LAN02KB120K [TAIYO YUDEN]
General Purpose Inductor, 12uH, 10%, 1 Element, Ferrite-Core;型号: | LAN02KB120K |
厂家: | TAIYO YUDEN (U.S.A.), INC |
描述: | General Purpose Inductor, 12uH, 10%, 1 Element, Ferrite-Core 局域网 电感器 |
文件: | 总21页 (文件大小:637K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
アキシャルリードインダクタ
AXIAL LEADED INDUCTORS
OPERATING TEMP
K25VJ105C(製品自己発熱を含む)
fIncluding self-generated heatg
特長ꢀFEATURES
YExtremely reliable inductors that are ideal for automatic insertion.
Y自動挿入に対し極めて高い信
頼性を有するインダクタ
YHighly efficient automated production processes can provide high quality
inductors in large volumes.
YWide selection of configurations including axial leaded, formed radial leads
and bulk products to meet most manufacturing needs.
Y自動化高速ラインによる生産の為、量産性に優れかつ高品質
Yアキシャルリードタイプの他、ラジアルテーピング、単品加工品があり
バリエーションが豊富
用途ꢀAPPLICATIONS
Consumer electronics such as VTRs, TVs, audio equipment, mobile com-
YVTR、CTV、オーディオ、通信
機、その他電子機器全般
munications, and general electronic appliances.
形名表記法ꢀORDERING CODE
3
4
1
6
5
リード加工形状 hmmi
KB フォーミング単品f04タイプg
KH フォーミング単品f03タイプg
KR フォーミング単品f02タイプg
NA ストレート単品
インダクタンス許容差hLi
形状寸法fLPDghmm以下i
形式
LA
公称インダクタンス hAHi
例
02
3.4P2.3 (LAL/LAP)
3.6P2.4 (LAN)
7.0P2.7
J
K
M
M5
M10
M20
アキシャルインダクタ
FR= 小数点
1R5
120
1.5
12
03
04
9.8P4.0
TA アキシャルつづらテーピング26.0幅
TB アキシャルつづらテーピング52.0幅
VD ラジアルテーピング
2
7
製品区分
LQ
NQ
一般
高電流タイプ
当社管理記号
QQQQQ
標準品
PQ
一般f リード線径 0.45Bmmg
QW スペース
QW スペース
Z Z Z Z Z
Q
L A L 0 3 T A R 2 2 M
3
5
1
2
6
7
4
3
4
5
1
6
Type
LA
ꢀLeꢀad configurationshmmi
KB Formed lead/bulkf04 typeg
KH Formed lead/bulkf03 typeg
KR Formed lead/bulkf02 typeg
NA Axial lead/bulk
Nominal inductancehAHi
example
Inductance tolerancehLiꢀ
Body sizefLPDghmmiꢀꢀ
ꢀꢀ
FR=decimal point
J
K
M
M5
M10
M20
Axial inductor
02
3.4P2.3 (LAL/LAP)
3.6P2.4 (LAN)
7.0P2.7
1R5
120
1.5
12
03
04
9.8P4.0
TA Axial leadf26mm lead spaceg
/ammo packf02/03 typeg
TB Axial leadf52mm lead spaceg
/ammo packfall typesg
2
7
Product Specificationꢀ
LQ
NQ
PQ
Standard type
High current type
Standard type
Internal code
QQQQQ
VD Formed lead/ammo packf02 typeg
Standard product
QWBlank space
(lead diameter:0.45mm)
QWBlank space
298
外形寸法ꢀEXTERNAL DIMENSIONS
Dimensions[mm]finchg
テーピング Taped
単品Bulk
フォーミングFormed
Type
L
BD
Bd
ストレートStraight
TB
フォーミングFormed
ストレートStraight
NA
VD
3.4max
2.3max
0.5M0.05
LAL02
LAP02
LAN02
EEE
f0.134maxg
3.4max
f0.091maxg
2.3max
f0.020M0.002g
PitchD5mm(0.197)
5
TA
KR
f0.134maxg
3.6max
f0.091maxg
2.4max
0.45M0.05
EEE
EEE
f0.018M0.002g
PitchD5mm
(0.197)
f0.142maxg
f0.094maxg
NA
NA
KH
TA
J0.1
2.6ꢀꢀ
K0.2
LAL03
LAL04
7.0max
F0.5M0.05
EEE
EEE
J0.004
TB
TB
PitchD10mm
(0.394)
f0.276maxg
f0.102ꢀꢀꢀ g f0.020M0.002g
K0.008
KB
9.8max
4.0max
0.65M0.05
f0.026M0.002g
FVBD0.6M0.05
f0.386maxg
f0.157maxg
12.5mm(0.492)
UnitDmmfinchg
f0.024M0.002g
概略バリエーションꢀAVAILABLE INDUCTANCE RANGE
Type
LAL/LAP02
LAN02
0.12
LAL03
0.22
LAL04
Range
Rdc max[E]
Rdc max[E] Imax[mA]
Rdc max[E]
Imax[mA]
Rdc max[E]
Imax[mA]
Imax[mA]
0.1
1
0.22
0.22
EEE2E7E0EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE
0.8
500
0.32
270
0.8
920
0.19
160
2.5
280
1.0
EEEEEEEEEEEEEEEEEEEEEEE1E6E0EEEEEEEEEEEEEEEEE
2.5
500
0.58
10
44
EEEEEEE1E2EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE
120
5.6
90
7.0
275
1.8
100
220
470
EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE1E0E00EEEEEEEEEEEEEEEEEEEEE
40
33.0
100
14.0
1000
1000
Inductance
Imax[mA] Rdcmax[E] Imax[mA] Rdcmax[E] Imax[mA] Rdcmax[E] Imax[mA] Rdcmax[E]
1AH
10AH
270
160
44
0.8
2.5
12
500
280
120
0.32
1.0
270
160
90
0.8
2.5
920
500
275
100
0.19
0.58
1.8
ꢀꢀꢀꢀꢀꢀ
ꢀꢀꢀꢀꢀꢀ
100AH
1000AH
5.6
7.0
E
E
40
33.0
14.0
セレクションガイド
Selection Guide
アイテム一覧
Part Numbers
特性図
Electrical Characteristics
梱包
Packaging
信
頼性
使用上の注意
Reliability Data
Precautions
P.10
etc
P.300
P.305
P.307
P.338
P.356
299
アイテム一覧ꢀPART NUMBERS
LAL/LAP02
ꢀ定
波数
Measuring
frequency
hMHzi
自己共振
直
流抵抗
定格電流
公ꢀꢀ称
インダクタンス
許容差
形ꢀꢀ名
周
波 数
周
DC
Rated
インダクタンス
Inductance
[AH]
0.22
0.27
0.33
0.39
0.47
0.56
0.68
0.82
1.0
Q
SelfKresonant
frequency
hMHzi
Resistance
hEi
current
hmAi
Inductance
Tolerance
fmin.g
Ordering code
fmin.g
fmax.g
0.40
fmax.g
LA G 02 Z R22K
LA G 02 Z R27K
LA G 02 Z R33K
LA G 02 Z R39K
LA G 02 Z R47K
LA G 02 Z R56K
LA G 02 Z R68K
LA G 02 Z R82K
LA G 02 Z 1R0K
LA G 02 Z 1R2K
LA G 02 Z 1R5K
LA G 02 Z 1R8K
LA G 02 Z 2R2K
LA G 02 Z 2R7K
LA G 02 Z 3R3K
LA G 02 Z 3R9K
LA G 02 Z 4R7K
LA G 02 Z 5R6K
LA G 02 Z 6R8K
LA G 02 Z 8R2K
LA G 02 Z 100K
LA G 02 Z 120K
LA G 02 Z 150K
LA G 02 Z 180K
LA G 02 Z 220K
LA G 02 Z 270K
LA G 02 Z 330K
LA G 02 Z 390K
LA G 02 Z 470K
LA G 02 Z 560K
LA G 02 Z 680K
LA G 02 Z 820K
LA G 02 Z 101K
LA G 02 Z 121K
LA G 02 Z 151K
LA G 02 Z 181K
LA G 02 Z 221K
450.0
410.0
360.0
300.0
230.0
210.0
190.0
170.0
150.0
110.0
80.0
60.0
45.0
40.0
38.0
35.0
32.0
30.0
28.0
26.0
24.0
22.0
20.0
18.0
17.0
16.0
14.0
13.0
12.0
11.0
10.0
9.5
400.0
0.43
0.48
0.51
0.56
0.61
0.67
0.74
0.80
0.9
380.0
370.0
350.0
330.0
320.0
310.0
290.0
270.0
260.0
250.0
240.0
230.0
220.0
210.0
200.0
190.0
180.0
175.0
165.0
160.0
150.0
145.0
140.0
130.0
80.0
35.0
25.2
1.2
1.5
1.0
1.8
1.1
2.2
1.2
2.7
1.3
3.3
1.4
7.96
3.9
1.6
4.7
1.7
5.6
1.9
6.8
M10L
2.0
8.2
2.2
10.0
12.0
15.0
18.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
100.0
120.0
150.0
180.0
220.0
2.5
2.5
40.0
2.8
3.1
3.4
4.3
4.7
76.0
2.52
5.2
74.0
5.8
70.0
6.4
68.0
7.2
64.0
11.0
12.0
13.0
16.0
18.0
20.0
46.0
9.0
44.0
8.0
42.0
6.0
39.0
0.796
5.5
37.0
5.0
35.0
形名のGには製品区分記号fリード線径gが入ります。fL:標準0.5mm, P:0.45mmg
形名のZにはリード加工形状記号が入ります。
G Please specify the Product Specification(lead diameter)code. fL:standard 0.5mm or P:0.45mmg
Z Please specify the Lead configuration code.
300
アイテム一覧ꢀPART NUMBERS
LAN02
ꢀ定
波数
Measuring
frequency
hMHzi
自己共振
直
流抵抗
定格電流
公ꢀꢀ称
インダクタンス
許容差
形ꢀꢀ名
周
波 数
周
DC
Rated
インダクタンス
Inductance
[AH]
0.12
0.15
0.18
0.22
0.27
0.33
0.39
0.47
0.56
0.68
0.82
1.0
Q
SelfKresonant
frequency
hMHzi
Resistance
hEi
current
hmAi
Inductance
Tolerance
fmin.g
Ordering code
fmin.g
fmax.g
0.12
fmax.g
LAN 02 Z R12K
LAN 02 Z R15K
LAN 02 Z R18K
LAN 02 Z R22K
LAN 02 Z R27K
LAN 02 Z R33K
LAN 02 Z R39K
LAN 02 Z R47K
LAN 02 Z R56K
LAN 02 Z R68K
LAN 02 Z R82K
LAN 02 Z 1R0 J
LAN 02 Z 1R2 J
LAN 02 Z 1R5 J
LAN 02 Z 1R8 J
LAN 02 Z 2R2 J
LAN 02 Z 2R7 J
LAN 02 Z 3R3 J
LAN 02 Z 3R9 J
LAN 02 Z 4R7 J
LAN 02 Z 5R6 J
LAN 02 Z 6R8 J
LAN 02 Z 8R2 J
LAN 02 Z 100 J
LAN 02 Z 120 J
LAN 02 Z 150 J
LAN 02 Z 180 J
LAN 02 Z 220 J
LAN 02 Z 270 J
LAN 02 Z 330 J
LAN 02 Z 390 J
LAN 02 Z 470 J
LAN 02 Z 560 J
LAN 02 Z 680 J
LAN 02 Z 820 J
LAN 02 Z 101 J
LAN 02 Z 121 J
LAN 02 Z 151 J
LAN 02 Z 181 J
LAN 02 Z 221 J
LAN 02 Z 271 J
LAN 02 Z 331 J
LAN 02 Z 391 J
LAN 02 Z 471 J
500.0
500.0
500.0
500.0
500.0
480.0
430.0
380.0
350.0
310.0
270.0
240.0
210.0
190.0
140.0
90.0
70.0
50.0
35.0
32.0
30.0
28.0
26.0
24.0
22.0
20.0
18.0
17.0
15.0
14.0
13.0
12.0
10.0
9.2
850.0
0.14
0.15
0.16
0.18
0.19
0.21
0.23
0.25
0.27
0.29
0.32
0.35
0.38
0.42
0.47
0.52
0.57
0.63
0.69
0.75
0.84
0.92
1.0
800.0
760.0
730.0
690.0
660.0
640.0
610.0
580.0
550.0
520.0
500.0
480.0
450.0
430.0
410.0
390.0
370.0
360.0
340.0
320.0
310.0
290.0
280.0
280.0
265.0
250.0
235.0
220.0
180.0
170.0
160.0
140.0
130.0
125.0
120.0
90.0
5
M10L
25.2
50.0
1.2
1.5
1.8
2.2
2.7
3.3
7.96
3.9
4.7
5.6
6.8
8.2
10.0
12.0
15.0
18.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
100.0
120.0
150.0
180.0
220.0
270.0
330.0
390.0
470.0
40.0
1.0
1.2
1.3
M5 L
1.5
1.7
2.2
2.52
2.4
2.8
4.1
4.5
8.8
5.0
8.0
5.6
50.0
6.6
9.2
5.8
10.5
11.5
13.0
16.0
18.0
20.0
22.0
85.0
5.4
80.0
4.8
75.0
0.796
3.6
70.0
3.4
66.0
3.2
63.0
3.0
60.0
形名のZにはリード加工形状記号が入ります。
Z Please specify the Lead configuration code.
301
アイテム一覧ꢀPART NUMBERS
LAL03
ꢀ定
波数
Measuring
frequency
hMHzi
直
流抵抗
定格電流
自己共振
公ꢀꢀ称
インダクタンス
許容差
形ꢀꢀ名
周
波 数
周
DC
Rated
インダクタンス
Inductance
[AH]
0.22
0.27
0.33
0.39
0.47
0.56
0.68
0.82
1.0
Q
SelfKresonant
frequency
hMHzi
Resistance
hEi
current
hmAi
Inductance
Tolerance
fmin.g
Ordering code
fmin.g
fmax.g
0.40
fmax.g
400.0
LAG 03 Z R22M
LAG 03 Z R27M
LAG 03 Z R33M
LAG 03 Z R39M
LAG 03 Z R47M
LAG 03 Z R56M
LAG 03 Z R68M
LAG 03 Z R82M
LAG 03 Z 1R0M
LAG 03 Z 1R2M
LAG 03 Z 1R5M
LAG 03 Z 1R8M
LAG 03 Z 2R2M
LAG 03 Z 2R7M
LAG 03 Z 3R3K
LAG 03 Z 3R9K
LAG 03 Z 4R7K
LAG 03 Z 5R6K
LAG 03 Z 6R8K
LAG 03 Z 8R2K
LAG 03 Z 100K
LAG 03 Z 120K
LAG 03 Z 150K
LAG 03 Z 180K
LAG 03 Z 220K
LAG 03 Z 270K
LAG 03 Z 330K
LAG 03 Z 390K
LAG 03 Z 470K
LAG 03 Z 560K
LAG 03 Z 680K
LAG 03 Z 820K
LAG 03 Z 101K
LAG 03 Z 121K
LAG 03 Z 151K
LAG 03 Z 181K
LAG 03 Z 221K
LAG 03 Z 271K
LAG 03 Z 331K
LAG 03 Z 391K
LAG 03 Z 471K
LAG 03 Z 561K
LAG 03 Z 681K
LAG 03 Z 821K
LAG 03 Z 102K
450.0
410.0
360.0
300.0
230.0
210.0
190.0
170.0
150.0
144.0
131.0
121.0
110.0
100.0
94.0
65.0
56.0
48.0
37.0
25.0
21.0
19.0
17.0
13.0
9.6
0.43
0.48
0.51
0.56
0.61
0.67
0.74
0.80
0.90
1.0
380.0
370.0
350.0
330.0
320.0
310.0
290.0
270.0
260.0
250.0
240.0
230.0
220.0
210.0
200.0
190.0
180.0
175.0
165.0
160.0
150.0
145.0
140.0
130.0
125.0
120.0
115.0
110.0
105.0
100.0
95.0
35.0
40.0
25.2
M20L
1.2
1.5
1.8
1.1
2.2
1.2
2.7
1.3
3.3
1.4
7.96
3.9
1.6
4.7
1.7
5.6
1.9
6.8
2.0
8.2
2.2
10.0
12.0
15.0
18.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
100.0
120.0
150.0
180.0
220.0
270.0
330.0
390.0
470.0
560.0
680.0
820.0
1000.0
2.5
2.5
2.8
3.1
3.4
7.2
3.8
50.0
2.52
6.3
4.1
6.3
4.5
6.3
4.9
M10L
6.2
5.3
5.7
5.8
5.3
6.3
4.8
7.0
90.0
3.8
13.0
15.0
16.0
17.0
19.0
20.0
22.0
24.0
26.0
28.0
30.0
33.0
90.0
3.5
85.0
3.3
80.0
3.0
75.0
2.8
65.0
2.6
60.0
0.796
2.4
55.0
2.25
2.10
1.95
1.85
1.40
55.0
50.0
45.0
40.0
40.0
形名のZにはリード加工形状記号が入ります。
Z Please specify the Lead configuration code.
302
アイテム一覧ꢀPART NUMBERS
LAL04
ꢀ定
波数
Measuring
frequency
hMHzi
直
流抵抗
定格電流
自己共振
公ꢀꢀ称
インダクタンス
許容差
形ꢀꢀ名
周
波 数
周
DC
Rated
インダクタンス
Inductance
[AH]
0.22
0.27
0.33
0.39
0.47
0.56
0.68
0.82
1.0
Q
SelfKresonant
frequency
hMHzi
Resistance
hEi
current
hmAi
Inductance
Tolerance
fmin.g
Ordering code
fmin.g
fmax.g
0.10
fmax.g
1400.0
LAG 04 Z R22M
LAG 04 Z R27M
LAG 04 Z R33M
LAG 04 Z R39M
LAG 04 Z R47M
LAG 04 Z R56M
LAG 04 Z R68M
LAG 04 Z R82M
LAG 04 Z 1R0M
LAG 04 Z 1R2M
LAG 04 Z 1R5M
LAG 04 Z 1R8M
LAG 04 Z 2R2M
LAG 04 Z 2R7M
LAG 04 Z 3R3K
LAG 04 Z 3R9K
LAG 04 Z 4R7K
LAG 04 Z 5R6K
LAG 04 Z 6R8K
LAG 04 Z 8R2K
LAG 04 Z 100K
LAG 04 Z 120K
LAG 04 Z 150K
LAG 04 Z 180K
LAG 04 Z 220K
LAG 04 Z 270K
LAG 04 Z 330K
LAG 04 Z 390K
LAG 04 Z 470K
LAG 04 Z 560K
LAG 04 Z 680K
LAG 04 Z 820K
LAG 04 Z 101K
LAG 04 Z 121K
LAG 04 Z 151K
LAG 04 Z 181K
LAG 04 Z 221K
LAG 04 Z 271K
LAG 04 Z 331K
LAG 04 Z 391K
LAG 04 Z 471K
LAG 04 Z 561K
LAG 04 Z 681K
LAG 04 Z 821K
LAG 04 Z 102K
300.0
270.0
250.0
230.0
220.0
200.0
190.0
172.0
157.0
144.0
131.0
121.0
110.0
100.0
94.0
65.0
56.0
48.0
37.0
25.0
21.0
19.0
17.0
13.0
9.6
0.11
0.12
0.13
0.14
0.15
0.16
0.17
0.19
0.21
0.23
0.25
0.28
0.30
0.34
0.37
0.39
0.43
0.48
0.52
0.58
0.63
0.72
0.77
0.84
0.94
1.03
1.12
1.22
1.34
1.47
1.62
1.80
3.70
4.20
4.60
5.10
5.80
6.40
7.00
7.70
8.50
9.40
10.50
14.00
1320.0
1280.0
1200.0
1150.0
1100.0
1030.0
980.0
920.0
880.0
830.0
790.0
750.0
720.0
670.0
640.0
620.0
590.0
550.0
530.0
500.0
480.0
460.0
430.0
410.0
390.0
370.0
350.0
340.0
320.0
305.0
290.0
275.0
185.0
175.0
165.0
155.0
145.0
137.0
133.0
126.0
120.0
113.0
105.0
100.0
5
45.0
50.0
25.2
M20L
1.2
1.5
1.8
55.0
60.0
65.0
2.2
2.7
3.3
7.96
3.9
4.7
70.0
5.6
6.8
75.0
80.0
65.0
8.2
10.0
12.0
15.0
18.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
100.0
120.0
150.0
180.0
220.0
270.0
330.0
390.0
470.0
560.0
680.0
820.0
1000.0
50.0
7.2
55.0
6.3
2.52
50.0
45.0
6.3
6.3
M10L
6.2
40.0
5.7
35.0
30.0
55.0
45.0
50.0
55.0
5.3
4.8
3.8
3.5
3.3
3.0
2.8
65.0
60.0
2.6
0.796
2.4
2.25
2.10
1.95
1.85
1.40
55.0
50.0
形名のZにはリード加工形状記号が入ります。
Z Please specify the Lead configuration code.
303
特性図ꢀELECTRICAL CHARACTERISTICS
流重 量特性例ꢀDC Bias characteristicsfMeasured by HP4262Ag
温度特性例ꢀTemperature characteristicsfMeasured by HP4342Ag
304
特性図ꢀELECTRICAL CHARACTERISTICS
Q-周 波数特性例ꢀQ-CharacteristicsfMeasured by HP4342Ag
5
305
梱包ꢀPACKAGING
最小受注単位数 Minimum Quantity
1アキシャルリードの横テーピングꢀTaping for Straight Leads
ꢀNA形状
リード加工記号
標準数量fpcs.g
Standard quantity
2,000
Type
Lead Configuration code
LAL02
LAP02
LAN02
LAL03
LAL04
TB
TA
2,000
TA
2,000
TAYTB
TB
2,000
2,500
寸ꢀ法
最小挿入ピッチ
Minimum
insertion
pitch
Type
Dimensions
BD
L
Bd
b
2.3max
3.4max 0.50M0.05 24M2.0
5.0
LAL02
LAL03
LAL04
f0.091maxg f0.134maxg f0.020M0.002g f0.945M0.079g f0.197g
J0.1
K0.2
2.6
7.0max 0.50M0.05 22M2.0
10.0
f0.102JKꢀ00..ꢀ000084 g f0.276maxg f0.020M0.002g f0.866M0.079g f0.394g
2アキシャルリードの縦テーピングꢀTaping for Formed Leads
リード加工記号
Lead Configuration code
VD
標準数量fpcs.g
Standard quantity
2,000
4.0max
9.8max 0.65M0.05 20M2.0
12.5
Type
f0.157maxg f0.386maxg f0.026M0.002g f0.787M0.079g f0.492g
LAL02
UnitDmmfinchg
ꢀKR/KH/KB形状
3バルクf袋づめg Bulk
リード加工記号
標準数量fpcs.g
Type
Lead Configuration code
Standard quantity
リード加工
形状記号
寸ꢀ法
LAL02
LAP02
LAN02
LAL03
LAL04
NA
KR
500
2,000
500
Type
Dimensions
Lead configuration
code
BD
F
Bd
b
KR
2.3max
5.0M0.5 0.45M0.05 7.0M1.0
LAP02
LAN02
KR
KR
NAYKH
NAYKB
500
f0.091maxg f0.197M0.020g f0.018M0.002g f0.276M0.039g
500
2.4max
5.0M0.5 0.45M0.05 7.0M1.0
f0.094maxg f0.197M0.020g f0.018M0.002g f0.276M0.039g
J0.1
K0.2
2.6
10.0M0.50 0.50M0.05 6.5M0.5
LAL03
LAL04
KH
KB
f0.102JK00..000048 g f0.394M0.020g f0.020M0.002g f0.256M0.020g
4.0max 12.5M1.02 0.65M0.05 6.0M0.5
f0.157maxg f0.492M0.039g f0.026M0.002g f0.236M0.020g
UnitDmmfinchg
306
梱包ꢀPACKAGING
TA faD26mm lead spaceg形状
TB faD52mm lead spaceg形状
(1.02 inch)
(2.05 inches)
5
寸ꢀ法
最小挿入
ピッチ
Minimum
insertion
pitch
寸ꢀ法
最小挿入
ピッチ
Minimum
insertion
pitch
Dimensions
Dimensions
Type
Type
BD
L
a
b
|L1-L2|
Bd
BD
L
a
b
|L1-L2|
Bd
J0.5
K0
J2
26
52
K1
2.3max 3.4max
0.8max 0.5max 0.45M0.05
5.0
2.3max 13.4max
1.2max 1.0max 0.5M0.05
15.0
LAP02
LAN02
LAL03
LAL02
LAL03
LAL04
f0.091maxg f0.134maxg
f0.031maxg f0.020maxg f0.018M0.002g
f0.197g
f0.091maxg f0.134maxg
f0.047maxg f0.039maxg f0.020M0.002g
f0.197g
f1.02KJꢀ00.0ꢀ20g
f2.05JKꢀ00..00ꢀ7399 g
J0.1
2.6
J0.5
K0
J2
52
26
K0.2
K1
2.4max 3.6max
0.8max 0.5max 0.45M0.05
5.0
17.0max
1.2max 1.0max 0.5M0.05
10.0
J0.020
f0.094maxg f0.142maxg f1.02Kꢀ0 ꢀg f0.031maxg f0.020maxg f0.018M0.002g
f0.197g
f0.276maxg
f0.047maxg f0.039maxg f0.020M0.002g
f0.394g
f0.102JKꢀ00..00ꢀ0048 g
f2.05JKꢀ00..00ꢀ7399 g
J0.1
K0.2
J1
K0.5
J2
K1
2.6
26
52
7.0max
0.8max 1.0max 40.5M0.05
10.0
4.0max 19.8max
1.2max 1.0max 0.65M0.05
12.5
f0.276maxg
f0.031maxg f0.039maxg f0.020M0.002g
f0.394g
f0.157maxg
f0.386g
f0.047maxg f0.039maxg f0.026M0.002g
f0.492g
f0.102Kꢀ0.0ꢀ08 g
f1.02Kꢀ0ꢀ.020g
f2.05JKꢀ00..00ꢀ7399 g
J0.004
J0.039
UnitDmmfinchg
UnitDmmfinchg
307
梱包ꢀPACKAGING
VD形状
記号
寸ꢀꢀꢀ法
記号
寸ꢀꢀꢀ法
Type
Symbol
Dimensions
Symbol
Dimensions
J1.0
18.0
K0.5
.0
3.9max
A
BD
H
W
W0
W1
J0.039
f0.709 ꢀꢀꢀg
K0.020
f0.154maxg
2.3max
12.5min
f0.091maxg
f0.492ming
J0.75
9.0
K0.5
.0
19.5M0.5
J0.030
f0.354 ꢀꢀꢀg
K0.020
f0.768M0.020g
12.7M1.0
f0.500M0.039g
12.7M0.3
3.0max
f0.118maxg
2.0max
P
P0
P1
P2
F
W2
LAL02
b
f0.500M0.012g
3.85M0.7
f0.079maxg
f0.152M0.028g
6.35M0.5
0.4.0M0.30
BD0
f0.157M0.012g
f0.250M0.020g
5.08M0.5
0.50M0.05
f0.020M0.002g
11.0max
Bd
L
f0.200M0.020g
5.00M1.0
Qh
K
f0M0.039g
f0.433maxg
0.5M0.2
K
t
f0.020M0.008g
UnitDmmfinchg
308
1/9
RELIABILITY DATAꢀ
Specified Value
Item
Test Method and Remarks
LA02 Type/
LA03 Type
FL05
Type
□
FL06BT
Type
LA04 Type
LA05 Type
LHL□□□
FBA/FBR
LAV35
K25VJ105C
K25VJ85C
K25VJ105C
LAYFLD
1.Operating temperature
Range
Including self-generated heat
LHL□□□D
Including self-generated heat
[LHL□□□]
5
K40VJ85C
2.Storage temperature
Range
Within the specified tolerance
3.Rated current
LAD
The maximum DC value having inductance within 10% and
temperature incease within 20℃ by the application of DC bias.
LHL□□□YLAV35D
The maximum DC value having inductance decrease within
10% and temperature incease within the following speci-
fied temperature by the application of DC bias.
Reference temperatureD20CfLHL06, LAV35g
D25CfLHL08, LHL10, LHL13g
D30CfLHLC06, LHLZ06, LHL16,
LHLP□□g
FBD
No disconnection or appearance abnormaliry by continuous
current application for 30 min. Chage after the application shall
be within ±20% of the initial value.This is not guaranteed for
electrial characteristics during current application.
FLD
The maximum DC value having temperature rise within
specified value.
Within the
specified
tolerance
Refer to
FBD
4.Impedance
individual Measuring equipmentDImpedance analyzer fHP4191Agor
specifica-
tion
its equivalent
Measuring frequencyDSpecified frequency
FL06BTD
Measuring equipmentD4291A fHPg or its equivalent
Measuring frequencyDSpecified frequency
LAD
5. Inductance
Within the specified tolerance
Within the specified toler-
ance
Measuring equipmentDLCR meterfHP4285A + HP42851A or
its equivalentg
Measuring frequencyDSpecified frequency
LHL□□□D
Measuring equipmentDQ meterfHP4285AJHP42851A or
its equivalentg
LCR meterf HP4262Ag or its
equivalentfat 1KHzg
Measuring frequencyDSpecified frequency
LAV35D
Measuring equipmentDQ meterfHP4285AJHP42851A or
its equivalentg
Measuring frequencyDSpecified frequency
FL05R□D
Measuring equipmentDHP4262A or its equivalent.
Measuring frequencyD1kHz
339
2/9
RELIABILITY DATAꢀ
Specified Value
Item
Test Method and Remarks
FL05
Type
□
FL06BT
Type
LA02 Type/
LA03 Type
LA04 Type
LA05 Type
LHL□□□
FBA/FBR
LAV35
Within the specified tolerance
Within the
specified
tolerance
6.Q
LAD
Measuring equipmentDLCR meterfHP4285AJHP42851A
or its equivalentg
Measuring frequencyDSpecified frequency
LHL□□□YLAV35fexcept LHLPgD
Measuring equipmentDQ meterfHP4285AJHP42851A or
its equivalentg
5
Q meterfHP4342Agor its equivalent
Measuring frequencyDSpecified frequency
LAD
Within the specified tolerance
Within the specified tolerance
△L/LDWithinM5L
7.DC Resisitance
Measuring equipmentDlow ohmmeter fA&D AD5812 or its
equivalentg
LHL□□□YFBYLAV35YFLD
Measuring equipmentDDC ohmmetr
LAD
Within the
specified
tolerance
8.Self resonance frequency
Measuring equipmentDNetwork analyzerfAnritsu MS620J
or its equivalentg
LHL□□□YLAV35fexcept LHLPgD
Measuring equipmentDfHP4191A, 4192Ag its equivalent
LAD
△L/LD
△L/LD
9.Temperature characteristic
WithinM7L
WithinM5L
Change of maximum inductance deviation in step 1to5
step
1
TemperaturefCg
20
2
K25 fMinimum operating temperatureg
3
20 fStandard temperatureg
4
J85 fMaximum operating temperatureg
5
20
LHLYLAV35D
[LHL□□□, LAV35]
Change of maximum inductance deviation in step 1to5
Temperature at step 1D20C
Temperature at step 2DMinimum operating temperature
Temperature at step 3D20C fStandard temperatureg
Temperature at step 4DMaximum operating temperature
Temperature at step 5D20C
341
3/9
RELIABILITY DATAꢀ
Specified Value
Item
Test Method and Remarks
LA02 Type/
LA03 Type
FL05
Type
□
FL06BT
Type
LA04 Type
LA05 Type
LHL□□□
FBA/FBR
LAV35
No abnormality such as cut lead
,
or looseness.
No abnormality such as cut
mality such lead,or looseness.
as cut lead
LAD
10.Terminal strengthD
No abnor-
Apply the stated tensile force progressively in the direction
to draw terminal.
tensile force
,
force(N)
25
durationfSg
or loose-
ness.
5
LHL□□□YLAVD
5
Apply the stated tensile force progressively in the direction
to draw terminal.
Nominal wire
force
diameter tensile
durationfSg
30M5
fNg
Bdfmmg
0.3<BdT0.5
0.5<BdT0.8
0.8<BdT1.2
5
10
25
FBAD
A bead shall be fixed and static loaded 20M1Nf2.0M0.1 kgfg
in axial direction of lead wire in 10M1 seconds.
FL05R□D
Fix the component in the direction to draw terminal,and
gradually apply the tensile force of 4.9 N.
LHL□□□D
11.Over current
There shall
be no scorch
or short of
wire.
Measuring currentDRated currentP2
DurationD5min.
Number of measuringDone time
LAD
No abnormality such as cut lead, or looseness.
12.Terminal strengthD
Suspend a mass at the end the terminal,incline the body
though angel of 90 and return it to initial position.This op-
eration is done over a period of 2-3 sec.Then second bend
in the opposite direction shall be made.
Number of bendsDTwo times.
bending
Nominal wire
Bending
Mass reference
diameter tensile
force
weight
Bdfmmg
fNg
fkgg
0.3<BdT0.5
2.5
5
0.25
0.50
0.5<BdT0.8
LHYFBYLAVD
Suspend a mass at the end the terminal,incline the body
though angel of 90 and return it to initial position.This op-
eration is done over a period of 2-3 sec.Then second bend
in the opposite direction shall be made.
Number of bendsDTwo times.
Nominal wire
diameter tensile
Bdfmmg
Bending
force
fNg
Mass reference
weight
fkgg
0.3<BdT0.5
0.5<BdT0.8
0.8<BdT1.2
2.5
5
0.25
0.5
10
1.0
LHL□□□D
13.Insulation resisitanceD
between the terminals
and body
100MΩmin.
Applied voltageD500 VDC
DurationD60 sec.
FBAYFBRD
14.Insulation resistanceD
between terminals and
core
1MΩmin.
Applied voltageD100 VDC
DurationD60M5 sec.
fOther than
m a t e r a i l
code MAg
〔LHL□□□〕
15.WithstandingDbetween
No abnor-
mality such
as insula-
tion dam-
age
Accoding to JIS C5102. 7. 1. 3 fCg
Metal global method
the terminals and body
Applied voltageD500 VDC
DurationD60 sec.
343
4/9
RELIABILITY DATAꢀ
Specified Value
Item
Test Method and Remarks
LA02 Type/
LA03 Type
FL05
Type
□
FL06BT
Type
LA04 Type
LA05 Type
LHL□□□
FBA/FBR
LAV35
△L/LDWithin K10L
LAYLAV35D
16.DC bias characteristic
17.Body strength
△L/LD
K10L
Within
Measure inductance with appliation of rated current using
LCR meter to compare it with the initial value.
LA02YLAV35D
No abnormality as damage.
No signifi- No abnor-
cant dam- mality as
age such as damage.
cracks on
Applied forceD30N
DurationD10 sec.
5
SpeedDShall attain to specified force in 2 sec.
body.
LA03YLA04YLA05D
Applied forceD50N
DurationD10 sec.
SpeedDShall attain to specified force in 2 sec.
FBD
Applied forceD50M3N
DurationD30M1 sec.
△L/LD
△L/LD
△L/LD
LAD
18.Resisitance to vibration
AppearanceD AppearanceD △L/LD
No No WithinM5L
abnomality abnomality QD30min.
△L/LD Impedance
WithinM5L WithinM5L WithinM5L
Accoding to JIS C5102 8. 2
QD30min.
△Q/QD
QD15min.
Vibaration typeDA
WithinM10L
DirectionsD2 hrs each in X, Y and Z directions totalD6hrs.
Frequency rangeD10 to 55 to 10Hzf1min.g
AmplitudeD1.5mm
WithinM5L changeD
Q changeD WithinM20L
WithinM30L
Mounting methodDSoldering onto printed board.
RecoveryDAt least 1hr of recovery under the standard
condition after the test, followed by the mea-
surement within 2hrs.
fLHLPD
only △L/Lg
LHL□□□YFBYLAVD
Accoding to JIS C0040
Vibaration typeDA
DirectionsD2 hrs each in X, Y and Z directions totalD6hrs.
Frequency rangeD10 to 55 to 10Hzf1min.g
AmplitudeD1.5mm fBut don't exceed acceleration 196m/s
ftwo powerg
Mounting methodDSoldering onto printed board.
345
5/9
RELIABILITY DATAꢀ
Specified Value
Item
Test Method and Remarks
LA02 Type/
LA03 Type
FL05
Type
□
FL06BT
Type
LA04 Type
LA05 Type
LHL□□□
FBA/FBR
LAV35
19.Resistance to shock
No significant abnormality in appearance
No signifi-
cant abnor-
mality in ap-
pearance
LAYLAV35D
Drop test
Impact materialDconcrete or vinyl tile
HeightD1m
Total number of dropsD10 times
LAD
20.Solderability
At least 75L of terminal electrode is A t l e a s t A t l e a s t
At least 75L of lead circu, ference is
5
coverd by new solder.
Solder temperatureD230M5C
DurationD2M0.5 sec.
75L of lead 90L of lead
covered by new solder.
c
i
r
c
u
,
c i r c u ,
ference is ference is
covered by covered by
new solder. new solder.
LHL□□□D
Solder temperatureD235M5C
DurationD2M0.5 sec.
Immersion depthDUp to 1.5mm from bottom of kinked part.
[LHL06, LHLC06, LHLZ06]
DUp to 1.5mm from bottom of case.
[LHL08, LHL10, LHL13, LHL16]
FBD
Solder temperatureD230M5C
DurationD3M1 sec.
Immersion depthDUp to 1.5mm from terminal root.
LAV35D
Solder temperatureD230M5C
DurationD2M0.5 sec.
FL05R□D
Solder temperatureD230M5C
DurationD2M0.5 sec.
Immersion depthDUp to 2V2.5mm from terminal root.
FL06BTD
Solder temperatureD230M5C
DurationD3M1 sec.
Immersion depthDUp to 0.5V1.0mm from terminal root.
347
6/9
RELIABILITY DATAꢀ
Specified Value
Item
Test Method and Remarks
LA02 Type/
LA03 Type
FL05
Type
□
FL06BT
Type
LA04 Type
LA05 Type
LHL□□□
FBA/FBR
LAV35
21.Resisitance to soldering
heat
No significant abnormality △L/LD
in appearance
No signifi- No signifi- △L/LD
Refer to
No signifi- LAD
Within M5L cant abnor- cant abnor- WithinM5L individual cant abnor- Solder temperatureD260M5CfLA02g
QD15min. mality in ap- mality in ap- QD30min. specifica- mality in ap- 270M5CfLA03YLA04YLA05g
DurationD5M0.5 sec.ꢀOne time
pearance
pearance
tion
pearance
Inductance Impedance
Impedance Immersed conditions
DInserted into substrate witht= 1.6mm
changeD
WithinM5L
Q changeD
WithinM30L
fLHLPD
change
D
change:
RecoveryDAt least 1hr of recovery under the standard
condition after the test, followed by the mea-
surement within 2hrs.
5
WithinM20L
WithinM20L
LHL□□□D
Solder bath method
only △L/Lg
Solder temperatureD260M5C
DurationD10M1 sec.
DUp to 1.5mm from bottom of kinked part.
[LHL06, LHLC06, LHLZ06]
DUp to 1.5mm from bottom of case.
[LHL08, LHL10, LHL13, LHL16, LHLP□□]
Manual soldering
Solder temperatureD350M10CfAt the tip of soldering irong
DurationD5M1 sec.
DUp to 1.5mm from bottom of kinked part.
[LHL06, LHLC06, LHLZ06]
DUp to 1.5mm from bottom of case.
[LHL08, LHL10, LHL13, LHL16, LHLP□□]
CautionDNo excessive pressing shall be applied to terminald
RecoveryD4 to 24hrs of recovery under the standard con-
dition after the tset.
FBD
Solder bath method
Condition 1
Solder temperatureD260M5C
DurationD10M1 sec.
Immersion depthDUp to 1.5mm from terminal root.
Condition 2
Solder temperatureD350M5C
DurationD3M1 sec.
Immersion depthDUp to 1.5mm from terminal root.
RecoveryD3hrs of recovery under the standard condition
after the test.
LAV35D
Solder temperatureD260M5C
DurationD5M0.5 sec.
Immersion depthDUp to 2.0 to 2.5mm from botoom of
kinked part.
RecoveryD4 to 24hrs of recovery under the standard con-
dition after the tset.
FLD
Solder conditionD260M5Cꢀ10M1 sec.
Immersion depthDUp to 0.5 to 1.0mm from terminal root.
RecoveryD3hrs of recovery under the standard condition
after the test.
349
7/9
RELIABILITY DATAꢀ
Specified Value
Item
Test Method and Remarks
FL05
Type
□
FL06BT
Type
LA02 Type/
LA03 Type
LA04 Type
LA05 Type
LHL□□□
FBA/FBR
LAV35
Pleasa avoid the ultrasonic cleaning of
this product.
No signifi- P l e a s e
cant abnor- avoid the ul-
mality in ap- t r a s o n i c
FBD
22.Resisitance to solvent
Solvent temperatureD20V25C
DurationD30M5 sec.
pearance
cleaning of
Solvent typeDAcetone, trichloroethylene
Impedance this product.
changeD
RecoveryD3hrs of recovery under the standard condition
after the test.
5
WithinM20L
△L/LD
WithinM10L WithinM10L WithinM10L No abnor- No abnor- WithinM10L
QD30min. △Q/QD QD15min. mality mality QD20min. specifica- mality
WithinM30L
Inductance Impedance
changeD changeD
△L/LD
△L/LD
AppearanceD AppearanceD △L/LD
Refer to
AppearanceD LAD
23.Thermnal shock
individual No abnor- Conditions for 1cycle
Step
Temperature
f
Cg
Durationfming
J0
K3
tion
Impedance
changeD
1
2
3
4
K25
30M3
Within 3
30M3
Room temperature
J2
K0
WithinM10L WithinM20L
Q changeD
WithinM20L
J85
Room temperature
Within 3
WithinM30L
Number of cyclesD5 cycles
fLHLPD
RecoveryDAt least 1hr of recovery under the standard
condition after the removal from test chamber,
followed by the measurement within 2hrs.
only △L/Lg
LHL□□□D
Accoding to JIS C0025
Conditions for 1 cycle
Step
Temperature
f
Cg
Durationfming
Minimum operating
1
2
3
4
30M3
Within 3
30M3
J0
temperature
K3
Room temperature
Maximum oparating
J2
temperature
K0
Room temperature
Within 3
Number of cyclesD10 cycles
〔LHL□□□〕
D5 cycles FBA, FBR
4 to 24hrs of recovery under the standard con-
f
g
Recovery
D
dition after the removal from the test cfamber.
〔LHL□□□〕
D3hrs of recovery under the standard condition af-
ter the removal from the test cfamber.fFBA, FBRg
LAVD
Conditions for 1 cycle
Step
Temperature
f
Cg
Durationfming
Minimum operating
1
2
3
4
30M3
Within 3
30M3
J0
K3
temperature
Room temperature
Maximum oparating
J2
K0
temperature
Room temperature
Within 3
Number of cyclesD10 cycles
RecoveryDAt least 1hr of recovery under the standard
condition after the removal from test chamber,
followed by the measurement within 2hrs.
FLD
Accoding to JIS C0025
Conditions for 1 cycle
Step
Temperature
f
Cg
Durationfming
J0
1
2
3
4
K25
30M3
Within 3
30M3
K3
Room temperature
J2
K0
J85
Room temperature
Within 3
Number of cyclesD10 cycles
RecoveryD1 to 2hrs of recovery under the standard con-
dition after the removal from the test cfamber.
351
8/9
RELIABILITY DATAꢀ
Specified Value
Item
Test Method and Remarks
LA02 Type/
LA03 Type
FL05
Type
□
FL06BT
Type
LA04 Type
LA05 Type
LHL□□□
FBA/FBR
LAV35
△L/LD
△L/LD
△L/LD
AppearanceD △L/LD
LAYLAV35D
TemperatureD40M2C
HumidityD90 95LRH
DurationD1000 hrs
24.Damp heat
WithinM10L WithinM10L WithinM10L
QD30min. △Q/QD QD15min.
WithinM30L
No abnor- WithinM10L
mality
QD20min.
V
Impedance
changeD
WithinM20L
RecoveryDAt least 1hr of recovery under the standard re-
moval from test chamber, followed by the mea-
surement within 2hrs.
5
FBD
TemperatureD60M2C
HumidityD90V95LRH
DurationD1000 hrs
RecoveryD1 to 2hrs of recovery under the standard con-
dition after the removal from the test cfamber.
△L/LD
△L/LD
△L/LD
AppearanceD
△L/LD
Refer to
AppearanceD LAYLAV35D
25.Loading under damp heat
WithinM10L WithinM10L WithinM10L No abnor-
WithinM10L individual No abnor- TemperatureD40M2C
QD20min. specifica- mality HumidityD90V95LRH
tion Impedance DurationD1000 hrs
QD30min. △Q/QD
WithinM30L
QD15min.
mality
Imductance
changeD
WithinM10L
Q changeD
WithinM30L
fLHLPD
changeD
Applied currentDRated current
WithinM20L RecoveryDAt least 1hr of recovery under the standard re-
moval from test chamber, followed by the mea-
surement within 2hrs.
only △L/Lg
LHL□□□D
TemperatureD40M2C
HumidityD90V95LRH
DurationD1000M24 hrs
Applied currentDRated current
RecoveryD1 to 2hrs of recovery under the standard con-
dition after the removal from the test cfamber.
FLD
TemperatureD60M3C
HumidityD90V95LRH
DurationD500 fJ12, K0ghrs
Applied currentDRated current
RecoveryD1 to 2hrs of recovery under the standard con-
dition after the removal from the test cfamber.
LAYLAV35D
△L/LD
WithinM10L WithinM10L WithinM10L
QD30min. △Q/QD QD15min.
WithinM30L
△L/LD
△L/LD
△L/LD
26.Loading at high tempera-
ture
WithinM10L
QD20min.
TemperatureD85M2C
DurationD1000 hrs
Applied currentDRated current
RecoveryDAt least 1hr of recovery under the standard re-
moval from test chamber, followed by the mea-
surement within 2hrs.
353
9/9
RELIABILITY DATAꢀ
Specified Value
Item
Test Method and Remarks
LA02 Type/
LA03 Type
FL05
Type
□
FL06BT
Type
LA04 Type
LA05 Type
LHL□□□
FBA/FBR
LAV35
△L/LD
△L/LD
△L/LD
AppearanceD
△L/LD
Refer to
AppearanceD LAD
27.Low temperature life test
WithinM10L WithinM10L WithinM10L No abnor-
WithinM10L individual No abnor- TemperatureDK25M2C
QD20min. specifica- mality DurationD1000 hrs
Impedance RecoveryDAt least 1hr of recovery under the standard re-
QD30min. △Q/QD
WithinM30L
QD15min.
mality
Inductance
tion
change
D
changeD
moval from test chamber, followed by the mea-
surement within 2hrs.
WithinM10L
Q changeD
WithinM30L
fLHLPD
WithinM20L
5
LHL□□□D
TemperatureDK40M3C
only △L/Lg
DurationD1000M24 hrs
RecoveryD1 to 2hrs of recovery under the standard con-
dition after the removal from the test cfamber.
LAV35D
TemperatureDK40M3C
DurationD1000 hrs
RecoveryDAt least 1hr of recovery under the standard re-
moval from test chamber, followed by the mea-
surement within 2hrs.
FLD
TemperatureDK40M3C
DurationD500fJ12, K0ghrs
RecoveryD1 to 2hrs of recovery under the standard con-
dition after the removal from the test cfamber.
AppearanceD
No abnor-
mality
Refer to
AppearanceD LHL□□□D
28.High temperature life test
individual No abnor- TemperatureD105M3C
specifica- mality DurationD1000M24 hrs
tion Impedance RecoveryD1 to 2hrs of recovery under the standard con-
Inductance
changeD
changeD
dition after the removal from the test cfamber.
WithinM10L
Q changeD
WithinM30L
WithinM20L
FLD
TemperatureD85M3C
DurationD500fJ12, K0ghrs
RecoveryD1 to 2hrs of recovery under the standard con-
dition after the removal from the test cfamber.
355
PRECAUTIONS
LA Type,LH Type,FB Type,FL Type
Stages
Precautions
Technical considerations
1.Circuit Design
Operating environment,
1.The products described in this specification are intended for
use in general electronic equipment,(office supply
equipment, telecommunications systems, measuring
equipment, and household equipment). They are not
intended for use in mission-critical equipment or systems
requiring special quality and high reliability (traffic systems,
safety equipment, aerospace systems, nuclear control
systems and medical equipment including life-support
systems,) where product failure might result in loss of life,
injury or damage. For such uses, contact TAIYO YUDEN
Sales Department in advance.
5
2.PCB Design
Design
1.When Inductors are mounted onto a PC board, hole dimensions on the board should
match the lead pitch of the component, if not, it will cause breakage of the terminals or
cracking of terminal roots covered with resin as excess stress travels through the
terminal legs.
1.Please design insertion pitches of a base in the pitches that
fitted a terminal interval.
3.Considerations for
automatic placement
Adjustment of mounting machine
1.Excessive impact load should not be imposed on the
products when mounting onto the PC boards.
2.Mounting and soldering conditions should be checked
beforehand.
1. When installing products, care should be taken not to apply distortion stress as it may
deform the products.
4.Soldering
Wave soldering
1.Please refer to the specifications in the catalog for a wave
soldering.
2.Do not immerse the entire Inductors in the flux during the
soldering operation.
Lead free soldering
1.When using products with lead free soldering, we request to
use them after confirming of adhesion, temperature of
resistance to soldering heat, soldering etc sufficiently.
Recommended conditions for using a soldering iron:
Put the soldering iron on the land-pattern.
Soldering iron's temperature - Below 350 ℃
Duration - 3 seconds or less
1.If products are used beyond the range of the recommended conditions, heat stresses
may deform the products, and consequently degrade the reliability of the products.
The soldering iron should not directly touch the inductor.
Cleaning conditions
5.Cleaning
6.Handling
1.LA type, LH type
LA type, LH type
Please do not do cleaning by a supersonic wave.
Handling
1.If washing by supersonic waves, supersonic waves may deform products.
1.Keep the inductors away from all magnets and magnetic
objects.
1.There is a case that a characteristic varies with magnetic influence.
1.There is a case to be damaged by a mechanical shock.
Mechanical considerations
1.Please do not give the inductors any excessive mechanical
shocks.
2.LH type
2.LH type
If inductors are dropped onto the floor or a hard surface they
should not be used.
There is a case to be broken by a fall.
Packing
1.Please do not give the inductors any excessive mechanical
shocks.
1.There is a case that a lead route turns at by a fall or an excessive shock.
In loading, please pay attention to handling indication
mentioned in a packing box (a loading direction / number of
maximum loading / fragile item).
7.Storage conditions
Storage
Storage
1. Under a high temperature and humidity environment, problems such as reduced
1.To maintain the solderability of terminal electrodes and to
keep the packing material in good condition, temperature
and humidity in the storage area should be controlled..
・Recommended conditions
solderability caused by oxidation of terminal electrodes and deterioration
of taping/packaging materials may take place.
Ambient temperatureꢀꢀꢀꢀꢀ 0~40℃
Humidity
Below 70 % RH
The ambient temperature must be kept below 30℃. Even
under ideal storage conditions, solderability of products
electrodes may decrease as time passes. For this reason,
inductors should be used within one year from the time of
delivery.
In case of storage over
6 months, solderability shall be
checked before actual usage.
357
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