LQH4N100J04 [MURATA]
General Purpose Inductor, 10uH, 5%, 1 Element, Ferrite-Core, SMD;型号: | LQH4N100J04 |
厂家: | muRata |
描述: | General Purpose Inductor, 10uH, 5%, 1 Element, Ferrite-Core, SMD |
文件: | 总4页 (文件大小:126K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
SURFACE MOUNT INDUCTORS
CHIP INDUCTORS
LQH1N/3N/4N Series
The chip coil LQH/LQN Series comprises subminiature chip
inductors wound on a special ferrite core made possible by an
automatic winding technique developed by Murata Electronics.
These inductors have a high Q at high frequencies and
low DC resistance, making them suited for enhancing the
performance of electronic circuits in video, communications
and audio equipment.
LQH1N
The sub-miniature dimensions (3.2 x 1.6 x 1.8mm) allow
parallel mounting on 2.5mm centers. This series is suitable
for portable audio-visual equipment.
LQH3N
High Q value makes the series suitable for circuits up to100MHz
in frequency. This series is excellent for video equipment.
LQH(N)4N
This series is available with high inductance values and high
current capacity. At 10ꢀH, up to 450mA designs are possible,
resulting in excellent performance when the series is used as
a choke coil.
PART NUMBERING SYSTEM
LQH
3
N
101
K
34
M00
TYPE
LQH: Epoxy coating
on winding
SIZE
APPLICATION
N: General Use
INDUCTANCE CODE
R22: 0.22ꢀH
2R2: 2.2ꢀH
TOLERANCE
J: 5%
K: 10%
M: 20%
ELECTRODE
UNMARKED
1: 3.2 x 1.6mm (1206ꢀ
3: 3.2 x 2.5mm (1210ꢀ
4: 4.5 x 3.2mm (1812ꢀ
MATERIAL
04/34: Nickel &
Solder
220: 22ꢀH
221: 220ꢀH
102: 1000ꢀH
SPECIFICATIONS
Inductance
Q
Self-
DC
Allowable Operating
resonant
Frequency
(MHz min.)
Measurement Nominal Measurement
Dimensions: mm
Part Number
Nominal
Resistance
(Ohms)
Current
(mA)
Temp.
Range
Tolerance
(%)
Frequency
(MHz)
Value
(min.)
Frequency
(MHz)
Value (ꢀH)
ꢀ
LQH1NR15M(K)04
LQH1NR22M(K)04
LQH1NR33M(K)04
LQH1NR47M(K)04
LQH1NR56M(K)04
LQH1NR68M(K)04
LQH1NR82M(K)04
LQH1N1R0M(K)04
LQH1N1R2M(K)04
LQH1N1R5(K.J)04
LQH1N1R8(K.J)04
LQH1N2R2(K.J)04
LQH1N2R7(K.J)04
LQH1N3R3(K.J)04
LQH1N3R9(K.J)04
LQH1N4R7(K.J)04
LQH1N5R6(K.J)04
LQH1N6R8(K.J)04
LQH1N8R2(K.J)04
LQH1N100K(J)04
LQH1N120K(J)04
LQH1N150K(J)04
LQH1N180K(J)04
LQH1N220K(J)04
LQH1N270K(J)04
LQH1N330K(J)04
LQH1N390K(J)04
LQH1N470K(J)04
LQH1N560K(J)04
LQH1N680K(J)04
LQH1N820K(J)04
LQH1N101K(J)04
0.15
0.39 40% 250 250
________________________
_______________________
_
___
20
1206
ꢀ
0.22
0.43 40% 250 240
________________________
_______________________
_
___
______
_
ꢀ
0.33
0.45 40% 250 230
________________________
_______________________
_
___
ꢀ
0.47
25
0.83 40% 200 215
________________________
_______________________
_
___
ꢀ
20
( 10ꢀ
ꢀ
0.56
30
0.61 40% 180 200
________________________
_______________________
_
___
ꢀ
0.68
0.67 40% 160 190
________________________
_______________________
_
___
ꢀ
0.82
0.73 40% 120 185
________________________________________
_______________________
_
_
___
___
ꢀ
1.0
0.49 30% 100 175
________________________
_______________________
ꢀ
1.2
0.9 30% 90 165
________________________
_______________________
_
_____________
___
___
ꢀ
1.5
1.0 30% 75 155
________________________
_______________________
_
10
ꢀ
1.8
1.6 30% 60 150
________________________
_______________________
_
ꢀ
10
( 5ꢀ
ꢀ
2.2
0.7 30% 50 140
________________________
2.3 0.2
1.6 0.2
_______________________
_
___
ꢀ
2.7
0.55 30% 43 135
__________________________________
_____________________________________________
ꢀ
3.3
1.4 30% 38 130
________________________
_______________________
_
___
___
___
___
___
ꢀ
3.9
1.5 30% 35 125
________________________
_______________________
_
–25°C
~
+85°C
35
ꢀ
ꢀ
4.7
10
( 5ꢀ
1.7 30% 31 120
________________________
_______________________
_
3.2 0.3
8
ꢀ
5.6
1
1.8 30% 28 115
________________________
_______________________
_
ꢀ
6.8
2.0 30% 25 110
________________________
_______________________
_
ꢀ
8.2
2.2 30% 23 105
__________________________________
_______________________
_
_
_
_
_
_
_
_
_
_
_
_
_
_____________
ꢀ
10
12
15
18
22
27
33
39
47
56
68
82
2.5 30% 20 100
________________________
_______________________
___
___
___
___
___
ꢀ
ꢀ
2.7 30% 18 95
________________________
0.7 0.7 0.7
min. min. min.
_______________________
5
ꢀ
3.0 30% 16 90
________________________
_______________________
ꢀ
3.4 30% 15 85
________________________________________
_______________________
ꢀ
3.1 30% 14 85
________________________
_______________________
ꢀ
3.4 30% 13 85
________________________
_______________________
___
___
___
___
___
___
___
10
( 5ꢀ
ꢀ
3.8 30% 12 80
________________________
_______________________
ꢀ
7.2 30% 11 55
________________________
_______________________
ꢀ
40
2.5
8.0 30% 10 55
________________________
_______________________
ꢀ
8.9 30% 9.0 50
________________________
_______________________
ꢀ
9.9 30% 8.5 50
________________________
_______________________
ꢀ
11 30% 7.5 45
________________________
_______________________
ꢀ
100
12 30%
7.0
45
ꢀ
Available as standard through authorized Murata Electronics Distributors.
CG01-I REV. 1
227
SURFACE MOUNT INDUCTORS
CHIP INDUCTORS
LQH1N/3N/4N Se rie s
SPECIFICATIONS
Inductance
Q
DC
Self-
Allowable Operating
Resistance resonant
Measurement Nominal
Dimensions: mm
Part Number
Nominal
Value (H)
Current
(mA)
Temp.
Range
Tolerance
(%)
Measurement
Frequency
(Ohms)
max.
Frequency
(MHz min.)
Frequency
(MHz)
Value
(min.)
LQH3NR10M34
0.10
0.25 200
___________________7_0_0___
0.25 200 650
________________________
0.25 200
___________________6_0_0___
0.25 200 530
________________________
0.25 160
___________________5_3_0___
0.25 160
___________________4_7_0___
_______________________
_
___
20
1210
LQH3NR18M34
0.18
_______________________
_
___
_______
LQH3NR27M34
0.27
_______________________
_
___
25
LQH3NR39M34
0.39
25.2MHz
_______________________
_
___
_______
LQH3NR56M34
0.56
±20
_______________________
_
___
LQH3NR68M34
0.68
30
_______________________
_
___
LQH3NR82M34
0.82
120 450
___________________0_._25_____________________
_______________________
_
___
___
LQH3N1R0M34
1.0
0.5 100
___________________4_4_5___
0.6 100
___________________4_2_5___
0.6 75
___________________4_0_0___
0.7 60
___________________3_9_0___
0.8 50
___________________3_7_0___
0.9 43
___________________3_2_0___
1.0 38
___________________3_0_0___
1.1 35
___________________2_9_0___
1.2 31
___________________2_7_0___
1.3 28
___________________2_5_0___
1.5 25
___________________2_4_0___
1.6 225
___________2_3____________
1.8 20
___________________1_9_0___
2.0 18
___________________1_8_0___
2.2 16
___________________1_7_0___
2.5 15
___________________1_6_5___
2.8 14
___________________1_5_0___
3.1 125
___________1_3____________
3.5 12
___________________1_1_5___
3.9 11
___________________1_1_0___
4.3 11
___________________1_0_0___
4.9 10 85
________________________
5.5 9.0 80
________________________
_______________________
_
LQH3N1R2M34
1.2
_______________________
_
_____________
LQH3N1R5K(M)34
1.5
_______________________
_
___
___
___
___
LQH3N1R8K(M)34
1.8
_______________________
_
LQH3N2R2K(M)34
2.2
_______________________
_
LQH3N2R7K(M)34
2.7
20
_______________________
_
LQH3N3R3K(M)34
3.3
(±20)
_______________________
_
___
___
___
___
___
LQH3N3R9K(M)34
3.9
±10
_______________________
_
2.5 ± 0.2
2.5 ± 0.2
LQH3N4R7K(M)34
4.7
_______________________
_
LQH3N5R6K(M)34
5.6
_______________________
_
LQH3N6R8K(M)34
6.8
_______________________
_
LQH3N8R2K(M)34
8.2
1MHz
–25°C
~
_______________________
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_____________
_______
3.2 ± 0.3
LQH3N100J(K)34
10
1
_______________________
___
___
___
___
___
___
___
___
___
___
LQH3N120J(K)34
12
+85°C
_______________________
LQH3N150J(K)34
15
_______________________
35
LQH3N180J(K)34
18
_______________________
LQH3N220J(K)34
22
0.9 1.3 0.9
± 0.3 ± 0.2 ± 0.3
_______________________
LQH3N270J(K)34
27
_______________________
_______
LQH3N330J(K)34
33
_______________________
LQH3N390J(K)34
39
_______________________
LQH3N470J(K)34
47
_______________________
LQH3N560J(K)34
56
_______________________
LQH3N680J(K)34
68
(±10)
_______________________
___
LQH3N820J(K)34
82
±5
6.2 8.5
_____________________________7_0____
_______________________
___
___
___
___
___
___
___
___
___
___
LQH3N101J(K)34
100
40
7.0 8.0 80
________________________
8.0 7.5 75
________________________
9.3 7.0 70
________________________
6.0 65
___1_0._2___________________
5.5 65
___1_1._8___________________
5.0 65
___1_2._5___________________
5.0 65
__1_3_.0____________________
5.0 50
__2_2_.0____________________
_______________________
LQH3N121J(K)34
120
_______________________
LQH3N151J(K)34
150
_______________________
LQH3N181J(K)34
180
_______________________
LQH3N221J(K)34
220
_______________________
796kHz
LQH3N271J(K)34
270
_______________________
LQH3N331J(K)34
330
_______________________
_______
LQH3N391J(K)34
390
_______________________
__________
LQH3N471J(K)34
470
50
5.0 45
___2_5._0___________________
_______________________
1kHz
LQH3N561J(K)34
560
28.0
5.0
40
Available as standard through authorized Murata Electronics Distributors.
228
CG01-I
SURFACE MOUNT INDUCTORS
CHIP INDUCTORS
LQH1N/3N/4N Se rie s
SPECIFICATIONS
Inductance
Q
DC
Self-
Allowable Operating
Resistance resonant
Nominal
Value
(min.)
Dimensions: mm
Part Number
Nominal
Value (H)
Current
(mA)
Temp.
Range
Tolerance Measurement
(%)
Measurement
Frequency
(Ohms)
max.
Frequency
(MHz min.)
Frequency
LQH4N1R0M04
1.0
120
________
_______________________
_
___
___
___
___
___
___
___
0.20
________________
1812
LQH4N1R2M04
1.2
100
_______________________
_
LQH4N1R5M04
1.5
85
_______________________
_
___
_
_____
LQH4N1R8M04
1.8
0.30
75
_______________________
_
___
_
_____
±20
20
LQH4N2R2M04
2.2
62
________________
0.32 53
________________
0.35 47
________________
_______________________
_
500
LQH4N2R7M04
2.7
_______________________
_
LQH4N3R3M04
3.3
_______________________
_
LQH4N3R9M04
3.9
0.38 41
________________
0.40 38
________________
0.47 33
________________________
0.50 31
________________
0.56 27
________________________
0.56 23
___________________4_0_0___
0.62 21
___________________3_8_0___
0.73 19
___________________3_6_0___
0.82 17
___________________3_4_0___
0.94 15
___________________3_2_0___
1.1 14
___________________3_0_0___
1.2 12
___________________2_7_0___
1.4 11
___________________2_4_0___
1.5 10
___________________2_2_0___
1.7 9.3
___________________2_0_0___
_______________________
_
_____________
___
________
LQH4N4R7M(K)04
4.7
_______________________
_
±20
LQH4N5R6M(K)04
5.6
_______________________
_
___
30
(±10)
LQH4N6R8M(K)04
6.8
_______________________
_
___
450
LQH4N8R2M(K)04
8.2
_______________________
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_____________
________
1MHz
LQH4N100K(J)04
10
_______________________
___
___
___
___
___
___
___
___
___
___
___
___
___
LQH4N120K(J)04
12
_______________________
LQH4N150K(J)04
15
_______________________
1MHz
LQH4N180K(J)04
18
_______________________
LQH4N220K(J)04
22
3.6 ± 0.2
3.2 ± 0.2
_______________________
LQH4N270K(J)04
27
35
_______________________
LQH4N330K(J)04
33
–25°C
~
_______________________
LQH4N390K(J)04
39
_______________________
4.5 ± 0.3
LQH4N470K(J)04
47
+85°C
_______________________
3.2 ± 0.2
LQH4N560K(J)04
56
_______________________
LQH4N680K(J)04
68
1.9
8.4
_______________________
___________________1_8_0___
LQH4N820K(J)04
82
_______________________
___________________2_._2_______7_._5_____1_7_0___
LQH4N101K(J)04
100
2.5 6.8
___________________1_6_0___
3.0 6.2
___________________1_5_0___
3.7 5.5
___________________1_3_0___
4.5 5.0
___________________1_2_0___
5.4 4.5
___________________1_1_0___
6.8 4.0
___________________1_0_0___
8.2 3.6 95
________________________
9.7 3.3 90
________________________
_______________________
1.0
1.0
1.0
±10
min. min. min.
LQH4N121K(J)04
120
_______________________
___
(±5)
LQH4N151K(J)04
150
_______________________
___
___
___
___
___
___
___
___
___
___
___
___
___
___
LQH4N181K(J)04
180
_______________________
LQH4N221K(J)04
220
_______________________
LQH4N271K(J)04
270
796kHz
_______________________
LQH4N331K(J)04
330
_______________________
LQH4N391K(J)04
390
_______________________
_________
_
LQH4N471K(J)04
470
40
3.0 80
___1_1._8___________________
2.7 70
___1_4._5___________________
2.5 65
___1_7._0___________________
_______________________
LQH4N561K(J)04
560
_______________________
LQH4N681K(J)04
680
_______________________
LQH4N821K(J)04
820
20.5 2.2
_____________________________6_0____
_______________________
LQH4N102K(J)04
1000
1kHz
2.0 50
___2_5._0___________________
1.8 45
___3_0._0___________________
1.6 40
___3_7._0___________________
1.5 35
___4_5._0___________________
_______________________
LQH4N122K(J)04
1200
_______________________
LQH4N152K(J)04
1500
252kHz
_______________________
LQN4N182K(J)04
1800
_______________________
LQN4N222K(J)04
2200
50.0
1.3
30
Available as standard through authorized Murata Electronics Distributors.
CG01-I
229
SURFACE MOUNT INDUCTORS
CHIP INDUCTORS
LQH1N/3N/4N Se rie s
TYPICAL ELECTRICAL CHARACTERISTICS
Q-FREQUENCY CHARACTERISTICS
LQH1N Series
LQH3N Series
LQH4N/LQN4N Series
100
100
80
100
1000H
100H
80
80
100H
10H
100H
10H
1H
60
40
60
60
40
20
Q
Q
Q
10H
1H
40
20
0
20
0
0
0.5
1
5
10
50 100
0.1
0.5
1
5
10
0.1
0.5
1
5
10
Frequency (MHz)
Frequency (MHz)
Frequency (MHz)
INDUCTANCE-TEMPERATURE CHARACTERISTICS
LQH1N Series
LQH3N Series
LQH4N/LQN4N Series
10
10
10
220H
1.0H
5
0
5
0
5
0
1000H
10H
100H
1H
10H
–5
–5
–5
1000H
–10
–10
–10
–20
0
20
40
60
80
–20
0
20
40
60
80
–20
0
20
40
60
80
Temperature (°C)
Temperature (°C)
Temperature (°C)
INDUCTANCE-CURRENT CHARACTERISTICS
LQH1N Series
LQH3N Series
LQH4N/LQN4N Series
500
500
5000
220H
100H
39H
2200H
1000H
390H
100H
100
100
50
1000
500
50
33H
10H
10H
100H
39H
10
5
100
50
10
3.9H
5
10H
1.0H
1.0H
10
1
1
5
10
50 100
Current (mA)
500
5
10
50 100
Current (mA)
500
5
10
50 100
500
Current (mA)
COUPLING FACTOR
LQH1N Series
10
8
ᐉ
6
4
ᐉ = 0.9mm
ᐉ = 2.0mm
K
(%)
(2.5mm Pitch Parallel
(Mounting)
2
0
0.5
1
5
10
50
100
Inductance (H)
230
CG01-I
相关型号:
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