Echelon Mini EVK User Manual

the look and feel of a normal variable to the C program, with the addition of

controlled access by network configuration tools.

Neuron C also provides a way to organize the network variables and

configuration properties in the device into functional blocks, each of which
provides a collection of network variables and configuration properties, that

are used together to perform one task. These network variables and

configuration properties are called the functional block members.

Each network variable, configuration property, and functional block is

defined by a type definition contained in a resource file. Network variables

and configuration properties are defined by network variable types (NVTs)
and configuration property types (CPTs). Functional blocks are defined by

functional profiles.
Network variables, configuration properties, and functional blocks in Neuron
C can use standardized, interoperable types. The use of standardized data

types promotes the interconnection of disparate devices on a L

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network. For configuration properties, the standard types are called

standard configuration property types (SCPTs). For network variables, the

standard types are called standard network variable types (SNVTs). For
functional blocks, the standard types are called standard functional profiles.

If you cannot find standard types or profiles that meet your requirements,

Neuron C also provides full support for user network variable types (UNVTs),
user configuration property types (UCPTs), and user functional profiles.
A Neuron C application executes in the environment provided by the Neuron

firmware. This firmware provides an event-driven scheduling system as part of
the Neuron C language’s run-time environment. Therefore, a Neuron C

application does not use a single entry point, as is common with ANSI C’s
main() function. Instead, a Neuron C application uses when statements to

specify application code to be executed in response to various system events,

much in the way of an interrupt handler or .NET event handler. The Neuron
firmware contains a scheduler, which executes these when tasks in an

orderly and deterministic fashion as and if needed. Neuron C when tasks can

be triggered by system events (such as reset), network events (such as a
network variable update or network error), I/O events (such as a new reading

from an I/O input), timer events, or any arbitrary application-defined event.
Neuron C also provides a lower-level application messaging service integrated
into the language in addition to the network variable model. While the

network variable model has the advantage of being a standardized method of
information interchange that promotes interoperability between multiple

devices from multiple vendors, application messaging is available for

proprietary and standard special-purpose solutions. Application messages
are used with the L

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file transfer protocol, a standard mechanism

for transfer of large amounts of data, and the ISI protocol, a standard
mechanism to manage networks without intervention of a dedicated tool or

specialist.
Another Neuron C data object is the timer. Timers can be declared and
manipulated like variables. When a timer expires, the system firmware

automatically manages the timer events and notifies the program of those

events. Timers may be automatically reloading (repeating), or one-shot
timers, with a resolution ranging from 0.001 – 65,535 seconds.

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Mini EVK User’s Guide