Connect with us

Phase Shift Measurement and Equalization

Discussion in 'Electronic Design' started by stevieboy01, Feb 27, 2005.

Scroll to continue with content
  1. stevieboy01

    stevieboy01 Guest

    I am attempting to characterise a phase shift in a channel so that I
    can compensate it at the receiver end using a phase equalizer. I need
    a method which produces a phase shift curve with more measurements
    than a Lissajous method produces. I was thinking possibly a phase
    shift oscillator may be the way to go with each stage producing a 45
    degree shift, but I am unsure how to use this. I want to define the
    frequency and calculate the resulting shift. Also, I am not sure how
    to use an equalizing filter. I would probably use an all pass filter
    but how can I define where the curve goes?

    Since I am working on a project already in place, I'm afraid the
    recievers have been defined already. They are Radiometrix BIM 418-40

    I will elaborate more........

    At present we are using a 4 level ASK digital transmission being fed
    into a DAC for RF transmission. At the receiver end, it is being
    converted back, naturally using an ADC.

    I am firstly looking to shape the pulse going in using a bandpass of
    approx 100Hz - 20kHZ. This should eliminate high frequency components
    since there is a high level of ringing as too much energy is trying to
    get through the channel. However, because of the associated phase
    shift in a non linear filter, I will have to compensate at the
    receiver. The transceivers already introduce a slight phase shift,
    which I am hoping to eliminate with an equalizer. The eye diagram at
    the receiver is poor so, especially with 4 level signalling, I hope to
    improve it.


Ask a Question
Want to reply to this thread or ask your own question?
You'll need to choose a username for the site, which only take a couple of moments (here). After that, you can post your question and our members will help you out.
Electronics Point Logo
Continue to site
Quote of the day