Difference between revisions of "User:Tim/AutomationElaboration"

From MediaWiki
Jump to: navigation, search
(Created page with "== Automation == < my plan is to add general summary of automation and usable current solutions for RBE >")
 
(Automation)
Line 2: Line 2:
  
 
< my plan is to add general summary of automation and usable current solutions for RBE >
 
< my plan is to add general summary of automation and usable current solutions for RBE >
 +
 +
[[File:AutomationLayers1.gif]]
 +
 +
[[File:AutomationLayers2.jpg]]
 +
 +
In general most production facilities can be divided in these layers.
 +
 +
== L1: Instrumentation ==
 +
 +
This is the layer that contains the machines and the electronics dealing with the machines. In the case of industrial automation, this are the relays to switch power for machines, electric motors, valves, sensors for flows, weight, pressure, temperature, light... To connect this to the rest of the system are their the I/O modules. This modules convert the usually analog signals to digital numbers and the digital numbers to currents, voltage and pulse width modulations.
 +
 +
[how to build relays and electric motors not discussed here]
 +
 +
The open source solution often used in small scale projects is the Arduino <ref name="Arduino">[http://arduino.cc] Arduino</ref>. It is a simple programmable micro controller with a few I/O pins. Some of this pins can be used as a <ref name="I²C">[http://en.wikipedia.org/wiki/I%C2%B2C] I²C bus</ref> to add a lot more I/O modules. A standard way of interfacing in this way is to use <ref>[http://en.wikipedia.org/wiki/Modbus] modbus</ref> over ethernet.
 +
 +
== L2: Control ==
 +
 +
In this layer is usually the classic PLC <ref name="PLC">[http://en.wikipedia.org/wiki/Programmable_logic_controller] PLC</ref>. This thing monitors and controls all I/O. In automation projects it takes commands given by other systems like "add 100 liter water" and translates this into "open valve A, start pump B, wait to sensor C increases by 100, ...".
 +
 +
The open source solution for this is for example Proview <ref name="Proview">[http://www.proview.se] ProView</ref>. This software changes a Linux computer to a PLC, capable of controlling I/O modules with modbus or other protocols.
 +
 +
== L3: Supervisory ==
 +
 +
== L4: MES ==
 +
 +
== L5: ERP ==

Revision as of 09:20, 9 March 2013

Contents

Automation

< my plan is to add general summary of automation and usable current solutions for RBE >

AutomationLayers1.gif

AutomationLayers2.jpg

In general most production facilities can be divided in these layers.

L1: Instrumentation

This is the layer that contains the machines and the electronics dealing with the machines. In the case of industrial automation, this are the relays to switch power for machines, electric motors, valves, sensors for flows, weight, pressure, temperature, light... To connect this to the rest of the system are their the I/O modules. This modules convert the usually analog signals to digital numbers and the digital numbers to currents, voltage and pulse width modulations.

[how to build relays and electric motors not discussed here]

The open source solution often used in small scale projects is the Arduino <ref name="Arduino">[1] Arduino</ref>. It is a simple programmable micro controller with a few I/O pins. Some of this pins can be used as a <ref name="I²C">[2] I²C bus</ref> to add a lot more I/O modules. A standard way of interfacing in this way is to use <ref>[3] modbus</ref> over ethernet.

L2: Control

In this layer is usually the classic PLC <ref name="PLC">[4] PLC</ref>. This thing monitors and controls all I/O. In automation projects it takes commands given by other systems like "add 100 liter water" and translates this into "open valve A, start pump B, wait to sensor C increases by 100, ...".

The open source solution for this is for example Proview <ref name="Proview">[5] ProView</ref>. This software changes a Linux computer to a PLC, capable of controlling I/O modules with modbus or other protocols.

L3: Supervisory

L4: MES

L5: ERP

Personal tools
Namespaces

Variants
Actions
Navigation
Toolbox