Teaching System Control Technology

Teaching System Control Technology

Item No.: 54798
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This teaching system consists of 3 learning boards on the subject of control engineering. The PID training board was specially developed for basic and advanced experiments in control engineering.

With the Motor training board you get a controlled system that can be used in power electronics, in control engineering as well as in communications engineering.

With the Servo training board you get a controlled system that can be used in analog control engineering as well as in digital control engineering.

Note: The matching experiment instructions must be ordered separately.

Our products are designed for the European market and meet CE requirements. For international use, regional regulations apply which must be observed. The usability of the products shown must therefore be checked in advance.

PID training board

The PID training board was specially developed for basic and advanced experiments in control engineering.

  • Universal training device for control engineering
  • Built-in power supply (short-circuit proof)
  • All basic experiments possible without a storage oscilloscope
  • Built-in pre-trigger circuit guarantees complete representation of the signal

Motor training board

With the Motor training board we offer a controlled system that can be used in power electronics (POWER BOARD), in control engineering (PID BOARD) as well as in communications engineering (PLL).

  • Universal speed control system
  • Extendable by plug-in module for temperature and light control
  • With integrated four-quadrant display
  • With variable flywheel mass
  • Two-channel angle encoder
  • Built-in four-quadrant amplifier

Servo training board

With the Servo training board, we offer you a controlled system that can be used both in analogue control technology (PID BOARD) and in digital control technology.

  • Universal positioning controlled system
  • Analogue angle detection
  • With switchable disturbance variable (gear backlash)
  • Expandable by pluggable retro-reflective sensors for digital angle detection (incremental)
  • Digital speed and direction of rotation detection
  • Digital control inputs for both directions of rotation

To carry out experiments, the training board is placed on the table or hung in an A4 experiment rack for demonstration purposes. The PID training board is also available in a box (see "Matching this").

  • Electronics technician
  • Electronics technician for industrial engineering
  • Electronics technician for devices and systems
  • Electronics technician for automation technology
  • Electronics technician for building and infrastructure systems
  • Electronics technician for aeronautical systems
  • Mechatronics technician

PID training board

  • Important terms and formula symbols
  • Measurement
  • Evaluation of controlled systems
  • Evaluation of controllers
  • Evaluation of control loops
  • Controlled systems:
  • Controlled system with P-behavior and delay 1st order
  • Controlled systems with P-behavior and delay of 3rd order
  • Controlled systems with I-behavior
  • Controllers:
  • P-controller
  • PI-controller
  • PD-controller
  • PID controller
  • Two-point controller
  • Control loops:
  • P-T1 controlled system, controlled by a P and PI controller
  • P-T1 controlled system, controlled by a two-point controller
  • P-T3 controlled system, controlled by a P and PD controller
  • P-T3 controlled system, controlled by a PID controller
  • P-T3 controlled system, controlled by a two-point controller
  • P-T3 controlled system, controlled by a two-point controller with feedback
  • I controlled system without and with additional delay, controlled by a P controller
  • Simulation of a position control loop in a machine tool
  • Controller optimization based on the step response according to Chien, Hrones and Reswick
  • Controller optimization based on the critical controller setting according to Ziegler and Nichols

Motor training board

  • Characteristics of the speed controlled system
  • Characteristics of the temperature and light controlled system
  • The motor with current or torque control
  • Speed control
  • Voltage control with a machine generator
  • Speed control with subordinate current control
  • DC motor on uncontrolled and controlled single-phase half-wave rectifier
  • Four-quadrant operation of a DC motor with a thyristor rectifier
  • Four-quadrant operation with an H-bridge
  • Electronic load
  • Temperature control with a P and PI controller
  • Temperature control with a two-point controller
  • Temperature control with PID controller and pulse group control
  • Brightness control with P-, PI- and PID-controller
  • Bode diagram, locus curve and controllability of a P-T3 line
  • Adaptation and smoothing of actual values
  • Characteristics and operating behavior of the servo-controlled system
  • Position control
  • Position control with influence quantities

Servo training board

  • Characteristics of the speed controlled system
  • Characteristics of the temperature and light controlled system
  • The motor with current or torque control
  • Speed control
  • Voltage control with a machine generator
  • Speed control with subordinate current control
  • DC motor on uncontrolled and controlled single-phase half-wave rectifier
  • Four-quadrant operation of a DC motor with a thyristor rectifier
  • Four-quadrant operation with an H-bridge
  • Electronic load
  • Temperature control with a P and PI controller
  • Temperature control with a two-point controller
  • Temperature control with PID controller and pulse group control
  • Brightness control with P-, PI- and PID-controller
  • Bode diagram, locus curve and controllability of a P-T3 line
  • Adaptation and smoothing of actual values
  • Characteristics and operating behavior of the servo-controlled system
  • Position control
  • Position control with influence quantities

PID training board

  • Power supply:
  • Mains voltage: 230 V AC / 115 V AC (110 V AC)
  • Mains frequency: 50 ... 60 Hz
  • Power consumption: approx. 8 VA
  • Dimensions (W x H x D): 532 x 297 x 110 mm
  • Weight: approx. 3.35 kg

Motor training board

  • Mains connection:
  • Mains voltage: 230 V AC / 115 V AC (110 V AC)
  • Mains frequency: 50 ... 60 Hz
  • Power consumption: approx. 20 VA
  • Mains switch: ON / OFF, with control lamp
  • Motor:
  • Rated voltage: 12 V
  • Rated speed: 5900 min-1
  • Speed: max. 8000 min-1
  • Power consumption: max. 0.5 A
  • Dimensions (W x H x D): 266 x 297 x 90 mm
  • Weight: approx. 2.2 kg

Servo training board

  • Mains connection:
  • Mains voltage: 230 V AC / 115 V AC (110 V AC)
  • Mains frequency: 50 ... 60 Hz
  • Power consumption: approx. 20 VA
  • Motor:
  • Rated voltage: 12 V
  • Power consumption: max. 0.4 A
  • Dimensions (W x H x D): 266 x 297 x 90 mm
  • Weight: approx. 2.1 kg

Mechanical specifications:

The front panel of the training boards is made of 5 mm thick laminate, colour matt blue, and is engraved with white switching symbols, corresponding to the built-in function groups. A sturdy plastic cover protects the back of the unit and, due to its shape, allows it to be placed at an angle on the table to suit the work.

  • Training board PID
  • Training board Motor
  • Training board Servo
  • Cable Set

Variants

Scope of Delivery / Individual Parts

Matching this

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