![]() ![]() However, current flows through what has resistance between an GND terminal and a IN terminal. Voltages up to 5V can be supplied to the Collector-Emitter in the reverse direction as below. The emitter voltage fluctuates with the input. (If sufficient voltage is supplied to the Collector-Emitter in reverse, deterioration such as low hFE will occur. Since the transistor stays in forward-active mode, the collector current will be 100 times the base current. Typically this is between 5 to 7V, making the Collector-Emitter reverse voltage less than 5V. ![]() NPN: +V to Emitter, Collector grounded) is roughly equivalent to the breakdown between the Emitter and Base. Conversely, VCEO in PNP transistors is in breakdown when positive voltage is supplied to the Emitter with Collector grounded.īreakdown in the opposite direction (e.g. If you are designing a PCD or Perf board with this component then the following picture from the Datasheet will be useful to know its package type and dimensions.Is it possible to supply voltage to the Collector-Emitter in reverse?įor NPN transistors, VCEO is in breakdown when positive voltage is supplied to the Collector pin while the Emitter is grounded. Amplifier modules like Audio amplifiers, signal Amplifier etc.It uses both a positive and a negative supply voltage. Driver Modules like Relay Driver, LED driver etc. Emitter bias provides excellent bias stability in spite of changes in or temperature.When uses as an Amplifier the DC current gain of the Transistor can be calculated by using the below formulaeĭC Current Gain = Collector Current (I C) / Base Current (I B) Of the above types common emitter type is the popular and mostly used configuration. Some of the configurations used in amplifier circuits are It can amplify power, voltage and current at different configurations. The value of I B should not exceed mA.Ī Transistors acts as an Amplifier when operating in Active Region. Where, the value of V BE should be 5V for BC547 and the Base current (I B depends on the Collector current (I C). The value of this resistor (R B) can be calculated using below formulae. ![]() Anything more than 5mA will kill the Transistor hence a resistor is always added in series with base pin. As mentioned the biasing current should maximum of 5mA. As discussed a transistor will act as an Open switch during Forward Bias and as a Closed switch during Reverse Bias, this biasing can be achieved by supplying the required amount of current to the base pin. When a transistor is used as a switch it is operated in the Saturation and Cut-Off Region as explained above. When base current is removed the transistor becomes fully off, this stage is called as the Cut-off Region and the Base Emitter voltage could be around 660 mV. This stage is called Saturation Region and the typical voltage allowed across the Collector-Emitter (V CE) or Base-Emitter (V BE) could be 200 and 900 mV respectively. When this transistor is fully biased then it can allow a maximum of 100mA to flow across the collector and emitter. To bias a transistor we have to supply current to base pin, this current (I B) should be limited to 5mA. The maximum amount of current that could flow through the Collector pin is 100mA, hence we cannot connect loads that consume more than 100mA using this transistor. Note: Complete Technical Details can be found at the BC547 datasheet given at the end of this page.īC549, BC636, BC639, 2N2222 TO-92, 2N2222 TO-18, 2N2369, 2N3055, 2N3904, 2N3906, 2SC5200īC547 transistor has a gain value of 110 to 800, this value determines the amplification capacity of the transistor.
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