Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
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- An application demands that a sinusoidal pressure variation of 250 Hz be measured with no more than 2% dynamic error. In selecting a suitable pressure transducer from a vendor catalog, you note that a desirable line of transducers has a fixed natural frequency of 600 Hz but that you have a choice of transducer damping ratios of between 0.5 and 1.5 in increments of 0.05. Select a suitable transducer.arrow_forwardThe voltage signals VA and VB from two sensors need to be conditioned to obtain an output voltage Vout= A(VA - VB), where A is an amplification terms that can be adjusted between 0 and 100 using a potentiometer. c) The obtained signal needs to be filtered to attenuate high frequency noise. Which of the following circuits using ideal op-amps is the most appropriate for this function and why? Input C R CIRCUIT 1 Output Input R CIRCUIT 2 Output Input m R R CIRCUIT 3 Outputarrow_forwardclearly hand write, As soon as possible!arrow_forward
- Three EMG signals are required to be summed. The first and second signal, EMG1 and EMG2, are required to be scaled by a factor of -4, and the third signal, EMG3, by a factor of -2. Design an Op-amp based circuit to produce the required output operation.arrow_forwardPlease show each step with the formulas usedarrow_forward9.1. Determine measures of performance in time-domain specification: a) percent overshoot, b) settling time with +/-5% tolerance, c) time to first peak, d) time to rise, e) delay time, f) oscillations period, and g) steady-state tracking error from data on figure below. 9.2. Identify the dynamics in terms of transfer function with estimated parameters. 3.928 0.5 2.72 2.5 2 1.5 3.5 3 output A input LSarrow_forward
- The input to the circuit below is a symmetric square wave that goes between +£1 V and has a period 1 ms. Make an accurate graph of the output voltage; be sure to label the axes. The op-amp is ideal, and the capacitor on the output is large. The output capacitor blocks any d.c. component. 0.1 uF 10 k vin o voutarrow_forwarda) Using a NTC thermistor with "B=4000K, resistance: 5k2 at 25°C" we want to measure the temperature of an environment in the range 50°C - 100°C. Design a suitable circuit for this purpose with "zero" output signal |v) value at 25ºC. Express the output and its temperature-sensitivity in terms of temperature (y=f(T°C) and dy/dT= f(TºC)). Roughly draw y and dy/dT for the given temperature range. (Note: For NTC: RNTC=Roexp(B(1/T-1/To))arrow_forwardThe upper critical frequency of an op-amp’s open-loop response is 200 Hz. If the midrange gain is 175,000, answer the following: What is the ideal gain at 200 Hz? What is the actual gain? What is the op-amp’s open-loop bandwidth?arrow_forward
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