Homework Assignment #4: Input Circuits, Amplifiers, and Filters 1. Consider the Wheatstone bridge circuit shown below....
<Homework 04 P 2.106 - Enhanced - with Hints and Feedback Part A The Wheatstone bridge circuit configuration is often employed with strain gauges in measuring strains of beams and other mechanical structures. The four gauges are connected in a Wheatstone bridge as shown in the figure. The change in resistance is given by AR=RG AL in wich 4L is the strain for the surface of the beam to wich the gauge is attached, R, is the gauge resistance before...
Activity 2) Wheatstone Bridge Circuit Analyze and then construct the circuit shown with the indicated nominal R values shown in the table. Use the 5v supply for Vsource. 7) Calculate and Measure the voltage across BC for each version of the circuit, Q1 and Q2. + (V) Ri R2 a + Q# Calculated Measured V[V] V[V] 1 R1 R2 R3 [kΩ] | [kΩ] [kΩ] 2 1 2 2 2 R4 [k22] 1 Two 1 k22 in parallel + R3 N...
GE ezto.mheducati Chapter 4 - Review Homework McGraw-Hill ConnectStude Consider the Wheatstone bridge shown below, where R 170 2002 30 Ω 602 40 16 V References eBook & Resources Section Break Difficulty: Hard Learning Obre 25 10.00 points Determine the current through the 40-resistor The current through the 40-resistor is ma Hints References eBook & Resources Hint 1 Check my work
Problem 52: (25 points) Operational amplifiers are important building blocks in a wide spectrum of electronic systems such as amplifiers and filters. The concept of feedback control is of central importance in understanding the design of operational amplifier circuits. For without feedback, operational amplifiers behave as comparators. This problem shows why it is necessary to connect the output of an operational amplifier to its inverting input. Negative feedback produces a circuit that is BIBO stable. Figure 1(A) shows the circuit...
BJT and Amplifier Circuits +15 V 27 k R2 680 Ω Compute: 53 1. Show the extra units and connections RE 680 2 R2 12 kC2 2. The input and the output impedance 3. The Voltage gain Av 4. If the input ac voltage with Vp-1 mV, draw the output voltage. What is the maximum vin value. 5. 6. The current gain Ai and Ap. 7. Compute the produced power and the consumed power in transistor and RL. BJT and...
1) An input step voltage Vin(t)=10 u(t) Volt is applied to the circuit shown below. The initial voltage on the capacitor is zero. Using Laplace transform techniques, calculate the resulting output voltage Vout(t). R1 R2 Vout 2000 Vin c1 1000 1uF R3 1000
solve these two parts please (b) A 5-kn rotary pot-meter is connected to a 0-350 robotic arm. The pot-meter is supplied with 15-V. The output of this pot-meter is connected to an interface circuit. The input resistance of interface circuit is 40 ko. Find the loading error at the output of the pot-meter when the robotic arm is set to 70° (8 Marks) (c) The output of unbalanced wheatstone bridge is amplified 300 times using a differential amplifier. In the...
4. (15 points - PA.3) Consider the RLC circuit shown below, where the input and output x(t) and y(t) are the input voltage vi(t) and capacitor voltage vc(t) respectively, and R = 1 K12, C = 0.1 mF, L = 100 H. i(t) + (i) Determine the frequency response of the system H (jw), as well as its magnitude and phase responses. What type of filter does it correspond to? (ii) Sketch its magnitude and phase response in Matlab. You...
3) Consider the op-amp circuit shown below: V, V. ZF Z, a) Determine the input-output relationship in the frequency domain. Ri+ 1/(joC) b) Compute and simplify the voltage transfer function, Vo(o)/V(o) if Z and Zf= 1/(joCr)
1. Consider the circuit given below in Fig. 9.8. The input is a periodic 1 kHz square wave as given below in Fig. 9.9. R-8.2 k2 C = 10 nF V&O)=0 V CV Fig.9.8 vs(t), volts 100 200 300 400 500 600 700 800 900 1000 1100 1200 Fig.9.9 i. Determine the time constant .( T = ................) ii. Determine the charging behaviour of the output. iii. Determine the discharging behaviour of the output. iv. Plot the output on Fig....