Difference between revisions of "Testing a MOSFET"

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(Testing a MOSFET: clsoing span tag)
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'''If a MOSFET passes all 4 tests, it is likely a good device. If any of the tests are not satisfied, the part has been damaged.'''
 
'''If a MOSFET passes all 4 tests, it is likely a good device. If any of the tests are not satisfied, the part has been damaged.'''
  
''*Once the Gate is charged, it will remain charged for several minutes. Long enough to do the tests. You just have to be careful not to disturb the gate lead and accidentally discharge it.''
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''*Once the Gate is charged, it will remain charged for several minutes, long enough to do the tests. You just have to be careful not to accidentally discharge it.''
  
 
== nFET ==
 
== nFET ==
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== pFET ==
 
== pFET ==
  
Probe the ''Gate'' with the <span style="color:#FF0000">'''RED'''<
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Probe the ''Gate'' with the <span style="color:#FF0000">'''RED'''</span>
  
 
=== Test #2 - Test Drain-Source ===
 
=== Test #2 - Test Drain-Source ===

Revision as of 10:04, 10 October 2016

RC EE MOSFET Pinout.png

Testing a MOSFET

If a MOSFET passes all 4 tests, it is likely a good device. If any of the tests are not satisfied, the part has been damaged.

*Once the Gate is charged, it will remain charged for several minutes, long enough to do the tests. You just have to be careful not to accidentally discharge it.

nFET

Probe the Gate with the BLACK lead and the Source with the RED

Test #2 - Test Drain-Source

Being turned off, the Drain-Source should be an open circuit. Test by probing with the BLACK lead on the Source and the RED lead on the Drain. The expected reading is an open circuit. The nFET has a reverse protection diode built in. To test this diode, reverse the polarity of the leads placing the RED on the Source and the BLACK on the Drain. The meter should read the forward voltage of the diode. If it shows as an open circuit, then the diode has been damaged.

Probe the Gate with the RED lead and the Source with the BLACK lead. The expected reading is an open circuit. This double checks the Gate for short circuits and turns the device on.

Test #4 - Check Drain-Source junction for proper conduction

Make sure that you have not touched the Gate lead since you turned the device on. Probe with the RED on the Drain and the BLACK on the Source. The expected reading is a short circuit. Then probe with the polarity reversed with the RED on the Source and the BLACK on the Drain. This should also show a short circuit. If either of these shows an open circuit, then the Drain-Source is blown open.

pFET

Probe the Gate with the RED

Test #2 - Test Drain-Source

Being turned off, the Drain-Source should be an open circuit. Test by probing with the RED lead on the Source and the BLACK lead on the Drain. The expected reading is an open circuit. The pFET has a reverse protection diode built in. To test this diode, reverse the polarity of the leads by placing the BLACK on the Source and the RED on the Drain. The meter should read the forward voltage of the diode. If is shows as an open circuit, then the diode has been damaged.

Probe the Gate with the BLACK lead and the Source with the RED lead. The expected reading is an open circuit. This double checks the Gate for short circuits and turns the device on.

Test #4 - Check Drain-Source junction for proper conduction

Make sure that you have not touched the Gate lead since you turned the device on. Probe with the RED on the Drain and the BLACK on the Source. The expected reading is a short circuit. Then probe with the polarity reversed with the RED on the Source and the BLACK on the Drain. This should also show a short circuit. If either of these shows an open circuit, then the Drain-Source is blown open.