OPC
OPC technology can
eliminate the need for expensive custom interfaces between disparate computing
solutions and enable the creation of re-usable modules, thereby cutting costs,
speeding development cycles and promoting increased operating efficiency.
- Move information
around the factory floor and up through the enterprise without custom interfaces
that are expensive to build and even more expensive to maintain.
- Hardware and
software suppliers can write just one OPC Server instead of multiple proprietary
drivers, saving development and maintenance costs.
- Individual
software developers can further the advancement of the open OPC standards with
their participation.
- This proven
technology is already used in hundreds of plants and thousands of
applications.
What is OPC?
OPC is open connectivity via
open standards.
They fill a need in automation like printer drivers did for Windows.
OPC is open, practical connectivity
in industrial automation and the enterprise systems that support industry.
Interoperability is assured through the creation and maintenance of open
standards specifications. There are currently seven standards specifications
completed or in development.
Based on
fundamental standards and technology of the general computing market, the OPC
Foundation adapts and creates specifications that fill industry-specific needs.
OPC will continue to create new standards as needs arise and to adapt existing
standards to utilize new technology.
OPC is a series of standards
specifications. The first standard
(originally called simply the OPC Specification and now called the Data
Access Specification) resulted from the collaboration of a number of
leading worldwide automation suppliers working in cooperation with Microsoft.
Originally based on Microsoft's OLE COM (component object model) and DCOM
(distributed component object model) technologies, the specification defined a
standard set of objects, interfaces and methods for use in process control and
manufacturing automation applications to facilitate interoperability. The
COM/DCOM technologies provided the framework for software products to be
developed. There are now hundreds of OPC Data Access servers and
clients.
Everyone's favorite
analogy for needing the original Data Access Specification is printer drivers in
DOS and then in Windows. Under DOS the developer of each application had to also
write a printer driver for every printer. So AutoCAD wrote the AutoCAD
application and the printer drivers. And WordPerfect wrote the WordPerfect
application and the printer drivers. They had to write a separate printer driver
for every printer they wanted to support: one for an Epson FX-80 and one for the
H-P LaserJet, and on and on. In the industrial automation world, Intellution
wrote their Human Machine Interface (HMI) software and a proprietary driver to
each industrial device (including every PLC brand). Rockwell wrote their HMI and
a proprietary driver to each industrial device (including every PLC brand, not
just their own).
Windows solved the
printer driver problem by incorporating printer support into the operating
system. Now one printer driver served all the applications! And these were
printer drivers that the printer manufacturer wrote (not the application
developer). Windows provided the infrastructure to allow the industrial device
driver's solution as well. Adding the OPC specification to Microsoft's OLE
technology in Windows allowed standardization. Now the industrial devices'
manufacturers could write the OPC DA Servers and the software (like HMIs) could
become OPC Clients.
The resulting
selfish benefit to the software suppliers was the ability to reduce their
expenditures for connectivity and focus them on the core features of the
software. For the users, the benefit was flexibility. They could now choose
software suppliers based on features instead of "Do they have the driver to my
unique device?" They don't have to create a custom interface that they must bear
the full cost of creating and upgrading through operating system or device
vendor changes. Users were also assured of better quality connectivity as the
OPC DA Specification codified the connection mechanism and compliance testing.
OPC interface products are built once and reused many times; hence, they undergo
continuous quality control and improvement.
The user's project
cycle is shorter using standardized software components. And their cost is
lower. These benefits are real and tangible. Because the OPC standards are based
in turn upon computer industry standards, technical reliability is assured.
The original
specification standardized the acquisition of process data. It was quickly
realized that communicating other types of data could benefit from
standardization. Standards for Alarms & Events, Historical Data, and Batch
data were launched.
