|
|
Número de pieza | LQH1Nxxxx | |
Descripción | (LQH1N/3N/4N Series) Surface Mount Inductors | |
Fabricantes | Murata Electronics | |
Logotipo | ||
Hay una vista previa y un enlace de descarga de LQH1Nxxxx (archivo pdf) en la parte inferior de esta página. Total 4 Páginas | ||
No Preview Available ! SURFACE MOUNT INDUCTORS
CHIP INDUCTORS
PART NUMBERING SYSTEM
LQH
3N
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 10H, up to 450mA designs are possible,
resulting in excellent performance when the series is used as
a choke coil.
101 K 34 M00
TYPE
LQH: Epoxy coating
on winding
SIZE
1: 3.2 x 1.6mm (1206)
3: 3.2 x 2.5mm (1210)
4: 4.5 x 3.2mm (1812)
APPLICATION
N: General Use
INDUCTANCE CODE
R22: 0.22H
2R2: 2.2H
220: 22H
221: 220H
102: 1000H
TOLERANCE
J: ±5%
K: ±10%
M: ±20%
ELECTRODE
MATERIAL
04/34: Nickel &
Solder
UNMARKED
SPECIFICATIONS
Dimensions: mm
Part Number
Nominal
Value (H)
Inductance
Tolerance
(%)
Measurement
Frequency
(MHz)
Nominal
Value
(min.)
Q
Measurement
Frequency
(MHz)
DC
Resistance
(Ohms)
Self-
resonant
Frequency
(MHz min.)
Allowable
Current
(mA)
Operating
Temp.
Range
1206
2.3 ± 0.2
3.2 ± 0.3
0.7 0.7 0.7
min. min. min.
___LQ__H_1N__R_15_M__(K_)_0_4_______0._1_5___
___LQ__H_1N__R_22_M__(K_)_0_4_______0._2_2___
20
_______
_0_.3_9_±__40_%____2_5_0 ______2_5_0___
_0_.4_3_±_4_0_%____25_0_______2_4_0 ___
___LQ__H_1N__R_33_M__(K_)_0_4_______0._3_3___
_0_.4_5_±__40_%____2_5_0 ______2_3_0___
___LQ__H_1N__R_47_M__(K_)_0_4_______0._4_7___ ±20
25 _0_.8_3_±__40_%____2_0_0 ______2_1_5___
___LQ__H_1N__R_56_M__(K_)_0_4_______0._5_6___ (±10)
30 _0_.6_1_±__40_%____1_8_0 ______2_0_0___
___LQ__H_1N__R_68_M__(K_)_0_4_______0._6_8___
_0_.6_7_±__40_%____1_6_0 ______1_9_0___
___LQ__H_1N__R_82_M__(K_)_0_4_______0._8_2___
_________________0_.7_3_±_4_0_%____1_2_0 _______18_5___
___LQ__H_1N__1R_0_M__(K_)_0_4_______1._0____
_0_.4_9_±__30_%____1_0_0 ______1_7_5___
___LQ__H_1N__1R_2_M__(K_)_0_4_______1._2______________
__0._9_±_3_0_%____9_0_______1_6_5 ___
1.6 ± 0.2
____________LLLL_QQQQ________HHHH____1111_NNNN_______1122_RRRR_____5827____MMMM________((((KKKK____....____JJJJ____))))_0000____4444_________________________1122_....___5827______________________(±±_(_12±_500_))___
10 __1_.0_±__30_%_____7_5 ______1_5_5___
__1_.6_±__30_%_____6_0 ______1_5_0___
__0_.7_±__30_%_____5_0 ______1_4_0___
__________0_._55__± _30_%_____4_3_______13_5____
___LQ__H_1N__3R_3_M__(K_._J_)0_4______3._3____
__1_.4_±__30_%_____3_8 ______1_3_0___
___LQ__H_1N__3R_9_M__(K_._J_)0_4______3._9____
___LQ__H_1N__4R_7_M__(K_._J_)0_4______4._7____
___LQ__H_1N__5R_6_M__(K_._J_)0_4______5._6____
___LQ__H_1N__6R_8_M__(K_._J_)0_4______6._8____
±20
(±10)
(±5)
1
35
__1_.5_±__30_%_____3_5 ______1_2_5___ –25°C
8
__1_.7_±__30_%_____3_1 ______1_2_0___ ~
__1_.8_±__30_%_____2_8 ______1_1_5___ +85°C
__2_.0_±__30_%_____2_5 ______1_1_0___
___LQ__H_1N__8R_2_M__(K_._J_)0_4______8._2______________
___________2_.2__± _30_%_____2_3_______10_5____
___LQ__H_1N__10_0_K_(_J)_0_4_______1_0_____
__2_.5_±__30_%_____2_0 ______1_0_0___
___LQ__H_1N__12_0_K_(_J)_0_4_______1_2_____
___LQ__H_1N__15_0_K_(_J)_0_4_______1_5_____
5 __2_.7_±__30_%_____1_8 _______9_5___
__3_.0_±__30_%_____1_6 _______9_0___
___LQ__H_1N__18_0_K_(_J)_0_4_______1_8_____
__________________3_.4_±_3_0_%_____1_5 _______8_5___
___LQ__H_1N__22_0_K_(_J)_0_4_______2_2_____
__3_.1_±__30_%_____1_4 _______8_5___
___LQ__H_1N__27_0_K_(_J)_0_4_______2_7_____ ±10
__3_.4_±__30_%_____1_3 _______8_5___
___LQ__H_1N__33_0_K_(_J)_0_4_______3_3_____ (±5)
__3_.8_±__30_%_____1_2 _______8_0___
___LQ__H_1N__39_0_K_(_J)_0_4_______3_9_____
__7_.2_±__30_%_____1_1 _______5_5___
___LQ__H_1N__47_0_K_(_J)_0_4_______4_7_____
40 2.5 __8_.0_±__30_%_____1_0 _______5_5___
___LQ__H_1N__56_0_K_(_J)_0_4_______5_6_____
__8_.9_±__30_%______9._0______5_0___
___LQ__H_1N__68_0_K_(_J)_0_4_______6_8_____
__9_.9_±__30_%______8._5______5_0___
___LQ__H_1N__82_0_K_(_J)_0_4_______8_2_____
__1_1_±__30_%______7._5______4_5___
LQH1N101K(J)04
100
12 ± 30% 7.0
45
Available as standard through authorized Murata Electronics Distributors.
CG01-I
227
1 page |
Páginas | Total 4 Páginas | |
PDF Descargar | [ Datasheet LQH1Nxxxx.PDF ] |
Número de pieza | Descripción | Fabricantes |
LQH1Nxxxx | (LQH1N/3N/4N Series) Surface Mount Inductors | Murata Electronics |
Número de pieza | Descripción | Fabricantes |
SLA6805M | High Voltage 3 phase Motor Driver IC. |
Sanken |
SDC1742 | 12- and 14-Bit Hybrid Synchro / Resolver-to-Digital Converters. |
Analog Devices |
DataSheet.es es una pagina web que funciona como un repositorio de manuales o hoja de datos de muchos de los productos más populares, |
DataSheet.es | 2020 | Privacy Policy | Contacto | Buscar |