Super high performance power line filter

 

This case range is used for HEMP protection of power lines. The HEMP characteristics are conform to MIL STD 188 125 1 and 2.

The general design corresponds with the attenuation request of shielded sites (Faraday cages, shelters...).

Applications

These protections can be used for the following single or three phase electrical networks:

  • 250V AC - 50/60 Hz
  • 250/440 V AC - 50/60 Hz
  • 400 V DC
  • 10 to 800 A

Discharge resistors are inclused.

LEMP protection type 2.

Cable mounting compartment access

  • Shielded compartment access:
    Easy mounting with a gasket mechanical stop to prevent crushing.

  • External compartment access:
    This is a safety access for electrical security.

Attenuation curves

Attenuation (50 Ω on load) MIL STD 220 B or GAM T21

These values are measured under laboratory conditions.
In your situation results may differ, please read our Guarantee.

  

Mounting

These variety protections are designed for mounting on the penetration panel or directly on the non-painted wall of the Faraday cage.

Mounting procedure:

  • Fixed with six screws.
  • Feed-through nozzle (supplied with filter) is used to ensure high frequency performance.
  • A non-rotation system ensures correct and easy mounting.

Maximum torque value

M 5: 2.2 Nm
M 6: 2.45 Nm
M 8: 10 Nm
M 10: 15 Nm
M 12: 20 Nm
M 33 x 2: 40 Nm
M 60 x 2: 40 Nm

 

 

General characteristics

The super high performance power filter protection range is made from a non-magnetic metal which provides an excellent earth bonding and electromagnetic shielding. The cabinet is separated into three parts:

  1. Network access (with varistors).
  2. Filtering area.
  3. Shielded area which has a metal penetration nozzle supplied with the filter.

The lid of the shielded area is equipped with a double barrier gasket.

 

 

Technical characteristics

Operating temperature : - 40°C + 50°C
      for 400 and 800 A : - 40°C + 40°C
Storage temperature : - 40°C + 70°C
Test voltage : 1150 VDC (Without varistors)
Overvoltage protection : Varistors
          In 10 (strokes) : 25 kA (8/20 μs)
          Imax (1 stroke) : 70 kA (8/20 μs)

 

 

Reference
Single phase
(+ N)

 

Reference
Three phase
(+ N)

 

Max.
Current

Rated voltage UR
(V rms)*

Max. ohmic
resistance
per line

Max. leakage
current
at 250V / 50 Hz

Max. residual
under 5 kA
wave 20/500 ns

Approximative
weight
(kg)

(A)

50-60 Hz

(mΩ)

(A)

(A)

1p + N

3p + N

SHP - 2010

SHP - 4010

10

250

35

0.95

2

7

13

SHP - 2016

SHP - 4016

16

250

22

0.95

2

7

13

SHP - 2032

SHP - 4032

32

250

10

0.95

3

8

14

SHP - 2064

SHP - 4064

64

250

4

1.05

4

9

15

SHP - 2100

SHP - 4100

100

250

2

1.05

4

13

22

SHP - 2125

SHP - 4125

125

250

1.5

1.05

4

14

25

SHP - 2200

SHP - 4200

200

250

1

2

5

16

30

SHP - 2250

SHP - 4250

250

250

0.8

2

5

17

33

SHP - 2300

SHP - 4300

300

250

0.6

3.3

6

20

37

SHP - 2400

SHP - 4400

400

250

0.5

4

6

34

55

-

SHP - 4800

800

250

0.2

5.5

6

-

75

These values are measured under laboratory conditions.
In your situation results may differ, please read our Guarantee.

* Three phase main : 250/440 Vca
For the explanation of the reference see chapter " how to order " below

 

 

Connection

For the shielded area:
Cables are passed through metallic nozzles ensuring that the RFI sealing between the inside of the cages and the shielded area is guaranteed. Connections are made by copper threaded terminals (Copper bars for 800 A). A ground connection is available and can be used as an earth terminal.

For the external area:
Cables exit via a grommet. Connections are made by copper threaded terminals. A ground connection is available, either internally or externally, and can be used as an earth terminal.

 

 

Dimensions in mm

(Single phase + N)

Reference

A

B

C max.

D ± 0.5

± 0.5

F ± 0.5

G ± 0.5

J

K

L

R

M ± 0.5

P

N

SHP - 2010

425

170

110

37

70

290

192

Ø 33

35

M 33

Ø 26

46

M 6

50

SHP - 2016

425

170

110

37

70

290

192

Ø 33

35

M 33

Ø 26

46

M 6

50

SHP - 2032

 425 

170

110

37

10

290

192

Ø 33

35

M 33

Ø 26

46

M 6

50

SHP - 2064

425

170

110

37

10

290

192

Ø 33

35

M 33

Ø 26

46

M 8

50

SHP - 2100

610

200

110

50

50

510

222

Ø 52

45

M 60

Ø 50

80

M 8

50

SHP - 2125

610

200

110

50

50

510

222

Ø 52

45

M 60

Ø 50

80

M 8

50

SHP - 2200

610

200

110

50

50

510

222

Ø 52

45

M 60

Ø 50

80

M 8

50

SHP - 2250

610

200

110

50

50

510

222

Ø 52

45

M 60

Ø 50

80

M 10

50

SHP - 2300

610

200

200

50

50

600

222

Ø 52

146

M 60

Ø 50

80

M 10

50

SHP - 2400

610

320

200

50

50

600

342

Ø 52

146

M 60

Ø 50

80

M 12

50

* For the explanation of the reference see chapter " how to order " below

(Three phase + N)

Reference

A

B

C max.

D ± 0.5

± 0.5

F ± 0.5

G ± 0.5

J

K

L

R

M ± 0.5

P

N

SHP - 4010

560

250

110

37

70

420

272

Ø 33

35

M 33

Ø 26

46

M 6

50

SHP - 4016

560

250

 110

37

70

420

272

Ø 33

35

M 33

Ø 26

46

M 6

50

SHP - 4032

 560 

250

110

37

70

420

272

Ø 33

35

M 33

Ø 26

46

M 6

50

SHP - 4064

560

250

110

37

70

420

272

Ø 33

35

M 33

Ø 26

46

M 8

50

SHP - 4100

610

320

110

50

50

510

342

Ø 52

45

M 60

Ø 50

80

M 8

50

SHP - 4125

610

320

110

50

50

510

342

Ø 52

45

M 60

Ø 50

80

M 8

50

SHP - 4200

700

320

200

50

50

600

342

Ø 52

140

M 60

Ø 50

80

M 8

50

SHP - 4250

700

320

200

50

50

600

342

Ø 52

140

M 60

Ø 50

80

M 10

50

SHP - 4300

700

320

200

50

50

600

342

Ø 52

140

M 60

Ø 50

80

M 10

50

SHP - 4400

700

600

200

50

50

600

642

4 x Ø 40

110

4 x M 60

Ø 50

80

M 12

50

SHP - 4800

 875

650

265

85

50

775

865

4 x Ø 60

110

4 x M 60

-

80

-

50

* For the explanation of the reference see chapter " how to order " below





 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

How to order 

The picture below explaines how to generate a Super high performance part number.
- Serie (SHP = Super high performance);
- the amount of phases;
- the current (A);
- and then the amount of volts (250/400).

How to order a Super high performace power line filter

Would you like to...