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The no-load output voltage of an amplifier is 4 V. When a 600-Ω load is attached to the output, the voltage drops to 3 V. What is the amplifier's output resistance?
Assume that h is a random variable with PDF. Pn(h)=0.1*d(h-1)+0.9d(h-3). n is a zero mean white gaussian noise with variance 0.5. Assume that the channel state info is available at the reciever for each of the three branches.
Design (determine) the metallurgical channel thickness of an n-channel silicon JFET such that the pinch off voltage is -3.0V. The doping parameters are NA=3x1018cm-3 and Nd=2x101616 cm-3.
Show a flowsheet program that represents the peak correction value used in the measurements system.- Use block diagram.
The power factor of a load connected to a 120-V 60-Hz source is raised from 0.866 lagging to 0.966 leading by connecting a 110.5-?F capacitor in parallel with the load. Determine the load current I1 and the circuit current IT.
Consider the circuit shown in Figure. Write the differential equation for v(t). Find the damping coefficient, the natural frequency, and the form of the complementary solution.
Figure 2.27 shows a simple mechanical system consisting of a mass, spring and damper. Derive a mathematical model for the system, determine the transfer function, and draw the block diagram
Design an XOR gate using standard CMOS logic and with pass-transisitor logic and determine the number of transistors (NMOS and PMOS) required for each implementation.
Use SPICE to determine the characteristics of the NMOS inverter with a linear load device for the design given in Fig. 6.29.
Verify the operation of the admittance inverter of Figure 8.38c by calculating its ABCD matrix and comparing it to the ABCD matrix of the admittance inverter made from a quarter-wave line.
With the help of a labelled diagram, briefly describe the operational role of the three types of bus in a microcomputer system.
Experiment with the bandpass circuit as in Illustration 206 and establish how the envelope (Si-function) and the mid-frequency changes with the pulse response. How can the filter properties of the bandpass be seen clearly from the pulse response i..
The exits of both lines are open to the atmosphere. Assuming frictionless flow, what is the mass flow rate in each line?
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