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Transcript
Protection
and control
HV/MV substation
Sepam 2000
Substation
Presentation
Contents
HV
MV
The protection and control of primary substations
consists of performing the metering, protection,
control and monitoring functions required
for operation.
Sepam 2000 provides all these functions globally.
All the equipment and mechanisms that are generally
found in a MV cubicle control cabinet are replaced
by a single device which performs:
c protection,
c metering,
c control and monitoring implementing protections
and logic inputs to activate tripping and closing
outputs and the display of annunciation.
page
presentation
selection table
metering
protection
control and monitoring
functional and connection schemes
other connection schemes
connection of logic inputs/outputs
communication
characteristics
installation
ordering information
2
3
4
6
8
11
13
14
16
17
18
20
Advantages
c Indication of phase and earth fault values at the time of breaking provides
the operator with useful assistance in determining the causes and seriousness
of faults.
c The high level of electromagnetic compatibility (EMC) makes it possible to use
advanced digital technology-based functions in electrical substations, without
the need for any particular precautions.
c Sepam 2000’s continuous self-testing sets the device in a predetermined
fail-safe position whenever a failure occurs, thereby preventing random operation.
c Terminals that are individually disconnectable while energized allow easy
maintenance.
c The communication function option can be used for remote setting, remote
metering, remote annunciation and remote control via a two-wire link with a central
computer for centralized control.
c Setting and testing are extremely simple: direct readout of primary current
and voltage and simple testing of the metering function by injection guarantee
the coherency of all settings.
c Each Sepam is designed to meet all the application needs and includes all
the necessary functions ready for use (protection, metering, program logic and
annunciation).
The program logic can be adapted for the usual schemes by simple parameter
setting at the time of commissioning.
This allows optimization of cables and more dependable operation (the schemes
have been qualified and specified to take into account the most frequent needs).
The extended setting ranges provide for the widest variety of cases.
c The disturbance recording function allows up to 12 analog signal and 32 logical
signals to be recorded.
Sepam 2000 standard S36.
Installation in the switchboard is simplified:
c just one device to install, the Sepam 2000 S36 (standard),
c cabling is limited to:
v standard 1 A or 5 A current transformers or linear CSP sensors (Rogowski coil),
v voltage transformers,
v control and annunciation units (open/close push-button...),
v actuators (tripping and closing coils).
Customization
Standard control and monitoring carried out in Sepam’s internal PLC
can be customized.
2
Substation
Selection table
functions
protection
breaker failure
phase overcurrent
earth fault
undervoltage
overvoltage
neutral voltage displacement
directional overcurrent
directional earth fault
metering
phase current (I1, I2, I3)
max. demand phase current (I1, I2, I3)
voltage (U21, U32, U13)
real / reactive power (P, Q)
peak demand real / reactive power
power factor
frequency
real / reactive energy (±Wh, ±VArh)
tripping currents (I1, I2, I3, Io)
true rms current
disturbance recording
residual current
residual voltage
cumulative breaking current
and number of breaks
control and monitoring
open / close
lockout relay
inhibit closing
annunciation
CB control monitoring
upstream & coupling breaker tripping
external protection tripping
external disturbance recorder triggering
disturbance recording triggering
power supply monitoring
detection of plugged connectors
fault counter
logic discrimination
cycle counter
Sepam models
standard S36
number of standard ESTOR boards
ANSI
code
50BF/62
50/51
50N/51N
27
59
59N
67
67N
types of Sepam
S61
S62
4
4
S64
S65
S66
4
4
1
1
4
4
1
1
4
4
1
4
4
1
4
4
1
1
1
1
1
1
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
YR
2
XR
2
c
c
c
c
c
86
69
30
74
S63
c
c
c
c
c
1
1
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
XR
2
XR
2
YR
2
XR
2
c
The figures in the columns represent the number of similar protection devices.
Examples: for phase overcurrent protection, “4” means 4 separate 3-phase protection devices.
Substation
3
Metering
Sepam 2000 is a precision instrumentation device.
It gives a direct readout of values, together with
the related units, A, V, W...
All the values needed for operation and used
for commissioning are available locally and in
the control room.
Measurements needed for operation
Currents
Measurement of the current for each of the 3-phases of the circuit.
Peak demand current
Measurement of the greatest average current value in the 3 phases, used to find
the current demand during peak load periods. The average current measurement
is reset to zero periodically (adjustable period: 5, 10, 15, 30 or 60 minutes).
The “clear” button is pressed for zero reset.
Voltage
Measurement of the 3 phase-to-phase voltages of the circuit.
Real / reactive power
Measurement of the real and reactive power, with the sign, in balanced
and unbalanced 3-phase networks.
Peak demand real / reactive power
Measurement of the greatest average real power (and reactive power) value,
to find the power absorbed during peak load periods. The average value is reset
to zero periodically periodically (adjustable period: 5, 10, 15, 30 or 60 minutes).
The “clear” button is pressed for zero reset.
Power factor (p.f.)
Measurement of the p.f. with the sign and type (capacitive or inductive)
of the power conveyed.
Measurements available on the Sepam display unit
and on the TSM 2001 pocket terminal.
Frequency
Measurement of frequency (based on the U21 voltage input).
Real and reactive energy
The alphanumeric display unit shows the 4 accumulated energy values:
c real energy consumed,
c reverse real energy,
c reactive energy consumed,
c reverse reactive energy.
The accumulated energy values are saved in the event of a power failure.
Tripping currents
Measurement of the 3-phase currents and earth current that were stored
at the time that Sepam gave the tripping order. Used to find the fault current
(fault analysis) and assess the level of wear of the breaker
(maintenance assistance). The “clear” button is pressed for zero reset.
Measurements available on the Sepam display unit
and a PC via SFT 2801 software.
True rms current
Measurement of the rms value of phase 1 current up to 4XIn, taking into account:
c fundamental,
c harmonics up to rank 21st.
Disturbance recording
Recording of electrical signals and logical information before and after a fault
recorder triggering order is given.
4
Substation
Measurements used
for commissioning
and maintenance
Characteristics
functions
ammeter
(1)
peak demand current
Residual current / residual voltage
Used to check the current and voltage sensor
connections by giving the measurement of:
c the residual current used for the earth fault
protection function,
c the voltage used for the neutral voltage
displacement and directional earth fault protections.
voltmeter
Cumulative breaking current
and number of breaks
Used for breaking device maintenance.
frequency meter
wattmeter
varmeter
(1)
(1)
(1)
(1)
peak demand real power
(1)
peak demand reactive power
power factor
real energy
(1)
(1) (3)
(1)
(1)
reactive energy
accuracy
0 to 24 In
±0.5%
0 to 24 In
±0.5%
0 to 375 kV
±0.5%
0 to 999 MW
±1%
0 to 999 MVAr
±1%
0 to 999 MW
±1%
0 to 999 MVAr
±1%
-1 to +1
0.01
45 to 65 Hz
±0.02 Hz
0 to 280.106 MWh
±1%
0 to 280.10 MVArh
±1%
phase
0 to 24 In
±5%
earth
0 to 10 Ino
±5%
0 to 4 In
±1%
(1)
tripping currents
ranges
6
(1)
true rms current
up to harmonic 21 (2)
disturbance recording
(5)
12 samples per period
residual current
(2)
0 to 10 Ino
±5%
residual voltage
(2)
0 to 1.5 Un
±5%
0 to 9999 (kA)2
±10%
cumulative breaking current (2)
number of breakers
(2)
(4)
0 to 99999
(1)
indication available on the Sepam display unit or the pocket terminal.
indication available on the pocket terminal only.
(3)
capacitive or inductive.
(4)
typical accuracy with nominal values according to IEC 60255-6.
(5)
transfer of records with SFT 2801 software.
Use of records with SFT 2826 software.
(2)
Reminder:
The rated current In, rated voltage Un and residual current Ino are general parameters
that are set at the time of Sepam commissioning.
In is the current sensor rated current (CT rating).
Ino is the residual current sensor rated current.
Un is the rated phase-to-phase voltage of the voltage sensor primary windings.
Substation
5
Protection
Breaker failure (ANSI 50BF-62) F981*
Back up protection in the event that the incoming
breaker fails to operate when a retripping order is
given by the opposite and coupling breakers.
Phase overcurrent (ANSI 50/51) F011 to F014*
Three-phase protection against phase-to-phase
faults. The following types of time delay settings
are available: definite, standard inverse, very inverse
and extremely inverse.
Overvoltage (ANSI 59) F301*
Protection against abnormally high voltage.
The protection checks phase-to-phase voltage U21.
Neutral voltage displacement (ANSI 59N) F391*
Used with a sufficient time delay, detection of residual voltage is characteristic
of voltage transformer fuse melting.
Directional overcurrent (ANSI 67) F521*
Quick, selective detection of upstream faults when several transformer incoming
feeders are used in parallel.
Earth fault (ANSI 50N/51N) F081 to F084*
Earth fault protection. The following types of time
delay settings are available: definite, standard
inverse, very inverse and extremely inverse.
Earth fault current may be detected by:
c three phase current transformers,
c a current transformer (1 A, 5 A) combined
with a CSH30 interposing ring CT.
Directional earth fault (ANSI 67N) F501*
This function has several uses:
c highly sensitive earth fault protection for in coming feeders supplied with power
by a long cable (high capacitive current),
c highly sensitive earth fault protection for long incomers characterized by high
capacitive current.
Undervoltage (ANSI 27) F321, F341, F361*
This function checks for undervoltage in each
of the phase-to-phase voltages measured.
Current sensor sizing
*Fxxx function identification for protection setting using
the pocket terminal.
6
The current sensors should be such that they will not be saturated by the current
values which they are required to measure (at least 5 In):
c for definite time functions (DT): 1.5 times the setting current,
c for IDMT functions (SIT, VIT, EIT and UIT): 1.5 times the greatest working value
in the curve.
Substation
Setting ranges
functions
Fxxx (1)
breaker failure
F981
phase overcurrent
F011-F012-F013-F014
definite time
IDMT
(2)
earth fault
settings
time delays
0.2 to 2 In
t : 0.05 to 65.5 s
0.3 to 24 In
t : 0.05 to 655 s
0.3 to 2.4 In
F081-F082-F083-F084
t : 0.1 to 12.5 s at 10 Is
type of sensor
definite time
0.05 to 10 In
0.1 to 20 A
1.5 to 300 A
0.05 to 10 Ino
∑3 Iph
CSH cal. 2 A
CSH cal. 30 A
TC 1 A or 5 A
t : 0.05 to 655 s
IDMT (2)
0.05 to 1 In
0.1 to 2 A
1.5 to 30 A
0.05 to 1 Ino
∑3 Iph
CSH cal. 2 A
CSH cal. 30 A
TC 1 A or 5 A
t : 0.1 to 12.5 s at 10 Iso
undervoltage
F321-F341-F361
overvoltage
F301
neutral voltage displacement
F391
directional overcurrent
F521
5% to 100% of Un
t : 0.05 to 655 s
50% to 150% of Un
t : 0.05 to 655 s
2% to 80% of Un if TP : Un/e/100/e
5% to 80% of Un if TP : Un/e/100/3
t : 0.05 to 655 s
characteristic angle 30°, 45°, 60°
definite time
0.3 to 24 In
t : 0.05 to 655 s
IDMT
0.3 to 2.4 In
t : 0.1 to 12.5 s at 10 Is
directional earth fault
IDMT
F501
characteristic angle 0°, 15°, 30°, 45°,
60°, 90° and -45°
0.05 to 10 In
0.1 to 20 A
1.5 to 300 A
0.05 to 1 Ino
∑3 Iph
CSH cal. 2 A
CSH cal. 30 A
TC 1 A or 5 A
t : 0.05 to 655 s
Reminder: the rated current In, rated voltage Un and residual current Ino are general parameters that are set at the time of Sepam commissioning.
In is the current sensor rated current (CT rating). Un is the rated phase-to-phase voltage of the voltage sensor primary windings.
Ino is the residual current sensor rated current.
(1)
function identification for protection setting using the pocket terminal.
(2)
IDMT curves:
- inverse: SI
- very inverse: VI,
- extremely inverse: EI,
- ultra inverse: UI,
- long time inverse: LTI.
Substation
7
Control and monitoring
Open / close control
Used to control breaking of devices equipped
with different types of opening and closing coils:
c circuit breaker with shunt-trip or undervoltage
release coil.
c parameter setting via the TSM 2001 pocket terminal
allows the logic to be adapted to suit the equipment
being used (by default, the logic is adapted for control
of a circuit breaker with a shunt-trip coil).
The opening order (via input I13) differs according to
the programmed type of control :
c normally open contact for shunt trip coil (circuit
breaker or contactor with latched order control),
c normally closed contact for undervoltage release
coil (circuit breaker).
Lockout relay (ANSI 86)
Stores tripping orders (lockout) and requires user
action to be put back into operation (reset).
Inhibit closing (ANSI 69)
Inhibits the closing of the circuit breaker
or the contactor according to operating conditions.
Annunciation (ANSI 30)
Keeps the user informed by the display of messages.
CB control monitoring:
trip circuit, discrepancy (ANSI 74)
Detects trip circuit faults (shunt-trip coil). The function
can only be used if the Sepam and trip circuit auxiliary
power sources have the same voltage rating.
If the equipment contains an undervoltage release
coil only, the trip circuit is not supervised since
it is fail-safe.
This function can also detect position information
discrepancies (neither open nor closed
or simultaneously open and closed) in the different
control schemes.
This function can also detect all control open and
closed not executed.
The connection scheme of inputs I1, I2 and trip
output O1 on the ESB board must be complied
with (see logic input (output connection schemes).
8
Tripping of upstream (HV) and couling breakers
In the event of the failure of an incomer breaker to trip, it trips the upstream (HV)
and coupling breakers. May also be used to trip the upstream (HV) breaker in the
event of directional protection tripping.
External protection tripping
Allows the breaker to be tripped by a protection outside the Sepam.
External disturbance recording triggering
Used to start up external disturbance recording whenever an overcurrent
or earth fault is detected.
Sepam disturbance recording triggering
Triggers recording of electrical signals and logical states by:
c voluntary local or remote action,
c instantaneous overcurrent and earth fault and directional protections,
c protection tripping order.
Power supply monitoring
Detects all losses of auxiliary power supply or Sepam failures (watchdog).
Detection of plugged connectors (DPC) (ANSI 74)
Indication on the display unit that one or more connectors are not plugged in
(the DPC connections must be made: see connection schemes).
Phase and earth fault trip counter (1)
Counts the number of operation for which breaking performances are required,
in order to facilitate equipment maintenance.
Logic discrimination (SSL) (ANSI 68)
Enables quick and selective tripping of the phase overcurrent and earth fault
protection relays, whether definite time (DT) or IDMT (standard inverse SIT,
very inverse VIT, extremely inverse EIT, ultra inverse UIT).
The function triggers the transmission of a blocking input (BI) signal whenever one
of the protection settings is exceeded.
The transmission of a blocking input may be used by the Sepam Logic Discrimination
function for substation, overhead, underground or busbar coupling applications.
Operation counter (1)
Counts the number of closing operations performed by the breaking device,
in order to facilitate equipment maintenance.
(1)
the counters are read on the pocket terminal.
Substation
Operation
functions
trip
inhibit
closing
lock
out
O1
O11
fault
trip
O12
trans.
BI
O14
ext. dist.
rec. trig.
O23
messages
c
c
c
OVERCURRENT
c
c
O13
phase overcurrent
c
c
c
earth fault
c
c
c
c
EARTH FAULT
directional overcurrent
c
c
c
c (1)
c
c
DIR. O/C
directional earth fault
c
c
c
c (1)
c
c
DIR. E/F
c
c (2)
neutral voltage
displacement
c
c
pole pressure
c
c
c
PRESSURE
CB control
c
c
c
?CONTROL?
external tripping
functions
c
N VOLT DISP
EXT. TRIP
inhibit
closing
lock out
O11
c
c
c
overvoltage
(1)
(2)
O22
O24
c
undervoltage
HV upstream and coupling
breaker tripping
O21
messages
UNDERVOLTAGE
c
CB FAULT
c
OVERVOLTAGE
HV tripping by directional phase overcurrent and earth fault protections S62, S63, S66 application.
S64 application.
Substation
9
Control and monitoring (cont’d)
Set up
function
open / close control
circuit breaker with shunt-trip coil
circuit breaker with undervoltage release coil
display of parameterized control
breaker failure
protection breaker fault in service
protection breaker fault out off service
enable current monitoring by-pass
disable current monitoring by-pass
HV tripping
by normally open contact
by normally closed contact
HV up stream breaker tripping
by normally open contact
by normally closed contact
coupling breaker tripping
by normally open contact
by normally closed contact
directional phase overcurrent
tripping if at least one of the three phases is above the set point
tripping if at least two of the three phases are above the set point
receipt of blocking input
normal
fail-safe
transmit of blocking input
normal
fail-safe
pilot wire test
external protection tripping
by normally open contact
by normally closed contact
remote setting
remote setting enable
remote setting disable
event counter
resetting of fault counter
resetting of operation counter
disturbance recording
storage
automatic triggering
manual triggering
10
parameters
KP1 = 0
KP1 = 1
KP17 = 1
KP2 = 0
KP2 = 1
KP3 = 0
KP3 = 1
KP5 = 0
KP5 = 1
KP6 = 0
KP6 = 1
KP7 = 0
KP7 = 1
KP33 = 0
KP33 = 1
KP9 = 0
KP9 = 1
KP10 = 0
KP10 = 1
KP18 = 1
KP4 = 0
KP4 = 1
KP38 = 0
KP38 = 1
KP49 = 1
KP53 = 1
KP50 = 1
KP51 = 1
KP52 = 1
Substation
Functional and connection schemes
S61, S65 types
L1
L2
L3
CE40
1B
1
2
3
1A 4
P1 S1
4
1
P2 S2
5
2
2B
ECM
6
3
6
5
4
3
2
1
50
51
50N
51N
50BF
L65
ESB 5A 21
DPC
20
CDG
2A
DPC
O2
O1
l2
l1
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
ESTOR1 6A 21
1
ESTOR2 7A 21
N.B.
Refer to the «other connection schemes»
section regarding other arrangements.
DPC: detection of plugged connectors
CDG: watchdog
1
■ Correspondence between primary and secondary
connections (e.g. P1, S1).
Standard S36YR Sepam 2000.
Substation
11
Functional and connection schemes (cont’d)
S62, S63, S64 and S66 types
L1
L2
L3
N
L1
L2
L3
8
7
6
5
4
3
2
1
4
1
4A
3U/Vo
DPC
2B
ECM
5
2
59N 27
L64 59
L62
L63
L66
67N 67
L62 L63
L63 L66
L66
CE40
1
2
3
1A 4
50 50BF
51
S66
50N
51N
ESB 5A 21
DPC
20
6
3
6
5
4
3
2
1
1B
CDG
2A
DPC
O2
O1
l2
l1
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
ESTOR1 6A 21
1
N.B.
Refer to the «other connection schemes»
section regarding other arrangements.
DPC: detection of plugged connectors
CDG: watchdog.
ESTOR2 7A 21
■ Correspondence between primary and secondary
connections (e.g. P1, S1)
1
Standard S36XR Sepam 2000.
12
Substation
Other connection schemes
Phase voltage
L1
L1
L2
L2
L3
L3
3U/Vo
A
8
7
6
5
4
3
2
1
Connection of a voltage transformer
(does not allow implementation of
protections: positive sequence undervoltage,
direction of rotation, directional earth fault
and measurements: phase rotation,
residual voltage).
Phase and residual voltage
3U/Vo
A
8
7
6
5
4
3
2
1
DPC
DPC
V-connection of 2 voltage transformers
(does not allow implementation of directional
earth fault protection and residual voltage
measurement).
L1
L2
L3
3U/Vo
A
8
7
6
5
4
3
2
1
DPC
Broken delta connection of voltage transformers for residual voltage measurement.
Residual current
L1 L2 L3
4
1
(recommended wiring)
2B
ECM
5
2
CSH30
P1 S2
6
3
6
5
4
3
2
1
CSH30
Phase current
P2
2A
DPC
30 A
2A
TC+CSH30
L1 L2 L3
1
S1
ECM
A
6
5
4
3
2
1
DPC
30 A
2A
TC + CSH30
5 turns
For connection of 1 A transformers,
make 5 turns at the CSH30 primary.
L1 L2 L3
CCA 601 cable
L1
2L1
2L2
2L3
L2
L3
ECA
4
1
B
ECM
5
2
6
3
A
c Correspondence between primary and
secondary connections (e.g. P1, S1).
Substation
Connection of specific sensors CSP.
Connection of 2 current transformers.
13
Other connection schemes (cont’d)
Connection of logic inputs / outputs
ESB board
ESB
DPC
CDG
O2
O1
l2
l1
A
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
ESB
DPC
CDG
O2
closing
coil
open
Tripping by shunt-trip coil.
O1
tripping
coil
l2
l1
A
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
closing
coil
open
tripping
coil
Tripping by undervoltage release coil.
N.B. The inputs are potential-free and require an external power supply source.
14
Substation
ESTOR1 board
ESTOR
A
DPC
l28
l27
l26
l25
l24
l23
O24
O23
O22
O21
l22
l21
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
terminals
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
data connected to ESTOR1 board
I18
enable remote control: allows closing and acknowledgment
orders to be sent via the serial link:
contact closed for enable
I17
“disconnected” position: contact closed for disconnected
I16
pole pressure: contact closed for breaking pole fault
I15
external protection tripping: normally open or normally
closed contact according to parameter setting
I14
close: normally open contact
I13
open: normally open contact for shunt-trip coil,
normally closed contact for undervoltage release coil (1)
common
O14
transmit BI (blocking input)
O13
breaker failure (pressure fault or control fault)
O12
fault tripping
O11
neutral voltage displacement (2)
HV tripping up stream breaker
receipt of BI (blocking input)
from the busbar adjacent to incomer (3)
receipt of BI (blocking input)
from the busbar adjacent to the coupling
I12
I11
(3)
(1)
if open control via input I13 is not used:
c for shunt-trip coil, I13=0 continuously.
c for undervoltage release coil, I13=1 continuously.
ESTOR2 board
ESTOR
DPC
l38
l37
l36
l35
l34
l33
O34
O33
O32
O31
l32
l31
A
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
terminals
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
(2)
data connected to ESTOR2 board
I28
reserved
I27
reserved
I26
3-phase tripping by external protection information
I25
position of the coupling circuit breaker:
contact closed for closed and racked in
I24
HV tripping
I23
earthing switch: contact open for earthing switch open
common
O24
overvoltage
O23
external disturbance recorder triggering
O22
coupling circuit breaker tripping
O21
undervoltage
I22
fault acknowledgment
I11
reserved for external communication synchronization
application S64.
(3)
incomer
coupling
Bus
incomer
adjacent
other Bus
coupling adjacent
N.B. The inputs are potential-free and require an external power supply source.
Substation
15
Communication
Introduction
The communication option can be used to connect Sepam 2000 to a remote monitoring and control system
equipped with a communication channel.
c Jbus/Modbus (Modbus sub-group), master-slave protocol with a physical link of the RS485 type
in 2-wire mode (rate of 300 to 38400 bauds).
MERLIN GERIN
Communication table
remote indications
addresses
logic inputs status
logic outputs status
operation counter
C1
phase fault trip counter
C2
addresses
open
KTC33
close
KTC34
fault acknowledgment
(RESET)
KTC35
max. demand phase current reset
(CLEAR)
KTC36
earth fault trip counter
C3
KTS1
peak demand W and VAR reset
(CLEAR)
KTC37
control fault: trip or discrepency
instantaneous phase overcurrent
KTS2
tripping current reset (CLEAR)
KTC38
KTS3
disable disturbance recording
KTC50
KTS4
re-enable disturbance recording
KTC51
time-delayed earth fault
KTS5
start up disturbance recording
KTC52
instantaneous directional
phase overcurrent
KTS6
remote measurements
time-delayed directional
phase overcurrent
KTS7
instantaneous directional earth fault
KTS8
time-delayed directional earth fault
KTS9
system overvoltage
KTS10
external protection tripping
KTS11
upstream and coupling
breaker tripping
KTS13
remote control fault disable
KTS15
position/remote control discrepancy
KTS16
Sepam not reset
KTS17
HV tripping
KTS19
breaking pole fault
KTS20
logic discrimination (SSL) fault
KTS22
time-delayed phase overcurrent
instantaneous earth fault
16
remote control orders
frequency
real power
reactive power
neutral voltage displacement
KTS28
undervoltage
KTS30
transmit blocking input
KTS32
disturbance recording storage
KTS50
remote setting inactive
KTS51
peak demand real power
peak demand reactive power
power factor (p.f.)
inductive or capacitive network
real energy
reactive energy
tripping current
remote reading - remote setting
protection function curves, set points,
time delays, angles...
program logic time delays
Substation
Characteristics
Electrical characteristics
analog inputs
current transformer
10 A to 6250 A ratings
1 A CT
5 A CT
< 0.001 VA
< 0.025 VA
voltage transformer
220 V to 250 kV ratings
100 to 120 V
> 100 kW
voltage
24/30 Vdc
28/127 Vdc
220/250 Vdc
consumption
10 mA
10 mA
4 mA
voltage
24/48 Vdc
127 Vdc
220 Vdc
rated current
8A
8A
8A
DC resistive load
4A
0.7 A
0.3 A
AC resistive load
8A
8A
8A
logic inputs
logic outputs (relays)
breaking capacity:
auxiliary power supply
DC voltage
24/30 Vdc
48/127 Vdc
220/250 Vdc
consumption when de-activated
18 W
19.5 W
21 W
Environmental characteristics
dielectric
power frequency
IEC 60255-5
2 kV - 1 mn
IEC 60068-2
- 5 °C to 55 °C
climatic
operation
storage
IEC 60068-2
- 25 °C to 70 °C
damp heat
IEC 60068-2
95% at 40 °C
effect of corrosion
IEC 60654-4
class I
degree of protection
IEC 60529
IP 51
vibrations
IEC 60255-21-1
class I
shocks
IEC 60255-21-2
class I
fire
IEC 60695-2-1
mechanical
on front panel
glow wire
electromagnetic
radiation
IEC 60255-22-3
class X
electrostatic discharge
IEC 60255-22-2
class III
30 V/m
electrical
1.2/50 µs impulse wave
IEC 60255-5
1 MHz damped oscillating wave
IEC 60255-22-1
class III
5 ns fast transients
IEC 60255-22-4
class IV
“
Substation
5 kV
” marking on our products guarantees their compliance with European directives.
17
Installation
Dimensions and weights
mounting latches (x2)
222
201
e = 3 mm max
20
300
Standard Sepam (S36)
Cut-out
222
202
338
352
weight: 9 kg
Connections
Sepam (S36) rear face
with standard connectors.
type
wiring
accessories
reference
type
current transformers
screw for Ø 4
eye lug
i 6 mm2
CCA 660 (1)
connector
CSH sensors
screw
i 2.5 mm2
CCA 606 (1)
connector
voltage transformers
screw
i 2.5 mm
2
CCA 608 (1)
connector
temperature probes
screw
i 2.5 mm2
CCA 621 (1)
connector
logic inputs / outputs
screw
i 2.5 mm2
CCA 621 (1)
connector
power supply
screw
i 2.5 mm2
CCA 604 (1)
connector
CCA 602
cable (length: 3 m)
with 2 9-pin sub-D
connectors
CCA 619
9-pin sub-D
connector box
Jbus / Modbus communication 9-pin sub-D
connector
(1)
18
accessories supplied with Sepam.
Substation
Notes
Substation
19
Ordering information
Sepam 2000
Sepam type (1) .............................................................................................
Standard S36 ...........................................................................................................
Quantity .......................................................................................................
(1)
example : S61
Options
Communication ......................................................... without ...............................
..................................................................................... Jbus/Modbus .....................
Working language ..................................................... French ...............................
..................................................................................... English ..............................
..................................................................................... Spanish .............................
..................................................................................... Italian ................................
Current sensors ......................................................... 1 A/5 A CT .........................
..................................................................................... CSP ...................................
Auxiliary power supply ............................................. 24/30 Vdc ..........................
..................................................................................... 48/127 Vdc ........................
..................................................................................... 220/250 Vdc ......................
Accessories
quantity
Pocket terminal ............................................................ TSM 2001 .............
Setting software with PC connection kit ..................... SFT 2801 ..............
Disturbance recording record
processing software .................................................... SFT 2826 ..............
Core balance CT ......................................................... CSH 120 ................
..................................................................................... CSH 200 ................
Interposing ring CT for residual current
input ............................................................................. CSH 30 ..................
Jbus/Modbus communication
c 9-pin sub-D connector box ....................................... CCA 619 ................
c Jbus/Modbus network connection box .................... CCA 609 ................
c cable (length: 3 m)
with two 9-pin sub-D connectors ................................. CCA 602 ................
c RS485/RS232 interface box .................................... ACE 909 ................
Schneider Electric SA
Postal address
F-38050 Grenoble cedex 9
Tel: 33 (0)4 76 57 60 60
Telex: merge 320842 F
http://www.schneider-electric.com
Rcs Nanterre B 954 503 439
PCRED397087EN
20
ART.086642
As standards, specifications and designs change from
time to time, please ask for confirmation of the information
given in this publication.
This document has been
printed on ecological paper.
Publishing: Schneider Electric SA
Design, production: Idra
Printing:
Substation
07 / 1998