PSL10 - Experiment
SALIENT POLE GENERATOR

Provides typical generator performance characteristics for experiments in generation, synchronising and paralleling, and load sharing.

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The Salient Pole Generator explores the principles and characteristics of salient pole generators. It contains everything needed for salient pole generator experiments including resistive, capacitive and inductive load banks. The open and flexible design is ideal for lecturers to create their own experiments, as well as student project work. To allow realistic investigations, the characteristics of the prime mover and generator are similar to industrial turbine and generator sets. 

The prime mover and generator set is two coupled machines mounted on a common bed-plate in the base of the console. Manual or automatic voltage regulation (AVR) excitation controls the output voltage of the generator. When the generator is in overrun mode, resistors dissipate the reverse power. A vector drive controls the speed of the prime mover and allows investigations into load flow in positive and negative directions. An integral shaft encoder allows load angle analysis. 

The user may synchronise the generator output to the grid supply using a synchroscope. They may also use the set of three coloured lamps. 

The control and protection circuits work when the generator is unsynchronised and synchronised to the mains electrical supply. When the generator is synchronised, the user can operate a variable quadrature droop for reactive power regulation. 

For protection tests, the protection relay connects to the test circuits through current transformers (CTs) and a voltage transformer (VT). 

The user connects and sets the protection relay to detect line and earth currents, voltage and frequency faults. The relay also monitors and measures fault events and disturbances for fault analysis. The user sets the relay from its local control panel, or by a cable link to a suitable computer (computer not included) and software (included). When the user applies a circuit fault, the relay opens circuit breakers in the test circuits. The circuit-breakers also include hand-operated switches and lamps. The lamps show whether the circuit-breakers are open or closed. 

Transducers with BNC connections allow voltage and current waveform measurement, display and analysis using an external oscilloscope (not supplied).
For more experiments in protection, the unit has an extra socket to connect an additional protection relay (available separately). 

Supplied with the equipment is a set of shrouded leads for the user to connect the test circuits together. 

The unit includes an emergency switch, a mains supply isolator and protection fuses.

  • Generator voltage and frequency control
  • Voltage, speed and field current characteristics
  • Generator open and short circuit tests
  • Load tests
  • Normal and sudden short-circuit tests
  • Zero power factor test
  • Synchronising and parallelling
  • Control of real and reactive power
  • Protection relays
OS2 - Ancillary
A dual trace 50 MHz oscilloscope complete with leads and probes.
PSA10 - Ancillary

An entry level three-phase and earth fault overcurrent relay presented in an educational format to enable investigations into the protection and monitoring of transformers, transmission lines and distribution schemes.

PSA15 - Ancillary

A differential protection relay presented in an educational format to enable investigations into the protection of transformers, autotransformers, generators and other electrical apparatus with two windings.

PSA20 - Ancillary

A three-phase and earth fault directional overcurrent relay presented in an educational format to enable investigations into the protection and monitoring of generator and transformer schemes, overhead lines, underground cables and backup on HV systems.

PSA25 - Ancillary

A feeder management relay presented in an educational format to enable investigations into the protection and monitoring of overhead lines and underground cables.

PSA40 - Ancillary

A mobile load bank to provide balanced and unbalanced three-phase loads and single-phase loads with variable leading or lagging power factors.