adaptive control of grid-connected inverters … mauricio 3.pdf1 adaptive control of grid-connected...
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![Page 1: Adaptive Control of Grid-Connected Inverters … Mauricio 3.pdf1 Adaptive Control of Grid-Connected Inverters Based on Online Grid Impedance Measurements 2013 CFES Annual Conference](https://reader034.vdocuments.net/reader034/viewer/2022042111/5e8c1b243ba144410e7493b3/html5/thumbnails/1.jpg)
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Adaptive Control of Grid-Connected Inverters Based on Online Grid
Impedance Measurements
2013 CFES Annual ConferenceTroy, New York
Mauricio Cespedes and Jian SunRensselaer Polytechnic Institute
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Outline of the Presentation• Effect of Grid Impedance on Stability of
Grid-Connected Inverters• Inverter Impedance Models• Derivation of Adaptive Rules• Online Grid Impedance Identification• Experimental Demonstration• Conclusions
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Inverter and Grid Impedances
L
PLL
PWM PLL
ia
ib
icdcV
va
vb
vc
Current Control System
Util
ity
Filte
r
Zg
Zi
Ac GridGrid-Connected Inverter
Characteristic Polynomial
p(s) = 1+Zg(s) / Zi(s)
Applies to Both Positive-Sequence and Negative-Sequence
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-3 -2 -1 0 1 2 3 4
0
1
2
3
100 Hz 1 kHz 10 kHz-200-150-100-50
050
100150
100 Hz 1 kHz 10 kHz10
20
30
40
50
Imag
inar
y Pa
rtAnalysis of the Impedance Ratio
Nyquist Plot of Impedance Ratio
← =170°
←Hz
Sequence Gain Margin Phase Margin
Positive 2.7 dB @ 420 Hz 10° @ 440 Hz
Negative 7.5 dB @ 350 Hz 23° @ 440 Hz
Phas
e (D
EG)
Mag
nitu
de (d
B
)f ZpZn
Zg
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Harmonic Resonanceib (4 A/div.)ia (4 A/div.) ic (4 A/div.)
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0.00 0.01 0.02 0.03 0.04 0.05
-100
1020
0.00 0.01 0.02 0.03 0.04 0.05
-2.00
2.04.0
Sequence ComponentsC
urre
nt (A
)
icia ib
|I h|/|
I 1| (
%)
ipin
Cur
rent
(A)
ss ssss
thththrd stth th
Negative Seq.
Positive Seq.*Based on Last Cycle
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Inverter Impedance Models
where TPLL(s) V1HPLL(s)/[1+V1HPLL(s)]
Symbol Value 2·(60 Hz)Vdc 550 VL 1.8 mH
Kp 0.098Ki 485Kp 3.14Ki 2365
V 120 √2 VI1 7.5 Ai1 0 rad
Td 25 s
Zn(s) =
Zp(s) =
Gv(s) ~
Applying the HarmonicLinearization Method:
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Impedance Model Verification
10 Hz 100 Hz 1 kHz 10 kHz
1020304050
10 Hz 100 Hz 1 kHz 10 kHz
-150-100-50
050
100150
Phas
e (d
eg.)
Mag
nitu
de (d
B
)
nZ
pZ
nZ
pZ
• Around 60 Hz– Fundamental Components
Are Measurement Noise
• At Harmonic Frequencies– Capacitive Converter
Impedance Explains Resonance with Inductive Grids
– Wide PLL Bandwidth Introduces Negative Damping Around 100 Hz
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Adaptive Control Rule Derivation• Apply the Routh-Hurwitz Stability Criterion to
the Characteristic Polynomial– Positive Sequence– Negative Sequence
• Simplify the Grid Impedance Model– Assume Inductive Grid– Valid at Low Frequencies
• Simplify the Inverter Impedance Model
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Inverter Impedance Simplification• Simplification of Inverter Impedance Models
1.
2.
3.
• Simplified Characteristic Polynomial
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Adaptation Rule of PLL Bandwidth• Stability Conditions
1.
2.
3.
• System is Stable if and Only If
,
i: Current Loop Bandwidth; LB is base inductance
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Roots of Characteristic Polynomial
(0.03 pu)
Introduce Adaptive Rule in the Full-Order System Model, No Simplifications:
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Summary of PLL Adaptation• Adaptation Rule Derived Assuming f >> f1
– Hence Stability Cannot Be Guaranteed if Lg > 0.33 pu
• Adaptive Rule Does Not Guarantee Minimum Damping Ratio– Rotation Mapping Introduces Complex-Valued
Coefficients to the Characteristic Polynomial
z-planes-plane
Routh-Hurwitz Fails
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CurrentControl
Online Zg(s) Identification
Ac
Grid
Use the Inverter DSP to Identify Zg(s)
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Impulse Response Methodia (3 A/div.) ic (3 A/div.)ib (3 A/div.)
Cur
rent
(p.u
.)
Cur
rent
(A)
DSP Sample Number (k)
←As Seen on the DSP
• Pros– Update Estimate Every Two Fundamental Cycles– Insensitive to the Power System Non-Stationarity
• Cons– Excitation of Nonlinear Dynamics
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Grid Impedance Identification
Cf
Rd
Element Value PerspectiveLg 3.3 mH 0.06 puRd 1.87 3 watts / phaseCf 20 F 0.12 pu
Utility Grid 164 H 0.03 pu
Lg
Util
ity
Zn
Zp
←Sweep Results
←DSP
←Sweep Results
←DSP
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Adaptation of Control System• Assume Grid Impedance
is Inductive– Extract it from the Non-
Parametric Estimation• Adjust PLL Bandwidth
Based on Grid Inductance– Gain Scheduling Control– No Dynamics Associated to
the Adjustment
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Experimental DemonstrationL
PLL
PWM
Hi(s)
ibr
Hi(s)
PLL
ia
ib
icdcV
va
vb
vc Util
ity
Hi(s)
dq
abc iqr
idr
Cf
Rd Lg
Enable
Grid Parameter ValueLx 10 mH (0.34 pu)Lg 5 mH (0.17 pu)Rd 1.2 W
Cf 10 F (0.04 pu)
Lx
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Identification of Strong Grid
←Pulse for Identification
ib (2.5 A/div.)ia (2.5 A/div.) ic (2.5 A/div.)
PLL ~ 2·(120 Hz)Lg>
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-3 -2 -1 0 1 2 3 4
-1
0
1
2
100 Hz 1 kHz 10 kHz-200-150-100-50
050
100150
100 Hz 1 kHz 10 kHz10
20
30
40
50
Impedance RatioIm
agin
ary
Part
Nyquist Plot of Impedance Ratio
Phas
e (D
EG)
Mag
nitu
de (d
B
)f
Zp
Zn
Zg
f
Sequence Gain Margin Phase Margin
Positive > 20 dB > 30o
Negative > 20 dB > 30o
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Weak Grid Transition
ib (2.5 A/div.)ia (2.5 A/div.) ic (2.5 A/div.)
PLL ~ 2·(120 Hz)Lg
>
Enable Changes State
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22100 Hz 1 kHz 10 kHz
-200-150-100-50
050
100150
100 Hz 1 kHz 10 kHz10
20
30
40
50
-3 -2 -1 0 1 2 3 4
-1
0
1
2
Impedance RatioIm
agin
ary
Part
Nyquist Plot of Impedance Ratio
Phas
e (D
EG)
Mag
nitu
de (d
B
)
f
Zp
Zn
Zg
f
Sequence Gain Margin Phase Margin
Positive 2.5 dB @ 200 Hz 13.6o @ 300 Hz
Negative 12 dB @ 30 Hz 19.0o @ 300 Hz
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Resonance During Weak Grid
Inductance Estimate Has Not Been Updated
ib (2.5 A/div.)ia (2.5 A/div.) ic (2.5 A/div.)
PLL ~ 2·(120 Hz)Lg
>
Estimate Has Not Been Updated
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0.00 0.01 0.02 0.03 0.04 0.05
-5.00
5.010
0.00 s 0.01 s 0.02 s 0.03 s 0.04 s 0.05 s
-0.50
0.51.0
Sequence ComponentsC
urre
nt (A
)
icia ib
|I h|/|
I 1| (
%)
ipin
Cur
rent
(A)
thththrd stth th
Negative Seq.
Positive Seq.
*Based on Last Cycle
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Adaptation to Weak Grid
ib (2.5 A/div.)ia (2.5 A/div.) ic (2.5 A/div.)
Lg
>
Estimate Has Been Updated PLL ~ 2·(40 Hz)
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Summary of Adaptation Transient
Weak Grid Transition
Harmonic Resonance
Adaptation
Estimate Is Updated Every 200 ms (12 Fundamental Cycles)
in: Negative Sequenceip: Positive Sequence
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Conclusions• Proposed and Demonstrated Adaptation of
PLL Bandwidth and Grid Voltage Feedforward Gains to Guarantee System Stability Based on Online Grid Impedance ID– Used the Conventional Routh Hurwitz Criterion
• Developing Conditions for Constant Damping Ratio Involve Complex-Valued Coefficients in the Characteristic Polynomial– Used the Generalized Routh-Hurwitz Criterion