I can add some experience to the comments already posted. In an app some years ago I had to generate a treeview of files on an FTP server. Listing files does not normally require actual downloading, but some of the files were zipped folders and I had to download these and unzip them, (sometimes recursively), to display the files/folders inside. For a multithreaded solution, this reqired a 'FolderClass' for each folder that could keep state and so handle both unzipped and zipped folders. To start the operation off, one of these was set up with the root folder and submitted to a P-C queue and a pool of threads. As the folder was LISTed and iterated, more FolderClass instances were submitted to the queue for each subfolder. When a FolderClass instance reached the end of its LIST, it PostMessaged itself, (it was not C#, for which you would need BeginInvoke or the like), to the UI thread where its info was added to the listview.
This activity was characterised by a lot of latency-sensitive TCP connect/disconnect with occasional download/unzip.
A pool of, IIRC, 4-6 threads, (as already suggested by other posters), provided the best performance on the single-core system i had at the time and, in this particular case, was much faster than a single-threaded solution. I can't remember the figures exactly, but no stopwatch was needed to detect the performance boost - something like 3-4 times faster. On a modern box with multiiple cores where LISTs and unzips could occur concurrently, I would expect even more improvement.
There were some problems - the visual ListView component could not keep up with the incoming messages, (because of the multiple threads, data arrived for aparrently 'random' positions on the treeview and so required continual tree navigation for display), and so the UI tended to freeze during the operation. Another problem was detecting when the operation had actually finished. These snags are probably not relevant to your download-many-small-files app.
Conclusion - I expect that downloading a lot of small files is going to be faster if multithreaded with multiple connections, if only from mitigating the connect/disconnect latency which can be larger than the actual data download time. In the extreme case of a satellite connection with high speed but very high latency, a large thread pool would provide a massive speedup.
Note the valid caveats from the other posters - if the server, (or its admin), disallows or gets annoyed at the multiple connections, you may get no boost, limited bandwidth or a nasty email from the admin!