Protective Relays
SALES AID
M-LIB3 Low Impedance Bus Differential Relay
S150-34-1
MODULAR LOW IMPEDANCE
BUS PROTECTION
TYPE
M-LIB3
OPERATION MANUAL
October 1999 Ó 1999 Cooper Industries, Inc. · New Issue.
1
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S150-34-1
GENERAL UTILIZATION AND COMMISSIONING DIRECTIONS
Always make reference to the specific description of the product and to the
Manufacturer's instructions.
Carefully observe the following warnings.
1.1 STORAGE AND TRANSPORTATION
Must comply with the environmental conditions stated on the product's instruction or by the applicable
IEC standards.
1.2 INSTALLATION,
Must be properly made and in compliance with the operational ambient conditions stated by the
Manufacturer.
1.3 ELECTRICAL CONNECTION,
Must be made strictly according to the wiring diagram supplied with the Product, to its electrical
characteristics and in compliance with the applicable standards particularly with reference to human
safety.
1.4 MEASURING INPUTS AND POWER SUPPLY,
Carefully check that the value of input quantities and power supply voltage are proper and within the
permissible variation limits.
1.5 OUTPUTS LOADING,
Must be compatible with their declared performance.
1.6 PROTECTION EARTHING
When grounding is required, carefully check its efficiency.
1.7 SETTING AND CALIBRATION
Carefully check the proper setting of the different functions according to the configuration of the
protected system, the safety regulations and the co-ordination with other equipment.
1.8 SAFETY PROTECTION
Carefully check that all safety means are correctly mounted, apply proper seals where
required and periodically check their integrity.
1.9 HANDLING
The electronic components and semiconductor devices mounted on the modules can be seriously
damaged by electrostatic voltage discharge which can be experienced when handling the modules.
The damage caused by electrostatic discharge may not be immediately apparent but the design
reliability and the long life of the product will have been reduced. The electronic are completely safe
from electrostatic discharge (8 KV IEC 255.22.2) when housed in their case; withdrawing the modules
without proper cautions expose them to the risk of damage.
3
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M-LIB3 Low Impedance Bus Differential Relay
a. Before removing a module, ensure that you are at the same electrostatic potential as the
equipment by touching the case.
b. Handle the module by its front-plate, frame, or edges of the printed circuit board. Avoid
touching the electronic components, printed circuit tracks or connectors.
c. Do not pass the module to any person without first ensuring that you are both at the
same electrostatic potential. Shaking hands achieves equipotential.
d. Place the module on an anti-static surface, or on a conducting surface which is at the
same potential as yourself.
e. Store or transport the module in a conductive bag.
More information on safe working procedures for all electronic equipment can be found in
BS5783 and IEC 147-OF.
1.10 MAINTENANCE
Make reference to the instruction manual of the Manufacturer ;
maintenance must be carried-out by specially trained people and in strict conformity with
the safety regulations.
1.11 FAULT DETECTION AND REPAIR
Internal calibrations and components should not be altered or replaced.
For repair please ask the Manufacturer or its authorized Dealers.
Misapplication of the above warnings and instruction relieves the Manufacturer of any liability.
4
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S150-34-1
GENERAL CHARACTERISTICS AND OPERATION
1.12 Modular Low Impedance Bus Bar Protection M-LIB3
The M-LIB system is constituted of a number of modular units, which can be combined to suit to any
busbar configuration and allow for easy extension.
1.13
Main features
q
q
q
q
Low impedance and low burden on main CTS.
High stability with zone biased differential elements and CT saturation detectors.
High speed of operation.
High reliability: duplicated measuring circuits, CTs’ secondary circuits supervision, wide and
consistent setting ranges
q
q
q
q
q
q
q
q
q
Self-contained input CTs for main zone and for check zone feature without duplication of main CTs.
Self-contained isolator repeat relays switching at secondary of the zone input CTs.
Self-contained discrepancy alarm relays
Multivoltage power supply.
Comprehensive self-diagnostic.
User friendly MMI.
Real time and recorded measurements.
Event records and oscillography
RS 485 serial port with ModBus protocol.
1.14
Component Modules
The system includes three basic modules:
1.14.1 M-BF3 = Income/Feeder Breaker input module (SCE1577)
Including :
q
q
q
sets of three CTs. 1 set for the Main Zone and 1 for the Check Zone.
CT saturation detectors.
bistable isolator repeat relays for switching the secondary circuits of the input CTs and the zone
trip input signal.
q
q
Time delayed isolator discrepancy alarm feature
Power supply unit
5
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M-LIB3 Low Impedance Bus Differential Relay
1.14.2 M-BC3 = Bus coupler / sectionalizer module (SCE1578)
Including :
q
q
q
sets of three auxiliary CTs : 1 set for each side of the bus coupler.
1 Bus coupler trip output.
1 Bus Coupler trip input from Feeders’ Breaker Failure Relays
1.14.3 M-LID3 = Numerical biased protection relay
With the following features :
q
Double circuit for Biased differential protection.
Double circuit for unbiased differential protection.
Double circuit for CT circuits supervision.
Output relays for phase trip
q
q
q
q
q
q
q
q
q
q
q
1 Supervision alarm relay
1 Internal fault alarm relay
1 Lock-out digital input
1 Remote trigger input
Synchronization digital input
RS 485 communication Port
Timed supervision alarm
Timed discrepancy alarm
6
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S150-34-1
2.4 F/C Rack Panel
19” 3U rack panel suitable to house up to seven plug-in modules type M-BF3 or M-BC3 including
back printed circuit board with :
q
q
q
q
q
q
Diodes for supply of the measurement bus of two Main Zones and one Check Zone
7 Female sockets for plug-in connection of the M-BF3 or M-BC3 modules.
7 Terminal boards with screw terminals for connection to the system.
1 Male connector socket for interfacing with the differential protection relays.
1 Female connector socket for interconnection with other F/C Rack Panels.
1 Power supply module:
The auxiliary power is supplied by a built-in interchangeable module fully isolated and self
protected. Two options are available :
24V(-20%) / 110V(+15%) a.c.
24V(-20%) / 125V(+20%) d.c.
80V(-20%) / 220V(+15%) a.c.
90V(-20%) / 250V(+20%) d.c.
a) -
b) -
Before energizing the unit check that supply voltage is within the allowed limits.
Power consumption : nx 4W (n = number of modules M-BF3)
The unit can supply up to 12 modules M-BF3 plus two modules M-BC3 (one unit can supply two F/C Rack
Panels).
7
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M-LIB3 Low Impedance Bus Differential Relay
2.5 ACCESSORIES
2.5.1 CF1 – Cable with female plug
Female connector plug with multicore cable for connection between the
terminals of the protection relays and the Zone wiring bus.
8
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S150-34-1
2.5.2 CFM – Interconnection cable with Male and Female plugs
Multicore cable terminated with one male and one female connector plugs for
interconnection between F/C Rack Panels.
9
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M-LIB3 Low Impedance Bus Differential Relay
2.6 Technical Data
q Standards: IEC 255, 1000, CE
q Rated Frequency: 50/60 Hz
q Rated input current: 1 A
q Current overload: 2 In
q Transient overload: 100 In
q Setting ranges:
· Fn = 50/60 Hz
· Ids = zone differential current = (0,2-2) In
· R = Bias per Unit = (0,4 - 1) p.u.
· ISV = Circuit supervision current = (0,1 – 1) In
· Operating time: £ 20 ms
· Stability level: ³ 40 In max.
2.7 CURRENT TRANSFORMER REQUIREMENTS
Current transformer requirements
Minimum knee point voltage: VK ³ F . In . RT
where
F = Accuracy limit factor (20 recommended)
In = Main CT’s rated secondary current
RT = Total CT’s secondary loop resistance (see equivalent diagram)
V
æ
ö
- R In2
K
Minimum power: S ³
ç
÷
è
CT ø
F× In
RCT = Secondary resistance of main CT
RW = Resistance of connection lead
RP = Primary resistance of auxiliary ratio matching CT
n = IP/IS = Current ratio of auxiliary CT
RS = Secondary resistance of auxiliary ratio matching CT
Rd = Ohmic burden of M-LIB3 : 0.52W (In=1A)
10
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S150-34-1
3
APPARATUS CONFIGURATION
The M-LIB3 modular protection apparatus is combined according to the configuration of the protected bus
bar System.
Generally the following components are needed :
q One M-LID3 differential relay for each of the protected bus bar zone.
q One M-LID3 differential relay for each Check Zone (normally one only).
The M-LID3 relays can be supplied as individual flush mounting units or combined in 19” 3U rack panel.
Each rack panel can store up to four M-LID3 draw-out relays or can house M-LID3 relays combined with
any other Edison relay, such as lock-out relay RB4, communication protocol converter module MC-R,
Control Matrix MX7-5, Breaker Failure relay BF20, et cetera.
q One plug-in module M-BF3 for each incoming / outgoing Feeder connected to the Busbar system.
q One plug-in module M-BC3 for each Bus Coupler or sectionalizer.
The M-BF3 and the M-BC3 modules are housed in the F/C Rack Panels.
One F/C Rack Panel can house up to seven M-BF3 or M-BC3 modules (example 6 M-BF3 + 1 M-BC3)
If more than seven modules are needed additional F/C panels shall be provided.
The F/C panels include the bus wiring for two Busbar Zones plus one Check Zone: one (or one group of)
F/C panels is needed for each pair of Busbar Zones.
Interface between each F/C group and the relevant Differential protection relays is made by a single
connector cable type C1F.
Interconnection between n F/C panels of one group is made by n-1 double connector cables type CFM
11
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M-LIB3 Low Impedance Bus Differential Relay
3.1 SINGLE-LINE DIAGRAM
SINGLE-LINE
DIAGRAM
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S150-34-1
3.2 Application example
As an example a double busbar system with two zones 10 feeders and one bus coupler is considered:
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M-LIB3 Low Impedance Bus Differential Relay
14
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S150-34-1
4
FEEDER INPUT MODULE M-BF3
M-BF3 is a 51mm wide draw-out modular unit to be plug-in into the F/C rack
panel that can house up to 7 modules M-BF3 or M-BC3.
With reference to the block diagram SCE1577 the module M-BF3 receives the
measuring input from the three Feeder’s Current transformers (eventually from
the ratio adapting transformers) and the configuration input from the position
signal contacts of the busbar selection isolators.
For each isolator 1 N/O and 1 N/C contacts are needed for controlling the isolator
repeat bistable relays A and B which perform the replica of the busbar system’s
configuration.
O
O
C
C
For each phase the input current is fed to a pair of internal current transformers:
q
One current transformer is changed over by the repeat relays to the wiring
bus connected to the Differential relay relevant to the Zone (1 or 2) where the
feeder is actually switched on.
Each of the two zone wiring bus also includes the wire carrying the trip signal
of its Differential Relay: the trip coil of the feeder’s Circuit Breaker is switched
over to the proper wiring bus by one contact of the repeat relays.
The second current transformer feeds the bus wiring of the check zone and
the saturation detection circuit; this circuit is used to inhibit the tripping of the
differential element due to CT’s saturation during external faults.
DISCREPANCY
DISCREPANCY
ALARM
TEST
FEEDER INPUT MODULE
M-BF3
q Power Supply is fed to all the M-BF3 modules from the Power supply unit
included in the F/C rack panel.
51mm
The operation of the repeat relays is monitored by a Discrepancy Alarm feature which by means of an XOR
(Exclusive OR) logic operates an output relay if both set and reset signals are simultaneously present or no
signal is present at the terminals of repeat relay A or B (the relay is normally energized with a N/C contact).
The Discrepancy Alarm Relay’s pick-up is time delayed by approximately 8 sec. and it is signaled by an LED
on the relay’s front panel.
One push button on the relay’s front panel permits testing of the Discrepancy Alarm function: the push button
must be pressed for approximately 8 sec. to get the Alarm pick-up.
The position of each isolator is monitored by a pair of LEDs on relay’s front face.
Wiring is made according to the diagram SCE1577 :
q
q
q
Field wires are connected to the module’s terminal board available on the back of the F/C rack panel.
Connections to the zone bus wiring are made by the plug-in connector of the M-BF3’s card.
Through the same terminal 5 which sends the trip signal to the Feeder’s Circuit Breaker, a trip signal
coming from the Feeder’s Breaker Failure Relay can be sent back to the tip Bus of the zone to which the
Feeder is connected
15
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M-LIB3 Low Impedance Bus Differential Relay
F/C PANEL
M-BF3
CARD
BACK SIDE
Each of the 7 bays of the F/C panel can accept either one module M-BF3 or one module M-BC3
q
Current input burden (each module) :
In = 1A :
In = 5A :
0.5 VA – 0.5 W
(on request)
q
Power supply consumption (each module) : @ 4W
16
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S150-34-1
4.1 WIRING DIAGRAM M-BF3 (SCE1577)
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M-LIB3 Low Impedance Bus Differential Relay
5
BUS COUPLER INPUT MODULE M-BC3
M-BC3 is a 51mm wide draw-out modular unit to be plug-in into the F/C rack
panel that can house up to 7 modules M-BC3 or M-BF3.
With reference to the block diagram SCE1578 the module M-BC3 receives the
measuring input from the two sets of the Bus Coupler’s current transformer
(eventually from the ratio adapting transformers).
Two sets of internal current transformers convey the current inputs from the bus
1 and the current inputs from the bus 2 respectively to the wiring bus connected
to the Differential Relay of the Zone 2 and to the wiring bus connected to the
Differential Relay of Zone 1.
q
Each of the two zone wiring bus also includes the wire carrying the
trip signal of its Differential Relay :
the trip coil of the Bus Coupler’s Circuit Breaker is energized by both the zone
trip signals. It means that any fault on the bus bar system always trips the bus
coupler.
q
q
q
Power Supply is fed to all the M-BC3 modules from the Power supply unit
included in the F/C rack panel :
each module includes its independent power supply unit.
BUS COUPLER INPUT
MODULE M-BC3
Via Terminal 6 the trip signal to Bus Coupler Circuit Breaker can also be
received from the Field (for example from any or all the Feeders’ Breaker
Failure relays)
Via Terminal 7 a trip signal can be conveyed from the field to both the tripping
Bus of Zone 1 and Zone 2 (for example from the Breaker Failure Relay of the
Bus Coupler)
51mm
Wiring is made according to the diagram SCE1578 :
q
q
Field wires are connected to the module’s terminal board available on the back of the F/C rack panel.
Connections to the zone bus wiring are made by the plug-in connector of the M-BC3’s card.
18
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S150-34-1
F/C PANEL
M-BC3
CARD
BACK SIDE
Each of the 7 bays of the F/C panel can accept either one module M-BF3 or one module M-BC3
Current input burden (each module) :
q
In = 1A :
In = 5A :
0.5 VA – 0.5 W
(on request)
19
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M-LIB3 Low Impedance Bus Differential Relay
5.1 WIRING DIAGRAM M-BC3 (SCE1578)
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S150-34-1
6
M-LID3
DIGITAL
LOW IMPEDANCE
DIFFERENTIAL
PROTECTION RELAY
TYPE
M-LID3
dA>
dB>
dC>
dsv
BLOCK
INPUT
PROG/ REMOTE TIME
I.R.F.
TRIGGER SYNC.
+
-
MODE SELECT
LOW IMPEDANCE
BIASED DIFFERENTIAL
RELAY TYPE
PROG.
M-LID3
ENTER/RESET
21
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M-LIB3 Low Impedance Bus Differential Relay
6.1 GENERAL CHARACTERISTIC
Currents from the CTs of the Feeders connected to each protected zone are conveyed to a wiring bus
(one for each phase) that drives the positive and negative halfwave of the current on two different wires.
The wiring bus also carries the signal from the CT’s saturation detectors.
One M-LID3 differential relay is connected to the wiring bus of its protected zone and from the wiring bus of each
phase it can measure :
q
q
The bias current IR proportional to the arithmetic summation of all the incoming and outgoing currents of the
feeder connected to the protected busbar zone.
The differential current Id proportional to the vector summation of all the currents of the zone.
The CTs saturation detectors shunt the measurement of Id during saturation due to faults external to the protected
zone.
The Id measuring circuits are transformer isolated whereas the IR measuring circuits are optoisolated.
6.2 POWER SUPPLY
The auxiliary power is supplied by a fully isolated and self protected, built-in, interchangeable module.
Two options are available:
24V(-20%) / 110V(+15%) a.c.
24V(-20%) / 125V(+20%) d.c.
80V(-20%) / 220V(+15%) a.c.
90V(-20%) / 250V(+20%) d.c.
a) -
b) -
Before energizing the unit check that supply voltage is within the allowed limits.
6.3 MEASUREMENTS ACQUISITION AND OPERATION PRINCIPLE
For enhanced reliability the A/D converters and the signal measuring circuits are totally duplicated.
Furthermore all the signal-processing elements are duplicated.
It means that any step of operation takes place only if two elements produce the same output.
The basic detection elements are :
q
q
q
The CTs Circuit Supervision element which compares the actual differential current Id with the CTs Circuit
Supervision Level ISV
:
operation when Id> [ISV]
The zone differential current element which compares the actual differential current Id with the set minimum
pick-up level IdS :
operation when Id> [IdS]
The zone Biased Differential Current element which compares the actual differential current with the actual
trip level “IS” calculated in function of the zone through current IR and the bias coefficient R
operation when Id> ([IdS] + R · IR)
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S150-34-1
q
The signal from CT saturation detectors shunts the measurement for a time proportional to the saturation.
This strongly contributes to stability during through faults while maintaining high sensitivity to internal faults.
The operation logic in each phase is functionally explained in the following diagram.
ZONE
TRIP
Id1
Id1>[IdS] ENABLE
&
A/D
1
Id1>[ISV]
I
d>IS
Id1>IS
1IR
Id
XOR
&
IR
I
d>[IdS]
Id2
A/D
2
Id2>[IdS]
Id2>[ISV]
Id2>IS
ENABLE
2IR
RELAY
FAULT
trf
XOR
OR
OR
tsv
CTs
FAULT
Operation of the main zone relay takes place if the following conditions exist:
Id > [IdS]
Id > IS
IS = [IdS] + [R] · IR
Operation of the Circuit Breakers connected to each busbar zone takes place if the zone relay and the check
zone relay both operate.
6.4 OPERATION OF THE BIASED DIFFERENTIAL ELEMENTS
In each phase the relay measures the differential current existing in the busbar zone
summation of all the incoming and outgoing currents).
(vector
I =
Ii
å
d
When no fault inside the zone is experienced should be Id = 0.
Due to differences among the CTs and mostly to CT saturation when faults outside the zone make large
through current flow, the actual summation of the zone currents is not zero.
The larger is the through current the larger is the resultant Id.
The bias effect is than proportional to the through current
I =
Ii
å
R
The operation is based on the following programmable variables :
q
q
q
q
q
Minimum operation setting threshold
: IdS = (0.2-2)In
Per Unit bias coefficient in the area [1IR]<IR<[2IR] : 1R = (0.4-1) pu
Action starting point of 1R
: 1IR = (0.5-2)In
: 2R =(0.4-1) pu
: 2IR = (3-8)In
Per Unit bias coefficient in the area IR>[IR2]
Action starting point of 2R
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M-LIB3 Low Impedance Bus Differential Relay
To compensate the differential current produced by CT’s error or saturation, the actual minimum operation
level IS is dynamically adjusted in function of the actual through current IR according to the set coefficient [1R],
[2R]
Is/In
„
ƒ
D
Ids
[2R]
R=
DIds
‚
DI
R
DI
R
[1R]
DIds
•
[Ids/In]
IR/In
[1IR]
[2IR]
• IR < [1IR]
: IS = IdS
: IS = IdS + 1R(IR-[1IR])
: IS = IdS + 1R([2IR]-[1IR]) + 2R(IR-[2IR])
‚ [1IR] < IR < [2IR]
ƒ IR > [2IR]
„ BIAS SATURATION : IS = 10 In for any IR
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S150-34-1
6.5 CONTROLS AND MEASUREMENTS
Five key buttons allow for local management of all of the relay's functions.
An 8-digit high brightness alphanumerical display shows the relevant readings (xxxxxxxx)
(see synoptic table fig.1)
FIG.1
MODE
SELECT
ENTER
+
-
Actual measuremant values
Max. values measured
ACT MEAS
MAX VAL
MEASURES
Scanning of
the menus by
the key
Recording of last five events
N° of tripping for each function
LastTr-X
Measurements
display
TRIP NUM
“+” “-”
Display of setting
SETTINGS
SET DISP
Display of configuration of output relay
F
RELAY
®
Setting Program
display
Paramater scanning
by the key
(*)
PROGR
PROG
SELECT
SETTINGS
RELAY
Setting of parameters
Parameter modification
by the key “+” “-”
F
®
Configuration of output relays
Set Programming
Set validation
by the key ENTER
Test with operation of signals only
W/O TRIP
WithTRIP
TEST PRG
Test activation
Test with operation of signals and output relays
(*) Enabled only if input current is zero
Functional Test
by the key ENTER
(*)
Pressing this button
The + and - buttons are used to
select the actual measurement
or display desired when in
Measurements Display or
Settings
Display modes. When in
Program mode, these buttons
progressively selects between
Measurements Display,
Setting Display, Programming,
and Test modes
+
-
MODE SELECT
The SELECT button chooses
which category of values within
the chosen mode to display
When in Program mode, and
when all input currents are
zero, pressing this recessed
button places the relay into
active programming mode,
allowing any or all of the relay’s
settings to be altered.
PROG.
When in Program mode, this
button stores the newly
selected value. If not in
Program mode and the relay
has tripped, this button resets
the relay and all output
ENTER/RESET
contacts. If not tripped, this
25
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M-LIB3 Low Impedance Bus Differential Relay
6.6 SIGNALIZATIONS
Eight signal LEDs (normally off) are provided:
a
b
c
d
dB>
dA>
dvs
dC>
BLOCK
INPUT
REMOTE
TRIGGER
PROG/
I.R.F.
TIME
SYNC.
e
g
h
f
q
q
Flashing when IdA > [Ids].
Illuminated on tripping of the biased differential element : IdA > IS
dA>
dB>
dC>
dvs
a) Red LED
b) Red LED
c) Red LED
d) Red LED
e) Yellow LED
f) Red LED
g) Red LED
h) Yellow LED
q
q
Flashing when IdB > [Ids].
Illuminated on tripping of the biased differential element : IdB > IS
q
q
Flashing when IdC > [Ids].
Illuminated on tripping of the biased differential element : IdC > IS
q
q
Flashing during supervision time delay
Illuminated on tripping of the CT’s Supervision element.
PROG/
I.R.F.
q
Flashing during the programming of the parameters or in case of
Internal Relay Fault.
Remote
Trigger
q
q
q
Illuminated when the oscillography trigger input is activated
Illuminated when synchronization input is active
Flashing when digital input B1 is activated
Time
Sync.
BLOCK
INPUT
The reset of the LEDs takes place as follows
q
q
From flashing to off, automatically when the lit-on cause disappears.
From ON to OFF, by "ENTER/RESET" push button only if the tripping cause has disappeared.
In case of auxiliary power supply failure the status of the LEDs is recorded and reproduced when power supply
is restored.
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S150-34-1
6.7 OUTPUT RELAYS
Five output relays are available (R1, R2, R3, R4, R5)
q
The relays R1,R2,R3,R4 are normally de-energized (energized on trip): these output relays are user
programmable and any of they can be associated to any of the M-LID3's functions.
Any relay associated to of any function picks-up as soon as the measured input value gets into the
operation zone.
The reset after tripping of the relays (when tripping cause has been cleared) can be programmed as
Manual or Automatic (Variable FRes=Man/Aut).
FRes = Aut : Automatic Reset as soon as pick-up cause has been cleared.
FRes = Man : Reset by ENT/RESET KEY on relay’s front or via serial port
The relay R5, normally energized, is not programmable and is de-energized on:
¨ Internal fault.
q
¨ Power supply failure.
¨ During the programming.
6.8 SERIAL COMMUNICATION (Optional: see relevant instruction manual)
The relays fitted with the serial communication option can be connected via a cable bus or
(with proper adapters) a fiber optic bus for interfacing with a Personal Computer
Via the communication bus all settings and commands available from relay's keyboard can be operated from
the computer and vice versa all information available at relay's level can be received at computer's level. The
transmission standard is RS485 (converter 485/232 available) with ModBus/Jbus protocol.
Each relay is identified by its programmable address code (NodeAd) and can be called from the P.C. fitted
with a WINDOWS (95/98 or later) program driven by an application program supplied by Cooper Power
Systems or one developed by the user.
6.9 OSCILLOGRAPHY RECORDS
The relay continuously records in a buffer the samples of the three phase differential currents.
The buffer contains samples for approximately 16 periods.
Recording is stopped approximately 8 periods after a trigger signal is received and the content of the buffer is
stored into memory.
Therefore in the memory are stored the wave forms for 8 cycles before and 8 cycles after the trigger
occurs.
The trigger can be operated either internally on tripping of any function programmed IdS, IS, or externally by
activation of the REMOTE TRIGGER digital input.
Selection between the two modes is made by programming the variable TRG = EXT, IdS, IS,
The last two oscillography records are stored; a third record replaces the first of the two records.
6.10 DIGITAL INPUTS
Three inputs active when the relevant terminals are shorted are provided:
TS
BI
q
q
q
terminals
terminals
terminals
1 - 2
1 - 3
: For time synchronization
: For trip lock-out
RT
1 - 14
: External trigger for oscillography records
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M-LIB3 Low Impedance Bus Differential Relay
6.11 TEST
Besides the normal "WATCHDOG" and "POWERFAIL" functions, a comprehensive program of self-test and
self-diagnostic provides :
q
Diagnostic and functional test with checking of program routines and memory's content, run every time the
aux. power is switched-on: the display shows the type of relay and its version number and then switches
over to the default display.
q
q
Dynamic functional test is run during normal operation every 10 minutes.
Complete test activated by the keyboard or via the communication bus either with or without tripping of the
output relays.
6.12 KEYBOARD AND DISPLAY OPERATION
All controls can be operated from relay's front or via serial communication bus.
The keyboard includes five hand operable buttons (MODE) - (SELECT) - (+) - (-) - (ENTER/RESET)
plus one indirect operable key (PROG) (see synoptic table a fig.1):
+
MODE SELECT
-
PROG.
ENTER/RESET
when operated it enters one of the following operation modes
indicated on the display :
MODE
a) - White key
:
Reading of all the parameters measured and of those recorded
in the memory
Reading of the settings and of the configuration of the output
relays as programmed.
Access to the programming of the settings and of the
configuration of output relays
MEASURES
SET DISP
=
=
=
PROG
TEST PROG
= Access to the manual test routines.
When operated it selects one of the menus available in the
actual operation MODE
SELECT
b) - Green key
:
When operated they allow to scroll the different information
: available in the menu entered by the key SELECT and to
increase-decrease the settings.
“ + ” AND “ - “
c) - Red key
ENTER/RESET
d) - Yellow key
: It allows:
- the validation of the programmed setting
- the actuation of test programs
- the reset of the default display indication
- the reset of signal LEDs.
e) - Indirect key
: Enables access to the programming.
·
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S150-34-1
6.13 READING OF MEASUREMENTS AND RECORDED PARAMETERS
Enter the MODE "MEASURE", SELECT the menus "ACT.MEAS"-"MAX VAL"-"LASTTRIP"-
"TRIP NUM", scroll available information by key "+" or "-" .
6.13.1 ACT.MEAS
Actual values as measured during the normal operation. The values displayed are continuously updated.
Display
xxxxxxx
Description
Current date in the DDMMMYY format.
Current time in the HH:MM:SS format.
xx:xx:xx
dAxx.xxn
dBxx.xxn
dCxx.xxn
IR xx.xn
IS xx.xn
R.M.S. value of differential current of phase A : (0-99.99) per unit of rated phase input current
As above phase B
As above phase C
Through current (0-99.9) per unit of the rated input current
Actual calculated differential trip level
6.13.2 MAX VAL
Highest values recorded from Breaker closing, (updated any time the breaker closes).
Display
Description
Differential current of phase A : (0-99.99) per unit of rated phase input current
As above phase B
As above phase C
Through current (0-99.9) per unit of the rated input current
dAxx.xxn
dBxx.xxn
dCxx.xxn
IR xx.xn
6.13.3 LASTTRIP
Display of the function which caused the tripping of the relay plus values of the parameters at the
moment of tripping. The memory buffer is refreshed at each new relay tripping.
Display
LastTr-x
Description
Indication of the recorded event (x= 0 to 4)
Example: Last event (LastTr -0)
Last but one event (LastTr-1) etc...
xxxxxxx
xx:xx:xx
Current date in the DDMMMYY format.
Current time in the HH:MM:SS format.
Cau:xxxx Function which produced the event being displayed: dA>, dB>, dC>, Isv
dAxx.xxn
dBxx.xxn
dCxx.xxn
IR xx.xn
Differential current phase A
Differential current phase B
Differential current phase C
Through current (0-99.9) per unit of the rated input current
6.13.4 TRIP NUM
Counters of the number of operations for each of the relay’s function.
The memory is non-volatile and can be cancelled only with a secret procedure.
Display
Description
dA> xxxx
dB> xxxx
dC> xxxx
Isv xxxx
Differential element phase A
Differential element phase B
Differential element phase C
C.Ts. Circuit Supervision
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M-LIB3 Low Impedance Bus Differential Relay
6.14 READING OF PROGRAMMED SETTINGS AND RELAY'S CONFIGURATION
Enter the mode "SET DISP", select the menu "SETTINGS" or "F® RELAY", scroll information available in the
menu by keys "+" or "-".
SETTINGS= values of relay's operation parameters as programmed
F® RELAY= output relays associated to the different functions as programmed.
6.15 PROGRAMMING
The relay is supplied with the standard default programming used for factory test. [ Values here below reported
( ----- ) ].
All parameters can be modified as needed in the mode PROG and displayed in the mode SET DISP
Programming is enabled only if no input current is detected (main circuit breakers open).
As soon as programming is enabled, the LED PRG/IRF flashes and the reclosing lockout relay R5 is de-
energized. Enter MODE "PROG" and SELECT either "SETTINGS" for programming of parameters or
"F® RELAY" for programming of output relays configuration; enable programming by the indirect operation key
PROG.
The key SELECT now scrolls the available parameters. By the key (+) , (-) the displayed values can be
modified; to speed up parameter's variation press the key SELECT while "+" or "-" are pressed.
Press key "ENTER/RESET" to validate the set values.
6.15.1 PROGRAMMING OF FUNCTIONS SETTINGS
In 500 Ap
Ids is the
0.2 is the
In is the unit of
name
setting
measure,
Mode PROG menu SETTINGS. (Production standard settings here under shown).
Display
xxxxxxx
xx:xx:xx
Fn 50 Hz
Ids 0.2 In
trf 1 s
BI OFF
1R 0.5 pu
1IR 1 In
2R 1.0 pu
2IR 6 In
Isv 0.2 In
tsv 1 s
Description
Setting Range Step Units
Current date
Current time
System frequency
DDMMMYY
HH:MM:SS
50 - 60
0.2 – 2 – Dis
0.1 – 9.9
OFF – ON
0.4 – 1
0.5 – 2.0
0.4 – 1.00
3 – 8
0.1 – 1 - Dis
0.1 – 9.9
Ext - Ids
-
-
10
-
-
Hz
In
s
Basic minimum pick-up level of differential element
Trip time delay of the Relay’s Internal Fault Detector
Blocking Input enable
Bias coefficient in the zone [1IR] <IR < [2IR]
Action starting level for 1R
Bias coefficient in the zone IR > [2IR]
Action starting level for 2R
Minimum pick-up level of CT supervision element
Time delay of the C.T Supervision element
Trigger for oscillography records is Internal or External
(via digital input B3)
0.01
0.1
-
0.01
0.1
0.01
0.1
0.01
0.1
-
pu
In
pu
In
In
s
TRG: Ext
Tsyn Dis m
NodAd 1
-
-
-
-
-
Is – Isv
5-10-15
Synchronization time internal
30-60-Dis
Identification number for connection on serial
communication bus
1 - 250
1
The setting Dis indicates that the function is disabled.
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S150-34-1
6.15.2 PROGRAMMING THE CONFIGURATION OF OUTPUT RELAYS
d>
- 2 - 4
This is the name This dash means The number 2
of protective that output relay means that
number 1 is not output relay 2
This dash
means that
output relay relay 4 will operate
number 3 is not when this element
The number 4
means that output
assigned to this
will operate
assigned to this
element
Mode PROG menu F® RELAY (Production standard settings here under shown).
The key "+" operates as cursor; it moves through the numbers corresponding to the four programmable relays
in the sequence 1,2,3,4,(1= relay R1, etc.) and makes start flashing the information actually present in the
digit. The information present in the digit can be either the number of the relay (if this was already associated
to the function actually on programming) or a dot (-) if the relay was not yet addressed.
The key "-" changes the existing status from the dot to the relay number or vice versa.
After having programmed all four relays, press “ ENTER “ to validate the programmed
configuration.
Display
Description
Bias Differential element operates relay R1 eventually plus R2, R3, R4 as programmed
(one or more)
Is
1---
Ids
Isv
-2--
--3-
Un-biased differential element operates relay R2, R3, R4 as programmed
Time delayed CT supervision element operates relay R2, R3, R4 as programmed
Reset of output relays after tripping is:
FRes: Aut.
Aut. = Automatic Man. = Manually key Enter /Reset or via serial bus
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M-LIB3 Low Impedance Bus Differential Relay
6.16 MANUAL AND AUTOMATIC TEST OPERATION
6.16.1 Mode "TESTPROG" subprogram “W/O TRIP"
Operation of the yellow key activates a complete test of the electronics and the process routines.
All the LEDs are lit-on and the display shows (TEST RUN). If the test routine is successfully completed
the display switches-over to the default reading (dAxx.xxn). If an internal fault is detected, the display
shows the fault identification code and the relay R5 is de-energized. This test can be carried-out even
during the operation of the relay without affecting the relay tripping in case a fault takes place during
the test itself.
6.16.2 Mode "TESTPROG" subprogram "WithTRIP"
Access to this program is enabled only if the current detected is zero (breaker open).
Pressing the yellow key the display shows "TEST RUN?". A second operation of the yellow key starts a
complete test which also includes the activation of all the output relays. The display shows
(TEST RUN) with the same procedure as for the test with W/O TRIP. During the normal operation the
relay continuously operates an auto test procedure. If any internal fault is detected during the auto test,
the relay R5 is de-energized, the relevant led is activated and the fault code is displayed. If at the next
automatic test no internal fault is detected the display and R5 reset.
q
Further operation of key SELECT instead of the TEST programs gives the indication of the version and
production date of the firmware.
WARNING
Running the WithTRIP test will operate all of the output relays. Care must be taken to ensure that no
unexpected or harmful equipment operations will occur as a result of running this test.
It is generally recommended that this test be run only in a bench test environment or after all dangerous output
connections are removed.
6.17 MAINTENANCE
No maintenance is required. Periodically a functional check-out can be made with the test procedures
described under MANUAL TEST chapter. In case of malfunctioning please contact
Cooper Power Systems or the local Authorized Dealer mentioning the relay's Serial No reported in the label on
relays enclosure.
WARNING
In case of Internal Relay Fault detection, proceed as indicated :
q
If the error message displayed is one of the following “DSP Err”, “ALU Err” ,”KBD Err” ,”ADC Err”, switch off
power supply and switch-on again. If the message does not disappear send the relay to Cooper Power
Systems (or its local dealer) for repair.
q
q
q
If the error message displayed is “E2P Err”, try to program any parameter and then run “ W/OTRIP”.
If message disappear please check all the parameters.
If message remains send the relay to Cooper Power Systems (or its local dealer) for repair.
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S150-34-1
6.18 CLOCK AND CALENDAR
The unit features a built in clock calendar with Years, Months, Days, Hours, Minutes, Seconds, and
Tenths of seconds and Hundredths of seconds.
6.18.1 Clock synchronization.
The clock can be synchronized via a digital input (terminals 1 – 14) or the serial communication
interface. The following synchronization periods can be set: 5, 10, 15, 30, 60 minutes.
Synchronization can also be disabled, in which case the only way to modify the current date and time is
via the front panel keyboard (SETTINGS menu) or the serial communication interface.
In case synchronization is enabled, the unit expects to receive a sync signal at the beginning of every
hour and once every Tsyn minutes. When a sync signal is received, the clock is automatically set to the
nearest expected synchronization time.
For example: if Tsyn is 10min and a sync signal is received at 20:03:10 January the 10th, 98, then the
clock is set to 20:00:00 January the 10th, 1998.
On the other hand, if the same sync signal were received at 20:06:34, the clock would be set to
20:10:00, January the 10th 98.
Note that if a sync signal is received exactly in the middle of a Tsyn period, the clock is set to the
previous expected synchronization time.
6.18.2 Date and time setting.
When the PROG/SETTINGS menu is entered, the current date is displayed with one of the groups of
digits (YY, MMM or DD) blinking.
The DOWN key operates as a cursor. It moves through the groups of digits in the sequence
YY => MMM => DD => YY => …
The UP key allows the user to modify the currently blinking group of digits.
If the ENTER button is pressed the currently displayed date is captured.
On the other hand pressing the SELECT button leaves the current date unchanged and scrolls the
SETTINGS menu. Current time can now be modified using the same procedure described above. If
synchronization is enabled and the date (or time) is modified, the clock is stopped until a sync signal is
received (via digital input or the serial port). This allows the user to manually set many units and have
them to start their clocks in a synchronized fashion.
On the other hand if synchronization is disabled the clock is never stopped.
Note that the setting of a new time always clears 10ths and 100ths of sec.
6.18.3 Time resolution.
The clock has a 10ms resolution. This means that any event can be time-stamped with a 10ms
resolution, although the information concerning 10ths and 100ths of sec. can be accessed only via the
serial communication interface.
6.18.4 Operation during power off.
The unit has an on board Real Time Clock which maintains time information for at least 1 hour in case
of power supply failure.
6.18.5 Time tolerance.
During power on, time tolerance depends on the on board crystal (+/-50ppm typ, +/-100ppm max. over
full temperature range).
During power off, time tolerance depends on the RTC’s oscillator (+65 –270 ppm max over full
temperature range).
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M-LIB3 Low Impedance Bus Differential Relay
6.19 WIRNG DIAGRAM M-LID3 (SCE1579)
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S150-34-1
6.20 ELECTRICAL CHARACTERISTICS
q
q
q
q
REFERENCE STANDARDS
Dielectric test voltage
Impulse test voltage
Climatic tests
IEC 60255 - EN50263 - CE Directive - EN/IEC61000 - IEEE C37
IEC 60255-5
IEC 60255-5
IEC 68-2
2kV, 50/60Hz, 1 min.
5kV (c.m.), 2kV (d.m.) – 1,2/50ms
CE EMC Compatibility (EN50081-2 - EN50082-2 - EN50263)
q
q
Electromagnetic emission
EN55022
Radiated electromagnetic field immunity test
IEC61000-4-3
ENV50204
level 3
80-1000MHz
900MHz/200Hz
10V/m
10V/m
q
q
q
q
q
q
q
Conducted disturbances immunity test
Electrostatic discharge test
IEC61000-4-6
IEC61000-4-2
IEC61000-4-8
IEC61000-4-9
IEC61000-4-10
IEC61000-4-4
level 3
level 4
0.15-80MHz
10V/m
6kV contact / 8kV air
Power frequency magnetic test
Pulse magnetic field
1000A/m
50/60Hz
1000A/m, 8/20ms
Damped oscillatory magnetic field
Electrical fast transient/burst
100A/m, 0.1-1MHz
2kV, 5/50ns, 5kHz
400pps, 2,5kV (m.c.), 1kV (d.m.)
level 4
HF disturbance test with damped oscillatory wave (1MHz IEC60255-22-1 class 3
burst test)
q
q
q
q
Oscillatory waves (Ring waves)
Surge immunity test
IEC61000-4-12 level 4
4kV(c.m.), 2kV(d.m.)
2kV(c.m.), 1kV(d.m.)
200ms
IEC61000-4-5
IEC60255-4-11
level 4
Voltage interruptions
Resistance to vibration and shocks
IEC60255-21-1 - IEC60255-21-2 – 10-50Hz – 1g
CHARACTERISTICS
q
Accuracy at reference value of influencing factors
2% Rated Input for measure
2% +/- 10ms for times
q
q
Average power supply consumption
Output relays
8.5 VA
rating 5 A; Vn = 380 V
A.C. resistive switching = 1100W (380V max)
make = 30 A (peak) 0,5 sec.
break = 0.3 A, 110 Vcc,
L/R = 40 ms (100.000 op.)
q
q
q
Operation ambient temperature
Storage temperature
Humidity
-10°C / +55°C
-25°C / +70°C
93% Without Condensing
The performances and the characteristics reported in this manual are not binding and are subject to change without notice
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M-LIB3 Low Impedance Bus Differential Relay
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