR
MAX
(W)
Rated I MAX
(continuous)
mA @ 25 C
Temp Rise
Rated I MAX
(continuous)
mA @ 30 C
Temp Rise
Z@
25 MHz
Z@
100 MHz
Z@
500 MHz
Z@
1 GHz
CM5441Z101B-10
CM5441Z101B-13*
79
100
188
183
204
682
0.0003
30000
75,000
CM5441Z161B-10
CM5441Z161B-13*
112
160
261
146
263
457
0.0003
30000
75,000
Part
Number
A
mm
(inches)
B
mm
(inches)
C
mm
(inches)
CM5441Z101B-10
CM5441Z101B-13*
13.72
(0.540)
10.41
(0.410)
10.52
(0.414)
CM5441Z161B-10
CM5441Z161B-13*
13.72
(0.540)
10.41
(0.410)
15.24
(0.600)
Part
Number
B
600
Normal
400
Impedance (Ω)
300
250
Open
150
100
Common
1
10
100
Frequency (MHz)
1000
CM5441Z161B-10 - CM5441Z161B-13
Normal
400
300
200
Open
100
50
0
C
500
350
200
10000
0
1
Common
10
100
Frequency (MHz)
1000
Normal / Differential Mode Impedance: The total impedance to the differential circuit.
Open Mode Impedance: The impedance measured through a single conductor of the common mode choke.
Common Mode Impedance: The impedance to EMI noise conducted in the same direction through two conductors.
See page 27 for testing methods diagrams
See Page 41 for Equivalent Circuit Examples and Explanations
38
A
* -13 Part # suffix represents extended thru hole lead length.
See ww.lairdtech.com for print details.
CM5441Z101B-10 - CM5441Z101B-13
450
Impedance (Ω)
Typical
Peak
Impedance
Frequency
( MHz )
Typical
Peak
Impedance
(W)
10000
Common Mode Array - Series 45
• Can Be Installed In A Two Turn Configuration To Mulitply Impedance
• Can Be Used In 3 Phase Applications
• 10 Amps Continuous Operating Capability
The Series 45 Common Mode Arrays offer compact filtering of common mode noise in applications carrying up to 10 amps
continuous current. This product series provides the flexibility of filtering 3-phase power supply without impact on common
mode filtering performance, as all conductors share a common magnetic circuit. Additionally, the 4-line array can be
configured to offer over 500 W peak impedance for a normal 2-line circuit. Both Thru-Hole (B) & Surface Mount (R) versions
available.
PART NUMBER SYSTEM EXAMPLE
CM
2545
X
171
B
-10
Product Series Code
Part Size
Code
Rated Current
Code
Impedance Value Code
Packaging
Code
Additional
Description
A
B
B
B
A
Thru
Hole
C
C
Surface
Mount
A
Thru
Hole
C
Surface
Mount
CM4545Z131R-10
CM4545Z131B-10
TYPICAL IMPEDANCE ( W )
Typical
Peak
Impedance
Frequency
( MHz )
DCR
MAX
(W)
Rated I Max
(continuous)
mA
Z@
25 MHz
Z@
100 MHz
Z@
500 MHz
Z@
1 GHz
Typical
Peak
Impedance
(W)
CM2545X171B-10
108
170
210
180
210
500
0.0100
10,000
CM2545X171R-10
108
170
210
180
210
500
0.0100
10,000
Part
Number
CM4545Z131B-10
65
130
267
256
288
682
0.0100
10,000
CM4545Z131R-10
65
130
267
256
288
682
0.0100
10,000
CM4545X131B-10, CM4545X131R-10, Multi-Turn Impedance
600
# of
Chokes
CM2545X171B-10
1
CM2545X171R-10
1
CM4545Z131B-10
2
CM4545Z131R-10
2
A
mm
(inches)
B
mm
(inches)
C
mm
(inches)
6.30
(0.248)
6.30
(0.248)
11.38
(0.448)
11.38
(0.448)
11.38
(0.448)
11.38
(0.448)
11.38
(0.448)
11.38
(0.448)
9.32
(0.367)
9.32
(0.367)
9.32
(0.367)
9.32
(0.367)
CM2545X171B-10, CM2545X171R-10
700
1 Turn Z
400
300
200
100
1
700
600
10
100
Frequency (MHz)
CM4545X131B-10, CM4545X131R-10
10000
1000
600
Normal
Normal
500
Impedance (Ω)
500
400
300
200
Common
100
0
2 Turn Z
500
Impedance (Ω)
Part
Number
0
Impedance (Ω)
B
C
CM2545X171R-10
CM2545X171B-10
A
10
100
Frequency (MHz)
1000
300
200
Open
100
Open
1
400
Common
10000
0
1
10
100
Frequency (MHz)
visit www.lairdtech.com for product additions and more product details
1000
10000
39
Common Mode Chokes -Low Frequency Series LF
• Medical Equipment
• Telecom Applications
• Low Frequency Peak Impedance
• CM5740 Is High Current And Low DCR
• Stable Performance Under Load
PART NUMBER SYSTEM EXAMPLE
CM
1812
C
282
R
-10
Product Series
Code
Part Size
Code
Rated Current
Code
Impedance Value
Code
Packaging
Code
Additional
Description
TYPICAL IMPEDANCE ( W )
PHYSICAL DIMENSIONS
Typical
Peak
Impedance
Frequency
( MHz )
DCR
MAX
(W)
Rated I MAX
(continuous)
mA
Part
Number
A
mm
(inches)
B
mm
(inches)
C
mm
(inches)
Z@
1 MHz
Z@
4 MHz
Z@
10 MHz
Z@
100 MHz
Typical
Peak
Impedance
(W)
CM1812C282R-10
5.00
(0.197)
3.50
(0.138)
5.55
(0.140)
370
1100
1900
2800
3500
50
0.5000
200
CM2824B103R-10
7.50
(0.295)
5.50
(0.217)
3.80
(0.150)
10000
8900
3980
400
13200
2
1.3000
400
CM2824E182R-10
7.50
(0.295)
5.50
(0.217)
3.80
(0.150)
200
570
920
1800
1920
80
0.2600
800
CM2824E352R-10
7.50
(0.295)
5.50
(0.217)
3.80
(0.150)
350
1400
2100
3500
3950
45
0.3000
800
CM2824E702R-10
7.50
(0.295)
5.50
(0.217)
3.80
(0.150)
3000
7000
5800
800
7200
6
0.2600
700
CM5740Z241B-10
14.40
(0.570)
10.03
(0.395)
9.32
(0.387)
(2 Turns)
3
0.0013
20,000
170
240
(2 Turns)
173
(2 Turns)
100
276
(2 Turns)
(2 Turns)
(2 Turns)
Refer to part print for additional dimensions.
CM5740Z241B-10, 2 Turn Impedance ( Z )
300
B
B
A
C
C
C
CM2824
Surface Mount
250
A
CM1812
Surface Mount
Impedance (Ω)
B
A
CM5740Z241B-10
Thru-Hole
200
Common
150
100
Differential or Normal
50
0
0.1
Impedance (Z) Versus Frequency
16000
14000
3600
10000
8000
6000
4000
100
2800
2400
2000
1600
1200
800
2000
400
0
0.1
40
10
CM2824E352R-10
CM1812C282R-10
CM2824E182R-10
3200
Impedance (Ω)
Impedance (Ω)
12000
Frequency (MHz)
Impedance (Z) Versus Frequency
4000
CM2824B103R-10
CM2824E702R-10
1
1
Frequency (MHz)
5
10
0
1
10
Frequency (MHz)
30
100
Equivalent Circuits
Dashed lines represent optional conductive traces in PC board.
CM Beads, CM 05 / 21 / 40
41 / 45, LF CM, Can Bus
EMI Chip Beads, Chip Inductors
2
4
3
1
1
2
CM22 Array, CM 32 Array, CM 40 Array
CM5740Z241B-10, CM 45 Array
8
7
6
8
5
7
6
5
8
7
6
5
8
7
6
5
1
2
3
4
1
2
3
4
2nd Turn
2nd Pass
1
2
3
1
4
2
3
4
CM 22 Array, CM 32 Array
12
11
10
8
9
7
12
11
10
9
8
7
1
2
3
4
5
6
3rd Pass
2nd Pass
1
2
3
5
4
6
CM 22 Array, CM 32 Array
16
15
14
13
12
11
10
9
4th Pass
16
15
14
13
12
11
10
9
1
2
3
4
5
6
7
8
3rd Pass
2nd Pass
1
2
3
4
5
6
7
8
Explanation of Passes & Turns
Multi-choke arrays can be electrically connected in the PC board to increase effective impedance. When the PCB circuits are configured, as
shown above, such that individual side-by-side chokes within one array part are connected in series, the impedance is increased by a factor of
the number of passes through the part. Since internal construction of Laird Technologies ferrite common mode chokes varies, Laird Technologies
refers to this special installation configuration using the different terms of “pass” (additive) or “turn” (multiplicative).
When the term “pass” is used to describe series connections through a choke, each additional pass increases the impedance (Z) in proportion
to the number of series PCB connections applied. Each additional “pass” adds a choke in series. If needed, it’s an optional effective method
of increasing impedance with an array.
When the term “turn” is used to describe series connection through a choke, each additional turn increases the impedance in proportion to the
square of the number of series PCB connections applied. Each turn multiplies impedance.
Parts have no polarity
visit www.lairdtech.com for product additions and more product details
41
42
18
14
18
13
22
39
26
26
60
64
61
24
79
79
79
44
80
65
65
113
113
107
49
112
112
116
116
114
114
108
108
140
143
142
142
152
141
57
211
217
240
186
@ 1 MHz
170 (2 Turns)
200
370
350
3000
10000
Part Number
CM1812X330R-10
CM1922X330R-10
CM2021Y330R-10
CM3322P400R-10
CM1812R600R-10
CM3421Y600R-10
CM3322U610R-10
CM3322X630R-10
CM2722R800R-10
CM3822R800R-10
CM5022R800R-10
CM0805D900R-10
CM5441Z101B-10
CM5441Z101B-13
CM4440Z111R-10
CM3312R111R-10
CM3032V121R-10
CM4545Z131B-10
CM4545Z131R-10
CM5022R151R-10
CM2722R151R-10
CM3822R151R-10
CM0805C161R-10
CM5441Z161B-10
CM5441Z161R-13
CM3440Z171B-10
CM3440Z171R-10
CM5740Z171B-10
CM5740Z171R-10
CM2545X171B-10
CM2545X171R-10
CM6032V201R-10
CM3032V201R-10
CM5022R201R-10
CM2722R201R-10
CM4732V201R-10
CM3822R201R-10
CM0805C221R-10
CM3032V301R-10
CM4732V301R-10
CM6032V301R-10
CM0805A371R-10
Low Frequency Parts
CM5740Z241B-10
CM2824E182R-10
CM1812C282R-10
CM2824E352R-10
CM2824E702R-10
CM2824B103R-10
Stable performance under load.
Typical Z
Ohms @
25 MHz
74
86
61
185
138
110
170
152
98
105
102
435
183
183
177
165
140
256
256
167
165
169
684
146
146
202
202
202
202
180
180
213
199
188
187
187
187
720
224
172
170
878
@ 25 MHz
140 (2 Turns)
1400
2700
3200
4800
1800
Typical Z
Ohms @
1 GHz
88
93
62
251
146
110
191
165
140
151
150
445
204
204
122
170
169
288
288
177
168
172
684
263
263
202
202
202
202
210
210
219
214
210
206
229
213
724
307
328
346
878
(Ohms)
276 (2 Turns)
1920
3500
3950
7200
13200
Typical
Peak
Impedance
(Ohms)
2359
1783
1100
1931
1519
1000
1581
1459
3000
3000
3000
1405
682
682
500
800
2010
682
682
2092
1783
1646
1000
457
457
1000
1000
1000
1000
500
500
500
319
306
272
241
218
1147
214
168
149
1000
(MHz)
3 (2 Turns)
80
50
45
6
2
Typical
Peak
Impedance
Frequency
(MHz)
0.0030
0.0030
0.0010
0.0300
0.0010
0.0010
0.0090
0.0080
0.0200
0.0200
0.0200
0.3000
0.0008
0.0008
0.0010
0.0050
0.0100
0.0100
0.0100
0.0200
0.0200
0.0200
0.3500
0.0008
0.0008
0.0010
0.0010
0.0010
0.0010
0.0100
0.0100
0.0100
0.0100
0.0200
0.0200
0.0100
0.0200
0.4000
0.0100
0.0100
0.0100
0.5000
(Ohms)
0.0010
0.2600
0.5000
0.3000
0.2600
1.3000
DCR Max
(Ohms)
10,000
10,000
15,000
4,000
5,000
15,000
7,000
10,000
5,000
5,000
5,000
400
75,000
75,000
20,000
5,000
8,000
10,000
10,000
5,000
5,000
5,000
300
75,000
75,000
20,000
20,000
20,000
20,000
10,000
10,000
8,000
8,000
5,000
5,000
8,000
5,000
300
8,000
8,000
8,000
100
(mA)
20,000
800
200
800
700
400
Rated
Continuous
Current (mA)
All part lists and data charts are sortable on www.LAIRDTECH.com. 62
64
52
121
112
96
123
114
92
97
95
340
188
188
122
168
130
267
267
165
165
170
540
261
261
189
189
189
189
210
210
219
210
206
202
218
207
570
280
250
258
730
@ 10 MHz
173 (2 Turns)
920
1900
2100
5800
3980
33
33
33
40
60
60
61
63
80
80
80
90
100
100
110
110
120
130
130
150
150
150
160
160
160
170
170
170
170
170
170
200
200
200
200
200
200
220
300
300
300
370
@ 4 MHz
240 (2 Turns)
570
1100
1400
7000
8900
Typical Z
Ohms @
500 MHz
Nominal Z
Ohms @
100 MHz
Sorted By Impedance @ 100 MHz or 4 MHz
4.57
4.70
5.60
8.50
4.75
5.60
8.50
8.50
6.99
9.78
12.57
2.00
13.72
13.72
11.05
8.50
7.62
11.38
11.38
12.57
6.99
9.78
2.00
13.72
13.72
8.51
8.51
14.48
14.48
6.30
6.30
15.24
7.62
12.57
6.99
11.94
9.78
2.00
7.62
11.94
15.24
2.00
(mm)
14.48
7.50
5.00
7.50
7.50
7.50
A
(mm)
Length
1.60
2.85
5.00
2.10
2.36
8.68
2.10
2.85
4.32
4.32
4.32
1.20
10.52
10.52
9.32
2.36
5.72
9.32
9.32
7.62
7.62
7.62
1.20
15.24
15.24
9.32
9.32
9.32
9.32
9.32
9.32
9.45
9.45
9.53
9.53
9.45
9.53
1.20
14.48
14.48
14.48
1.20
(mm)
9.32
3.80
5.55
3.80
3.80
3.80
C
(mm)
Height
Custom Parts Available.
3.05
5.60
2.85
5.60
3.05
2.85
5.60
5.60
5.72
5.72
5.72
1.20
10.41
10.41
10.03
3.05
8.13
11.38
11.38
5.72
5.72
5.72
1.20
10.41
10.41
10.03
10.03
10.03
10.03
11.38
11.38
8.13
8.13
5.72
5.72
8.13
5.72
1.20
8.13
8.13
8.13
1.20
(mm)
10.03
5.50
3.50
5.50
5.50
5.50
B
(mm)
Width
Common Mode Choke Master List
visit www.lairdtech.com for product additions and more product details
186
49
57
24
13
22
113
142
60
44
107
141
64
113
142
61
26
80
143
211
152
217
140
240
18
14
108
108
26
65
65
18
39
116
116
79
114
114
79
79
112
112
@ 1 MHz
370
10,000
3,000
200
350
170 (2 Turns)
Part Number
CM0805A371R-10
CM0805C161R-10
CM0805C221R-10
CM0805D900R-10
CM3322P400R-10
CM1812R600R-10
CM2722R151R-10
CM2722R201R-10
CM2722R800R-10
CM3312R111R-10
CM3822R151R-10
CM3822R201R-10
CM3822R800R-10
CM5022R151R-10
CM5022R201R-10
CM5022R800R-10
CM3322U610R-10
CM3032V121R-10
CM3032V201R-10
CM3032V301R-10
CM4732V201R-10
CM4732V301R-10
CM6032V201R-10
CM6032V301R-10
CM1812X330R-10
CM1922X330R-10
CM2545X171B-10
CM2545X171R-10
CM3322X630R-10
CM4545Z131B-10
CM4545Z131R-10
CM2021Y330R-10
CM3421Y600R-10
CM3440Z171B-10
CM3440Z171R-10
CM4440Z111R-10
CM5740Z171B-10
CM5740Z171R-10
CM5441Z101B-10
CM5441Z101B-13
CM5441Z161B-10
CM5441Z161B-13
Low Frequency Parts
CM1812C282R-10
CM2824B103R-10
CM2824E702R-10
CM2824E182R-10
CM2824E352R-10
CM5740Z241B-10
Stable performance under load.
Typical Z
Ohms @
25 MHz
730
540
570
340
121
112
165
202
92
168
170
207
97
165
206
95
123
130
210
280
218
250
219
258
62
64
210
210
114
267
267
52
96
189
189
122
189
189
188
188
261
261
@ 10 MHz
1,900
3,980
5,800
920
2,100
173 (2 Turns)
Typical Z
Ohms @
500 MHz
878
684
720
435
185
138
165
187
98
165
169
187
105
167
188
102
170
140
199
224
187
172
213
170
74
86
180
180
152
256
256
61
110
202
202
117
202
202
183
183
146
146
@ 25 MHz
2,700
1,800
4,800
1,400
3,200
140 (2 Turns)
Typical Z
Ohms @
1 GHz
878
684
724
445
251
146
168
206
140
170
172
213
151
177
210
150
191
169
214
307
229
328
219
346
88
93
210
210
165
288
288
62
110
202
202
122
202
202
204
204
263
263
(Ohms)
3,500
13,200
7,200
1,920
3,950
276 (2 Turns)
Typical
Peak
Impedance
(Ohms)
Typical
Peak
Impedance
Frequency
(MHz)
1,000
1,000
1,147
1,405
1,931
1,519
1,783
272
3,000
800
1,646
218
3,000
2,092
306
3,000
1,581
2,010
319
214
241
168
500
149
2,359
1,783
500
500
1,459
682
682
1,100
1,000
1,000
1,000
500
1,000
1,000
682
682
457
457
(MHz)
50
2
6
80
45
3
0.5000
0.3500
0.4000
0.3000
0.0300
0.0010
0.0200
0.0200
0.0200
0.0050
0.0200
0.0200
0.0200
0.0200
0.0200
0.0200
0.0090
0.0100
0.0100
0.0100
0.0100
0.0100
0.0100
0.0100
0.0030
0.0030
0.0100
0.0100
0.0080
0.0100
0.0100
0.0010
0.0010
0.0010
0.0010
0.0010
0.0010
0.0010
0.0008
0.0008
0.0008
0.0008
(Ohms)
0.5000
1.3000
0.2600
0.2600
0.3000
0.0010
DCR Max
(Ohms)
A
Length
(mm)
2.00
2.00
2.00
2.00
8.50
4.75
6.99
6.99
6.99
8.50
9.78
9.78
9.78
12.57
12.57
12.57
8.50
7.62
7.62
7.62
11.94
11.94
15.24
15.24
4.57
4.70
6.30
6.30
8.50
11.38
11.38
5.60
5.60
8.51
8.51
11.05
14.48
14.48
13.72
13.72
13.72
13.72
(mm)
5.00
7.50
7.50
7.50
7.50
14.48
Rated
Continuous
Current (mA)
100
300
300
400
4,000
5,000
5,000
5,000
5,000
5,000
5,000
5,000
5,000
5,000
5,000
5,000
7,000
8,000
8,000
8,000
8,000
8,000
8,000
8,000
10,000
10,000
10,000
10,000
10,000
10,000
10,000
15,000
15,000
20,000
20,000
20,000
20,000
20,000
75,000
75,000
75,000
75,000
(mA)
200
400
700
800
800
20,000
All part lists and data charts are sortable on www.LAIRDTECH.com. 370
160
220
90
40
60
150
200
80
110
150
200
80
150
200
80
61
120
200
300
200
300
200
300
33
33
170
170
63
130
130
33
60
170
170
110
170
170
100
100
160
160
@ 4 MHz
1,100
8,900
7,000
570
1,400
240 (2 Turns)
Nominal Z
Ohms @
100 MHz
Sorted By Rated Current (at continuous operation)
1.20
1.20
1.20
1.20
2.10
2.36
7.62
9.53
4.32
2.36
7.62
9.53
4.32
7.62
9.53
4.32
2.10
5.72
9.45
14.48
9.45
14.48
9.45
14.48
1.60
2.85
9.32
9.32
2.85
9.32
9.32
5.00
8.68
9.32
9.32
9.32
9.32
9.32
10.52
10.52
15.24
15.24
(mm)
5.55
3.80
3.80
3.80
3.80
9.32
C
Height
(mm)
Custom Parts Available.
1.20
1.20
1.20
1.20
5.60
3.05
5.72
5.72
5.72
3.05
5.72
5.72
5.72
5.72
5.72
5.72
5.60
8.13
8.13
8.13
8.13
8.13
8.13
8.13
3.05
5.60
11.38
11.38
5.60
11.38
11.38
2.85
2.85
10.03
10.03
10.03
10.03
10.03
10.41
10.41
10.41
10.41
(mm)
3.50
5.50
5.50
5.50
5.50
10.03
B
Width
(mm)
Common Mode Choke Master List
43
Ferrite EMI Beads with Axial Wire
• Differential Mode EMI Filters
• Lead Free & RoHS Compliant
• High Current
• Thru-Hole application
• Wire Leads Thru Ferrite
• Low DCR
PART NUMBER SYSTEM EXAMPLE
28
J
0138
-1
1
R
-10
Material Type
Product Code
Part Size Code
Selected Dimension
Code
Additional
Description
Packaging Code
Additional
Description
TYPICAL IMPEDANCE ( W )
Typical
Peak
Impedance
Frequency
( MHz )
DCR
MAX
(W)
Rated I Max
(continuous)
mA
Z@
25 MHz
Z@
100 MHz
Z@
500 MHz
Z@
1 GHz
Typical
Peak
Impedance
(W)
28J0138-11R-10
95
143
160
140
165
300
0.01
5,000
28L0138-10R-10
45
75
70
55
80
200
0.01
5,000
28L0138-40R-10
99
135
180
80
138
200
0.01
5,000
28L0138-50R-10
92
153
152
111
161
150
0.01
5,000
28L0138-70R-10
123
220
180
110
220
100
0.01
5,000
28L0138-80R-10
48
86
78
57
85
100
0.01
5,000
Part
Number
See diagram 1 on page 48 for equivalent circuit
Part
Number
Fig
#
A
mm
(inches)
B
mm
(inches)
C
mm
(inches)
28J0138-11R-10
1
3.51
(0.138)
25.40
(1.000)
4.45
(0.175)
28L0138-10R-10
2
3.51
(0.138)
59.00
(2.323)
4.45
(0.175)
28L0138-40R-10
2
3.51
(0.138)
59.00
(2.323)
8.89
(0.350)
28L0138-50R-10
2
3.51
(0.138)
59.00
(2.323)
9.53
(0.375)
28L0138-70R-10
2
3.51
(0.138)
59.00
(2.323)
13.97
(0.550)
28L0138-80R-10
2
3.51
(0.138)
59.00
(2.323)
5.23
(0.206)
Refer to part print for additional dimensions
All current ratings (I MAX) are based on continuous operation.
Chart data can be sorted at www.lairdtech.com.
44
Figure #1
C
A
B
A
Figure #2
C
B
Multiple Turn Axial Wire Ferrite Beads / Cores
• Differential Mode EMI Filters
• Lead free & RoHS Compliant
• Thru-Hole Application
• Wire Wound Thru Ferrite
• Low DCR
PART NUMBER SYSTEM EXAMPLE
28
C
0236
-0
B
S
-10
Material Type
Product Code
Part Size Code
Selected Dimension
Code
Additional
Description
Packaging Code
Additional
Description
TYPICAL IMPEDANCE ( W )
Part
Number
Z@
25 MHz
Z@
100 MHz
Z@
500 MHz
Z@
1 GHz
Typical
Peak
Impedance
(W)
Typical
Peak
Impedance
Frequency
( MHz )
DCR
MAX
(W)
Rated I Max
(continuous)
mA
28C0236-0BS-10
500
835
480
220
846
156
0.01
5,000
28C0236-0BW-10
500
835
480
220
846
156
0.01
5,000
28C0236-0DW-10
260
460
478
360
498
300
0.01
5,000
28C0236-0EW-10
620
998
484
205
1010
140
0.01
5,000
28C0236-0JW-10
620
998
484
205
1010
140
0.01
5,000
Part
Number
Fig
#
A
mm
(inches)
B
mm
(inches)
C
mm
(inches)
D
mm
(inches)
E
mm
(inches)
F
mm
(inches)
L1
mm
(inches)
28C0236-0BS-10
1
6.00
(0.236)
14.99
(0.590)
10.00
(0.394)
0.51
(0.020)
14.61
(0.575)
-
5.99
(0.236)
28C0236-0BW-10
2
6.00
(0.236)
86.46
(3.404)
10.00
(0.394)
0.51
(0.020)
14.61
(0.575)
-
38.10
(1.500)
28C0236-0DW-10
3
6.00
(0.236)
86.46
(3.404)
10.00
(0.394)
0.51
(0.020)
14.61
(0.575)
-
38.23
(1.505)
28C0236-0EW-10
4
6.00
(0.236)
50.53
(1.989)
10.00
(0.394)
0.51
(0.020)
14.61
(0.575)
-
38.10
(1.500)
28C0236-0JW-10
5
6.00
(0.236)
20.96
(0.825)
10.00
(0.394)
0.51
(0.020)
15.90
(0.626)
5.08
(0.200)
5.08
(0.200)
See diagram 1 on page 48 for equivalent circuit
Figure #1
Figure #2
E
C
Figure #3
E
C
A
D
B
L1
A
L1
D
L1
Figure #4
Figure #5
E
B
C
A
Plastic Spacer
1.26 [.050]
F
45º
D
L1
A
E
B
B
D
C
A
7.37
[.290]
D
C
2.29
[.090]
visit www.lairdtech.com for product additions and more product details
E
L1
B
45
Differential Mode EMI Filter Arrays
• Capable Of Up To 10 Amps Continuous Operation
• Thru-Hole (T) and Surface Mount (R) available
• 3, 4, 5 & 8 Line Configurations For Installation Flexibility • Low DCR
PART NUMBER SYSTEM EXAMPLE
29
F
0303
0
T
0
-10
Material Type
Product Code
Part Size Code
Selected Dimension
Code
Additional
Description
Packaging Code
Additional
Description
Part
Number
TYPICAL IMPEDANCE ( W )
Equivalent
Circuit
Diagram
(Page 47)
Z@
25 MHz
Z@
100 MHz
Z@
500 MHz
Z@
1 GHz
Typical
Peak
Impedance
Frequency
( MHz )
Typical
Peak
Impedance
(W)
DCR
MAX
(W)
Rated I Max
(continuous)
mA
29F0303-0T0-10
2
180
266
278
215
288
200
0.01
8,000
29F0318-1SR-10
2
70
119
119
118
119
500
0.01
6,000
29F0328-0T0-10
2
232
342
418
360
420
350
0.01
10,000
29F0330-2SR-10
2
125
200
201
160
210
300
0.01
9,000
29F0418-0SR-10
3
48
80
80
70
83
300
0.01
6,000
29F0418-1SR-10
3
70
119
119
118
119
500
0.01
6,000
29F0428-0T0-10
3
225
342
390
350
400
300
0.01
10,000
29F0429-0T0-10
3
180
245
270
211
280
200
0.01
8,000
29F0430-2SR-10
3
120
200
230
225
235
800
0.01
8,000
29F0430-4SR-10
3
175
290
268
209
300
200
0.01
9,000
29F0528-0T0-10
4
232
342
418
360
420
350
0.01
10,000
29F0818-0SR-10
5
48
75
80
70
83
370
0.01
6,000
29F0818-1SR-10
5
70
119
119
118
119
500
0.01
6,000
Part
Number
Fig
#
# of
Lines
29F0303-0T0-10
1
3
29F0318-1SR-10
2
3
29F0328-0T0-10
1
3
29F0330-2SR-10
2
3
29F0418-0SR-10
4
4
29F0418-1SR-10
4
4
29F0428-0T0-10
3
4
29F0429-0T0-10
3
4
29F0430-2SR-10
4
4
29F0430-4SR-10
4
4
29F0528-0T0-10
5
5
29F0818-0SR-10
6
8
29F0818-1SR-10
6
8
46
A
mm
(inches)
B
mm
(inches)
C
mm
(inches)
7.62
(0.300)
4.83
(0.190)
8.34
(0.328)
8.33
(0.328)
6.10
(0.240)
6.10
(0.240)
10.88
(0.428)
10.88
(0.428)
10.87
(0.428
10.87
(0.428)
13.42
(0.528)
11.43
(0.450)
11.43
(0.450)
5.08
(0.200)
4.50
(0.177)
10.88
(0.428)
10.87
(0.428)
4.50
(0.177)
4.50
(0.177)
10.88
(0.428)
5.49
(0.216)
10.87
(0.428)
10.87
(0.428)
10.88
(0.428)
4.50
(0.177)
4.50
(0.177)
10.44
(0.411)
4.19
(0.165)
10.57
(0.416)
6.35
(0.250)
2.92
(0.115)
4.19
(0.165)
10.57
(0.416)
10.44
(0.411)
6.35
(0.250)
8.89
(0.350)
10.57
(0.416)
2.92
(0.115)
4.19
(0.165)
Thru-Hole
Surface Mount
Figure #1
Figure #2
B
A
A
B
C
C
Figure #3
B
Figure #4
A
B
A
C
C
Figure #5
B
Figure #6
A
B
A
C
C
Refer to part print for additional dimensions.
Differential Mode EMI Filter Array Impedance Curves
29F0303-0T0-10
350
Z
200
R
150
X
100
Z
120
250
Impedance (Ω)
Impedance (Ω)
300
29F0318-1SR-10
160
R
80
X
40
50
1
10
100
Frequency (MHz)
0
10000
29F0328-0T0-10, 29F0528-0T0-10
600
R
10
100
Frequency (MHz)
1000
80
150
100
0
10000
29F0418-0SR-10, 29F0818-0SR-10
90
1000
Z
X
50
X
1
100
R
150
1
10
100
Frequency (MHz)
1000
10000
1000
10000
1000
10000
29F0418-1SR-10, 29F0818-1SR-10
160
Z
70
120
R
60
Impedance (Ω)
Impedance (Ω)
Frequency (MHz)
29F0330-2SR-10
250
Z
300
0
10
1
200
450
Impedance (Ω)
1000
Impedance (Ω)
0
50
40
30
X
Z
R
80
40
20
X
10
0
1
10
100
Frequency (MHz)
1000
29F0428-0T0-10
600
0
10000
1
10
100
Frequency (MHz)
29F0429-0T0-10
350
300
300
R
150
X
Z
250
Z
Impedance (Ω)
Impedance (Ω)
450
R
200
150
100
50
0
1
10
100
Frequency (MHz)
1000
10000
X
0
1
10
100
Frequency (MHz)
visit www.lairdtech.com for product additions and more product details
47
Differential Mode EMI Filter Array Impedance Curves
29F0430-2SR-10
250
Z
300
R
150
Impedance (Ω)
Impedance (Ω)
200
100
1
10
Z
R
200
X
100
X
50
0
29F0430-4SR-10
400
100
1000
Frequency (MHz)
0
3000
10
1
100
Frequency (MHz)
Differential Mode Filter Equivalent Circuits
For parts shown on pages 44, 45, and 46
Diagram #2
Diagram #1
Diagram #3
2
6
5
4
8
7
6
5
1
1
2
3
1
2
3
4
Diagram #4
Diagram #5
10
9
8
7
6
16
15
14
13
12
11
10
9
1
2
3
4
5
1
2
3
4
5
6
7
8
Parts have no polarity
48
1000
CAN-Bus Common Mode Chokes
These current compensating surface mount common mode chokes can be used in controller area networks
(CAN-Bus) in automotive, industrial and medical applications.
Features:
• Accurate current matching capability over a broad range of inductance values • Sector wound coils at 25 & 51 µH to
filter differential mode noise from the data signal. • Low distortion • Custom designs possible • Open bottom case
construction • Small ( 1812 ) size parts are also available. • Surface Mount
Applications:
• Automotive controller area network systems • Industrial controls controller area network systems • Medical
monitoring systems • Filtering common mode EMI on high speed differential lines such as network and telecom
applications
PART NUMBER SYSTEM EXAMPLE
CC
1812
C
Product Series
Code
Part Size
Code
Rated Current
Code
513
R
-10
Impedance Value Code
Packaging
Code
Additional
Description
Operating Temperature Range: -40°C to +125°C (0°C to 125°C for Lp > 1000 µm)
Lp Inductance (mH)
PART
NUMBER
Test
Conditions
MIN
NOM
MAX
CC1812C513R-10*
100 KHz / 50 mV
35.7
51.0
66.3
CC2824J502R-10
100 KHz / 50 mV
3.5
5.0
6.5
CC2824E113R-10
100 KHz / 50 mV
7.7
11.0
14.3
CC2824E253R-10
100 KHz / 50 mV
17.5
25.0
32.5
CC2824E513R-10*
100 KHz / 50 mV
35.0
51.0
66.3
CC2824E474R-10
100 KHz / 50 mV
329.0
470.0
611.0
CC2824E105R-10
100 KHz / 50 mV
700.0
1000.0
1500.0
CC2824D225R-10
10 KHz / 50 mV
1540.0
2200.0
3300.0
CC2824B475R-10
10 KHz / 50 mV
3290.0
4700.0
7050.0
Peak
Impedance ( Z )
3500 W
@40 MHz
400 W
@500 MHz
800 W
@200 MHz
2000 W
@100 MHz
3800 W
@50 MHz
8600 W
@5 MHz
4250 W
@7 MHz
5300 W
@5 MHz
12300 W
@2 MHz
* Sector Wound
PART
NUMBER
A
mm
(inches)
B
mm
(inches)
C
mm
(inches)
CC2824
7.50 MAX
(0.295 MAX)
5.50 MAX
(0.217 MAX)
3.80 MAX
(0.150 MAX)
CC1812
5.00 MAX
(0.197 MAX)
3.50 MAX
(0.138 MAX)
5.55 MAX
(0.140 MAX)
A
A
B
L
leakage
(mh)
Hi-Pot
( VAC )
0.5 mA
2 sec.
DCR
Typical
(W)
ldc
(mA)
2.60
250
0.50
200
0.05
250
0.10
1200
0.05
250
0.12
800
1.50
250
0.13
800
2.00
250
0.16
800
0.20
750
0.20
700
0.20
750
0.20
700
0.25
750
0.40
500
0.30
750
0.55
400
B
C
C
CC2824
Surface Mount
CC1812
Surface Mount
Refer to part print for specific dimensions
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49
Typical Insertion Loss @ 50 Ω
CC2824E113R-10
CC2824J502R-10
0
0
-2
-5
-4
-10
-8
IL (dB)
IL (dB)
-6
-10
-15
-12
-20
-14
-16
1
10
100
-25
1000
1
10
CC2824E253R-10
0
100
1000
Frequency (MHz)
Frequency (MHz)
0
CC1812C513R-10, CC2824E513R-10
-5
-5
-10
-10
-15
IL (dB)
IL (dB)
-15
-20
-20
-25
-25
-30
-35
1
-30
1
10
100
1000
10
Frequency (MHz)
CC2824E471R-10
0
100
1000
Frequency (MHz)
CC2824E105R-10
0
-5
-5
-10
-10
IL (dB)
-15
IL (dB)
-15
-20
-20
-25
-25
-30
-35
0.1
-30
1
10
100
1000
10
1
Frequency (MHz)
CC2824D225R-10
0
-5
-10
-10
-15
-20
-20
IL (dB)
IL (dB)
-15
-25
-25
-30
-30
-35
-40
-35
50
1000
CC2824B475R-10
0
-5
-40
0.1
100
Frequency (MHz)
-45
1
10
Frequency (MHz)
100
1000
0.1
1
Frequency (MHz)
10
100
Chip Inductors
Features:
• Small footprint • Economical • Rugged construction • Lead Free • Monolithic
Applications:
• RF and wireless communication • Information technology equipment including; computers, telecommunications,
radar detectors, automotive electronics, cellular phones, pagers, audio equipment, PDAs, keyless remote systems and
low-voltage power supply modules • EMI Filters
Specifications:
• Inductance tolerance is rated at + 10% of the specified frequency • Rated operating current is based on the
maximum sustained current applied while maintaining the specified minimum inductance (L).
STEWARD PART NUMBERING SYSTEM EXAMPLE
IC
0603
A
102
R
-10
Product Series
Code
Part Size
Code
Rated Current
Code
Inductance Value
Code
Packaging
Code
Additional
Description
Part
Number
FERRITE CHIP INDUCTORS
SelfTest
L (nH)
Q
Resonant
Freq.
+ 10% (min)
Frequency
(MHz)
(MHz)
DCR
MAX
(W)
Rated
Operating
Current
( mA )
Part
Number
FERRITE CHIP INDUCTORS
SelfTest
L (nH)
Q
Resonant
Freq.
+ 10% (min)
Frequency
(MHz)
(MHz)
DCR
MAX
(W)
Rated
Operating
Current
( mA )
IC0603A102R-10
1,000
30
10
70
0.6
25
IC0805A822R-10
8,200
45
4
26
1.10
15
IC0603A103R-10
10,000
30
2
17
2.55
15
IC0805B101R-10
100
20
25
235
0.30
250
IC0603A182R-10
1,800
30
10
50
0.95
25
IC0805B102R-10
1,000
45
10
75
0.40
50
IC0603A681R-10
680
15
25
80
1.70
35
IC0805B182R-10
1,800
45
10
55
0.60
50
IC0603B181R-10
180
15
25
165
0.60
50
IC0805B222R-10
2,200
45
10
50
0.65
30
IC0603B470R-10
47
10
50
260
0.30
200
IC0805C470R-10
47
15
50
320
0.20
300
IC0603B820R-10
82
10
50
245
0.3
200
IC0805C680R-10
68
15
50
280
0.2
300
IC0805A103R-10
10,000
45
2
24
1.15
15
IC1206A103R-10
10,000
50
2
24
1.00
25
IC0805A153R-10
15,000
30
1
19
0.80
5
IC1206A332R-10
3,330
45
10
41
0.70
50
IC0805A183R-10
18,000
30
1
18
0.90
5
IC1206A333R-10
33,000
35
0.4
13
1.05
5
IC0805A223R-10
22,000
30
1
16
1.10
5
IC1206A472R-10
4,700
45
10
35
0.90
50
IC0805A272R-10
2,700
45
10
45
0.75
30
IC1206B153R-10
15,000
35
1
19
0.70
5
IC0805A333R-10
33,000
30
0.4
13
1.25
5
IC1206B183R-10
18,000
35
1
21
0.70
5
IC0805A472R-10
4,700
45
10
35
1.00
30
IC1206B331R-10
330
20
25
145
0.50
250
IC0805A681R-10
680
25
25
105
0.80
150
IC1206B821R-10
820
25
25
100
0.90
150
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51
Surface Mount Power Inductor
The DI2220V301R-10 is a surface mount, high current power inductor (in the industry’s smallest package) with
exceptional performance under DC Bias. Very low DCR provides superior thermal performance under DC bias. This
compact, monolithic component produces flat inductance over the driven current range (from 3 to 8 amps) comparable
to a larger, heavier, wire-wound toroidal inductor. Stable performance.
Features:
Low Profile (height is 3.61mm / 0.142”) • EMI resistant, fully shielded printed coil • Small footprint (one fourth the
footprint of an equivalent performance, old style, wire wound inductor assembly) • Superior performance under DC
Bias • Rugged, vibration resistant monolithic construction • Maximum performance at 8 amps will yield > 250nH
• Distributed power multiphase DC-DC converters that use this new power inductor can operate faster, cooler and
cleaner • New high performance, multiphase designs (with the new power inductor) require significantly less total pc
board space and usually have lower system cost
Applications:
• Power inductor for DC-DC Converter • Specifically tuned to work with the new generation of high frequency
multiphase DC-DC converters • Mounting can be on back side of pc boards • Applications with Voltage Regulator
Modules • Power supply bricks
PART NUMBERING SYSTEM EXAMPLE
DI
2220
V
301
R
-10
Product Series Code
Part Size
Code
Rated Continuous
Current Code
Inductance Value
Code
Packaging
Code
Additional
Description
PART
NUMBER
A
mm
(inches)
B
mm
(inches)
C
mm
(inches)
D
mm
(inches)
DI2220V301R-10
5.59
(0.220)
5.08
(0.200)
3.61
(0.142)
0.76
(0.030)
L @ 2 MHz
TYPICAL nH (+ 10%)
B
A
C
D
5 AMPS
8 AMPS
DCR
MAX
(Ohms)
300
270
0.010
RATED
I MAX
(continuous)
mA
8000
DI2220V301R-10 Monolithic Power Chip Inductor
INDUCTANCE UNDER BIAS
Inductance (nH)
1200
1000
800
600
400
200
0
0
52
1
2
3
4
Current (A)
5
6
7
8
Ferrite EMI Disks and Plates
These Ferrite Disks and Plates provide a simple, cost-effective solution for radiated and inductively-coupled electromagnetic
interference. After the PC board soldering process, a ferrite disk or plate can be installed directly on the source of EMI
(such as active devices or unwanted antennas).
Features:
• Easy installation • Each part for volume production is provided with permanent, double sided 3,5 mil acrylic adhesive
with 218 oz./inch2 adhesion. • Samples and sample kits are available with removable and reusable adhesive for "trial
and error" testing • Variety of sizes offered • Custom parts also available.
Applications:
• Ferrite disks and plates can be utilized either as inductively-coupled components or EMI shields on PC board
components and traces. (Inductive coupling occurs when the ferrite affects the conducted wave form leaving the active
component. The rise time of the wave form is effectively slowed by the ferrite, and the overshoot and associated ringing
are attenuated. EMI shielding occurs when the ferrite absorbs the radiated emissions from active components, effectively
protecting other boards or components in the vicinity from radiated contamination). • Can be used to locate unwanted
EMI antennas. • Flat Flex & Ribbon cables. • Can also provide retrofit, auxiliary EMI attenuation.
C
mm
(inches)
MM0650-100
16,51
(0.650)
1,27
(0,050)
MM0787-100
20,00
(0,787)
1,27
(0,050)
MM0787-200
20,00
(0,787)
1,91
(0,075)
MM1400-200
35,56
(1,400)
1,91
(0,075)
MM1400-300
35,56
(1,400)
2,54
(0,100)
MP0315-200
8,00
(0,315)
8,00
(0,315)
2,00
(0,079)
MP0350-000
26,42
(1,040)
8,89
(0,350)
1,27
(0,050)
MP0433-000
11,00
(0,433)
11,00
(0,433)
1,96
(0,077)
MP0512-200
13,00
(0,512)
13,00
(0,512)
2,00
(0,079)
MP0590-200
21,00
(0,827)
15,00
(0,591)
2,00
(0,079)
MP0591-200
15,00
(0,591)
15,00
(0,591)
2,00
(0,079)
MP0760-100
19,30
(0,760)
19,30
(0,760)
1,27
(0,050)
MP1040-100
26,42
(1,040)
26,42
(1,040)
1,27
(0,050)
MP1040-200
26,42
(1,040)
26,42
(1,040)
1,91
(0,075)
MP1040-300
26,42
(1,040)
26,42
(1,040)
2,25
(0,089)
MP1496-000
38,00
(1,496)
38,00
(1,496)
2,00
(0,079)
PART NUMBER SYSTEM EXAMPLE
M
M
0650
-100
Material
M - Disk
P - Plate
Part Size
Indentification
Thickness
Code
Disk
Plate
ADHESIVE
B
mm
(inches)
ADHESIVE
A
mm
(inches)
EXAMPLE APPLICATION
1
dB down (relative to baseline noise)
PART
NUMBER
MP1040-100
0
-1
-2
-3
MP
-4
-5
-6
1
10
Frequency MHz
100
1000
Example Application Graph Explanation:
The zero line on the graph represents the base line noise recorded for an
unprotected microprocessor. The curve (dB down) represent the performance
of the Steward ferrite plate relative to the baseline. The addition of the ferrite
plates to the top of the processor in this specific application exhibits up to a
5 dB EMI reduction relative to the unprotected part. Performance can vary
with different sizes, materials, processors and applications.
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53
Comparison Impedance Curves for Grouped Chip Beads
0402 Chip Beads
1200
Impedance ( W )
1000
HZ0402B102R-10
HZ0402A601R-10
LI0402B301R-10
LI0402C221R-10
LI0402B800R-10
LI0402D121R-10
LI0402E600R-10
LI0402E300R-10
800
600
400
200
0
1
10
100
1000
3000
Frequency (MHz)
0603 Chip Beads - Up To 500 mA Current Rating
3500
3000
HZ0603A222R-10
HZ0603A252R-10
HZ0603A182R-10
HZ0603A152R-10
HZ0603B112R-10
HZ0603B102R-10
HZ0603C651R-10
HZ0603B751R-10
HZ0603C601R-10
LI0603D301R-10
LI0603B201R-10
HI0603P600R-10
Impedance ( W )
2500
2000
1500
1000
500
0
1
10
100
Frequency (MHz)
54
1000
3000
Comparison Impedance Curves for Grouped Chip Beads
0603 Chip Beads - 500-800 mA Current Rating
300
Impedance ( W )
250
LI0603G221R-10
LI0603E151R-10
LI0603G121R-10
LI0603G800R-10
LI0603E470R-10
200
150
100
50
0
1
10
100
1000
3000
Frequency (MHz)
0603 Chip Beads - 1000+ mA Current Rating
700
600
Impedance ( W )
500
MI0603J601R-10
MI0603L301R-10
MI0603L221R-10
MI0603M121R-10
MI0603J680R-10
MI0603J600R-10
MI0603K300R-10
400
300
200
100
0
1
10
100
1000
3000
Frequency (MHz)
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55
Comparison Impedance Curves for Grouped Chip Beads
0805 Chip Beads - Up To 500 mA Current Rating
3500
3000
Impedance ( W )
2500
HZ0805B272R-10
HZ0805B222R-10
HZ0805C202R-10
HZ0805D152R-10
HZ0805D102R-10
2000
1500
1000
500
0
1
10
100
1000
3000
Frequency (MHz)
0805 Chip Beads - 500-800 mA Current Rating
800
700
Impedance ( W )
600
HZ0805E601R-10
HZ0805G471R-10
LI0805G301R-10
LI0805G201R-10
LI0805H151R-10
LI0805H121R-10
LI0805H750R-10
500
400
300
200
0
1
10
100
Frequency (MHz)
56
1000
3000
Comparison Impedance Curves for Grouped Chip Beads
0805 Chip Beads - 1000+ mA Current Rating
1200
Impedance ( W )
1000
MI0805J102R-10
MI0805K601R-10
MI0805L301R-10
MI0805M221R-10
HI0805O121R-10
MI0805K400R-10
HI0805Q310R-10
MI0805K110R-10
800
600
400
200
0
1
10
100
1000
3000
Frequency (MHz)
1206 Chip Beads - Up to 1000 mA Current Rating
3000
Impedance ( W )
2500
2000
HZ1206C202R-10
HZ1206E152R-10
HZ1206D102R-10
HZ1206E501R-10
LI1206H151R-10
LI1206H121R-10
1500
1000
500
0
1
10
100
1000
3000
Frequency (MHz)
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57
Comparison Impedance Curves for Grouped Chip Beads
1206 Chip Beads - 1000+ mA Current Rating, W <= 100
180
160
Impedance ( W )
140
MI1206K900R-10
HI1206N101R-10
HI1206N800R-10
HI1206T500R-10
MI1206K260R-10
MI1206K310R-10
HF1206J150R-10
120
100
80
60
40
20
0
1
10
100
1000
3000
Frequency (MHz)
1206 Chip Beads - 1000+ mA Current Rating, W > 100
700
600
Impedance ( W )
500
MI1206K601R-10
MI1206L501R-10
MI1206L391R-10
HI1206T161R-10
HI1206P121R-10
400
300
200
100
0
1
10
100
Frequency (MHz)
58
1000
3000
Comparison Impedance Curves for Grouped Chip Beads
1806 & 1812 High Current Chip Beads
160
HI1812V101R-10
HI1806N910R-10
HI1812T800R-10
HI1806T600R-10
140
Impedance ( W )
120
100
80
60
40
20
0
1
10
100
1000
3000
Frequency (MHz)
2220 High Current / Medium Impedance Chip Beads
500
HI2220Q401R-10
HI2220P271R-10
HI2220R301R-10
HI2220P251R-10
HI2220R181R-10
HI2220P171R-10
HI2220R151R-10
HI2220T101R-10
450
400
Impedance ( W )
350
300
250
200
150
100
50
0
1
10
100
1000
3000
Frequency (MHz)
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59
Comparison Impedance Curves for Grouped Chip Beads
2220 High Current / High Impedance Chip Beads
900
HI2220P551R-10
HR2220V801R-10
HI2220P601R-10
HI2220P701R-10
HR2220P601R-10
HI2220Q401R-10
800
Impedance ( W )
700
600
500
400
300
200
100
0
1
10
100
1000 3000
Frequency (MHz)
1612 & 3312 High Current Chip Beads & Assemblies
200
180
HI3312X101R-10
28F0181-1SR-10
28F0121-1SR-10
35F0121-1SR-10
HI1612X560R-10
28F0121-0SR-10
35F0121-0SR-10
Impedance ( W )
160
140
120
100
80
60
40
20
0
1
10
100
Frequency (MHz)
60
1000
3000
Comparison Impedance Curves for Grouped Chip Beads
Surface Mount Chip Beads - 6 to 10 Amps Capability
250
HI1206T161R-10
HI3312X101R-10
HI2220T101R-10
HI1812V101R-10
HI1812T800R-10
HI1806T600R-10
HI1612X560R-10
HI1206T500R-10
Impedance ( W )
200
150
100
50
0
1
10
100
1000 3000
Frequency (MHz)
6000
Low Frequency Chip Beads
Impedance ( W )
5000
4000
LF1206A302R-10
LF0805A252R-10
LF1206C202R-10
LF1206E152R-10
3000
2000
1000
0
1
10
100
500
Frequency (MHz)
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61
Comparison Impedance Curves of Grouped Chokes
Surface Mount Array Common Mode Chokes
350
CM3032V301R-10
CM3032V201R-10
CM4732V201R-10
CM4545Z131R-10
CM2722R201R-10
CM3822R201R-10
CM5022R201R-10
CM2525X171R-10
CM2722R151R-10
CM3822R151R-10
CM5022R151R-10
300
Impedance ( W )
250
200
150
CM3440Z171R-10
CM5740Z171R-10
CM2722R800R-10
CM3822R800R-10
CM5022R800R-10
100
50
0
1
10
100
1000 3000
Frequency (MHz)
Through-Hole Common Mode Chokes
250
CM4545Z131R-10
CM2525X171B-10
CM3440Z171B-10
CM5740Z171B-10
CM5441Z161B-10
CM5441Z101B-10
Impedance ( W )
200
150
100
50
0
1
10
100
Frequency (MHz)
62
1000 3000
Comparison Impedance Curves of Grouped Chokes
Low Frequency Surface Mount Common Mode Chokes
14000
12000
Impedance ( W )
10000
CM2824B103R-10
CM2824E702R-10
CM2824E352R-10
CM1812C282R-10
CM2824E182R-10
8000
6000
4000
2000
0
0.1
1
10
100
450
Frequency (MHz)
Low Profile Surface Mount Common Mode Chokes
250
CM3312R111R-10
CM3322P400R-10
CM1812R600R-10
CM3322U610R-10
CM3322P400R-10
CM3322X630R-10
CM1812X330R-10
CM1922X330R-10
CM2021Y330R-10
Impedance ( W )
200
150
100
50
0
1
10
100
1000 3000
Frequency (MHz)
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63
NORTH AMERICA
USA toll-free telephone number
+1-800-843-4556
U.S.A.
ASIA
China
Guangzhou, China
1200 East 36th Street
P.O. Box 510
Chattanooga, TN., 37401-0510
Phone: +1-423-308-1690
Fax: +1-423-308-1622
Unit 1311, Main Tower
Guangdong International Hotel
No. 339, Huan Shi Dong Lu
Guangzhou City, Guangdong Province
P.R. China, 510098
Phone: +86-20-8331-2186
Fax: +86-20-8331-2196
Chesterfield, Missouri, USA
Shunde, China
Chattanooga, Tennessee
16401 Swingley Ridge Road
Suite 700
Chesterfield, MO, 63017
Phone: +1-636-898-6000
Fax: +1-636-898-6100
Schaumburg, Illinois, USA
1751 Wilkening Court
Schaumburg, IL., 60173
Phone: +1-847-839-6000
Fax: +1-847-519-9682
San Jose, California, USA
2030 Fortune Drive, Suite 100
San Jose, CA, 95131
Phone: +1-408-544-9500
Fax: +1-408-577-0691
San Diego, California, USA
1825 Diamond Street
San Marcos, CA, 92078
Phone: +1-408-544-9500
Fax: +1-408-577-0691
Mexico
Hermosillo, Mexico
Obrero Mundial #9
Parque Industrial Dynatech
Hermosillo, Sonora, 84170
Phone: +52-662-260-48-32
Fax: +52-662-216-12-02
Reynosa, Mexico
Industrial Cntr #5
Parque Industrial Reynosa
Calle Brecha E-99 Norte, Lote 23
Reynosa, Tamaulipas, 88780
Phone: +52-889-921-9000
Fax: +52-899-921-9038
Lot 15-2
Fuan Industrial Zone
Leliu Town, Shunde District
Foshan City, Guangdong Provice
P.R. China 528322
Phone: +86-757-2563-8860
Fax: +86-757-2563-8862
Beijing, China
No. 14, Jin Xiu Street, BDA
Beijing, 100176, P.R. China
Phone: +86-10-6780-5500
Fax: +86-10-6787-6384
Kunshan, China
28 Huanghe South Road
Kunshan Economic
& Tech Development Zone
Kunshan City, Jiangsu Province,
P.R. China, 300457
Phone: +86-512-5737-6767
Fax: +86-512-5737-6766
Tianjin, China
Building C3 /C4
Hongtai Industrial Park
No. 87 Taifeng Road
TEDA, P.R. China 201108
Phone: +86-512-5737-6767
Fax: +86-512-5737-6766
Shanghai, China
No. 398, Lane 3088 Hua Ning Road
Xin Zhuang Indutrial Zone
Shanghai City, P.R. China 201108
Phone: +86-21-6442-8018
Fax: +86-21-6442-8018
Shenzhen, China
Bld. 1, Dejin Industrial Park
Fuyuanyi Road, Heping Community
Fuyong Town, Bao An distric
Shenzhen City, Guangdong Provice
P.R. China 518103
Phone: +86-21-6442-8018
Fax: +86-21-6442-8018
Suzhou, China
No. 228 Tongyuan Road
Suzhou Industry Park
Suahou, P.R. China 215006
Phone: +86-512-6252-6590
Fax: +86-512-6252-7226
Taiwan
San Chung City, Taiwan
3F, 94 Shi-West St.
San Chung City, Taipei Hsien, ROC
24152
Phone: +886-2-2287-4187
Fax: +886-2-2287-4173
Korea
Singapore
Chai Chee, Singapore
750E Chai Chee Road
#03-07/08 Technopark, Chai Chee
469005, Singapore
Phone: +65-6-243-8022
Fax: +65-6-243-8021
EUROPE
Germany
Rosenheim, Germany
Äußere Oberaustraße 22. 83026
Rosenheim, Germany
Phone: +49-8031-2460
Fax: +49-8031-2460-50
Czech Republic
Liberec, Czech Republic
Prumyslová 497, 462 11
Liberec, Czech Republic
Phone: +00420-488-575-111
Fax: +00420-488-575-303
Bucheon-si, Korea
160-1 4F, Dodang-dong, Wonmi-gu
Bucheon-si, Gyeonggi-do, Korea
420-805
Phone: +82-32-684-1370
Fax: +82-32-684-1360
Seoul, Korea
A-4th Floor, Woorim Lion’s Valley,
371-28
Gasan-Dong, Gumcheon,
Seoul, 153-786, Korea
Phone: +82-2-830-2095
Fax: +82-2-830-2095
Japan
Shin Yokohama, Japan
Shin Yokohama Business Center
Bldg 7F, 2-6
Shin Yokohama 3-chome, Kohoku-Ku,
Yokohama-shi, Kanagawa, 222-0033
Japan
Phone: +81-45-473-6808
Fax: +81-45-473-6162
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Laird Technologies makes no representation or warranties as to the completeness or accuracy thereof. Information is supplied upon the condition that the persons receiving same
will make their own determination as to its suitability for their purposes prior to use. In no event will Laird Technologies be responsible for damages of any nature whatsoever
resulting from the use or reliance upon information or the product to which information refers. Nothing contained herein is to be construed as a recommendation to use any
product, process, equipment or formulation in conflict with any patent, and Laird Technologies makes no representation or warranty, expressed or implied, that the use thereof
will not infringe any patent. The data set forth in all tables, charts, graphs and figures herein are based on samples tested and are not guaranteed for all samples or applications.
Such data are intended as guides and do not reflect product specifications for any particular product. NO REPRESENTATION OR WARRANTIES, EITHER EXPRESSED OR IMPLIED,
OR MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR OF ANY OTHER NATURE ARE MADE HEREUNDER WITH RESPECT TO INFORMATION OR THE PRODUCT TO
WHICH INFORMATION REFERS.
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