I think that says it all right there.... The Pansat 9200 is a higher end receiver. And if that can't get it........ And the unity is as you stated, a commercial receiver.
I don't have a Pansat 9200 and I don't have a Unity receiver. When it comes to blind scan, I"m not comparing any other STB to the Manhattan. I'm comparing the Manhattan to the known number of signal I've been able to lock on SM5 C-band (a great test satellite because of the tons of signals, a lot of signals close together, and the mixed DVB-S/DVB-S2 usage on that satellite).
My methodology:
1) DVB-S STB blindscans over the years plus spectrum analyzer probables that if they didn't blind scan as DVB-S with my various STB's, I did the SR computation method to come up with a SR to try with my PCI DVB-S2 card. My PCI card doesn't do blindscanning so it couldn't automate the SR/DVB-S2 tries for me when the signal wouldn't lock DVB-S with my other STB's.
2) I went over SM5 C before my Manhattan blind scan test with the spectrum analyzer. Found a few new signals that weren't there 2 months ago. If I could get a DVB-S fix on it, I added to my list of known signals. If there wasn't a DVB-S fix, I did the SR computation method and tried the PCI card to see if it was DVB-S2. If it was, I added it to my list.
3) my list numbered at 48 signals. I then locked every single one of them with my PCI card (quickest way to check) to verify the signals on the list were still valid and SR's good, etc. That proved that the 48 channels on my list were good ones and there wasn't a bad one in the bunch to delete.
4) Emptied the SM5 C-band TP list from the Manhattan to make sure any blind scan findings would not be duplicates. After I confirmed a zero entry TP list for SM5, I did the Manhattan blind scan - one polarity at a time since I have an orthogonal feedhorn. After I blind scanned the H's and V's, looked at the TP list and there were 18 entries for both polarities combined. All 18 entries matched what I already had in my 48 signal master list so there were no new signals to add to the master list.
5) 18 blind scan found vs. 48 known lockable signals = 37.5% found.
I don't know if there is any better STB or not, but the Manhattan blind scan only works best on a dull configured satellite like Galaxy 19 Ku-band where all the signals with audio/video are all easy DVB-S, full transponder ones and the Manhattan missed none of those. I think the blind scan can be improved through firmware setting tweaking - such as adding a "SLOW" vs "FAST" option so the user can determine which blind scan profile they care about, but I know the Manhattan folks have other fish to fry first with their pending release.
Full disclosure: I bought my receiver, using the May firmware, I'm not a beta tester, I don't know any of the developers of the receiver (only the seller I bought it from at their full retail pricing) so I have no reason to offer anything but an honest assessment of things I think might be worth noting for others who are on the fence about this receiver. I hope those who care about blind scan completeness or limit of audio channels that can be written to memory on large audio channel signals have found my comments useful. EDIT: I also hope some of the positive things I liked about the Manhattan that I haven't seen mentioned before or featured on other STB's I have are also useful.
