Isi and energy storage devices – Echelon ISI User Manual

ISI Programmer’s Guide

14

Limit Value

Notes

Maximum number of selectors
per assembly

63

Recommended maximum
number of selectors per

assembly

4

ISI and Energy Storage Devices

In simple devices, such as a light or a switch, a common implementation uses an
energy storage power supply, as described in the

PL 3120, PL 3150 and PL 3170

Power Line Smart Transceiver Data Book

. A device using this type of power

supply can be referred to as an

energy storage device

. In these devices, under

certain worst-case circumstances, the maximum packet size that can be sent is
limited. ISI implements two versions of DRUM, CSMO, CSMA, and CSMR

messages (See

ISI Messages

in this chapter and the

ISI Protocol Specification

).

The normal version is short enough to be sent by an energy storage device, and is
restricted to usage with standard network variable types and standard functional

profiles only. Since energy storage devices can receive any length message, they

can only host connections that use SNVTs and SFPTs, but can join a connection
that uses UNVTs and UFPTs. Compound assemblies that are based on a single

functional profile and hosted on an energy storage device also need to start with

member 1.

The extended versions of these messages contain additional functionality, but
result with the message potentially being too long to be transmitted by an energy

storage device. The extended message types do not have the limitations
summarized above.

By default, the ISI engine recognizes all supported message types, but will only
issue the shorter versions of the DRUM, CSMO, CSMA, and CSMR messages. To

enable the use of the extended DRUMEX, CSMOEX, CSMAEX, and CSMREX
messages, specify

isiFlagExtended

when starting the ISI engine.

All ISI devices may use the standard message formats if the functionality
provided by the extended formats is not required, but energy storage devices may

not use the extended formats. Energy storage devices may be capable of
successful transmission of the extended messages under certain conditions.

However, this should not be relied upon, since these conditions include the

momentary line condition and part tolerance details that cannot be relied upon
for mass production.

ISI domain address servers for power line channels cannot be built with energy-

storage power supplies. These devices would fail to transmit DIDRM and DIDCF
messages under worst-case conditions (line voltage, line impedance, and part

tolerances).