Measurement and control technology

Laboratory management

Tasks

• Learning objectives:
  The students should acquire knowledge of the fundamentals of measurement, control and regulation technology as well as the ability to solve simple measurement, control and regulation problems independently.
  This forms the basis for the ability to participate in the planning, design and operation of automation equipment.
• Implementation:
  The majority of the measurement technology devices are used in the other processing practicals.
• Laboratory practical:
  In the MSR laboratory itself, control systems are set up and various process situations are played through in order to gain the relevant experience. 

Room

• A.1.20 

Devices

1. Test equipment for adjusting, calibrating and testing indicating and recording pressure gauges 0 - 1000 bar
2. Flow meter type DFM 3.6 for flow rates up to 3.6 m3/h
3. 4-channel cassette recorder L 2041 from Linseis
4. Compensograph E from Siemens
5. Inductive displacement measuring chain from HBM
6. Measuring amplifier for speed, torque and temperature from HBM
7. Carrier frequency measuring amplifier from HBM
8. Pressure measuring chain from HBM
9. 4-channel cassette recorder L 2100 from Linseis
10. Piezoelectric sensors for recording cavity pressure incl. charge amplifier
11. Piezoelectric sensors for recording cavity pressure incl. Charge amplifier
12. Kistler Dataflow data acquisition system for process analysis and monitoring with cavity pressure, hydraulic pressure and temperature measurement
13. Data logger with 12 analog inputs, 125 ms measuring cycle with screen
14. Laboratory workstations for setting up pneumatic / electro-pneumatic control systems
15. Laboratory workstation for setting up hydraulic / electro-hydraulic control systems
16. Laboratory workstation for PLC programming for the above-mentioned control systems
17. FluidSim 5.0 software for creating and simulating control and regulation tasks

Data logger

Festo MPS station