This useful transistor tester allows the user to quickly check the functionality of an NPN/PNP transistor, JFET or(V)MOSFETas well as determine the orientation of their terminals, or the pins appropriately.
A three-pin BJT or FET provides an overall 6 feasible correlated configurations, however just a single will likely be the right one.
This universal transistor tester circuit offers a easy and foolproof recognition of the appropriate transistor configuration as well as creates a practical examination of the transistor simultaneously.
How the Circuit Works
测试人员自己电路包括一个transistor that collectively with the transistor-under-test (TUT) forms anastable multivibratorcircuit.
The tester features 5 testing slots in close proximity with each other, determined by their respective labeling:
E/S - B/G - C/D - E/S - B/G
This arrangement makes it possible for the below shown devices to be examined through the mentioned configurations:
• Bipolar Transistors: EBC / BCE / CEB, and reversed: BEC / ECB / CBE.
• Unipolar Transistors (FETs): SGD / GDS / DSG, and reversed: GSD / SDG / DGS.
The astable multivibrator stage of the circuit oscillates and blinks a brightwhite LED(Figure 1) whenever the transistor under test is connected the right way. The LED could also flash if the E and C pins of the transistor are swapped, however the blinking speed is going to be faster.
This demonstrates the truth that a few varieties of BJTs can function even when their emitter and collector leads interchanged although with aperformance characteristicsthat may be lower than in the normal configuration.
Testing JFETs
While testingJFETshaving a symmetrical source and drain structure, it may be only feasible to distinguish the gate pin with any level of assurance, and the source and drain pins could be interchanged.
The load resistance of the transistor-under-test is constructed like a potential divider circuit with half the supply voltage by using resistors R3/R4. This enables an ordinary switch (S1) to swap from N(PN) to P(NP).
Using an LED Indicator
Aflashing LEDreveals proper positioning of the device under test! If the LED remains shut off or remains ON constantly indicates an incorrect configuration or dead, blown BJT.
This situation can additionally indicate that the unit being tested may be simply not a transistor.
The item could possibly, for instance, be a 3-pin voltage regulator, anSCR or a triacand so on.
Using a Buzzer Indicator
The next variant of the universal transistor tester exhibited in the figure below employs apiezo buzzerinstead of the LED indicator. The frequency determining capacitor value in this design can be seen much reduced compared to the LED version in order to increase the oscillation frequency and make it audible.
A low volume buzzing sound from the buzzer signifies that the transistor is rightly inserted and is perfectly doing the job.
If there's no sound from the buzzer indicates that the BJT or the FET under test is either inserted incorrectly or it may be completely dead.
按钮允许你切换电路n and check the transistor simultaneously as soon as it is hooked up. The entire circuit can without any difficulty accommodate over a tiny piece of veroboard. Power supply can be obtained from a standard 9 V PP3 battery.
GOSTEI MUITO.
O prazer é meu!
hello sir Swagatam. I want to know about this circuit, if really working for mosfet test too, And what is the function of the capacitor of 470nf on the basis of transistor pnp and npn. Here is the web site…//www.addme-blog.com/wp-content/uploads/2021/05/BJT-tetser-circuit.pngThanks so much..
Hello Carlos, yes it seems it will work. 470nF ensures that only the oscillations generated by the IC 555 passes through it to the transistor base, and the Dc is blocked from entering the transistor base.
….the other 470 nF near the transistor base are for filtering the frequency from the IC 555
Can you upload the circuit for this using ni multisim? thanks