IEEE Power Electronics Magazine Compendium - March 2018 - 41

voltage droop mode is denoted the Q D mode. All the possible operation modes are shown in Table 1.
Figure 12 depicts the experimental results of a selfsynchronized synchronverter with the grid frequency
lower than 50 Hz. It can be seen that the synchronverter frequency is much smoother than the grid frequency obtained by a PLL, which means the performance is much worse if a PLL is adopted to provide the
frequency reference.

Table 1. The operation modes of
a self-synchronized synchronverter.
switch Sc

switch SP

1

ON

ON

N/A

1

ON

OFF

Self-synchronization

1

OFF

ON

N/A

1

OFF

OFF

N/A

2

ON

ON

P mode, Q D mode

2

ON

OFF

P mode, Q mode

rectifiers without a Dedicated synchronization Unit
Like synchronverters, a self-synchronized synchronverter can
also be operated as a rectifier [15]. The controller for threephase PWM-controlled rectifiers is shown in Figure 13.
Compared to Figure 3, similarly, three major changes are
made: 1) a virtual current i s generated from the error
between the grid voltage v and the control signal e is introduced, and the current fed into the controller can be either
the virtual current i s or the grid current i; 2) the synchronization unit to provide the grid frequency reference and the reset

Frequency (Hz)

Frequency (Hz)

50

0

10

20
30
40
Time (Seconds)
(a)

50

ON

PD mode, Q D mode

OFF

PD mode, Q mode

50.1
50

0

10

20
30
40
Time (Seconds)
(b)

50

60

0

10

20
30
40
Time (Seconds)
(d)

50

60

0.8
0.6

1.1

Error (V)

Normalized E (p.u.)

OFF
OFF

49.9

60

1.2

1

0.4
0.2

0.9
0

10

20
30
40
Time (Seconds)
(c)

50

0

60

100

80

80

60

60

40

Q (Var)

P (W)

2
2

50.2

50.1

40
20

20
0
-20

0
-20

Mode

signal is removed from the controller; and 3) a PI controller is
added to generate the reference frequency/speed io r for the
virtual synchronous motor while driving the error between
the reference speed io r and the virtual speed io to zero.

50.2

49.9

switch SQ

0

10

20
30
40
Time (Seconds)
(e)

50

60

0

10

20
30
40
Time (Seconds)
(f)

50

60

FIG 12 The experimental results of a self-synchronized synchronverter [5]. (a) The synchronverter frequency f. (b) The grid frequency
fg from a three-phase PLL for comparison (not used for control). (c) The amplitude E of the generated voltage e. (d) The amplitude of
v - vg. (e) The real power at the terminal. (f) The reactive power at the terminal.

December 2016

z	IEEE PowEr ElEctronIcs MagazInE

41



Table of Contents for the Digital Edition of IEEE Power Electronics Magazine Compendium - March 2018

Contents
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