Real-time Software Design
... systems which manage the processes in the RTS. Responsible for process management and resource (processor and memory) allocation. May be based on a standard kernel which is used unchanged or modified for a particular application. The kernel is the central component of most computer operating systems ...
... systems which manage the processes in the RTS. Responsible for process management and resource (processor and memory) allocation. May be based on a standard kernel which is used unchanged or modified for a particular application. The kernel is the central component of most computer operating systems ...
File - sudheer electronics
... control the speed of the motor according to the requirements. Precise speed control is required in industrial process, failure in one circuit may cause the total plant shutdown in certain situations. The dc motor speed and direction can be effectively controlled by using chopper/H-bridge circuit. S1 ...
... control the speed of the motor according to the requirements. Precise speed control is required in industrial process, failure in one circuit may cause the total plant shutdown in certain situations. The dc motor speed and direction can be effectively controlled by using chopper/H-bridge circuit. S1 ...
Introduction to Mechatronics
... • In mechatronic systems, a sensor in an element, which accepts the physical quantities(process variables) from mechanical processes (dynamic system) and convert them into signal that can be processed by the system. • A transducer is defined as a device that converts physical quantities into an outp ...
... • In mechatronic systems, a sensor in an element, which accepts the physical quantities(process variables) from mechanical processes (dynamic system) and convert them into signal that can be processed by the system. • A transducer is defined as a device that converts physical quantities into an outp ...
Distributed control system
A distributed control system (DCS) is a control system for a process or plant, wherein control elements are distributed throughout the system. This is in contrast to non-distributed systems, which use a single controller at a central location. In a DCS, a hierarchy of controllers is connected by communications networks for command and monitoring.Example scenarios where a DCS might be used include: Chemical plants Petrochemical (oil) and refineries Boiler controls and power plant systems Nuclear power plants Environmental control systems Water management systems Metallurgical process plants Pharmaceutical manufacturing Sugar refining plants Dry cargo and bulk oil carrier ships Formation control of multi-agent systems