curvas de limitación

3/40 Schneider Electric

3

0,001

0,1

1

10

100

0,01

1 1,5 10 100

1000

10 000

32

1

TeSys protection componentsThermal-magnetic motor circuit-breakerstypes GV2-ME and GV2-P

Average operating time at 20 °C according to multiples of the setting current

1 3 poles from cold state2 2 poles from cold state3 3 poles from hot state

Thermal-magnetic tripping curves for GV2-ME and GV2-P

Curves

References:pages 3/6 to 3/8

Dimensions:pages 3/64 to 3/66

Schemes:page 3/70

Time (s)

x setting current (Ir)

3/41Schneider Electric

3

1

6

5

4

3

7

8

9

10

11

2

100

10

1

0,10,1 1 10 100

cos

= 0

.95

= 0.

9

= 0.

8

= 0.

7=

0.5

= 0.

3

= 0.

25

15 (12)


3-phase 400/415 V

Dynamic stress

I peak = f (prospective Isc) at 1.05 Ue = 435 V

Current limitation on short-circuit for GV2-ME and GV2-P

1 Maximum peak current 7 6-10 A2 24-32 A 8 4-6.3 A3 20-25 A 9 2.5-4 A4 17-23 A 10 1.6-2.5 A5 13-18 A 11 1-1.6 A6 9-14 A 12 Limit of rated ultimate breaking capacity on short-circuit

of GV2-ME (14, 18, 23 and 25 A ratings)

Curves (continued)

Limited peak current (kA)



Schemes:page 3/70

Prospective Isc (kA)


3

100

10

1

0,1

0,010,1 1 10 100

345

6

7

8

9

10

21


Thermal limit in KA2 s in the magnetic operating zone

Sum of I2dt = f (prospective Isc) at 1.05 Ue = 435 V

Thermal limit on short-circuit for GV2-ME

1 24-32 A 6 6-10 A2 20-25 A 7 4-6.3 A3 17-23 A 8 2.5-4 A4 13-18 A 9 1.6-2.5 A5 9-14 A 10 1-1.6 A

Curves (continued)




Schemes:page 3/70

Sum of I2dt (kA

2s)


3

100

10

1

0,1

0,010,1 1 10 100

123

4

5

6

7

8

9


Thermal limit in kA2 s in the magnetic operating zone


Thermal limit on short-circuit for GV2-P

1 24-32 A 6 6-10 A2 20-25 A 7 4-6.3 A3 17-23 A 8 2.5-4 A4 13-18 A 9 1.6-2.5 A5 9-14 A 10 1-1.6 A

Curves (continued)

Sum of I2dt (kA

2s)




Schemes:page 3/70


3

TeSys protection componentsThermal-magnetic motor circuit-breakerstypes GV2-ME, GV2-ME//3 and GV2-P

(1) Whilst the IEE Regulations provide for a disconnection time of 5 s for fixed equipment, the value of impedanceobtained will limit the current to a level which may affect the starting characteristics of the motor.

Maximum Earth Fault Loop Impedance ZS or 0.4s disconnection time with U0 230 V (1)

Reference Thermal adjustment current In (A)

Magnetic tripping current Im (A)

ToleranceIm + 20% (A)

Maximum loop impedance Zs (¾)

Type GV2-MEGV2-ME01 0.1...0.16 1.50 1.80 127.78GV2-ME02 0.16...0.25 2.40 2.88 79.86GV2-ME03 0.25...0.4 5.00 6.00 38.33GV2-ME04 0.4...0.63 8.00 9.60 23.96GV2-ME05 0.63...1 13.00 15.60 14.74GV2-ME06 1...1.6 22.50 27.00 8.52GV2-ME07 1.6...2.5 33.50 40.20 5.72GV2-ME08 2.5...4 51.00 61.20 3.76GV2-ME10 4...6.3 78.00 93.60 2.46GV2-ME14 6...10 138.00 165.60 1.39GV2-ME16 9...14 170.00 204.00 1.13GV2-ME20 13...18 223.00 267.60 0.86GV2-ME21 17...23 327.00 392.40 0.59GV2-ME22 20...25 327.00 392.40 0.59GV2-ME32 24...32 416.00 499.20 0.46

Type GV2-ME//3GV2-ME013 0.1...0.16 1.50 1.80 127.78GV2-ME023 0.16...0.25 2.40 2.88 79.86GV2-ME033 0.25...0.4 5.00 6.00 38.33GV2-ME043 0.4...0.63 8.00 9.60 23.96GV2-ME053 0.63...1 13.00 15.60 14.74GV2-ME063 1...1.6 22.50 27.00 8.52GV2-ME073 1.6...2.5 33.50 40.20 5.72GV2-ME083 2.5...4 51.00 61.20 3.76GV2-ME103 4...6.3 78.00 93.60 2.46GV2-ME143 6...10 138.00 165.60 1.39GV2-ME163 9...14 170.00 204.00 1.13GV2-ME203 13...18 223.00 267.60 0.86GV2-ME213 17...23 327.00 392.40 0.59GV2-ME223 20...25 327.00 392.40 0.59

Type GV2-PGV2-P01 0.1...0.16 1.50 1.80 127.78GV2-P02 0.16...0.25 2.40 2.88 79.86GV2-P03 0.25...0.4 5.00 6.00 38.33GV2-P04 0.4...0.63 8.00 9.60 23.96GV2-P05 0.63...1 13.00 15.60 14.74GV2-P06 1...1.6 22.50 27.00 8.52GV2-P07 1.6...2.5 33.50 40.20 5.72GV2-P08 2.5...4 51.00 61.20 3.76GV2-P10 4...6.3 78.00 93.60 2.46GV2-P14 6...10 138.00 165.60 1.39GV2-P16 9...14 170.00 204.00 1.13GV2-P20 13...18 223.00 267.60 0.86GV2-P21 17...23 327.00 392.40 0.59GV2-P22 20...25 327.00 392.40 0.59GV2-P32 24...32 416.00 499.20 0.46

Earth loop impedance



Schemes:page 3/70


3

TeSys protection componentsThermal-magnetic motor circuit-breakerstypes GV2-L, GV2-LE and GV2-RT

(1) Whilst the IEE Regulations provide for a disconnection time of 5 s for fixed equipment, the value of impedanceobtained will limit the current to a level which may affect the starting characteristics of the motor.

Maximum Earth Fault Loop Impedance ZS for 0.4s disconnection time with U0 230 V (1)

Reference Thermal adjustment range In (A)

Magnetic tripping current Im (A)

ToleranceIm + 20% (A)

Maximum loop impedance Zs (¾)

Type GV2-LGV2-L03 0.4 5.00 6.00 38.33GV2-L04 0.63 8.00 9.60 23.96GV2-L05 1 13.00 15.60 14.74GV2-L06 1.6 22.50 27.00 8.52GV2-L07 2.5 33.50 40.20 5.72GV2-L08 4 51.00 61.20 3.76GV2-L10 6.3 78.00 93.60 2.46GV2-L14 10 138.00 165.60 1.39GV2-L16 14 170.00 204.00 1.13GV2-L20 18 223.00 267.60 0.86GV2-L22 25 327.00 392.40 0.59GV2-L32 32 416.00 499.20 0.46

Type GV2-LEGV2-LE03 0.4 5.00 6.00 38.33GV2-LE04 0.63 8.00 9.60 23.96GV2-LE05 1 13.00 15.60 14.74GV2-LE06 1.6 22.50 27.00 8.52GV2-LE07 2.5 33.50 40.20 5.72GV2-LE08 4 51.00 61.20 3.76GV2-LE10 6.3 78.00 93.60 2.46GV2-LE14 10 138.00 165.60 1.39GV2-LE16 14 170.00 204.00 1.13GV2-LE20 18 223.00 267.60 0.86GV2-LE22 25 327.00 392.40 0.59GV2-LE32 32 416.00 499.20 0.46

Type GV2-RTGV2-RT03 0.25...0.4 8.00 9.60 23.96GV2-RT04 0.4...0.63 13.00 15.60 14.74GV2-RT05 0.63...1 22.00 26.40 8.71GV2-RT06 1...1.6 33.00 39.60 5.81GV2-RT07 1.6...2.5 51.00 61.20 3.76GV2-RT08 2.5...4 78.00 93.60 2.46GV2-RT10 4...6.3 138.00 165.60 1.39GV2-RT14 6...10 200.00 240.00 0.96GV2-RT16 9...14 280.00 336.00 0.68GV2-RT20 13...18 400.00 480.00 0.48GV2-RT21 17...23 400.00 480.00 0.48

Earth loop impedance

References:pages 3/11 and 3/12


Schemes:page 3/75


3

0,001

0,1

1

10

100

0,01

1 10 100

1000

10 000

4

2

3

1

TeSys protection componentsThermal-magnetic motor circuit-breakerstype GV3-ME

Average operating time at 20 °C according to multiples of the setting current.

1 3 poles from cold state, 1.6…16 A rating2 3 poles from hot state , 1.6…16 A rating3 3 poles from cold state, 25…80 A rating4 3 poles from hot state, 25…80 A rating

Thermal-magnetic tripping curves

Curves

Time (s)


References:page 3/9

Dimensions:page 3/67

Schemes:page 3/70

Schneider Electric

Curves (continued)

page 3/9 page 3/67


3

1

4

3

2

100

10

1

0,10,1 1 10 100

= 0.

9

= 0.

8

= 0.

7=

0.5

= 0.

3

= 0.

25

15

56

7

9

8

10

11

3-phase 400/415 V.

Dynamic stress


Current limitation on short-circuit

1 Maximum peak current 7 6…10 A2 56…80 A 8 4…6 A3 40…63 A 9 2.5…4 A4 25…40 A 10 1.6…2.5 A5 16…25 A 11 1…1.6 A6 10…16 A


References: Dimensions: Schemes:


3/47

page 3/71

3/48

3

Curves (continued)

page 3/9 page 3/67


100

10

1

0,10,1 1 10 10015

321

45

6

7

8

9

Thermal limit in kA2s in the magnetic operating zone

Sum of l2dt = f (prospective Isc) at 1.05 Ue = 435 V

Thermal limit on short-circuit

1 56…80 A 6 6…10 A2 40…63 A 7 4…6 A3 25…40 A 8 2.5…4 A4 16…25 A 9 1.6…2.5 A5 10…16 A



Sum of I2dt (kA2s)

Schneider Electric

page 3/71

Schneider Electric

Curves

page 3/10 pages 3/67 to 3/69

TeSys protection componentsThermal-magnetic motor circuit-breakerstype GV7-R

3

0,001

0,002

0,1

0,01

0,005

0,05

1

0,5

0,02

0,2

2

5

10

20

50

100

200

500

1000

2000

5000

10 000

102 3 4 7 10020 30 405 50 701

3

2

1

1,12

Average operating time at 20 °C according to multiples of the setting current

1 Curve from cold state2 Curve from hot state3 12…14 IrIn the event of total phase failure, tripping occurs after 4 s ± 20 %

Thermal-magnetic tripping curves for GV7-R

Time (s)



3/49

page 3/71

3/50

3

Curves (continued)

page 3/10 pages 3/67 to 3/69


4102

5

7

60

20

10

50

100

30

3 4 6 10020 30 40 60

40

70

5 50

1

23

6

8

80

70

4102

5

7

60

20

10

50

100

30

3 4 6 10020 30 40 60

40

70

5 50

6

8

80

1

23

70

3-phase 400/415 VDynamic stressI peak = f (prospective Isc)

For GV7-RE only

1 GV7-RE2202 GV7-RE1503 GV7-RE100

For GV7-RS only

1 GV7-RS2202 GV7-RS1503 GV7-RS100







Schneider Electric

page 3/71

Schneider Electric

Curves (continued)

page 3/10 pages 3/67 to 3/69


3

2x104

102

3x104

5x104

2x106

2x105

105

106

107

5x106

3x105

3 4 6 10020 30 40 60

5x105

3x106

5 50 70

1

2

3

2x104

102

3x104

5x104

2x106

2x105

105

106

107

5x106

3x105

3 4 6 10020 30 40 60

5x105

3x106

5 50 70

1

2

3

3-phase 400/415 VThermal limitSum of I2dt = f (prospective Isc)

For GV7-RE only

1 GV7-RE2202 GV7-RE1503 GV7-RE100

For GV7-RS only

1 GV7-RS2202 GV7-RS1503 GV7-RS100


Sum of I2dt (A2s)

Sum of I2dt (A2s)




3/51

page 3/71

3/52

3

Curves (continued)

page 3/10 pages 3/67 to 3/69


4102

5

6

30

10

8

20

50

40

3 4 6 205

12

7

9

4102

5

6

30

10

8

20

50

40

3 4 6 205

12

7

3-phase 690 VDynamic stressI peak = f (prospective Isc)

For GV7-RE only

1 GV7-RE2202 GV7-RE150 and

GV7-RE100

For GV7-RS only

1 GV7-RS2202 GV7-RS150 and

GV7-RS100







Schneider Electric

page 3/71

Schneider Electric

Curves (continued)

page 3/10 pages 3/67 to 3/69


3

102 3 4 6 205

2x106

2x105

105

106

3x105

5x105

3x106

1

2

8

102 3 4 6 205

2x106

2x105

105

106

3x105

5x105

3x106

1

2

3-phase 690 VThermal limitSum of I2dt = f (prospective Isc)

For GV7-RE only

1 GV7-RE2202 GV7-RE150 and

GV7-RS100

For GV7-RS only

1 GV7-RS2202 GV7-RS150 and


GV7-RS100

Sum of I2dt (A2s)

Sum of I2dt (A2s)




3/53

page 3/71

3/54

3

Curves

page 3/11 page 3/66

TeSys protection componentsThermal-magnetic motor circuit-breakerstype GV2-RT

k x Ir

10

10 000

1

0,1

0,0011 10 100

1000

100

0,01

21

3


Thermal-magnetic tripping curves for GV2-RT

Time (s)


Schneider Electric

page 3/70

Schneider Electric

Curves

page 3/12 pages 3/72 to 3/74

TeSys protection componentsMagnetic motor circuit-breakerstypes GV2-L and GV2-LE

3

Average operating time at 20°C according to multiples of the setting current


Tripping curves for GV2-L or LE combined with thermal overload relay LRD or LR2-K

10

10 000

1

0,1

0,0011 10 100

1000

100

0,01

32

1

Time (s)



3/55

page 3/75

3/56

3

Curves (continued)

page 3/12 pages 3/72 to 3/74


100

10

1

0,10,1 1 100

1

5

4

3

8

9

10

7

6

cos

= 0

.95

= 0.

9

= 0.

8

= 0.

7=

0.5

= 0.

3

= 0.

25

151011

2

For GV2-L and GV2-LE only

3-phase 400/415 V

Dynamic stress



1 Maximum peak current 6 10 A.2 32 A 7 6.3 A3 25 A 8 4 A4 18 A 9 2.5 A5 14 A 10 1.6 A

11 Limit of rated ultimate breaking capacity on short-circuit of GV2-LE (14, 18 and 25 A ratings)




Schneider Electric

page 3/75

Schneider Electric

page 3/12 pages 3/72 to 3/74

Curves (continued)
3

100

10

1

0,10,1 1 10 100

cos

= 0

.95

= 0.

9

= 0.

8

= 0.

7=

0.5

= 0.

3

= 0.

25

15

11

1

2

3

4

5

6

7

8

9

10


For GV2-L and GV2-LE + thermal overload relay LRD or LR2-K

3-phase 400/415 V

Dynamic stress



1 Maximum peak current 6 10 A2 32 A 7 6.3 A3 25 A 8 4 A4 18 A 9 2.5 A5 14 A 10 1.6 A

11 Limit of rated ultimate breaking capacity on short-circuitof GV2-LE (14, 18 and 25 A ratings)



3/57

page 3/75

3/58

3

Curves (continued)

page 3/12 pages 3/72 to 3/74


100

10

1

0,1

0,010,1 1 10 100

1 2

3

4

5

6

7

8

9



Thermal limit on short-circuit for GV2-LE only

1 32 A 6 6.3 A2 25 A 7 4 A3 18 A 8 2.5 A4 14 A 9 1.6 A5 10 A

Sum of I2dt (kA2 s)



Schneider Electric

page 3/75

Schneider Electric

Curves (continued)

page 3/12 pages 3/72 to 3/74


3

100

10

1

0,1

0,010,1 1 10 100

1234

5

6

8

7



Thermal limit on short-circuit for GV2-L only

1 25 A and 32 A 5 6.3 A2 18 A 6 4 A3 14 A 7 2.5 A4 10 A 8 1.6 A

Sum of I2dt (kA2 s)



3/59

page 3/75

3/60

3

Curves (continued)

page 3/12 pages 3/72 to 3/74


100

10

1

0,1

0,010,1 1 10 100

2

3

4

5

6

7

8

9

15

1

10

For GV2-L and GV2-LE + thermal overload relay LRD or LR2-K




1 32 A (GV2-LE32) 7 4 A2 25 A and 32 A (GV2-L32) 8 2.5 A3 18 A 9 1.6 A4 14 A 10 Limit of rated ultimate breaking capacity on short-circuit5 10 A of GV2-LE (14, 18 and 25 A ratings)6 6.3 A

Sum of I2dt (kA2 s)



Schneider Electric

page 3/75

Schneider Electric

Curves

page 3/13 page 3/74

TeSys protection componentsMagnetic motor circuit-breakertype GK3

3

10

10 000

1

0,1

0,0011 10 100

1000

100

0,01

32

1

B

A


Tripping curves for GK3 combined with thermal overload relay LRD-33

Average operating time at 20 °C without prior current flow.

A Thermal overload relay protection zoneB GK3 protection zone

Time (s)



3/61

page 3/75

3/62

3

Curves (continued)

page 3/13 page 3/74


1

0,11 10 100

10

100

0,1

432

1

3-phase 400/415 V

Dynamic stress


1 Maximum peak current2 80 A3 65 A4 40 A

Current limitation on short-circuit for GK3 only




Schneider Electric

page 3/75

Schneider Electric

Curves (continued)

page 3/13 page 3/74


3

10

11 10 100

100

1000

0,1

3

2

1

Thermal limit in A2s


1 80 A2 65 A3 40 A

Thermal limit on short-circuit for GK3 only

Sum of I2 dt (A2s)



3/63

page 3/75

curvas de limitación

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