1. Simulate the resistor cube circuit illustrated in Figure 11 to determine the resistance between terminals A to B. validate your simulation result using hand calculation.

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Using LTSpice, simulate the following circuits and the provide the required information. Provide your observation for each item.
1. Simulate the resistor cube circuit illustrated in Figure 11 to determine the resistance between terminals A to B. validate your
simulation result using hand calculation.
Figure 11. Resistor Cube Circuit
2. Perform transient circuit simulation for an RC (R=1k, C=1uF) circuit shown in Figure 12 to determine the corresponding output
voltage (and current) vs a unit step response input signal.
R
Vb
Figure 12 RC Circuit
3. Create and simulate a hierarchical symbol for an 8-bit, 5V, 200usec digital patterm generator circuit (digital counter) that can be
used to validate various digital circuits. Use rise and fall times of 0.1nsec and time delay of 0. Your output should replicate the
signals shown in Figure 13 below:
Transcribed Image Text:Using LTSpice, simulate the following circuits and the provide the required information. Provide your observation for each item. 1. Simulate the resistor cube circuit illustrated in Figure 11 to determine the resistance between terminals A to B. validate your simulation result using hand calculation. Figure 11. Resistor Cube Circuit 2. Perform transient circuit simulation for an RC (R=1k, C=1uF) circuit shown in Figure 12 to determine the corresponding output voltage (and current) vs a unit step response input signal. R Vb Figure 12 RC Circuit 3. Create and simulate a hierarchical symbol for an 8-bit, 5V, 200usec digital patterm generator circuit (digital counter) that can be used to validate various digital circuits. Use rise and fall times of 0.1nsec and time delay of 0. Your output should replicate the signals shown in Figure 13 below:
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