122 04/00
High-current version
Size 1812 (EIA) or 4532 (IEC)
Rated inductance 1,0 to 330 µH
Rated current 110 to 1100 mA
Construction
Ferrite core
US-welded winding
Flame-retardant encapsulation
Features
High resonance frequency
Suitable for reflow (IR and vapor phase)
and wave soldering
Applications
Filtering of supply voltages, coupling, decoupling
DC/DC converters
Automotive electronics
Telecommunications
Terminals
Silver-plated
1–2 µm Cu, 4–6 µm Ag
Base material CuSn6
Suitable for soldering and conductive adhesion
No leaching during wave soldering
Marking
Marking on component:
Manufacturer and series mark »–H«
L
value (in nH) and tolerance of
L
value (coded),
date of manufacture (coded)
Minimum data on reel:
Manufacturer, part number, ordering code,
L
value and tolerance of
L
value,
quantity, date of packing
Delivery mode
12-mm blister tape, wound on 330-mm reel
For details on taping, packing and packing units see page 153
B82432-HSMT Inductors, SIMID Series
SIMID 1812-H
123 04/00
General technical data
Rated inductance
L
RMeasured with impedance analyzer HP 4194A
at frequency
f
L
Q factor
Q
min Measured with impedance analyzer HP 4194A
at frequency
f
Q
Rated current
I
RMaximum permissible dc with
inductance decrease
L
/
L
010 %
and temperature increase of 40 K
at rated temperature of 85°C
Self-resonance frequency
f
res, min Measured with network analyzer HP 8753
DC resistance
R
max Measured at 20°C ambient temperature,
measuring current <
I
R
Climatic category In accordance with IEC 60068-1
55/125/56 (– 55°C/+ 125°C/56 days damp heat test)
Solderability In accordance with IEC 60062-2-58
(215 ± 3)°C, (3 ± 0,3) s
Wetting of soldering area: 95 %
Resistance to soldering heat In accordance with IEC 60068-2-20
260°C, 10 s
L
/
L
≤ ± 3%
Permissible PCB bending 2 mm (100 mm long standard PCB)
Weight Approx. 130 mg
B82432-HSMT Inductors, SIMID Series
SIMID 1812-H
124 04/00
Dimensional drawing
Layout recommendation
1) Soldering area, silver-plated
Dimensions (mm)
ABCD
Wave soldering 3,1 1,7 3,2 6,6
Reflow soldering 3,6 1,3 3,2 5,8
SSB0053-6
0,6±0,1
1)
2,7±0,1
1)
3,2±0,2
4,5+0,3
3,2+0,3
0,8 min.
1)
Beschriftung
±0,050,1
Marking
SSB1227-Z
CB
D
B
A
B82432-HSMT Inductors, SIMID Series
SIMID 1812-H
125 04/00
Characteristics and ordering codes
1) Further E 12 ratings upon request.
L
R1)
µHToler-
ance
f
L
MHz
Q
min
f
Q
MHz
I
R
mA
R
max
f
res, min
MHz Ordering code
1,0 ±10 %
K 1 20 7,96 1100 0,11 260 B82432-H1102-K
1,5 1 20 7,96 1000 0,14 175 B82432-H1152-K
2,2 1 20 7,96 900 0,18 95 B82432-H1222-K
3,3 1 20 7,96 820 0,22 80 B82432-H1332-K
4,7 1 20 7,96 740 0,27 40 B82432-H1472-K
6,8 1 20 7,96 660 0,35 36 B82432-H1682-K
10 1 25 2,52 600 0,50 25 B82432-H1103-K
15 0,1 25 2,52 480 0,70 20 B82432-H1153-K
22 0,1 25 2,52 430 0,90 18 B82432-H1223-K
33 0,1 25 2,52 350 1,4 15 B82432-H1333-K
47 0,1 25 2,52 310 1,9 11,5 B82432-H1473-K
68 0,1 25 2,52 230 2,6 10,0 B82432-H1683-K
100 0,1 25 0,796 180 4,0 8,0 B82432-H1104-K
150 0,1 25 0,796 150 6,1 6,5 B82432-H1154-K
220 0,1 25 0,796 130 7,5 4,5 B82432-H1224-K
330 0,1 25 0,796 110 11,0 3,5 B82432-H1334-K
^
B82432-HSMT Inductors, SIMID Series
SIMID 1812-H
126 04/00
Impedance |
Z
|
versus frequency
f
measured with impedance analyzer
HP 4291A
Q
factor versus frequency
f
measured with impedance analyzer
HP 4194A
Inductance
L
versus dc load current
I
DC
measured with LCR meter
HP 4275A
Current derating
I
op/
I
R
versus ambient temperature
T
A
10
0
|
Z
|
10
5
10
3
10
4
kHz10
5
f
10
6
SSB1542-R
10
1
10
2
10
3
4
10
µ
H100
µ
µ
1
10 H
H
SSB1278-9
Q
010
1
f
kHz10
2
10
3
10
4
10
5
330
20
40
60
80
100
10
1
µ
H
H
µ
H
µ
H
µ
SSB1277-1
L
10
-1
10
-2
Ι
10
-1
10
0
10
1
A
µ
H
DC
10
0
10
1
10
2
10
3
10
4
H
µ
1
10
µ
H
100
µ
H
330
µ
H
SSB1279-H
00
T
Ι
B
Ι
R
A
0,2
0,4
0,6
0,8
1,0
1,2
20 40 60 80 100 140˚C
I
op
I
R
B82432-HSMT Inductors, SIMID Series
SIMID 1812-H