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.

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.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

See similar textbooks

Similar questions

Write about two applications for a series circuit, (Think about the different electronics at home or at work), and some of the advantages and disadvantages?
An operational-amplifier circuit that may be used as a controller is shown in Figure Qla. (a) R4 ww R1 R3 e Co Figure Qla R1, R2, R3 and R4 are resistors and C1 and C2 are capacitors. Assume both op-amps are ideal and their input/output voltages are ei, e and eo, as shown in the Figure. Using the impedance approach: (i) obtain the transfer function for each op-amp, i.e. E(s)/E:(s) and Eo(s)/E(s). (ii) hence obtain the complete transfer function for the system, i.e. Eo(s)/Ei(s). (iii) Determine D(s) = Eo(s)/E:(s) when R1 = R2 = R3 = R4 = 1 N and C1=1 F, C2= 2 F. %3D (b) Consider the closed-loop control system shown in Figure Qlb. 1 Σ K.D(s) (s +2) Figure Qlb K is the gain and D(s) is the transfer function obtained in part (a)-iii. (i) Plot open loop zeros and poles for the above system in the s-plane. [. Determine whether the point (-1+j) is a closed loop pole for any value of K, by considering the angle criterion at this point. (ii) (c) Briefly summarise the steps, which need to be…
Please i need it quackly please
c) A Flyback converter has an input of 332 V from a DC source, operating at 40 kHz with duty cycle approximately 1/2. The rated output is 12 V at 5 A. The circuit operates with continuous inductor current at threshold 1.5 A, and the turn ratio must be an integer. By assuming that all the components are ideal, and capacitor and inductor are operating in steady state: i. Draw the converter circuit. ii. Determine the inductor's turn ratio. iii. Determine the primary inductance. Sketch the diode current and switch current. iv V. Find the peak and mean of the switch current.
Design a C converter with an Input Voltage of 36 Volts and an output power of 120 W and an output voltage of 54 Volts (Select Switching Frequency 50 kHz).Also;a) Duty Cycleb) 10% of the average inductor current of the change in inductor currentsFind the L1 and L2 values.c) Output Voltage fluctuation is less than 1% and the voltage above C1Find the C1 and C2 values so that the fluctuation does not exceed 5%.
3ZF The typical value of the out impedance of an op-amp is a.between 100 Ohms to little less than 1 KOhms b.less than 100 Ohms c.at least 10 percent of the input impedance d.equivalent to short circuit
5 please all parts will give like!!!
The two input terminals of an op-amp are connected to voltage signals of strength 745µV and 740µV repectively. The gain of the op-amp in common mode is 50 and CMMR is 8&IB. Calculate the output voltage and % of error due to common mode.
Choose the correct answer. *Please answer it ASAP if you can*
For the op-amp shown in the following figure, the midrange voltage gain is equal to- Vo 3 kn Select one: Oa-26.7 Ob-27.7 c. 27.7 d. 26.7 80 kf m
a) Calculate the VA voltage value.b) Given the input voltage (Vin) waveformin the above Op-amp circuit, Vtl (low)and Vtu (high) hysteresis crossoverCalculate the voltages. c) At the Vtl and Vtu transitions of the Vo voltageCalculate the position changes.
Q1: a) Design the oscillator in Figure 1 to start oscillation with R closed-loop gain of 8.5, then sustain oscillation at a resonant R1 o Vout frequency Assuming of 3.4 kHz. the drain-source IN914 resistance of JFET is 600 N. 2N5458 b) What will be the feedback R2 C2 resistance setting when R3 R4 C3 oscillation is stable? 1.0 kN Figure1