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in great detail plz 1. Figure la shows a CG amplifier with a signal source and...
2.34. Consider the common-emitter amplifier on the right. (a)Draw a small-signal equivalent circuit using the T-model without the B1 Cci output resistance (b)Find an expression for the input resistance Rin. (c)Find an expression for the output resistance Ro. (d) Find an expression for the lower cut-off frequency Vi Re sig 82 C, (RE-R) in associated with Cci. (d)Find expressions for the two gains vo/v, and v/Vsig CI.
2.34. Consider the common-emitter amplifier on the right. (a)Draw a small-signal equivalent circuit...
please I need details
l and....Debate Club | Offic A) Theoretical Design Design a common emitter BJT amplifier with the following requirements: -Rin-10 K2, and Ro-45 ㏀ (Neglect the Early voltage Effect) Vo/Vsig- Gv-40 VIV or 32 dB " VCC-9 V V, IC-1mA, VCE-3.25V and β-100 RL-40 kQ, Rsige I ka, R 1-3R2, and C1-C2-1 μF Voc RC C2 R1 Rsig C1 RL R2 RE B) Verify your design using Orcad Capture Pspice by doing 1) AC sweep (frequency response):...
6.57 An alternative equivalent circuit of an amplifier fed with a signal source (Urie, Ric) and connected to a load R, is shown in Fig. P6.57. Here Gy is the open-circuit overall voltage gain, Con = 1 and Rour is the output resistance with Usie set to zero. This is different than R. Show that 6,10 AJO R + Rsig where R;= Rine, a Also show that the overall voltage gain is G., Cvo R+ Roul We were unable to...
Design a common-source MOSFET amplifier such that - Rg is a multiple of 10 - Id = 0.52 mA - the amplifier input resistance is in the range of mega ohms - | Avo | = 16.7 V/V - RL = 20k - Vsig has a 2kHz frequency - Rsig = 400k, and is the input and the MOSFET has: Vt = 0.8V k = 5 mA/V^2 VA = 80 V Assume capacitors are shorted in the signal circuit and...
Problem 2: BJT Small-Signal Voltage Amplifiers In the lectures, we covered in detail the analysis of an npn BJT amplifier that utilizes a single-supply DC biasing. In this problem, you wi meet two additional amplifier architectures-one that is based on dual DC supplies combined with a DC current source, and the other that utilizes a pnp BJT with single-supply biasing In both problems (below) you need to manually find the amplifier's Q-point (that is, the DC values of Ic and...
II) The characteristics of the MOSFET in figure la are shown in figure 1b. Use the characteristics in figure 1b, not the equations in your textbook, to answer the following A) From figure lb estimate gm and ro for the FET in the saturation region. Include calculations or an explanation with your answer B Find the values for Re Rd. VDD and VGG so that zin- 100k, zout 5k, L 2 mA and Vds-5 C) Find the GAIN-vo/vi 2oUT Rg...
Problem 1: (4 pts) The circuit below uses current source biasing and two amplifier stages. Assume the transistors are biased so they have the same 9m and ro values, and that the current sources have output resistance ro equal to the ro of the two transistors. In other words, in the small signal model you will replace the de current sources with resistors of value ro Q2 Ui Q1 U) (a) Draw a small-signal model for this amplifier. Be sure...
Consider the amplifier shown
below where Ro = 1.2 KΩ and Avo = -125. The source has an internal
resistance RS = 600 Ω and connected to the amplifier by a capacitor
CS = 1 µF.
QUESTION 1 Consider the amplifier shown below where Ro-1.2 KΩ and Avo-_125. The source has an internal resistance Rs-600 Ω and connected to the amplifier by a capacitor Cs 1 HF. a. Derive the mathematical expression to determine the half-power frequency due to Cs....
I only need number 6 and the answer is not 0.003998 m ohms
Figure 1 shows the linear model of an operational amplifier circuit used in the inverting mode. Components (Rin, Ro and AvVin) shown within the dotted outline are internal to the amplifier "chip." R1 R2 Ro RL Rh Vin Vo V1 Figure . Inverting op amp system 1. Assuming the op-amp is ideal detemine the output voltage Vo given the following circuit component values, RI-9.5k, R2- 13.5k, RL...
Problem 2: BJT Small-Signal Voltage Amplifiers in the lectures, we covered in detail the analysis of an npn BJT amplifier that utilizes a single-supply DC biasing. In this problem, you will meet two additional amplifier architectures- one that is based on dual DC supplies combined with a DC current source, and the other that utilizes a pnp BJT with single-supply biasing. In both problems (below) you need to manually find the amplifier's Q-point (that is, the DC values of Ic...