


Cross Sectioning for Power Inductors
The cross-sectioning process provides access to the device internal structure, its materials and design. Electronics components are often subjected to cross-sectioning to detect the defects that could not be found using other testing techniques. Cross-sectioning typically involves three discrete steps: mounting the sample in a block of epoxy resin to form the specimen, grinding or cutting the specimen and finally polishing the exposed surface. >> Read more
EEE Parts Results Page
Cross Sectioning for Power Inductors
The cross-sectioning process provides access to the device internal structure, its materials and design. Electronics components are often subjected to cross-sectioning to detect the defects that could not be found using other testing techniques. Cross-sectioning typically involves three discrete steps: mounting the sample in a block of epoxy resin to form the specimen, grinding or cutting the specimen and finally polishing the exposed surface. >> Read more
EEE Parts Results Page
12340 results found for Power Inductors/Inductors
Part reference
Quality level / QPL
Package
Inductance [Nom]
Rated Current
Unit price
Lead time
FAILURE RATE M
Qualified
QPDSIS-39010
Through Hole Mount
Axial
430nH
FAILURE RATE M
Qualified
QPDSIS-39010
Through Hole Mount
Axial
10uH
FAILURE RATE R
Qualified
QPDSIS-39010
Through Hole Mount
Axial
1.2uH
FAILURE RATE P
Qualified
QPDSIS-39010
Through Hole Mount
Axial
150uH
FAILURE RATE P
Qualified
QPDSIS-39010
Through Hole Mount
Axial
200uH
NON-ER
Not qualified
QPDSIS-39010
Through Hole Mount
Axial
1.8mH
FAILURE RATE R
Qualified
QPDSIS-39010
Through Hole Mount
Axial
9.1uH
FAILURE RATE M
Qualified
QPDSIS-39010
Through Hole Mount
Axial
4.3uH
FAILURE RATE R
Qualified
QPDSIS-39010
Through Hole Mount
Axial
560uH
FAILURE RATE M
Qualified
QPDSIS-39010
Through Hole Mount
Axial
470uH
Part validation activities
Cost & Activity Matrix