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Thursday, May 25, 2023

on video How to Identify NPN and PNP Transistor using Multimeter


 How to Test Bipolar Transistors If You Have an Analog Multimeter

We know how transistor works but some of us doesn't really know how to test the component itself. Nowadays, most Digital Multimeters have sockets provided to test them, but what will you do if you have those old Analog/Needletype ones? This is a simple way to do it.


Bipolar transistors has 3 pins, The Emitter(E), Base (B) and the Collector (C) which is usually connected to the casing for most Power transistors (TO-3 casing). It can be categorized into two, NPN and PNP configuration, see figure 2. This test is based on the theory that a transistor is like two diodes connected together, see figure 1.


1. Set your Analog Multimeter to Ohmmeter X1 Ohm Scale.


2. Connect the Negative Probe (Black) to Emitter and the Positive Probe (Red) to the Base. The needle should deflect to the right side,reading less than 100 ohms.


3. Now invert the probe connections to the Emitter for the Red Probe and to the Base for Black. The Needle should not deflect.


If the results are the same as above, your Emitter-Base junction is OK.


4. Now we will be testing the Base-Collector junction. Connect the Red probe to the Base and the Black probe to the Collector. The Needle should deflect to the right, resistance usually is not less than 100 ohms.


5. Invert the probes again, Black to the Base and the Red probe to the Collector. The Needle should not move.


If results are the same as above, your Base-Collector junction is Ok.


6. Connect the probes to the Emitter and Collector (probes may be inverted), a reading above 1Kohms indicates a working transistor.

1. Set your Analog Multimeter to Ohmmeter X1 Ohm Scale.


2. Connect the Negative Probe (Black) to Base and the Positive Probe (Red) to the Emitter. The needle should deflect to the right side,reading less than 100 ohms.


3. Now invert the probe connections to the Base for the Red Probe and to the Emitter for Black. The Needle should not deflect.


If the results are the same as above, your Emitter-Base junction is OK.


4. Now we will be testing the Base-Collector junction. Connect the Black probe to the Base and the Red probe to the Collector. The Needle should deflect to the right, resistance usually is not less than 100 ohms.


5. Invert the probes again, Red to the Base and the Black probe to the Collector. The Needle should not move.


If results are the same as above, your Base-Collector junction is Ok.


6. Connect the probes to the Emitter and Collector (probes may be inverted), a reading above 1Kohms indicates a working transistor.

1. If their is no resistance between any of the pairs during test (needle goes all the way to the right) for all the steps. The transistor is shorted.


2. If for all the steps, no needle deflection occured, the transistor is open.


 How to Test Bipolar Transistors If You Have an Analog Multimeter

We know how transistor works but some of us doesn't really know how to test the component itself. Nowadays, most Digital Multimeters have sockets provided to test them, but what will you do if you have those old Analog/Needletype ones? This is a simple way to do it.


Bipolar transistors has 3 pins, The Emitter(E), Base (B) and the Collector (C) which is usually connected to the casing for most Power transistors (TO-3 casing). It can be categorized into two, NPN and PNP configuration, see figure 2. This test is based on the theory that a transistor is like two diodes connected together, see figure 1.


1. Set your Analog Multimeter to Ohmmeter X1 Ohm Scale.


2. Connect the Negative Probe (Black) to Emitter and the Positive Probe (Red) to the Base. The needle should deflect to the right side,reading less than 100 ohms.


3. Now invert the probe connections to the Emitter for the Red Probe and to the Base for Black. The Needle should not deflect.


If the results are the same as above, your Emitter-Base junction is OK.


4. Now we will be testing the Base-Collector junction. Connect the Red probe to the Base and the Black probe to the Collector. The Needle should deflect to the right, resistance usually is not less than 100 ohms.


5. Invert the probes again, Black to the Base and the Red probe to the Collector. The Needle should not move.


If results are the same as above, your Base-Collector junction is Ok.


6. Connect the probes to the Emitter and Collector (probes may be inverted), a reading above 1Kohms indicates a working transistor.

1. Set your Analog Multimeter to Ohmmeter X1 Ohm Scale.


2. Connect the Negative Probe (Black) to Base and the Positive Probe (Red) to the Emitter. The needle should deflect to the right side,reading less than 100 ohms.


3. Now invert the probe connections to the Base for the Red Probe and to the Emitter for Black. The Needle should not deflect.


If the results are the same as above, your Emitter-Base junction is OK.


4. Now we will be testing the Base-Collector junction. Connect the Black probe to the Base and the Red probe to the Collector. The Needle should deflect to the right, resistance usually is not less than 100 ohms.


5. Invert the probes again, Red to the Base and the Black probe to the Collector. The Needle should not move.


If results are the same as above, your Base-Collector junction is Ok.


6. Connect the probes to the Emitter and Collector (probes may be inverted), a reading above 1Kohms indicates a working transistor.

1. If their is no resistance between any of the pairs during test (needle goes all the way to the right) for all the steps. The transistor is shorted.


2. If for all the steps, no needle deflection occured, the transistor is open.

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