Bi HM72E-12 High power high performance molded surface mount inductor Datasheet

Magnetics
0
Make Possible
Electrical / Environmental
High Power High Performance
Molded Surface Mount Inductors
Model HM72E-12
0
Features
and Benefits
HM72E-12
Electrical / Environmental
Operating Temperature Range -40°C to +155°C
High Power High Performance Molded
Temperature Rise, Maximum 40°C
Surface Mount Inductors
•
Operating
&
Storage
Temperature
-40°C to +155°C
Operating Frequency Up to 5MHz
•
Temperature Rise, Maximum
40°C
RoHS Compliant
Specification Up
@to25°C
•
Operating Frequency
5MHz
Inducta
Part Number
µH±2
Specification @ 25°C
(1)
Part Number
Inductance
Specifications @ 25°C
HM72E-12R68HLF
HM72E-121R0HLF
Part Number
HM72E-121R5HLF
HM72E-122R2HLF
HM72E-12R68HLF
HM72E-121R0HLF
HM72E-123R3HLF
HM72E-121R5HLF
HM72E-12100HLF
HM72E-122R2HLF
HM72E-12200HLF
µH±20%
0.68
1.00 (1)
Inductance
μH±20%
1.50
2.20
0.68
1.00
3.30
1.50
10.0
2.20
20.0
Heating
Current(2)
(Adc)
35
Heating
32
Current(2)
(Adc) 27
35 22
32 18
27 10
22 5
DCR (mΩ)
Isat(3)
HM72E-12R68HLF
(Adc)
Typ.
Max.
HM72E-121R0HLF
1.4
1.6
35
HM72E-121R5HLF
DCR
(mΩ)
1.7
2.0
Isat 31
(Adc) 27
3.0
Typ.2.5
Max.
HM72E-122R2HLF
4.2
35 24
1.43.5
1.6
HM72E-123R3HLF
31 20
1.75.7
2.0
6.8
27
2.516.4
3.0
17.2
9
HM72E-12100HLF
24
3.537.0
4.2
40.5
8
HM72E-12200HLF
20
5.7
6.8
0.6
1.0
1.5
2.2
3.3
10.
20.
(3)
HM72E-123R3HLF
3.30
18
HM72E-124R7HLF
4.70
13
15
9.3
11.2
HM72E-126R8HLF
6.80
11
11
13.1
14.0
Notes:HM72E-12100HLF
10.0
10
9
16.4
17.2
(1) Inductance is measured at 100 kHz, 0.1Vac without DC current.
HM72E-12200HLF
20.0
5
8
37.0
40.5
(2) The Heating Current is the approximate DC current which causes the component temperature to
Notes:
increase by 40°C. This current is determined by soldering the component on a typical application PCB,
(1) Inductance is measured at 100 kHz, 0.1Vac without DC current.
Notes:
and then applying the current to the device for 30 minutes.
(2) The Heating Current is the approximate DC current which causes the component temperature to increase by 40°C. This current is determined by soldering the component on a typical application
(3)
The
saturation
current
(Isat)
is
the
approximate
current
at
which
the inductance
will be decreased
by
PCB, and then applying the current to the device for 30 minutes.
(1) Inductance
is measured
at 100
(3) The saturation 20%
current (Isat)
is the approximate
which theDC)
inductance
will be decreased by 20% typical from its initial (zero DC) value.
typical
from its current
initialat (zero
value.
(2)
The
Heating
Current
is
the a
(4) The part(4)
temperature
(ambient
+
temperature
rise)
should
not
exceed
155°C.
The part temperature (ambient + temperature rise) should not exceed 155°C.
increase by 40°C. This current
and then applying the current t
(3) The saturation current (Isat) i
20% typical from its initial (zer
(4) The part temperature (ambient
Outline Dimensions (mm)
Outline Dimensions (mm)
Top View
Side View
Bottom View
Recommended
PCB layout
Outline Dimensions (mm)
Top View
S
General Note
MAGNETIC
COMPONENTS
TT Electronics
reserves the
right to make changes in product specification without notice or liability.
We reserve
the to
right
to changeown
specifications
without prior
notice.
All information
is subject
TT Electronics’
data and is considered
accurate
at time of going to print.
© TT Electronics plc
www.ttelectronicsmagnetics.com
Page 1 OF 2
www.bitechnologies.com
Rev. 01
High Power High Performance
Molded Surface Mount Inductors
Make Possible
Model HM72E-12
Electrical Characteristic @ 25°C
Packaging
One reel (13”)
400 pcs
One shipping carton (6 reels)
2400 pcs
Ordering Information
HM72E - 12 R68 LF TR13
Model Series
Case Size
Inductance Code:
First 2 digits are significant. Last digit
denotes number of trailing zeros. For values
below 10µH, “R” denotes the decimal point.
13” tape & reel
packing
Lead Free
General Note
TT Electronics reserves the right to make changes in product specification without notice or liability.
All information is subject to TT Electronics’ own data and is considered accurate at time of going to print.
www.ttelectronicsmagnetics.com
© TT Electronics plc
Rev. 01
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