A method configuring an automation system with plural controllers including first and second controllers, the method including: obtaining a first function block, having a first interface, suitable for a first application, and created by a first tool compliant with a first standard; creating a platform independent model for a second application with a second tool compliant with a second standard; creating a platform definition model of the first controller for the second application; creating a platform specific model for the second application, including: allocating and compiling, with the second tool, a primary part of the second application including the second function block for the first controller and a secondary part of the second application for the second controller; and downloading the first controller configuration, the first application, and the primary part of the second application to the first controller.

Third party developed control logic for automation controllers is provided to customers using a communication network. At least one tool is provided for a third party to develop control logic for an automation controller. The automation controller is remotely located from the communication network. A hardware platform on which to operate the control logic is selected. Once built, the control logic is linked to at least one operational characteristic of the hardware platform such that the control logic is operable to perform at least one predetermined function of the automation controller using the hardware platform.

Disclosed herein, in various embodiments, are systems and methods for creating, implementing, communicating, and/or analyzing control logic governing operation of a system under control, where the control logic is defined in attributed data, which specifies control operators along with their input and output variables for the various control nodes. In example embodiments, a virtual control engine executes the control logic based on interpretations provided by an attributed-data dictionary.

A connecting device comprises housing, a board with electrical components, including at least one digital bus connection and an input/output section. It allows outsourcing of analog and digital I/O from a connected device, e.g. an HVAC actuator control unit by decentralizing inputs and outputs.

A distributed logic control apparatus is usable to control a system and includes a plurality of enhanced intelligent devices and a network protocol control that are connected with a data network. The intelligent devices each have a processor apparatus and an algorithm operable thereon that enables each intelligent device to control a corresponding part of the system. Other algorithms on the intelligent devices provide an advantageous setup operation that enables the intelligent devices to cooperate with one another in a self-setup operation.

A programmable logic controller capable of improving the expandability of a distributed control system and a programming tool for the programmable logic controller are provided. A programmable logic controller (PLC) that constitutes a distributed control system includes: a variable table that includes variable information including identification symbols for identification of a plurality of PLCs and variable names of reference variables, the variable information being set for each of the reference variables; a storage device that has a memory region for storing the reference variables; and an interface circuit that mutually converts communication data for use in communication between the PLC and a different PLC and the reference variables stored in the memory region. The reference variables are variables mutually referenced by the plurality of PLCs.

A gateway configured to control and monitor a plurality of control elements (CE is provided that comprises application programming interface (API) for communicating with applications over the internet; libraries of CE's messages; and at least one interpreter utilized for translating the messages into an API protocol and vice versa.

System configuration management using encapsulation and discovery is provided. The configuration management may include requesting, by a first electronic control unit comprising a processor, feature information associated with a second electronic control unit. The feature information may include data related to a set of features implemented by the second electronic control unit. The configuration management may also include loading, by the first electronic control unit, an internal control for a first feature of the set of features based on a determination that the first feature is not loaded on the first electronic control unit.

A modular control system includes a modular controller that implements control logic of the modular control system, where the controller is built natively on a platform of a distributed control system, equipment configured to perform a physical function in a process plant according to the control logic, and a configuration database storing configuration parameters of the modular control system. In a first mode of operation, the modular control system operates as a standalone module, and in a second mode of operation, the modular control system operates natively as one or several nodes of a distributed control system.

External programming of at least one processor (30) of a LED driver (10). In a normal operation mode a first control input (22B/22C) of the LED driver (10) may be provided to a first processor input of the processor and a second control input (22B/22C) of the LED driver may be provided to a second processor input of the processor (30). In a programming mode the first and second control inputs (22B, 22C) may be provided to programming inputs of the processor (30) to thereby enable programming of the processor (30) via the first and second control inputs (22B, 22C).