- #1
jeff1evesque
- 312
- 0
Statement:
Capacitance and inductance in a circuit allow different frequencies to travel with differing degrees of attenuation and phase shift. This causes the received signal to be different from the signal sent.
Question:
With low and high pass filters, we can control what kind of signal continues to the remaining portion of the circuit by attenuating either signal at high frequencies or at low frequencies [by the construction of resistors and capacitors]. Can someone explain to me how one would change the phase of the signal sent; more specifically
Statement:
In a purely resistive circuit, the signal received will be a scaled version of the signal sent [tex]\Rightarrow[/tex] no distortion.
Question:
Does this mean the amplitude of the signal received will smaller? I am not familiar with the term distortion, does that mean the signal will have the same wavelength?
Thanks,
JL
Capacitance and inductance in a circuit allow different frequencies to travel with differing degrees of attenuation and phase shift. This causes the received signal to be different from the signal sent.
Question:
With low and high pass filters, we can control what kind of signal continues to the remaining portion of the circuit by attenuating either signal at high frequencies or at low frequencies [by the construction of resistors and capacitors]. Can someone explain to me how one would change the phase of the signal sent; more specifically
Capacitance and inductance in a circuit allow different frequencies to travel with differing degrees of phase shift?
Statement:
In a purely resistive circuit, the signal received will be a scaled version of the signal sent [tex]\Rightarrow[/tex] no distortion.
Question:
Does this mean the amplitude of the signal received will smaller? I am not familiar with the term distortion, does that mean the signal will have the same wavelength?
Thanks,
JL