The OPC Data Access Specification is the first of a group of specifications known as the OPC Classic Specifications.[1]

OPC Data Access (OPC DA)
International standardOPC DA specification
Developed byOPC Foundation
IntroducedAugust 1996; 28 years ago (1996-08)
IndustryOperational technology and Information technology
Compatible hardwareWindows
Superseded byOPC Unified Architecture
Websitehttps://opcfoundation.org/about/opc-technologies/opc-classic/

OPC Data Access is a group of client–server standards that provides specifications for communicating real-time data from data acquisition devices such as PLCs to display and interface devices like Human–Machine Interfaces (HMI), SCADA systems[2] and also ERP/MES systems.[3] The specifications focus on the continuous communication of data.

The OPC Data Access specification is also known as OPC DA. OPC DA deals only with real-time data and not historical data (for historical data you need to use OPC Historical Data Access, or OPC HDA) or events (for Alarms and Events you need to use OPC Alarms and Events, or OPC AE). There are three attributes associated with OPC DA data. These are

  1. a value,
  2. the quality of the value, and
  3. a timestamp.

The OPC DA specification states that these three attributes have to be returned to an OPC client making a request. Therefore, if the data source is not capable of providing a timestamp, for example, the OPC DA server must create a timestamp.

The OPC Classic specifications are based on the Microsoft COM technology[4] and define a C/C interface. A standard Automation wrapper interface is also defined for access from Visual Basic, Delphi and other automation-enabled languages.[5] Several vendors offer .NET toolkits to make the OPC interface accessible in .NET applications.

The newer OPC .NET (OPC Xi) specification is based on WCF (Windows Communication Foundation) and defines a .NET interface with the functionality of the OPC Classic specifications OPC DA, OPC HDA and OPC AE (Alarms&Events).[6]

The more recent OPC Unified Architecture allows the same functionality but offers platform independence and optionally complex information modelling capabilities.[7]

See also

edit

References

edit
  1. ^ "Members".
  2. ^ "What is OPC?".
  3. ^ Mahalik, Nitaigour P. (2013-03-09). Fieldbus Technology: Industrial Network Standards for Real-Time Distributed Control. Springer. ISBN 9783662072196.
  4. ^ "Classic".
  5. ^ "Members".
  6. ^ ".NET 4.0 (WCF) | OPC Foundation". opcfoundation.org. Archived from the original on 2014-07-03.
  7. ^ "Unified Architecture".
edit