


30%) For the network shown below: 7) Determine Vasp and1 2) Find gmo and g 3)...
QUESTION 1 +20 V a. Determine the mathematical expression for Av. b. Calculate Zi, Zo and Av for the given network. p-4.5 V i 10ΜΩ QUESTION 3 a. Design a voltage-divider amplifier such that AvNL > 350, Zo 7 kQ, Zin> 1 k2. Use a silicon transistor with r0-80 kQ, β-120 and a power supply of 20 V. b. Draw the diagram of the circuit you have designed.
QUESTION 1 +20 V a. Determine the mathematical expression for Av. b....
3. An electronic amplifier has the circuit shown below. Determine the impedance parameters for the circuit. 11 1Ω 2Ω 3Ω 4- An op amp circuit and its model are shown below. Determine the h-parameter model of the circuit and the H matrix when R,-100 kQ, R1 =R2-| MQ, Ro-1 kQ, and A =104. R2 V. 5(a) 11 R Ro V. Avi R1 2 o (b) ) 0p amp circut and (b) circuit model.
4. In the circuit shown below, a parallel RC network creates a frequency-dependent feedback path for the inverting amplifier block with gain Av (a large negative value). Use the Miller theorem to find the equivalent input impedance Zin as indicated in the diagram and then show that Vin/Vsig is given by the symbolic expression shown below right. Choose a value for capacitor C to make the upper cut-off frequency fH equal to 22 kHz. Repeat the calculation for the case...
Design the inductively coupled common emitter (CE) amplifier
shown in Fig. for Q. 7(a) to drive a 2 kQ. load with Vcc = 12 V,
VBE = 0.7 Y, β = 200, Rin = 4 kQ. and Av = -10.
Determine the current gain Ai and power delivered to the load
Po.
[Hint: Draw the small signal equivalent circuit and use Rg = 0.1BRę, where R, =R,||R, ). -- -- oom. . b 09 PR Vo - . Fig. for...
84) Refer to the following gels and answer the questions below (7 pts) B. 1) "non-GMO" test sample, plant mastermix 2) "non-GMO test sample, GMO mastermix 3) "GMO' test sample, plant mastermix 4) "GMO test sample, GMO mastermix 5) GMO purified DNA, plant mastermix. 6) GMO purified DNA, GMO mastermix 7) Molecular weight marker Which gel has the pattern you would predict to see if: A) The DNA extraction didn't work? B) The test food was a GMO and the...
In the circuit shown below Vcc=5.0 V, R = 30 KO, R2 = 20 KO, RE = 1.3 KO, RL = 2 KO, C1 = C2 = 10uF. For the BJT: B = 200, VA = 100 V, C = 1pF, C = 10pF, rx = 0, 9m = Ic/V1, V1 = 25mV. The internal resistance of source Vin is 1.0 KQ. For BJT: r. = VA/Ic, Im = B/gm. Av = -9m(R_Il ro), Miller Capacitances: Cm1 = C (1...
Find the Thevenin equivalent circuit for the circuit shown below. Draw the equivalent circuit along with the load impedance. V 10 /0° V, w 1000 rad/s. Calculate the current through and the voltage across the load resistor. (30 pts) L1 1 mH R1 L2 500 Q 1 mH V C1 RL 100 μF 1.5 kQ
Q4 The network diagram of a project is shown below E.4 B.3 G.5 D.5 A.7 F.2 C.4 (a) Use two-pass method to determine the critical path. (3 points) (b) What is the project duration? ( points) (c) What is the slack time of activity F? ( points)
Q4 The network diagram of a project is shown below E.4 B.3 G.5 D.5 A.7 F.2 C.4 (a) Use two-pass method to determine the critical path. (3 points) (b) What is the project...
For the circuit shown below, let Vcc 9 V R2 RE-0.11 kQ, R1 3.6 k2. and R2 -5.6 kQ. The transistor parameters are β-200, VBE(on)-OTV, VA-100 V and VT = 0.026 V. (a) Determine the quiescent value of IEQ (b) Find the small-signal voltage gain Av Vo/vs (c) Determine the output resistance R, looking into output terminals Av= 0.5589 Ro-0.4688 Ω Ro-0.9118 Ω leQ- 23.76 mA Ra " 0.6538 Ω leo 39.52 mA A, 0.9938
For the circuit shown below,...
3) Given that Vo 4 V in the network in the circuit below, find Vs. 2 k12 6 V 3 k1 12kΩ 2mA