If output display is AC coupled on an oscilloscope, what might a single step function input look like?
If output display is AC coupled on an oscilloscope, what might a single step function input...
Un 100nFR out 2kC2 4.7uF Figure 3-3 (a) AC-coupled and (b) DC-coupled non-inverting AC-amplifier a) Why do you need a 100kS2 resistor to ground in the AC-coupled amplifier? b) Wharis the mainal and minima input ipedane Z- of this a ih freguencies do they occur? c) Where is the 3dB breakpoint frequency for the amplifier in Figure 3-3b? d) How large is Zin at the 3dB breakpoint frequency? e) What are the differences between the two circuits in Figure 3-3a...
Settings for the 5.2A function generator: • AC Sine Wave • f =
30 Hz • Phase Shift = 50° • Offset = 0 V • Amplitude = 2 V
B. Simulate the circuit seen in Figure 5.2. Use the same function generator settings as 5.2A. Record three to four cycles of both the input and output. Using the cursors on the oscilloscope, measuring the time shift between the maxima of the two waves, Δ, and use it to calculate...
Analog Oscilloscope Setup: 1. Turn on the power to the oscilloscope. 2. Connect the function generator to the Channel 1 input on the oscilloscope 3. In the Vertical Control Group, set the Channel 1 AC/GND/DC switch to AC. 4. Set the Volts-per-Division knob 5. Intensity knob: adjust the signal intensity and focus to a comfortable level by using the intensity and focus knobs, respectively Set the seconds-per-division knob 6. Assignment Procedures: 1. Using the settings completed above, answer the following...
3. The picture below shows actual oscilloscope traces taken from the output of a function gen erator. The upper trace shows the signal when the generator is plugged directly into the oscilloscope; the lower trace shows the signal when a "tee" is attached to the input of the oscilloscope, and a 1502 resistor is hung on the tee, with the other end connected to ground, as shown in the sketch. From this information, determine the Thévenin equivalent circuit of the...
3. Consider the causal single input single output system described by the transfer function (6s + 1)(4s + 3) 53 + 8s² + 19s +2 Y(s) U(s) Using the phase variable decomposition method express in terms of the state vector x, state matrix A, input matrix B and output matrix C.
Consider a single input, single output system with transfer function 10 H(s)- s+10s +25s +100 Obtain a state-space model in observer canonical form for the system, and design a full state estimator for desired eigenvalues of -10.-20 and-30. What are the values of the estimator gain matrix?
Consider a single input, single output system with transfer function 10 H(s)- s+10s +25s +100 Obtain a state-space model in observer canonical form for the system, and design a full state estimator for...
3. Using one 74LS08 chip, draw a schematic that will perform the AND function on five inputs. 4. Why did the measured output of procedure 7 occur even though the input was floating? 6. Replace input A for the previous circuit with a 10KHZ TTL square wave input (Figure 3-9). Display the input waveform on Channel 1 of the oscilloscope. Set the B input to LOW (GND), and display the output (Y) waveform on Channel 2. The oscilloscope trigger should...
At t=0, a step function of height 5 is applied to the transfer function shown Input Signal Output Signal S2 + 7s + 10 What is the output signal as a function of time?
A profit-Maximising competitive firm uses Just one input, ac. It's production function is g = 40012 The price of output is t12 and the factor price is t3 al. What is the profit-maximising quantity of the input? b) What is the profit-Maximising quantity of output ? c) what is the maximum profit achieved
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Step Subtract Integrator Gain Scope 2.5K Display Build the above model and determine from the scope display the value of the output after 1 second from the rising start of the step input. Assume a unitary step (check that the default setting for the step 0 to 1 is set) and account for the step start time if not t-(0 Tips: Use the zoom function on the scope to get the required accuracy....