Why would you care that’s it’s passive (pon: passive optical network)? As I understand it the limitations of passive vs active wouldn’t have any impact on the end-user. It’s not something I know a lot about, though.
Because PONs are just fundamentally worse. Why would anyone turn fiber of all things into a shared medium. Just lay fibers from the dwelling up to the central office. It’s barely any costlier since the real expense is the digging, not the fiber. And it’s basically guaranteed to scale forever by simply replacing the optics on the ends. That kind of infrastructure can also be leased out to other providers on an individual dwelling granularity. With PONs competitors are forced into reselling bandwidth, at best, or the infrastructure can be monopolised fully.
In a typical PON (GPON, XG-PON, XGS-PON) you have a single fiber from the central office to the optical splitter in the street, from where up to 64 subscribers are connected one fiber each. The bit between central office and splitter is shared. The splitter is passive and just sends 1/64 of the light to each downstream port, in the other direction it combines all the downsteam light towards the upstream port.
The OLT in the central office sends on one wavelength (e.g. 1577 nm) and all subscriber ONTs send on one other common wavelenth (e.g. 1270 nm). In both directions a time division technique is applied. I believe in the downstream the individual time frames are encrypted with different keys in turn, such that only the specific destination ONT can read the content of their specific time frames. In the upstream the ONTs have to make sure only to send in their own slots, as otherwise the OLT would receive superimposed optical signals that couldn’t be read. You can probably see how this could go wrong if a neighbor had malfunctioning equipment.
The alternative doesn’t really have a set of standards like PON, as you can just use whatever optical transceivers you want for each customer individually. Though I guess that for operational reasons an ISP would still standardise the setup for all customers. For example the ISP whose services I subscribe to tells customers to use “Bidir LR, 10 km, TX1310, RX1490-1550 nm”, as 1G, 10G, or 25G, depending on which you order.
To distringuish such a setup from a PON setup I have seen it being called point-to-point (P2P).
Ew it’s PON based
Why would you care that’s it’s passive (pon: passive optical network)? As I understand it the limitations of passive vs active wouldn’t have any impact on the end-user. It’s not something I know a lot about, though.
Because PONs are just fundamentally worse. Why would anyone turn fiber of all things into a shared medium. Just lay fibers from the dwelling up to the central office. It’s barely any costlier since the real expense is the digging, not the fiber. And it’s basically guaranteed to scale forever by simply replacing the optics on the ends. That kind of infrastructure can also be leased out to other providers on an individual dwelling granularity. With PONs competitors are forced into reselling bandwidth, at best, or the infrastructure can be monopolised fully.
As opposed to what? Active? That’s not necessary in local networks
As opposed to a normal fiber link to the switch in the central office. No oversubscription or shared media.
I don’t understand how it is shared media through a PON system? What is the name for this alternative I’d like to look into it.
In a typical PON (GPON, XG-PON, XGS-PON) you have a single fiber from the central office to the optical splitter in the street, from where up to 64 subscribers are connected one fiber each. The bit between central office and splitter is shared. The splitter is passive and just sends 1/64 of the light to each downstream port, in the other direction it combines all the downsteam light towards the upstream port.
The OLT in the central office sends on one wavelength (e.g. 1577 nm) and all subscriber ONTs send on one other common wavelenth (e.g. 1270 nm). In both directions a time division technique is applied. I believe in the downstream the individual time frames are encrypted with different keys in turn, such that only the specific destination ONT can read the content of their specific time frames. In the upstream the ONTs have to make sure only to send in their own slots, as otherwise the OLT would receive superimposed optical signals that couldn’t be read. You can probably see how this could go wrong if a neighbor had malfunctioning equipment.
The alternative doesn’t really have a set of standards like PON, as you can just use whatever optical transceivers you want for each customer individually. Though I guess that for operational reasons an ISP would still standardise the setup for all customers. For example the ISP whose services I subscribe to tells customers to use “Bidir LR, 10 km, TX1310, RX1490-1550 nm”, as 1G, 10G, or 25G, depending on which you order.
To distringuish such a setup from a PON setup I have seen it being called point-to-point (P2P).