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MV Distribution
Ring Main Unit
3 to 24 kV
RM6
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Field of application
The RM6 is a compact unit combining all MV functional units toenable connection, supply and protection of one or twotransformers on an open ring or radial network.ccccc by a fuse-switch combination, up to 2000 kVAccccc by a circuit breaker with self-powered protection unit, up to 3000 kVAThe switchgear and busbars are enclosed in a gas-tight housing, filled with SF6 andsealed for life.
The RM6 is the solution to meet
all medium voltage power distribution needs,up to 24 kV
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A complete range, enabling you to equip
medium voltage network points, and enhanceelectrical power dependabilityOperating a distribution network sometimes requires switching points in additionto the HV/MV substations, in order to limit the effect of a fault on the network.
The RM6 offers a choice of solutions to make 2, 3 or 4- directionalconnections.ccccc with line protection by 630A circuit breakersccccc with network switching by switch-disconnectorsccccc with integrated power to supply telecontrol devices
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Experience of a world leader
The choice for your peace of mindThe new RM6 generation benefits from the accumulated experience acquired fromthe 350 000 functional units that equip electrical networks in more than 50 countriesin Africa, America, Asia, Europe and Australasia.With 20 local production units around the world, Schneider offer products can bemade available to you in the shortest possible time.
Ring Main Unit, long experience:
1983 : market launch of the first RM6 compact with integral insulation1987 : creation of the circuit breaker version, with integrated protection unit needing
no auxiliary power supply.1990 : creation of the RM6 1 functional unit1994 : creation of the Network Point (PR), integrating the RM6 and telecontrol1998 : creation of the 630A line protection integrated relay circuit breaker and
launch of an RM6 range that is extensible on site.
Advantages of a proven design
RM6 switchgearcEnsures personal safety:v internal arc withstand in compliance with IEC 60298, annex AAv visible earthingv 3-position switchgear for natural interlockingv dependable position indicating devicescIs insensitive to the environment:v stainless steel tank, degree of protection IP67v disconnectable, sealed, metallized fuse chambers
cIs of approved quality:v conforms to national and international standardsv ISO 9001 certification for design and ISO 9002 certification for productionationv benefits from the experience accumulated from 350 000 functional units installedworld-wide.cRespects the environment:v end-of-life gas recovery possiblev ISO 14001 approved production sitecIs simple and rapid to install:v front cable connections at the same heightv easily fixed to the floor with 4 boltscIs economical:v from 1 to 4 functional units, integrated within the same metal enclosure for whichinsulation and breaking take place in SF6 gas.v lifetime of 30 yearscHas maintenance-free live parts:v in compliance with IEC 60298, annex GG, sealed pressure system.
Choosing RM6 offers you the experience of a world leader inthe field of Ring Main units.
1983 1987 1998
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A 630A circuit breaker, to increase the power
supply safety of your linesOne of the means by which a power distributor can improve service quality in thenetwork and lower installation costs, is to set up a two-level structure with a mainring distributing power to secondary rings connected to MV/LV transformers.The RM6 range 630A circuit breaker has been designed to provide the protection forthis intermediate level.With its system-powered protection unit, it detects a cable fault (either phase tophase or zero sequence) and instantly isolates it.The VIP 300 protection relay, which is in complete compliance with IEC 60255recommendations, offers a complete range of protection curves in order to adapt todifferent selectivity needs with the main protection upstream.
With this ring protection circuit breaker:c you benefit from our experience in system-powered protection systems and lowpressure breaking technologies.c you are provided with switchgear which, motorized either as a factory-built featureor as an on-site upgrade option without interrupting service, is designed to integrateperfectly into the telecontrol of up-to-date distribution networks.
Innovations
A new range that is extensible on-siteWhen harsh climatic conditions or environmental restrictions make it necessary touse compact switchgear, but the foreseeable evolution of the power distributionnetwork makes it necessary to provide for future changes, RM6 offers a range ofextensible switchgear.The addition of one or more functional units can be carried out by simply addingstand-alone modules that are connected to each other at busbar level by controlledfield bushings
This very simple operation can be carried out on-site:c without handling any gas,c without any special tooling,c without any particular preparation of the floor.
The only technical limitation to the evolution of an extensible RM6 switchboardis therefore that of keeping to the rated current of the busbar.
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Telecontrolof power distribution networks
Continuity of service guaranteed
by an overall telecontrol offerThe efficiency of a distribution network can begreatly improved by the use of telecontrol systems,which enable you to:
c achieve a noticeable decrease in outage time, due to monitoring and control ofnetwork equipment, thus improving service quality.c optimize network operation, due to monitoring in real time. The network can beoperated closer to its limits, in greater safety, and certain investments can bedeferred or optimized in complete safety.c reduce operating costs by simplifying and accelerating the search for faults andallowing much faster reconfiguration.
Schneider offers you a complete solution, including:c
the Milenium 8100 and 8200 range, MV network control systems,c the Talus 200 telecontrol interface,c MV switchgear that is adapted for telecontrol.
Milenium 8100
Milenium 8100 and Milenium 8200offer you definite advantages
A range of compatible solutions:c Milenium 8100 is an entry-level solutionc Milenium 8200 offers higher performance capabilities and functionsPowerful functions:c rapid identification of faults,c help with reconfiguring the network after an outage,c analysis of consumption and the network load status...As far as telecontrol is concerned, you benefit from:c an investment for the future, due to a secure upgrade path,
c the power of the operator interface (normally available only on much largersystems),c complete control of the maintenance of your system, due to the use of simple,powerful tools.
Thanks to the alyered structure
and the configurable display of
devices, you can have differentviews of your network.
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Local informations
Power supply
Split sensors
Polarized connectors
Monitoring and control
RM6 switchgear is perfectly adapted to the telecontrol context,thanks to options such as:c
integrated voltage transformer, for independent supply to auxiliariesc Talus 200 telecontrol interfacec electrical rating mechanismc auxiliary fault and position indication contactsc current sensors for fault detection
Position of the RM6
Talus 200: an interface designed
for telecontrol of MV networksTalus 200 is a plug and play and multifunction interface that integrates all thefunctional features necessary for remote supervision and control of the RM6c acquisition of the different types of information: switch position, fault detectors,current valuesc transmission of switch open/close orders,c exchanges with the control center.Required particularly during outages in the network, Talus 200 is of proven reliabilityand availability, being able to ensure switchgear operation at any moment.It is simple to set up and to operate
Functional unit designed for the Medium Voltage network:c Talus 200 is designed to be connected directly to the MV switchgear, withoutrequiring a special converter.c It has a simple front plate for local operation, which allows management of motormechanisms control (local/remote switch) and display of information concerningswitchgear status.c It has an integrated MV network fault current detection system (overcurrent andzero sequence) with detection set points that can be configured channel by channel(current value and fault current duration).
Medium Voltage switchgear operation guaranteec Talus 200 has undergone severe MV electrical stress withstand tests,c It is a backed up power supply which guarantees continuity of service for severalhours in case of loss of the auxiliary source, and supplies power to the Talus 200 andthe MV switchgear motor mechanisms.Ready to plugc Talus 200 is delivered with a kit that makes it easy to connect the motormechanisms and collect measurements.c The telecontrol cabinet connectors are polarized to avoid any errors duringinstallation or maintenance interventions.c Current measurement acquisition sensors are of the split type, to facilitate theirinstallation.
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Main characteristics
Description of RM6 switchgear
RM6 switchgear offers combinations of 1 to 4 integrated, low dimension functional units:This self-contained, totally insulated unit comprises:c a stainless steel, gas-tight metal enclosure, sealed for life, which groups togetherthe live parts, switch-disconnector, earthing switch, fuse switch combination or thecircuit breaker,c one to four cable compartments with interfaces for connection to the network or tothe transformer,c a low voltage compartment,c an operating mechanism compartment,c a fuse chamber compartment for fused switch-disconnectors or fuse switchcombination.
The performance characteristics obtained by the RM6 meet the definition of a"sealed pressure system" in compliance with IEC recommendations.The switch-disconnector and the earthing switch offer the operator all necessaryusage guarantees:
TightnessThe enclosure is filled with SF6 at a 0.2 bar gauge pressure.It is sealed for life after filling. Its tightness, which is systematically routine tested atthe factory, gives the switchgear an expected lifetime of 30 years.No maintenance oflive parts is necessary with the RM6 breakingSwitch-disconnectorElectrical arc extinction is obtained using the SF6 puffer technique.Circuit breakerElectrical arc extinction is obtained using the rotating arc technique plus SF6 auto-expansion, allowing breaking of all currents up to the short-circuit current.
Selection of functionsThe range offers the user a selection of non extensible RM6 combinations with 1, 2,
3 and 4 functional units.Adaptable to all requirements, this makes it possible to choose the transformerfeeder protection:c switch-disconnector combined with fuses,c or 200A circuit breaker.It also allows the protection of secondary MV rings using 630A circuit breakers.
Most of this switchgear exists in versions that are extensible on the right or onboth sides, in order to provide for future development of the network.
Designation of different switchgear
Example of designationRM6.NE-IQIRM6.RE-DIDI
function configuration
IQDBT
IQDB
I I
type of tankNE : non extensibleRE : extensible on the right
DE : module that is extensi-
ble on the right or the left
Network switch- Idisconnector
Transformer feeder fuse-
switch combination Q
Transformer feeder 200 A
circuit breaker D
Line feeder 630 A
circuit breaker B
200 A
630 A
Telecontrol power
supply transformer T
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Table of electrical characteristics
Standards
RM6 meets international standards:IEC: 60694, 60298, 60265, 60129, 60420, 60056, 60255.
Normal operating conditions for indoor switchgear in compliance withIEC 60694cambient air temperature: class, -25 indoorsv lower than or equal to 40C.v lower than or equal to 35C on average over 24 hours.v greater than or equal to - 25C.caltitudev lower than or equal to 1000 m,v above 1000 m, and up to 3000 m,with directed field connections.cBreaking capacityRM6 switch-disconnectors are "E3/M1 class switch-disconnectors" which are incompliance with IEC standard 60265, i.e.,:
v 100 CO cycles at rated current and 0.7 p.f.,v 1000 mechanical opening operations,200 and 630 A circuit breakers are designed to carry out,v 2000 mechanical opening operations, in conformity with IEC standard 60056,v 100 CO cycles at rated currentnal,v 5 CO cycles at short-circuit current.
Rated voltage (kV) 12/17.5 24
insulation level
industrial frequency 50 Hz 1 mn (kV rms) 28/38 50
impulse 1.2/50 s (kV peak) 75/95 125
Network-switch
rated current (A) (1) 630 630 400 630 630
breaking capacity (A) (1) Normal Load current 630 630 400 630 630
earth fault 95 95 95 95 95
off-load cable 30 30 30 30 30
short-time withstand current (kA rms) (2) 21 25(4) 16 16 20
making capacity of switch-disconne and 52.5 62.5(4) 40 40 50
earthing switches (kA peak)
Transformer feeder
rated current (A) 200 200 200 200 200
off-load transformer making capacity (A) 16 16 16 16 16
Fuse-switch
short-circuit breaking capacity (kA) (3) 21 25(4) 16 16 20
making capacity (kA peak) (3) 52.5 62.5(4) 40 40 50
Circuit breaker
short-circuit breaking capacity (kA) 21 16 16
making capacity (kA peak) 52.5 40 40
Line protection feeder
rated current (A) 630 630
short-circuit breaking capacity (kA) 21 16
making capacity (kA peak) 52.5 40
(1) in accordance with IEC guidelines, these characteristics are valid for
ambient temperatures of between -25C and +40C (class: -25C). Forhigher temperatures, the permissible current (in A) becomes:
Temperature 40C 45C 50C 55C
Indoor installation 400 400 400 355
630 575 515 460
(2) For 3 sec. thermal withstand, please consult us.
(3) Prospective value, the actual current being limited by the fuse
(4) Limited to 12 kV.
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Transformer protectionby 200 A circuit breaker
Description of the range
Non extensible switchgear
RE- IQI
Transformer protectionby fuse-switch combinations
NE- QI
RE- QIQIRE- IIQI
Extensible switchgear
NE- IQI NE- QIQINE- IIQI
DE -I
NE- D NE- IIDI NE- DIDI
RE- IDI RE- IIDI
NE- IDI
RE- DIDI DE -I DE- D
DE- Q
NE- DI
Non extensible switchgear
Extensible switchgear
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Network pointswith switch-disconnector
NE- IIINE- I NE- II NE- TIII avec TP intgrNE- IIII
Non extensible switchgear
Extensible switchgear
DE- IRE- III RE- IIII
Non extensible switchgear
Extensible switchgear
Network pointswith 630 A circuit breaker
NE- IIBI NE- BIBINE- IBI
RE- IBI RE- IIBI RE- BIBI DE- I DE- B
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Cable insulation testIn order to test cable insulation or look for faults, it is possible to inject a directcurrent of up to 42 kVdc for 15 minutes through the cables via the RM6, withoutdisconnecting the connecting devices.The earthing switch is closed and the moving earthing connection is opened in orderto inject the voltage via the "earthing covers". This system, a built-in feature of theRM6, requires the use of injection fingers (supplied as an option).
Operating safety
Voltage indicator lampsA device (supplied as an option) on all functional units makes it possible to check thepresence (or absence) of voltage in the cables.It is in conformity with IEC standard 61958.
Integral insulationcA metal enclosure made of stainless steel, which is unpainted and gas-tight(IP67), contains the live parts of the switchgear and the busbars;cThree sealed fuse chambers, which are disconnectable and metallized on theoutside, insulate the fuses from dust, humidity....;cMetallization of the fuse chambers and controlled field terminal connectorsconfines the electrical field in the solid insulation.Taken together, the above elements provide the RM6 with genuine total insulationwhich makes the switchgear completely insensitive to environmental conditions,dust, extreme humidity, temporary flooding.(IP67: immersion for 30 mn, in compliance with IEC standard 60529, 14.2.7).
Insensitivity to the environment
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Selection table
rated rating L O mass
voltage (A) (mm) (mm) (kg)(kV)
12 10 20 292 50.5 1.2
25 40 292 57 1.5
50 100 292 78.5 2.8
125 442 86 4.6
24 10 20 442 50.5 1.6
25 40 442 57 2.2
50 63 442 78.5 4.1
80 100 442 86 5.3
Fuse replacementIEC and UTE recommendations stipulate that when a fuse has blown, all threefuses must be replaced.
Transformer protection
Fuse dimensions
Using fuse-switches
Ratings for fuses for transformer protection depend, among other points, on thefollowing criteria:c service voltage,c transformer rating,c thermal dissipation of the fuses,c fuse technology (manufacturer),Two types of fuse may be installed:cSolefuse type: according to UTE NFC 64.210 standard, with striker,cFusarc CF type: according to DIN 43.625 dimensional standard, with striker.
Example (using the selection table below) general case, for protection of a 400 kVAtransformer at 10 kV, either Solfuse fuses with a rating of 63 A or Fusarc CF fuseswith a rating of 50 A are chosen.
For fuses of other manufacturers, please consult us.
(rating in A, no overload, - 25C < < 40C)
(*) please consult us
For all fuse ratings not included in the table, please consult us.Please consult us for overloads or operation over 40C.
fuse operating transformer rating (kVA) rated
type voltage 50 75 100 125 160 200 250 315 400 500 630 800 1000 1250 1600 2000 voltage
(kV) (kV)
UTE NFC standards: 13.100, 64.210
Solefuse
5.5 16 31.5 31.5 63 63 63 63 63 7.2
10 16 16 31.5 31.5 31.5 63 63 63 63 24
15 16 16 16 16 16 43 43 43 43 43 6320 16 16 16 16 16 16 43 43 43 43 43 63
general case, IEC 60282, 60420 standards and DIN 43.265 standard
Fusarc CF
3 20 31.5 40 50 50 63 80 100 125 160* 12
3,3 20 25 40 40 40 63 80 80 125 125 160*
4,2 20 25 25 40 50 50 63 80 80 100 125 160*
5,5 16 20 25 25 40 40 50 63 80 80 100 125 160*
6 16 20 25 25 31.5 40 50 50 63 80 100 125 160*
6,6 10 20 25 25 31.5 40 50 50 63 63 80 100 125 160*
10 10 10 16 20 25 25 31.5 40 50 50 63 80 100 125
11 10 10 16 20 20 25 25 40 40 50 50 63 80 100 125
13.8 10 10 10 16 16 20 25 31.5 40 40 50 50 63 100 24
15 10 10 10 10 16 20 25 31.5 31.5 40 50 50 63 80 100
20 10 10 10 10 16 16 20 25 25 31.5 40 40 63 63 80 100
22 10 10 10 10 10 16 16 20 25 31.5 40 40 50 63 80 100
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Using a 200 A circuit breaker
In contrast to fuses, the circuit breaker has no minimum breaking current, whichmeans that it is particularly well-adapted to transformer protection.
Protection systemThe protection system operates without an auxiliary power supply, and includes:c 3 transformers with integrated toroids on the transformer feeder bushingsc 1 VIP 30 or VIP 35 electronic relay,c 1 release,c 1 test connector to check whetherthe protection unit is operating correctly, using the VAP 6 unit.
VIP 30 and VIP 35 self-powered protection relaysVIP 30 and VIP 35 are self-powered relays, requiring no auxiliary power supply,which are fed by current sensors, activating a MITOP release.VIP30 protects against phase to phase faults.
VIP35 protects against phase to phase faults and earth faults.
Description:c the relays are assembled in a housing, and the front faces are protected by atransparent cover. The whole assembly has a degree of protection of IP54.c settings are made on the front, using rotary switches.c the phase operating current is adjusted directly according to the transformer ratingand the operating voltage..c the earth current set point is adjusted according to the network characteristics.
Phase protection:c phase protection is provided by an IDMT set point which operates as of 1.2 timesthe operating current (Is). VIP 30 and VIP 35 phase protections are identical.
Earth protection:c earth fault protection operates with measurement of the residual current carried outusing the sum of currents from the secondary windings of the sensors.c earth protection operates in definite time: both its set point and time delay areadjustable.
VIP 30 VIP 35
Rated protectioncurrent setting selection
The curve represent the relay intervention time, to which 70 ms must beadded to obtain the breaking time.
operating transformer rating (kVA) ratedvoltage 50 75 100 125 160 200 250 315 400 500 630 800 1000 1250 1600 2000 2500 3000 voltage
(kV) (kV)
3 10 15 20 25 36 45 55 68 80 140 140 170 200 12
3.3 10 15 18 22 28 36 45 56 70 90 140 140 200
4.2 8 12 15 18 22 28 36 45 56 70 90 140 140 200
5.5 8 12 15 18 22 28 36 46 55 68 90 140 140 200
6 10 12 18 20 25 36 46 55 68 80 140 140 200 200
6.6 10 12 15 18 22 28 36 45 56 70 90 140 140 200
10 8 10 12 15 20 25 30 37 55 68 80 140 140 170 200
11 10 12 15 18 22 28 36 45 55 68 90 140 140 170
13.8 8 10 12 15 18 22 28 36 46 55 68 90 140 140 24
15 8 10 15 18 20 25 36 45 55 68 80 140 140
20 8 10 15 20 25 30 37 45 55 68 80 140
22 8 10 12 15 18 22 28 36 45 55 68 80
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Line protection
The 630 A circuit breaker has been designed to protect medium voltage feeders asnear to the fault as possible. The protection unit is identical to that of the 200 Acircuit breaker, with a VIP300 relay adapted to network protection.
VIP300 self-powered protection relay:c VIP300 protects against phase to phase faults and earth faults. The choice oftripping curves, and the multiplicity of settings enable it to be used with a widevariety of discrimination plans.c VIP300 is a self-powered relay which obtains its power supply from currentsensors. It does not need an auxiliary power supply. It actuates a release.
DescriptionThe operating principle of the protection unit is the same as for the VIP30 and VIP35relays.
Phase protection:c phase protection has two independently adjustable set points:v either an IDMT or definite low set point can be selected. The IDMT curves are inconformity with the IEC 255-3 standard. They are of the inverse, very inverse andextremely inverse typev the high set point is a definite time one.
Earth protection:c earth fault protection operates with measurement of the residual current carried outusing the sum of the secondary currents of the sensorsc as with phase protection, earth protection has two independently adjustable setpoints.
Indicationc two indicators show the origin of tripping (phase or earth). They remain in positionafter the relay power supply is cut offc two LED indicators (phase and earth) indicate that the low set point has beenexceeded and its time delay is in progress.
Using a 630 A circuit breaker
VIP 300
with IDMT low set point with definite time low set point
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EI curve RI curve
IDMT tripping curvesc The curves in this chapter indicate the low set IDMT tripping times for time delaysettings t> (or to>).c The phase protection and earth protection curves are identical
SI curve VI curve
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Connection selection table
This information must be specified for betterdefinition of the connection interfaces
Cable:c specified voltage:v of the cable,v of the network,c type of conductor:v aluminium,v copper,c cross section in mm2
c insulation diameterc cable composition:v single-core,v 3-core,c insulation type:v dry,
v paper impregnated (non-draining type)c type of screenc armature
How to define the connection interfacec The connection interfaces depend on specific criteria, such as:
Installationc current rating of the connected equipment: 200, 400, 630 Ac short-time withstand current for 12.5 kA, 16 kA, 25 kA switch and circuit breakerfunctionsc for the fuse-switch combination function, as the short-circuit current is limited bythe fuse, the connection interface will be of type A (200 A)c minimum phase expansion lengthc connector typev plug-in: multicontact ringv disconnectable: boltedc output position: straight, elbow
Types of connection interface
Standard cable compartment equipmentc a closing front plate,c cable clamping,c cable grounding connections.
c The profiles, contacts and dimensions of the RM6 connection interfaces are
defined by the PR EN50181 and HN 52.S 61 standards.c 100% of the epoxy resin interfaces undergo dielectric testing at power frequencyand partial discharge tests.
General
The bushings carry the electrical current from the outside to the inside of theenclosure, which is filled with SF6 gas, ensuring insulation between the liveconductors and the frame.There are 3 types of bushing, which are defined by their short-time withstandcurrent:type A: 200 A: 12.5 kA 1 s and 31.5 kA peak (plug-in)type B: 400 A: 16 kA 1 s and 40 kA peak (plug-in)type C: 630 A: 25 kA 1 s and 62.5 kA peak (disconnectable M16)
Optionsv panel with hood for display of liquid type overcurrent indicators installed aroundthe cables,v panel for connectors with surge arrestor,v interlocking which prevent access to the connection compartment when the
earthing switch is open,v interlocking which prevent closing of the switch or circuit breaker when theconnection compartment panel is open,v bottom plate for single-core or 3-core cables (mandatory for non-directed fieldconnections),v cable compartment internal arc withstand up to 16 kA 1s.
Appropriateness for use
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For network switch-disconnectors
Dry single-core cableType B bushing - 400 A , limited to 16 kA/1sControlled field plug-in connector
Dry single-and 3 core cableType C bushing - 630 ANon-controlled field disconnectable connector
For network switch-disconnectorsand line protection circuit breakers
Dry single-core cableType C bushing - 630 AControlled field disconnectable connector
performance connection supplier reference cross-section remarks
7.2 to 17.5 kV plug-in Elastimold 400 LR 70 to 240 Limited to Us = 10 kV
400 A-95 kV peak K400LR 35 to 240
Pirelli FMCE 400 70 to 300
F&G ASW10/400 25 to 240
24 kV plug-in Elastimold K400LR 35 to 240
400 A-125 kV peak Pirelli FMCE 400 70 to 300
performance connection supplier reference cross-section remarks
7.2 to 17.5 kV disconnectable Elastimold 400 TB 70 to 240 Limited to Us = 10 kV
400 A-95 kV peak K400LR 35 to 240
Pirelli FMCTs 400 70 to 300 with metallic screen, consult us
24 kV disconnectable Elastimold K400TB 35 to 240
400 A-125 kV peak Pirelli FMCE 400 70 to 300 with metallic screen, consult us
performance connection supplier reference cross-section remarks
7.2 to 17.5 kV heat shrinkable Raychem EPKT+EAKT 16 to 300
630 A-95 kV peak Sigmaform Q-CAP 16 to 300
insulating boots Kabeldon KAP300 25 to 300
Pirelli ELPB12 50 to 300 limited to 75 kV impulse
simplified disconnectable Raychem RICS - EPKT 25 to 300
Elastimold SV412C 50 to 300 limited to Us = 10 kV
24 kV simplified disconnectable Raychem RICS - EPKT 25 to 300
630 A-125 kV peak
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For network switch-disconnectors
and line protection circuit breakersSingle core cable, paper impregnated, non-drainingtypeType C bushing - 630 ANon-controlled field disconnectable connector
Three core cable, paper impregnated, non-drainingtypeType C bushing - 630 ANon-controlled field disconnectable connector
Single core dry cable and lightning arrestorType C bushing - 630 ADisconnectable connector
performance connection supplier reference cross-section remarks
7.2 to 17.5 kV disconnectable Pirelli FMCp400 95 to 300
630 A-95 kV peak insulating boots Kabeldon KAP300 25 to 300
Pirelli ELPB12 50 to 300 limited to 75 kV impulse
simplified disconnectable Raychem RICS - EPKT 25 to 300
heat shrinkable Raychem EPKT+EAKT 16 to 300
24 kV disconnectable Pirelli FMCp 1c 95 to 300
630 A-125 kV peak simplified disconnectable Raychem RICS - EPKT 25 to 300
performance connection supplier reference cross-section remarks
7.2 to 17.5 kV insulating boots Kabeldon KAP300 25 to 300
630 A-95 kV peak Pirelli ELPB12 50 to 300 limited to 75 kV impulse
simplified disconnectable Raychem RICS - EPKT 25 to 300
heat shrinkable Raychem EPKT+EAKT 16 to 300
24 kV simplified disconnectable Raychem RICS - EPKT 25 to 300
630 A-125 kV peak
performance connection supplier reference cross-section remarks
7.2 to 17.5 kV disconnectable Raychem RICS+EPKT 25 to 300
630 A-95 kV peak RDA 12 or 18
disconnectable Elastimold K400TB+ 35 to 300 deeper paneld
K400RTPA+
K158SA
24 kV disconnectable Raychem RICS+EPKT 25 to 300
630 A-125 kV peak RDA 24
disconnectable Elastimold K400TB+ 35 to 300 deeper paneld
K400RTPA+
K158SA
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For transformer protection
by fuse-switch combinationDry single-core cableType A bushing - limited to 12.5 kA 1sControlled field plug-in connector
Dry single-core cableType C bushing - Isc 21 kA/1sControlled field disconnectable connector
Dry single-core cable
Type C bushing - Isc 21 kA/1sNon-controlled field disconnectable connect
performance connection supplier reference cross-section remarks
7.2 to 17.5 kV plug-in Elastimold 400 LR 70 to 240 limited to Us = 10 kV
200 A-95 kV peak K400LR 35 to 240
type B bushing Pirelli FMCE 400 70 to 300 limited to 400 A-12.5 kA/1s
24 kV plug-in Elastimold 400 LR 70 to 240 limited to Us = 10 kV
200 A-95 kV peak K400LR 35 to 240
type B bushing Pirelli FMCE 400 70 to 300 limited to 400 A-12.5 kA/1s
7.2 to 17.5 kV plug-in Elastimold 158LR 16 to 120 limited to Us = 10 kV
200 A-95 kV peak K158LR 25 to 95
type A bushing Pirelli FMCE 250 16 to 120
24 kV plug-in Elastimold 158LR 16 to 120
200 A-125 kV peak K158LR 25 to 95
type A bushing Pirelli FMCE 250 16 to 120
performance connection supplier reference cross-section remarks
7.2 to 17.5 kV disconnectable Elastimold 400TB 70 to 240 limited to Us = 10 kV
200 A-125 kV peak K400TB 35 to 240
Icc > 16 kA Pirelli FMCTs 400 70 to 300 without metallic screen
performance raccordement fournisseur reference section remarks
7.2 to 17.5 kV heat shrinkable Raychem EPKT+EAKT 16 to 300
200 A-125 kV paek Sigmaform Q-CAP 16 to 300
insulating boots Kabeldon KAP300 25 to 300
Pirelli ELPB12 50 to 300 limited to 75 kV impuls
simplified disconnectable Raychem RICS - EPKT 25 to 300
Elastimold SV412C 50 to 300 limited to 75 kV impuls
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For transformer protection
by fuse-switch combinationSingle-core cableType A bushing - limited to 12.5 kA 1sControlled field plug-in connector
Dry single-and 3 core cableType A profile bushing and M8 insert - 200 ANon-controlled field disconnectable connector
performance connection supplier reference cross-section remarks
7.2 to 17.5 kV plug-in Elastimold 158 LR 16 to 120 limited to Us = 10 kV
200 A-95 kV peak K158LR 25 to 95
(right) 151SR 16 to 120 limited to Us = 10 kV
K151SR 25 to 95
Pirelli FMCE 250 16 to 95
24 kV plug-in Elastimold K158LR 16 to 95
200 A-125 kV peak (right) K151SR 25 to 95
Pirelli FMCE 250 16 to 95
performance connection supplier reference cross-section remarks
7.2 to 17.5 kV heat shrinkable Raychem EPKT+EAKT 16 to 300
200 A-95 kV peak insulating boots Kabeldon KAP70 70 max.
(*) 520 mm plinth must be used
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Phase concordance unitThis unit is used to check phase concordance.It can be connected to any voltage indicator lamp device.
Protection relay testc the portable VAP6 unit is connected to the circuit breaker protection relayv injecting an electrical stimulus, two pushbuttons are used to check that the short-circuit and zero sequence fault current protection devices are operatingv an extra pushbutton may be provided to inhibit tripping of the circuit breaker.
Short-circuit indicatorEach switch can be fitted with an Alpha type short-circuit indicator (Hortsmann).
If an RM6 is operated remotely, this function is integrated into the Talus 200telecontrol interface.
Accessories(supplied as an option)
Voltage indicator lamp
There is a voltage indicator device on network switches, circuit breakers and fuse-switch combinations, which makes it possible to check whether cables are lined or not.Two devices are offered:c Voltage Indication System (VIS) IEC 61958: a unit comprising three integratedlamps,c Voltage Detection System (VDS) IEC 61234-5: a unit with sockets for plugging inindividual lamps.Power is supplied to these lamps by capacitor dividers incorporated inside thebushings.
Installation, maintenance
Local operation
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Motor mechanismSwitch operating mechanism:c the switch operating mechanism includes a space that is reserved for theinstallation of a geared motor. This can be installed at the factory, but it can also beinstalled on-site, by the customer, without de-energizing the unit, and withoutdismantling the operating mechanismc an electrical interlocking assembly prevents any false operations.Once motorized, the RM6 integrates perfectly into a telecontrol system
Circuit breaker operating mechanism:c circuit breaker protection functional units can be equipped with a geared motor.This can be installed at the factory, but it can also be installed on-site, by thecustomer, without de-energizing the unit, and without dismantling the operatingmechanismc electrical locking prevents any false operations, with, as an option, closing after anunacknowledged fault. Once motorized, the RM6 integrates perfectly into atelecontrol system.This option becomes particularly useful in the context of the protection of asecondary ring, with supervision by a telecontrol system.
Auxiliary contacts
Each switch or circuit breaker can be fitted with 4 auxiliary contacts with the followingpositions: 2 N/O and 2 N/F.Each earthing switch can be fitted with 1 position auxiliary contact (opening/closing).Each circuit breaker can be fitted with 1 fault indication auxiliary contact.Each fuse-switch combination can be fitted with 1 blown fuse indication auxiliarycontact.
Opening releaseEach circuit breaker or fuse-switch combination can be fitted with a switch-onopening release.
Telecontrol
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RM6/ transformer /low voltagec Prevents closing of the earthing switch and access to any protection unit fusesunless the main LV circuit breaker has been locked in the "open" or "disconnected"position.c Prevents access to the transformer unless the earthing switch has already been"closed".
Type R7 diagram
Type R6 diagram
Type R8 diagram
On transformer feedersRM6/transformerc Prevents access to the transformer unless the earthing switch has been locked inthe "closed" position.
RM6/low voltagec Prevents closing of the earthing switch and access to any protection unit fuses
unless the main LV circuit breaker has been locked in the "open" or "disconnected"position.
Key locksc The markings (O, S, and X) are engraved on the keys and the locks. They are
given here only as an aid to understanding of the diagrams.
Type R2 diagram
Type R1 diagram
On network switches or 630 A circuit breaker feederSemi-crossed interlockingc Prevents the closing of the earthing switch of the downstream switchgear unlessthe upstream switchgear is locked in the "open" position.
Crossed interlockingc Prevents closing of the earthing switches unless the upstream and downstreamswitchgear is locked in the "open" position.
Legend:key absent
key free
key captive
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Dimensions of 3 and 4 function RM6 REsthat are extensible on the right
RM6 4 functional units RM6 3 functional units
RM6 2functional units
RM6 3 functional units
RM6 1 switchfunctional unit
RM6 1 functional unitswitch or circuit breaker
RM6 1 circuit breakeror fuse-switch combinationfunctional unit
With two bushing protection covers for extensibility.
Dimensions and installation
Dimensions of non-extensible RM6s
RM6 4 functional units
Dimensions of stand-alone RM6 modulesthat are extensible on both sides
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Floor mountingThe RM6 is supported by 2 metal feet with holes for fixing:c on a flat floor fitted with trenches, passages or ducts,c on concrete footings,c on studs,c on metal rails,c etc.
Layout
Wall mountingThere are two holes allowing the unit to be mounted on the wall as well as the floor.
Additional raising plinthAs an option, the RM6 can be fitted with a 260 or 520 mm raising plinth.This feature, which simplifies civil engineering works, results in trenches of a smallerdepth, or even in their complete elimination when the bending radius of the cablesallows it.The plinth is fixed directly on the floor.
Dimensions of RM6 REs with an extension
modulec RM6 RE 3 functionalunits with switch DE module: A = 1738 mmc RM6 RE 4 functional unitswith switch DE module: A = 2171 mmc RM6 RE 3 functional unitswith circuit breaker DE module: A = 1838 mmc RM6 RE 4 functional unitswith circuit breaker DE module: A = 2271 mm
RM6 4 functional units RM6 3 functional units RM6 2 functional RM6 1 functional
RM6 3 functional units with F = 1779 mm
switch G = 1652 mm
RM6 3 functional units with F = 1879 mm
fuse-switch combination or circuit breaker G = 1752 mm
RM6 4 functional units with F = 2212 mm
switch G = 2085 mm
RM6 4 functional units with F = 2312 mm
fuse-switch combination or circuit breaker G = 2185 mm
non-extensible RM6
extensible RM6
(*) dimensions necessary on the right ofthe RM6 in order to install an extension
RM6 3 or 4 functional units with extensibility module
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Civil engineering
For "transformer"connectionvia fuse-switch
The "network" cables can be run either:c through trenches, passages, ducts,c through the left or the right side.
Trench depth P for RM6 without plinthNB. Trench depths can be reduced and sometimes eliminated by addinga plinth.
The cross-sections of "transformer" cables are
generally smaller than those of the "network" cables.All the cables are then run through the same space.When straight MV connectors are used, the depth Pindicated below can be greater than that of the"network" cables.
Cable entry through a trench Cable entry through a ducts
(1)
For connection to
"network" or "transformer"via circuit breaker
cable insulation cable cross-section bending plug in disconnectable plug in disconnectable
(mm2) radius P P P P
dry insulation single i 150 500 400 400
185 to 300 600 520 520
three i 150 550 660 660
185 650 770 770
paper single i 150 500 580 580
impregnated 185 to 300 675 800 800
draining type three i 95 635 750 750
150 to 300 835 970 970
cable insulation cable cross-section bending plug in plug in disconnectable
(mm2) radius elbow connector straight connector
dry insulation single 16 to 35 335 100 520 335
50 to 70 400 100 520 400
95 to 120 440 100 550 440
three 35 435 100 520 725
50 to 70 500 100 520 80095 545 100 550 860
(1) leave a clearance of 100 mm
(2) 520 plinth must be usedi
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RM6, a world-wide product
Asia / Middle Eastc BSED, Bahreinc DEWA, Dubaic WED, Abu Dhabic Tianjin Taifeng Industrial park, Chinac TNB, Malaysiac China Steel Corporation, Taiwanc TPC, Taiwanc SCECO, Saudi Arabia
Africac Electricit de Mayottec EDF, Reunionc Total, Libyac SONEL, Cameroon
South America / Pacificc CELESC, Santa Catarina, Brazilc PETROBRAS, Rio de Janeiro, Brazilc Guaruhlos International Airport,Sao Paulo, Brazilc CEMIG, Minas Gerais, Brazil
c EDF, French Guianac Tahiti Electricityc Mtro de Mexico, Mexico
Europec EDF, Francec Channel tunnel, Francec Iberdola, Spainc Compagnie Vaudoise delectricit,SEIC, Switzerlandc Electrabel, Belgiumc FECSA, Spainc ENHER, Spain,c Oslo Energie, Norwayc Warsaw authority, Polandc Bayernwerke, Germany
Oceaniac Eau et Electricit de Caldonie,New Caledoniac Enercal, New Caledoniac United Energy, Australia
Main references
A leaders references
AustraliaSpain
SwedenNorway
Russia
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Rigorous, systematic checksDuring the manufacture of each RM6, it undergoes systematic routine tests, theaim of which is to check quality and conformity:c tightness checkc filling pressure checkc
opening and closing speed measurementc operating torque measurementc partial discharge checkc dielectric checkc conformity with drawings and diagrams.The quality control department records and signs the results obtained on the testcertificate for each device.
A major assetMerlin Gerin has integrated a functional organization into each of its units, the mainpurpose of which is to check quality and ensure the adherence to standards.This procedure is:c the same throughout the different departments,c recognized by numerous approved customers and organizations.Above all, it is our strict application of this functional organization that has enabled usto obtain the recognition of an independent organization, the French Association forQuality Assurance (Association Franaise pour lAssurance Qualit, or (AFAQ).The RM6 design and production quality system has been certified as being inconformity with the requirements of the ISO 9001 and ISO 9002 qualityassurance model.
Quality Assurance
Certified quality: ISO 9001
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Within the framework of the groups environmental policy, Schneider services hasmade an operational procedure available, enabling medium voltage switchgear to beprocessed while eliminating the release of emissions into the atmosphere.To help you to protect the environment, and to take care of your storage ordisassembly concerns, Schneider services is offering to recover any of your
equipment that is reaching the end of its service life.
The RM6 has been designed with environmental protection in mind:c the insulating and conducting materials that are used are identified, easy-to-separate, and recyclable,c SF6 can be recovered at the end-of-life, and re-used after treatment.
The Schneider recycling
procedure for SF6 based
products is subject to rigorous
management, and allows each
device to be traced through to
its final destruction
documentation.
The Schneider recycling
procedure
Preserving the environment
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Preparation of quotation
Customer: ....................................................................................................................
Address: .......................................................................................................................
.....................................................................................................................................
.....................................................................................................................................
.....................................................................................................................................
Project reference: .........................................................................................................
Destination country: .....................................................................................................
Contact name: ...............................................................
Tel: ................................................................................
Fax: ...............................................................................E-Mail: ...........................................................................
Delivery time: ................................................................
Incoterm: .......................................................................
Network characteristics
Project identification
Rated voltage: kV
Power frequency withstand voltage (50 Hz): kV 1 mn
Impulse withstand voltage 1.2/50 ms: kV peak
Earthing system type :
Maximum earth fault value: A
Frequency: Hz
Short-term withstand current: kA 1 s
Fault making capacity: kA peak
Cubicle characteristicsFixed or removable voltage indicator None Fixed Removable
Height of point of connection I, D Standard (703 mm) Yes No
Intermediate (963 mm) Yes No
Raised (1223 mm) Yes No
Cable compartment access type Bolted Yes No
Interlocking with earthing switch Yes No
Interlock. with earth. sw. & sw/CB Yes No
Operating mechanism protection Standard IP3X Yes No
Hooded IP54 (for dusty environment) Yes No
Transformer protection type Fusarc CF fuse Yes No
VIP30 relay Yes No
VIP35 relay Yes No
VIP300 relay Yes No
Functional unit characteristicsUF 4 UF 3 UF 2 UF 1 remarks
Configuration see pages 12 to 15
Liquid type overcurrent indicator
Alpha type overcurrent indicator
Cable compartment 16 kA 1s internal arc Incompatible with Isc liquid type
Surge arrestors on cable incomers Incompatible with IA withstand
Cable type: single-core/ 3 core
Cable cross-section
Insulation type: impregnated paper/dry
Conductor type: Copper/Aluminium
Insulation diameter
Motor mechanism and position contact No motor mechanism with Q function
Position indication contact
Fault indication contact Only on feeder Q, D and B
Fault closing lockout contact Only on feeder D and B
Tripping coil Only on feeder Q, D and B
Key locking see page 23
AccessoriesDescription Type Quantity
Operating leverInstallation and use manual French: English:
Phase concordance unit
VAP 6 protection relay test unit
Set of 3 Fusarc CF fuses Rating: A
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Selection table
c standard
v option
I Q D B QI DI II IQI IIQI QIQI IDI IIDI DIDI III IIII TIII IBI IIBI BIBI
IP3X c c c c c c c c c c c c c c c c c c c
IP54 v v v v v v v v v v v
non extensible NE NE NE NE NE NE NE NE NE NE NE NE NE NE NE NE NEextensible on the right RE RE RE RE RE RE RE RE RE RE RE
double extension module DE DE DE DE
characteristics
busbar rating 200 A c c c
NE and RE range 400 A c c c c c c c c c c c
630 A c c c c c c c c c c c c c c c
rated current 200 A c c
DE extension module 400 A c
630 A c c
basic equipment
3-position switch-disconnector c c c c c c c c c c c c c c c c c
3-position 200 A disconnector-CB c c c c c
3-position 630 A disconnector-CB c c c c
integrated transformer (telecontrol) c
stainless steel tank (internal arc up to 20 kA 1s) c c c c c c c c c c c c c c c c c c c
fuse chambers (downstream earthing switch) c c c c c
cable compartments c c c c c c c c c c c c c c c c c c c
main earth collectoral c c c c c c c c c c c c c c c c c c c
cable clamping c c c c c c c c c c c c c c c c c c
operating lever c c c c c c c c c c c c c c c c c c c
VIP 30 or 35 relay with toroid c c c c c
VIP 300 relay with toroid v c v v v v c c c
local operation
O/C/earthed position indicators c c c c c c c c c c c c c c c c c c c
visible closing of earthing switch (C) c c c c c c c c c c c c c c c c c c c
voltage detection system VDS v v v v v v v v v v v v v v v v v v v
voltage indication system VIS v v v v v v v v v v v v v v v v v v v
telecontrol
switch motor mechanism (O/C) v v v v v v v v v v v v v v v v
circuit breaker motor mechanism (C) v v v v v v v v v
switch-on opening release v v v v v v v v v v v v v v
switch position (2O + 2C) v v v v v v v v v v v v v v v v v
circuit breaker position (2O + 2C) v v v v v v v v v
earthing switch position (1OC) v v v v v v v v v v v v v v v v v v v
fault indication (1OC) v v v v v v v v v
blown fuse indication (1OC) v v v v v
fault closing lockout v v v v v v v v v
tests and checks
integrated cable test system c c c c c c c c c c c c c c c c c c
phase concordance unit v v v v v v v v v v v v v v v v v v
VAP6 relay test v v v v v v v v v
cable test voltage injection fingers v v v v v v v v v v v v v v v v v v
accessories
Alpha type Isc indicator v v v v v v v v v v v v v v v
equipment for Isc liquid type indicator v v v v v v v v v v v v v v v
key locking v v v v v v v v v v v v v v v v v v v
cable compart./earthing switch interlocking v v v v v v v v v v v v v v v v v v
cable compart./earth. sw./sw. Interlocking v v v v v v v v v v v v v v v v v v
cable compart./earth. sw./CB interlocking v v v v v v v v v
equipment for lightning arrestor v v v v v v v v v v v v v v v
cable compartment internal arc withstandv v v v v v v v v v v v v v v v v v
260 mm raising plinth v v v v v v v v v v v v v v v v v v v
520 mm raising plinth v v v v v v v v v v v v v v v v v v v
fuses v v v v v
single/ three core cable box bottom plate v v v v v v v v v v v v v v v v v v
cable test voltage injection fingers v v v v v v v v v v v v v v v v v v
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printed on ecological paperSchneider Electric SA DPMT
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As standards, specifications and designs change from time to
time, please ask for confirmation of the information given inthis publication.