3. 3
Define Passive
Electronic
Components
2
Enumerate Strategies
for Testing Electronic
Components
1
Apply appropriate
testing methods to
electronic components
in accordance to
technical
specifications
Learning Objectives
TEST COMPONENTS
At the end of the lesson, you should be able to:
4.
5.
6. Directions: Using graphic organizer below, thinks of a word that you can associate to the word
Electronic Components
7. Testing Strategies for Electronic Components
What are Passive Electronic Components?
Passive electronic components are those that don’t
have the ability to control electric current by means
of another electrical signal. Examples of passive
electronic components are capacitors, resistors,
inductors, transformers, and some diodes.
8. Testing Strategies for Electronic
Components
An active component is an electronic component which supplies energy to a
circuit.
10. Testing Strategies for Electronic
Components
Dynamic Testing
Electronics tests place a wide range of performance demands on test
equipment for static and dynamic test equipment. The equipment is used to
validate new designs, improve manufacturing processes, and prove the
quality of end products. Mechanical testing requirements involve static,
dynamic and fatigue testing in tensile, compression, shear test modes.
11. Testing Strategies for Electronic
Components
In-Circuit Testing
In-circuit test equipment provides a useful and efficient form of printed
circuit board test by measuring each component in turn to check that it is in
place and of the correct value. As most faults on a board arise out of the
manufacturing process and usually consist of short circuits, open circuits or
wrong components, this form of testing catches most of the problems on a
board. These can easily be checked using simple
13. Questions:
1.What are the difference between passive and
active electronic components ?
2.Enumerate the two testing strategies of
electronic components ?
14. REMEMBER
Passive electronic components are components that
consumes energy. It does not produce energy, is
incapable of power gain and requires no electrical
power to operate. They simply absorb energy. A typical
example of passive electronic components would be
resistors and capacitors.