2N Unijunction Transistor. TO−18 Package. Description: The 2N is designed for use in pulse and timing circuits, sensing circuits and thyristor trigger . 2N Datasheet, 2N Unijunction Transistor Datasheet, buy 2N Transistor. 2N datasheet, 2N pdf, 2N data sheet, datasheet, data sheet, pdf, Boca Semiconductor Corporation, Silicon PN Unijuction Transistor.
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When the power just turned ON, the UJT will be in high resistance state and total supply voltage appears across it.
Working When the power just turned ON, the UJT will be in high resistance state and total supply voltage appears across it. The circuit is powered from single power source of VCC.
2N Datasheet pdf – Silicon PN Unijuction Transistor – Boca Semiconductor Corporation
By this we have UJT acting as an oscillator giving voltage pulses at the output and in a similar way we can use the device in other application circuits. The device is popular as a triggering device and is not suited for driving power loads. The capacitor C1 is for triggering the UJT and resistor R3 is for limiting the flow of charge to capacitor. Submitted by admin on 3 November With this current flow at the emitter the UJT will get from high resistance to low resistance state and there by acting as a short circuit.
Pin Configuration 2N is a three terminal device and the conductive case also connected to a terminal.
How to use 2N Transistor 2N has many application circuits but for understanding the working let us consider the relaxation oscillator circuit of the device. The device is preferred in other applications where guaranteed minimum pulse amplitude is required and also where a low emitter leakage current and a low peak point emitter current trigger current are 2n6246.
2N (Philips) – Silicon Unijunction Transistor | eet
In the above circuit we are working 2N as a relaxation oscillator to produce trigger pulses or oscillations. Once the capacitor gets charged to threshold voltage at a certain time T1, it will discharge by forcing the current through emitter of the UJT.
Under such case we will have VB2 or UJT voltage drop taking a sharp dip as shown in graph and at other hand because of current flow a voltage appears across R2 VB1 there by producing a sharp pulse voltage as shown in graph.
TL — Programmable Reference Voltage. With completion of capacitor discharge the UJT will again return to normal OFF state and will stay in that state until the capacitor discharges again.
This cycle of capacitor charge and discharge form a triggering cycle for the UJT to give voltage pulses at the output or VB2. With the flow of time the capacitor gets charged as the current flows through R3 to reach the capacitor.