AMORPHOUS CHOKE COILS
CAT. No. E1008E
?List
of products
Series
Major uses
Standard Specifications & Coil Series Guide
Miniatur- Thin
ization
Type
Low
loss
Low
cost
Large
capacity
Classification
CM
CMJ
AM
AW
Upgrade
Switching mode power supplies
DC-DC converter
Normal mode line filter
Switching mode power supplies
Step up and down converter
Toroidal with gap
Harmonic counter-measure active filter
Normal mode line filter
Harmonic counter-measure active filter
Uninterruptible power supply system (UPS)
Switching mode power supplies
DC-DC converter
Normal mode line filter
Switching mode power supplies
DC-DC converter
Normal mode line filter
Noise preventive use for alternator
DC-DC converter
Switching mode power supplies
Upgrade
TM
BM
EM
SM
FM
Toroidal without gap
Package
Common mode
Line filter for inverter or large power supply
High frequency transformer
Accessories
AMORPHOUS CHOKE COIL Characteristics
General specification can be Pb-free.
Contact NIPPON CHEMI-CON for details.
Notes on use
@Because
the insulating material of type B is used, the operating temperature of the coil should be less than 130C.
@Note
that the lead wire may not be subject to excess force and also may not be bent repeatedly because the wire is made of
copper.
@Never
make the coil hit on a hard and/or sharp substance. If so, the coating of the coils may be damaged to ruin the
performace of the coil.
@Contact
NIPPON CHEMI-CON for how to clean the substrate on which the coil is mounted.
@When
infra-acoustic frequency component is impressed, a beat sound some times occur.
Please ask for the individual catalog (NO. E1003), If you require the detailed specifications.
AMORPHOUS CHOKE COILS
AMORPHOUS CHOKE COILS
Amorphous metal and NIPPON CHEMI-CON Amorphous Choke Coil
The amorphous metal has non cystalline structure generated by cooling molten metal rap-
idly. Due to the amorphous structure, the amorphous metal has excellent magnetic, me-
chanical, and chemical features in comparison with conventional metallic substances.
NIPPON CHEMI-CON started developing amorphous components for electronic and elec-
tric equipment by making full use of the metarial and process technologies at its early
stages and has continued the synthetic research and development to optimally match the
amorphous choke coils with the material features and their applications through a variety of
characteristics. NIPPON CHEMI-CON will help the customers design smaller and higher
performance products by supplying excellent amorphous choke coils through the sophisti-
cated production technology and manufacturing know-how.
?General
Specification of Toroidal Coil
Items
Operating temperature range
*1
Storage temperature range
Operating humidity range
Storage humidity range
Operating frequency range
Temperature rise
*3
Rating current range
Rating inductance
*4
(CM series)
Insulation type
Incombustibility
*5
Type B (130C)
UL 94 V-0
*2
Rated value
-25 to 130C
-25 to 130C
20 to 95%RH
20 to 80%RH
20kHz to 500kHz
40deg. or less
1A and more
10 to 1900mH
*1 Temperature on the coil surface including the temperature rise in installation. Never use the coil
at a temperature exceeding the rated temperature range.
*2 Recommended range. When infra-acoustic frequency component is impressed, a beat sound
some times occur.
*3 The temperature rise on the coil surface at the rated d.c. current.
*4 The incombustibility varies depending on the rated current. LCR meter, 10kHz.
*5 The housing case is made of FRPBT
Note carefully that the temperature of the core may exceed the operating temperature range de-
pending on the circumference condition even if the coil is used in the specification ranges de-
scribed above.
?DIMENSIONS
Side view
a
D2
D2
W
D2
W
W
Bottom of coil
D1
D1
Bottom view
a
D1
L
*Start and end of wire
*
L
D2
W
a
L
a
Pedestal bottom
D1
* Start and end of wire
Maximum outer diameter : D1(Vertical), D2(Horizontal)
Maximum width : W
Total lead length : L=30mm(+3mm, -3mm)
Soldering boundary : a=1.5mmMAX
*The bottom of the core or coil ( ) is defined
as base surface.
Maximum outer diameter : D1(Vertical), D2(Horizontal)
Maximum width : W
Total lead length *1 : L=15mm(+3mm, -3mm)
Soldering boundary *1 : a=1.5mmMAX
*1 The bottom of the core or coil ( ) is defined
as base surface.
Maximum outer diameter *1 : D2
Maximum width *1 : D1
Maximum width : W
Total lead length *2 : L=13mm(+2mm, -2mm)
Soldering boundary *2 : a=0mm MAX
*1 Indicates the maximum dimersion of coil or stand.
*2 The bottom of the core or coil ( ) is defined
as base surface.
Maximum outer diameter *1 : D1, D2
Maximum width : W
Total lead length *2 : L=13mm(+2mm, -2mm)
Soldering boundary *2 : a=0mm MAX
*1 Indicates the maximum dimersion of coil or stand.
*2 The bottom of the core or coil ( ) is defined
as base surface.
?Notes
on use
@Because
the insulating material of type B is used, the operating temperature of the coil should be less than 130C.
@Note
that the lead wire may not be subject to excess force and also may not be bent repeatedly because the wire is made of
copper.
@Never
make the coil hit on a hard and/or sharp substance. If so, the coating of the coils may be damaged to ruin the
performace of the coil.
@Contact
NIPPON CHEMI-CON for how to clean the substrate on which the coil is mounted.
@When
infra-acoustic frequency component is impressed, a beat sound some times occur.
(1/2)
CAT. No. E1008E
L
AMORPHOUS CHOKE COILS
AMORPHOUS CHOKE COILS
Miniatur- Thin
ization
Type
Low
loss
Low
cost
Large
capacity
Series
Major uses
Switching mode power supplies
DC-DC converter
Normal mode line filter
Switching mode power supplies
Step up and down converter
Classification
CM
CMJ
AM
AW
Upgrade
Toroidal with gap
Harmonic counter-measure active filter
Normal mode line filter
Harmonic counter-measure active filter
Uninterruptible power supply system (UPS)
Switching mode power supplies
DC-DC converter
Normal mode line filter
Switching mode power supplies
DC-DC converter
Normal mode line filter
Noise preventive use for alternator
DC-DC converter
Switching mode power supplies
Upgrade
TM
BM
EM
SM
FM
Toroidal without gap
Package
Common mode
Line filter for inverter or large power supply
High frequency transformer
Accessories
AMORPHOUS CHOKE COIL Characteristics
The current parts numbering system is changed to new system for global coding.
Your cooperation will be very much appreciated.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
L B TM 0 1 0 3 0 0 N 6 - V 0 0
Solder control code6
Specifications control code5
Mounting Direction4
Core Abbreviation3
Rated Inductance2
Rated Current1
Series
Section code
Class code
1Rated
Current code
2Rated
Inductance code
3Core
Abbreviation code
4Mounting
Direction code
Code Rated Current
0.5A
0R5
1A
001
10A
010
100A
100
Code Rated Inductance
0.5MH
0R5
1MH
010
10MH
100
100MH
101
1000MH
102
Code Core Abbreviation
N6
N6-
JRH
JRH
Code
Mounting Direction
V
Vertical
H
Horizontal
D
Vertical pedestal
B
Horizontal pedestal
Y
Vertical pedestal with pins
W Horizontal pedestal with pins
5Specifications
control code
Code Specifications
Standard
0
Custom
1
6Solder
control code
Code Specifications
0 Standard Solder
Pb free
E
AW
Toroidal with gap
(For active filter)
Lower loss
EM
Toroidal without gap
(For alternator)
(For smoothing output)
AM
Toroidal with gap
(For active filter)
CM
Toroidal with gap
(For smoothing output)
CMJ
Toroidal with gap
(For step up converter)
TM
Toroidal without gap
BM
Toroidal without gap
(For smoothing output)
SM
Thin package
(For smoothing output)
1
10
100
1k
10k
Power capacity of applied power supply Po [W]
(2/2)
CAT. No. E1008E
AMORPHOUS CHOKE COILS
AMORPHOUS CHOKE COILS
?MAJOR
USES
@Output
choke coils for Switching Mode Power Supply
@For
DC-DC converter
@Normal
mode choke coils for noise control
?FEATURES
@Smaller
size in comparison with ferrite choke coil by about half in volume
@Lower
core loss in comparison with silicon steel sheet by about half
@More
excellent DC bias and temperature characteristics in comparison with
dust choke
?CORE
STANDARD SPECIFICATIONS
Cross
Sectional
Core Part No. Abbreviation
Area
(Old Core Part No.)
Magnetic
Path
Length
Outside Dimensions
Inductance Coefficient AL Value
Outer
Rated Rated Current
Width
Height
I
dc
=0[A]
Current* Ampere Turn
Diameter
mH
mH
mm
mm
mm
[AT]
cm
2
LNC181210G
(C181210G)
LNC191305G
(C191305G)
LNC221310G
(C221310G)
LNC251510G
(C251510G)
LNC251515G
(C251515G)
LNC322010G
(C322010G)
LNC372310G
(C372310G)
LNC372315G
(C372315G)
LNC462715G
(C462715G)
LNC462725G
(C462725G)
G3
G4
G6
G7
G8
G9
G0
GJ
GQ
GK
0.264
0.132
0.396
0.440
0.660
0.528
0.616
0.924
1.254
2.090
cm
4.71
5.03
5.50
6.28
6.28
8.17
9.42
9.42
11.5
11.5
21.0
22.0
24.7
28.3
28.3
35.2
40.5
40.5
49.4
49.4
9.0
10.0
10.5
12.7
12.7
17.5
19.5
19.5
22.7
22.7
12.5
8.0
12.0
12.3
17.5
12.3
13.0
18.0
18.0
28.0
0.122
0.050
0.164
0.133
0.185
0.137
0.154
0.210
0.235
0.360
0.116
0.045
0.147
0.120
0.170
0.125
0.140
0.190
0.207
0.320
150
200
190
300
330
330
350
400
450
550
?CORE
LOSS CHARACTERISTICS
@
CM choke
1000
Core loss PFe [mW/g]
100
10
300[kHz]
200[kHz]
150[kHz]
100[kHz]
80[kHz]
50[kHz]
20[kHz]
1
1
10
100
1000
10000
Magnetic flux density
D
Bp-p [mT]
(1/5)
CAT. No. E1008E
AMORPHOUS CHOKE COILS
AMORPHOUS CHOKE COILS
?D.C.
BIAS CHARACTERISTICS AL-AT(1)
@
Frequency : 10[kHz]
0.2
?D.C.
BIAS CHARACTERISTICS AL-AT(2)
@
Frequency : 10[kHz]
0.4
LNC251515G
LNC221310G
LNC251510G
0.1
0.3
LNC462725G
LNC462715G
AL [MH]
AL [MH]
LNC181210G
0.2
LNC372310G
LNC372315G
LNC322010G
0.1
LNC191305G
0
0
100
200
300
400
500
600
700
0
0
200
400
600
800
1000
1200
NI [AT]
NI [AT]
?MAGNETIC
FIELD - MAGNETIC DENSITY
2
?FREQUENCY
- INDUCTANCE CHARACTERISTICS
@
CM Core
120
110
Magnetic flux density B [T]
1.5
Relative value [%]
100
1
90
0.5
80
0
0
5000
10000
70
1
10
100
1000
Magnetic field H [A/m]
Frequency f [kHz]
?TEMPERATURE
DEPENDENCE - INDUCTANCE AND CORE LOSS
@
Frequency : 100[kHz]
140
Core loss Relative value [%]
120
Inductance Rated Current
100
Idc=0 [A]
80
Core loss
60
40
-20
0
20
40
60
80
100
120
140
Temperature [C]
(2/5)
CAT. No. E1008E
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