zguy1234
Is a true 3dBi gain going to be realised? ...........
Yes & and No - depends where/how and just what "gain" is been referred to.
If the improvements are to be considered in terms of traditional "antenna gain", I'd be surprised if much more than around 2,2dBi (at most) in real terms was realized ....... still, not a figure to be sneezed at, granted, and by its self a perceivable improvement to demodulated audio/video/data quality (i.e. you'll be able to see/hear the improvement).
But to plan changes to an antenna setup against a theoretical increase in gain (worked out and calculated on a piece of paper?), is quite often to miss out on what can often be far more important & relevant.
The increase in received signal strength that comes through antenna "doubling-up" is almost always beneficial & welcome (and I say "almost always", because it is not always a good thing - there are occassions where "doubling up" can be a bad thing), the most significant "gain" in this project I believe is going to come about through improvement to the S/N ratio.
On top of the antenna "doubling-up gain" (which, as said, I suspect is going to be in real world terms no more than around 2,2dB at most) there is going to be the tighter & better defined E/H plane's of the stacked array - the listening aperture of this array is going to improve significantly and lead to improved demodulated signal audio/video/data - more so than the +/-2db change in received signal strength.
In short: signal CLEANLINESS and QUIETNESS is going to be greater the greater benefit here than any gain in realized signal STRENGTH.
The classic representation of just how much difference a better S/N ratio makes, is as most will know, experienced with HF loops. Loops offer no gain improvement over wire type antenna's - their gain is often, when replacing wire type antenna's, -10, -20, -30, -40 and even as much as -50 or -60dB worse, but, the reduction in noise pickup they offer is soooooooo.... much that gain reduction becomes a non-issue. The demodulated signal is cleaner. quieter, clearer and easier to listen to. Yes, noise phenomena is different on HF bands, but the principal none-the-less remains the same across VHF/UHF bands.
Experience leads me to suspect zguy1234's big improvement/benefit is going to come from the improved S/N ratio he will experience, more so than from the increase in received signal strength that is going to be presented to the receiver input ...... which leads onto "pre-amps".
What about adding a preamp?
Generally I am hesitant when it comes to pre-amps. As you will no doubt know, pre-amps not only amplify the all important modulated content of a signal, they also amplify all the noise.
If there is no question that failure to demodulate is because of signal weakness, as opposed to noise content, then yes, a pre-amp is the way to go. But otherwise - nope, a pre-amp will serve no benefit.
In this case, the big improvement to S/N ratio that is going to come about from changes in antenna array setup, offers a brilliant opportunity to exploit the benefits of a preamp - take a look at
Kuhne electronic - Low Noise Amplifiers - these are brilliant pre-amp products with some of the broadband ones offering very low noise figures (though, like antenna gain, the noise figure in pre-amps is not by its-self always a reliable indicator of pre-amp performance).
Yes ..... please post up some pic's - I'd be keen to see some of theLPDA youre using - check out the pic of the WJ - LPDA I posted on a recent thread by MadSpleen85 “Antenna in the Attic and Coax question” (I have a whole bunch of them in the attic if you're interested).
Let me end off by adding/asking: horizontal LPDA array's generally allow for easier azimuth/elevation changes, than do vertical setups (well, it's generally less mechanics) - how are you intending to carry out elevation changes (which you're going to need to do if you want to exploit all the sat signals)?
, cable, tower, radios, connectors , filters, to the tenth power. Besides its fun, gives me a excuse to get into something 
