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Digital Controller for Wind Electric
Generators
Introduction
Indian research centre set up in 1974 is offering technology
for digital controller for wind electric generators. It is
engaged in control and instrumentation, networking technology,
ASIC design, audio/video technology and hardware software
realisation, power electronics, underwater electronics. The
centre is interested in offering the above technology to business
enterprises.
Digital generators for wind electric turbines are controller
to get unity power factor at the grid and to track the maximum
power point by variable speed operation. AC-DC-AC conversion
is employed. Digital controller based on digital signal processor
is used to implement the control functions.
Salient features:
- The digital controller for wind electric generator (WEG)
is developed for variable speed operation of the induction
generator and power export to grid at unity power factor.
- Variable speed operation of the induction generator
- Improvement in turbine utilisation
- Extraction of maximum available power at various wind
conditions
- Unity power factor operation at the grid side
- Absence of separate power factor correcting capacitors
A
wind turbine operates with its maximum efficiency at a particular
tip speed ratio. Therefore to achieve maximum power extraction
at all wind speeds, the tip speed ratio is maintained constantly
by varying the rotor speed with reference to the wind speed.
The system is made of two bi-directional power stages,
one at the generator side to control the power generation
and the other at the grid side to control the active/reactive
components of power feed to the grid. The power controllers
are three phase inverters using insulated gate bipolar
transistors (IGBT). The two stages are coupled through
a DC link working at a voltage level of 650V. The grid
side controller synchronises system output with the grid
and enables the power flow from the DC bus to the grid
at unity power factor for all wind speeds. The machine
side controller tracks the maximum power factor for all
wind speeds. The machine side controller tracks the maximum
power applying square low for turbines. The machine is
supplied with a variable frequency variable voltage supply
according to the wind conditions. The operating region
is tailored to match with the optimum turbine power co-efficient
at all wind speeds so that maximum power can be derived.
The real time controller synthesizes parameters like
grid voltage, grid frequency, line currents, DC voltage
etc. in a sample time of 50us to generate suitable switching
pattern for both the converters. The digital controller
hardware has been built based on two Texas TMS320C5xDSPs
along with an 80188 micro-controller. The DSP part is
used for operations involving large amount of computations
and signal processing, and the micro-controller part of
interfacing and supervisory operations. The triggering
signals are coupled to the power.
Stages through fibre optic cables to achieve necessary
isolation and EMC compatibility. A computer interface
is provided for data logging. The signals from the existing
controller are communicated with the digital controller
using an interface unit. The status of the system (voltage,
frequency, power, wind speed, etc.) is displayed in the
display unit. Settings like voltage limits, frequency
limit etc. can be made with the help of push button switches
in the display and control unit.
Environmental aspects: Green
technology in the sense that power from wind is optionally
extracted.
Areas of Application
Wind Electric Turbines
Advantages
Power factor unity
Stability of the grid improved
Power generation increased
Stage of Development
Prototype, Patented
Inputs Required
Raw materials: Electrical and electronic components
Manpower: Total 6 including 2 technicians, 2 skilled,
2 unskilled
Economic Data
Know-how fee and training fee : Negotiable
Transfer Forms:
Manufacturing license, Training, Patent for sale, Know-how,
Technical assistance
Main Application:
Electrical/Electronics/Telecommunications
For further information please contact
:
Technology Bureau for Small Enterprises
APCTT Building, Qutub Institutional Area
P.O. Box – 4575
New Delhi – 110016, India
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