Description
Frequency Limits and Complete Respond of an RLC Circuit
Answer Discussion
Please answer BOTH of the questions.
o Discuss why frequency limits are critical in design of digital integrated circuits.
o Discuss what is meant by the complete response of an RLC circuit. Describe the two parts that make up this response.
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Classmate Responses (Reply to these two please)
Joshua Cadwell
- Discuss why frequency limits are critical in design of digital integrated circuits.
- Frequency Limits are critical when designing a digital IC circuit to ensure we do not exceed the capability of the circuit. If we turn the frequency beyond the frequency limit we will get distortion since we essentially are out running the IC capability to repsond in the shorter time and essentially losing data. I think of this as your mind is out running your mouth and you jump from one thing to the next which makes comprehension harder for the person acquiring the information.
- Discuss what is meant by the complete response of an RLC circuit. Describe the two parts that make up this response.
- The complete response is how a circuit responds to both internal and external energy
- Internal energy (forced response) if the magnitude of the internal energy and impedance
- external ( natural response ) determined by impedance , the amplitude of the frequency is the difference of the initial energy storage and the foreign functions
references
Frequency limits of bipolar integrated … – UC santa barbara. (n.d.). Retrieved March 7, 2022, from https://web.ece.ucsb.edu/Faculty/rodwell/publications_and_presentations/publications/rodwell_IMS_2006_digest.pdf
Complete response. (n.d.). Retrieved March 6, 2022, from http://www.ee.surrey.ac.uk/Projects/CAL/complex-frequency/Complete%20Response.htm#:~:text=The%20Complete%20response%20is%20the,form%20of%20the%20forcing%20function.
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David Travis
Why are frequency limits critical in the design of digital integrated circuits: The F-limit is critical as it takes time for a signal/data to pass/propagate through each gate in an integrated circuit. If the frequency passes the upper F limit of the gates unused in the circuit, the output of the circuit will become corrupt, as the output at that given time would be behind the intended output. Therefore, a circuit would be outputting “bad” data with no problems with any component, except that the frequency of data passing through the gates becomes faster than the actual gates can “process”.
A complete response of an RLC circuit can be said to be the sum of a “natural” response and a “Forced” response. The natural response is allowing a circuit to “behave” without any forces other than the external/input source. The forced response is when the external input enters a circuit with charged components. This causes an oscillation much like bouncing on a trampoline. One jump becomes many upward and downward movements of the trampoline until the energy dissipates and the trampoline stops moving. The frequency of the up and downward motion can be affected by two or more people on the trampoline. If a person jumps in the center, another person can change the height of the upward movement by adding downward force to the force provided by the original jumper.