Technical Document
Specifications
Brand
MurataInductance
47 nH
Maximum dc Current
210mA
Package/Case
1005
Length
1mm
Depth
0.5mm
Height
0.5mm
Dimensions
1 x 0.5 x 0.5mm
Shielded
No
Tolerance
±3%
Maximum DC Resistance
1.08Ω
Series
LQW15AN_00
Core Material
Non-Magnetic Core
Maximum Self Resonant Frequency
2.9GHz
Inductor Construction
Wire-Wound
Maximum Operating Temperature
+125°C
Moulded
Yes
Minimum Operating Temperature
-55°C
Minimum Quality Factor
25
Country of Origin
Japan
Product details
LQW15AN Series SMD Chip Inductors
Murata LQW Series wire wound RF inductors incorporates a high Q value giving great attenuation characteristics inside the pass band of the filters. These LQW inductors are used in matching applications of antennas for maintaining the reception and transmission sensitivity of the antennas. The LQW has low Rdc characteristics and can be employed in choke circuits where high current levels flow.
Features
There are two types of structure available for different applications
High Q value
Large currents can be supported
Low DC resistance
Murata Non Standard SMT Inductors (Chokes)
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Price on asking
10000
Price on asking
10000
Technical Document
Specifications
Brand
MurataInductance
47 nH
Maximum dc Current
210mA
Package/Case
1005
Length
1mm
Depth
0.5mm
Height
0.5mm
Dimensions
1 x 0.5 x 0.5mm
Shielded
No
Tolerance
±3%
Maximum DC Resistance
1.08Ω
Series
LQW15AN_00
Core Material
Non-Magnetic Core
Maximum Self Resonant Frequency
2.9GHz
Inductor Construction
Wire-Wound
Maximum Operating Temperature
+125°C
Moulded
Yes
Minimum Operating Temperature
-55°C
Minimum Quality Factor
25
Country of Origin
Japan
Product details
LQW15AN Series SMD Chip Inductors
Murata LQW Series wire wound RF inductors incorporates a high Q value giving great attenuation characteristics inside the pass band of the filters. These LQW inductors are used in matching applications of antennas for maintaining the reception and transmission sensitivity of the antennas. The LQW has low Rdc characteristics and can be employed in choke circuits where high current levels flow.
Features
There are two types of structure available for different applications
High Q value
Large currents can be supported
Low DC resistance