CSC-150 Busbar Protection IED Product Guide_V1.10
Transcript of CSC-150 Busbar Protection IED Product Guide_V1.10
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CSC-150Busbar Protection IED
Product Guide
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Version V1.10Doc. Code: 0SF.492.056(E)Issued Date 2012.8Copyright owner: Beijing Sifang Automation Co., Ltd.
Note: The company keeps the right to perfect the instruction. If equipments do not agree with the instruction at anywhere, please contact our company in time. We will provide you with corresponding service.
® is registered trademark of Beijing Sifang Automation Co., Ltd.
We reserve all rights to this document, even in the event that a patent is issued and a different commercial proprietary right is registered. Improper use, in particular reproduction and dissemination to third parties, is not permitted.
This document has been carefully checked. If the user nevertheless detects any errors, he is asked to notify us as soon as possible.
The data contained in this manual is intended solely for the IED description and is not to be deemed to be a statement of guaranteed properties. In the interests of our customers, we constantly seek to ensure that our products are developed to the latest technological standards as a result; it is possible that there may be some differences between the hardware/software product and this information product.
Manufacturer:Beijing Sifang Automation Co., Ltd.
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Overview
1
CSC-150 is selective, reliable and high
speed busbar protection IED (Intelligent
Electronic Device), with powerful capa-
-bilities to cover following applications:
For various busbar arrangements,
including those listed below:
Single Busbar
Two Single Busbars connected
with bus coupler
Two Separate Busbars in 1
CB
arrangement
Double Busbar
Main and Transfer Busbar
Double Main and one Transfer
Busbar
Main and Main/Transfer Busbar
For solidly earthed, low impedance
earthed or isolated power system
Used in a wide range of voltage levels,
up to 750kV
Communication with station automation
system
The IED provides reliable busbar
differential protection with integrated check
zone, short saturation-free time and fast
tripping time as well as circuit breaker
failure protection and dead zone
protection.
The wide application flexibility makes the
IED an excellent choice for both new
installations and retrofitting of the existing
installations.
.
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Feature
2
Protection and monitoring IED with
extensive functional library, user
configuration possibility and expand-
-able hardware design to meet with
user’s special requirements
Inter-lock between two CPU modules,
avoiding maloperation due to internal
severe fault of one module
Busbar differential protection (87BB)
Low-impedance centralized differ-
-ential protection
Selective zone tripping
Extreme stability against exteral
fault, short CT saturation-free time
Phase-segraegated measuring
system
Integrated check zone
Bus couplers/disconnetor is defin-
-able in busbar scheme
A complete protection functions library,
include:
Busbar differential protection
(87BB)
Circuit breaker failure protection
(50BF)
Dead zone protection (50DZ)
Voltage transformer secondary
circuit supervision (97FF)
Current transformer secondary
circuit supervision
Self-supervision to all modules in the
IED
Complete IED information recording:
tripping reports, alarm reports, startup
reports and general operation reports.
Any kinds of reports can be stored up
to 2000 and be memorized in case of
power disconnection
Up to three electric /optical Ethernet
ports can be selected to communicate
with substation automation system by
IEC61850 or IEC60870-5-103 proto-
-cols
Up to two electric RS-485 ports can be
selected to communicate with
substation automation system by
IEC60870-5-103 protocol
Time synchronization via network
(SNTP), pulse and IRIG-B mode
Configurable LEDs (Light Emitting
Diodes) and output relays satisfied
users’ requirement
Versatile human-machine interface
Multifunctional software tool for setting,
monitoring, fault recording analysis,
configuration, etc.
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Function
3
Protection functions
Description ANSI Code
IEC 61850
Logical Node
Name
IEC 60617
graphical
symbol
Differential protection
Busbar differential protection 87BB PDIF
Breaker control function
Breaker failure protection 50BF RBRF
3I> BF
I0>BF
I2>BF
Dead zone protection 50DZ
Secondary system supervision
CT secondary circuit supervision
VT secondary circuit supervision 97FF
Position of circuit breaker, disconnector
and other switching devices monitoring
Monitoring functions
Description
Auxiliary contacts of circuit breaker supervision
Self-supervision
Fault recorder
Station communication
Description
Front communication port
Isolated RS232 port for maintaining
Rear communication port
0-2 isolated electrical RS485 communication ports, support IEC 60870-5-103 protocol
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Function
4
0-3 Ethernet electrical/optical communication ports, support IEC 61850 protocol or IEC 60870-5-103
protocol
Time synchronization port, support GPS pulse or IRIG-B code
IED software tools
Functions
Reading measuring value, IED report
Setting
IED testing
Disturbance recording analysis
IED configuration
Printing
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Function
5
Application for busbar
50BF
RBRF
3I>BF
87BB
PDIF
50BF 3I>BF
RBRF
50BF 3I>BF
RBRF
50DZ
50BF 3I>BF
RBRF
50BF 3I>BF
RBRF
MONITORING
STATION
COMMUNICATION
MEASUREMENT
- RS232/485
- RJ45/FO
- IEC61850
- IEC60870-5-103
Fault recording
50DZ 50DZ
50DZ 50DZ
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Protection
6
Busbar differential protection (87BB)
Busbar differential protection represents
the main protection function of the IED. It is
characterized by a high measurement
accuracy as well as flexible matching to
most of busbar configurations. The
operation is based on the percentage
restraint principle with an extreme stability
feature against heavy CT saturation
caused by external fault.
Operating characteristic
Figure 1 illustrates the characteristic of busbar differential protection function.
iDiff
iRes
I_BDiff
K=1
K=K_Diff
Operating zone
Figure 1 Characteristic of busbar differential
protection
where:
iDiff: Busbar differential current
iRes: Busbar restraint current
I_BDiff: The sensitive threshold of pickup current of busbar differential protection
K_Diff: Slope_BDiff, the settable slope of the characteristic
If a short circuit occurs on the busbars
whereby the same phase relation applies
to all infeeding currents, then the fault
characteristic is a straight line inclined at
45°. Any difference in phase relation of the
fault currents leads to a lowering of the
fault characteristic. The settable slope,
Slope_BDiff is represented as a straight
line with corresponding gradient and forms
the operating characteristic.
The differential current iDiff and the
restraining current iRes are calculated in the
IED according to following formula. The
following definitions are applied for each
phase.
where:
n1, n2,… nn: CT transformation ratios of various feeders connected to the busbar. The IED is informed about these values by user-defined settings
The IED evaluates the differential current
and the restraining current at consecutive
sampling intervals. The busbar protection
would issue a trip command if there are
more than (N-2) samples fulfilling following
condition in the program observation
window:
The above mentioned calculation is
performed in relevant bus zones as well as
in check zone, respectively. The trip
command can be issued only when both
the faulty bus zone and the check zone are
in operating area.
Automatic ratio compensation
CT ratios of in a busbar system may be
different in various feeders, because the
load conditions may be different in the
feeders. The IED adjusts CT ratio of all
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Protection
7
feeders automatically, making the
secondary currents fulfilling Krichhoff’s
current law (KCL). In order to insure the
accuracy, the difference of CT ratios
among various feeders should not be more
than 4 times.
Disconnector replica
The IED confirms the disconnector status
by monitoring the disconnector status
contacts. For each disconnector, both the
normally open status contact (NO) and
normally close status contact (NC) are
required. Based on the status of these two
contacts, the IED can discriminate error of
the contacts and then alarm or/and block
the relevant bus zone of differential
protection depending on the setting. If
blocking protection is selected, the IED
would issue an alarm signal and would
block the protection. If no blocking is
selected, only alarm signal would be
issued and the protection would continue
to its operation according to the previous
healthy state of the disconnector before
the contacts error.
Circuit breaker status
The feeder or coupler circuit breaker status
contacts together with disconnector status
contacts are used to determine the actual
bus connection state for differential current
calculation and indication of busbar
connection
Both normally open status contact and
normally close status contact of circuit
breakers of all feeders including bus
coupler are connected to the IED. Based
on the status of these two contacts, the
IED can discriminate error of the contacts
and then alarm until the error is cleared,
and the protection would continue to its
operation according the previous healthy
state of the breaker before the contacts
error.
Current transformer open circuit supervision
When an open circuit occurs in secondary
circuit of current transformers, differential
current appears in bus-section selective
zones. Further, if the faulty current
transformer corresponds to a feeder,
differential current would further appear in
check zone. The IED detects such a
condition and issues respective alarm
report. Moreover, it is possible to block
busbar differential protection when a CT
open circuit is detected.
Differential current saturation supervision
When an external fault occurs near the
busbar, it may lead to current transformer
saturation on the faulty feeder. The
resulting differential current may cause the
protection to maloperate if no measure is
taken to detect saturation condition. To
cope with the problem, the IED provides a
sensitive element to detect current trans-
-former saturation according to the wave-
-form characteristics of differential and
restraining current.
In fact, secondary current can be
transformed accurately, even by a
saturated current transformer, when the
current is near zero or at the initial instants
of fault. At these instants, the differential
current is zero. The IED adopts this
characteristic to detect current transformer
saturation. The CT saturation free time is
only 2 ms.
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Protection
8
Sequence trip
In case of bus coupler with only one CT,
when a fault occurs between the CT and
bus coupler circuit breaker while the circuit
breaker is closed, the IED will trip the bus
section near bus coupler circuit breaker
instantaneously, and after a fixed time
delay, if the bus coupler circuit breaker is
opened, the IED will trip the other bus
section. The tripping logic is illustrated in
Figure 2.
Bus A
IFAULT
Instantaneous trip
Line
A1
Line
B1
Line
BmLine
An
Delay trip
Bus B
Closed CB
Legend:
Figure 2 Trip logic to clear fault between coupler
breaker and its CT
Breaker failure protection (50BF)
The circuit breaker failure protection is able
to detect a failure of the circuit breaker
during a fault clearance. It ensures fast
back-up tripping of surrounding breakers
by tripping relevant bus sections.
The protection operates separately for
each feeder and coupler with dedicated
settings.
Once a circuit breaker operating failure
occurs on a feeder/transformer, the bus
section which the feeder/transformer is
connected with can be selectively isolated
by the protection. In addition a transfer trip
signal is issued to trip the remote end
circuit breaker of the feeder or other
transformer windings.
In the event of a circuit breaker failure with
a busbar fault, a transfer trip signal is
issued to trip the remote end circuit
breaker of the feeder.
The current criteria are in combination with
three phase current, zero and negative
sequence current to achieve a higher
security.
2 trip stages (local and surrounding
breaker tripping)
Related bus zone tripping in second
stage
Transfer trip command to the remote
line end in second stage
Internal/ external initiation
Single/three phase CBF initiation
Current criteria checking (including
phase current, zero and negative
sequence current)
Dead zone protection (50DZ)
The IED provides dead zone protection to
protect the area, between circuit breaker
and CT in the case that CB is open.
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Protection
9
Therefore, by occurrence of a fault in dead
zone, the short circuit current is measured
by protection relay while CB auxiliary
contacts indicate the CB is open.
Self-adaptive for bus side CT or line
side CT
When one bus side CT of feeder is applied,
once a fault occurs in the dead zone, the
IED trips the relevant busbar zone.
Tripping logic is illustrated in Figure 3
Bus
IFAULT
Trip
Line1 Line2 LineN
Opened CB
Closed CB
Legend:
Figure 3 Tripping logic when applying bus side
CT
When one line side CT is applied, when a
fault occurs in the dead zone, protection
relay sends a transfer trip to remote end
relay to isolate the fault. Tripping logic is
illustrated in Figure 4
Bus
IFAULT
Relay
Inter trip
Line1 Line2 LineN
Trip
Opened CB
Closed CB
Legend:
Figure 4 Tripping logic when applying line side
CT
In case of bus coupler with only one CT,
when a fault occurs between the CT and
bus coupler circuit breaker while the circuit
breaker is opened, the IED will trip the bus
section near the bus coupler CT
instantaneously. Tripping logic is illustrated
in Figure 5.
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Protection
10
Bus A
IFAULT
Instantaneous trip
Line
A1
Line
B1
Line
BmLine
An
Bus B
Opened CB
Closed CB
Legend:
Figure 5 Tripping logic for fault between coupler
breaker and its CT
Secondary system supervision
Current transformer secondary circuit supervision Open circuited CT cores can cause
unwanted operation of differential protec-
-tion function.
The interruption on CT secondary circuit
can be detected by the IED. The IED
provides following features:
One stage for alarm
One stage for block busbar differential
protection
Each stage can be selected and set
separately
Voltage transformer secondary
circuit supervision
A measured voltage failure, due to a
broken conductor or a short circuit fault in
the secondary circuit of voltage
transformer is detected in the IED. The
features of the function are as follows:
Symmetrical/asymmetrical VT failure
detection
3-phase AC voltage MCB monitoring
1-phase AC voltage MCB monitoring
Zero and negative sequence current
monitoring
Applicable in solid grounded,
compensated or isolated networks
Auxiliary contacts of circuit breaker and disconnector supervision
The IED is connected with normally open
contacts and normally close contacts of
circuit breakers and disconnectors. It
performs monitoring on the received
information to detect any implausible
status.
If such a wrong status is detected for a
disconnector, the IED will announce it after
a settable time delay, and continue to
operate according to previous healthy state
of disconnector contacts. If the blocking
function is enabled, the relevant bus zone
of the busbar differential protection would
be blocked until the wrong status changing
to normal. Otherwise, the relevant bus
zone of the busbar differential protection
would not be blocked.
If such a wrong status is detected for a
circuit breaker, the device announces it
after a settable time delay, and the
protection will continue to operate
according to previous healthy state of
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Protection
11
disconnector contacts.
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Monitoring
12
Self-supervision
All modules can perform self-
-supervision to its key hardware
components and program, as soon as
energizing. Parts of the modules are
self-supervised in real time. All internal
faults or abnormal conditions will
initiate an alarm. The fatal faults among
them will result in the whole IED
blocked
CPU module and communication
module perform real time inter-
-supervision. Therefore communication
interruption between them is detected
and related alarm will be given
CRC checks for the setting, program
and configuration, etc.
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Communication
13
Station communication
Overview
The IED is able to connect to one or
more substation level systems or
equipments simultaneously, through the
communication ports with
communication protocols supported.
(Shown in Figure 6)
Gateway
or
converter
Work Station 3
Server or
Work Station 1
Server or
Work Station 2
Work Station 4
Net 2: IEC61850/IEC103,Ethernet Port B
Net 3: IEC103, RS485 Port A
Net 4: IEC103, RS485 Port B
Net 1: IEC61850/IEC103,Ethernet Port A
Gateway
or
converter
SwitchSwitch Switch
Switch
Switch
Switch
Figure 6 Connection example for multi-networks of station automation system
Note: All four ports can work in parallel
Front communication port
There is a serial RS232 port on the front
plate of all the IEDs. Through this port,
the IED can be connected to the
personal computer for setting, testing,
and configuration using the dedicated
Sifang software tool.
RS485 communication ports
Up to 2 isolated electrical RS485
communication ports are provided to
connect with substation automation
system. These two ports can work in
parallel for IEC60870-5-103.
Ethernet communication ports
Up to 3 electrical or optical Ethernet
communication ports are provided to
connect with substation automation system.
These two out of three ports can work in
parallel for one protocol, IEC61850 or
IEC60870-5-103.
Communication protocol
The IED supports station communication
with IEC 61850-8 and IED60870-5-103
protocols.
By means of IEC61850, GOOSE peer- to
peer communication make it possible that
bay IEDs can exchange information to
each other directly, and a simple
master-less system can be set up for bay
and system interlocking and other
interactive function.
Time synchronization port
All IEDs feature a permanently integrated
electrical time synchronization port. It can
be used to feed timing telegrams in IRIG-B
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Communication
14
or pulse format into the IEDs via time
synchronization receivers. The IED can
adapt the second or minute pulse in the
pulse mode automatically.
Meanwhile, SNTP network time
synchronization can be applied.
The Figure 7 illustrates the optional time
synchronization modes.
SNTP IRIG-B Pulse
Ethernet port IRIG-B port Binary input
Figure 7 Time synchronizing modes
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Software Tools
15
A user-friendly software tool is offered for
engineering, setting, disturbance analysis
and monitoring. It provides versatile
functionalities required throughout the life
cycle of protection IEDs. Its features are as
follows:
Device administration in projects with
freely configurable hierarchies for any
substation and electrical power station
topology
Modification, import and export of
parameter sets sorted by protection
functions, with setting logicality check
Precise fault analysis with visualization
of fault records in curves, circle
diagrams, vector diagrams, bar charts
and data sheet.
Intelligent plausibility checks rule out
incorrect input
Graphical visualization of charac-
-teristics and zone diagrams with direct
manipulation of the curves
Password-protected access for
different jobs such as parameter setting,
commissioning and controlling
(authorized staff only)
Testing and diagnostic functions
–decisive support in the commissioning
phase
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Connection
16
Front plate The whole front plate is divided into
zones, each of them with a well-defined
functionality:
1
2
3
45
68 7
CSC-150
Figure 8 Front plate
1 Liquid crystal display (LCD)
2 LEDs
3 Shortcut function keys
4 Arrow keys
5 Reset key
6 Quit key
7 Set key
8 RS232 communication port
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Rear terminals
17
Rear plate CAN
Test port
AIM
AIM
AIM
AIM
AIM
AIM
AIM
BO
M
CP
U2
CP
U1
BO
M
BO
M
PS
M
BO
M
BO
M
BIM
BO
M
PS
M
CO
M
X1X2X3X4X11X12X13X14
X5X6X7X8X15X16X17X18X19 X9X10X20
X21
Figure 9 Rear plate of the main case
BIM
BO
M
BO
M
BO
M
BIM
BIM
BIM
X1X3X5X7X9X11X13
CAN
X14
BIM
X2
BIM
X4
BIM
X6
BO
M
X8
BO
M
X10
PS
M
X12
Figure 10 Rear plate of the auxiliary case
.
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Hardware
18
Modules
Analogue Input Module (AIM)
The analogue input module is used to
galvanically separate and transform the
secondary currents and voltages
generated by the measuring transformers.
CPU Module (CPU)
The CPU module handles all protection
functions and logic. There are two CPU
modules in the IED, CPU1 and CPU2, with
the same software and hardware. They
work in parallel and interlock each other to
prevent maloperation due to the internal
faults of one CPU modules.
Moreover, the redundant A/D sampling
channels are equipped. By comparing the
data from redundant sampling channels,
any sampling data errors and the channel
hardware faults can be detected
immediately and the proper alarm and
blocking is initiated in time.
Communication Module (COM)
The communication module performs
communication between the internal
protection system and external equipments
such as HMI, engineering workstation,
substation automation system, RTU, etc.,
to transmit remote metering, remote
signaling, SOE, event reports and record
data.
Up to 3 channels isolated electrical or
optical Ethernet ports and up to 2 channels
RS485 serial communication ports can be
provided in communication module to meet
the communication demands of different
substation automation system and RTU at
the same time.
The time synchronization port is equipped,
which can work in pulse mode or IRIG-B
mode. SNTP mode can be applied through
communication port.
In addition, a series printer port is also
reserved.
Binary Input Module (BIM)
The binary input module is used to connect
the input signals and alarm signals such as
the auxiliary contacts of the circuit breaker
(CB), etc.
Binary Output Module (BOM)
The binary output modules mainly provide
tripping output contacts, initiating output
contacts and signaling output contacts. All
the tripping output relays have contacts
with a high switching capacity and are
blocked by protection startup elements.
Each output relay can be configured to
satisfy the demands of users.
Power Supply Module (PSM)
The power supply module is used to
provide the correct internal voltages and
full isolation between the terminal and the
battery system.
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Hardware
19
Dimension
A
B
C
D
E
Figure 11 8U, 1/1 x 19” main case with rear cover
Table 1 Dimension of the main case
Legend A B C D E
Dimension (mm) 354.8 482.8 267.7 320 450
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Hardware
20
A
B
CD
E
F
G
Figure 12 Cut-out for the panel mounting of main case
Table 2 Dimension of the cut-out for main case panel mounting
Legend A B C D E F G
Dimension (mm) 450 465 101.6 76.2 101.6 355.6 6.5
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Hardware
21
B
A
C
D
Figure 13 4U, 1/1 x 19” auxiliary case with rear cover
Table 3 Dimension of the auxiliary case
Legend A B C D E
Dimension (mm) 177 482.6 265 320 437.2
A
B
C D
E
Figure 14 Cut-out on the panel for auxiliary case
Table 4 Dimension of the cutout for auxiliary case panel mounting
Legend A B C D E
Dimension (mm) 450 465 101.6 178 6.5
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Connection
22
A. Typical rear terminal diagram
X1 CSC-150
Main casea01I1
b01
a02I2
b02
a03I3
b03
a04I4
b04
a05I5
b05
a06I6
b06
a07I7
b07
a08I8
b08
a10
I9
b10
a09
b09
a11
b11
a12
b12
X2a01
I1b01
b12
X11a02
BI02 c02
BI03 a04
BI04 c04
BI05 a06
BI06 c06
BI07 a08
BI08 c08
BI09 a10
BI01
BI10 c10
BI11 a12
BI12 c12
BI13 a14
BI14 c14
BI15 a16
BI16 c16
BI17 a18
BI18 c18
BI19 a20
BI20 c20
BI21 a22
BI22 c22
BI23 a24
BI24 c24
BI25 a26
BI26 c26
BI27 a28
BI28 c28
BI29 a30
BI30 c30
a32
c32BI-COM1(-)
BI-COM2(-)
Note:
1) The module is same as X1
module.
I10
Null
Null
Null
Null
a12 Null
Null
1)
a01I1
b01
b12
a12 Null
Null
X8a01
I1b01
a02I2
b02
a03
b03
a04
b04
a05
b05
a06
b06
a07
b07
a08
b08
a10
b10
a09UB3b09UC3
UA3
a11
b11
a12
b12
UN3
UB1
UC1
UA1
UN1UB2
UC2
UA2
UN2
X3
a01I1
b01
b12
a12 Null
Null
X4
a01I1
b01
b12
a12 Null
Null
X5
a01I1
b01
b12
a12 Null
Null
X6
1)
1)
1)
1)
Null
Null
Null
Null
Null
Null
Null
Null
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Connection
23
CSC-150 main case
Output relay 01
Output relay 02
Output relay 03
Output relay 04
Output relay 05
Output relay 06
Output relay 07
Output relay 08
Output relay 09
Output relay 10
Output relay 11
Output relay 12
Output relay 13
Output relay 14
Output relay 15
Output relay 16
X12a02
c02
a04
c04
a06
c06
a08
c08a10
c10
a12
c12
a14
c14
a16
c16
a18c18
a20
c20
a22
c22
a24
c24a26
c26
a28
c28
a30
c30
a32
c32
X131
2
3
4
5
6
7
89
10
11
12
13
14
15
16
Ethernet Port 1 - RJ45
Ethernet Port 2 - RJ45
Null
Null
Null
RS485 - 2B
RS485 - 2A
RS485 - 1B
RS485 - 1AGPS
Null
GPS - GND
Null
Null
Null
Null
Null
Null
1)
X14a02
c02
a04
c04
a06
c06
a08
c08a10
c10
a12
c12
a14
c14
a16
c16
a18c18
a20
c20
a22
c22
a24
c24a26
c26
a28
c28
a30
c30
a32
c32
DC 24V + output
Null
DC 24V - output
Power failure alarm relay 1
AUX DC + input
Power failure alarm relay 2
AUX DC - input
Null
Null
Null
Terminal for earthing
Terminal for earthing
X15a02
c02
a04
c04
a06
c06
a08
c08a10
c10
a12
c12
a14
c14
a16
c16
a18c18
a20
c20
a22
c22
a24
c24a26
c26
a28
c28
a30
c30
a32
c32
DC 24V + output
Null
DC 24V - output
Power failure alarm relay 1
AUX DC + input
Power failure alarm relay 2
AUX DC - input
Null
Null
Null
Terminal for earthing
Terminal for earthing
Ethernet Port 1 - ST
Ethernet Port 2 - ST
Note:
1) Alternative Ethernet ports
are 2 ST optical fiber ports,
shown as following.
Null
Null
Null
Null
Null
Null
Null
Null
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Connection
24
CSC-150 main case
X20a02
c02
a04
c04
a06
c06
a08
c08a10
c10
a12
c12
a14
c14
a16
c16
a18c18
a20
c20
a22
c22
a24
c24a26
c26
a28
c28
a30
c30
a32
c32
Output relay 01
Output relay 02
Output relay 03
Output relay 04
Output relay 05
Output relay 06
Output relay 07
Output relay 08
Output relay 09
Output relay 10
Output relay 11
Output relay 12
Output relay 13
Output relay 14
Output relay 15
Output relay 16
X16a02
c02
a04
c04
a06
c06
a08
c08a10
c10
a12
c12
a14
c14
a16
c16
a18c18
a20
c20
a22
c22
a24
c24a26
c26
a28
c28
a30
c30
a32
c32
Output relay 01
X17a02
c02
a32
c32
Output relay 01
Output relay 02
Output relay 03
Output relay 04
Output relay 05
Output relay 06
Output relay 07
Output relay 08
Output relay 09
Output relay 10
Output relay 11
Output relay 12
Output relay 13
Output relay 14
Output relay 15
Output relay 16
Note :
1) The 2 modules are
combined into 1 module.
2) The module is same as X16
module.
Output relay 16
1)
2)
1)
Output relay 01
X18a02
c02
a32
c32Output relay 16
2)
Output relay 01
X19a02
c02
a32
c32Output relay 16
2)
X21
CAN bus cable connector
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Connection
25
CSC-150
auxiliary case X7a02
c02
a04
c04
a06
c06
a08
c08a10
c10
a12
c12
a14
c14
a16
c16
a18c18
a20
c20
a22
c22
a24
c24a26
c26
a28
c28
a30
c30
a32
c32
X1a02
c02
a04
c04
a06
c06
a08
c08a10
c10
a12
c12
a14
c14
a16
c16
a18c18
a20
c20
a22
c22
a24
c24a26
c26
a28
c28
a30
c30
a32
c32
Output relay 01
Output relay 02
Output relay 03
Output relay 04
Output relay 05
Output relay 06
Output relay 07
Output relay 08
Output relay 09
Output relay 10
Output relay 11
Output relay 12
Output relay 13
Output relay 14
Output relay 15
Output relay 16
Note :
1) The module is same as X1
module.
2) The 2 modules are
combined into 1 module.
3) The module is same as X7
module.
1)
2)
X9a02
c02
a04
c04
a06
c06
a08
c08a10
c10
a12
c12
a14
c14
a16
c16
a18c18
a20
c20
a22
c22
a24
c24a26
c26
a28
c28
a30
c30
a32
c32
Output relay 01
Output relay 02
Output relay 03
Output relay 04
Output relay 05
Output relay 06
Output relay 07
Output relay 08
Output relay 09
Output relay 10
Output relay 11
Output relay 12
Output relay 13
Output relay 14
Output relay 15
Output relay 16
BI02
BI03
BI04
BI05
BI06
BI07
BI08BI09
BI01
BI10
BI11
BI12
BI13
BI14
BI15
BI16
BI17BI18
BI19
BI20
BI21
BI22
BI23
BI24BI25
BI26
BI27
BI28
BI29
BI30BI-COM1(-)
BI-COM2(-)
X2a02
c02
a32
c32
BI01
BI02
BI-COM1(-)
BI-COM2(-)
1)
X3a02
c02
a32
c32
BI01
BI02
BI-COM1(-)
BI-COM2(-)
1)
X4a02
c02
a32
c32
BI01
BI02
BI-COM1(-)
BI-COM2(-)
1)
X5a02
c02
a32
c32
BI01
BI02
BI-COM1(-)
BI-COM2(-)
1)
X6a02
c02
a32
c32
BI01
BI02
BI-COM1(-)
BI-COM2(-)
X10a02
c02
a32
c32
X8a02
c02
a32
c32
Output relay 16
Output relay 01
Output relay 16
Output relay 01
2)
3)
3)
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Connection
26
CSC-150
auxiliary case
Output relay 01
Output relay 02
Output relay 03
Output relay 04
Output relay 05
Output relay 06
Output relay 07
X11a02
c02
a04
c04
a06
c06
a08
c08a10
c10
a12
c12
a14
c14a16
c16
a18c18
a20
c20
a22
c22
a24
c24a26
c26
a28
c28
a30
c30
a32
c32
Output relay 08
Output relay 09
Output relay 10
Output relay 11
Output relay 12
Output relay 13
Output relay 14
Output relay 15
Output relay 16
X12a02
c02
a04
c04
a06
c06
a08
c08a10
c10
a12
c12
a14
c14
a16
c16
a18c18
a20
c20
a22
c22
a24
c24a26
c26
a28
c28
a30
c30
a32
c32
DC 24V + output
Null
DC 24V - output
Power failure alarm relay 1
AUX DC + input
Power failure alarm relay 2
AUX DC - input
Null
Null
Null
Terminal for earthing
Terminal for earthing
Null
Null
Null
Null
X14
CAN bus cable connector
X13a02
BI02 c02
BI03 a04
BI04 c04
BI05 a06
BI06 c06
BI07 a08
BI08 c08
BI09 a10
BI01
BI10 c10
BI11 a12
BI12 c12
BI13 a14
BI14 c14
BI15 a16
BI16 c16
BI17 a18
BI18 c18
BI19 a20
BI20 c20
BI21 a22
BI22 c22
BI23 a24
BI24 c24
BI25 a26
BI26 c26
BI27 a28
BI28 c28
BI29 a30
BI30 c30
a32
c32BI-COM1(-)
BI-COM2(-)
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Connection
27
B. Typical analogue inputs connection for single busbar with line side CTs arrangement
Busbar-A
CSC-
150
C. Typical analogue inputs connection for single busbar with bus side CTs arrangement
Busbar-A
CSC-
150
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Connection
28
D. Typical analogue inputs connection for single busbar with tie disconnector (line side CTs) arrangement
Busbar-A
CSC-
150
Busbar-B
E. Typical analogue inputs connection for single busbar with tie disconnector (bus side CTs) arrangement
Busbar-A
CSC-
150
Busbar-B
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Connection
29
F. Typical analogue inputs connection for single busbar with tie disconnector and one CT (line side CTs) arrangement
Busbar-A
CSC-
150
Busbar-B
G. Typical analogue inputs connection for two single busbars connected with bus coupler and one CT (line side CTs) arrangement
Busbar-A
CSC-
150
Busbar-B
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Connection
30
H. Typical analogue inputs connection for two single busbars connected with bus coupler and one CT (bus side CTs) arrangement
Busbar-A
CSC-
150
Busbar-B
I. Typical analogue inputs connection for two single busbars connected with bus coupler and two CTs (line side CTs) arrangement
Busbar-A
CSC-
150
Busbar-B
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Connection
31
J. Typical analogue inputs connection for two single busbars connected with bus coupler and two CTs (bus side CTs) arrangement
Busbar-A
CSC-
150
Busbar-B
K. Typical analogue inputs connection for one and half breaker arrangement
Busbar-B
Busbar-A
CSC-
150
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Connection
32
L. Typical analogue inputs connection for double busbar with one coupler CT arrangement
Busbar-A
Busbar-B
CSC-
150
M. Typical analogue inputs connection for double busbar with two coupler CTs arrangement
Busbar-A
Busbar-B
CSC-
150
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Connection
33
N. Typical analogue inputs connection for main and transfer busbar with two coupler CTs (inside CTs) arrangement
Busbar-A
Busbar-B
CSC-
150
O. Typical analogue inputs connection for main and transfer busbar with two coupler CTs (outside CTs) arrangement
Busbar-A
Busbar-B
CSC-
150
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Connection
34
P. Typical analogue inputs connection for main and transfer busbar with one coupler CTs (inside CTs) arrangement
Busbar-A
Busbar-B
CSC-
150
Q. Typical analogue inputs connection for main and transfer busbar with one coupler CTs (outside CTs) arrangement
Busbar-A
Busbar-B
CSC-
150
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Connection
35
R. Typical analogue inputs connection for main and transfer busbar without coupler CTs (outside CTs) arrangement
Busbar-A
Busbar-B
CSC-
150
S. Typical analogue inputs connection for main and main/transfer busbar with inside CTs arrangement
Busbar-A
Busbar-B
CSC-
150
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Connection
36
T. Typical analogue inputs connection for main and main and/or transfer busbar with outside CTs arrangement
Busbar-A
Busbar-B
CSC-
150
U. Typical analogue inputs connection for double main and transfer busbar with inside CTs arrangement
Busbar-A
Busbar-B
Busbar-C
CSC-
150
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Connection
37
V. Typical analogue inputs connection for double main and transfer busbar with outside CTs arrangement
Busbar-A
Busbar-B
Busbar-C
CSC-
150
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Technical data
38
Frequency
Item Standard Data
Rated system frequency IEC 60255-1 50 Hz or 60Hz
Internal current transformer
Item Standard Data
Rated current Ir IEC 60255-1 1 or 5 A
Nominal current range 0.05 Ir to 30 Ir
Nominal current range of sensitive
CT
0.005 to 1 A
Power consumption (per phase) ≤ 0.1 VA at Ir = 1 A;
≤ 0.5 VA at Ir = 5 A
≤ 0.5 VA for sensitive CT
Thermal overload capability IEC 60255-1
IEC 60255-27
100 Ir for 1 s
4 Ir continuous
Internal voltage transformer
Item Standard Data
Rated voltage Vr (ph-ph) IEC 60255-1 100 V /110 V
Nominal range (ph-e) 0.4 V to 120 V
Power consumption at Vr = 110 V IEC 60255-27
DL/T 478-2001
≤ 0.1 VA per phase
Thermal overload capability
(phase-neutral voltage)
IEC 60255-27
DL/T 478-2001
2 Vr, for 10s
1.5 Vr, continuous
Auxiliary voltage
Item Standard Data
Rated auxiliary voltage Uaux IEC60255-1 110 to 250V DC
Permissible tolerance IEC60255-1 ±%20 Uaux
Power consumption at quiescent
state
IEC60255-1 ≤ 50 W per power supply module
Power consumption at maximum
load
IEC60255-1 ≤ 60 W per power supply module
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Technical data
39
Inrush Current IEC60255-1 T ≤ 10 ms/I≤ 25 A per power supply
module,
Binary inputs
Item Standard Data
Input voltage range IEC60255-1 110/125 V DC
220/250 V DC
Threshold1: guarantee
operation
IEC60255-1 154V, for 220/250V DC
77V, for 110V/125V DC
Threshold2: uncertain operation IEC60255-1 132V, for 220/250V DC;
66V, for 110V/125V DC
Response time/reset time IEC60255-1 Software provides de-bounce
time
Power consumption, energized IEC60255-1 Max. 0.5 W/input, 110V DC
Max. 1 W/input, 220V DC
Binary outputs
Item Standard Data
Max. system voltage IEC60255-1 250V DC / AC
Current carrying capacity IEC60255-1 5 A continuous,
30A,200ms ON, 15s OFF
Making capacity IEC60255-1 1100 W(DC) at inductive load with
L/R>40 ms
1000 VA(AC)
Breaking capacity IEC60255-1 220V DC, 0.15A, at L/R≤40 ms
110V DC, 0.30A, at L/R≤40 ms
Mechanical endurance, Unloaded IEC60255-1 50,000,000 cycles (3 Hz switching
frequency)
Mechanical endurance, making IEC60255-1 ≥1000 cycles
Mechanical endurance, breaking IEC60255-1 ≥1000 cycles
Specification state verification IEC60255-1
IEC60255-23
IEC61810-1
UL/CSA、TŰV
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Technical data
40
Contact circuit resistance
measurement
IEC60255-1
IEC60255-23
IEC61810-1
30mΩ
Open Contact insulation test (AC
Dielectric strength)
IEC60255-1
IEC60255-27
AC1000V 1min
Maximum temperature of parts and
materials
IEC60255-1 55℃
Front communication port
Item Data
Number 1
Connection Isolated, RS232; front panel,
9-pin subminiature connector, for software tools
Communication speed 9600 baud
Max. length of communication cable 15 m
RS485 communication port
Item Data
Number 0 to 2
Connection 2-wire connector
Rear port in communication module
Max. length of communication cable 1.0 km
Test voltage 500 V AC against earth
For IEC 60870-5-103 protocol
Communication speed Factory setting 9600 baud,
Min. 1200 baud, Max. 19200 baud
Ethernet communication port
Item Data
Electrical communication port
Number 0 to 3
Connection RJ45 connector
Rear port in communication module
Max. length of communication cable 100m
For IEC 61850 protocol
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Technical data
41
Communication speed 100 Mbit/s
For IEC 60870-5-103 protocol
Communication speed 100 Mbit/s
Optical communication port ( optional )
Number 0 to 2
Connection SC connector
Rear port in communication module
Optical cable type Multi-mode
Max. length of communication cable 2.0km
IEC 61850 protocol
Communication speed 100 Mbit/s
IEC 60870-5-103 protocol
Communication speed 100 Mbit/s
Time synchronization
Item Data
Mode Pulse mode
IRIG-B signal format IRIG-B000
Connection 2-wire connector
Rear port in communication module
Voltage levels differential input
Environmental influence
Item Data
Recommended permanent operating temperature -10 °C to +55°C
(Legibility of display may be impaired above
+55 °C /+131 °F)
Storage and transport temperature limit -25°C to +70°C
Permissible humidity 95 % of relative humidity
IED design
Item Data
Case size 8U×19inch, Main case
4U×19inch, Auxiliary case
Weight ≤ 16kg, Main case
≤ 5kg,, Auxiliary case
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Technical Data
42
Product safety-related Tests
Item Standard Data
Over voltage category IEC60255-27 Category III
Pollution degree IEC60255-27 Degree 2
Insulation IEC60255-27 Basic insulation
Degree of protection (IP) IEC60255-27
IEC 60529
Front plate: IP40
Rear, side, top and bottom: IP 30
Power frequency high voltage
withstand test
IEC 60255-5
EN 60255-5
ANSI C37.90
GB/T 15145-2001
DL/T 478-2001
2KV, 50Hz
2.8kV
between the following circuits:
auxiliary power supply
CT / VT inputs
binary inputs
binary outputs
case earth
500V, 50Hz
between the following circuits:
Communication ports to case
earth
time synchronization terminals
to case earth
Impulse voltage test IEC60255-5
IEC 60255-27
EN 60255-5
ANSI C37.90
GB/T 15145-2001
DL/T 478-2001
5kV (1.2/50μs, 0.5J)
If Ui≥63V
1kV if Ui<63V
Tested between the following
circuits:
auxiliary power supply
CT / VT inputs
binary inputs
binary outputs
case earth
Note: Ui: Rated voltage
Insulation resistance IEC60255-5
IEC 60255-27
EN 60255-5
ANSI C37.90
GB/T 15145-2001
DL/T 478-2001
≥ 100 MΩ at 500 V
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Technical Data
43
Protective bonding resistance IEC60255-27 ≤ 0.1Ω
Fire withstand/flammability IEC60255-27 Class V2
Electromagnetic immunity tests
Item Standard Data
1 MHz burst immunity test IEC60255-22-1
IEC60255-26
IEC61000-4-18
EN 60255-22-1
ANSI/IEEE C37.90.1
Class III
2.5 kV CM ; 1 kV DM
Tested on the following circuits:
auxiliary power supply
CT / VT inputs
binary inputs
binary outputs
1 kV CM ; 0 kV DM
Tested on the following circuits:
communication ports
Electrostatic discharge IEC 60255-22-2
IEC 61000-4-2
EN 60255-22-2
Level 4
8 kV contact discharge;
15 kV air gap discharge;
both polarities; 150 pF; Ri = 330 Ω
Radiated electromagnetic field
disturbance test
IEC 60255-22-3
EN 60255-22-3
Frequency sweep:
80 MHz – 1 GHz; 1.4 GHz – 2.7 GHz
spot frequencies:
80 MHz; 160 MHz; 380 MHz; 450
MHz; 900 MHz; 1850 MHz; 2150
MHz
10 V/m
AM, 80%, 1 kHz
Radiated electromagnetic field
disturbance test
IEC 60255-22-3
EN 60255-22-3
Pulse-modulated
10 V/m, 900 MHz; repetition rate
200 Hz, on duration 50 %
Electric fast transient/burst immunity
test
IEC 60255-22-4,
IEC 61000-4-4
EN 60255-22-4
ANSI/IEEE C37.90.1
Class A, 4KV
Tested on the following circuits:
auxiliary power supply
CT / VT inputs
binary inputs
binary outputs
Class A, 1KV
Tested on the following circuits:
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Technical Data
44
communication ports
Surge immunity test IEC 60255-22-5
IEC 61000-4-5
4.0kV L-E
2.0kV L-L
Tested on the following circuits:
auxiliary power supply
CT / VT inputs
binary inputs
binary outputs
500V L-E
Tested on the following circuits:
communication ports
Conduct immunity test IEC 60255-22-6
IEC 61000-4-6
Frequency sweep: 150 kHz – 80
MHz
spot frequencies: 27 MHz and 68
MHz
10 V
AM, 80%, 1 kHz
Power frequency immunity test IEC60255-22-7 Class A
300 V CM
150 V DM
Power frequency magnetic field test IEC 61000-4-8 Level 4
30 A/m cont. / 300 A/m 1 s to 3 s
100 kHz burst immunity test IEC61000-4-18 2.5 kV CM ; 1 kV DM
Tested on the following circuits:
auxiliary power supply
CT / VT inputs
binary inputs
binary outputs
1 kV CM ; 0 kV DM
Tested on the following circuits:
communication ports
DC voltage interruption test
Item Standard Data
DC voltage dips IEC 60255-11 100% reduction 20 ms
60% reduction 200 ms
30% reduction 500 ms
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Technical Data
45
DC voltage interruptions IEC 60255-11 100% reduction 5 s
DC voltage ripple IEC 60255-11 15%, twice rated frequency
DC voltage gradual shut–down
/start-up
IEC 60255-11 60 s shut down ramp
5 min power off
60 s start-up ramp
DC voltage reverse polarity IEC 60255-11 1 min
Electromagnetic emission test
Item Standard Data
Radiated emission IEC60255-25
EN60255-25
CISPR22
30MHz to 1GHz ( IT device may up
to 5 GHz)
Conducted emission IEC60255-25
EN60255-25
CISPR22
0.15MHz to 30MHz
Mechanical tests
Item Standard Data
Sinusoidal Vibration response
test
IEC60255-21-1
EN 60255-21-1
Class 1
10 Hz to 60 Hz: 0.075 mm
60 Hz to 150 Hz: 1 g
1 sweep cycle in each axis
Relay energized
Sinusoidal Vibration endurance
test
IEC60255-21-1
EN 60255-21-1
Class 1
10 Hz to 150 Hz: 1 g
20 sweep cycle in each axis
Relay non-energized
Shock response test IEC60255-21-2
EN 60255-21-2
Class 1
5 g, 11 ms duration
3 shocks in both directions of 3 axes
Relay energized
Shock withstand test IEC60255-21-2
EN 60255-21-2
Class 1
15 g, 11 ms duration
3 shocks in both directions of 3 axes
Relay non-energized
Bump test IEC60255-21-2 Class 1
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Technical Data
46
10 g, 16 ms duration
1000 shocks in both directions of 3
axes
Relay non-energized
Seismic test IEC60255-21-3 Class 1
X-axis 1 Hz to 8/9 Hz: 7.5 mm
X-axis 8/9 Hz to 35 Hz :2 g
Y-axis 1 Hz to 8/9 Hz: 3.75 mm
Y-axis 8/9 Hz to 35 Hz :1 g
1 sweep cycle in each axis,
Relay energized
Climatic tests
Item Standard Data
Cold test - Operation IEC60255-27
IEC60068-2-1
-10°C, 16 hours, rated load
Cold test – Storage IEC60255-27 IEC60068-2-1 -25°C, 16 hours
Dry heat test – Operation [IEC60255-27
IEC60068-2-2
+55°C, 16 hours, rated load
Dry heat test – Storage IEC60255-27
IEC60068-2-2
+70°C, 16 hours
Change of temperature IEC60255-27
IEC60068-2-14
Test Nb, figure 2, 5 cycles
-10°C / +55°C
Damp heat static test IEC60255-27
IEC60068-2-78
+40°C, 93% r.h. 10 days, rated load
Damp heat cyclic test IEC60255-27
IEC60068-2-30
+55°C, 93% r.h. 6 cycles, rated load
CE Certificate
Item Data
EMC Directive EN 61000-6-2 and EN61000-6-4 (EMC Council
Directive 2004/108/EC)
Low voltage directive EN 60255-27 (Low-voltage directive 2006/95 EC).
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Technical Data
47
Functions
NOTE: Ir: CT rated secondary current, 1A or 5A;
Busbar differential protection (ANSI 87BB)
Item Rang or Value Tolerance
Differential Current 0.4 Ir to 20.00 Ir ≤ ±5% setting or ±0.02Ir
Stabilization factor 0.3 - 0.99
Differential current reset threshold 0.1 Ir
Operating time < 15ms typically at 200%
setting
Reset time < 50ms
Breaker failure protection (ANSI 50 BF)
Item Rang or Value Tolerance
phase current
Negative sequence current
zero sequence current
0.08 Ir to 20.00 Ir ≤ ±3% setting or ±0.02Ir
Time delay of stage 1 0.00s to 32.00 s, step 0.01s ≤ ±1% setting or +25 ms, at
200% operating setting Time delay of stage 2 0.00s to 32.00 s, step 0.01s
Reset time of stage 1 < 20ms
Dead zone protection (ANSI 50DZ)
Item Rang or Value Tolerance
Current 0.08 Ir to 20.00 Ir ≤ ±3% setting or ±0.02Ir
Time delay 0.00s to 32.00s, step 0.01s ≤ ±1% setting or +40 ms, at
200% operating setting
VT secondary circuit supervision (97FF)
Item Range or value Tolerances
Minimum current 0.08Ir to 0.20Ir, step 0.01A ≤ ±3% setting or ±0.02Ir
Minimum zero or negative
sequence current
0.08Ir to 0.20Ir, step 0.01A ≤ ±5% setting or ±0.02Ir
Maximum phase to earth voltage 7.0V to 20.0V, step 0.01V ≤ ±3% setting or ±1 V
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Technical Data
48
Maximum phase to phase
voltage
10.0V to 30.0V, step 0.01V ≤ ±3% setting or ±1 V
Normal phase to earth voltage 40.0V to 65.0V, step 0.01V ≤ ±3% setting or ±1 V
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Ordering
49
Pre-configure scheme
Table 5 Functions and hardware of the pre-configure schemes for transmission network
Pre-configure scheme M01 M02 M03 M04 M05 M06 M07 M08
Station arrangement (N1)
D or
E or
H
A or
B or
C
F G D or
E or
H
A or
B or
C
F G
Voltage level (kV) ≥
230
≥
230
≤
230
≥
230
≥
230
≥
230
≥
230
≥
230
Number of bay
8F+1
C or
1T
8F+1
C
8F+1
C+1
T
8F+1
C/1T
16F+
1C or
1T
16F
+1C
16F+
1C+1
T
16F+
1C/1
T
Busbar differential protection (87BB) 1 1 1 1 1 1 1 1
Breaker failure protection (50BF) 1 1 1 1 1 1 1 1
Dead-zone protection (50DZ) 1 1 1 1 1 1 1 1
CT secondary circuit supervision 1 1 1 1 1 1 1 1
VT secondary circuit supervision
(97FF) (1) (1) (1) (1) (1) (1) (1) (1)
Analogue input module (10I ) 3 3 3 3 6 6 6 6
Analogue input module (2I+ 9U) (1) (1) (1) (1) (1) (1) (1) (1)
CPU modules 2 2 2 2 2 2 2 2
Communication module(with Ethernet
interfaces, RS485 interfaces and time
synchronizing interface)
1 1 1 1 1 1 1 1
Binary input module (30 BI) 4 4 5 5 8 8 8 8
Binary output modules (16 relays for
tripping and initiation) 1 1 1 1 2 2 2 2
Binary output modules (32 relays for
tripping and initiation) 2 2 2 2 4 4 4 4
Binary output modules (16 relays for
signal) 1 1 1 1 1 1 1 1
Power supply module 3 3 1 3 3 3 3 3
Programmable LEDs 18 18 18 18 18 18 18 18
Case, 8U,19” 1 1 1 1 1 1 1 1
Case, 4U,19” 1 1 1 1 1 1 1 1
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Ordering
50
NOTE:
n : Quantity of standard function or standard hardware, n= 1, 2, ….;
(n) : Quantity of optional function or optional hardware, n= 1, 2, ….;
N1: Station arrangement:
A – Single Busbar
B – Two Single Busbars connected with Coupler
C – Two Separate Busbars in 1
CB arrangement
D – Double Busbar
E – Main and Transfer Busbar
F – Double Main and one Transfer Busbar with line side CT
G – Main and Main/Transfer Busbar
H – Double Main and one Transfer Busbar with bus side CT
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Ordering
51
Table 6 Functions and hardware of the pre-configure schemes for sub-transmission and distribution
network
Pre-configure scheme M09 M10
Station arrangement (N1)
A, B or C A, B or C
Voltage level (kV) ≤ 132 ≤ 132
Number of bay 8F+1C 16F+1C
Busbar differential protection (87BB) 1 1
Breaker failure protection (50BF) 1 1
Dead-zone protection (50DZ) 1 1
CT secondary circuit supervision 1 1
VT secondary circuit supervision (97FF) (1) (1)
Analogue input module (10I ) 3 6
Analogue input module (2I+ 9U) 1 1
CPU modules 2 2
Communication module(with Ethernet interfaces, RS485
interfaces and time synchronizing interface) 1 1
Binary input module (30 BI) 3 5
Binary output modules (16 relays for tripping and initiation) 1 2
Binary output modules (32 relays for tripping and initiation) 1 2
Binary output modules (16 relays for signal) 1 1
Power supply module 3 3
Programmable LEDs 18 18
Case, 8U,19” 1 1
Case, 4U,19” 1 1
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Ordering
52
NOTE:
n : Quantity of standard function or standard hardware, n= 1, 2, ….;
(n) : Quantity of optional function or optional hardware, n= 1, 2, ….;
N1: Station arrangement:
A – Single Busbar
B – Two Single Busbars connected with Coupler
C – Two Separate Busbars in 1
CB arrangement
D – Double Busbar
E – Main and Transfer Busbar
F – Double Main and one Transfer Busbar with line side CT
G – Main and Main/Transfer Busbar
H – Double Main and one Transfer Busbar with bus side CT
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Ordering
53
Ordering code
A. Main case
C
Pre-configure SchemeM;N
0~9
0~9
No.1~16 No.17~45
S 1 5 -C 0
Ethernet interface:IEC61850-8; RS485 interface: IEC60870-5-103
Station Communication Protocols (T)
HMI Language (L) note
English
French
Russian
Spanish
Portuguese
Rated Frequency (F)
1
2
3
4
5
50 Hz 5
660 Hz
Ethernet interface:IEC60870-5-103; RS485 interface: IEC60870-5-103
FL T
1
2
Note: Chinese is always offered as default HMI language.
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Ordering
54
No.17~25
Analogue Input Module (A)
110I (1A)
10I (5A) 2
Null
No.26~45
10I (1A)
10I (5A)
C S 1 5C 0 -
Slot 1
Slot 2
No.1~16
A
1
2
x
Null
10I (1A)
10I (5A)
Slot 3
1
2
x
Null
10I (1A)
10I (5A)
Slot 41
2
x
Null
10I (1A)
10I (5A)
Slot 5 1
2
x
Null
10I (1A)
10I (5A)
Slot 6 1
2
x
Null
Slot 7x
Null
2I (1A)+9U
2I (5A)+9U
Slot 8
f
x
g
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Ordering
55
No.26~37
Communication module (C)
No.1~25
2 electrical Ethernet ports, 2 RS485 ports, IRIG-B
1
2 electrical Ethernet ports, 2 RS485 ports, Pulse
2 optical Ethernet ports, 2 RS485 ports, IRIG-B
2 optical Ethernet ports, 2 RS485 ports, Pulse
3 electrical Ethernet ports, 1 RS485 ports, IRIG-B
3 electrical Ethernet ports, 1 RS485 ports, Pulse 2
3
4
5
6
Slot 13
No.38~45
C S 1 5 -C 0
CPU Module 1 (M)
1Dedicated to CSC-150
Slot 9
M
CPU Module 2 (M)
1Dedicated to CSC-150
Slot 10
C
Binary Output Module (O)16 relays for tripping
Binary Input Module (I)
130BI (220V DC), with startup blocking relay
30BI (110V DC), with startup blocking relay 2
Slot 11
Slot 12
1
100V - 250V DC
Power Supply Module (P)
1
Slot 14
100V - 250V DC
Power Supply Module (P)
1
Slot 15
POI
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Ordering
56
No.38~45No.1~37
C S 1 5 -C 0
Slot 16 & 17Binary Output Module (O)
32 relays for tripping 2
O
Slot 18 & 1932 relays for tripping 2
Slot 2016 relays for tripping 1
K
Null x
Case and Front Plate (K)
Case: 8U, 19';
Front plate: Medium size LCD; 20 LEDs 1
Accessories
Cable for communication between main case and auxiliary case 1
Null x
Z
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Ordering
57
B. Auxiliary case
No.10~16No.1~9
C S 1 5 -C 0
Binary Input Module (I)
130BI (220V DC), with startup blocking relay
30BI (110V DC), with startup blocking relay 2
Slot 1
I
330BI (220V DC)
30BI (110V DC) 4
Slot 2
330BI (220V DC)
30BI (110V DC) 4
Slot 3
Null x
30BI (220V DC)
30BI (110V DC)
Slot 4
Null
30BI (220V DC)
30BI (110V DC)
Slot 5
Null
30BI (220V DC)
30BI (110V DC)
Slot 6
Null
No.17~28
3
4
x
3
4
x
3
4
x
Q A
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Ordering
58
No.17~28No.1~16
C S 1 5 -C 0
Slot 7 & 8
Binary Output Module (O)
32 relays for tripping 2
O
Slot 9 & 1032 relays for tripping 2
Slot 11
Binary Input Module (I)
330BI (220V DC)
30BI (110V DC) 4
Slot 13
P
Null x
Null x
Case and Front Plate (K)
Case: 4U, 19';
Front plate: Without LCD and LED
100V - 250V DC
Power Supply Module (P)
1
Slot 12
16 relays (with 19 contacts) for signalling 3
I K
2
Q A Z
Accessories (Z)
Null x
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Address: No.9 Shangdi 4th Street, Haidian District, Beijing, P.R.C. 100085Tel: +86 10 62962554, +86 10 62961515 ext.8998Fax: +86 10 82783625Email:[email protected]: http://www.sf-auto.com