sepam - hv/mv protection and control units (eng) 10 commissioning 11 ordering information 12 sepam...

2

presentation

(1)MITOP: Merlin Gerin circuit breakers may beequipped with this type of trip unit upon request.

contents page

presentation 2

protection 4

functional and connection 6schemes

other connection schemes 7

connection 8

characteristics 9

installation 10

commissioning 11

ordering information 12

Sepam 100 is a group of modules that maybe used: individually to perform a function, in combination with Sepam 1000or Sepam 2000.

Each module has been designed to performa complete function. It includes all theelements required, such as: sensor interface, tripping output relays, annunciation, settings, connections.

applicationSepam 100 LA is used as the mainprotection system in substations which donot have an auxiliary power supply source.

Combined with a Sepam 1000 orSepam 2000, it provides back-up protectionfor the substation incomers.This protection goes into effect when themain protection chain fails due to: power supply fault, wiring fault, trip unit fault, shutdown of Sepam 1000 orSepam 2000.

advantages protection against low-value phase andearth faults, self-powering: Sepam 100 LA is poweredby the current sensors, may be put in disabled status (inactiveoutput) via an external inhibition contact, tripping by a low power-consuming«MITOP» trip unit (1). high level of immunity to electromagneticdisturbances.

Sepam 100 LA.

3

descriptionThe front face of Sepam 100 LA containsthe instruments needed for the phase andearth protection settings.

Each set of microswitches, marked K1, K2,K3 and K4 and associated potentiometerP1, P2, P3, P4 should be positionedaccording to the desired setting.

P2

1 0

1 0 12

10

8

6

3

2

1

CT 5A

CT 1A

sepam 100S01 LA

13501100850600350100

(ms)t

1 0--0,80,40,20,12

--0,40,20,10,06

CT5A CT1AK3

Io> )K4

N

Io>In = K3 x P3

1 0

1 0

13501100850600350100

1 0605448423630

I> I>In

K1 x P1N=

P4

P3

(ms)tK2

P1

9,68,47,26

CT5A CT1AK1

1210,8

)

x1 x1,3

x1 x2

0 +250 ms

0 +250 ms

Front face displaying the setting instruments.

Potentiometer turned fullyto left = minimum setting,to right = maximum setting.

The microswitch is fitted with apotentiometer that the user turns to adjustthe setting.

microswitch set to 0.

K1 0

microswitch set to 1.

K1 0

setting increases aspotentiometer is turnedto right

Setting example:

CT = 100/5, K1 = 12, P1 = 1.2 and N = 3.

using the formula: I> = 12 x 1.2

I>In

= 4.8, I> = 480A primary3In

4

protection

phase protectionsetting range set point time delay

2.5 to 78 In on 1A CT 100 to 1600 ms

0.5 to 15 In on 5A CT 100 to 1600 ms

accuracy ± 5% ± 10%

Wiring of turns on the interposing ring CT(e.g. 3 turns).

Sepam 100 LA provides 2 sorts ofprotection: phase overcurrent (ANSI 50/51):protection of equipment against phase-to-phase faults (2- or 3-phase), earth fault (ANSI 50N/51N):protection of equipment against earth faultsin directly earthed or impedance earthednetworks.

This sort of protection is appropriate forcurrent transformers: 1 A secondary (CT 1 A), 5 A secondary (CT 5 A).

Setting includes: making a number of turns around theinterposing ring CT primary, positioning microswitches K1 (1), fine tuning using the potentiometer:min to max.

Phase current setting (multiple of In)

TC 1A position of K1 in front face (1)

1 2 3 4 5 6number position of P1 potentiometer

of turns min max min max min max min max min max min max

1 30 39 36 46.8 42 54.6 48 62.4 54 70.2 60 78

2 15 19.5 18 23.4 21 27.3 24 31.2 27 35.1 30 39

3 10 13 12 15.6 14 18.2 16 20.8 18 23.4 20 26

6 5 6.5 6 7.8 7 9.1 8 10.4 9 11.7 10 13

8 3.75 4.87 4.5 5.85 5.25 6.82 6 7.8 6.75 8.77 7.5 9.75

10 3 3.9 3.6 4.68 4.2 5.46 4.8 6.24 5.4 7.02 6 7.8

12 2.5 3.25 3 3.9 3.5 4.55 4 5.2 4.5 5.85 5 6.5

CT 5A position of K1 in front face (1)

1 2 3 4 5 6number position of P1 potentiometer

of turns min max min max min max min max min max min max

1 6 7.8 7.2 9.36 8.4 10.92 9.6 12.48 10.8 14.04 12 15.6

2 3 3.9 3.6 4.68 4.2 5.46 4.8 6.24 5.4 7.02 6 7.8

3 2 2.6 2.4 3.12 2.8 3.64 3.2 4.16 3.6 4.68 4 5.2

6 1 1.3 1.2 1.56 1.4 1.82 1.6 2.08 1.8 2.34 2 2.6

8 0.75 0.97 0.9 1.17 1.05 1.36 1.2 1.56 1.35 1.75 1.5 1.95

10 0.6 0.78 0.72 0.93 0.84 1.09 0.96 1.24 1.08 1.40 1.2 1.56

12 0.5 0.65 0.6 0.78 0.7 0.91 0.8 1.04 0.9 1.17 1 1.3

earth protectionsetting range set point time delay

0.12 to 1.6 In on 1A CT 100 to 1600 ms

0.06 to 0.8 In on 5A CT 100 to 1600 ms

accuracy ± 5% ± 10%

Setting includes: positioning microswitch K3 (1), fine tuning using the potentiometer:min to max.

Earth fault current settings (multiple of In)

position of K3 on front face (1)

1 2 3 4position of P3 potentiometer

min max min max min max min max

CT 1A 0.12 0.24 0.2 0.4 0.4 0.8 0.8 1.6

CT 5A 0.06 0.12 0.1 0.2 0.2 0.4 0.4 0.8

(1) If all the microswitches are set to 0,the protection will be inhibited.Only one microswitch in the group should beset to 1.The potentiometer associated to the microswitchallows a tunning of the setting value:minimum setting (x1): turned fully to left,maximum setting (x1.3): turned fully to right.

5

time delays100 to 1600 ms with definite time.

Setting includes: positioning microswitch K2 (phase protection),K4 (earth protection) (1), fine tuning using the potentiometer:0 to + 250 ms.

The duration of the time delay includesMITOP trip unit tripping time.

current sensorsThe current transformers should be sizedso as not to saturate at the setting, takinginto consideration Sepam 100 LA's inputimpedances: phase input: 0.02 Ω, earth input: 0.08 Ω,(i.e. 0.1 Ω for phase + earth protection).

In practice, a 2.5 VA, 10P15, 5A secondarytype transformer is appropriate.

The current transformer windings should becoiled round a separate magnetic coil andmust not supply power to any circuits otherthan the Sepam 100 LA's circuit.

Time delay setting (ms)

position of K2 or K4 (1)

1 2 3 4 5 6position of P2 or P4 potentiometer

min max min max min max min max min max min max

100 350 350 600 600 850 850 1100 1100 1350 1350 1600

interposing ring CT choiceprotection CT 1A CT 5A

phase ACE 953 ACE 953

phase + earth ACE 951 ACE 955

(1) If all the microswitches are set to 0,the protection will be inhibited.Only one microswitch in the group should beset to 1.The potentiometer associated to the microswitchallows a tunning of the setting value:minimum setting (+0ms): turned fully to left,maximum setting (+250ms): turned fully to right.

6

functional and connection scheme

Arrangement with 3 phase CTs.It is mandatory to use the ACE 955 interposing ring CT.

phase and earth protection

2A

30 A

DPC

2 A

ECM2021

1817

1514

P1

P2

S1

S2

L1

L2

L3

505150N51N

1211

43

56

78

910

8

7

blue (-)

red (+)

circuit breaker (1)MITOP trip unit

5

4

Sepam 1000 orSepam 2000watchdog contact

ACE 955

21

1A

(1) the linking between Sepam 100 LAand the MITOP mustn’t be bigger than 5 Ω.

7

phase protectionThe following arrangement is used forphase protection: 2 or 3 phase CTs, ACE 953 interposing ring CT for 1Aor 5A CT.

other connection schemes

3 phase CT arrangement.

2 phase CT arrangement, and residual currenton ground connection.

2A

30 A

DPC

2 A

ECM2021

1817

15

P1

P2

S1

S243

56

78

ACE 953

1A

14

phase and earth protectionThe following arrangement can be usedfor earth protection: 2 or 3 phase CTs, a current transformer on the earthingconnection.

For 1A CTs: ACE 951 inteposing ring CT.For 5A CTs: ACE 955 interposing ring CT.

2A

30 A

DPC

2 A

ECM2021

1514

S1

S243

78

ACE 951or ACE 955

910

21

S1

S2

P1

P2

P1

P2

1A

1211

8

connection

Sepam 100 LA 1 A 21-pin CCA 621 connector, screwterminal cabling with cables 0.6 to 2.5 mm2

max., each terminal capable of receivingtwo 1.5 mm2 cables.

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

A

A

19

17

16

13

12

11

10

14

15

18

9

6

4

3

2

1

phase 1 current

7

8

5

phase 2 current

phase 3 current

20

21

residual current

MITOP

inhibition

A1

interposing ring CT

123456789101112

input residual current

phase 1

phase 2

phase 3

output residual current

phase 1 current (1)

phase 2 current (1)

phase 3 current (1)

Rear view.earthing terminalon right side face.

Terminal identificationEach terminal is identified by 3 characters.

1 A 4

board slot number

connector identificationletterconnector terminal number(1 to 21)

(1) the connection is made directly without anyintermediary terminal block on the interposingring CT.Make the required number of turns.

N.B.The ACE 953 interposing ring CT does not havea residual current circuit. ACE 955/ACE 951 interposing ring CT connection scheme.

9

characteristics

environmental characteristicsclimaticoperation IEC 68-2 -5°C to 55°Cstorage IEC 68-2 -25°C to 70°Cdamp heat IEC 68-2 95% to 40°Cmechanicaldegree of protection IEC 529 IP 51 front face

vibrations IEC 255-21-1 class I

shocks IEC 255-21-2 class I

fire NFC 20455 glow wire

electromagneticradiation IEC 255-22-3 class x 30 V/m

electrostatic discharge IEC 255-22-2 class III

electrical1.2/50 µs impulse wave withstand IEC 255-4 (1) 5 kV

damped 1 MHz wave IEC 255-22-1 class III

5 ns fast transients IEC 255-22-4 class IV

energetic transients IEC 801-5 (2)

(1) printed in 1976 and amended in 1979.(2) pending.“ ” marking on our product guarantees their conformity to European directives.

10

installation

dimensions and weights

mounting detailsweight: 1.5 kg.

ConnectionBy 6.35 mm2 clip, max. wire cross-section2.5 mm2.

Sepam 100 Cut-out

Interposing ring CTs3 phasesACE 953 (1A or 5A CT).

3 phases and earthACE 951 (1A CT),ACE 955 (5A CT).

DIN rail mounting

80

weight 1.5 Kg

100

240 240

115

weight 1 Kg

201

20 175

86 max.

202222

mounting latch

88 84 max.

e = 3 mm max

11

commissioning

phase protection make the required number of turns on theACE 951/953/955 interposing ring CT, asindicated in the chart (page 4) (the numberof possible turns may be limited by thecross section of the wire: max. 2.5 mm2

for 12 turns). Make a note of the followingon the front face:v type of current sensor, 1 or 5A(e.g. CT 1 A)v number of turns made (e.g. 3).

set microswitch K1 on the front face tothe desired set point (fine tuningpotentiometer P1 turned fully to theminimum setting on the left). Only 1microswitch among the 6 available shouldbe set to 1 (for miminum time delay setting,microswitch K2 should be set to 1 and thecorresponding potentiometer P2 turned fullyto the left). inject the set point current and turn thepotentiometer until the MITOP trips, afterhaving shorted the earth matching transfor-mer for the duration of testing.

Set the time delay to the desired valueusing microswitch K2 and the relatedpotentiometer P2.

earth protection set microswitch K3 on front face(fine tuning potentiometer P3 turned fully tothe minimum setting on the left).Only 1 microswitch among the 4 availableshould be set to 1 (for miminum time delaysetting, microswitch K4 should be set to 1and the corresponding potentiometer P4turned fully to the left). inject the set point current and turn thepotentiometer until the MITOP trips set the time delay to the desired valueusing microswitch K4 and the relatedpotentiometer P4.

12

10

8

6

3

2

1

CT 5A

CT 1A

N

I>In

K1 x P1N=

Example of identification.

Schneider Electric SA postal addressF - 38050 Grenoble cedex 9tel : 33 4 76 57 60 60telex : merge 320 842 F

As standards, specifications and designs changefrom time to time, please ask for confirmationof the information given in this publication.

Publishing: Schneider Electric SADesign, production: IdraPrinting:

This document has beenprinted on ecological paper.

10 / 1996AC0399/2EART.62381

Ordering information

Sepam 100 LA (1)

Phase interposing ring CT ACE 953 (2) ....................................

Phase + earth interposing CT ACE 951 (2) (1A secondary) ...........

ACE 955 (2) (5A secondary) ...........

(1) Sepam 100 LA does not include supply of the MITOP trip unit which should be provided withthe circuit breaker.(2) With Sepam 100 LA, it is mandatory to choose the type of protectionand the type of current transformer secondary.

quantity

Protectionand control

Sepam rangeSepam 100 RT

2

presentation

contents page

presentation 2

connection 4

characteristics 6

installation 7


The front of Sepam 100 RT includes: 7 indicator lamps: device "on" indicator, "In3" to "In5" indicators: electricallylatched indicators which store the activatedstatus of each of the 3 'tripping" inputs, "In1" and "In2" indicators: electricallylatched indicators which store the activatedstatus of the 2 "alarm" inputs and indicatethe status of the "alarm 1" and "alarm 2"output relays, "out" indicators: latching indicator whichshows switching of the "tripping" outputrelay. a "reset" pushbutton: for acknowledgmentof the relay outputs and associated displaywhen the inputs return to their normalposition.While activated, this pushbutton may beused for a lamp test of the indicators on thefront of the device .

The back of Sepam 100 RT includes: input/output connectors: a 21-pin connector for the "alarm" inputsand outputs, an 8-pin connector for the "tripping"output and for the power supply, a 4-pin connector for the "power ON"output.

Sepam 100 RT has: 5 common-point logic inputs, named "In1"to "In5" , an isolated remote "reset" input, a 3-contact "tripping" output relay (2normally open contacts and 1 normallyclosed contact), 2 "alarm" relays (changeover contacts), a "power ON" relay (1 normally opencontact and 1 normally closed contact).

Sepam 100 RT operates in 3 ranges ofsupply voltage (please specify whenordering): 24-30 V DC ±20%, 48-125 V DC ±20%, 220-250 V DC -20% +10%.

descriptionSepam 100 is a group of modules that maybe used: individually to perform a function, in combination with Sepam 1000or 2000.Each module has been designed to performa complete function. It includes all theelements required, such as: tripping output relays, annunciation, connections.

applicationsSepam 100 RTSpecially designed for transformerprotection applications, offering acombination of DGPT2 or Buchholz plusthermostat information.

advantagesSimple to use: three "tripping" inputs, two "alarm" inputs with the possibility ofindividual "tripping" input parameter setting, electrically latched inputs, a "tripping" output with high breakingcapacity linked with two other outputs:"inhibit closing" and "annunciation", two "alarm signal" outputs linked with thetwo "alarm" inputs, local or remote acknowledgment, integrated "lamp test".

Clear information display of "tripping" input and outputstatus on the front of the device.

Dependable operation high level of immunity to electromagneticdisturbances: Sepam 100 RT is designedto operate safely in the highly disturbedelectromagnetic environments of HTsubstations.

Front of device with display and controlof acknowledgement/lamp test..

sepam 100

out

in5

in4

in3

in2

in1

on

reset

S01 RT

Sepam 100 RT.

3

SA-2SA-1

Parameter setting

"Alarm" position.

Move the microswitch tab to the left.

"Tripping" position

Move the microswitch tab to the right.

parameter settingThe parameters of the 2 "alarm" inputsmade be set so as to make them "tripping"inputs.

"Alarm" inputs In1 and In2 may be setindividually as "tripping" inputs.

The choice is made via two microswitchesthat are accessible on the left-hand side ofSepam 100 RT .Access to the microswitches is closed offby a removable plastic cover.

The plastic cover should be replaced afterthe setting has been made.

Access to and identification ofmicroswitches SA-1 and SA-2.

functional and connectiondiagram

alarm 1output

alarm 2output

"alarm"inputs

"tripping"inputs

trippingoutputs

poweronoutput

21

20reset

15In5

14In4

13In3

12In2

11In1

1

1

2on

+

-

SA - 1

3421

7865

In5

In4

In3

In2

In1

out

O5

O4

8765

4321

43

O1

O2

O3

1

0

A

A

O6

10com

0 A

1

B

1 A

1

1

1

1

1

1

S

R

S

R

S

R

S

R

S

R

SA - 2

reset PB

aux.sup.

4

Sepam 100 RT1 A 8-pin CCA 608 connector (powersupply and "tripping" outputs), screwterminal wiring with wires 0.6 to 2.5 mm2

max. Each terminal capable of receivingtwo 1.5 mm2 wires.

1 B CCA 604 connector (power ON),screw terminal wiring for wires 0.6 to 2.5mm2 max. Each terminal capable ofreceiving two 1.5 mm2 wires.

connection

Terminal identificationEach terminal is identified by 3 characters.

0 A 21-pin CCA 621 connector ("alarm"inputs and outputs), screw terminal wiringwith wires 0.6 to 2.5 mm2 max., eachterminal capable of receiving two 1.5 mm2

wires.

tripping

inhibitclosing

auxsupply

power onoutput

annunciation19

17

16

18

9

reset

In5

20

21

15

13

12

11

10

14

6

7

8

5

4

3

2

1

05

04

In4

In3

In2In1

common

alarm 2output

alarm 1output

+

–

A0

inputs

8

7

6

5

O1

O2

O3 4

3

4

3

2

1

2

1

B1

O6

A1

A1

B1

A0

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

A

1

2

3

4

1

2

3

4

5

6

7

8

B

+

–

AS RT

24-3

0VD

C48

-125

VD

C22

0-25

0VD

C10

0-12

7VA

C220-

250V

DC

100-

127V

AC 22

0-24

0VA

C

24-3

0VD

C48

-125

VD

C22

0-24

0VA

C

P

A

B A

1 A 4

board slot number (0 to 1)

connector identification letter (A or B)connector terminal number

earthing terminal

5

Example of input wiring(transformer protection)

Example of circuit breaker controloutput contact wiring

SEPAM 100 RT

13121110

1415

0000

00

2021

00

A

A

A

A

A

AAA

12

11

AA

thermostat (tripping)buchholz (tripping)thermostat (alarm)buchholz (alarm)

remote reset

In 3In 2In 1Com

In 4In 5

reset

power+-

+C-C

Sepam 100 RT

TRIPCLOSE

03 01 02

1 A 4 1 A 61 A 8

A 3 1 A 51 A 7

+C

–C

M

on off

1

6

characteristics

electrical characteristicslogic inputs

24/30 Vdc 48/127 Vdc 220/250 Vdc

power consumption 10 mA 5 mA 4 mA

typical filtering time 5 ms

logic outputs (relays)breaking capacity (1) 24/30 Vdc 48 Vdc 127 Vdc 220/250 Vdc

contact O1 7 A 4 A 0.7 A 0.3 A

contacts O2 to O5 3.4 A 2 A 0.3 A 0.15 A

making capacity 8 A

permissible steady state current 8 A

number of operations under full load 10 000

response time typical 15 ms(inputs to outputs) max. 25 ms

power supplyrange typical maxi inrush current

consumption consumption

24/30 Vdc ± 20% 2.5 W 6,5 W < 10 A during 10 ms

48/127 Vdc ± 20% 3.5 W 7.5 W < 10 A during 10 ms

220/250 Vdc - 20%, + 10% 4 W 9 W < 10 A during 10 ms

environmental characteristicsclimaticoperation IEC 68-2 -10°C to +70°C

storage IEC 68-2 -25°C to +70°C

damp heat IEC 68-2 95% to 40°Cmechanicaldegree of protection IEC 529 IP 51 on front

vibrations IEC -255-21-1 class I


seismic tests IEC 255-21-3 class I


dielectricpower frequency IEC 255-4(1) 2 kV - 1 min.

1.2/50 µs impulse wave resistance IEC 255-4 5 kV





(1) published in 1976 and amended in 1979.“ ” marking on our product guarantees their conformity to European directives.

7

installation

dimensions and weight

mounting details Aweight: 2 kg.

Sepam 100 cut-out

201

20 175

86 max

202222

mounting latch

88 84 max

e = 3 mm max

A

Schneider Electric SA postale addressF-38050 Grenoble cedex 9tel: (33) 04 76 57 60 60telex: merge 320842 F

11 / 1996AC0400/2ENART.62383


Sepam 100 S01 RT

quantity: ...................................................................................................

auxiliary power supply: 24 to 30 Vdc .............................................................

48 to 125 Vdc ...........................................................

220 to 250 Vdc .........................................................

As standards, specifications and designs change fromtime to time, please ask for confirmation of the informationgiven in this publication.



Protectiondiagnosis monitoring

Sepam 100 MImimic diagram and local control

2 Sepam 100 MI

presentation

contents page

presentation 2block and connection diagrams 4characteristics 8installation 9ordering information 12

applicationSepam 100 MI is designed for use incontrol cubicles or cabinets. Sepam MIprovides the required indication and localcontrol components.

advantagesc includes all the animated mimic diagramcomponents for display of the status ofbreaking and isolation devices,c reduced cabling,c standardization and consistency with theSepam range.

Sepam 100 MI is a group of modules whichmay be used:c individually to perform a function,c in combination with Sepam 1000 or 2000.

Each module is designed to provide acomplete function. It includes all therequired components, such as:c device position indication inputs,c circuit breaker opening or closing controloutputs,c isolation control outputs (according toversion),c local or remote control changeover switch(according to mimic diagram version),c connectors.

Example: indication and control for incomer orfeeder circuit breaker.

3Sepam 100 MI

descriptionThe front of Sepam 100 MI includes thefollowing (according to type):c red and green indicator units used tomake up mimic diagrams representing thecubicle electrical diagram:v a red vertical bar representing "deviceclosed",v a green horizontal bar representing"device open".c a local or remote control selector switch(CLR),c a circuit breaker open control pushbutton(KD2), active in local or remote mode,c a circuit breaker close control pushbutton(KD1), active only in local position.

The back of Sepam 100 MI includes a 21-pin connector for indication and powersupply inputs and control outputs.Sepam 100 MI can operate with 2 rangesof power supply (to be indicated whenordering):c 24/30 V AC/DC,c 48/127 V AC/DC.

I

O

local

remote

I

O

local

remote

I

O

local

remote

I

O

local

remote

Mimic diagrams

Device closed. Device open.

Sepam 100 S01 MI-X10. Sepam 100 S01 MI-X22. Sepam 100 S01 MI-X02. Sepam 100 S01 MI-X03.

4 Sepam 100 MI

block and connection diagrams

Sepam 100 S01 MI-X00.


LV6

LR6

LV1

LR1

I

O

local

remote

LV4

LR4

LV1

LR1

KD1

KD2

CLR

LR6

21

20

13

12

11

10

18

19

9

8

LV6

LV1

alim.

1

LR1

76

4

5

23

17

16

15

14

21

20

18

19LV1

DCsupply

1

LR1

76

4

KD2

KD1

5 common

common remote

23

Sepamcontrol enable

CLR

remote

local

CB closing

CB tripping13

12

11

10

9

8

LR4

LV4

17

16

15

14

AC/DC

5Sepam 100 MI



I

O

local

remote

LV4

LR4

LV1

LR1

KD1

KD2

CLR

LV6

LR6

LR6

21

20

13

12

11

10

18

19

9

8LV6

LV11

LR4

LV4

LR1

76

4

KD2

KD1

5 common

common remote

23

CLR

Sepamcontrol enable

CB closing

CB tripping

17

16

15

14

remote

local

DCsupply

AC/DC

I

O

local

remote

LV4

LR4

LV1

LR1

KD1

KD2

CLR

LV6

LR6

KS2

KS1

LR6

21

20

13

12

11

10

18

19

9

8LV6

LV11

LR4

LV4

LR1

1514

1716

76

4

KS2

KS1

KD2

KD1

5 common

commonremote

23

Sepamcontrol enable

CLR

remote

local

17

16

15

14

DCsupply

AC/DC

CB closing

CB tripping

plug in control

plug out control

6 Sepam 100 MI

block and connection diagrams (cont'd)

I

O

local

remote

LV1

LR1

LV2

LR2

KD1

KD2

CLR

LV4

LR4

I

O

local

remote

LV1

LR1

LV2

LR2

KD1

KD2

CLR

LV4

LR4

21

20

18

19LV1

1

LR1

76

4

KD2

KD1

5 common

common remote

23

Sepamcontrol enable

CLR

remote

local

CB closing

CB tripping13

12

11

10

9

8

LR4

LV4

17

16

15

14

LV2

LR2

DCsupply

AC/DC

21

20

18

19LV1

1

LR1

76

4

KD2

KD1

5 common

common remote

23

Sepamcontrol enable

CLR

remote

local

CB closing

CB tripping13

12

11

10

9

8

LR4

LV4

17

16

15

14

LV2

LR2

DCsupply

AC/DC



7Sepam 100 MI

I

O

remote

local

LV2

LR2

KD1

KD2

CLR

LV4

LR4

LV3

LR3

LV6

LR6

LR6

21

20

13

12

11

10

18

19

9

8LV6

1

LR4

LV476

4

KD2

KD1

5 common

commonremote

23

CLR

Sepamcontrol enable

CB closing

CB tripping

17

16

15

14

remote

local

LV2

LR2

LV3

LR3

DCsupply

AC/DC

I

O

remote

local

LV2

LR2

KD1

KD2

CLR

LV4

LR4

LV1

LR1

21

20

18

19LV1

1

LR1

76

4

KD2

KD1

5 common

common remote

23

Sepamcontrol enable

CLR

remote

local

CB closing

CB tripping13

12

11

10

9

8

LR4

LV4

17

16

15

14

LV2

LR2

DCsupply

AC/DC



8 Sepam 100 MI

characteristics

electrical characteristicslogic inputsvoltage 24/30 V 48/127 V

max. consumption per input 35 mA 34 mA

logic outputs (relays)voltage 24/30 V 48/127 V

permissible rated current 8 A

breaking capacity: DC resistive load 4 A 0.3 A

AC resistive load 8 A 8 A

number of on-load operations 10 000 10 000

power supplyauxiliary power source 24 to 30 V –20% +10%DC or AC current 48 to 127 V –20% +10%(50 or 60 Hz)

consumption 24 to 30 V: 7.7 VA max. (at 33 V)48 V: 4 VA110 V: 18 VA

environmental characteristicsclimaticoperation IEC 68-2 -10°C to +70°C

storage IEC 68-2 -25°C to +70°C

damp heat IEC 68-2 95% to 40°Cmechanicaldegree of protection IEC 529 IP 51 on front

vibrations IEC -255-21-1 class I


seismic tests IEC 255-21-3 class I


dielectricpower frequency IEC 255-4(1) 2 kV - 1 min.

1.2/50 µs impulse wave resistance IEC 255-4 5 kV





(1) published in 1976 and amended in 1979.“ ” marking on our product guarantees their conformity to European directives.

9Sepam 100 MI

installation

dimensions and weights Cut-out

202

20 55

mounting latch

222

86 maxi.

88

55

83 maxi.

e = 3 mm max

weight: 0.850 kg

Mounting close-up

10 Sepam 100 MI

notes

11Sepam 100 MI

notes

Sepam 100 MISepam type (1) .......................................................................................quantity ....................................................................................................

(1) example : S01 MI - X00

Power supply voltage24/30 V ac/dc ........................................................

48/127 V ac/dc ......................................................

ordering information

Schneider Electric SA postal addressF - 38050 Grenoble cedex 9tel: (33) 76 57 60 60telex : merge 320 842 F

As standards, specifications and designs changefrom time to time, please ask for confirmationof the information given in this publication.


this document has beenprinted on ecological paper.

08 / 1996AC0448/3ENART.62655

When ordering, please enclose a photocopy of thispage with your order, filling in the requested quantitiesin the spaces provided .

Protectionand control

Sepam rangeSepam 100 LDHigh impedancedifferential protection

2 Sepam 100 LD

presentation

contents page

presentation 2

protection 3

specifying the sensors 4

surge limiter 5

connections 6

characteristics 9

installation 10


sepam 100S01 LD

on

trip

20 60

2530 35

515

10

40

80

50

70

% In

reset

Sepam 100 is a group of modules that maybe used:c separately to perform a function,c in combination with Sepam 1000or 2000.Each module has been designed to performa complete function. It includes all theelements required, such as:c tripping output relays,c annunciation, settings,c connections.

applicationsSepam 100 LD is a high impedancedifferential relay.

It provides restricted earth fault, busbarand machine protection.

advantagesc stability with respect to external faults,c sensitivity to internal faults,c speed (typical response time:15 ms to 5 x Is),c outputs with or without latching,c local and remote acknowledgment,c high level of immunity to electromagneticinterference.

descriptionSepam 100 LD comes in 4 versions:c single-phase for restricted earthprotection,c three-phase for busbar and machineprotection.c 50 or 60 Hz50 Hz single-phase: 100 LD X 5150 Hz three-phase: 100 LD X 5360 Hz single-phase: 100 LD X 6160 Hz three-phase: 100 LD X 63

The front of Sepam 100 LD includes:c 2 signal lamps:v power “on” indicator,v latching “trip” indicator indicating outputrelay tripping,c protection setting dial,c “reset” button for acknowledging outputrelays and the “trip” indicator.When the button is activated, the “trip”indicator undergoes a lamp test.

The back of Sepam 100 LD includes:c input/output connectors:v an 8-pin connector for toroid inputsand remote acknowledgment,v an 8-pin connector for “tripping” outputsand power supply,v a 4-pin connector for “tripping” outputs,c a microswitch used to configure the relay“with” or “without” latching.

Sepam 100 LD has:c 1 or 3 current inputs with a common pointaccording to whether it is a single-phaseor three-phase version,c a logic input (isolated) for remoteacknowledgment,c “tripping” output relay with 5 contacts(3 normally open contacts and 2 normallyclosed contacts).

Sepam 100 LD operates in 5 voltage ranges(please specify when ordering):c 24-30 Vdc,c 48-125 Vdc,c 220-250 Vdc,c 100-127 Vac,c 220-240 Vac.

Sepam 100 LD is associated with astabilization plate (or 3 plates) with variableresistance, enabling operation with 1A or 5Atransformers.

3Sepam 100 LD

protection

operation - setting curve

0

10

20

30

40

50

60

70

80

90

100

t (ms)

10 2 3 4 5 6 7 8 9 10 l/ls

settings (1) setting values

setting current Is 5 to 40 % In by steps of 5 % In40 to 80 % In by steps of 10 % In

stabilizing resistor plate Rs = 0 Ω to 68 Ω P = 280 WRs = 0 Ω to 150 Ω P = 280 WRs = 0 Ω to 270 Ω P = 280 WRs = 0 Ω to 470 Ω P = 180 WRs = 0 Ω to 680 Ω P = 180 W

accuracy / performance

setting ± 5%

pickup (%) 93% ± 5%

response time i 10 ms for I u 10 x Isi 16 ms for I u 5 x Isi 25 ms for I u 2 x Is

memory time i 30 ms

(1) The dial on the front of the device is used for setting.

parameter settingMicroswitch SW1, accesible on the back ofSepam 100 LD , is used to choose “with“ or“without“ latching.

SW1

SW1

without latching:

with latching :

4 Sepam 100 LD

specifying the sensors

To ensure the stability and sensitivity ofSepam 100 LD , the stabilization resistorand characteristics of the CTs are calculatedas follows.

n: CT transformation ratiop : Number of CTsRf1, Rf2 : Wiring resistance on either side

of RsRf = max (Rf1, Rf2)

R1, …Rp: CT secondaryresistancesR = max (R1, …Rp)

Rs : Stabilizing resistorRl: Surge limiterisc : Maximum external short-circuit

current in CT secondary windingis : Protection setting (A)if : Current in Rlim1, imp: CT magnetizing currentsVk1, Vkp : CT knee-point voltages

Vk = min (Vk1,…Vkp)

Choice of current transformersc all the CTs must have the sametransformation ratio n.c the knee-point voltages are chosenso that:Vk > 2 x (R + Rf) x isc

Choice of stabilizing resistor

Surge limiterThe approximate voltage developedby a CT in the event of an internal fault is:

V = 2rrrrrx Vk x (isc x (R + Rf + Rs) - Vk)If the value exceeds 3 kV, it is necessary toadd an Rl surge limiter in parallel with therelay and stabilizing resistor in order toprotect the CTs.(see: surge limiter).

Protection sensitivity

The CTs consume magnetizing current andthe surge limiter, when installed, createsfault current. The minimum residual primarycurrent detected by the protection istherefore:

Id = n x (i m1 + …imp + if + is)withv im1, …imp are read on the CTmagnetization curves at V = Rs x is.v if is the total earth leakage current of thesurge limiter for Vs = Rs x is, i.e. the sum ofthe earth leakage currents of the N limiterunits installed in parallel: if = N x ib(see: surge limiter).

Example 2Busbar (3-phase relay)switchboard with 10 cubicles incomer,feeder, without couplingisc = 30 kAn : 2000/5 AR = 1.76 ΩCTs situated 15 m from the relays,connected by 2.5 mm2 wiring (copper):

Rf = 0.02 x = 0.24 Ω

Number of sensors in parallel: 10 (same)Setting: is = 50% In, is = 2.5 A

c CT knee-point voltageisc = 30000 x 5/2000 = 75 A(R + Rf) x isc

= (1.76 + 0.24) x 75 = 150 V

Vk > 2 x 150 = 300 Ve.g.: Vk = 320 V.

c stabilizing resistor

< Rs i

60 Ω < Rs i 64 ΩThe resistance is adjustable from0 to 68 Ω. It is set to 64 Ω.

c surge limiter ?V = 2rrrrr x 320 (75 (1.76 + 0.24 + 64) - 320)V = 3443 V > 3 kVIt’s necessary to install a surge limiterin parallel.

c minimum primary default currentdetected by the protectionfor V = Rs x is = 160 VThe CT magnetization curve indicatesim = 20 mA. The leakage current curveof the surge limiter indicates il = 4 mA.The number of surge limiters is:

N ≥ = 2 hence

Id = (10 x 0.02 + 2 x 0.004 + 2.5) = 1083 A

(2 x 60)2

560.2

140(2 x 0.2)

(2 x 15)2.5

320(2 x 2.5)

7540

20005

100 LD

Rf1 Rf2

R1 R2

protected zone

CT2CT1

RI Rs

R + Rfis

x isc < Rs i Vk2 x is

Example 1Restricted earth (single-phase relay)Isc primary = 8 kAn: 400/1 AR = 2.4 ΩCTs situated 60 m from the relays,connected by 6 mm2 wiring (copper)

Rf = 0,020 x = 0,4 Ω

Number of sensors in parallel: 4 (same)Setting: Is = 20% In, is = 0.2 A

c CT knee-point voltageisc = 8000/400 = 20 A(R + Rf) x isc

= (2.4 + 0.4) x 20 = 56 V

Vk > 2 x 56 = 112 Ve.g.: Vk = 140 V.

c stabilizing resistor

< Rs i

280 < Rs i 350The resistance is adjustable from0 to 470 Ω. It is set to 300 Ω.

c surge limiter ?V = 2rrrrrx 140 (20 (2.4 + 0.4 + 300) - 140)V = 2574 V < 3 kV

It’s not necessary to install a surge limiterin parallel.

c minimum primary default currentdetected by the protectionfor V = Rs x is = 60 VThe CT magnetization curve indicatesim = 10 mAId = 400 (4 x 0.01 + 0.2) = 96 A

1502.5

5Sepam 100 LD

surge limiter

If the calculations have shown that it isnecessary to install a surge limiter in parallelwith the relay and Rs to protect the CTs, it isdetermined as follows.

choiceStandard referencesc the surge limiters on offer consist of limiterblocks which are independent of each other.Each block accepts a maximum currentof 40 A rms for 1 s. By installing the blocksin parallel, it is possible to obtain theappropriate limiter for the application.

c there are two standard references:v a single module, comprising one block,v a triple module, comprising threeindependent blocks which are aligned.

Calculation of the number of blocksper phaseAccording to i, max. RMS short-circuitcurrent in the secondary winding of a CT,the number of blocks required per phaseis calculated:

N ≥

c for a 3-phase relay, N triple modulesshould be ordered,c for a single-phase relay, N blocks,made up of triple and single modules.

Examplesc Examples 1 and 2 :Max. RMS short-circuit current in the primarywinding of a CT with a ratio of 1000: 60 kA .v calculation of the number of blocksper phase:

N ≥ = 1.5

Hence N = 2v modules to be ordered:2 triple modules for a 3-phase relay.2 single modules for a single-phase relay.

c Example 3 :Max. RMS short-circuit current in the primarywinding of a CT with a ratio of 400: 50 kA .Single-phase relay.v calculation of the number of blocksper phase:

N ≥ = 3,1

Hence N = 4v modules to be ordered:1 triple module + 1 single module to have4 blocks in all.

60000(1000 x 40)

50000(400 x 40)I

40

earth leakage currentc a limiter block accepts a max. steady state voltage of 325 V rms and presents an earth faultcurrent ib:

0.001 0.01Ib (A rms)

0.1100

U (V ms)

1000

6 Sepam 100 LD

functional and connection diagrams

relay

annunciation andtripping outputs

4

5

7

8

6

4

3

21

3

5

8

7

4

2

1

3

6

F0phase 1

phase 2

phase 3

remotereset

80 %5 %

S≥1

2

auxiliarypowersupply

1

&

R

on

trip

without withlatching

≥1

+-

PB reset

SW1

F0

F0

0A

1A

1A

1B

Only OA1 and OA2 terminals are available in the single-phase version.

stabilization plateConnection of CTs and surge limiters:c 5 A rating: between terminals 1-2 and 3-4,c 1 A rating: between terminals 1-2 and 5-6.

123456

1

CSH30: core balance CT

2

Rs5A CT

1A CT

7Sepam 100 LD

Connect the wire shielding in the shortestway possible to 0A .The shielding is grounded in Sepam 100 LD.Do not ground the wire by any other means.Press the wire against the metal frame ofthe cubicle to improve immunity to radiatedinterference.

Sepam 100 LD1A : 8-pin CCA 608 connector(power supply and “annunciation andtripping” outputs); screw terminal wiring with0.6 to 2.5 mm2 wires, each terminal beingcapable of receiving two 1.5 mm2 wires.1B : CCA 604 connector(“annunciation” outputs); screw terminalwiring with 0.6 to 2.5 mm2 wires,each terminal being capable of receivingtwo 1.5 mm2 wires.

connections

1

2

3

4

5

6

7

8

1

2

3

4

1

2

3

4

5

6

7

8

A

B

AAS LD

1 0

SW1

1~3~

1 A 4

board slot number (0 to 1)

connector identificationletter (A or B)

connector terminal number

Terminal identification.Each terminal is identified by 3 characters.

4

1

2

5

tripping7

04

6

4

3

2

1

3

05

02

03

01

annunciation

annunciation

- auxiliary power

+ supply

81A

1B

stabilization plate

123456

2

1

2

1

CSH30 0A

c items 1 to 6: clamp screw connections for6 mm2 wire.c items 1, 2: secondary of CSH30 corebalance CT, connected to 0A .Wire to be used:v sheathed, shielded wire,v min. cross-section 0.93 mm2 (AWG 18)(max. 2.5 mm2)v resistance load per unit length < 100 mΩ/mv min. dielectric strength: 1000 Vv max. length: 2 m.

2

1

6

4

3

7

8

5

0A

remote reset

phase 3 input

phase 2 input

phase 1 input (single-phase)

: ground terminal

0A : 8-pin CCA 608 connector(toroid and remote reloading inputs); screwterminal wiring with 0.6 to 2.5 mm2 wires,each terminal being capable of receivingtwo 1.5 mm2 wires.

surge limiter

c single unit = outputs with screw M10,c triple unit = outputs with holes ø 10,4 (see“installation”).

c example 1 (N = 2 blocks per phase):2 triple modules for a 3-phase relay.

Rs1 Rs2 Rs3100 LD

Rs

100 LD

c example 2 (N = 2 blocks per phase):2 single modules for a single-phase relay.

c example 3 (N = 4 blocks per phase):1 triple module + 1 single module fora single-phase relay.

Rs

100 LD

8 Sepam 100 LD

connections (cont’d)

examples of applications Restriced earth protection (single-phase) - 1 A CT

Busbar protection (3-phase) - 5 A CT - with surge limiters

Sepam100LD

123456

2

1

21

plate 0A

Sepam100LD

123456

0A

2

1

43

123456

2

1

123456

2

1

21

65

plate 2

plate 1

plate 3

protected zone

Correspondence between primary andsecondary connections (e.g. P1, S1)

9Sepam 100 LD

characteristics

analog inputs (with plate)

constant current 10 In

3 sec. current 500 In

logic input (remote reset)

voltage 24/250 Vdc 127/240 Vac

maximum power consumption 3.5 W 3.7 VA

logic outputs

constant current 8 A

voltage 24/30 Vdc 48 Vdc 127 Vdc/Vac 220 Vdc/Vac

breaking capacity (contact 01) resistive dc load 7 A 4 A 0.7 A 0.3 A

resistive ac load 8 A 8 A

breaking capacity (contacts 02 to 05) resistive dc load 3.4 A 2 A 0.3 A 0.15 A

resistive ac load 4 A 4 A

power supply

range consumption when inactive max. consumption inrush current

24/30 Vdc ±20 % 2.5 W 6 W < 10 A for 10 ms

48/125 Vdc ±20 % 3 W 6 W < 10 A for 10 ms

220/250 Vdc -20 %, +10 % 4 W 8 W < 10 A for 10 ms

100/127 Vac -20 % +10 % 6 VA 10 VA < 15 A for 10 ms

220/240 Vac -20 % +10 % 12 VA 16 VA < 15 A for 10 ms

operating frequency 47.5 to 63 Hz

electrical characteristics

climatic

operation IEC 68-2 -5 °C to 55 °Cstorage IEC 68-2 -25 °C to 70 °Cdamp heat IEC 68-2 95 % at 40 °Cinfluence of corrosion IEC 654-4 class I

mechanical

degree of protection IEC 529 IP 41 on front

vibrations IEC 255-21-1 class I

shocks and bumps IEC 255-21-2 class I

earthquakes IEC 255-21-3 class I

fire IEC 695-2-1 glow wire

electrical insulation

power frequency IEC 255-5 2 kV - 1 mn

1.2/ 50 us impulse wave IEC 255-5 5 kV

electromagnetic compatibility

immunity to radiation IEC 255-22-3 class x 30 V/m

electrostatic sicharges IEC 255-22-2 class III

single-direction transients (1) IEC 1000-4-5

damped 1MHz wave IEC 255-22-1 class III


environmental characteristics

“ ” marking on our product guarantees their conformity to European directives.

10 Sepam 100 LD

installation and commissioning

dimensions and weights Sepam 100 LDRelay

201

20 175

86 max.

202222

mounting latch

88 84 max.

e = 3 mm max

weight: 1.9 kg

Stabilization plate

352.5

104

12

110

weight: 1.7 kg

M6 - 16 mm

Cutout

11Sepam 100 LD

commissioningPlate before installing the plate, set the requiredresistance using the ohmmeter, wire the current transformers to theterminals that correspond to their currentrating, in parallel with surge limiters:v between 1-2 and 3-4 for 5 Av between 1-2 and 5-6 for 1 A.

Relay set microswitch SW1, located on the back,to “with“ or “without“ latching (see page 3), adjust the front dial to the required setting.

testingUsing a temporary connection (1 turn), injecta current 20% above the setting (5 A rating)into the toroid primary and check that therelay trips.

e.g. Is = 40 % x In.I = 0.4 x 5 A x 1.2 = 2.4 A.

The test is carried out on each of the threeplates if a three-phase relay is being used.

Rs

plate

5-63-41-2

I

CSH30

surge limiterSingle unit

124

62

155mounting isolatedsupportM10

connectionM 10

weight : 1,2 kg max.

124

62

250

M10mounting isolatedsupport

Ø 10.4connection

30

Triple unit

masse : 3,1 kg max.


Sepam 100 S01 LD (supplied with connections and mounting lugs)

quantity : ..................................................................

rated frequency: 50 Hz ..........................................................................

60 Hz ..........................................................................

version: single-phase ...............................................................

three-phase ................................................................

auxiliary power supply: 24 to 30 Vdc ...............................................................

48 to 125 Vdc .............................................................

220 to 250 Vdc ...........................................................

100 to 127 Vac ...........................................................

220 to 240 Vac ...........................................................

stabilization plate

resistance 68 Ω - 280 W ...............................................

150 Ω - 280 W .............................................

270 Ω - 280 W .............................................

470 Ω - 180 W .............................................

680 Ω - 180 W .............................................

surge limiters

single unit : ...................................................................

triple unit : ...................................................................

quantity

quantity

Schneider Electric SA postale addressF-38050 Grenoble cedex 9tel : (33) 04 76 57 60 60telex : merge 320842 F

As standards, specifications and designs change fromtime to time, please ask for confirmation of the informationgiven in this publication.


10 / 1996AC0458/2ENART.63979


sepam - hv/mv protection and control units (eng) 10 commissioning 11 ordering information 12 sepam...

Documents