ECM ECM45T

ECM 1812 SMD Chip Inductor
ECM45T Series
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Standard EIA 1812 package
Wire-wound Construction
Ferrite Core
Fully Encapsulated
Up to 1.0mH +/-10%
Typical Reel Size 500pcs
The ECM45T range of chip coils offer uniquely high quality of operation, with excellent mechanical and
electrical characteristics including solvent resistance conforming to MIL202E specifications. The ferrite
core is totally enclosed within the resin body of the component. This popular EIA 1812 package offers
excellent workability as well as reliability making it suitable for a diverse range of applications including,
Automotive security, Modems, and Low Band UHF Filter applications.
COMPONENT OUTLINE
DIMENSIONS (mm)
A
4.50
B
3.20
C
3.20
D
1.80
E
2.20
F
1.50
ECM Electronics Limited, Penmaen House, Ashington, West Sussex, RH20 3JR, UK
Tel: +44(0)1903 892810: Fax: +44(0)1903 892738. Email: [email protected]
Although we have attempted to accurately reflect the products we market. ECM reserve the right without prior notice to
discontinue any product or make design changes we believe necessary.
Issue 1
ECM 1812 SMD Chip Inductor
ECM
Part
ECM45T-R10
ECM45T-R12
ECM45T-R15
ECM45T-R18
ECM45T-R22
ECM45T-R27
ECM45T-R33
ECM45T-R39
ECM45T-R47
ECM45T-R56
ECM45T-R68
ECM45T-R82
ECM45T-1R0
ECM45T-1R2
ECM45T-1R5
ECM45T-1R8
ECM45T-2R2
ECM45T-2R7
ECM45T-3R3
ECM45T-3R9
ECM45T-4R7
ECM45T-5R6
ECM45T-6R8
ECM45T-8R2
ECM45T-100
ECM45T-120
ECM45T-150
ECM45T-180
ECM45T-220
ECM45T-270
ECM45T-330
ECM45T-390
ECM45T-470
ECM45T-560
ECM45T-680
ECM45T-820
ECM45T-101
L
(µ
µ H)
0.10 @100MHz
0.12 @25.2MHz
0.15 @25.2MHz
0.18 @25.2MHz
0.22 @25.2MHz
0.27 @25.2MHz
0.33 @25.2MHz
0.39 @25.2MHz
0.47 @25.2MHz
0.56 @25.2MHz
0.68 @25.2MHz
0.82 @25.2MHz
1.0 @7.96MHz
1.2 @7.96MHz
1.5 @7.96MHz
1.8 @7.96MHz
2.2 @7.96MHz
2.7 @7.96MHz
3.3 @7.96MHz
3.9 @7.96MHz
4.7 @7.96MHz
5.6 @7.96MHz
6.8 @7.96MHz
8.2 @7.96MHz
10 @2.52MHz
12 @2.52MHz
15 @2.52MHz
18 @2.52MHz
22 @2.52MHz
27 @2.52MHz
33 @2.52MHz
39 @2.52MHz
47 @2.52MHz
56 @2.52MHz
68 @2.52MHz
82 @2.52MHz
100 @0.796MHz
Tol
%
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
K
Q Min. SRF
(**MHz) Min.
(MHz)
30
700
30
500
30
450
30
400
30
350
30
350
30
300
30
350
30
250
30
180
30
160
30
140
50
100
50
80
50
70
50
60
50
55
50
50
50
45
50
40
50
35
50
33
50
27
50
25
50
50
50
18
50
17
50
15
50
13
50
12
50
11
50
10
50
10
50
9
50
9
50
8
40
7
RDC
MAX
(Ω
Ω)
0.44
0.22
0.25
0.28
0.32
0.36
0.40
0.45
0.50
0.55
0.60
0.67
0.50
0.55
0.60
0.65
0.70
0.75
0.80
0.90
1.0
1.1
1.2
1.4
1.6
2.0
2.5
2.8
3.2
3.6
4.0
4.5
5.0
5.5
6.0
7.5
8.0
IDC
IN
(mA)
450
450
450
450
450
450
450
450
450
450
450
450
450
430
410
390
380
310
355
330
315
300
285
270
250
225
500
190
180
170
160
150
140
135
130
150
110
TOLERANCES J=5%; K=10%.
** = Test Frequency as specified in ‘L’ column
ECM Electronics Limited, Penmaen House, Ashington, West Sussex, RH20 3JR, UK
Tel: +44(0)1903 892810: Fax: +44(0)1903 892738. Email: [email protected]
Although we have attempted to accurately reflect the products we market. ECM reserve the right without prior notice to
discontinue any product or make design changes we believe necessary.
Issue 1
ECM 1812 SMD Chip Inductor
ECM
Part
ECM45T-121
ECM45T-151
ECM45T-181
ECM45T-221
ECM45T-271
ECM45T-331
ECM45T-391
ECM45T-471
ECM45T-561
ECM45T-681
ECM45T-821
ECM45T-102
L
(µ
µ H)
120 @0.796MHz
150 @0.796MHz
180 @0.796MHz
220 @0.796MHz
270 @0.796MHz
330 @0.796MHz
390 @0.796MHz
470 @0.796MHz
560 @0.796MHz
680 @0.796MHz
820 @0.796MHz
1000 @0.796MHz
Tol
%
K
K
K
K
K
K
K
K
K
K
K
K
Q Min. SRF
(**MHz) Min.
(MHz)
40
6
40
5
40
5
40
4
30
4
30
3.5
30
3
30
3
30
3
30
3
30
2
30
2
RDC
MAX
(Ω
Ω)
8.0
9.5
9.5
10
12
14
16
26
30
40
45
50
IDC
IN
(mA)
110
105
102
100
92
85
80
62
50
50
30
30
TOLERANCE: K=10%.
** = Test Frequency as specified in ‘L’ column
ECM Electronics Limited, Penmaen House, Ashington, West Sussex, RH20 3JR, UK
Tel: +44(0)1903 892810: Fax: +44(0)1903 892738. Email: [email protected]
Although we have attempted to accurately reflect the products we market. ECM reserve the right without prior notice to
discontinue any product or make design changes we believe necessary.
Issue 1