Re: [Moved]: analog filter input/output termination match
If you know the specification, why not redesign the filter from the scratch?
If you are working at 800 MHz, you had better have a darned good idea what the source and load impedance of your circuit is, or you will be doing a VERY poor design.
What are you driving this filter with, and what are you loading this filter with.
Hi, FvM:
I think I can actually mark this question as solved because with the help from all the replies, I have found the meaning of impedance matching as my previous reply shows. I don't intend to push the question further as how should I design this filter to satisfy all requirements. From the scope of this post, I think I have achieved what I want to know.
But if someone can tell me a bit more regarding the relationship between the narrow band LC matching networking nature with designated LC filter having broadband frequency passing features, I will really appreciate it. More specifically, as the S11 or smith chart shows, there is only one frequency have pure resistive impedance while all the other frequency has kind of impedance mismatch. Based on the concept of power factor, it means besides signal on that specific frequency, all other signal frequency components will cause extra current flowing or signal reflection in the circuit to distort the time domain waveform.
What does the spec should look like? For example, how much attenuation should S11 have at certain frequency? How can I figure it out based on system requirement if the proper system designer has not been hired.
Hi CataM:
Do you mind share me more thoughts regarding the broadband load matching? as the LC circuit can only match at one frequency while my design will be from baseband to 400MHz.