Mutual inductance and crosstalk analysis
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The mutual inductance between the two circuits shown in FIGURE 2 is
20 nH. It may be assumed that (R1 + R*L1) >> w*L1 and that (R2 + RL2) >> w*L2.
(a) Estimate the crosstalk voltage at the load of circuit B when the signal
source of circuit A is V1 = 100 mV at 1 GHz.
(b) Plot the crosstalk voltage (at the load of circuit B) as a function of
frequency.
(c) Suggest three ways of reducing inductive crosstalk
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Solution Summary
The following questions are addressed around crosstalk
The mutual inductance between the two circuits shown in FIGURE 2 is
20 nH. It may be assumed that (R1 + R*L1) >> w*L1 and that (R2 + RL2) >> w*L2.
(a) Estimate the crosstalk voltage at the load of circuit B when the signal
source of circuit A is V1 = 100 mV at 1 GHz.
(b) Plot the crosstalk voltage (at the load of circuit B) as a function of
frequency.
(c) Suggest three ways of reducing inductive crosstalk
Solution Preview
The following questions are addressed around crosstalk
The mutual inductance between the two circuits shown in ...
Purchase this Solution
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