Please solve fast. A silicon NPN transistor TIP29 is used in the amplifier circuit with VCC = 10V, RC = 4Ω, and RB = 470Ω.The output characteristics for the transistor may be displayed on a Transistor Curve Tracer. A typical set of these characteristics .Determine the dc Q-point.A sinusoidal ac signal is applied to the amplifier. It causes a 20 mA peak (40 mA peak-to-peak) base current.Determine the collector current waveshape.Determine the harmonic content and distortion in the output waveshape.The audiofrequency amplifier employs the siliconpower transistor for which characteristics are shown. The manufacturer specifies IC(max) = 1 A. VCE(max) = 50 V. PD(max) = 5W (case at 25°C), and βmin = 30. Design the amplifier for maximum mm power to RL = 750 Ω: an approximate design is satisfactory. (Assume the capacitances are "large.” Modify the design of part a to provide transformer coupling for maximum power output to a load of 5 Ω and predict the amplifier output and efficiency. Calculate the required loop gain and forward-current gain. An amplifier is made up of two stages. Each stage has a gain of 10 and an inherent distortion of 20%. a) One stage with a negative feedback of 10% is connected in cascade with a second stage that has a negative feedback of 40%. What is the overall gain and the overall distortion?Two stages of the amplifier are connected in cascade. An overall negative feedback of 9% is used. Determine the gain and the overall distortion.The output of a power amplifier contains a 10–V, 1000-Hzfundamental and "20% second harmonic distortion." The gain G = 100∠0°. Predict the effect of feedback on the distortion if H = – 0.19.
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A silicon NPN transistor TIP29 is used in the amplifier circuit with VCC = 10V, RC = 4Ω, and RB = 470Ω.The output characteristics for the transistor may be displayed on a Transistor Curve Tracer. A typical set of these characteristics .Determine the dc Q-point.A sinusoidal ac signal is applied to the amplifier. It causes a 20 mA peak (40 mA peak-to-peak) base current.Determine the collector current waveshape.Determine the harmonic content and distortion in the output waveshape.The audiofrequency amplifier employs the siliconpower transistor for which characteristics are shown. The manufacturer specifies IC(max) = 1 A. VCE(max) = 50 V. PD(max) = 5W (case at 25°C), and βmin = 30. Design the amplifier for maximum mm power to RL = 750 Ω: an approximate design is satisfactory. (Assume the capacitances are "large.” Modify the design of part a to provide transformer coupling for maximum power output to a load of 5 Ω and predict the amplifier output and efficiency. Calculate the required loop gain and forward-current gain. An amplifier is made up of two stages. Each stage has a gain of 10 and an inherent distortion of 20%. a) One stage with a negative feedback of 10% is connected in cascade with a second stage that has a negative feedback of 40%. What is the overall gain and the overall distortion?Two stages of the amplifier are connected in cascade. An overall negative feedback of 9% is used. Determine the gain and the overall distortion.The output of a power amplifier contains a 10–V, 1000-Hzfundamental and "20% second harmonic distortion." The gain G = 100∠0°. Predict the effect of feedback on the distortion if H = – 0.19.
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