6. Negative feedback calculation Assumption: You may assume that A is 0 (a) (1 point) Identify...
Problem 2 Consider the feedback amplifier circuit on Figure P2. The DC current gain of transistor Q3 is -100 1. What type of feedback (or what feedback topology) do we have on the circuit in Figure P2? 2. Draw the A-circuit. Express and compute the open-loop voltage gain A at mid-band frequency 3, Draw the γ-circuit. Express and compute the feedback factor γ 4. Express and compute the overall gain of the feedback amplifier Ap Express and compute the input...
Requires 100% correct answer along with pspice 10.24 A transconductance amplifier with negative feedback is shown in Fig. P10.24. The amplifier has an open-loop P transconductance of A 50 x 103 A/V, an input resistance of R 25 k!2, and an output resistance of Ro-50 k2. The feedback circuit has RF 2.5 kS2. The source resistance is Rs 1 k, and the load resistance is RL-500 Ω. Determine (a) the input resistance Ri,-vs/is, (b) the output resistance Rof, and (c)...
EEET255 Electronics Page 4 of6 QUESTION 3: [25 marks] Figure 3 shows a feedback amplifier circuit R, is the source resistor, R is the feedback resistor and R, is the load resistor. The op-amp has an internal input resistance of R, an intemal output resistance R, and an internal gain of A Apply the "Systematic Analysis" method in this question. Figure 3 3.a State the feedback topology used in the amplifier circuit and which type of feedback amplifier is shown...
Please solve all parts pf the questions. Please show clear and neat work. Thank you! FEEDBACK AMPLIFIER ANALYSIS β,s/ Sa) Identify the feedback topology being used. Draw the B-network and You must justify or explain find the numerical value for B- your answer for full credit (20 pts) 2 Assume matching transistors with DC bias voltage (or an ac ground) Sb) Draw and fully label the A-circuit (includes loading effects, R & R but NO feedback) p) Sc) Calculate the...
1. The feedback is negative. True or False? 2. Find the value of the forward amplifier gain 3. If R1=10kΩ, what value should R2 have to have a feedback factor of 1/2? 4. The closed-loop gain is about … (Hint: The closed-loop gain is positive) A) 1.5 B) 2.8 C) 1.9 D) 3.7 5) If the overall forward amplifier has a 150 Hz bandwidth (due to a single dominant pole), the bandwidth of the closed-loop circuit would be around …...
Question 4: Figure 4 In the series-shunt feedback amplifier shown in Figure 4, the transistors are biased with ideal current-sources 1, 0.1mA, 12 1mA, the devices operate with VE0.7V and t = 100. The input signal V, has a zero DC component. Resistances are (a) If the open loop gain is large, what do you expect the closed-loop gain A, -V/V, to be? Give both an expression and its approximate value (b) Find the DC emitter current in each of...
1 (70 points) In the following multi-stage amplifier input and output of the amplifier as well as the feedback resistance (RF) were AC coupled to nodes through the coupling capacitances (Ce-100uF). W/L)2 55/0.25u VAA R2 M1 Xin R, VI M2 Ri Ro a. (20 points) Calculate the bias currents of IpS,MI, IDS M2, IR2 and the total DC power consumption of the circuit assuming Ro Determine the operation regions of the transistors. (20 points) Find the type and polarity of...
1. Consider the Common-Emitter BJT amplifier circuit, shown below. VD VOD BJT Parameters: B=99 A/A i=0 RE Co Circuit Parameters: Ca Cc2 = 0 F Car = OF R = 2022 R = 2002 R1 = 25.8 k22 Ry2 = 51.6 ks V = 15 V VEE=0 V Сct Active Mode: Va >0.2 V Vwx=0.7V Ic=B1, Ic=al, 1 R2 3 SRCA a) Find the open-circuit voltage gain, Ave, of this amplifier circuit. Verify your assumptions. b) Compute the input resistance,...
+12V 0. RI 34 kn a) Determine the feedback topology of the feedback amplifier shown above if the o t is taken from the collector node of Qs You must justifylexplain your answer below for full credit. [3 pts.) b) Determine the feedback topology of the feedback amplifier shown above if the output is taken from the emitter node of You must justify/explain your answer below for full credit. [3 pts.] CT For the circuit described in part (b), draw...
QUESTION (5) The following series-shunt feedback amplifier is already biased properly. +VDD I Rp2Z Rois Tove M a) Identify the feedback network (B circuit) and provide an expression for B. Also give an expression for the ideal or upper-bound value of the closed-loop gain Af. You can neglect the output resistance ro for Mi and M2. (6 points) b) Determine the ratio Rz/Ri that will provide an ideal closed-loop gain of 10 V/V. If R1 = 1 k12, what should...