Surge protection for Ethernet and Fast Ethernet networks White Paper

Contents Causes of damage Structured cabling as uniform connection medium EMC concept Protective effect of arresters for information technology systems Selection of surge protective devices

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Surge protection for Ethernet and Fast Ethernet networks White Paper

To date, Ethernet is the most commonly used technology for local area networks. The name “Ether” refers to the first radio networks. Introduced in the 1980s, the 10 MBit Ethernet used coaxial cables. Later Fast Ethernet with 100 MBit/s and Gigabit Ethernet with 1000 MBit/s and 10 GBit/s were introduced. All Ethernet versions are based on the same principles. From the 1990s on, Ethernet became the most widely used LAN (Local Area Network) technology and replaced other LAN standards such as Token Ring and ARCNET. Ethernet consists of different types of 50 Ω coaxial cables or twisted pair cables, glass fibre cables or other media. At present, Ethernet typically has a data rate of 100 MBit/s, however, data rates of 1000 MBit/s are on the rise. Surges cause malfunction and destruction and thus failure of computer systems. This can significantly affect operations, resulting in long standstill of the installations and systems. Therefore, surge protection concepts are required in addition to the protection of the power supply system and regular data backups to ensure reliable operation of computer systems. Causes of damage Failure of computer systems is typically caused by: ¨¨ Remote lightning strikes causing conduced transients in power supply, data or telecommunication lines, ¨¨ Nearby lightning strikes causing electromagnetic fields that inject transients into power supply, data or telecommunication lines, ¨¨ Direct lightning strikes causing impermissibly high potential differences and partial lightning currents in the building installations. Structured cabling as uniform connection medium Structured cabling is a uniform connection medium for different services such as analogue telephones, ISDN or different network technologies. Consequently, existing installations can be easily adapted to new tasks without exchanging the cables or connection parts. A structured cabling system provides application-independent and universal cables which are not tailored to a specific network topology, manufacturer or product. The type of cables and the topology ensure that all current and future protocols can be used. A universal cabling system consists of three different hierarchical levels: 1. The campus backbone cabling connects the campus distributor of a building complex to the building distributors of the individual buildings. In case of data networks, 50 µm / 125 µm multimode optical fibre cables (in case of distances > 2 km monomode optical fibre cables) with a maximum length of about 1500 m are mainly used.

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2. The building backbone cabling connects the building distributors to the floor distributors. Also in this case, 50 µm optical fibre cables and balanced 100 ohm cables with a length of 500 m are mainly used. 3. The horizontal cabling (floor distributor) includes all cables of the work stations of a floor and should not exceed 90  m. Copper cables or in some cases 62.5  µm optical fibre cables are typically used to connect the floor distributor to the telecommunication outlet. The interfaces between these areas form passive distribution panels. Such distribution panels link the campus backbone, building backbone and horizontal cabling of universal cabling systems. They allow to easily start communication services on a work station by simply patching patch cables. Distribution panels for optical fibre cables (campus backbone and building backbone) and twisted pair cables (horizontal cabling) differ according to the number of ports. For example, 24 ports are commonly used for structured cabling systems and 25 ports for telecommunication installations. Cables are typically installed in 19 ” data cabinets or racks. Star topologies are used for generic cabling systems. All currently available protocols can be operated by means of star topologies irrespective of whether they form a logical ring or bus system. Structured cabling systems connect all terminal devices. They allow communication between telephones, networks, safety systems, building automation systems, LAN and WLAN interconnection as well as access to the intranet and internet. Generic cabling systems ensure flexible use of terminal devices. It is assumed that all information such as data, voice, television, automation and control of machines and installations will be transmitted via Ethernet over the next years and Ethernet will thus become a universal transmission concept. Therefore, electromagnetic compatibility (EMC) must be ensured. EMC concept Electromagnetic compatibility is defined as the capability of a device – especially of an installation or a system – to properly operate in its electromagnetic environment without causing electromagnetic interference itself which would be inacceptable for devices, installations or systems in this environment. To ensure continuous and trouble-free operation of data networks, it is therefore imperative to consider EMC at an early stage. This does not only affect the data cables of the network, but also the entire electrotechnical infrastructure of the buildings and building complexes where the entire network should be installed. Consequently, it is important to consider the electromagnetic environmental conditions:

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Surge protection for Ethernet and Fast Ethernet networks White Paper

¨¨ Are there potential sources of electromagnetic interference such as radio-relay systems, mobile phone base stations, assembly lines or elevators?

ducts opposed to one another must be avoided. A distance of 20 cm between these two different types of cables should not be exceeded.

¨¨ What about the quality of the electrical energy (e.g. harmonics, flickers, voltage drops, excess voltages, transients)?

¨¨ The power lines for the devices and the relevant data lines must be basically routed via the same cable route. Separating webs should be provided. In the horizontal area, it is advisable to keep a distance of max. 10 cm between these lines.

¨¨ What about the risk of a lightning strike (e.g. frequency)? ¨¨ Is there possible emission? To ensure the performance of data networks even in case of the increased requirements to be expected in the future, special attention has to be given to the electromagnetic compatibility of the installation. Therefore, the design of a data network should include an earthing and equipotential bonding concept which provides information on: ¨¨ Cable duct and cable routing

¨¨ If a lightning protection system is installed on the building, the safety distances between the power / data lines and elements of the external lightning protection system (air-termination systems, down conductors) must be kept and power / data lines must not be routed in parallel with the down conductors of the external lightning protection system.

¨¨ Cable structure ¨¨ Active components ¨¨ Lightning protection ¨¨ Shielding of signal lines ¨¨ Equipotential bonding ¨¨ Surge protection The most important measures to ensure EMC and thus undisturbed data transmission are: ¨¨ Spatial separation of known sources of electromagnetic interference (e.g. transformer stations, elevator drives) of information technology components

direct earthing indirect earthing via gas discharge tube

MEB 1

¨¨ Use of closed and earthed metal ducts in case of interference caused by strong radio transmitters and, if required, connection of the terminal devices via optical fibre cables only ¨¨ Use of separate circuits for terminal devices and use of noise filters and uninterrupted power supply systems, if required ¨¨ No parallel installation of power and data lines of terminal devices with power lines of powerful loads (due to the risk of high switching overvoltages when switching on / off the loads) and known sources of interference (e.g. thyristor controllers) ¨¨ Use of shielded data cables which must be earthed on both ends (Figure 1). Patch and connecting cables must be integrated in the shielding concept. ¨¨ Integration of the reinforcement (intermeshing) in the equipotential bonding system (Figure 2) for metal enclosures and shields (e.g. cable trays, cable ducts) ¨¨ Shielded data cables and power lines should use the same riser duct in the building backbone area. Separate riser

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MEB 2

MEB 1 ≠ MEB 2 Figure 1 Shield connection on both ends – Shielding from capacitive / inductive coupling and direct and indirect shield earthing to prevent equalising currents

19” data cabinet hub / switch

patch field

data cable

data box

PC

16 (25) mm2 Cu

Figure 2 Equipotential bonding of a shielded cable system

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Surge protection for Ethernet and Fast Ethernet networks White Paper

¨¨ Use of optical fibre cables for the information technology cables of different buildings (campus backbone cabling) ¨¨ Installation of surge protective devices in power circuits and for the horizontal cabling system to protect them from transients caused by switching operations and lightning discharges (Figures 3 and 4) ¨¨ Power installation in the form of a TN-S system to prevent interference currents on the shields of the data lines ¨¨ Establishing main equipotential bonding with the power installation (PEN) at one point in the building (e.g. service entrance room) To ensure proper EMC protection, it is also important to choose adequate lightning current and surge arresters for information technology systems and to be familiar with their protective effect. Protective effect of arresters for information technology systems For testing the electromagnetic compatibility (EMC), electrical and electronic equipment (devices) must have a defined immunity to conducted interference (surges). Different electromagnetic environmental conditions require that the devices have different immunity levels. The immunity level of a device depends on the test level. To define the different immunity levels of terminal devices, the test levels are subdivided into four different levels from 1 to 4. Test level 1 places the lowest requirement on the immunity of a terminal device. The test level can be usually found in the documentation of the device or can be requested from the manufacturer of the device. Arresters for information technology systems must limit conducted interference to an acceptable level so that the immunity level of the terminal device is not exceeded. For example, an arrester with a lower let-through value than the EMC test values of the terminal device must be selected for a terminal device tested with test level 2: Impulse voltage < 1 kV in combination with an impulse current of some amperes (depending on the type of injection). Depending on the application and design, the information technology interfaces of terminal devices have different immunity levels. When selecting an adequate surge arrester, not only the system parameters are important, but also the fact whether the arrester is capable of protecting the terminal device. To ensure easy selection, an SPD class sign was developed for the Yellow/Line product family. Together with the documentation of the terminal device, this sign provides exact information on whether an arrester is suitable for the relevant terminal device, namely whether they are energy-coordinated with each other.

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Figure 3 NET Protector – Universal surge protective device for protecting the data lines of a floor distributor (also suited for class D networks)

Figure 4 DEHNprotector – Universal surge protective device for protecting the network and data lines of a work station

Correctly dimensioned surge arresters reliably protect terminal devices from voltage and energy peaks, thus increasing the availability of the installation. Modern communication networks are increasingly becoming high-frequency networks and thus more and more susceptible to interference. Therefore, a consistent EMC concept that also includes lightning and surge protection for the buildings and systems is required to ensure smooth network operation (Figure 5). Selection of surge protective devices To ensure effective surge protection, the electricians and IT experts must coordinate the measures for the different systems in cooperation with the manufacturer of the device. Therefore, experts (e.g. engineering consultants) must be called in for large projects.

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Surge protection for Ethernet and Fast Ethernet networks White Paper

SDB

SDB server

computer system

floor distributor (telecom.) telecom. system

split 5

5

building distributor OFC

MDB

patch panel telephone

4

MEB 230/400 V TNC

SPD

Type

Part No.

DEHNventil

DV M TNC 255

951 300

Equipotential bonding enclosure

DPG LSA ... P

906 10...

Disconnection block TL2 10DA LSA

907 996

DEHNrapid LSA

DRL 10 B 180 FSD

907 401

Earthing frame

EF 10 DRL

907 498

DEHNrapid LSA

DRL PD 180

907 430

Equipotential bonding bar

K12

563 200

DEHNguard modular DG M TNS 275

952 400

DEHNrail modular

DR M 2P 255

953 200

DEHNpatch

DPA M CAT6 RJ45H 48

929 100

DEHNlink (upstream of splitter)

DLI TC 2 I

929 028

SFL Protector

SFL PRO 6X 19“

909 251

NET Protector for 8 x 2 pairs

NET PRO TC 2 LSA

929 072

19” enclosure

EG NET PRO 19“

929 034

DEHNflex M

DFL M 255

924 396

DSM telephone protection module

DSM TC 2 SK

924 272

DEHNprotector

DPRO 230 LAN100

909 321

Figure 5 Administration building with highly available installation parts

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White Paper: Surge protection for Ethernet and Fast Ethernet networks

DEHNventil

DV M TNC 255 (951 300) ■ Prewired combined type 1 and type 2 spark-gap-based lightning current and surge arrester consisting of a base part and plug-in protection modules ■ Maximum system availability due to RADAX Flow follow current limitation ■ Capable of protecting terminal equipment

Figure without obligation

Basic circuit diagram DV M TNC 255

Dimension drawing DV M TNC 255

Modular combined lightning current and surge arrester for protecting TN-C systems against surges. Type Part No. SPD according to EN 61643-11 / IEC 61643-11

DV M TNC 255 951 300 type 1 + type 2 / class I + class II 

     

Energy coordination with terminal equipment (≤ 5 m)

type 1 + type 2 + type 3 

 

Nominal a.c. voltage (UN)

230 / 400 V (50 / 60 Hz) 

 

264 V (50 / 60 Hz) 

 

75 kA

 

1.40 MJ/ohms 

 

25 kA

 

156.25 kJ/ohms 

 

25 / 75 kA

 

Voltage protection level (UP)

≤ 1.5 kV

 

Follow current extinguishing capability a.c. (Ifi)

50 kArms

 

no tripping of a 20 A gL/gG fuse up to 50 kArms (prosp.) 

 

Response time (tA)

≤ 100 ns

 

Max. backup fuse (L) up to IK = 50 kArms

315 A gG

 

Max. backup fuse (L-L')

125 A gG

 

Temporary overvoltage (TOV) (UT) – Characteristic

440 V / 120 min. – withstand 

 

Operating temperature range [parallel] / [series] (TU)

-40 °C ... +80 °C / -40 °C ... +60 °C 

 

green / red 

 

1 

 

Max. continuous operating a.c. voltage (UC) Lightning impulse current (10/350 µs) [L1+L2+L3-PEN] (Itotal) Specific energy [L1+L2+L3-PEN] (W/R) Lightning impulse current (10/350 µs) [L-PEN] (Iimp) Specific energy [L-PEN] (W/R) Nominal discharge current (8/20 µs) [L-PEN]/[L1+L2+L3-PEN] (In)

Follow current limitation / Selectivity

Operating state / fault indication Number of ports Cross-sectional area (L1, L1', L2, L2', L3, L3', PEN, 9) (min.) Cross-sectional area (L1, L2, L3, PEN) (max.)

2

10 mm solid / flexible 

 

2

2

 

2

2

50 mm stranded / 35 mm flexible 

Cross-sectional area (L1', L2', L3', 9) (max.)

35 mm stranded / 25 mm flexible 

 

For mounting on

35 mm DIN rails acc. to EN 60715 

 

Enclosure material

thermoplastic, red, UL 94 V-0 

 

Place of installation

indoor installation 

 

Degree of protection

IP 20 

 

Capacity

6 module(s), DIN 43880

 

Approvals

KEMA, VDE, UL, VdS 

 

Use in switchgear installations with prospective short-circuit currents of more than 50 kArms (tested by the German VDE) 

 

100 kArms (220 kApeak)  

 

up to 100 kArms (220 kApeak)  

 

315 A gL/gG

 

970 g

 

85363030

 

4013364108134

 

1 pc(s)

 

Extended technical data: – Max. prospective short-circuit current – Limitation / Extinction of mains follow currents – Max. backup fuse (L) up to IK = 100 kArms Weight Customs tariff number GTIN PU

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DEHNguard

DG M TNS 275 (952 400) ■ Prewired complete unit consisting of a base part and plug-in protection modules ■ High discharge capacity due to heavy-duty zinc oxide varistors / spark gaps ■ High reliability due to "Thermo Dynamic Control" SPD monitoring device

Figure without obligation

Basic circuit diagram DG M TNS 275

Dimension drawing DG M TNS 275

Modular surge arrester for use in TN-S systems. Type Part No. SPD according to EN 61643-11 / IEC 61643-11

DG M TNS 275 952 400 type 2 / class II 

     

230 / 400 V (50 / 60 Hz) 

 

275 V (50 / 60 Hz) 

 

Nominal discharge current (8/20 µs) (In)

20 kA

 

Max. discharge current (8/20 µs) (Imax)

40 kA

 

≤ 1.5 kV

 

Voltage protection level at 5 kA (UP)

≤ 1 kV

 

Response time (tA)

≤ 25 ns

 

125 A gG

 

Nominal a.c. voltage (UN) Max. continuous operating a.c. voltage (UC)

Voltage protection level (UP)

Max. mains-side overcurrent protection Short-circuit withstand capability for max. mains-side overcurrent protection (ISCCR)

50 kArms

 

Temporary overvoltage (TOV) (UT) – Characteristic

335 V / 5 sec. – withstand 

 

Temporary overvoltage (TOV) (UT) – Characteristic

440 V / 120 min. – safe failure 

 

-40 °C ... +80 °C 

 

green / red 

 

1 

 

Operating temperature range (TU) Operating state / fault indication Number of ports

2

Cross-sectional area (min.)

1.5 mm solid / flexible 

Cross-sectional area (max.)

35 mm stranded / 25 mm flexible 

 

For mounting on

35 mm DIN rails acc. to EN 60715 

 

Enclosure material

thermoplastic, red, UL 94 V-0 

 

Place of installation

indoor installation 

 

Degree of protection

IP 20 

 

Capacity

4 module(s), DIN 43880

 

Approvals

KEMA, VDE, UL, VdS 

 

443 g

 

85363030

 

4013364108455

 

1 pc(s)

 

Weight Customs tariff number GTIN PU

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2

 

2

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White Paper: Surge protection for Ethernet and Fast Ethernet networks

DEHNrail

DR M 2P 255 (953 200) ■ Two-pole surge arrester consisting of a base element and plug-in protection module ■ High discharge capacity due to heavy-duty zinc oxide varistor/spark gap combination ■ Energy coordination with other arresters of the Red/Line product family

Figure without obligation

Basic circuit diagram DR M 2P 255

Dimension drawing DR M 2P 255

Two-pole surge arrester consisting of a base part and plug-in protection module Type Part No. SPD according to EN 61643-11

DR M 2P 255 953 200 Type 3 

SPD according to IEC 61643-1/-11

Class III 

Nominal a.c. voltage (UN)

230 V

Max. continuous operating a.c. voltage (UC)

255 V

Max. continuous operating d.c. voltage (UC)

255 V

Nominal load current a.c. (IL)

25 A

Nominal discharge current (8/20 µs) (In)

3 kA

Total discharge current (8/20 µs) [L+N-PE] (Itotal)

5 kA

Combined impulse (UOC)

6 kV

Combined impulse [L+N-PE] (UOC total)

10 kV

Voltage protection level [L-N] (UP)

≤ 1250 V

Voltage protection level [L/N-PE] (UP)

≤ 1500 V

Response time [L-N] (tA)

≤ 25 ns

Response time [L/N-PE] (tA)

≤ 100 ns

Max. mains-side overcurrent protection

25 A gL/gG or B 25 A 

Short-circuit withstand capability for mains-side overcurrent protection with 25 A gL/gG

6 kArms 

Temporary overvoltage (TOV) [L-N] (UT)

335 V / 5 sec.

Temporary overvoltage (TOV) [L/N-PE] (UT)

400 V / 5 sec.

Temporary overvoltage (TOV) [L+N-PE] (UT)

1200 V + UCS / 200 ms

TOV characteristic [L-N]

withstand 

TOV characteristic [L/N-PE]

withstand 

TOV characteristic [L+N-PE]

withstand 

Operating temperature range (TU)

-40°C...+80°C 

Operating state/fault indication

green / red 

Number of ports Cross-sectional area (min.) Cross-sectional area (max.) For mounting on

1  2

0.5 mm solid/flexible  2

2

4 mm solid/2.5 mm flexible  35 mm DIN rails acc. to EN 60715 

Enclosure material

thermoplastic, red, UL 94 V-0 

Place of installation

indoor installation 

Degree of protection

IP 20 

Capacity

1  module(s), DIN 43880

Approvals

KEMA, VDE, UL, VdS, CSA 

Weight Customs tariff number GTIN

81 g 85363030 4013364108301

PU

1 pc(s)

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DEHNflex

DFL M 255 (924 396) ■ Acoustic fault indication ■ Compact design ■ For use in flush-mounted systems, cable ducts and flush-type boxes

Figure without obligation

Basic circuit diagram DFL M 255

Dimension drawing DFL M 255

Surge arrester for use in all types of installation systems for terminal equipment; compact dimensions Type Part No. SPD according to EN 61643-11 SPD according to IEC 61643-1/-11

DFL M 255 924 396 Type 3  Class III 

Nominal a.c. voltage (UN)

230 V

Max. continuous operating a.c. voltage (UC)

255 V

Nominal discharge current (8/20 µs) (In)

1.5 kA

Total discharge current (8/20 µs) [L+N-PE] (Itotal)

3 kA

Combined impulse (UOC)

3 kV

Combined impulse [L+N-PE] (UOC total)

6 kV

Voltage protection level [L-N] (UP)

≤ 1.25 kV

Voltage protection level [L/N-PE] (UP)

≤ 1.5 kV

Response time [L-N] (tA)

≤ 25 ns

Response time [L/N-PE] (tA)

≤ 100 ns

Max. mains-side overcurrent protection

32 A gL/gG or B/C 32 A 

Short-circuit withstand capability for mains-side overcurrent protection with 32 A gL/gG Temporary overvoltage (TOV) [L-N] (UT)

6 kArms  335 V / 5 sec.

Temporary overvoltage (TOV) [L/N-PE] (UT)

400 V / 5 sec.

Temporary overvoltage (TOV) [L+N-PE] (UT)

1200 V + UCS / 200 ms

TOV characteristic [L-N]

withstand 

TOV characteristic [L/N-PE]

withstand 

TOV characteristic [L+N-PE] Fault indication

safe  acoustic signal on 

Number of ports Operating temperature range (TU)

1  -25°C...+40°C  2

Terminal wires

1 mm , 120 mm long 

Enclosure material

thermoplastic, red, UL 94 V-2 

Place of installation

indoor installation 

Degree of protection of installed device Dimensions Weight

32 g

Customs tariff number GTIN

85363010 4013364091016

PU

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IP 20  30 x 50 x 11 mm 

1 pc(s)

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SFL Protector

SFL PRO 6X 19" (909 251) ■ Surge protection with monitoring device and disconnector ■ Interference suppressor filter ■ Visual operating state (green) and fault indication (red)

Figure without obligation

Basic circuit diagram SFL PRO 6X 19"

Dimension drawing SFL PRO 6X 19"

Surge protective multiple socket outlet with mains filter for 482.6 mm (19 inches) data cabinets Type Part No. SPD according to EN 61643-11

SFL PRO 6X 19" 909 251 Type 3 

SPD according to 61643-1/-11

Class III 

Nominal a.c. voltage (UN)

230 V

Max. continuous operating a.c. voltage (UC)

255 V

Nominal load current a.c. (IL)

16 A

Nominal discharge current (8/20 µs) (In)

3 kA

Total discharge current (8/20 µs) [L+N-PE] (Itotal)

5 kA

Combined impulse (UOC)

6 kV

Combined impulse [L+N-PE] (UOC total)

10 kV

Voltage protection level (UP)

≤ 1.5 kV

Response time [L-N] (tA)

≤ 25 ns

Response time [L/N-PE] (tA)

≤ 100 ns

Max. mains-side overcurrent protection Short-circuit withstand capability for mains-side overcurrent protection with 16 A gL/gG Temporary overvoltage (TOV) [L-N] (UT)

16 A gL/gG or B 16 A  1.5 kArms 335 V / 5 sec.

Temporary overvoltage (TOV) [L/N-PE] (UT)

400 V / 5 sec.

Temporary overvoltage (TOV) [L+N-PE] (UT)

1200 V + UCS / 200 ms

TOV characteristic [L-N]

withstand 

TOV characteristic [L/N-PE]

withstand 

TOV characteristic [L+N-PE] Fault indication Operating state indication Number of ports Operating temperature range (TU) Connecting cable Number of socket outlets For mounting on

safe  red light  green light  2  -20°C...+40°C  approx. 2000 mm 6  plug-in systems with earth contact according to DIN 49440 / DIN 49441 

Enclosure material

anodised aluminium profile, silver 

Place of installation

indoor installation 

Degree of protection

IP 20 

Dimensions

483 x 44 x 44 mm

Mains filter

according to EN 60939-1 

Attenuation for f = 1 MHz, balanced

≥ 32 dB

Attenuation for f = 1 MHz, unbalanced

≥ 30 dB

Weight Customs tariff number GTIN PU

1 kg 85369010 4013364132573 1 pc(s)

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DEHNpatch DPA M CAT6 RJ45S 48 (929 100) ■ Ideally suited for retrofitting, protection of all lines ■ CAT 6A in the channel according to ANSI/TIA/EIA-568 ■ Power over Ethernet (PoE+ according to IEEE 802.3at) ■ For installation in conformity with the lightning protection zone concept at the boundaries from 0B –2 and higher

Figure without obligation

Basic circuit diagram DPA M CAT6 RJ45S 48

Dimension drawing DPA M CAT6 RJ45S 48

Universal arrester for Industrial Ethernet, Power over Ethernet (PoE+ according to IEEE 802.3at up to 57 V) and similar applications in structured cabling systems according to Cat. 6 and class EA up to 500 MHz. Fully shielded type for DIN rail mounting. Accessories: Earthing bracket with flat connector sleeve Type Part No. SPD class

DPA M CAT6 RJ45S 48 929 100 T 

Nominal voltage (UN)

48 V

Max. continuous operating d.c. voltage (Uc)

48 V

Max. continuous operating a.c. voltage (Uc)

34 V

Max. continuous operating d.c. voltage pair-pair (PoE) (Uc)

57 V

Nominal current (IL)

1 A

D1 Lightning impulse current (10/350 µs) per line (Iimp)

1 kA

C2 Nominal discharge current (8/20 µs) line-line (In)

150 A

C2 Nominal discharge current (8/20 µs) line-PG (In)

2.5 kA

C2 Total nominal discharge current (8/20 µs) line-PG (In)

10 kA

C2 Nominal discharge current (8/20 µs) pair-pair (PoE) (In)

150 A

Voltage protection level line-line for In C2 (UP)

≤ 190 V

Voltage protection level line-PG for In C2 (UP)

≤ 600 V

Voltage protection level line-line for In C2 (PoE) (UP)

≤ 600 V

Voltage protection level line-line at 1 kV/µs C3 (UP)

≤ 145 V

Voltage protection level line-PG at 1 kV/µs C3 (UP)

≤ 500 V

Voltage protection level pair-pair at 1 kV/µs C3 (PoE) (UP)

≤ 600 V

Insertion loss at 250 MHz

≤ 2 dB

Capacitance line-line (C)

≤ 165 pF 

Capacitance line-PG (C) Operating temperature range (TU) Degree of protection For mounting on Connection (input / output) Pinning

≤ 255 pF  -20 °C ... +60 °C  IP 20  35 mm DIN rails acc. to EN 60715  RJ45 connecting line / RJ45 connecting line  1/2, 3/6, 4/5, 7/8  *

Connecting line

A = approx. 0.5 m, G = approx. 3 m ) 

Connector

Stewart 39 series 

Earthing via

35 mm DIN rail acc. to EN 60715 

Enclosure material Colour

zinc die-casting  bare surface 

Test standards

IEC 61643-21 / EN 61643-21 

Transmission class according to ISO/IEC 11801 Transmission class according to EN 50173-1 Transmission class according to ANSI/TIA/EIA-568

Cat. 6  Class EA  cat. 6A in the channel 

Approvals

GHMT, GOST 

Accessories

fixing material 

Weight

244 g

Customs tariff number GTIN

4013364102170

PU *)

85363010 1 pc(s)

Special lengths on request

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DEHNrapid LSA

DRL 10 B 180 FSD (907 401) ■ Lightning current arrester for use as plug-in SPD block with integrated LSA disconnection block function ■ Visual fault indicator of the gas discharge tubes ■ Can be combined to a combined lightning current and surge arrester by means of a DRL protective plug ■ For installation in conformity with the lightning protection zone concept at the boundaries from 0A –1 and higher

Figure without obligation

Basic circuit diagram DRL 10 B 180 FSD

Dimension drawing DRL 10 B 180 FSD

Lightning current carrying DRL plug-in SPD block (10 pairs) for almost all applications. Expandable to a combined lightning current and surge arrester by means of a DRL protective plug. The integrated disconnection block contacts allow testing, measuring and patching with plugged-in protection. The three-pole gas discharge tubes have a fail-safe function with visual fault indicator. Type Part No. SPD class

DRL 10 B 180 FSD 907 401 G 

Fault indication

visual, colour change 

Nominal voltage (UN)

180 V

Max. continuous operating d.c. voltage (UC)

180 V

Max. continuous operating a.c. voltage (UC)

127 V

Nominal current (IL)

0.4 A

D1 Total lightning impulse current (10/350 µs) (Iimp)

5 kA

D1 Lightning impulse current (10/350 µs) per line (Iimp)

2.5 kA

C2 Total nominal discharge current (8/20 µs) (In)

10 kA

C2 Nominal discharge current (8/20 µs) per line (In)

5 kA

Voltage protection level line-line for Iimp D1 (Up)

≤ 500 V

Voltage protection level line-PG for Iimp D1 (Up)

≤ 500 V

Voltage protection level line-line at 1 kV/µs C3 (Up)

≤ 500 V

Voltage protection level line-PG at 1 kV/µs C3 (Up)

≤ 450 V

Series resistance per line

≤ 0.005 ohms 

Capacitance line-line (C)

≤ 5 pF 

Capacitance line-PG (C) Fail-safe function Operating temperature range (TU ) Degree of protection Plugs into Earthing via Enclosure material Colour Test standards Approvals Weight Customs tariff number GTIN PU

≤ 5 pF  gas discharge tube with spring contacts  -40 °C ... +80 °C  IP 10  LSA disconnection block 2/10  mounting frame  polyamide PA 6.6  grey  IEC 61643-21 / EN 61643-21  VdS, GOST  69 g 85363010 4013364107564 10 pc(s)

12

WP011/E/0515

© Copyright 2015 DEHN + SÖHNE

White Paper: Surge protection for Ethernet and Fast Ethernet networks

DEHNrapid LSA

DRL PD 180 (907 430) ■ For maximum transmission rates - combined with overcurrent protection ■ Energy-coordinated with DRL plug-in SPD block ■ For installation in conformity with the lightning protection zone concept at the boundaries from 1 – 2 and higher

Figure without obligation

Basic circuit diagram DRL PD 180

Dimension drawing DRL PD 180

Protective plug (one pair), energy-coordinated with DRL plug-in SPD block, for use as single-stage protective device for terminal equipment. Low voltage protection level line-line and integrated overcurrent protection for ADSL, ISDN Uk0 or a/b lines. To be mounted into EF 10 DRL. Installation recommended only in combination with DRL plug-in SPD block. Type Part No. SPD class

DRL PD 180 907 430 O 

Nominal voltage (UN)

180 V

Max. continuous operating d.c. voltage (UC)

180 V

Max. continuous operating a.c. voltage (UC)

127 V

Nominal current (IL)

0.1 A

D1 Total lightning impulse current (10/350 µs) in combination with DRL 10 B... (Iimp)

5 kA

D1 Lightning impulse current (10/350 µs) per line in combination with DRL 10 B... (Iimp)

2.5 kA

C2 Total nominal discharge current (8/20 µs) in combination with DRL 10 B... (In)

10 kA

C2 Nominal discharge current (8/20 µs) per line in combination with DRL 10 B... (In)

5 kA

C1 Nominal discharge current (8/20 µs) per line without DRL 10 B... (In)

0.25 kA

Voltage protection level line-PG for Iimp D1 in combination with DRL 10 B... (Up)

≤ 500 V

Voltage protection level line-line at 1 kV/µs C3 (Up) Series resistance per line

≤ 270 V 10 ohms +/- 15% 

Cut-off frequency line-line (fG)

61 MHz

Capacitance line-line (C)

≤ 80 pF 

Version

integrated overcurrent protection  

Operating temperature range (TU ) Degree of protection Plugs into

LSA disconnection block 2/10 or DRL 10 B... plug-in SPD block 

Enclosure material Colour

polyamide PA 6.6  yellow 

Test standards

IEC 61643-21 / EN 61643-21 

Approvals

GOST, VdS 

Weight

4 g

Customs tariff number GTIN

85363010 4013364107670

PU

WP011/E/0515

0 °C ... +70 °C  IP 20 (when plugged in) 

10 pc(s)

© Copyright 2015 DEHN + SÖHNE

 

13

White Paper: Surge protection for Ethernet and Fast Ethernet networks

DEHNrapid LSA

EF 10 DRL (907 498)

Figure without obligation

Dimension drawing EF 10 DRL

Snap-on earthing frame for earthing and mounting max. 10 DRL protective plugs. Plugs into a 10-pair disconnection block or DRL plug-in SPD block. Type Part No. Plugs into

EF 10 DRL 907 498 LSA disconnection blocks or DRL SPD plug-in block 

     

mounting frame or DRL SPD plug-in block 

 

polyamide PA 6.6 

 

Colour

yellow 

 

Weight

10 g

 

85389099

 

4013364107540

 

1 pc(s)

 

Earthing via Enclosure material

Customs tariff number GTIN PU

TL2 10DA LSA (907 996)

Figure without obligation

Type 2 for LSA technology for connecting 10 pairs each on the cable and routing side. Protection is provided between the disconnection contacts as soon as DRL components are plugged in. DPL 10 G3 arresters can also be plugged into the disconnection block. Type Part No. Enclosure material Test standards Approvals

TL2 10DA LSA 907 996 PBT  DIN 47608-1, -2  compliance with DTAG TS 0272/96 

Diameter of solid conductors

0.40-0.80 mm

Conductor diameter with insulation

0.70-1.50 mm

Contacting frequency for conductor diameters ≤ 0.65 mm Contacting frequency for conductor diameters of 0.8 mm Contact material

> 50 x  ≤ 50 x  special brass 

Contact surface

silver 

Flame protection

UL 94 V-0 

Insulation resistance

5x 10.000 Mohms 

Volume resistance of IPC terminal

< 10 mohms 

Electric strength

2 kV / 50 Hz 

Weight Customs tariff number GTIN PU

60 g 85369010 4013364033535 1 pc(s)

14

WP011/E/0515

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White Paper: Surge protection for Ethernet and Fast Ethernet networks

DSM

DSM TC 2 SK (924 272) ■ Excellent transmission performance ■ Also suitable for installation into distribution boards ■ For installation in conformity with the lightning protection zone concept at the boundaries from 0B –2 and higher

Figure without obligation

Basic circuit diagram DSM TC 2 SK

Dimension drawing DSM TC 2 SK

Energy-coordinated two-stage surge arrester free of leakage currents to earth for (system) telephones, Uk0,ADSL, for two pairs. Type Part No. SPD class

DSM TC 2 SK 924 272 R 

Nominal voltage (UN) Max. continuous operating d.c. voltage (UC) Nominal current (IL)

130 V 170 V 200 mA

D1 Lightning impulse current (10/350 µs) per line (Iimp)

1 kA

C2 Total nominal discharge current (8/20 µs) (In)

20 kA

C2 Nominal discharge current (8/20 µs) per line (In)

5 kA

Voltage protection level line-line for In C2 (UP)

≤ 275 V

Voltage protection level line-PG for In C2 (UP)

≤ 600 V

Voltage protection level line-line at 1 kV/µs C3 (UP)

≤ 220 V

Voltage protection level line-PG at 1 kV/µs C3 (UP) Series resistance per line Cut-off frequency (fG) Capacitance line-line (C) Capacitance line-PG (C) Operating temperature range (TU) Degree of protection Connection (input / output) Pinning

17 MHz ≤ 300 pF  ≤ 10 pF -40 °C ... +80 °C  IP 20  2

four-pole terminal / stranded conductors (0.25 mm )  2 pairs 

Connection diameter, solid Earthing via

0.5-1.0 mm flat connector (2.8 mm) 

Enclosure material Colour

polyamide PA 6.6  yellow 

Test standards

IEC 61643-21 / EN 61643-21 

Approvals

GOST 

Accessories

flat connector, 500 mm earthing conductor  

Weight

45 g

Customs tariff number GTIN

85363010 4013364082984

PU

WP011/E/0515

≤ 600 V 4.7 ohms

1 pc(s)

© Copyright 2015 DEHN + SÖHNE

15

White Paper: Surge protection for Ethernet and Fast Ethernet networks

DEHNlink

DLI TC 2 I (929 028) ■ LED display for supply voltage ■ Integrated protection against power crossing ■ For installation in conformity with the lightning protection zone concept at the boundaries from 0B –2 and higher

Figure without obligation

Basic circuit diagram DLI TC 2 I

Dimension drawing DLI TC 2 I

Two-stage surge arrester with overcurrent protection for analogue or system telephones with operating state indication (LED). Even protects from alternating current interference. Pins compatible with RJ11/12 plugs. Connecting cable and mounting material included. Type Part No. SPD class

DLI TC 2 I 929 028 R 

Nominal voltage (UN)

130 V

Max. continuous operating d.c. voltage (Uc)

170 V

Max. continuous operating a.c. voltage (Uc) Nominal current (IL)

120 V 150 mA

D1 Lightning impulse current (10/350 µs) per line (Iimp)

1 kA

C2 Total nominal discharge current (8/20 µs) (In)

10 kA

C2 Nominal discharge current (8/20 µs) per line (In)

2.5 kA

Voltage protection level line-line for In C2 (Up)

≤ 250 V

Voltage protection level line-PG for In C2 (Up)

≤ 600 V

Voltage protection level line-line at 1 kV/µs C3 (Up)

≤ 230 V

Voltage protection level line-PG at 1 kV/µs C3 (Up) Series resistance per line

≤ 600 V 10 ohms 

Cut-off frequency line-line

10 MHz

Capacitance line-line (C)

≤ 0.3 nF 

Capacitance line-PG (C) Operating temperature range (TU) Degree of protection Connection (input / output) Pinning Earthing via Enclosure material Colour Test standards Approvals Accessories Weight Customs tariff number GTIN PU

≤ 15 pF  -40 °C ... +80 °C  IP 20  RJ45 / RJ 45 (compatible with RJ12)  3/6, 4/5 (3/4, 2/5 for RJ12)  flat connector (6.3 mm)  polyamide PA 6.6  yellow  IEC 61643-21 / EN 61643-21  GOST  connecting cable, mounting material  101 g 85363010 4013364093379 1 pc(s)

16

WP011/E/0515

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White Paper: Surge protection for Ethernet and Fast Ethernet networks

NET Protector NET PRO TC 2 LSA (929 072) ■ Patch panel or retrofit version ■ Integrated protection against power crossing ■ For installation in conformity with the lightning protection zone concept at the boundaries from 0B –2 and higher

Figure without obligation

Basic circuit diagram NET PRO TC 2 LSA

Dimension drawing NET PRO TC 2 LSA

Surge protection component with eight unshielded ports for protecting telecommunications systems with analogue or system transmission from overvoltage and a.c. interference. PTC thermistors decouple the protection stages and thus additionally protect terminal equipment in case of power crossing. To be mounted into EG NET PRO 19“ as retrofit or patch panel version (LSA). Type Part No. SPD class

NET PRO TC 2 LSA 929 072 R 

Nominal voltage (UN)

130 V

Max. continuous operating d.c. voltage (Uc)

170 V

Max. continuous operating a.c. voltage (Uc)

120 V

Nominal current (IL)

150 mA

D1 Lightning impulse current (10/350 µs) per line (Iimp)

1 kA

C2 Nominal discharge current (8/20 µs) per port (In)

20 kA

C2 Nominal discharge current (8/20 µs) per line (In)

5 kA

Voltage protection level line-line for In C2 (Up)

≤ 275 V

Voltage protection level line-PG for In C2 (Up)

≤ 600 V

Voltage protection level line-line at 1 kV/µs C3 (Up)

≤ 230 V

Voltage protection level line-PG at 1 kV/µs C3 (Up)

≤ 600 V

Series resistance per line

10 ohms 

Cut-off frequency line-line (fG)

10 MHz

Capacitance line-line (C)

≤ 300 pF 

Capacitance line-PG (C)

≤ 25 pF 

Operating temperature range (TU)

-40 °C ... +80 °C 

Degree of protection

IP 00 

For mounting on

enclosure 

Connection (input / output)

LSA / RJ45 

Pinning

4/5, 3/6 

Earthing via

enclosure 

Dimensions (W x L)

135 x 107 mm

Test standards

IEC 61643-21 / EN 61643-21 

Approvals

GOST 

Weight

257 g

Customs tariff number

85363010

GTIN

4013364083165

PU

1 pc(s)

482.6 mm (19 inch) Enclosure Fully shielded empty enclosure for max. three NET Protector protection components. Type Part No. Dimensions Enclosure material Weight Customs tariff number GTIN PU

WP011/E/0515

© Copyright 2015 DEHN + SÖHNE

EG NET PRO 19" 929 034 1 vertical module 

     

stainless steel front / galvanised sheet metal 

 

2,36 kg

 

85389099

 

4013364072145

 

1 pc(s)

 

17

■ Surge protective device for Ethernet com ■ Shielded Cat 5e patch cable (1.5 m) inclu ■ For installation in conformity with the ligh

DPRO 230 LAN100 (909 321)

DPRO 230 LAN100 (909 321) ■ Surge protective device for Ethernet components (1000 BASE-T) with an elegant design

White Paper: Surge protection for Ethernet and Fast Ethernet networks

■ Shielded Cat 5e patch (1.5 m) components included ■ Surge protective devicecable for Ethernet (1000 BASE-T) with an elegant design ■ Shielded For installation conformity lightning protection zone concept at the boundaries from 2 – 3 and higher Cat 5einpatch cable with (1.5 the m) included ■ For installation in conformity with the lightning protection zone concept at the boundaries from 2 – 3 and higher

DPRO 230 LAN100 (909 321)

DEHNprotector

■ Surge protective device for Ethernet components (1000 BASE-T ■ Shielded Cat 5e patch cable (1.5 m) included ■ For installation in conformity with the lightning protection zone c

DPRO 230 LAN100 (909 321)

Figure without obligation

■ Surge protective device for Ethernet components (1000 BASE-T) with an elegant design Combined surge protection for the power side a ■ Shielded Cat 5e patch cable (1.5 m) included It meets the requirements for channel class D in ■ For installation in conformity with the lightning protection zonediagram concept at230 theLAN100 boundaries from 2 – 3 and higher With visual state and fault indication a Basic circuit circuit diagram DPRO 230 LAN100 Dimension drawingoperating DPRO 230 230 LAN100 LAN100 Basic DPRO Dimension drawing DPRO

Figure without without obligation obligation Figure

Figure without obligation

Basic circuit diag Combined surge protection for the power side and data input for protecting LAN components. Protection of all pairs for Ethernet pin assignment. Protection of protection the data side Combined surge for the power side and data input for protec It meets the requirements for channel class D in accordance with EN 50173 and is thus suitable for 1000 Base-T (Gigabit It meetsEthernet). the requirements for channel class D in accordance with EN 5 Type With visual operating state and fault indication and integrated child lock With visual visual operating operating state state and With and fault fault indication indication and and integrated integrated child child lock. lock. Part No. Protection of the data side Protection of of the the data data side side Type SPD class Protection

Part No.

Type Type Part No. Part No. SPD class

DPRO 230 LAN100 SPD class Max. continuous operating d.c. voltage (UC) DPRO 230 LAN100 Max. continuous operating d.c. voltage (U ) 909 321 909 321 Lightning impulse current (10/350 µs) line D1 (Iimp) Lightning impulse current (10/350 µs) per line D1 (I per ) Q  C

imp

SPD class

Q 

Max. continuous operating d.c. voltage (UC)

58 V

Max. continuous operating d.c. voltage (UC)

58 V

Lightning impulse current (10/350 µs) per line D1 (Iimp)

1 kA

Figure without obligation

Lightning impulse current (10/350 µs) per line D1 (I ) C2 Nominal discharge current (8/20 µs) line-line (I )imp n

C2 Nominal discharge current (8/20 µs) line-line (In)

Basic circuit diagram DPRO 230 LAN100

1 kA 30 A 30 A

C2 Nominal discharge current (8/20 µs) line-line (In)

C2 Nominal discharge current (8/20 µs) line-line (In) C2 Nominal discharge current (8/20 µs) line-PE (I ) n

C2 Total nominal discharge current (8/20 µs) (I ) C2 Nominal discharge current (8/20 µs) line-PE (In) n

Voltage protection level line-line for In C2 (Up)

C2 Total nominal discharge current (8/20 µs) (In) Voltage protection level line-PE for In C2 (Up)

Dimension drawing DPRO 230 LAN100 Voltage protection level line-line at 1 kV/µs C3 (U )

C2 Nominal discharge current (8/20 µs) line-PE (In) 2.5 kA Voltage protection level line-line for protection level line-PE at 1 kV/µs C3 (U I) n C2 (Up) Combined surge protection for the power side and data input for protecting LAN components. Protection of all pairs forVoltage Ethernet pin assignment. Cut-off frequency (f ) C2 Total Nominal discharge current (8/20 (8/20 µs) line-PE (In) 2.5 kA C2 nominal discharge current µs) (I ) 10 kA n Voltage protection level line-PE for In C2 (Up) It meets the requirements for channel class D in accordance with EN 50173 and is thus suitable for 1000 Base-T (Gigabit Ethernet). Operating temperature range (T ) C2 Total nominal discharge current (8/20 µs) Voltage protection level state line-line forfault In C2 indication (U ≤10 kA 100 V p) (In) With visual operating and and integrated child lock. of protectionlevel line-line at 1 kV/µs C3 (U ) VoltageDegree protection p p

p

G

U

Voltage protection level line-PE line-line for for IInnC2 C2 (U (Upp))

≤ 500 V 100 V

p Voltage protection level line-PE for In C2 (Up) Type Voltage protection protection level level line-line line-PE at Voltage at 11 kV/µs kV/µs C3 C3 (U (Upp)) Part No. Cut-off frequency (fG) Voltage protection level line-PE at 1 kV/µs C3 (Up) SPD class Operating temperature range (TU) Cut-off frequency (fG) Max. continuous operating d.c. voltage (UC)

≤ 90 V 500 V

Protection of the data side Voltage protection level line-line at 1 kV/µs C3 (U )

Degree of protection

Operating temperature range (TU) Lightning impulse Connection (input current / output)(10/350 µs) per line D1 (Iimp) Degree of protection C2 Nominal discharge current (8/20 µs) line-line (In) Pinning

Connection / output) C2 Nominal discharge current (8/20 µs) line-PE (In) Earthing via (input Pinning Enclosure materialdischarge current (8/20 µs) (I ) C2 Total nominal n

Earthing via Colour Voltage protection level line-line for In C2 (Up) Enclosure material Test standards Voltage protection level line-PE for In C2 (Up) Colour Voltage protection level power line-line atside 1 kV/µs C3 (Up) Protection of the Test standards Voltage protection level line-PE at 1 kV/µs C3 (Up) Type Part No. SPD according to EN 61643-11 / IEC 61643-11

Cut-off frequency G) Protection of (fthe power side Operating temperature range (TU) Type Nominal a.c. voltage (UN) Degree of protection Part No.

Max. continuous operating a.c. voltage (UC)

SPD according to EN 61643-11 / IEC 61643-11 Connection (input / output) Nominal load current a.c. (IL)

Nominal a.c. voltage (UN) Pinning

Nominal discharge current (8/20 µs) (In)

Max. continuous operating a.c. voltage (UC) Earthing via

Total discharge current (8/20 µs) [L+N-PE] (Itotal)

Enclosure material Nominal load current a.c. (IL) Combination wave (U ) oc

Colour Nominal discharge current (8/20 (In) Combination wave [L+N-PE] (Uocµs) total) Test Totalstandards discharge current Voltage protection level (8/20 [L-N] µs) (U )[L+N-PE] (Itotal) p

Combination wave level (Uoc) [L/N-PE] (Up) Voltage protection

Protection of the power side Response time [L-N] (tA) Combination wave [L+N-PE] (Uoc total)

Type

Response time [L/N-PE] (tA) (Up) Voltage protection level [L-N] Part No. Max. mains-side overcurrent protection Voltage protection level [L/N-PE] (U )

p 61643-11 SPD according to EN 61643-11 / IEC Short-circuit withstand capability for mains-side overcurrent Response time [L-N] (U (tAN) ) Nominal a.c. voltage

protection (ISCCR)

Response time [L/N-PE] (tA)a.c.[L-N] Max. continuous operating voltage ) Temporary overvoltage (TOV) (UT(U ) –CCharacteristic Max. mains-side overcurrent Temporary overvoltage (TOV) [L-N] (UT) – Characteristic Nominal load current a.c. (IL) protection

Short-circuit withstand capability for mains-side overcurrent Temporary overvoltage (TOV) [L/N-PE] Nominal discharge current (8/20 µs) (In) (UT) – Characteristic protection (ISCCR) Temporary overvoltage (TOV) [L/N-PE] (U ) – Characteristic Total discharge current (8/20 µs) [L+N-PE]T (Itotal) Temporary overvoltage (TOV) [L-N] (UT) – Characteristic Temporary overvoltage Combination wave (Uoc) (TOV) [L+N-PE] (UT) – Characteristic Temporary overvoltage (TOV) [L-N] (UT) – Characteristic Fault indication Combination wave [L+N-PE] (Uoc total) Temporarystate overvoltage (TOV) [L/N-PE] (UT) – Characteristic Operating indication Voltage protection level [L-N] (Up) Number of ports Temporary overvoltage (TOV) [L/N-PE] (UT) – Characteristic Voltage protection level [L/N-PE] (Up) For mounting on Temporary overvoltage (TOV) [L+N-PE] (UT) – Characteristic Response time [L-N] (tA) Test Faultstandards indication Response time [L/N-PE] (tA) Weight Operating state indication Customs tariff number Max. mains-side overcurrent protection Number of ports GTIN Short-circuit withstand capability for mains-side overcurrent For mounting on protection (ISCCR) PU Test standards Temporary overvoltage (TOV) [L-N] (UT) – Characteristic Weight Temporary overvoltage (TOV) [L-N] (UT) – Characteristic Customs tariff number Temporary overvoltage (TOV) [L/N-PE] (UT) – Characteristic 18 GTIN Temporary overvoltage (TOV) [L/N-PE] (UT) – Characteristic PU Temporary overvoltage (TOV) [L+N-PE] (UT) – Characteristic

Connection (input / output)

VoltagePinning protection level line-PE at 1 kV/µs C3 (Up) Earthing via

Cut-offEnclosure frequency material (fG) DPRO ≤230 LAN100 500 V Colour 90 V Operating temperature range (TU) 909 321 Test standards 120 MHz ≤ 500 V Q  DegreeProtection of protection of the power side -25 °C ... +40 °C  120 MHz Type (input / output) Connection 58 V IP 20 

-25 °C ... +40 °C 

Part No. SPD according to EN 61643-11 / IEC 61643-11

1 kA shielded RJ45 socket /shieldedPinning RJ45 Nominal socket  a.c. voltage (U ) IP 20 

N

via 30 A Max. continuous operating a.c. voltage (U ) 1/2, 3/6, 4/5, 7/8 Earthing C

shielded RJ45 socket /shielded RJ45 socket  Enclosure protective conductor connection   material 2.5 kA

Nominal load current a.c. (IL)

Nominal discharge current (8/20 µs) (In)

1/2, 3/6, 4/5, 7/8  V-2  Total discharge current (8/20 µs) [L+N-PE] (I ) thermoplastic, 10 kAUL 94Colour Combination wave (U ) protective conductor connection   pure white  Test standards Combination wave [L+N-PE] (U ) ≤ 100 V thermoplastic, UL61643-21  94 V-2  Voltage protection level [L-N] (U ) IEC 61643-21 / EN ≤ 500 V Voltage protection level [L/N-PE] (U ) of the power side pure white  Protection Response time [L-N] (t ) 90 V Type Response time [L/N-PE] (t ) IEC 61643-21 / EN 61643-21  Max. mains-side overcurrent protection 500 V DPRO ≤230 LAN100 Part No. Short-circuit withstand capability for mains-side overcurrent 909 321 SPD according ) protection (I 120 MHz to EN 61643-11 / IEC 61643-11 Temporary overvoltage (TOV) [L-N] (U ) – Characteristic type 3 / class III  -25 °C ... +40 °C  Temporary overvoltage (TOV) Nominal a.c. voltage (UN)[L-N] (U ) – Characteristic DPRO 230 LAN100 total

oc

oc total p

p

A

A

SCCR

T

230 V (50 / 60 Hz) 

T

Temporary overvoltage (TOV) [L/N-PE] (UT) – Characteristic

IP 20  909 321 Max. continuous operating a.c.(Uvoltage (UC) Temporary overvoltage (TOV) [L/N-PE] ) – Characteristic 255 V (50 / 60 Hz)  3 / /shielded class III Nominal shielded RJ45type socket RJ45 Temporary socket  load overvoltage current(TOV) a.c.[L+N-PE] (I ) (U ) – Characteristic T

16 A

Fault indication

L

T

230 (504/5, / 607/8  Hz)  1/2,V3/6, Operating state indication Nominal discharge current (8/20 µs) (In) 3 kA Number of ports protective   255conductor V (50 / 60connection Hz)  Total discharge For mounting oncurrent (8/20 µs) [L+N-PE] (I 5 kA

thermoplastic, UL 94 V-2  Test standards 16 A Combination wave (Uoc) 6 kV Weight pure white  Customs tariff number 3 kA 10 kV Combination wave [L+N-PE] (Uoc total) GTIN IEC 61643-21 / EN 61643-21 PU 5 kA ≤ 1.25 kV Voltage protection level [L-N] (Up) ≤ 6 kV 1.5 kV Voltage protection level [L/N-PE] (U )

)

total

p

≤10 kV 25 ns

Response time [L-N] (tA) DPRO 230 LAN100 100 ns ≤≤ 1.25 kV 909 321 Response time [L/N-PE] (tA) B 16 A  type≤31.5 kV / class III Max. mains-side overcurrent protection 25 ns Short-circuit withstand capability for mains-side overc 230 V≤1 kA (50 /rms 60 Hz)  protection (ISCCR) 100 ns 255 V≤ (50 / 60 Hz) 

335 V / 5 sec. – withstand 

Temporary overvoltage (TOV) [L-N] (UT) – Characteris

16 A  440 V / 120Bmin. – safe failure  16 A

Temporary overvoltage (TOV) [L-N] (UT) – Characteris 335 V / 120 min. 3 kA – withstand 

1 kArms Temporary overvoltage (TOV) [L/N-PE] (UT) – Charac 440 V / 5 sec. 5 kA– withstand 

V / 5 /sec. withstand  Temporary 1200 335 V+U 200 –ms – safe failure  overvoltage (TOV) [L/N-PE] (UT) – Charac REF

6 kV 440 V red / 120 min. – safe failure  indicator light  Temporary overvoltage (TOV) [L+N-PE] (UT) – Charac 10 kV 335 green V / 120indicator min. – withstand  light  Fault indication ≤ 1.25 kV 1  – withstand  440 V / 5 sec. Operating state indication ≤ 1.5 kVto DIN 49440/DIN 49441  earthed socket according 1200outlets V + UREF / 200 ms – safe failure  Number of ports 25 ns EN ≤61643-11  red indicator light For mounting on ≤ 222 g 100 ns green indicator light  Test standards 85363010 B 16 A  1  Weight 4013364126152

earthed socket outlets according to DIN 49440/DIN Customs tariff 49441  number 1 kArms 1 pc(s) EN 61643-11  GTIN 335 V / 5 sec. – withstand  222 g PU 440 V / 120 min. – safe failure  85363010 335 V / 120 min. WP011/E/0515 – withstand  © Copyright 2015 DEHN + SÖHNE 4013364126152 440 V / 5 sec. – withstand  1 pc(s) 1200 V + UREF / 200 ms – safe failure 

White Paper: Surge protection for Ethernet and Fast Ethernet networks

Equipotential busbar te st ed

PAS 11AK (563 200)

Figure without obligation

Part No.

563 200

Connection (solid / stranded)

10 x 2.5-95 mm

2

Connection Rd

or 10 x -10 mm

Connection Fl

1 x -30 x 4 mm

Contact bar

Cu/gal Sn 

Cross section

30 mm

Fixing

2

[2x] 6 x 8 mm

Fixing frames

P (grey) 

Cover

P (grey/sealable) 

Standard

EN 62561-1 

Type

halogen-free 

Weight

410 g

Customs tariff number GTIN

4013364056558

PU

WP011/E/0515

85389099 1 pc(s)

© Copyright 2015 DEHN + SÖHNE

19

White Paper: Surge protection for Ethernet and Fast Ethernet networks DPG LSA 30 P (906 100) DPG LSA 60 P (906 101)

■ Lightning current carrying earthing system for arresters and shield connection ■ Lightning current carrying earthing system for arresters and shield connectio ■ Integrated mounting frame for LSA blocks with a grid dimension of 30 mm ■ Integrated mounting frame for LSA blocks with a grid dimension of 30 mm DPG LSA P (906cable 100) ■ Extra space30 for uninterfered routing and surge arresters ■ Extra space for uninterfered cable routing and surge arresters

Enclosure for equipotential bonding ■ Lightning current carrying earthing system for arresters and shield connection

6 100) DPG LSA 30 P (906 100) frame for LSA blocksDPG ■ Integrated mounting with aLSA grid dimension ofDPG 30 mm 60 P (906 101) LSA 60 P (906 101) DPG LSA 30 P (906 100)

DPG LSA 30 P (906 100)

DPG LSA 60 P (906 101)

■current Extraand space for uninterfered cable routing and surge arresters arthing system ■ Lightning for arresters carrying shield earthing connection system for arresters and shield connection ■ Lightning current carrying earthing■system Lightning forcurrent arresters carrying and shield earthing connection system for arresters and shield connection for LSA blocks ■ Integrated with a grid mounting dimension frameoffor 30LSA mm blocks with a grid dimension of 30 mm ■ Integrated mounting frame for LSA ■ blocks Integrated withmounting a grid dimension frame for ofLSA 30 mm blocks with a grid dimension of 30 mm ■ Lightning current carrying earthing system for arresters and shield connection d cable routing ■ Extra and space forarresters uninterfered cable routing and surge arresters ■ surge Lightning current carrying earthing system for arresters and ■ shield Lightning current carrying earthing for arresters and shield connection Extraconnection space for uninterfered cable■routing Extra ■ space and surge for uninterfered arresters cable routing and system surge arresters

Integrated mounting for LSA with aofgrid dimension ■■ Integrated mounting frame forframe LSA blocks with ablocks grid dimension 30 mm ■■ Extra space for uninterfered cable routing and surge arresters Extra space for uninterfered cable routing and surge arresters

of 30 mm

Figure without obligation

■ Integrated mounting frame for LSA blocks with a grid dimension of 30 mm ■ Extra space for uninterfered cable routing and surge arresters

Figure without obligation Figure without obligation

Dimension drawing DPG LSA 30 P

Figure without obligation

Figure without obligation

Dimension drawing DPG LSA 60 P

Dimension drawing DPG LSA 60

Figure without obligation Dimension drawing DPGsystem LSA 30 P Dimension drawing DPGframe LSA 30 P and DPG LSA is a completely premounted enclosure LSA mounting allows optimised useand ofallows arresters DPG iswith a premounted completely premounted enclosure with LSA mounting framean DPG LSA iswith a completely premounted DPG enclosure LSA is aLSA system completely LSA mounting enclosure frame system with optimised LSA and mounting useshield ofsystem arresters frameconnection and and allows shield optimised connection use of arresters nted DPG enclosure LSA is system a completely with LSA premounted mounting frame enclosure and allows systemoptimised with LSA use mounting of arresters frame and and(constant shield allowsconnection optimised use of arresters and shield(constant connection Dimension drawing DPG LSA 30 P systems force spring). systems (constant force spring).force systems (constant force spring). systems spring).

systems Figure (constant force spring). without obligation

Figure without obligation Typeframe DPG LSA 60 shield P DPG LSA 60 P DPG LSA is a completely premounted enclosureType system with LSA mounting and allows optimised use of arresters and connection

DPG LSA 30 P (906 100)

Typedrawing DPG LSA 30 P DPG LSA 30 P Part No. No. 906 101 Type Type DPG LSA 30 P DPG LSA 30 P Part Dimension systems (constant force spring). Carrying capacity of connection elementsCarrying D1 Totalcapacity lightningof connection elements D1 Total lightning Part No. 906 100 with LSA 906allows 100 Part No. Part No. DPG LSA is a completely premounted enclosure system mounting frame µs) and optimised use LSA of arresters is aµs) completely premounted connection with LSA mounting 906 100enclosure system impulse current (10/350 (Iimp) impulseDPG current (10/350 (Iimp)and shield 30 kA nts D1Carrying Total lightning capacity of connection elements D1 Total lightning Type DPG LSA 30 P systems (constant force spring).carrying systems (constant force spring). ■ Lightning current earthing system formounting arresters and15 kA shield connection Figure without obligation Carrying capacity connection elements D115 kA Total lightning Carrying capacity of connection elements D11xTotal lightning LSA frame for LSA mounting frame for 6 blocks 2/10  impulse current (10/350 µs) (Iimp) of Part No. 906 100 Grid dimension of mounting frame 2/10  dimension of mounting frame 30 mm for with a grid dimension of Grid 30 mm Type impulse current (10/350Dimension µs)15 kA (Iimp) drawing DPG LSA DPG LSA 30 P 1x LSA 3 blocksblocks 2/10  1x 3 blocks 30 P Carrying capacity of connection elements D1 Total lightning Wire guides 2 pc(s). Part No. Part No. 906 100 Grid dimension of mounting 30 mm 30 mm ■ Extra frame space for uninterfered cable routing Wire andguides surge arresters LSA mounting frame for LSA mounting frame for 1x 3 elements blocks 2/10  impulse current (10/350 elements µs) (Ipremounted DPG LSA is a completely enclosureCable system and allows optimised use arresters and shield 15 kA imp)D1 Total lightning entries with LSA mounting Cableframe entries top / bottom  Carrying capacity of connection Carrying capacity of connection D1of Total lightning

■ Integrated mounting Type ) impulse current (10/350 µs) (Iimpframe LSA mounting frame for Wire guides

impulse current (10/350 µs)force (I ) spring). systems (constant frame

imp LSA dimension mounting frame for Grid of mounting Cable entries

frame of for mounting Cable railLSA Gridmounting dimension Wire guides

1 pc(s).

top / bottom 

Cable rail Lock

1 pc(s).

top / bottom 

current (10/350 µs) (I imp)3 1x blocks Grid dimension of mounting frame 2/10  30 mm

Cable rail impulse 15 kA Lock

Weight

Degree of protection DPG 60 P (906 101) Degree ofLSA protection 3,4 kg Wire guides

PU

85381000

PU

3,4 kg

Type Part No. GTIN Customsoftariff number Degree protection Customs tariff number Carrying capacity of connection elements D1 Total lightning PU GTIN Earthing via impulse current (10/350 µs) (Iimp) GTIN PU LSA mounting frame for

For mounting on Weight Customs tariff number Weight

Dimensions W x H x D PU Grid dimension of mounting frame Enclosure material Wire guides Colour

Cable entries Weight Cable rail

Customs tariff number Lock

Figure without obligation GTIN

For mounting on

PU

85381000

GTIN PU

Degree IP 40  of protection

IP 40 

Earthing via earthing block  Earthing via

Customs tariff number 85381000 Weight

GTIN 4013364106598

Customs tariff number PU 1 pc(s)

GTIN PU

30 mm

Dimensions W x H x D

Customs tariff number

LSA mounting frame for GTIN

Grid dimension of mounting frame PU

Wire guides

connectiontop / bottom  top / bottom 

yes 

yes 

walls 

walls  IP 40  earthing block 

240 x 350 x 130 mm

240 x 350 x 130 mm

top / b

sheet steel 

sheet steel 

RAL 9002 

RAL 9002 

top / b

4,97 kg

4,97 kg

85381000

85381000

4013364106604

4013364106604 1 pc(s)

For mounting on Degree of protection Earthing via Dimensions W x H x D

1 pc(s). RAL 9002 

3,4 kg

top / bottom 

85381000 yes 

4013364106598

walls  Dimension drawing DPG LSA 60 P

1 pc(s)

240 x 260 x 130 mm

DPG LSA 60 P sheet steel  906 101 RAL 9002  3,4 kg 30 kA

85381000

1x 6 blocks 2/10  4013364106598

30 mm

1 pc(s)

2 pc(s).

yes  walls  IP 40  earthing block  240 x 350 x 130 mm sheet steel 

Colour

RAL 9002 

Weight Customs tariff number GTIN PU

4,97 kg 85381000 4013364106604 1 pc(s)

20

WP011/E/0515

IP

earthin

240 x 350

sheet RAL

4,97

1 p

top / bottom 

Enclosure material

ye

wa

4013364

30 mm sheet steel 

top / bottom 

Lock

2 pc

8538

85381000

top / bottom 

30 

IP 40 

4013364106598 earthing block  15 kA 4013364106598 1 pc(s) 1x x31 pc(s) blocks 2/10  240 260 x 130 mm

Cable rail

30

1x 6 bloc

earthing block 

DPG 3,4 kg LSA 30 P walls  3,4 kg 906 100 85381000 IP 40 

Cable entries

DPG LS 906

2 pc(s).

Degree of protection IP use 40  of arresters and shield connection DPG LSA is a completely premounted enclosure system with LSA mounting frame and allows optimised Earthing via earthing block  systems (constant force spring).

Type Enclosure material Part No. Colour Carrying capacity of connection elements D1 Total lightning Weight current (10/350 µs) (I ) impulse imp

Dimensio

1x 6 blocks 2/10 

1 pc(s). 1 pc(s) earthing block  earthing block  Dimensions W x H x D current carrying earthing Dimensions 240 x 260 x 130 mmW x H x D Cable entries top / bottom  Dimension drawing DPG LSA 30 P ■ Lightning system for arresters and shield connection 4013364106598 4013364106598 Dimensions Dimensions W x H x240 D x x130 mm Dimensions W W xx H H xx D D 240x x260 260 130 mm Enclosure material Enclosure sheet steel  1 pc(s) ■LSA Integrated mountingpremounted frame for LSA blocks with a grid of 30 frame mm DPG is a completely enclosure system withdimension LSA1 pc(s) mounting andmaterial allows optimised use of arresters and shield connection Cable rail top / bottom  Enclosure material sheet steel  Enclosure material Enclosure material sheet steel  Colour Colour RAL 9002  systems (constant force spring). ■ Extra space for uninterfered cable routing and surge arresters Lock yes  Colour RAL 9002  Colour Colour RAL 9002  Weight Weight 3,4 kg

Figure without obligation viavia Earthing CustomsEarthing tariff number Earthing via

GTIN

GTIN

top / bottom 

LSA mounting frame for

1x 3 blocks 2/10  top / bottom  top / bottom  frame 30 mm Wire on guides 1 pc(s). For mounting on For mounting Type DPG LSA 30 P Grid dimension of mounting frame Grid dimension of mounting frame 30 mm Lock yes  yes  Degree of protection Degree of protection Wire guides 1 pc(s). Part No. Cable entries Cable entries 906 100 top / bottom  For mounting on walls  walls  Wire guides Wire Earthing via Earthing1 pc(s). via guides Cable entries top / bottom  Carrying lightning Degree of protection IP Total 40  IP 40  Cable railcapacity of connection elements D1 Cable rail Dimensions W x H x D Dimensions W xentries HxD top / bottom  Cable entries Cable top / bottom  Cable Earthing Cable via top 15 kA / bottom  earthing block  earthing block  Enclosure impulse current (10/350 µs) (Iimp) Enclosure material material railrail Cable rail top / bottom  Lock Lock yes  Dimensions WxHxD 240 x 260 x 130 mm Colour 240 x 260 x 130 mmColour Lock yes  2/10  Lock Lock yes  LSA mounting frame for 1x 3 blocks Weight WeightFor mounting on Enclosure material sheet steel  sheet steel  For mounting on walls  For on on For mounting on walls  Formounting mounting walls  Customs tariff number Customs tariff number Colour Grid dimension of mounting frame RAL 9002  RAL 9002  30 mm Degree of protection Degree of protection IP 40 

906 101

frame and30 kA allows optimised

© Copyright 2015 DEHN + SÖHNE

White Paper: Surge protection for Ethernet DPG and Fast Ethernet networks LSA 220 P (906 103) DPG LSA 120 P (906 102)

■ Lightning current carrying earthing system for arresters and shield connectio ■ Lightning current carrying earthing system for arresters and shield connection ■ Integrated mounting frame for LSA blocks with a grid dimension of 30 mm ■ Integrated for 100) LSA blocks with a grid dimension of 30 mm ■ Extra space for uninterfered cable routing and surge arresters DPG LSA mounting 30 P frame (906 ■ Extra space for uninterfered cable routing and surge arresters

Enclosure for equipotential bonding ■ Lightning current carrying earthing system for arresters and shield connection ■ Integrated mounting for LSADPG blocksLSA with 220 a gridPdimension of 30LSA mm 220 P (906 103) 102) DPG LSA 120 P (906120 102) Pframe (906 103) DPG DPG LSA (906 102) ■ Extra space for uninterfered cable routing and surge arresters DPG LSA 120 P (906 102)

DPG LSA 220 P (906 103)

g system ■ Lightning for arresters current and carrying shield earthing connection system for arresters and shield connection ■ Lightning current carrying earthing system ■ Lightning for arresters current and carrying shield earthing connection system for arresters and shield connection A blocks ■ Integrated with a grid mounting dimension frame of 30 for mm LSA blocks with a grid dimension of 30■mm Integrated mounting frame for LSA blocks Integrated with a grid mounting dimension frame of 30 formm LSA blocks with a grid dimension of 30 mm Lightning current carrying earthing system for arresters and shield ■■connection ■■ Lightning current carrying earthing system for arresters and shield ■ Lightning current carrying system for arresters and e routing ■ Extra andspace surge for arresters uninterfered cable routing and surge arresters ■ Extra space forconnection uninterfered cable routing Extra and space surge arresters for uninterfered cable routingearthing and surge arresters

Integrated mounting for LSA with aofgrid dimension ■■ Integrated mounting frame forframe LSA blocks with ablocks grid dimension 30 mm ■■ Extra space for uninterfered cable routing and surge arresters Extra space for uninterfered cable routing and surge arresters

of 30 mm

shield connection ■ Integrated mounting frame for LSA blocks with a grid dimension of 30 mm ■ Extra space for uninterfered cable routing and surge arresters

Figure without obligation Figure without obligation Figure without obligation

Figure without obligation

Dimension drawing DPG LSA 120 P

Figure without obligation

Figure without obligation

Dimension drawingDimension DPG LSA 120 P drawing DPG LSAsystem 220 P Dimension drawing DPG LSA 220 P a DPG LSA is a completely premounted enclosure with LSA mounting frame

Dimension drawing DPG LSA 120 P

DPG nclosure LSAsystem is a completely with LSAis premounted mounting frame enclosure and allows system optimised with LSA use mounting ofDPG arresters frame and shield allows connection optimised of arresters and LSA is and a completely premounted enclosure DPG LSA system is a shield completely with LSA premounted mounting frame enclosure and allows system optimised with LSA use mounting of and arresters frame and and shield allows connection optimised use of arresters and sh DPG LSA a completely premounted enclosure system with LSA use mounting frame andconnection allows optimised use of arresters shield connection systems (constant force spring). Dimension drawing DPG LSA 30 P systems (constant force spring). systems (constant force spring). systems (constant force spring).

systems (constant force spring).

Figure without obligationis a completely premounted Figure without obligation Type DPG LSA enclosure 120 Type P DPG LSA mounting 120 P Type DPG LSA 220 P and DPG LSA system with LSA frame and allows optimised use of arresters Type Part No. 906 102 Part No. 906 102 Part No. 906 103 Dimension drawing DPG LSA 120 DPG P systems (constant force spring). Type LSA 120 P Partof No. Total Carrying lightning capacity of connection elements D1 Total lightning Carrying capacity of connection elements D1 Total Carrying lightning capacity connection elements D1 Total lightning DPG LSA is (Iaimpcompletely premounted enclosure system with current LSA mounting and allows optimised use ofµs) arresters and shield connection DPG LSA is aimpcompletely premounted system with ) impulse current (10/350 µs) 50 kA ) impulse (10/350 µs) frame (Iimp) 50 kA impulse current (10/350 (I 50 kA Part No. 906 102 enclosure

DPG LSA 30 P (906 100)

DPG LSA 220 P shield connection 906 103

Dimension

LSA mounting frame 50 kA and allows optimised u Type (constant force spring). Carrying capacity of connection elements DPG LSA 30 P D1 Total lightning systems systems Figure without obligation current carrying2xearthing system for arresters connection LSA mounting frame■ forLightning 6 blocks 2/10  2x 6and blocksshield 2/10 LSA mounting LSA mounting frame for frame for(constant force spring). 2x 11 blocks 2/10  2x 11 blocks 2/10  Carrying capacity of connection elements D1 Total lightning ) impulse current (10/350 µs) (I Part No. frame 906 imp 100 Grid dimension of mounting 30 mm 30 mm dimension of mounting Grid of mounting 30 mm 30 mm ■ Integrated mounting frame for LSA Grid blocks with a gridframe dimension of dimension 30 mm Type Type DPG LSA 120 P frame DPG LSA Dimension DPG LSA 120 P current (10/350 µs) (Iimp) elements D1 Total 50 kA drawing 3 pc(s). Carrying capacity of connection lightning Wire guides impulse 2 pc(s). Wire guides Wire guidesLSA 3 pc(s). Part No. Part102 No. 906 mounting frame for 906 ■ Extra space for uninterfered 2 pc(s). cable routing and surge arresters impulse current (10/350 (Ipremounted LSA is a completely enclosure system with top LSA mounting frame and allows optimised use arresters and shield connection Cable entriesDPG top / bottom  / bottom  15 kA Cable entries Cable entries top / bottom  top / bottom  imp)D1 Total LSA mounting frame for µs) Carrying capacity of connection elements lightning 2x 6 elements blocks 2/10  Carrying capacity of connection D1 of Total lightning

Grid dimension of mounting frame top / bottom  top / bottom  impulse 50 kA current (10/350 µs) (I1x imp)3 blocks 2/10  30 mm yes  yes  30 mm walls  walls  For mounting on For mounting on walls  walls  DPG LSA 120 P 2 pc(s). Grid dimension of mounting frame 30 mm Cable entries IP 40  IP 40  Degree of protection Degree of protection IP 40  IP 40  Wire 1 pc(s). Partguides No. 102 Wire guides Wire guides entries top 906 / bottom  Earthing via Cable earthing block Earthing via earthing block  Earthing via 2 pc(s). earthing block  earthing block  Cable rail Cable entries top / bottom  Carrying capacity of connection elements D1 Total lightning Dimensions W x H x D 330 x 350 x 130 mm 330 x 350 x 130 mm Dimensions W x H x D Dimensions W H x entries D 330 x 500 x 130 mm 330 x 500 x 130 mm Cable entries Cable top /xbottom  Cable rail top / bottom  Enclosure material sheet steel  Enclosure material sheet steel  Enclosure material Cable top 50 kA / bottom  sheet steel  impulse current (10/350 µs) (Iimp) Lock sheet steel  Cable railrail Cable rail top / bottom  Colour RAL 9002  Colour RAL 9002  Colour RAL 9002  RAL 9002  Lock yes  Lock yes  2/10  Lock Lock yes  For mounting on LSA mounting frame for 2x 6 blocks Weight 5,7 kg 5,7 kg Weight Weight 7,65 kg 7,65 kg For mounting on walls  For mounting on For mounting on walls  For mounting on walls  Customs tariffGrid number 85381000 Customs tariff number 85381000 Customs tariff number of protection 85381000 85381000 Degree dimension of mounting frame 30 mm Degree of protection Degree of protection IP 40  GTIN 4013364106611GTIN 4013364106611GTIN 4013364106628 Degree Degreeof ofprotection protection IPIP 40 40  4013364106628 Earthing via Wire guides 2 pc(s). PU 1 pc(s) 1 pc(s) PU PU 1 pc(s) 1 pc(s) Figure without Earthing via obligation Earthing via earthing block  Earthing via earthing block  Earthing via earthing block  Dimensions W x H x D current carrying earthing system for arresters and shield connection Dimensions WW x HxxH D x D Dimension 330 xDimensions 350 x 130 mm Cable entries top / bottom  drawing DPG LSA 30 P ■ Lightning DimensionsW WxxHHxxDD 240 x 260 x 130 mm Dimensions 330 x 350 x 130 mm Enclosure material Enclosure material sheet steel  Enclosure material ■LSA Integrated mountingpremounted frame for LSA blocks with a grid of 30 frame mm DPG is a completely enclosure system withdimension LSA mounting and allows optimised use of arresters and shield connection Cable rail top / bottom  Enclosure material sheet steel  Colour Colour RAL 9002  Enclosure material sheet steel  systems (constant spring). space force for uninterfered cable routing and surge arresters Colour Lock■ Extra yes  Colour RAL 9002  Weight Weight 5,7 kg Colour RAL LSA 9002  Type DPG Weight For mounting on walls  30 P Weight 3,4 kg Customs tariff number Customs tariff number 85381000 Weight 5,7 kg Part No. 906 100 GTIN GTIN 4013364106611 Customs tariff number Customs number 85381000 Degree oftariff protection IP 40  Carrying tariff capacity of connection elements D1 Total lightning Customs number 85381000 PU PU 1 pc(s) GTIN 4013364106598 GTIN Earthingcurrent via earthing block  impulse (10/350 µs) (Iimp) 15 kA GTIN 4013364106611 PU 1 pc(s) PU LSA mounting for 1x x3 350 blocks 2/10  Dimensions W frame xHxD 330 x 130 mm PU 1 pc(s) Grid dimension of mounting frame 30 mm Enclosure material sheet steel  Cable rail Lock

impulse current (10/350 µs)force (Iimp) spring). systems (constant LSA mounting for Grid dimension frame of mounting frame

LSA mounting frame of for mounting frame Grid dimension For mounting Type on Wire guides of mounting frame Grid dimension Degree of protection

top / bottom  Cable rail yes 

Lock

top / bottom  Cable rail yes 

Lock

guides LSA mounting 2x 6Wire blocks 2/10  frame for

DPG LSA 220 P (906 103)

Wire guides Colour

1 pc(s). RAL 9002 

Cable entries

top / bottom 

Cable rail

top / bottom 

Weight

5,7 kg

Customs tariff number Lock Figure without obligation

GTIN

For mounting on

PU

85381000 yes 

4013364106611

walls  Dimension drawing DPG LSA 220 P

1 pc(s)

Degree of protection IP use 40  of arresters and shield connection DPG LSA is a completely premounted enclosure system with LSA mounting frame and allows optimised Earthing via earthing block  systems (constant force spring). Dimensions W x H x D

Type Enclosure material Part No. Colour Carrying capacity of connection elements D1 Total lightning Weight impulse current (10/350 µs) (Iimp) Customs tariff number

LSA mounting frame for GTIN

Grid dimension of mounting frame PU

Wire guides

240 x 260 x 130 mm

DPG LSA 220 P sheet steel  906 103 RAL 9002  3,4 kg 50 kA

85381000

2x 11 blocks 2/10  4013364106598

30 mm

1 pc(s)

3 pc(s).

Cable entries

top / bottom 

Cable rail

top / bottom 

Lock

yes 

For mounting on Degree of protection Earthing via

walls  IP 40  earthing block 

Dimensions W x H x D

330 x 500 x 130 mm

Enclosure material

sheet steel 

Colour

RAL 9002 

Weight

7,65 kg

Customs tariff number GTIN

4013364106628

PU

WP011/E/0515

85381000 1 pc(s)

© Copyright 2015 DEHN + SÖHNE

21

50 

2x 11 blo

30 m

3 pc

top / b

top / b

ye

wa

IP 4

earthing 330 x 500 sheet

RAL 9

7,65

8538

4013364

1 pc

www.dehn-international.com/partners

Surge Protection DEHN + SÖHNE Lightning Protection GmbH + Co.KG. Safety Equipment DEHN protects.

Hans-Dehn-Str. 1 Tel. +49 9181 906-0 Postfach 1640 Fax +49 9181 906-1100 92306 Neumarkt [email protected] Germany www.dehn-international.com

www.dehn-international.com/partners

Type designations of products mentioned in the white paper being at the same time registered trademarks are not especially marked. So if there is no marking of ™ or ® this does not mean that the type designation is a free trade name. Neither it can be seen whether patents or utility models and other intellectual and industrial property rights are available. We reserve the right to introduce changes in performance, configuration and technology, dimensions, weights and materials in the course of technical progress. The figures are shown without obligation. Misprints, errors and modifications excepted. Reproduction in any form whatsoever is forbidden without our authorisation. actiVsense, BLITZDUCTOR, BLITZPLANER, DEHN, DEHN Logo, DEHN schützt, DEHNbloc, DEHNfix, DEHNgrip, DEHNguard, DEHNport, DEHNQUICK, DEHNrapid, DEHNshield, DEHNsnap, DEHNventil, HVI, LifeCheck, Red/Line are protected by German Trade Mark, by Community Trade Mark (EU) and/or in other countries. Photo “Switches in rack“ by Parkis (http://commons.wikimedia.org/wiki/File:Switches_in_rack.jpg); Licence: CC BY-SA 2.5 (http://creativecommons.org/licenses/by-sa/2.5/)

WP011/E/0515

© Copyright 2015 DEHN + SÖHNE