How to derive impulse response from characteristic impedance

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Impulse response can be derived from characteristic impedance (Zo), source impedance (Z_source), and load impedance (Z_load) in coaxial cables used for data transmission. Mismatching these impedances can lead to reflections that create errors in digital communication, particularly affecting the bit error rate (BER). Analyzing the effects of impedance mismatches requires understanding the receiver's input threshold and the impact of transmission line reflections. The first reflection is typically the most significant and correlates with the degree of mismatch. Understanding these dynamics is crucial for optimizing data transmission and minimizing errors.
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i have a coax cable that will be used in data transmission. i have measured the open and short impedance and then characteristic impedance(Zo) for the cable. Eventually I will have a transmitter with Z_source in one end of the cable and receiver with Z_load at the other end of the cable. Is it possible to derive impulse response as a function of Zo,Z_source and Z_load?
 
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Unless the bit rate width is much longer than the coax line, it is not adviceable to to mismatch the source, line and termination impedance. Reflection will create a step change on the logic level and cause error.

In digital communication, you don't deal with standing wave and those, either you have it or you don't.
 
They all will be matched but i want to analyze the effects of mismatches on BER using impulse response to see how much mismatch is tolerable.
 
To do that, you have to know the threshold of the input of the receiver first, that is the most important thing. Then look up the transmission line reflection on step function. Usually only the first reflection step is the biggest and is proportion to the line and termination mismatch.
 

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