Basic Engineering Circuit Analysis
11th Edition
ISBN: 9781118992661
Author: Irwin, J. David, NELMS, R. M., 1939-
Publisher: Wiley,
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Problem4.33
Design a circuit that can perform the operation vo =3v1+4v2−5v3−8v4,where v1 to v4 are input voltage signals.
A-
AB
C-
Figure P4.14
F2
Figure P4.15
F1
4-11. Analyze the two-output combinational circuits shown in Fig. P4-15. Obtain the Boolean functions
for the two outputs and explain the circuit operation.
Q4: Find the value of RL to maximum power transfer in the circuit shown below. Then find
the maximum power.
Chapter 4 Solutions
Basic Engineering Circuit Analysis
Ch. 4 - An amplifier has a gain of 15 and the input...Ch. 4 - An amplifier has a gain of 5 and the output...Ch. 4 - An op-amp based amplifier has supply voltages of...Ch. 4 - For an ideal op-amp, the voltage gain and input...Ch. 4 - Revisit your answers in Problem 4.4 under the...Ch. 4 - Revisit the exact analysis of the inverting...Ch. 4 - Revisit the exact analysis of the inverting...Ch. 4 - An op-amp based amplifier has 18V supplies and a...Ch. 4 - Assuming an ideal op-amp, determine the voltage...Ch. 4 - Assuming an ideal op-amp, determine the voltage...
Ch. 4 - Assuming an ideal op-amp in Fig. P4.11, determine...Ch. 4 - Assuming an ideal op-amp, find the voltage gain of...Ch. 4 - Assuming an ideal op-amp in Fig. P4.13, determine...Ch. 4 - Determine the gain of the amplifier in Fig. P4.14....Ch. 4 - For the amplifier in Fig. P4.15, find the gain and...Ch. 4 - Using the ideal op-amp assumptions, determine the...Ch. 4 - Using the ideal op-amp assumptions, determine...Ch. 4 - In a useful application, the amplifier drives a...Ch. 4 - The op-amp in the amplifier in Fig. P4.19 operates...Ch. 4 - For the amplifier in Fig. P4.20, the maximum value...Ch. 4 - For the circuit in Fig. P4.21, (a) find Vo in...Ch. 4 - Find Vo in the circuit in Fig. P4.22, assuming...Ch. 4 - The network in Fig. P4.23 is a current-to-voltage...Ch. 4 - Prob. 24PCh. 4 - Determine the relationship between v1 and io in...Ch. 4 - Find Vo in the network in Fig. P4.26 and explain...Ch. 4 - Determine the expression for vo in the network in...Ch. 4 - Show that the output of the circuit in Fig. P4.28...Ch. 4 - Find vo in the network in Fig. P4.29.Ch. 4 - Find the voltage gain of the op-amp circuit shown...Ch. 4 - Determine the relationship between and in the...Ch. 4 - Prob. 32PCh. 4 - For the circuit in Fig. P4.33, find the value of...Ch. 4 - Find Vo in the circuit in Fig. P4.34.Ch. 4 - Find Vo in the circuit in Fig. P4.35.Ch. 4 - Determine the expression for the output voltage,...Ch. 4 - Determine the output voltage, of the noninverting...Ch. 4 - Find the input/output relationship for the current...Ch. 4 - Find V0 in the circuit in Fig. P4.39.Ch. 4 - Find Vo in the circuit in Fig. P4.40.Ch. 4 - Find the expression for in the differential...Ch. 4 - Find vo in the circuit in Fig. P4.42.Ch. 4 - Find the output voltage, vo, in the circuit in...Ch. 4 - The electronic ammeter in Example 4.7 has been...Ch. 4 - Given the summing amplifier shown in Fig. 4PFE-l,...Ch. 4 - Determine the output voltage V0 of the summing...Ch. 4 - What is the output voltage V0 in Fig. 4PFE-3. a....Ch. 4 - What value of Rf in the op-amp circuit of Fig....Ch. 4 - What is the voltage Vo in the circuit in Fig....
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- 4.17 Using the ideal op-amp assumptions, determine I₁, I2, and 13 in Fig. P4.17. 1 mA (₁ M R₁ Figure P4.17 13 1₂2 www R₂ It -1₁ OV₂arrow_forwardConsider the P-I-N structure shown in Rg. 4-49. The I region is intrinsic. Determine the quantities in (a) and (c). Assume that no bias is applied.arrow_forwardOp Amps and Thevenin practice In the circuit of Fig. P4.10, a bridge circuit is connected at the input side of an inverting op-amp circuit. (a) Obtain the Th´evenin equivalent at terminals (a,b) for the bridge circuit. (b) Use the result in (a) to obtain an expression for G =uo/us. (c) Evaluate G for R1 = R4 = 100 W, R2 = R3 = 101 W, and Rf = 100 kW.arrow_forward
- In Fig. P4.14.What is the value of lo? (R1=3.3 k0, R2=35 k0, Vin=3 V) V₁ in Figure P4.14 10 R₂ R₁ -OVarrow_forwardOBJECTIVE 4-3 OP AMP CIRCUIT DESIGN AND EVALUATION (SECT. 4-5) Given an input-output relationship, design resistive OP AMP circuits that implement the relationship. Evaluate the alterna- tive designs using stated criteria. 4-51 The OP AMP circuit shown in Figure P4-51 has the following input-output relationship: (RxRy+RxRz+ RyRz), RRY -US Ry was accurately measured to be 12.247 km2. Select all the other resistors so that to-US. Vo = - R w VS Rx w ww FIGURE P4-51 Rz w Ry VOarrow_forwardPlease answer in typing format Please I will like itarrow_forward
- determine the P4ohm by using (a) Super position Theorem (SPT) and (b) Thevenin's Theoremarrow_forwardQ4. You are asked to design a vending machine that dispenses gum (G) or cake (C). Both items cost 35 cents. The machine takes only dimes (D) and quarters (Q), one at a time. The machine operates as follows: • First, 35 cents have to be deposited. Then, select input G or C. If G or C is asserted before 35 cents have been deposited, nothing happens. • When input G is selected, G = 1 AND C = 0. When C is selected, G = 0 and C = 1. Assume that the sensors are designed in such a way that condition G = C = 1 will never occur. • The machine doesn't dispense any change. If you deposit 50 cents or 40 cents and select an item, you're out of 15 cents or 5 cents. The machine will keep the change. Draw the state transition diagram for the above machine in Mealy or Moore style. Note: Dime means 10 cents. Quarter means 25 cents.arrow_forwardhand written asaparrow_forward
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