Comment by mgiampapa
12 hours ago
56k was also unidirectional, you had to have special hardware on the other side to send at 56k downstream. The upstream was 33.6kbps I think, and that was in ideal conditions.
12 hours ago
56k was also unidirectional, you had to have special hardware on the other side to send at 56k downstream. The upstream was 33.6kbps I think, and that was in ideal conditions.
The asymmetry of 56k standards was 2:1, so if you got a 56k6 link (the best you could get in theory IIRC) your upload rate would be ~28k3. In my expereience the best you would get in real world use was ~48k (so 48kbpd down, 24kbps up), and 42k (so 21k up) was the most I could guarantee would be stable (baring in mind “unstable” meant the link might completely drop randomly, not that there would be a blip here-or-there and all would be well again PDQ afterwards) for a significant length of time.
To get 33k6 up (or even just 28k8 - some ISPs had banks of modems that supported one the 56k6 standards but would not support more than 28k8 symmetric) you needed to force your modem to connect using the older symmetric standards.
The special hardware was actually just a DSP at the ISP end. The big difference was before 56k modems, we had multiple analog lines coming into the ISP. We had to upgrade to digital service (DS1 or ISDN PRI) and break out the 64k digital channels to separate DSPs.
The economical way to do that was integrated RAS systems like the Livingston Portmaster, Cisco 5x00 seriers, or Ascend Max. Those would take the aggregated digital line, break out the channels, hold multiple DSPs on multiple boards, and have an Ethernet (or sometimes another DS1 or DS3 for more direct uplink) with all those parts communicating inside the same chassis. In theory, though, you could break out the line in one piece of hardware and then have a bunch of firmware modems.