Bi HA72E-12200HLF High power high performance molded surface mount inductor Datasheet

Magnetics
Make Possible
High Power High Performance
Molded Surface Mount Inductors


Model HA72E-12


Features
and Benefits


Operating Temperature -40°C to +155°C
Temperature Rise, Maximum 40°C
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Operating
Frequency Up to 5MHz
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
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
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AEC-Q200
Certified
RoHS
 Compliant
(1)
Inductance
Specification @ 25°C

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Part Number


HA72E-12R68HLF

HA72E-121R0HLF

HA72E-121R5HLF

HA72E-122R2HLF
HA72E-123R3HLF

HA72E-124R7HLF





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
Part Number
High Power High Performance Molded
Surface Mount Inductors
µH±20%


Inductance(1)

μH±20%

0.68

1.00

1.50

2.20
Heating
Current(2)
(Adc)


Heating
(2)
Current
(Adc)
35 
32 
27 
22






Isat(3)
(Adc)


Isat3)
(Adc)

35 
31 
27 
24


DCR (mΩ)
Typ.
Max.




DCR (mΩ)


Typ.
Max.


1.4
1.6


1.7
2.0


2.5
3.0


3.5
4.2
3.30
18
20
5.7
6.8
4.70
13
15
9.3
11.2
 HA72E-126R8HLF
6.80
11
11
13.1
14.0
 
HA72E-12100HLF
10.0
10
9
16.4
17.2
              
HA72E-12200HLF
20.0  
5
8
37.0
40.5




Notes:
                
(1) Inductance is measured at 100 kHz, 0.1Vac without DC current.

(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

PCB, and
then applying
the current to the device for 30 minutes.
(3) The saturation
current (Isat) is the approximate current at which the inductance will be decreased by 20% typical from its initial (zero DC) value.

(4) The part temperature (ambient + temperature rise) should not exceed 155°C.
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Outline Dimensions (mm)

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
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




General Note 
MAGNETIC COMPONENTS
TT Electronics reserves
the right to make changes in product specification without notice or liability.
We reserve the right
to change specifications without prior notice.
All information issubject to TT Electronics’ own data and is considered accurate at time of going to print.
© TT Electronics plc
1 OF 2
www.ttelectronicsmagnetics.com
www.bitechnologies.com
Rev. 01
High Power High Performance
Molded Surface Mount Inductors
Make Possible
Model HA72E-12
Electrical Characteristic @ 20°C

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Packaging
/ Ordering Information
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
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

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
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

 



Model Series
13” tape & reel
packing
Case Size
Lead Free
Inductance Code:
First 2 digits are significant. Last digit
denotes number of trailing zeros. For values
below 10µH, “R” denotes the decimal point.




General Note

MAGNETIC COMPONENTS
TT Electronics reserves the
right to make changes in product specification without notice or liability.
We reserve the right to change specifications without prior notice.
All information is subject to TT Electronics’ own data and is considered accurate at time of going to print.
© TT Electronics plc
2 OF 2
www.ttelectronicsmagnetics.com
www.bitechnologies.com
Rev. 01
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