Technical Document
Specifications
Brand
VishayInductance
1.2 μH
Maximum dc Current
5A
Mounting Type
Axial
Maximum DC Resistance
10mΩ
Tolerance
±15%
Diameter
6.85mm
Height
17.78mm
Dimensions
6.85 (Dia.) x 17.78mm
Core Material
Ferrite
Maximum Self Resonant Frequency
1kHz
Series
IHD
Lead Diameter
0.81mm
Maximum Operating Temperature
+85°C
Minimum Operating Temperature
-55°C
Country of Origin
United States
Product details
Vishay IHD1 Series Axial Inductor
The IHD1 series of Vishay filter inductors. All inductors will provide excellent reliability and are made of the highest quality. The inductors are protected by polyolefin tubing making it perfect for use in various environments.
Printed circuit mounting (axial leads)
Axial type
High resistivity core offers very high parallel resistance,
resulting in maximum coil performance
Vishay Leaded Inductors
Stock information temporarily unavailable.
Please check again later.
AED 21.15
Each (In a Pack of 50) (ex VAT)
AED 22.208
Each (In a Pack of 50) (inc VAT)
50
AED 21.15
Each (In a Pack of 50) (ex VAT)
AED 22.208
Each (In a Pack of 50) (inc VAT)
50
Buy in bulk
quantity | Unit price | Per Pack |
---|---|---|
50 - 50 | AED 21.15 | AED 1,057.50 |
100 - 200 | AED 20.30 | AED 1,015.00 |
250+ | AED 19.25 | AED 962.50 |
Technical Document
Specifications
Brand
VishayInductance
1.2 μH
Maximum dc Current
5A
Mounting Type
Axial
Maximum DC Resistance
10mΩ
Tolerance
±15%
Diameter
6.85mm
Height
17.78mm
Dimensions
6.85 (Dia.) x 17.78mm
Core Material
Ferrite
Maximum Self Resonant Frequency
1kHz
Series
IHD
Lead Diameter
0.81mm
Maximum Operating Temperature
+85°C
Minimum Operating Temperature
-55°C
Country of Origin
United States
Product details
Vishay IHD1 Series Axial Inductor
The IHD1 series of Vishay filter inductors. All inductors will provide excellent reliability and are made of the highest quality. The inductors are protected by polyolefin tubing making it perfect for use in various environments.
Printed circuit mounting (axial leads)
Axial type
High resistivity core offers very high parallel resistance,
resulting in maximum coil performance