38. For circuit shown in Fig. 7.70, calculate put swing limits. VinM1 Vout TIT Figure 7.70 38. For circuit show...
Derive Vout
Figure 8.62 8.38.For Fig. 8.63, analyze the functionality of circuit and derive expression for Vout- Vin o Vin2 M2 R1 X Figure Vout Vin1 8.43. What оp am of inpu Figure 8.63 844. Supposa incur a 8.39. For Fig. 8.64, analyze the current for input ffant uoltnge and output voltage
Fig. 3 with V Vnp.Assume Consider the transmission gate circuit shown in that VouT 0V at t 0, and X is now switched from 0 to 1. VouT Figure 3. Transmission gate circuit If the nMOS transistor is faulty (always OFF), derive an expression for the energy lost in the transmission gate. Show all steps clearly If the pMOS transistor is faulty (always OFF), derive an expression for the energy lost in the transmission gate. Show all steps clearly.
8.38. For Fig. 8.63, analyze the functionality of circuit and
derive expression for Vout.
2. For Fig.8.66(a cir- for the input cuit and verify its function mathematically.the current mior a func- 8.37.For AA.S Vin2 oltage 2 k wollol od M1 C MoHomout + Vin1 C OT + Wcg ab sub vo taum coo o ni TOTI9 9283-1210w ort nbFigure 8.62 or bns .0 wolod nism TIT smon&i 8.38. For Fig. 8.63, analyze the functionality of mcircuit and derive expression for...
Q.: Findi, in circuit of Fig 1 20 mH TIT 50 00S 4000/ V W 8092 40 4F 1002 2 sin 20001 A 6002 24 V Figure 1
Figure /.90 For Prob. 7.12. For the circuit shown in Fig. 7.91, calculate the time constant. 7.13 70 ? 2 mH .20 V@) 80 2 20 ? 30 ? Figure 7.91 For Prob. 7.13.
Calculate the gain of each circuit in Fig. 6.39 at very low and very high frequencies. Neglect all other capacitances and assume λ 0 for circuits (a) and (b) and γ 0 for all of the circuits. 6.9. T DD C1 C2 Vout Vout にM1 C2 out C1 Vout Vino -にM2 Vin-にM1 Figure 6.39
Calculate the gain of each circuit in Fig. 6.39 at very low and very high frequencies. Neglect all other capacitances and assume λ 0 for circuits...
Q4- A circuit diagram of a forward converter is shown in Fig. 3. V-200V, Vout-5V, fs= 100kHz, nún,-5, Lm-15m H, L=0.05mH. (a) Find the maximum value of duty cycle. (b) If the duty cycle is 0.5, find the turns ratio ni:nz. (c) If n n is as calculated in (b), what is the lowest input voltage allowed if Vout is to be kept equal to 5V? D, n, n, A/ D3 O1 Fig. 3.
Q4- A circuit diagram of a...
1. Calculate the RC time constant of the circuit in Fig.
1 using equation (1)
2. Derive expressions of Vout(t) for circuits in
Figs. 1 and 2
3. Sketch your derived results for Vout(t), clearly
labeling your initial voltages and time constants
10 k22 M + + Vin 0.1 uf Vout Fig. 1. RC circuit 0.1 uf + + Vin 10 k2 Vout Fig. 2. RC circuit.
Vout 1) For the circuit shown to the right a. Use your knowledge of reactances to determine the high, and low frequency behavior. What kind of filter is this? b. Derive a function for the gain as a function of frequency. Show that it limits correctly at high and low frequencies. c. Find an expression for the characteristic frequency for this circuit