![]() The function of the “DC Bias level” is to correctly set the transistors Q-point by setting its Collector current ( I C ) to a constant and steady state value without any external input signal applied to the transistors Base. So how do we set this Q-point biasing of a transistor? – The correct biasing of the transistor is achieved using a process known commonly as Base Bias.īut before we start looking at the possible different transistor biasing arrangements, lets first remind ourselves of a basic single transistor circuit along with its voltages and currents as shown on the left. In other words, the output is available for the full 360 o of the input cycle. This mode of operation allows the output voltage to increase and decrease around the amplifiers Q-point without distortion as the input signal swings through one complete cycle. When a bipolar transistor is biased so that the Q-point is near the middle of its operating range, that is approximately halfway between cut-off and saturation, it is said to be operating as a Class-A amplifier. This central operating point is called the “Quiescent Operating Point”, or Q-point for short. ![]() ![]() The correct biasing point for a bipolar transistor, either NPN or PNP, generally lies somewhere between the two extremes of operation with respect to it being either “fully-ON” or “fully-OFF” along its DC load line. The steady state operation of a transistor depends a great deal on its base current, collector voltage, and collector current values and therefore, if the transistor is to operate correctly as a linear amplifier, it must be properly biased around its operating point.Įstablishing the correct operating point requires the selection of bias resistors and load resistors to provide the appropriate input current and collector voltage conditions.
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