Why must some valves be left open between the storage tank and the compressor, and the compressor and the cooler?
A) To push vapor from the cooler to the storage tank
B) To allow the liquid in the storage tank to flash
C) To empty the condenser
D) To draw suction through the storage tank
D
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Change the circuit of Problem 12.28 to the circuit in Figure E.29. This is a feedback circuit which establishes a positive closed-loop voltage gain of the overall amplifier. Repeat steps (a), (b) and (c) of Problem 12.28 for the feedback circuit and compare the results. What are the important effects of feedback for this circuit?
Ri = 1 M?, Rx = 1 k?, Cx = 8 ?F, Ro = 10 ?, A0 = 106, Rf = 10 k?, Rs = 5 k?
Problem 12.28
The circuit in Figure E.28 is a simple approximate model of an operational amplifier with the inverting input grounded.
Ri = 1 M?, Rx = 1 k?, Cx = 8 ?F, Ro = 10 ?, Ao = 106
(a) Define the excitation of the circuit as the current of a current source applied to the noninverting input and define the response as the voltage developed between the noninverting input and ground. Find the transfer function and graph its frequency response. This transfer function is the input impedance.
(b) Define the excitation of the circuit as the current of a current source applied to the output and define the response as the voltage developed between the output and ground with the noninverting input grounded. Find the transfer function and graph its frequency response. This transfer function is the output impedance.
(c) Define the excitation of the circuit as the voltage of a voltage source applied to the noninverting input and define the response as the voltage developed between the output and ground. Find the transfer function and graph its frequency response. This transfer function is the voltage gain.