Channel types and limits, Supported topology and routers – Echelon ISI User Manual

ISI Programmer’s Guide

10

increases the network bandwidth consumed for administrative ISI messages,

possibly preventing regular network operation due to an increased collision rate.

Networks should be designed with some headroom. A reasonable limit is 80%.
ISI-S networks that reach 26 devices should be considered for an upgrade to ISI-

DA (which might be as simple as adding a DAS), and ISI-DA networks exceeding

160 devices are prime candidates for an upgrade to a managed LNS network.

Channel Types and Limits

The supported channel types for the ISI protocol are PL-20 power line and
TP/FT-10 free topology twisted pair.

The maximum channel limit for a device using the IsiCompactManual or

IsiCompactAuto library is one channel. For devices using any of the other
libraries, the limit is two channels. ISI-DAS devices always support two

channels.

The IsiCompactManual and IsiCompactAuto libraries are provided for feature-

limited implementations of ISI devices with minimum memory footprint. The
functionality of the ISI libraries is described in

Optimizing the Footprint of ISI

Applications

.

Supported Topology and Routers

ISI-S networks are limited to a single channel that is segmented with physical

layer repeaters according to the standard channel properties—none for PL-20
channels, or multiple for TP/FT-10 channels provided there is never more than

one physical layer repeater between any two points of communication. In other

words, you can have one N-way repeater, much in the way of an N-port Ethernet
hub. A physical layer repeater is similar to a hub (signal booster without

filtering logic).

ISI-DA networks can have one or two channels. ISI-DA networks with two
channels must include a router configured as a repeater. Each channel must

meet the same requirements as a channel for ISI-S without a DAS described

above. The router must be preconfigured to be compatible with ISI networks, or
otherwise capable of joining an ISI network.

If a domain address server is used in a two-channel network with a PL-20 and
TP/FT-10 channel, it should be located on the PL-20 channel. One of the

functions of the domain address server is to determine the slowest channel of the
network that it is located on. If a domain address server is located on the PL-20

channel, it will start-up with knowledge of the slowest channel. If it is located on

the TP/FT-10 channel, it will have to learn of the existence of the PL-20 channel
by discovering one of the PL-20 devices. This may take some time. Conversely, if

the domain address server is located on the TP/FT-10 channel and all PL-20

devices are removed from the network, the domain address server should be reset
to relearn the network topology.