Indian Patents. 278704:THYRISTOR CONTROLLED SERIES CAPACITOR MODULE

Title of Invention	THYRISTOR CONTROLLED SERIES CAPACITOR MODULE
Abstract	A thyristor controlled series capacitor (TCSC) module comprises: a capacitor (102) connectable in series with a power line; a thyristor value (106) connected in parallel with the capacitor; a breaker (110) connected in parallel with the thyristor valve; and an inductor (108). By providing a simplified breaker arrangement, the number of components is reduced.

Full Text	THYRISTOR CONTROLLED SERIES CAPACITOR MODULE FIELD OF INVENTION The present invention relates generally to the configuration of thyristor controlled series capacitors and more specifically to a thyristor controlled series capacitor module having a reduced number of components. BACKGROUND Thyristor controlled series capacitors (TCSC) are used in power systems as controllable devices connected in series with a power line. The control offered by TCSC is an "impedance" type control used for controlled series compensation. A prior art TCSC module is shown in Fig. 1. The TCSC module comprises a capacitor 2 connected in series with a power line 4. In parallel with the capacitor 2 there is provided a thyristor valve 6 in series with an inductor 8. The thyristor valve in itself consists of two anti-parallel thyristors 6a, 6b in order to provide bi-directional functionality. The TCSC module can operate in essentially three different, modes. In a so-called bypassed mode, the thyristors are gated for full conduction and the TCSC module is slightly inductive because of the inductor in series with the thyristor valve. In a so-called inserted mode, the capacitor 2 is inserted by turning off the thyristor valve, i.e., blocking all gating signals to the thyristors. When the capacitor is inserted, the thyristors can be gated near the end of each half cycle in a manner that can circulate controlled amount of inductive current through the capacitor, thereby increasing the effective capacitive reactance of the module. This concept is referred to as vernier control. In order to provide for bypassing of the TCSC module, three disconnectors 7-9 are provided as shown in Fig. 1. The term disconnector is intended in this description to refer to devices normally not capable of interrupting a current. In normal operation, the first and second disconnectors 7 and 8 are closed and disconnector 9 is open. In these positions, the disconnectors effectively connect the TCSC module in series with the power line 4. The TCSC module shown in Fig. 1 can be exposed to short circuit currents during line faults, resulting in stresses on the capacitor. To cope with this situation, a first breaker 10 is provided in parallel with the thyristor valve 6. The term breaker is intended in this description to cover devices capable of breaking or interrupting a current. During short circuit faults, the first breaker 10 is closed in order to ensure that the inductance 8 is included for limitation of capacitor discharge current. The current path in this situation through the breaker 10 and thyristor valve 6 is shown in the figure with a dashed line. To allow permanent bypass of the module in cases of internal fault or during maintenance, a second breaker 12 is provided in parallel with the capacitor 2. This second breaker, when closed, effectively bypasses the capacitor. The current path in this situation through the breaker 12 is shown in the figure with a continuous line. After the breaker 12 has been closed, the dis- connector 9 is closed whereupon the breaker 12 is opened. Then, with all current flowing through dis- connector 9 and no current through the TCSC module, the disconnectors 7 and 8 are opened. In this way, the TCSC is effectively disconnected from the power line 4. Finally, the TCSC module shown in Fig. 1 comprises a varistor 14 connected in parallel with the capacitor 2. The varistor, being a power surge protection device, protects the capacitor in case of a voltage spike appearing across the capacitor. TCSC modules as many other power line components are subject to cost-reduction demands. Thus, the provision of two different breakers contributes to the overall cost of the TCSC module and is in itself a problem. Also, as the number of components included in the TCSC module increases, so is the probability of internal faults. A further problem with the configuration of Fig. 1 is the fact that when operating in thyristor bypass mode, the fault current will flow through the inductor 8, resulting in magnetic energy and voltage drop. A special difficulty arises when restoring normal operation and line current shall be commutated from breaker 12 to breaker 10, since the breaker 10 path includes the inductor 8. In order to be able to open breaker 12 this breaker has to have sufficient breaking capability; a disconnect switch would not be sufficient. SUMMARY OF THE INVENTION An object of the present invention is to provide a TCSC module having a reduced number of components as compared to prior art TCSC modules. The invention is based on the realization that by reconfiguring the other components of the TCSC module, one of the prior art breakers can be dispensed with. The above object, among others, is according to the invention attained by a TCSC module as defined by appended claim 1. Thus there is provided a thyristor controlled series capacitor module, comprising: a capacitor connectable in series with a power line; a thyristor valve connected in parallel with the capacitor; a breaker connected in parallel with the thyristor valve; and an inductor; which is characterized in that the inductor is connected in series with the capacitor; and the serial connected capacitor and inductor are connected in. parallel with the thyristor valve. Further preferred embodiments are defined by the dependent claims. By providing the inductor in series with the capacitor and by connecting the capacitor and inductor in parallel with the thyristor valve, the above mentioned problems are avoided or at least mitigated. A module is provided which comprises just one breaker, reducing cost and in- creasing reliability. Also, the problem with commutating currents from one breaker to another is also avoided since there is just one breaker. BRIEF DESCRIPTION OF DRAWINGS The invention is now described, by way of example, with reference to the accompanying drawings, in which: Fig. 1 shows a prior art TCSC module, Fig. 2 shows a TCSC module according to the present invention, and Fig. 3 shows an alternative embodiment of a TCSC module according to the invention. DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS In the following a detailed description of preferred embodiments of a TCSC module according to the present invention will be given. Fig. 1 has been covered in the background section of the description and will not be described further herein. Fig. 2 shows a TCSC module according to the present invention. It is in many aspects similar to the prior art module of Fig. 1. Thus, the TCSC module comprises a capacitor 102 connected in series with a power line 104. In parallel with the capacitor 102 there is provided a thyristor valve 106. The thyristor valve in itself consists of two anti-parallel thyristors 106a, 106b in order to provide bi-directional functionality. Like prior art modules, the TCSC module of Fig. 2 can operate in essentially three different modes: bypassed mode, inserted mode, and under vernier control. The TCSC module is connected to the power line 104 by means of two disconnectors 107, 108. A third disconnector 109 is provided in series with the power line. Also the TCSC module shown in Fig. 2 can be exposed to short circuit currents during line faults, resulting in stresses on the capacitor. To cope with this situation, a breaker 110 is provided in parallel with the thyristor valve 106. During short circuit faults, the breaker 110 is closed. The current path in this situation through the breaker 110 and thyristor valve 106 is shown in the figure with a dashed line. The inductance 108 is in this situation included in the path of the capacitor discharge current and thereby limits this current to avoid detrimental current peaks. To allow permanent bypass of the module in cases of internal fault or during maintenance, the breaker 110 is provided in parallel with the capacitor 102, too. By this configuration, the breaker, when closed, effectively bypasses the capacitor. The current path in this situation through the breaker 110 is shown in the figure with a continuous line. In other words, when the breaker is closed, the path through the breaker forms a current path both during short circuit faults on the power line and during bypass operation of the module. Like in the prior art module shown in Fig. 1, the TCSC module shown in Fig. 2 comprises a varistor 114 connected in parallel with the capacitor 102 to protect it in case of power surges. The configuration of Fig. 2 consequently allows simpli- fication of the bypass breaker arrangement. Furthermore, the voltage stresses during a line fault are reduced when operating in thyristor bypass mode since the inductor is not included in the line current path. In an alternative embodiment of a TCSC module according to the invention, which is shown in Fig. 3, the varistor has been provided directly in parallel with the capa- citor. This provides the benefit of increased protection for the capacitor. In all other aspects, this embodiment is identical to the embodiment shown in Fig. 2. Preferred embodiments of a TCSC module according to the present invention has been described. A person skilled in the art realizes that these could be varied within the scope of the appended claims. CLAIMS 1. Thyristor controlled series capacitor module, comprising: - a capacitor (102; 202) connectable in series with a power line; - a thyristor valve (106; 206) connected in parallel with the capacitor; - a breaker (110; 210) connected in parallel with the thyristor valve; and - an inductor (108; 208); characterized in that - the inductor is connected in series with the capacitor; and - the serial connected capacitor and inductor are connected in parallel with the thyristor valve, - wherein the path through the breaker, when the breaker is closed, forms a current path during short circuit faults on the power line and during bypass operation of the module. 2. The module according to claim 1, wherein the thyristor valve comprises two anti-parallel thyristors (106a, 106b; 206a, 206b). 3. The module according to claim 1 or 2, comprising a varistor (114; 214) connected in parallel with the capacitor (102; 202). 4. A method of controlling a thyristor controlled series capacitor module, comprising: - an inductor (108; 208) connected in series with a capacitor (102; 202) and connectable in series with a power line; - a thyristor valve (106; 206) connected in parallel with the inductor and capacitor; - a breaker (110; 210) connected in parallel with the thyristor valve; the method being characterized by the following steps: - in normal operation, keeping the breaker open; - upon short circuit faults on the power line, closing the breaker and keeping the breaker closed; and - during bypass operation of the module, closing the breaker and keeping the breaker closed. A thyristor controlled series capacitor (TCSC) module comprises: a capacitor (102) connectable in series with a power line; a thyristor value (106) connected in parallel with the capacitor; a breaker (110) connected in parallel with the thyristor valve; and an inductor (108). By providing a simplified breaker arrangement, the number of components is reduced.

Full Text

THYRISTOR CONTROLLED SERIES CAPACITOR MODULE
FIELD OF INVENTION
The present invention relates generally to the
configuration of thyristor controlled series capacitors
and more specifically to a thyristor controlled series
capacitor module having a reduced number of components.
BACKGROUND
Thyristor controlled series capacitors (TCSC) are used
in power systems as controllable devices connected in
series with a power line. The control offered by TCSC is
an "impedance" type control used for controlled series
compensation.
A prior art TCSC module is shown in Fig. 1. The TCSC
module comprises a capacitor 2 connected in series with
a power line 4. In parallel with the capacitor 2 there
is provided a thyristor valve 6 in series with an
inductor 8. The thyristor valve in itself consists of
two anti-parallel thyristors 6a, 6b in order to provide
bi-directional functionality.
The TCSC module can operate in essentially three
different, modes. In a so-called bypassed mode, the
thyristors are gated for full conduction and the TCSC
module is slightly inductive because of the inductor in
series with the thyristor valve. In a so-called inserted
mode, the capacitor 2 is inserted by turning off the
thyristor valve, i.e., blocking all gating signals to
the thyristors. When the capacitor is inserted, the
thyristors can be gated near the end of each half cycle
in a manner that can circulate controlled amount of

inductive current through the capacitor, thereby
increasing the effective capacitive reactance of the
module. This concept is referred to as vernier control.
In order to provide for bypassing of the TCSC module,
three disconnectors 7-9 are provided as shown in Fig. 1.
The term disconnector is intended in this description to
refer to devices normally not capable of interrupting a
current. In normal operation, the first and second
disconnectors 7 and 8 are closed and disconnector 9 is
open. In these positions, the disconnectors effectively
connect the TCSC module in series with the power line 4.
The TCSC module shown in Fig. 1 can be exposed to short
circuit currents during line faults, resulting in
stresses on the capacitor. To cope with this situation,
a first breaker 10 is provided in parallel with the
thyristor valve 6. The term breaker is intended in this
description to cover devices capable of breaking or
interrupting a current. During short circuit faults, the
first breaker 10 is closed in order to ensure that the
inductance 8 is included for limitation of capacitor
discharge current. The current path in this situation
through the breaker 10 and thyristor valve 6 is shown in
the figure with a dashed line.
To allow permanent bypass of the module in cases of
internal fault or during maintenance, a second breaker
12 is provided in parallel with the capacitor 2. This
second breaker, when closed, effectively bypasses the
capacitor. The current path in this situation through
the breaker 12 is shown in the figure with a continuous
line. After the breaker 12 has been closed, the dis-

connector 9 is closed whereupon the breaker 12 is
opened. Then, with all current flowing through dis-
connector 9 and no current through the TCSC module, the
disconnectors 7 and 8 are opened. In this way, the TCSC
is effectively disconnected from the power line 4.
Finally, the TCSC module shown in Fig. 1 comprises a
varistor 14 connected in parallel with the capacitor 2.
The varistor, being a power surge protection device,
protects the capacitor in case of a voltage spike
appearing across the capacitor.
TCSC modules as many other power line components are
subject to cost-reduction demands. Thus, the provision
of two different breakers contributes to the overall
cost of the TCSC module and is in itself a problem.
Also, as the number of components included in the TCSC
module increases, so is the probability of internal
faults.
A further problem with the configuration of Fig. 1 is
the fact that when operating in thyristor bypass mode,
the fault current will flow through the inductor 8,
resulting in magnetic energy and voltage drop.
A special difficulty arises when restoring normal
operation and line current shall be commutated from
breaker 12 to breaker 10, since the breaker 10 path
includes the inductor 8. In order to be able to open
breaker 12 this breaker has to have sufficient breaking
capability; a disconnect switch would not be sufficient.

SUMMARY OF THE INVENTION
An object of the present invention is to provide a TCSC
module having a reduced number of components as compared
to prior art TCSC modules.
The invention is based on the realization that by
reconfiguring the other components of the TCSC module,
one of the prior art breakers can be dispensed with.
The above object, among others, is according to the
invention attained by a TCSC module as defined by
appended claim 1.
Thus there is provided a thyristor controlled series
capacitor module, comprising: a capacitor connectable in
series with a power line; a thyristor valve connected in
parallel with the capacitor; a breaker connected in
parallel with the thyristor valve; and an inductor;
which is characterized in that the inductor is connected
in series with the capacitor; and the serial connected
capacitor and inductor are connected in. parallel with
the thyristor valve.
Further preferred embodiments are defined by the
dependent claims.
By providing the inductor in series with the capacitor
and by connecting the capacitor and inductor in parallel
with the thyristor valve, the above mentioned problems
are avoided or at least mitigated. A module is provided
which comprises just one breaker, reducing cost and in-
creasing reliability. Also, the problem with commutating
currents from one breaker to another is also avoided
since there is just one breaker.

BRIEF DESCRIPTION OF DRAWINGS
The invention is now described, by way of example, with
reference to the accompanying drawings, in which:
Fig. 1 shows a prior art TCSC module,
Fig. 2 shows a TCSC module according to the present
invention, and
Fig. 3 shows an alternative embodiment of a TCSC module
according to the invention.
DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
In the following a detailed description of preferred
embodiments of a TCSC module according to the present
invention will be given.
Fig. 1 has been covered in the background section of the
description and will not be described further herein.
Fig. 2 shows a TCSC module according to the present
invention. It is in many aspects similar to the prior
art module of Fig. 1. Thus, the TCSC module comprises a
capacitor 102 connected in series with a power line 104.
In parallel with the capacitor 102 there is provided a
thyristor valve 106. The thyristor valve in itself
consists of two anti-parallel thyristors 106a, 106b in
order to provide bi-directional functionality. Like
prior art modules, the TCSC module of Fig. 2 can operate
in essentially three different modes: bypassed mode,
inserted mode, and under vernier control.
The TCSC module is connected to the power line 104 by
means of two disconnectors 107, 108. A third

disconnector 109 is provided in series with the power
line.
Also the TCSC module shown in Fig. 2 can be exposed to
short circuit currents during line faults, resulting in
stresses on the capacitor. To cope with this situation,
a breaker 110 is provided in parallel with the thyristor
valve 106. During short circuit faults, the breaker 110
is closed. The current path in this situation through
the breaker 110 and thyristor valve 106 is shown in the
figure with a dashed line. The inductance 108 is in this
situation included in the path of the capacitor
discharge current and thereby limits this current to
avoid detrimental current peaks.
To allow permanent bypass of the module in cases of
internal fault or during maintenance, the breaker 110 is
provided in parallel with the capacitor 102, too. By
this configuration, the breaker, when closed,
effectively bypasses the capacitor. The current path in
this situation through the breaker 110 is shown in the
figure with a continuous line.
In other words, when the breaker is closed, the path
through the breaker forms a current path both during
short circuit faults on the power line and during bypass
operation of the module.
Like in the prior art module shown in Fig. 1, the TCSC
module shown in Fig. 2 comprises a varistor 114
connected in parallel with the capacitor 102 to protect
it in case of power surges.

The configuration of Fig. 2 consequently allows simpli-
fication of the bypass breaker arrangement. Furthermore,
the voltage stresses during a line fault are reduced
when operating in thyristor bypass mode since the
inductor is not included in the line current path.
In an alternative embodiment of a TCSC module according
to the invention, which is shown in Fig. 3, the varistor
has been provided directly in parallel with the capa-
citor. This provides the benefit of increased protection
for the capacitor. In all other aspects, this embodiment
is identical to the embodiment shown in Fig. 2.
Preferred embodiments of a TCSC module according to the
present invention has been described. A person skilled
in the art realizes that these could be varied within
the scope of the appended claims.

CLAIMS
1. Thyristor controlled series capacitor module,
comprising:
- a capacitor (102; 202) connectable in series with a
power line;
- a thyristor valve (106; 206) connected in parallel
with the capacitor;
- a breaker (110; 210) connected in parallel with the
thyristor valve; and
- an inductor (108; 208);
characterized in that
- the inductor is connected in series with the
capacitor; and
- the serial connected capacitor and inductor are
connected in parallel with the thyristor valve,
- wherein the path through the breaker, when the breaker
is closed, forms a current path during short circuit
faults on the power line and during bypass operation
of the module.

2. The module according to claim 1, wherein the
thyristor valve comprises two anti-parallel thyristors
(106a, 106b; 206a, 206b).
3. The module according to claim 1 or 2, comprising
a varistor (114; 214) connected in parallel with the
capacitor (102; 202).

4. A method of controlling a thyristor controlled
series capacitor module, comprising:
- an inductor (108; 208) connected in series with a
capacitor (102; 202) and connectable in series with a
power line;
- a thyristor valve (106; 206) connected in parallel
with the inductor and capacitor;
- a breaker (110; 210) connected in parallel with the
thyristor valve;
the method being characterized by the
following steps:
- in normal operation, keeping the breaker open;
- upon short circuit faults on the power line, closing
the breaker and keeping the breaker closed; and
- during bypass operation of the module, closing the
breaker and keeping the breaker closed.

A thyristor controlled series capacitor (TCSC) module
comprises: a capacitor (102) connectable in series
with a power line; a thyristor value (106) connected in
parallel with the capacitor; a breaker (110) connected
in parallel with the thyristor valve; and an inductor
(108). By providing a simplified breaker arrangement,
the number of components is reduced.

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Patent Number

278704

Indian Patent Application Number

2979/KOLNP/2008

PG Journal Number

54/2016

Publication Date

30-Dec-2016

Grant Date

28-Dec-2016

Date of Filing

22-Jul-2008

Name of Patentee

ABB RESEARCH LTD.

Applicant Address

AFFOLTERNSTRASSE 52, CH-8050 ZURICH

Inventors:

#	Inventor's Name	Inventor's Address
1	INGESTROM, GUNNER	SYRENVAGEN 117 S-722 45 VASTERAS
2	JONSSON, TOMAS	ASLOGS VAG 8, S-723 55 VASTERAS

PCT International Classification Number

H02J 3/18

PCT International Application Number

PCT/SE2005/002052

PCT International Filing date

2005-12-28

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1			NA