(1) Determine the Thevenin equivalent circuit at the terminal a and b. 3 3322 8223 (2)...
Problem 7 Find the Thevenin equivalent at a-b terminals of the circuit below. V. - 10 k 2 w 2012 да 70 v Problem 8 Use Norton's theorem to find V. in the circuit below. 12 k12 2k12 10k 360 v 24 kN2 3 0 mal kaž v.
Problem #1: Circuit Analysis and Thevenin Equivalent [20 points] The bridge circuit is connected to a load RL between terminals (a, b) as shown (a) Use node-voltage method to solve for VTH respect to terminal (a, b) (b) Use mesh-current method to solve for isc respect to terminal (a, b) 5Ω 2Ω 2 Ri b al 16 V 4Ω 2Ω
1. (b). Find the Thevenin equivalent circuit of the circuit in Fig.1 to the left of the terminals. Ix 5.12 6.12 M a 10V 1 312 9.12 }
Problem 3 Given the linear, two-terminal circuit below, do the following: a) Find the Thevenin equivalent of the circuit b) Find the Norton equivalent of the circuit c) Determine the value of the load resistance that would achieve max power transfer if connected across the circuit's terminals d) Determine the max power value that can be transferred to the load described in part (c) 1 kN2 4000 2 ke 3 k13 1 mA Vx3312
Determine thevenin resistance Rth 3. Determine Thévenin equivalent resistance Rh between terminal a and b in the circuit below. (Hint: This is the same circuit of HW #2, P2.30 that we have determined open circuit Vab. In this problem we are looking for Rth only. If needed, you may use any portion of HwH2 results without solving it again.) (10 pt.) 8Ω 3 0 4 92 Ct 2 A 15 V 6 2 Vw
Determine the Thevenin equivalent impedance w.r.t. terminals a-b if Vs = 27 V and R = 332 Give only the real part of the rectangular-form answer. Provide the appropriate unit. а 0 Īx R 31x bo -22012 Vs + 401 Find the Thevenin equivalent voltage of the circuit with respect to terminals a-b in the rectangular form (A +jB). Give your answer as B. Let R1 = 4 k1. Zc1 =-j5.4 k12. Zc2=-j10 k12. ZL1 =j10 kN. ZL2 = j2...
thevenin equivalent circuit No In order to find Rr, short the two terminals and measure the short circuit current sc, then apply Ohms law. RT= R1-2.2K 3.3.KL R2 NC Figure 2: A practice circuit. 2.2 k, For the practice circuit in Figure 2, find the Thevenin Equivalent Circuit when Vi 5 V, R, Question 1: and R2 3.3 kn RT VT + RT= VT= Figure 3: The Thevenin equivalent of the practice circuit.
For the circuit below, perform a Thevenin equivalent analysis. a) Determine the Thevenin equivalent resistance R_TH between points A and B. b) Determine the Thevenin equivalent voltage V_TH between points A and B. c) Let the components have the following values: epsilon_1 = 4 V, epsilon_2 = 3 V, R_1 = 15 k Ohm, and R_2 = 8 k Ohm. You attach a 12 k Ohm resistor from A to B. Using parts a) and b), draw the Thevenin equivalent...
Problem 4: Determine the Thevenin equivalent at terminals A-B of the circuit below 10 kΩ 20 kΩ 4 V 70 V
Determine the Thevenin equivalent with respect to the terminals a,b for the circuit shown in (Figure 1) . Suppose that vs = 100 V and ? = 7500. A) Find RTh. B) Find vTh.