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GRID TIE INVERTER
A GRID-TIE INVERTER IS A POWER INVERTER THAT CONVERTS DIRECT
CURRENT (DC) ELECTRICITY INTO ALTERNATING CURRENT (AC) WITH AN
ABILITY TO SYNCHRONIZE TO INTERFACE WITH A UTILITY LINE
Its applications are converting DC
sources such as solar panels or small
wind turbines into AC for tying with
the grid
Grid Tie
Inverter
Power circuit
part
Control
circuit part
Power circuit
part
The power circuit is normally built up from MOSFET or IGBT switches. The
simplest power circuit of the inverter is built up from four switches with
two parallel to each other as shown
In switching process, the four switches are grouped
into two groups
• G1 and G2 is in one group &
• G3 and G4 is in another.
When G1 and G2 are switched and G3 and G4 is
forced to be off by the signal from the control
circuit, the output voltage from the inverter will be in
positive.
However, if G3 and G4 are switched and G1 and G2 is
forced to be off, the inverter will give a negative
voltage as the output.
Control
circuit part
This control circuit is normally built from analog op-amp circuit or digital
micro-controller or even combination of both analog and digital.
In the inverter design, the control signal is design to be
pulse width modulation(PWM) in most of the time.
However, in some inverter design where the output
voltage waveform shape is very important, the
sinusoidal pulse width modulation(SPWM) is used to
reduce the harmonic contain in the output waveform
and provide better quality of the output voltage.
DIFFERENCE FROM STAND ALONE INVERTER
For a grid tie inverter or GTI, its design is slightly different
from the stand alone inverter or inverter using in variable
speed controller. The output voltage of a GTI should obey
some requirements so that the inverter can be connected
to the grid and sending power into the grid.
The rules or requirements that to be obeyed are:
• The voltage magnitude and phase must be equal to
the grid.
• The frequency of the output voltage from the inverter
must be exactly equal to the grid frequency. (50Hz for
India).
To make sure that the output of the GTI obeys the above
rules, the grid voltage is sampled and as a reference for the
design of the switching signal.
Besides, the load of the GTI also different from the
stand alone or the variable speed controller inverter.
The GTI have a load of the power grid where the
load contains power much more high compare to
the GTI. This require for the GTI to force the power
generated from the PV into the grid. The real and
reactive power flow of the GTI into the grid is shown
in Equation 1 and 2
P={ | Vinv || Vgrid |/ Zt }sin δ … (1)
Q== | Vinv|2 / Zt -{ | Vinv || Vgrid |/ Zt }cos δ … (2)
Where,
Vinv = Inverter Output Voltage
Vgrid = Power grid voltage
Zt = Impedance of the linking line
δ= Angle different between Vinv and Vgrid
DIFFERENCE FROM STAND ALONE INVERTER
Besides, the load of the GTI also different from the
stand alone or the variable speed controller inverter.
The GTI have a load of the power grid where the
load contains power much more high compare to
the GTI. This require for the GTI to force the power
generated from the PV into the grid. The real and
reactive power flow of the GTI into the grid is shown
in Equation 1 and 2
P={ | Vinv || Vgrid |/ Zt }sin δ … (1)
Q== | Vinv|2 / Zt -{ | Vinv || Vgrid |/ Zt }cos δ … (2)
Where,
Vinv = Inverter Output Voltage
Vgrid = Power grid voltage
Zt = Impedance of the linking line
δ= Angle different between Vinv and Vgrid
From Equation 1, it is very clear that in order to send
the maximum real power into the grid, the phase
angle should be at 90 degree. However, for the
stability limit of the GTI, this angle must not be 90
degree and should be lower than that. However, for
Equation 1, the value of sin can have both positive
and negative value. For positive value, output voltage
of the inverter leading the grid voltage, the real
power will flow from the GTI to the grid but if the
value is negative then the real power will flow from
the opposite direction
DESIGN
Power circuit
Fig: Input to Inverter from PV
Panel
Fig: Circuit of Single Phase Inverter Fig: Output of Inverter on applying
proper Gate signal without Filtering
DESIGN
Control
circuit
Fig: Input (Square Wave Generator)
Fig: Circuit of Control Circuit
Fig: Output of Control Circuit
Fig: Input (Triangle Wave Generator)
Fig: Input (AC Sample)
DESIGN OPERATION
synchronizing
• To synchronize
inverter should
generate the
output in phase
with the grid
power sending
• To send power to
Grid the inverter
output voltage
should be
leading the grid
voltage with an
angle of δ
DESIGN OPERATION
This is done by sampling the sine wave and set the phase shift to
zero. This unshifted sine wave will be rectified and compared with
the high frequency triangle wave to produce the SPWM signal. This
SPWM signal will then undergo an AND operation with the square
wave and produce 4 set of the signal as shown. The first set of signal
in figure will switch gate G1, second set of signal will switch gate
G2, third set of signal will switch gate G3, forth set of signal will
switch gate G4.
With this kind of switching and zero phase shifts, the output voltage
of the inverter will be controlled with the same phase with the grid.
Having the grid and inverter voltage to be in phase, the zero crossing
of both voltages is detected. Once the zero crossing is detected, the
contactor between the grid and inverter is activated and tie the grid
and inverter together.
DESIGN OPERATION
This is done by the phase shifter at the control circuit of the Inverter. This
shift the inverter output voltage to be leading the grid voltage with an
angle of δ. With this angle difference the inverter will send real and
reactive power as shown in equation.
P={ | Vinv || Vgrid |/ Zt }sin δ
Q== | Vinv|2 / Zt -{ | Vinv || Vgrid |/ Zt }cos δ
Where,
Vinv = Inverter Output Voltage
Vgrid = Power grid voltage
Zt = Impedance of the linking line
δ= Angle different between Vinv and Vgrid

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Grid tie inverter

  • 1. GRID TIE INVERTER A GRID-TIE INVERTER IS A POWER INVERTER THAT CONVERTS DIRECT CURRENT (DC) ELECTRICITY INTO ALTERNATING CURRENT (AC) WITH AN ABILITY TO SYNCHRONIZE TO INTERFACE WITH A UTILITY LINE Its applications are converting DC sources such as solar panels or small wind turbines into AC for tying with the grid
  • 3. Power circuit part The power circuit is normally built up from MOSFET or IGBT switches. The simplest power circuit of the inverter is built up from four switches with two parallel to each other as shown In switching process, the four switches are grouped into two groups • G1 and G2 is in one group & • G3 and G4 is in another. When G1 and G2 are switched and G3 and G4 is forced to be off by the signal from the control circuit, the output voltage from the inverter will be in positive. However, if G3 and G4 are switched and G1 and G2 is forced to be off, the inverter will give a negative voltage as the output.
  • 4. Control circuit part This control circuit is normally built from analog op-amp circuit or digital micro-controller or even combination of both analog and digital. In the inverter design, the control signal is design to be pulse width modulation(PWM) in most of the time. However, in some inverter design where the output voltage waveform shape is very important, the sinusoidal pulse width modulation(SPWM) is used to reduce the harmonic contain in the output waveform and provide better quality of the output voltage.
  • 5. DIFFERENCE FROM STAND ALONE INVERTER For a grid tie inverter or GTI, its design is slightly different from the stand alone inverter or inverter using in variable speed controller. The output voltage of a GTI should obey some requirements so that the inverter can be connected to the grid and sending power into the grid. The rules or requirements that to be obeyed are: • The voltage magnitude and phase must be equal to the grid. • The frequency of the output voltage from the inverter must be exactly equal to the grid frequency. (50Hz for India). To make sure that the output of the GTI obeys the above rules, the grid voltage is sampled and as a reference for the design of the switching signal. Besides, the load of the GTI also different from the stand alone or the variable speed controller inverter. The GTI have a load of the power grid where the load contains power much more high compare to the GTI. This require for the GTI to force the power generated from the PV into the grid. The real and reactive power flow of the GTI into the grid is shown in Equation 1 and 2 P={ | Vinv || Vgrid |/ Zt }sin δ … (1) Q== | Vinv|2 / Zt -{ | Vinv || Vgrid |/ Zt }cos δ … (2) Where, Vinv = Inverter Output Voltage Vgrid = Power grid voltage Zt = Impedance of the linking line δ= Angle different between Vinv and Vgrid
  • 6. DIFFERENCE FROM STAND ALONE INVERTER Besides, the load of the GTI also different from the stand alone or the variable speed controller inverter. The GTI have a load of the power grid where the load contains power much more high compare to the GTI. This require for the GTI to force the power generated from the PV into the grid. The real and reactive power flow of the GTI into the grid is shown in Equation 1 and 2 P={ | Vinv || Vgrid |/ Zt }sin δ … (1) Q== | Vinv|2 / Zt -{ | Vinv || Vgrid |/ Zt }cos δ … (2) Where, Vinv = Inverter Output Voltage Vgrid = Power grid voltage Zt = Impedance of the linking line δ= Angle different between Vinv and Vgrid From Equation 1, it is very clear that in order to send the maximum real power into the grid, the phase angle should be at 90 degree. However, for the stability limit of the GTI, this angle must not be 90 degree and should be lower than that. However, for Equation 1, the value of sin can have both positive and negative value. For positive value, output voltage of the inverter leading the grid voltage, the real power will flow from the GTI to the grid but if the value is negative then the real power will flow from the opposite direction
  • 7. DESIGN Power circuit Fig: Input to Inverter from PV Panel Fig: Circuit of Single Phase Inverter Fig: Output of Inverter on applying proper Gate signal without Filtering
  • 8. DESIGN Control circuit Fig: Input (Square Wave Generator) Fig: Circuit of Control Circuit Fig: Output of Control Circuit Fig: Input (Triangle Wave Generator) Fig: Input (AC Sample)
  • 9. DESIGN OPERATION synchronizing • To synchronize inverter should generate the output in phase with the grid power sending • To send power to Grid the inverter output voltage should be leading the grid voltage with an angle of δ
  • 10. DESIGN OPERATION This is done by sampling the sine wave and set the phase shift to zero. This unshifted sine wave will be rectified and compared with the high frequency triangle wave to produce the SPWM signal. This SPWM signal will then undergo an AND operation with the square wave and produce 4 set of the signal as shown. The first set of signal in figure will switch gate G1, second set of signal will switch gate G2, third set of signal will switch gate G3, forth set of signal will switch gate G4. With this kind of switching and zero phase shifts, the output voltage of the inverter will be controlled with the same phase with the grid. Having the grid and inverter voltage to be in phase, the zero crossing of both voltages is detected. Once the zero crossing is detected, the contactor between the grid and inverter is activated and tie the grid and inverter together.
  • 11. DESIGN OPERATION This is done by the phase shifter at the control circuit of the Inverter. This shift the inverter output voltage to be leading the grid voltage with an angle of δ. With this angle difference the inverter will send real and reactive power as shown in equation. P={ | Vinv || Vgrid |/ Zt }sin δ Q== | Vinv|2 / Zt -{ | Vinv || Vgrid |/ Zt }cos δ Where, Vinv = Inverter Output Voltage Vgrid = Power grid voltage Zt = Impedance of the linking line δ= Angle different between Vinv and Vgrid

Notas del editor

  1. From Equation 1, it is very clear that in order to send the maximum real power into the grid, the phase angle should be at 90 degree. However, for the stability limit of the GTI, this angle must not be 90 degree and should be lower than that. However, for Equation 1, the value of sin can have both positive and negative value. For positive value, output voltage of the inverter leading the grid voltage, the real power will flow from the GTI to the grid but if the value is negative then the real power will flow from the opposite direction
  2. From Equation 1, it is very clear that in order to send the maximum real power into the grid, the phase angle should be at 90 degree. However, for the stability limit of the GTI, this angle must not be 90 degree and should be lower than that. However, for Equation 1, the value of sin can have both positive and negative value. For positive value, output voltage of the inverter leading the grid voltage, the real power will flow from the GTI to the grid but if the value is negative then the real power will flow from the opposite direction