HA_40_2_2017_EN HA40 Catalogue 8djh En

User Manual: HA40

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Catalog

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Application

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2Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

R-HA40-111.tif

R-HA40-112.tif

R_HA40-150a tif

Application

in public

and industrial

energy systems

R_HA40_160 tifR-HA40-157 tif

R-HA40-110.tif

Contents

Switchgear Type 8DJH

for Secondary

Distribution Systems

up to 24 kV,

Gas-Insulated

Medium-Voltage Switchgear

Catalog HA 40.2 · 2017

Invalid: Catalog HA 40.2 · 2014

siemens.com/medium-voltage-switchgear

siemens.com/8DJH

3Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Application Page

Types, typical uses, ratings, approvals 4 and 5

Requirements

Features, safety, technology, classiﬁ cation 6 to 8

Technical Data

Electrical data of the switchgear 9

Switching capacity and

classiﬁ cation of switching devices 10 and 11

Product Range

Individual panels and modules 12 to 14

Air-insulated billing metering panels 15

Product range overview of panel blocks 16 and 17

Design

Panel design 18 to 21

Outdoor enclosure 22

Operation 23

Components

Three-position switch-disconnector 24 to 26

Vacuum circuit-breaker 27 to 29

Busbar extension, modularity 30

HV HRC fuse assembly 31

Allocation of HV HRC fuses

and transformer ratings 32 to 36

Current and voltage transformers 37 to 41

Current and voltage sensors 42 and 43

Cable connections, cable plugs 44 to 50

Interlocks, locking devices 51

Indicating and measuring equipment 52 to 60

Transformer monitor system,

time-fuse-link protection system 61

Intelligent transformer substation 62 and 63

Protection systems 64

Low-voltage compartment, low-voltage niche 65

Dimensions

Room planning, switchgear installation 66 to 68

Individual panels and modules,

panel combinations 69 to 81

Outdoor enclosure 82

Floor openings and ﬁ xing points 83 to 86

Installation

Shipping data, transport 87 and 88

Standards

Standards, speciﬁ cations, guidelines 89 to 91

The products and systems described in this catalog

are manufactured and sold according to a certiﬁ ed

management system (acc. to ISO 9001, ISO 14001

and BS OHSAS 18001).

4Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

R-HA40-149b tif

R-HA40-150a.eps

R-HA40-156.eps

Individual circuit-breaker

panel 500 mm

RRT block 8DJH Compact RRT block

Application

Types

5Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

8DJH switchgear is a factory-assembled, type-tested,

3-pole metal-enclosed single-busbar switchgear for indoor

installation.

8DJH switchgear is used in public and industrial energy

systems of the secondary distribution level, e.g. in

• Local ring-main units, customer transfer substations and

switching substations of power supply and public utilities

•Wind power and solar plants, hydroelectric power plants

•Water and sewage treatment plants

•Airports, railway stations, underground railway stations

•Open-cast mining facilities

•High-rise buildings.

Electrical data (maximum values) and dimensions

Rated voltage kV 7.2 12 15 17. 5 24

Rated frequency Hz 50/60 50/60 50/60 50/60 50/60

Rated short-duration kV

power-frequency

withstand voltage

20 1) 28 2) 36 38 50

Rated lightning impulse kV

withstand voltage

60 1) 75 2) 95 95 125

Rated peak kA

withstand current

63/65 63/65 63/65 63/65 50 / 55

Rated short-circuit kA

making current

63/65 63/65 63/65 63/65 50 / 55

Rated short-time kA

withstand current 3 s

20 / 21 20 / 21 20 / 21 20 / 21 20 / 21

Rated short-time kA

withstand current 1 s

25 25 25 25 20 / 21

Rated normal current A

of the busbar

630 630 630 630 630

Rated normal current A

of feeders

200/250/400/630

Width (feeders) mm 310/430/500 3)

Depth

– without pressure

relief duct mm

– with pressure

relief duct mm

775

890

775

890

775

890

775

890

775

890

Height

without low-voltage

compartment and

pressure relief duct mm optionally 1040/1200 / 1400/1700

1) 32 kV / 60 kV according to some national requirements

2) 42 kV / 75 kV according to some national requirements

3) Depending on the feeder function and the selected design options

National approval GOST

By certiﬁ cation in the system GOST R in Russia, 8DJH

is approved for application at the voltage levels 6 kV,

10 kV and 20 kV.

The approval is valid in the countries Russia, Belarus,

Kazakhstan and Ukraine.

Application

Typical uses, ratings, approvals

6Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Environmental independence

Hermetically tight, welded switchgear vessels made of

stainless steel as well as single-pole solid insulation make

the parts of the primary circuit under high voltage of 8DJH

switchgear

• Insensitive to certain aggressive ambient conditions,

such as:

– Saline air

– Air humidity

–Dust

– Condensation

• Tight to ingress of foreign objects, such as:

–Dust

– Pollution

–Small animals

–Humidity.

Compact design

Thanks to the use of SF6 insulation, compact dimensions

are possible. Thus:

• Existing switchgear rooms and substation rooms

can be used effectively

• New constructions cost little

• Costly city-area space is saved.

Maintenance-free design

Switchgear vessels designed as sealed pressure systems,

maintenance-free switching devices and enclosed cable

plugs ensure:

• Maximum supply reliability

• Personnel safety

• Sealed-for-life design according to IEC 62271-200

(sealed pressure system)

• Installation, operation, extension and replacement

without SF6 gas work

• Reduced operating costs

• Cost-efﬁ cient investment

• No maintenance cycles.

Innovation

The use of digital secondary systems and combined protec-

tion and control devices ensures:

• Clear integration in process control systems

• Flexible and highly simpliﬁ ed adaptation to new system

conditions and thus cost-efﬁ cient operation.

Service life

Under normal operating conditions, the expected service life

of gas-insulated switchgear 8DJH is at least 35 years, probably

40 to 50 years, taking the tightness of the hermetically weld-

ed switchgear vessel into account. The service life is limited by

the maximum number of operating cycles of the switchgear

devices installed:

• For circuit-breakers, according to the endurance class

deﬁ ned in IEC 62271-100

• For three-position disconnectors and earthing switches,

according to the endurance class deﬁ ned in IEC 62271-102

• For three-position switch-disconnectors and earthing

switches, according to the endurance class deﬁ ned in

IEC 62271-103.

Personal safety

• Safe-to-touch and hermetically sealed primary enclosure

• Standard degree of protection IP 65 for all high-voltage

parts of the primary circuit, at least IP 2X for the switch-

gear enclosure according to IEC 60529 and VDE 0470-1

• Cable terminations, busbars and voltage transformers

are surrounded by earthed layers. All high-voltage parts

including the cable terminations, busbars and voltage

transformers are metal-enclosed

• Operating mechanisms and auxiliary switches safely

accessible outside the primary enclosure (switchgear

vessel)

• High resistance to internal arcs by logical mechanical

interlocks and tested switchgear enclosure

• Panels tested for resistance to internal faults up to 21 kA

• Capacitive voltage detecting system to verify safe

isolation from supply

• Due to the system design, operation is only possible

with closed switchgear enclosure

• Logical mechanical interlocks prevent maloperation

• HV HRC fuses and cable sealing ends are only accessible

when outgoing feeders are earthed

• Feeder earthing via make-proof earthing switches.

Security of operation

• Hermetically sealed primary enclosure independent of

environmental effects (pollution, humidity and small

animals)

• Welded switchgear vessels, sealed for life

• Maintenance-free in an indoor environment

(IEC 62271-1 and VDE 0671-1)

• Operating mechanisms of switching devices accessible

outside the primary enclosure (switchgear vessel)

• Metal-coated, plug-in inductive voltage transformers

mounted outside the SF6 switchgear vessel

• Current transformers as ring-core current transformers

mounted outside the SF6 switchgear vessel

• Complete switchgear interlocking system with logical

mechanical interlocks

• Mechanical position indicators integrated in the mimic

diagram

• Minimum ﬁ re load

• Option: Resistance against earthquakes.

Reliability

• Type and routine-tested

• Standardized and manufactured using numerically

controlled machines

• Quality assurance in accordance with DIN EN ISO 9001

• More than 500,000 switchgear panels of Siemens in

operation worldwide for many years.

Requirements

Features Safety

7Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

General

• Three-pole primary enclosure, metal-enclosed

• Welded switchgear vessel without seals, made of stain-

less steel, with welded-in bushings for electrical connec-

tions and mechanical components

• Insulating gas SF6 (ﬂ uorinated greenhouse gas)

• Maintenance-free components under normal ambient

conditions according to IEC 62271-1 and VDE 0671-1

• Three-position switch-disconnector with load-break

function and make-proof earthing function

• Vacuum circuit-breaker

• Cable connection with outside-cone plug-in system

– In ring-main and circuit-breaker feeders with bolted

contact (M16)

– In transformer feeders with plug-in contact or optionally

with bolted contact (M16)

• Wall-standing or free-standing arrangement

• Pressure relief downwards, optionally to the rear or

upwards via pressure absorber systems.

Interlocks

• According to IEC 62271-200 and VDE 0671-200

• Logical mechanical interlocks prevent maloperation

• Logical mechanical interlocks and the constructive

features of the three-position switches prevent mal-

operation as well as access to the cable connection of

the feeders and HV HRC fuses under voltage

• Impermissible and undesired operations can be prevent-

ed by means of locking devices provided at the switching

devices

• A detailed description of all interlocking options is

available on page 51.

Insulating system

• Switchgear vessel ﬁ lled with SF6 gas

• Features of SF6 gas:

– Non-toxic

– Odorless and colorless

–Non-inﬂ ammable

– Chemically neutral

–Heavier than air

– Electronegative (high-quality insulator)

– Global Warming Potential GWP = 22,800

• Pressure of SF6 gas in the switchgear vessel

(absolute values at 20 °C):

–Rated ﬁ lling level: 150 kPa

– Design pressure: 180 kPa

– Design temperature of the SF6 gas: 80 °C

– Operating pressure of bursting disc: ≥ 300 kPa

– Bursting pressure: ≥ 550 kPa

– Gas leakage rate: < 0.1 % per year.

Modular design

• Individual panels and panel blocks can be lined up and

extended at will – without gas work on site

• Low-voltage compartment available in 4 overall heights,

wiring to the panel via plug connectors.

Panel design

• Factory-assembled, type-tested

• Metal-enclosed, with metallic partitions 1)

• Hermetically tight, welded switchgear vessel made of

stainless steel

• Maintenance-free

• Degree of protection

– IP 65 for all high-voltage parts of the primary circuit in

the gas-insulated panels

– IP 2X for the switchgear enclosure

• Vacuum circuit-breaker with three-position disconnector

for disconnecting and earthing

• Three-position switch-disconnector

• Cable connection with outside-cone plug-in system

according to DIN EN 50181

• Wall-standing arrangement, optionally free-standing

arrangement

• Installation and possible later extension of existing

panels without gas work

• Replacement of instrument transformers without gas

work, as they are located outside the gas compartments

• Enclosure made of sendzimir-galvanized sheet steel,

front cover powder-coated in color “light basic” (SN 700)

• Low-voltage compartment removable, plug-in bus wires

• Lateral, metallic wiring ducts for control cables.

Instrument transformers

• Current transformers not subjected to dielectric stress

• Easy replacement of current transformers designed as

ring-core transformers

• Metal-coated, plug-in voltage transformers.

Vacuum circuit-breaker

• Maintenance-free under normal ambient conditions

according to IEC 62271-1 and VDE 0671-1

• No relubrication or readjustment

• Up to 10,000 operating cycles

• Vacuum-tight for life.

Secondary systems

• Customary protection, measuring and control equipment

• Option: Numerical multifunction protection relay with

integrated protection, control, communication, operat-

ing and monitoring functions

• Can be integrated in process control systems.

Requirements

Technology

1) Corresponds to “metal-clad” according to

former standard IEC 60298

8Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

8DJH switchgear is classiﬁ ed according to

IEC / EN 62271-200 / VDE 0671-200.

Design and construction

Partition class PM (partition of metal)

Loss of service continuity category

for panels or panel blocks

– With HV HRC fuses (T, H)

– Without HV HRC fuses (R, L, ...)

Billing metering panel M

Cable panel K

LSC 2

LSC 1

Accessibility to compartments

(enclosure)

– Busbar compartment

– Switching-device compartment

– Low-voltage compartment

(option)

– Cable compartment for panels

or panel blocks

– With HV HRC fuses (T)

– Without HV HRC fuses (R, L, ...)

– Only cable feeder (K)

– Metering panels

(air-insulated) (M)

– Non-accessible

– Tool-based

– Interlock-controlled

– Tool-based

Internal arc classiﬁ cation (Option)

Designation of the internal arc

classiﬁ cation IAC

IAC class for 8DJH Standard and

8DJH Compact design for

– Wall-standing arrangement

– Free-standing arrangement

Additionally only for

8DJH Compact design for

– Installation in substations

without control aisle 1)

Rated voltage 7.2 kV to 24 kV

IAC A FL

IAC A FLR

IAC A F

Type of accessibility A

– F

– L

– R

Switchgear in closed electrical

service location, access

“for authorized personnel only”

(according to IEC / EN 62271-200)

Front

Lateral

Rear

(for free-standing arrangement)

Arc test current Up to 21 kA

Test duration 1 s

1) Rear space required for pressure relief.

Application recommended in prefabricated substations without control aisle, tested according to IEC 62271-202.

Requirements

Classiﬁ cation

9Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Rated insulation level Rated voltage Ur kV 7.2 12 15 17. 5 24

Rated short-duration power-frequency

withstand voltage Ud

– Phase-to-phase, phase-to-earth, open contact gap

– Across the isolating distance

28/42 1)

32 / 48 1)

Rated lightning impulse withstand voltage Up

– Phase-to-phase, phase-to-earth, open contact gap

– Across the isolating distance

110

125

145

Rated frequency frHz 50/60

Rated normal current Ir 2) for ring-main feeders A 400 or 630

for busbar A 630

for circuit-breaker feeders A 250 or 630

for transformer feeders A 200 3)

50 Hz Rated short-time

withstand current Ik

for switchgear with tk = 1 s up to kA 25 25 25 25 20/21

for switchgear with tk = 3 s (design option) up to kA 20/21

Rated peak withstand current Ipup to kA 63 63 63 63 50/52.5

Rated short-circuit

making current Ima

for ring-main feeders up to kA 63 63 63 63 50/52.5

for circuit-breaker feeders up to kA 63 63 63 63 50/52.5

for transformer feeders up to kA 63 63 63 63 50/52.5

60 Hz Rated short-time

withstand current Ik

for switchgear with tk = 1 s up to kA 25 25 25 25 20/21

or switchgear with tk = 3 s (design option) up to kA 20/21

Rated peak withstand current Ipup to kA 65 65 65 65 52/55

Rated short-circuit

making current Ima

for ring-main feeders up to kA 65 65 65 65 52/55

for circuit-breaker feeders up to kA 65 65 65 65 52/55

for transformer feeders kA 65 65 65 65 52/55

Filling pressure

(pressure values at 20 °C)

Rated ﬁ lling level pre (absolute) kPa 150

Minimum functional level pme (absolute) kPa 130

Ambient air temperature T 4) Operation standard °C –25 to +55

on request °C –40 to +70

Storage/transport standard °C –25 to +55

on request °C –40 to +70

Degree of protection for gas-ﬁ lled switchgear vessel IP65

for switchgear enclosure IP2X /IP3X 1)

for low-voltage compartment IP3X / IP4X 1)

1) Design option

2) The rated normal currents apply to ambient air temperatures of max. 40 °C.

The 24-hour mean value is max. 35 °C (according to IEC / EN 62271-1 / VDE 0671-1)

3) Depending on HV HRC fuse-link

4) Minimum and maximum permissible ambient air temperature depending on the secondary equipment used

Technical Data

Electrical data of the switchgear

10 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Rated voltage Ur kV 7. 2 12 15 17. 5 24

Test duty

TDload

Rated mainly active load

breaking current Iload

100 operations I

load

]

A630

20 operations 0.05 I

load

]

A31.5

Test duty

TDloop

Rated closed-loop breaking current Iloop [I2a]A630

Test duty

TDcc

Rated cable-charging breaking current Icc [I4a]A68

Test duty

TDlc

Rated line-charging breaking current Ilc [I4b]A68

Test duty

TDma

Rated short-circuit making current Ima 50 Hz up to kA 63 63 63 63 50/52.5

60 Hz up to kA 65 65 65 65 52/55

Test duty

TDef1

Rated earth-fault breaking current Ief1 [I6a] A 200

Test duty

TDef2

Rated cable-charging breaking current and line-charging breaking

current under earth-fault conditionsIef2 [I6b (√3 · I4a) or I6b (√3 · I4b)] A 115

Number of operating cycles, mechanical / Classiﬁ cation n 1000/M1

Number of operating cycles, electrical with Iload / Classiﬁ cation n 100/E3

Number of short-circuit making operations with Ima / Classiﬁ cation n 5/E3 5/E3 5/E3 5/E3 5/E3

C-classiﬁ cation for general-purpose switches (no restrikes

, TD: Icc, Ilc) C2C2C2C2C2

Switching capacity for make-proof earthing switch according to IEC / EN 62271-102 / VDE 0671-102

Rated short-circuit making current Ima 50 Hz up to kA 63 63 63 63 50/52.5

60 Hz up to kA 65 65 65 65 52/55

Number of operating cycles, mechanical / Classiﬁ cation n 1000/M0

Number of short-circuit making operations n 5

Classiﬁ cation E2

Switch-disconnector / fuse combination

Switching capacity for switch-disconnector / fuse combination according to IEC / EN 62271-105 / VDE 0671-105

Rated normal current A200

Rated transfer current Itransfer A 1500 1500 1300 1300 1300

Switching capacity for make-proof earthing switch, feeder side, in transformer feeder with HV HRC fuses

Rated short-circuit making current Ima 50 Hz kA 6.3

60 Hz kA 6.5

Rated short-time withstand current Ik with tk = 1 s kA 2.5

1) Design option

2) Depending on HV HRC fuse-link

Three-position switch-disconnector

Switching capacity for general-purpose switches according to IEC / EN 62271-103 (former: IEC / EN 60265-1 / VDE 0670-301)

Technical Data

Switching capacity and classiﬁ cation of switching devices

11Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

1) Design option

Rated voltage Ur kV 7.2 12 15 17. 5 24

Rated normal current of feeders IrA630

50 Hz Rated short-time

withstand current Ik

for switchgear with tk = 1 s up to kA 25 25 25 25 20/21 1)

for switchgear with tk = 3 s up to kA 20/21 1)

Rated peak withstand current Ipup to kA 63 63 63 63 50/52.5

Rated short-circuit breaking current Isc up to kA 25 25 25 25 20/21 1)

Rated short-circuit making current Ima up to kA 63 63 63 63 50/52.5

60 Hz Rated short-time

withstand current Ik

for switchgear with tk = 1 s up to kA 25 25 25 25 20/21 1)

for switchgear with tk = 3 s up to kA 20/21 1)

Rated peak withstand current Ipup to kA 65 65 65 65 52/55

Rated short-circuit breaking current Isc up to kA 25 25 25 25 20/21 1)

Rated short-circuit making current Ima up to kA 65 65 65 65 52/55

Number of mechanical operating cycles for disconnector n 1000

Number of mechanical operating cycles for earthing switch n 1000

Number of mechanical operating cycles for circuit-breaker n 10,000

Classiﬁ cation of circuit-breaker M2, E2, C2, S2

Classiﬁ cation of disconnector M0

Classiﬁ cation of make-proof earthing switch E2

Rated operating sequence O – 0.3 s – CO – 3 min – CO

O – 0.3 s – CO – 15 s – CO on request

Number of short-circuit breaking operations n 25 or 50

Rated voltage Ur kV 7.2 12 15 17. 5 24

Rated normal current of feeders IrA 250 A or 630 A

50 Hz Rated short-time

withstand current Ik

for switchgear with tk = 1 s up to kA 25 25 25 25 20/21 1)

for switchgear with tk = 3 s up to kA 20/21 1)

Rated peak withstand current Ipup to kA 63 63 63 63 50/52.5

Rated short-circuit breaking current Isc up to kA 25 25 25 25 20/21 1)

Rated short-circuit making current Ima up to kA 63 63 63 63 50/52.5

60 Hz Rated short-time

withstand current Ik

for switchgear with tk = 1 s up to kA 25 25 25 25 20/21 1)

for switchgear with tk = 3 s up to kA 20/21 1)

Rated peak withstand current Ipup to kA 65 65 65 65 52/55

Rated short-circuit breaking current Isc up to kA 25 25 25 25 20/21 1)

Rated short-circuit making current Ima up to kA 65 65 65 65 52/55

Number of mechanical operating cycles for disconnector n 1000

Number of mechanical operating cycles for earthing switch n 1000

Number of mechanical operating cycles for circuit-breaker n 2000

Classiﬁ cation of circuit-breaker M1, E2, C1, S1

Classiﬁ cation of disconnector M0

Classiﬁ cation of make-proof earthing switch E2

Rated operating sequence O – 3 min – CO – 3 min – CO

Number of short-circuit breaking operations n 6 or 20

Vacuum circuit-breaker

Switching capacity according to IEC / EN 62271-100 / VDE 0671-100

Type 1.1 with three-position disconnector

Type 2 with three-position disconnector

Technical Data

Switching capacity and classiﬁ cation of switching devices

HA40-2125a eps

HA40-2127a eps

HA40-2126a eps

HA40-2291 eps

HA40-2124a eps

12 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Cable feeder

Type K 2)

310 mm wide

Circuit-breaker feeder

Type L

430 mm wide

Transformer feeder

Type T

430 mm wide

Cable feeder

Type K(E) 2)

430 mm wide

with make-proof

earthing switch

Ring-main feeder

Type R

310 mm wide

1) Only for end

panel, on the free

connection side of

the busbar

2) Only as individual

panel and in

2-panel blocks

Product Range

Individual panels and modules – freely conﬁ gurable for up to 4 functions in the block

Vacuum

circuit-breaker

Three-position

switch-disconnector

Three-position

disconnector

Capacitive voltage

detecting system

HV HRC fuse

Cable-type current

transformer

Cable connection

with outside cone

(not included in the

scope of supply)

Surge arrester

or limiter

Make-proof

earthing switch

HA40-2128 eps

HA40-2129a eps

HA40-2130 eps

HA40-2132 eps

HA40-2131c eps

HA40-2133b eps

13Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Bus sectionalizer panel

with switch-disconnector with switch-fuse combination

Type S 1)

430 mm wide

Type H 1)

430 mm wide

Bus sectionalizer panel with switch-disconnector

Type S(620)

(earthing on the left)

620 mm wide

Type S(500)

with current

transformer

500 mm wide

4MT3

Bus sectionalizer panel with circuit-breaker

Type V (with circuit-

breaker 1.1 or 2)

500 mm wide

Design option with

current transformer

4MT34MT3

Product Range

Individual panels

Vacuum

circuit-breaker

Three-position

switch-disconnector

Three-position

disconnector

Capacitive voltage

detecting system

HV HRC fuse

Current transformer

Plug-in voltage

transformer 4MT3

1) Also executable as right-hand panel in panel blocks

HA40-2134c eps

HA40-2135b eps

HA40-2136a eps HA40-2137c eps

HA40-2274b eps

HA40-2138a eps

14 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Ring-main feeder Circuit-breaker feeder

Busbar voltage metering panel,

fused on the primary side

Busbar voltage metering panel

Busbar earthing panel Busbar earthing panel

Type M(500)

500 mm wide

Type M(430)

430 mm wide

Type E

310 mm wide

Type E(500)

500 mm wide

Type R(500)

500 mm wide

Type L(500)

with circuit-

breaker

type 1.1 or

type 2)

500 mm wide

1) Only for end

panel, on the

free connection

side of the busbar

4MT3 4MT3

4MC63 ...

4MT8

4MC63 ...

4MT8

4MT3 4MT3

4MT3

Product Range

Individual panels

Vacuum

circuit-breaker

Three-position

switch-disconnector

Three-position

disconnector

Capacitive voltage

detecting system

Three-phase

current transformer

Cable-type current

transformer

Cable connection

with outside cone

(not included in the

scope of supply)

Surge arrester

or limiter

Plug-in voltage

transformer

HA40-2139a eps

HA40-2140a eps

P1 P2 P2 P1 P1 P2 P2 P1

HA40-2141a eps

P2 P1

HA40-2142a eps

15Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Billing metering panels with cable connection on the left

Billing metering panels with cable connection on the right

Billing metering panels with busbar connection on both sides

Billing metering panels with cable connection on both sides

Product Range

Air-insulated billing metering panels type M, 840 mm wide

Current transformer,

cast-resin insulated

Voltage transformer,

cast-resin insulated

Capacitive voltage

detecting system

Fixed earthing

points for

busbar earthing

P1 and P2

are terminal

designations of

the current

transformer

16 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Panel block

Components shown in dotted lines

can be used optionally.

Installation dimensions

Width

Depth

Height

Panel blocks with transformer feeders,

optionally with busbar extension

K Radial cable

connection as

incoming

feeder

1 transformer feeder,

1 radial cable connection

740 775 1200

1400

1700

K(E)T

K Radial cable

connection as

incoming

feeder

1 transformer feeder,

1 radial cable connection

with make-proof earthing

switch

860 775 1200

1400

1700

1 ring-main feeder,

1 transformer feeder

740 775 1040

1200

1400

1700

RRT

2 ring-main feeders,

1 transformer feeder

1050 775 1040

1200

1400

1700

RRRT

3 ring-main feeders,

1 transformer feeder

1360 775 1200

1400

1700

TRRT

2 ring-main feeders,

2 transformer feeders

1480 775 1200

1400

1700

Panel block

Components shown in dotted lines

can be used optionally.

Installation dimensions

Width

Depth

Height

Panel blocks with circuit-breaker feeders,

optionally with busbar extension

K Radial cable

connection as

incoming

feeder

1 circuit-breaker feeder,

1 radial cable connection

740 775 1200

1400

1700

K(E)L

K Radial cable

connection as

incoming

feeder

1 circuit-breaker feeder,

1 radial cable connection

with make-proof earthing

switch

860 775 1200

1400

1700

1 ring-main feeder,

1 circuit-breaker feeder

740 775 1200

1400

1700

RRL

2 ring-main feeders,

1 circuit-breaker feeder

1050 775 1200

1400

1700

RRRL

3 ring-main feeders,

1 circuit-breaker feeder

1360 775 1200

1400

1700

LRRL

2 ring-main feeders,

2 circuit-breaker feeders

1480 775 1200

1400

1700

HA40-2109b eps

HA40-2110b eps

HA40-2111b epsHA40-2112b eps

HA40-2113a eps

HA40-2114a eps

HA40-2115a eps

HA40-2116a eps

HA40-2117a eps HA40-2219a eps

HA40-2108b eps

HA40-2218a eps

Product Range

Product range overview of panel blocks (excerpt)

17Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Panel block

Components shown in dotted lines

can be used optionally.

Installation dimensions

Width

Depth

Height

Panel blocks with ring-main feeders,

optionally with busbar extension

2 ring-main feeders

620 775 1040

1200

1400

1700

RRR 3 ring-main feeders

930 775 1040

1200

1400

1700

RRRR 4 ring-main feeders

1240 775 1200

1400

1700

Panel block

Components shown in dotted lines

can be used optionally.

Installation dimensions

Width

Depth

Height

Panel blocks with transformer feeders,

optionally with busbar extension

2 transformer feeders

860 775 1200

1400

1700

TTT

3 transformer feeders

1290 775 1200

1400

1700

Panel block

Components shown in dotted lines

can be used optionally.

Installation dimensions

Width

Depth

Height

Panel blocks with transformer feeders as 8DJH Compact, without busbar extension

RRT

620

700

775

1400

1700

1400

1700

RRT-R

930

1010

775

1400

1700

1400

1700

RRT-RRT

1240

1400

775

1400

1700

1400

1700

HA40-2118a eps

HA40-2119a eps

HA40-2120a eps

HA40-2121b eps

HA40-2122b eps

HA40-2361a eps

HA40-2362a eps

Product Range

Product range overview of panel blocks (excerpt)

HA40-2360a eps

HA40-2143c eps

HA40-2144e eps

HA40-2145e eps

18 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Circuit-breaker feeder

Ring-main feeder Transformer feeder

Type 1.1

Type R

Type L

Type T

Type 2

Section

1 Control board (for details, see page 23)

2 Busbar arrangement

3 Three-position switch-disconnector

4 Pressure relief device

5 Wiring duct, removable, for protection

and/or bus wires

6 Switchgear vessel, ﬁ lled with gas

7 Operating mechanism of switching device

8 Bushing for cable plug with bolted contact

(M16)

9 Cable compartment cover

10 Earthing busbar with earthing connection

(design option)

11 Partition

12 HV HRC fuse assembly

13 Bushing for cable plug with plug-in contact,

optionally bolted contact (M16)

14 Vacuum circuit-breaker

15 Circuit-breaker operating mechanism,

operating mechanism for three-position

disconnector

Design

Panel design (examples)

HA40-2146d eps

HA40-2263c eps

16 6

19Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

1 Control board (for details, see page 23)

2 Option: Low-voltage compartment

3 Busbar arrangement

4 Vacuum circuit-breaker

5 Pressure relief device

6 Wiring duct, removable, for protection and/or bus wires

7 Switchgear vessel, ﬁ lled with gas

8 Operating mechanism of switching device

9 Bushing for cable plug with bolted contact (M16)

10 Cable compartment cover

11 Option: Three-phase current transformer (protection trans-

former)

12 Earthing busbar with earthing connection (design option)

13 Low-voltage compartment (standard)

for vacuum circuit-breaker

14 Option: SIPROTEC bay controller

15 Option: Plug-in voltage transformer type 4MT3 on the busbar

16 Bushing for connection of plug-in voltage transformers

17 Option: Plug-in voltage transformer 4MT8 at the connection

18 Cable-type current transformer

Circuit-breaker feeder

Type L(500)

Type 2

Type 1.1

Section

Design

Panel design (examples)

HA40-2148f eps

HA40-2149e eps

20 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Billing metering panel

1 Sockets for voltage detecting system

2 Busbar connection

3 Busbar vessel, ﬁ lled with gas

4 Pressure relief device

5 Current transformer type 4MA7

6 Voltage transformer type 4MR

7 Wiring duct, removable, for protection and/

or bus wires

8 Niche for customer-side low-voltage equip-

ment, screwed cover

9 Bushings for connection of transformer bars,

connected with busbar extension on the right

9a and on the left 9b

10 Transformer compartment cover

11 Cable connection

12 Earthing busbar with earthing connection

Type M, air-insulated Section

Connection: busbar – busbar

Section

Connection: cable – cable

Design

Panel design (examples)

HA40-2363 eps

21Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Panel block

1 Control board (for details, see page 23)

2 Three-position switch-disconnector

3 Pressure relief device

4 Switchgear vessel, ﬁ lled with gas

5 Operating mechanism of switching device

6 Bushing for cable plug with bolted contact

(M16)

7 Cable compartment cover

8 Earthing connection

9 HV HRC fuse assembly

10 Bushing for cable plug with plug-in contact

11 Pressure relief duct downwards for transformer

feeder (option)

Type 8DJH Compact RRT Section

Design

Panel design (examples)

22 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

On request, 8DJH switchgear can be provided with an

outdoor enclosure with the following features:

• For outdoor applications on company grounds

• Enclosure attached to standard indoor panels

• Enclosure with three different heights, for 1200 mm

switchgear height (optionally with low-voltage compart-

ment as a 200 mm, 400 mm or 600 mm high version), or

1400 mm switchgear height (optionally with low-voltage

compartment as a 200 mm or 400 mm high version)

• Enclosure with four different widths for freely conﬁ gu-

rable, non-extendable switchgear rows up to a switch-

gear width of 2000 mm (for dimensions, see page 82)

• Internal arc classiﬁ cation IAC A FL or FLR to 21 kA /1 s

according to IEC 62271-200

• Degree of protection IP 54.

Outdoor enclosure (front closed)

Outdoor enclosure (front open)

R-HA40-8DJH-179.tifR-HA40-8DJH-178.tif

Design

Outdoor enclosure

HA40-2265b eps

HA40-2266b eps

HA40-2267b eps

23Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

The control boards are function-related. They integrate

operation, mimic diagram and position indication. Further-

more, indicating, measuring and monitoring equipment

as well as locking devices and local-remote switches are

arranged according to the panel type and version. The ready-

for-service indicator and rating plates are ﬁ tted in accor-

dance with the panel blocks.

Operation is identical for transformer and circuit-breaker

feeders. First, the operating mechanism must be charged;

then, closing/opening is done through separate pushbut-

tons. The condition of the energy store is indicated.

All actuating openings are functionally interlocked against

each other, and are optionally lockable. Separate operating

levers for the disconnecting and earthing function are

optionally available.

HA40-2264a eps

Operation of

three-position switch

Operating levers

R-HA40-114.tif

1 Manual operation of load-break function

2 Locking function (option for ring-main feeders)

3 Manual operation of earthing function

4 Panel designation label

5 Position indicator for switch-disconnector

6 Position indicator for earthing switch

7 Sockets of capacitive voltage detecting system

8 “Fuse tripped” indicator

9 ON pushbutton for transformer or circuit-breaker function

10 OFF pushbutton for transformer or circuit-breaker function

11 Manual spring charging

12 “Spring charged” indicator

13 Position indicator for circuit-breaker

Front of ring-main feeder

Front of transformer feeder

Front of circuit-breaker feeder

Design

Operation (examples)

HA40-2150b eps

A40-2273 eps

24 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Features

• Switch positions:

CLOSED – OPEN – EARTHED

• Switching functions as general-purpose switch-

disconnector (class E3) according to

– IEC /EN 62271-103/ VDE 0671-103

– IEC /EN 62271-102/ VDE 0671-102

• Designed as a three-position switch with the functions

–Switch-disconnector and

– Make-proof earthing switch

• Operation via rotary bushing welded gas-tight into the

front of the switchgear vessel

• Climate-independent contact in the gas-ﬁ lled switchgear

vessel

• Maintenance-free for indoor installation according to

IEC / EN 62271-1 / VDE 0671-1

• Individual secondary equipment.

Mode of operation

The operating shaft forms one unit together with the

three contact blades. Due to the arrangement of the ﬁ xed

contacts (earth – busbar), it is not necessary to interlock the

CLOSE and EARTHING functions.

Closing operation

During the closing operation, the operating shaft with the

moving contact blades changes from the “OPEN” to the

“CLOSED” position.

The force of the spring-operated mechanism ensures a

high operator-independent closing speed and a reliable

connection of the main circuit.

Opening operation

During the opening operation, the arc is caused to rotate by

the arc-suppression system. This rotation movement pre-

vents the development of a ﬁ xed root.

The isolating distance in gas established after breaking

fulﬁ lls the conditions applicable to isolating distances in

accordance with

– IEC/EN 62271-102 / VDE 0671-102

and

– IEC/EN 62271-1 / VDE 0671-1.

Due to the arc rotation caused by the arc-suppression

system, both load currents and minor no-load currents are

safely interrupted.

Earthing operation

The EARTHING operation is implemented by changing from

the “OPEN” to the “EARTHED” position.

Three-position switch-disconnector

Busbar

CLOSED

OPEN

EARTHED

Feeder

OPEN / CLOSE

OPEN / EARTH

CLOSED OPEN

Feeder

EARTHED

Components

Three-position switch-disconnector

25Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Features

• Mechanical endurance of more than 1000 operating cycles

• Parts subjected to mechanical stress are highly

corrosion-proof

• Manual operation with the help of a slip-on operating lever

• Option: Motor operation

• Control board with accordingly cut-out switching gate

prevents the three-position switch-disconnector from

being switched directly from the “CLOSED” via the

“OPEN” to the “EARTHED” position

• Two separate actuating openings are provided for

unambiguous selection of the DISCONNECTING and

EARTHING functions

• Operation via rotary movement, operating direction

according to IEC / EN 60447 / VDE 0196 (FNN recommen-

dation, former VDN/ VDEW recommendation).

Assignment of operating mechanism type of three-position switch to panel types

Panel type R, S, L, V, M(500) T, H, M(430)

Function Switch-disconnector (R, S)

Disconnector (L, V, M(500))

Earthing switch Switch-disconnector (T, H)

Disconnector M(430)

Earthing switch

Type of operating

mechanism

Spring-operated Spring-operated Stored-energy Spring-operated

Operation Manual

Motor (option)

Manual Manual

Motor (option)

Manual

Spring-operated mechanism

The switching movements are performed independently of

the operating speed.

Spring-operated/stored-energy mechanism

The switching movements are performed independently of

the operating speed.

During the charging process, the closing and opening

springs are charged. This ensures that the switch-discon-

nector/fuse combination can switch off all types of faults

reliably even during closing.

Closing and opening is done via pushbuttons, and is there-

fore identical with the operation of circuit-breaker operat-

ing mechanisms.

An energy store is available for tripping by means of an

operating HV HRC fuse or via a shunt release (f-release).

After tripping, a red bar appears on the position indicator.

Legend:

R = Ring-main feeder

S = Bus sectionalizer panel with switch-disconnector

L = Circuit-breaker feeder

T = Transformer feeder

H = Bus sectionalizer panel with switch-fuse combination

V = Bus sectionalizer panel with circuit-breaker

M(430)/ M(500) = Busbar voltage metering panel

Components

Operating mechanisms for the three-position switch

26 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Motor operating mechanism (option)

The manual operating mechanisms of 8DJH switchgear

can be equipped with motor operating mechanisms for the

three-position switch-disconnector. Retroﬁ tting is possible.

Operating voltages for motor operating mechanisms:

• 24, 48, 60, 110, 220 V DC

• 110 and 230 V AC, 50 /60 Hz

• Motor rating: max. 80 W/80 VA.

Operation:

• Local operation by momentary-contact rotary control

switch (option)

• Remote operation (standard) applied to terminal.

Shunt release (option)

(f-release)

Stored-energy mechanisms can be equipped with a shunt

release. Remote electrical tripping of the three-position

switch-disconnector is possible via the magnet coil of the

shunt release, e.g. transformer overtemperature tripping.

To avoid thermal overloading of the shunt release in the

event of a continuous signal that may be applied, the shunt

release is switched off via an auxiliary switch which is

mechanically coupled with the three-position switch-

disconnector.

Auxiliary switch (option)

Each operating mechanism of the three-position switch-

disconnector can be optionally equipped with an auxiliary

switch for the position indication. Free contacts (for manu-

al operating mechanism):

– Switch-disconnector function:

CLOSED and OPEN: 1 NO + 1 NC + 2 changeover contacts

– Earthing switch function:

CLOSED and OPEN: 1 NO + 1 NC + 2 changeover contacts.

Rated switching capacity

Rated insulation voltage 250 V AC / DC

Insulation group C acc. to VDE 0110

Continuous current 10 A

Making capacity 50 A

Abbreviations:

NO = Normally open contact

NC = Normally closed contact

Components

Operating mechanisms for the three-position switch, equipment (optional)

Technical data of the auxiliary switch

Breaking capacity

AC operation

at 40 Hz up to 60 Hz

DC operation

Operating

voltage

Normal current

Operating

voltage

Normal current

Resistive Inductive,

T = 20 ms

up to 230 10 24 10 10

48 10 9

60 9 7

110 5 4

240 2.5 2

27Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Features

• The vacuum circuit-breaker consists of a vacuum inter-

rupter unit with integrated three-position disconnector

located in the switchgear vessel, and the associated

operating mechanisms.

• According to IEC /EN 62271-100 / VDE 0671-100

• Application in hermetically welded switchgear vessel

in conformity with the system

• Climate-independent vacuum interrupter poles in the

gas-ﬁ lled switchgear vessel

• Operating mechanism located outside the switchgear

vessel in the front operating mechanism box

• Maintenance-free for indoor installation according to

IEC /EN 62271-1/ VDE 0671-1

• Individual secondary equipment.

Operating mechanism functions

The closing spring is charged by means of the operating

lever or the hand crank supplied, or by the motor (option),

until the latching of the closing spring is indicated (“spring

charged” indicator). Then, the vacuum circuit-breaker can

be closed manually or electrically.

In operating mechanisms provided for automatic reclosing

(AR), the closing spring can be recharged by hand or auto-

matically in case of motor operating mechanism. Thus, the

“closing option” is available again.

Operating mechanism

The operating mechanism assigned to a circuit-breaker

feeder consists of the following components:

• Operating mechanism for circuit-breaker

• Operating mechanism for three-position disconnector

• Motor operating mechanism (optional)

• Position indicators

• Pushbuttons for CLOSING and OPENING the circuit-breaker

• Interlocking between circuit-breaker and disconnector.

Trip-free mechanism

The vacuum circuit-breaker is ﬁ tted with a trip-free mecha-

nism according to IEC /EN 62271-100/ VDE 0671-100. In the

event of an opening command being given after a closing

operation has been initiated, the moving contacts return

to the open position and remain there even if the closing

command is sustained. This means that the contacts are

momentarily in the closed position, which is permissible

according to the above-mentioned standard.

Assignment of operating mechanism type

Panel type L, V

Function Circuit-breaker Three-position disconnector

Disconnector Earthing switch

Type Stored-energy Spring-operated Spring-operated

Operation Manual/Motor Manual / Motor Manual

Circuit-breaker

Circuit-breaker Type 1.1 Type 2

Short-circuit breaking current up to

17.5 kV / 25 kA

24 kV/21 kA

up to

17.5 kV / 25 kA

24 kV/21 kA

Rated operating sequence

O – 0.3 s – CO – 3 min – CO •–

O – 0.3 s – CO – 15 s – CO on request –

O – 3 min – CO – 3 min – CO – •

Number of

breaking operations Ir10,000 2000

Short-circuit breaking

operations ISC up to 50 up to 20

In individual panel 430 mm

500 mm

•

••

•

In panel block 430 mm ••

Explanations:

• Design option

– Not available

Components

Vacuum circuit-breaker

Permissible operating cycles

Breaking current (r.m.s. value)

1000

100

500

10,000

10 100.1 1 5 500.5

5000

kA25

20,000

200

2000

0.2 2

HA40-2270a_en eps

Permissible operating cycles

Breaking current (r.m.s. value)

1000

100

500

10,000

100.1 1 5 500.5

5000

kA20

20,000

200

2000

0.2 2

HA40-2268a_en eps

Permissible operating cycles

Breaking current (r.m.s. value)

1000

100

500

10,000

100.1 1 5 500.5

5000

kA16

20,000

200

2000

0.2 2

HA40-2269a_en eps

Permissible operating cycles

Breaking current (r.m.s. value)

1000

100

500

10,000

10 100.1 1 5 500.5

5000

kA20

20,000

200

2000

0.2 2

HA40-2271a_en eps

28 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Electrical service life

Vacuum circuit-breaker type 2

Vacuum circuit-breaker type 1.1

Rated short-circuit breaking current 20 kA

Rated short-circuit breaking current 16 kA

Rated short-circuit breaking current 25 kA

Rated short-circuit breaking current 20 kA

Max. number of

short-circuit breaking operations

➀ n = 25 ➂ n = 6

➁ n = 50 ➃ n = 20

Components

Vacuum circuit-breaker

29Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Motor operating mechanism

Operating voltages for motor operating mechanisms

• 24, 48, 60, 110, 220 V DC

• 110 and 230 V AC, 50 /60 Hz.

Further values on request.

Motor rating for circuit-breaker operating mechanism

type 1.1 at

DC: maximum 100 W

AC: maximum 250 VA.

Motor rating for disconnector operating mechanism and

circuit-breaker operating mechanism type 2 at

DC: maximum 80 W

AC: maximum 80 VA.

Secondary components

The scope of the secondary equipment of the vacuum cir-

cuit-breaker depends on the type of application and offers

a wide range of possible variations, allowing almost every

requirement to be satisﬁ ed.

Closing solenoid

• For electrical closing.

Shunt release

• Magnet coil for tripping by protection device or electrical

actuation.

C.t.-operated release

• For tripping pulse 0.1 Ws in conjunction with suitable

protection systems, e.g. protection system 7SJ45 or

make Woodward/SEG type WIC; other designs on request

• Used if external auxiliary voltage is missing, tripping via

protection relay.

Low-energy magnetic release

• For tripping pulse 0.02 Ws, tripping via transformer

monitor (IKI-30).

Undervoltage release

• Comprising:

– Energy store and unlatching mechanism

– Electromagnetic system, which is permanently connect-

ed to voltage while the vacuum circuit-breaker is closed;

tripping is initiated when this voltage drops.

Anti-pumping

(mechanical and electrical)

• Function: If constant CLOSE and OPEN commands are

present at the vacuum circuit-breaker at the same time,

the vacuum circuit-breaker will return to the open posi-

tion after closing. It remains in this position until a new

CLOSE command is given. In this manner, continuous

closing and opening (= pumping) is avoided.

Circuit-breaker tripping signal

• For electrical signaling (as pulse > 10 ms), e.g. to remote

control systems, in the case of automatic tripping

(e.g. protection)

• Via limit switch and cutout switch.

Varistor module

• To limit overvoltages to approx. 500 V for protection

devices (when inductive components are mounted

in the vacuum circuit-breaker)

• For auxiliary voltages ≥ 60 V DC.

Auxiliary switch

• For electrical position indication.

Position switch

• For signaling “closing spring charged”.

Mechanical interlocking

• Dependent on the type of operating mechanism

• Interrogation of the three-position disconnector

from the switchgear side

• Option: Operating mechanism with mechanical

interlocking as

– Stored-energy mechanism with closing solenoid

and pushbutton: The pushbutton operated by the

mechanical interlocking prevents a continuous

command to the closing solenoid

• During operation of the three-position disconnector

from CLOSED to OPEN, the vacuum circuit-breaker

cannot be closed.

Operations counter

• As numeric indicator, 5 digits, mechanical.

1) Depending on the secondary components selected

Components

Secondary equipment of the vacuum circuit-breakers

Circuit-breaker equipment

Circuit-breaker Type 1.1 Type 2

Motor operating mechanism 

Closing solenoid -

Shunt release 

C.t.-operated release 

Low-energy magnetic release – 

Undervoltage release 

Anti-pumping -o.r.

Circuit-breaker tripping signal -

Varistor module for ≥ 60 V DC for ≥ 60 V DC

Auxiliary switch

6 NO + NC --

free contacts thereof 1) 1 NO + 2 NC +

2 changeover

2 NO + 3 NC +

2 changeover

11 NO + 11 NC –

free contacts thereof 1) 6 NO + 7 NC +

2 changeover

–

Position switch --

Mechanical interlocking --

Operations counter -

- = standard

 = option

o.r. = on request

Abbreviations:

NO = Normally open contact

NC = Normally closed contact

HA40-2152a eps

214

HA40-2215 eps

6 7

30 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Features

• Busbar extension possible on all individual panels and

panel blocks (ordering option)

• Plug-in unit consisting of contact coupling and screened

silicone coupling

• Insensitive to pollution and condensation

• Switchgear installation, extension or panel replacement

is possible without gas work

• Busbar connections to metering panels are possible.

Every panel block and every individual panel is optionally

available with busbar extension on the right, on the left or

on both sides. This offers a high ﬂ exibility for the creation

of switchgear conﬁ gurations whose functional units can

be lined up in any order. Local installation and lining up is

done without gas work.

Lining up takes place as follows:

• By the busbar couplings on the medium-voltage side.

Tolerances between adjacent panels are compensated

by spherical ﬁ xed contacts and the movable contact

coupling with degrees of freedom in all axis directions.

• By safe dielectric sealing with screened silicone couplings

that are externally earthed and adjustable to tolerances.

These silicone couplings are pressed on with a deﬁ ned

pressure when the panels are interconnected.

• On free busbar ends, screened dummy plugs are

inserted, each of which is pressed on through a metal

cover. A common protective cover with a warning is

ﬁ xed over all three covers.

• By centering bolts for easier switchgear installation

and ﬁ xing of adjacent panels.

• By bolted panel joints with deﬁ ned stops for the distances

between adjacent panels and the associated pressure for

contact pieces and silicone couplings.

Switchgear installation, extension or replacement of one

or more functional units requires a lateral wall distance

≥ 200 mm.

Interconnecting the panels

1 Contact piece

2 Silicone coupling

3 Tension spring for earthing

4 Centering bolt

5 Silicone dummy plug with insertable sleeve

6 Clamping cover for dummy plugs

7 Busbar termination cover

Surge-proof termination

Components

Busbar extension, modularity

HA40-2153c eps

123

68 59 7 4

31Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Features

• Application in switch-disconnector/ fuse combination in

– Transformer feeders (T)

– Bus sectionalizer with switch-fuse combination (H)

• HV HRC fuse-links according to DIN 43625

(main dimensions) with striker; “medium“ version

according to IEC /EN 60282-1/ VDE 0670-4

– As short-circuit protection for transformers

– With selectivity – depending on correct selection –

to upstream and downstream connected equipment

–1-pole insulated

• Requirements according to IEC/EN 62271-105/VDE 0671-105

fulﬁ lled in high-voltage switch-fuse combinations

• Climate-independent and maintenance-free

• Fuse assembly connected to the three-position

switch-disconnector via welded-in bushings and con-

necting bars

• Arrangement of fuse assembly below the switchgear vessel

• Fuses can only be replaced if feeder is earthed

• Fuse slide for reference dimension 292 mm and 442 mm

Option with three-position switch-disconnector

• Shunt release (f-release)

• “Tripped signal” of the transformer switch for remote

electrical indication with 1 normally open contact.

Mode of operation

In the event that an HV HRC fuse-link has tripped, the

switch-disconnector is tripped via an articulation which is

integrated into the cover of the fuse box (see ﬁ gure).

In the event that the fuse tripping fails, e.g. if the fuse

has been inserted incorrectly, the fuse box is protected by

thermal protection. The overpressure generated by over-

heating trips the switch via the diaphragm in the cover of

the fuse box and via an articulation. This prevents the fuse

box from incurring irreparable damage.

This thermal protection works independently of the type

and design of the HV HRC fuse used. Like the fuse itself,

it is maintenance-free and independent of any outside

climatic effects.

Furthermore, the HV HRC fuses (e.g. make SIBA) release

the striker depending on the temperature and trip the

switch-disconnector as early as in the fuse overload range.

Impermissible heating of the fuse box can be avoided in

this way.

Replacement of HV HRC fuse-links

(without tools)

• Isolate and earth the transformer feeder

• Open the cover of the fuse access

• Replace the HV HRC fuse-link.

HV HRC fuse assembly

1 Fuse box

2 Fuse slide

3 Tripping pin for spring-operated/stored-energy mechanism

4 Sealing cover with seal

5 Locking cap

6 HV HRC fuse

7 Cable connection

8 Bushing

9 Switchgear vessel

HA35-2523 eps

Schematic sketches for fuse tripping

Fuse link in

service condition

Fuse tripping

through striker

Fuse tripping through

overpressure, e.g. if

HV HRC fuse-link has

been inserted incorrectly

Note to HV HRC fuse-links

According to IEC 60282-1 (2009) Clause 6.6, the breaking

capacity of HV HRC fuses is tested within the scope of

the type test at 87 % of their rated voltage. In three-phase

systems with resonance-earthed or isolated neutral, under

double earth fault and other conditions, the full phase-to-

phase voltage may be available at the HV HRC fuse during

breaking. Depending on the size of the operating voltage

of such a system, this applied voltage may then exceed

87 % of the rated voltage. It must therefore already be

ensured during conﬁ guration of the switching devices

and selection of the HV HRC fuse that only such fuse-links

are used, which either satisfy the above operating

conditions, or whose breaking capacity was tested at least

with the maximum system voltage. In case of doubt, a

suitable HV HRC fuse must be selected together with the

fuse manufacturer.

Components

HV HRC fuse assembly

32 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

MV system

MV system Transformer

HV HRC fuse-link

Operating

v oltage Un

Rated power

kVA

Relative

impedance

voltage uk

Rated c urrent

Rated current

Min. operating/

rated voltage

Dimension e

Order No.

Make SIBA

Order No.

Make Mersen

3.3 to 3.6 20 43.5 6.3 3 to 7.2 292 30 098 13.6,3 –

10 3 to 7.2 292 30 098 13.10 –

30 45.25 10 3 to 7.2 292 30 098 13.10 –

16 3 to 7.2 292 30 098 13.16 –

50 48.75 16 3 to 7.2 292 30 098 13.16 –

20 3 to 7.2 292 30 098 13.20 –

75 413.1 20 3 to 7.2 292 30 098 13.20 –

25 3 to 7.2 292 30 098 13.25 –

100 417.5 31.5 3 to 7.2 292 30 098 13.31,5 –

40 3 to 7.2 292 30 098 13.40 –

125 421.87 31.5 3 to 7.2 292 30 098 13.31,5 –

40 3 to 7.2 292 30 098 13.40 –

160 428 40 3 to 7.2 292 30 098 13.40 –

50 3 to 7.2 292 30 098 13.50 –

200 435 50 3 to 7.2 292 30 098 13.50 –

63 3 to 7.2 292 30 099 13.63 –

250 443.74 63 3 to 7.2 292 30 099 13.63 –

80 3 to 7.2 292 30 099 13.80 –

4.16 to 4.8 20 42.78 6.3 3 to 7.2 292 30 098 13.6,3 –

30 44.16 10 3 to 7.2 292 30 098 13.10 –

50 46.93 16 3 to 7.2 292 30 098 13.16 –

75 410.4 16 3 to 7.2 292 30 098 13.16 –

20 3 to 7.2 292 30 098 13.20 –

100 413.87 20 3 to 7.2 292 30 098 13.20 –

25 3 to 7.2 292 30 098 13.25 –

125 417.35 25 3 to 7.2 292 30 098 13.25 –

31.5 3 to 7.2 292 30 098 13.31,5 –

160 422.2 31.5 3 to 7.2 292 30 098 13.31,5 –

40 3 to 7.2 292 30 098 13.40 –

200 427.75 40 3 to 7.2 292 30 098 13.40 –

50 3 to 7.2 292 30 098 13.50 –

250 434.7 50 3 to 7.2 292 30 098 13.50 –

63 3 to 7.2 292 30 099 13.63 –

315 443.7 63 3 to 7.2 292 30 099 13.63 –

80 3 to 7.2 292 30 099 13.80 –

5.0 to 5.5 20 42.3 6.3 3 to 7.2 292 30 098 13.6,3 –

30 43.4 6.3 3 to 7.2 292 30 098 13.6,3 –

10 3 to 7.2 292 30 098 13.10 –

50 45.7 10 3 to 7.2 292 30 098 13.10 –

16 3 to 7.2 292 30 098 13.16 –

75 48.6 16 3 to 7.2 292 30 098 13.16 –

20 3 to 7.2 292 30 098 13.20 –

100 411.5 16 3 to 7.2 292 30 098 13.16 –

20 3 to 7.2 292 30 098 13.20 –

125 414.4 20 3 to 7.2 292 30 098 13.20 –

25 3 to 7.2 292 30 098 13.25 –

160 418.4 31.5 3 to 7.2 292 30 098 13.31,5 –

40 3 to 7.2 292 30 098 13.40 –

200 423 40 3 to 7.2 292 30 098 13.40 –

50 3 to 7.2 292 30 098 13.50 –

250 428.8 40 3 to 7.2 292 30 098 13.40 –

50 3 to 7.2 292 30 098 13.50 –

315 436.3 50 3 to 7.2 292 30 098 13.50 –

63 3 to 7.2 292 30 099 13.63 –

400 446.1 63 3 to 7.2 292 30 099 13.63 –

80 3 to 7.2 292 30 099 13.80 –

Fuse protection table

The following table shows the recommended HV HRC

fuse-links make SIBA and Mersen (electrical data valid for

ambient air temperatures of up to 40 °C) for fuse protec-

tion of transformers.

The three-position switch-disconnector in panel types T

and H was combined with HV HRC fuse-links and tested

according to IEC 62271-105.

Standards

HV HRC fuse-links “medium” version with striker

and for tripping energy 1 ± 0.5 Joule according to

• IEC / EN 60282-1/ VDE 0670-4

• IEC / TR 626552 / VDE 0670-402

• DIN 43625 main dimensions.

Components

Allocation of HV HRC fuses and transformer ratings

33Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

MV system

MV system Transformer

HV HRC fuse-link

Operating

v oltage Un

Rated power

kVA

Relative

impedance

voltage uk

Rated c urrent

Rated current

Min. operating/

rated voltage

Dimension e

Order No.

Make SIBA

Order No.

Make Mersen

6 to 7.2 20 41.9 6.3 6 to 12 292 30 004 13.6,3 –

6.3 3 to 7.2 292 30 098 13.6,3 –

6.3 6 to 12 442 30 101 13.6,3 –

50 44.8 10 3 to 7.2 292 30 098 13.10 –

10 6 to 12 292 30 004 13.10 –

10 6 to 12 442 30 101 13.10 –

16 3 to 7.2 292 30 098 13.16 –

16 6 to 12 292 30 004 13.16 45DB120V16PTD

16 6 to 12 442 30 101 13.16 –

75 47.2 16 3 to 7.2 292 30 098 13.16 –

16 6 to 12 292 30 004 13.16 45DB120V16PTD

16 6 to 12 442 30 101 13.16 –

100 49.6 16 3 to 7.2 292 30 098 13.16 –

16 6 to 12 292 30 004 13.16 –

16 6 to 12 442 30 101 13.16 –

20 3 to 7.2 292 30 098 13.20 –

20 6 to 12 292 30 004 13.20 –

20 6 to 12 442 30 101 13.20 –

25 6 to 12 292 – 45DB120V25PTD

125 412 20 3 to 7.2 292 30 098 13.20 –

20 6 to 12 292 30 004 13.20 –

20 6 to 12 442 30 101 13.20 –

25 3 to 7.2 292 30 098 13.25 –

25 6 to 12 292 30 004 13.25 45DB120V25PTD

25 6 to 12 442 30 101 13.25 –

160 415.4 31.5 3 to 7.2 292 30 098 13.31,5 –

31.5 6 to 12 292 30 004 13.31,5 45DB120V32PTD

31.5 6 to 12 442 30 101 13.31,5 –

200 419.2 31.5 3 to 7.2 292 30 098 13.31,5 –

31.5 6 to 12 292 30 004 13.31,5 –

31.5 6 to 12 442 30 101 13.31,5 –

40 3 to 7.2 292 30 098 13.40 –

40 6 to 12 292 30 004 13.40 45DB120V40PTD

40 6 to 12 442 30 101 13.40 –

250 424 40 3 to 7.2 292 30 098 13.40 –

40 6 to 12 292 30 004 13.40 –

40 6 to 12 442 30 101 13.40 –

50 3 to 7.2 292 30 098 13.50 –

50 6 to 12 292 30 004 13.50 –

50 6 to 12 442 30 101 13.50 –

63 6 to 12 292 30 012 43.63 45DB120V63PTS2

315 430.3 50 3 to 7.2 292 30 098 13.50 –

50 6 to 12 292 30 004 13.50 45DB120V50PTD

50 6 to 12 442 30 101 13.50 –

63 6 to 12 292 30 012 43.63 45DB120V63PTS2

80 6 to 12 292 – 45DB120V80PTS2

400 438.4 63 6 to 12 292 30 012 43.63 –

80 6 to 12 292 30 012 43.80 45DB120V80PTS2

80 6 to 12 442 30 102 43.80 –

63 3 to 7.2 292 30 099 13.63 –

63 6 to 12 292 30 012 13.63 –

63 6 to 12 442 30 102 13.63 –

100 6 to 12 292 – 45DB120V100PTS2

500 448 80 6 to 12 292 30 012 43.80 –

80 6 to 12 442 30 102 43.80 –

80 3 to 7.2 292 30 099 13.80 –

80 6 to 12 292 30 012 13.80 –

80 6 to 12 442 30 102 13.80 –

100 6 to 12 292 30 012 43.100 45DB120V100PTS2

100 6 to 12 442 30 102 43.100 45DB120V100PTS3

630 461 100 6 to 12 442 30 102 43.100 –

125 6 to 12 292 30 020 43.125 45DB120V125PTS2

125 6 to 12 442 30 103 43.125 –

800 477 160 6 to 12 442 – 45DB120V160PTS3

10 to 12 20 41.15 4 6 to 12 292 30 004 13.4 –

50 42.9 10 6 to 12 292 30 004 13.10 45DB120V10PTD

10 6 to 12 442 30 101 13.10 –

10 10 to 17.5 292 30 255 13.10 –

10 10 to 17.5 442 30 231 13.10 –

10 10 to 24 442 30 006 13.10 45DB240V10PTD

75 44.3 10 6 to 12 292 30 004 13.10 45DB120V10PTD

10 6 to 12 442 30 101 13.10 –

10 10 to 17.5 292 30 255 13.10 –

10 10 to 17.5 442 30 231 13.10 –

10 10 to 24 442 30 006 13.10 45DB240V10PTD

Components

Allocation of HV HRC fuses and transformer ratings

34 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

MV system

MV system Transformer

HV HRC fuse-link

Operating

v oltage Un

Rated power

kVA

Relative

impedance

voltage uk

Rated c urrent

Rated current

Min. operating/

rated voltage

Dimension e

Order No.

Make SIBA

Order No.

Make Mersen

10 to 12 100 45.8 16 6 to 12 292 30 004 13.16 –

16 6 to 12 442 30 101 13.16 –

16 10 to 17.5 292 30 255 13.16 –

16 10 to 17.5 442 30 231 13.16 –

16 10 to 24 442 30 006 13.16 45DB240V16PTD

125 47.2 16 6 to 12 292 30 004 13.16 45DB120V16PTD

16 6 to 12 442 30 101 13.16 –

16 10 to 17.5 292 30 255 13.16 –

16 10 to 17.5 442 30 231 13.16 –

16 10 to 24 442 30 006 13.16 45DB240V16PTD

20 10 to 24 442 – 45DB240V20PTD

160 49.3 20 6 to 12 292 30 004 13.20 45DB120V20PTD

20 6 to 12 442 30 101 13.20 –

20 10 to 17.5 292 30 221 13.20 –

20 10 to 17.5 442 30 231 13.20 –

20 10 to 24 442 30 006 13.20 45DB240V20PTD

200 411.5 25 6 to 12 292 30 004 13.25 45DB120V25PTD

25 6 to 12 442 30 101 13.25 –

25 10 to 17.5 292 30 221 13.25 –

25 10 to 17.5 442 30 231 13.25 –

25 10 to 24 442 30 006 13.25 45DB240V25PTD

250 414.5 25 6 to 12 292 30 004 13.25 45DB120V25PTD

25 6 to 12 442 30 101 13.25 –

25 10 to 17.5 292 30 221 13.25 –

25 10 to 17.5 442 30 231 13.25 –

25 10 to 24 442 30 006 13.25 45DB240V25PTD

31.5 6 to 12 292 30 004 13.31,5 –

31.5 6 to 12 442 30 101 13.31,5 –

31.5 10 to 17.5 292 30 221 13.31,5 –

31.5 10 to 17.5 442 30 231 13.31,5 –

31.5 10 to 24 442 30 006 13.31,5 45DB240V32PTD

315 418.3 31.5 6 to 12 292 30 004 13.31,5 45DB120V32PTD

31.5 6 to 12 442 30 101 13.31,5 –

31.5 10 to 17.5 292 30 221 13.31,5 –

31.5 10 to 17.5 442 30 231 13.31,5 –

31.5 10 to 24 442 30 006 13.31,5 45DB240V32PTD

40 6 to 12 292 30 004 13.40 –

40 6 to 12 442 30 101 13.40 –

40 10 to 17.5 292 30 221 13.40 –

40 10 to 17.5 442 30 231 13.40 –

40 10 to 24 442 30 006 13.40 45DB240V40PTD

400 423.1 40 6 to 12 292 30 004 13.40 45DB120V40PTD

40 6 to 12 442 30 101 13.40 –

40 10 to 17.5 292 30 221 13.40 –

40 10 to 17.5 442 30 231 13.40 –

40 10 to 24 442 30 006 13.40 45DB240V40PTD

50 6 to 12 292 30 004 13.50 –

50 6 to 12 442 30 101 13.50 –

50 10 to 17.5 292 30 221 13.50 –

50 10 to 17.5 442 30 232 13.50 –

50 10 to 24 442 30 014 13.50 45DB240V50PTS

500 4 29 50 6 to 12 292 30 004 13.50 45DB120V50PTD

50 6 to 12 442 30 101 13.50 –

50 10 to 17.5 292 30 221 13.50 –

50 10 to 17.5 442 30 232 13.50 –

50 10 to 24 442 30 014 13.50 45DB240V50PTD

63 6 to 12 292 30 012 43.63 45DB120V63PTS2

63 10 to 24 442 30 014 43.63 45DB240V63PTD

630 4 36.4 63 6 to 12 292 30 012 43.63 –

80 10 to 24 442 30 014 43.80 45DB240V80PTS

63 6 to 12 292 30 012 13.63 45DB120V63PTD

63 6 to 12 442 30 102 13.63 –

63 10 to 17.5 442 30 232 13.63 –

80 6 to 12 292 30 012 43.80 45DB120V80PTS2

80 6 to 12 442 30 102 43.80 –

800 5 to 6 46.2 63 6 to 12 292 30 012 13.63 –

80 6 to 12 292 30 012 43.80 45DB120V80PTS2

80 6 to 12 442 30 102 43.80 –

80 10 to 24 442 –45DB240V80PTS

1000 5 to 6 58 100 6 to 12 292 –45DB120V100PTS2

100 6 to 12 442 30 102 43.100 45DB120V100PTS3

100 10 to 24 442 –45DB240V100PTS

1250 5 to 6 72.2 125 6 to 12 292 –45DB120V125PTS2

125 6 to 12 442 30 103 43.125 45DB120V125PTS3

125 10 to 24 442 –45DB240V125PTS

Components

Allocation of HV HRC fuses and transformer ratings

35Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

MV system

MV system Transformer

HV HRC fuse-link

Operating

v oltage Un

Rated power

kVA

Relative

impedance

voltage uk

Rated c urrent

Rated current

Min. operating/

rated voltage

Dimension e

Order No.

Make SIBA

Order No.

Make Mersen

13.8 20 4 0.8 3.15 10 to 24 442 30 006 13.3,15 –

50 4 2.1 6.3 10 to 17.5 442 30 231 13.6,3 –

6.3 10 to 24 442 30 006 13.6,3 –

10 10 to 24 442 –45DB240V10PTD

75 4 3.2 6.3 10 to 17.5 442 30 231 13.6,3 –

10 10 to 17.5 442 30 231 13.10 –

10 10 to 24 442 30 006 13.10 45DB240V10PTD

100 4 4.2 10 10 to 17.5 442 30 231 13.10 –

16 10 to 17.5 442 30 231 13.16 –

16 10 to 24 442 30 006 13.16 45DB240V16PTD

125 4 5.3 10 10 to 17.5 442 30 231 13.10 –

16 10 to 17.5 442 30 231 13.16 –

16 10 to 24 442 30 006 13.16 45DB240V16PTD

160 4 6.7 16 10 to 17.5 442 30 231 13.16 –

16 10 to 24 442 –45DB240V16PTD

200 4 8.4 16 10 to 17.5 442 30 231 13.16 –

20 10 to 17.5 442 30 231 13.20 –

20 10 to 24 442 30 006 13.20 45DB240V20PTD

250 4 10.5 20 10 to 17.5 442 30 231 13.20 –

25 10 to 17.5 442 30 231 13.25 –

25 10 to 24 442 30 006 13.25 45DB240V25PTD

315 4 13.2 25 10 to 17.5 442 30 231 13.25 –

25 10 to 24 442 –45DB240V25PTD

31.5 10 to 17.5 442 30 231 13.31,5 –

31.5 10 to 24 442 30 006 13.31,5 45DB240V32PTD

400 4 16.8 31.5 10 to 17.5 442 30 231 13.31,5 –

31.5 10 to 24 442 30 006 13.31,5 45DB240V32PTD

40 10 to 24 442 –45DB240V40PTD

500 4 21 40 10 to 17.5 442 30 231 13.40 –

40 10 to 24 442 30 006 13.40 45DB240V40PTD

50 10 to 24 442 –45DB240V50PTD

630 4 26.4 50 10 to 17.5 442 30 232 13.50 –

50 10 to 24 442 30 014 13.50 45DB240V50PTD

63 10 to 24 442 –45DB240V63PTD

80 10 to 24 442 –45DB240V80PTS

800 5 to 6 33.5 63 10 to 24 442 30 014 43.63 45DB240V63PTD

80 10 to 24 442 –45DB240V80PTS

1000 5 to 6 41.9 80 10 to 24 442 30 014 43.80 45DB240V80PTD

1250 5 to 6 52.3 100 10 to 24 442 –45DB240V100PTS

15 to 17.5 20 4 0.77 3.15 10 to 24 442 30 006 13.3,15 –

50 4 1.9 6.3 10 to 17.5 442 30 231 13.6,3 –

6.3 10 to 24 442 30 006 13.6,3 –

75 4 2.9 6.3 10 to 17.5 442 30 231 13.6,3 –

10 10 to 24 442 –45DB240V10PTD

100 4 3.9 10 10 to 17.5 442 30 231 13.10 –

10 10 to 24 442 –45DB240V10PTD

125 4 4.8 16 10 to 17.5 442 30 231 13.16 –

16 10 to 24 442 30 006 13.16 45DB240V16PTD

160 4 6.2 16 10 to 17.5 442 30 231 13.16 –

16 10 to 24 442 –45DB240V16PTD

200 4 7.7 16 10 to 24 442 –45DB240V16PTD

20 10 to 17.5 442 30 231 13.20 –

20 10 to 24 442 30 006 13.20 –

250 4 9.7 25 10 to 17.5 442 30 231 13.25 –

25 10 to 24 442 30 006 13.25 45DB240V25PTD

315 4 12.2 25 10 to 24 442 –45DB240V25PTD

31.5 10 to 17.5 442 30 231 13.31,5 –

31.5 10 to 24 442 30 006 13.31,5 –

400 4 15.5 31.5 10 to 17.5 442 30 231 13.31,5 –

31.5 10 to 24 442 30 006 13.31,5 45DB240V32PTD

500 4 19.3 31.5 10 to 17.5 442 30 231 13.31,5 –

31.5 10 to 24 442 30 006 13.31,5 –

40 10 to 17.5 442 30 231 13.40 –

40 10 to 24 442 30 006 13.40 45DB240V40PTD

630 4 24.3 40 10 to 17.5 442 30 231 13.40 –

40 10 to 24 442 30 006 13.40 –

50 10 to 17.5 442 30 232 13.50 –

50 10 to 24 442 30 014 13.50 45DB240V50PTD

63 10 to 24 442 30 014 43.63 –

800 5 to 6 30.9 63 10 to 24 442 30 014 43.63 –

1000 5 to 6 38.5 80 10 to 24 442 30 014 43.80 –

1250 5 to 6 48.2 100 10 to 24 442 30 022 43.100 –

Components

Allocation of HV HRC fuses and transformer ratings

36 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

MV system

MV system Transformer

HV HRC fuse-link

Operating

v oltage Un

Rated power

kVA

Relative

impedance

voltage uk

Rated c urrent

Rated current

Min. operating/

rated voltage

Dimension e

Order No.

Make SIBA

Order No.

Make Mersen

20 to 24 20 4 0.57 3.15 10 to 24 442 30 006 13.3,15 –

50 4 1.5 6.3 10 to 24 442 30 006 13.6,3 –

75 4 2.2 6.3 10 to 24 442 30 006 13.6,3 –

100 4 2.9 6.3 10 to 24 442 30 006 13.6,3 –

10 10 to 24 442 –45DB240V10PTD

125 4 3.6 10 10 to 24 442 30 006 13.10 45DB240V10PTD

160 4 4.7 10 10 to 24 442 30 006 13.10 –

200 4 5.8 16 10 to 24 442 30 006 13.16 45DB240V16PTD

250 4 7.3 16 10 to 24 442 30 006 13.16 45DB240V16PTD

315 4 9.2 16 10 to 24 442 30 006 13.16 –

20 10 to 24 442 30 006 13.20 –

25 10 to 24 442 –45DB240V25PTD

400 4 11.6 20 10 to 24 442 30 006 13.20 –

25 10 to 24 442 30 006 13.25 45DB240V25PTD

500 4 14.5 25 10 to 24 442 30 006 13.25 45DB240V25PTD

31.5 10 to 24 442 30 006 13.31,5 45DB240V32PTD

630 4 18.2 31.5 10 to 24 442 30 006 13.31,5 45DB240V32PTD

40 10 to 24 442 30 006 13.40 45DB240V40PTD

800 5 to 6 23.1 31.5 10 to 24 442 30 006 13.31,5 –

40 10 to 24 442 30 006 13.40 45DB240V40PTD

1000 5 to 6 29 50 10 to 24 442 30 014 13.50 45DB240V50PTS

63 10 to 24 442 30 014 43.63 –

1250 5 to 6 36 50 10 to 24 442 – 45DB240V50PTS

80 10 to 24 442 30 014 43.80 –

1600 5 to 6 46.5 100 10 to 24 442 30 022 43.100 –

2000 5 to 6 57.8 140 10 to 24 442 30 022 43.140 –

Components

Allocation of HV HRC fuses and transformer ratings

37Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Features

• According to

IEC /EN 61869-1 and -2/

VDE 0414-9-1 and -2

• Designed as ring-core

current transformers, 1-pole

• Free of dielectrically

stressed cast-resin parts

(due to design)

• Insulation class E

• Inductive type

• Secondary connection by

means of a terminal strip

in the panel.

Installation

The mounting location is out-

side the switchgear vessel,

around the cable at the panel

connection; installation on

the cable on site.

Note: Installation inside or

underneath the panel depend-

ing on the panel type and

the overall transformer

height.

Technical data

Cable-type current transformer 4MC7033

Primary data

Highest voltage

for equipment Um

0.72 kV

Rated current IN20 A to 600 A

Rated short-duration

power-frequency withstand

voltage (winding test)

3 kV

Rated short-time

thermal current Ith

up to 25 kA /1 s

or 20 kA /3 s

Rated continuous

thermal current ID

1.2 × IN

Transient overload

current

1.5 × ID/ 1 h or

2 × ID/0.5 h

Rated dynamic

current Idyn

2.5 × Ith

Secondary data

Rated current 1 A or 5 A,

optionally: multiratio

Mea-

suring

core

Class 0.2 0.5 1

Overcurrent factor without FS5 FS10

Rating 2.5 VA to 30 VA

Protec-

tion

core

Class 10 P 5 P

Overcurrent factor 10 20 30

Rating 1 VA to 30 VA

Dimensions

Overall height H, mm

depending on

core data

65 110 170 285

Outside diameter 150 mm

Inside diameter 55 mm

For cable diameter 50 mm

Other values on request

Technical data

Cable-type current transformer 4MC7031

Primary data

Highest voltage

for equipment Um

0.72 kV

Rated current IN50 A to 600 A

Rated short-duration

power-frequency withstand

voltage (winding test)

3 kV

Rated short-time

thermal current Ith

up to 25 kA /1 s

or 14.5 kA /3 s

Rated continuous

thermal current ID

1.2 × IN

Transient overload

current

1.5 × ID/ 1 h or

2 × ID/0.5 h

Rated dynamic

current Idyn

2.5 × Ith

Secondary data

Rated current 1 A or 5 A

Mea-

suring

core

Class 1

Overcurrent factor FS5

Rating 2.5 VA to 10 VA

Dimensions

Overall height H 89 mm

Width × depth 85 mm × 114 mm

Inside diameter 40 mm

For cable diameter 36 mm

Other values on request

Cable-type current transformer

4MC7033, 4 overall heights

Cable-type current transformer

4MC7031

R-HA41-024a.eps

R-HA41-025.eps

Components

Cable-type current transformers 4MC7033 and 4MC7031

38 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Features

• According to

IEC /EN 61869-1 and -2/

VDE 0414-9-1 and -2

• Designed as ring-core

current transformer, 3-pole

• Free of dielectrically

stressed cast-resin parts

(due to design)

• Insulation class E

• Inductive type

• Climate-independent

• Secondary connection by

means of a terminal strip

in the panel.

Installation

• Mounting location:

– For individual panels type

R(500) and L(500) (optional)

– Arranged outside the

switchgear vessel on

the bushings of the cable

connection

–Factory-assembled.

Further designs

(option)

For protection equipment

based on the current-trans-

former operation principle:

• Protection system 7SJ45 as

deﬁ nite-time overcurrent

protection

• Deﬁ nite-time overcurrent

protection relay,

make Woodward/SEG,

type WIP 1

• Deﬁ nite-time overcurrent

protection relay,

make Woodward/SEG,

type WIC.

Technical data

Three-phase current transformer 4MC6311

for IN

≤

400 A and ID = 630 A

Primary data

Highest voltage

for equipment Um

0.72 kV

Rated current IN A400 300 200

Rated short-duration

power-frequency withstand

voltage (winding test)

3 kV

Rated short-time

thermal current Ith

up to 25 kA /1 s

or 20 kA /3 s

Rated continuous

thermal current ID

630 A

Transient overload

current

2 × ID/0.5 h

Rated dynamic

current Idyn

2.5 × Ith

Secondary data

Rated current A 1 0.75 0.5

Rating VA 4 3 2

Current at ID1.575 A

Protec-

tion

core

Class 10 P

Overcurrent

factor

Other values on request

Three-phase current transformer

4MC63

R-HA41-022.eps

Components

Three-phase current transformer 4MC63

Technical data

Three-phase current transformer 4MC6310

for IN

≤

150 A and ID = 630 A

Primary data

Highest voltage

for equipment Um

0.72 kV

Rated current IN A150 100 75 50

Rated short-duration

power-frequency withstand

voltage (winding test)

3 kV

Rated short-time

thermal current Ith

up to 25 kA /1 s

or 20 kA /3 s

Rated continuous

thermal current ID

630 A

Transient overload

current

1.5 × ID/1 h

Rated dynamic

current Idyn

2.5 × Ith

Secondary data

Rated current A 1 0.67 0.5 0.33

Rating VA 2.5 1.7 1.25 0.8

Current at ID4.2 A

Protec-

tion

core

Class 10 P

Overcurrent

factor

Other values on request

HA40-2154a eps

130130

39Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Features

• According to

IEC /EN 61869-1 and -2/

VDE 0414-9-1 and -2

• Designed as ring-core

current transformer, 1-pole

• Free of dielectrically

stressed cast-resin parts

(due to design)

• Insulation class E

• Inductive type

• Secondary connection by

means of a terminal strip

in the panel.

Installation

• Mounting location:

– Arranged outside the

switchgear vessel on the

screened busbar section

in bus sectionalizer panels

with switch-disconnector

type S and bus sectionalizer

panels with circuit-breaker

type V with the option of

busbar current transformers

– Arranged outside the

switchgear vessel around

the cable at the panel

connection for 310 mm

panel width (cable feeders

type R and K), transformers

mounted on a supporting

plate at the factory;

ﬁ nal assembly around the

cables on site.

Note: Depending on

the transformer overall

height: Installation inside

or underneath the panel.

Technical data

Bus / cable-type current transformer 4MC7032

Primary data

Highest voltage

for equipment Um

0.72 kV

Rated current IN200 A to 600 A

Rated short-duration

power-frequency withstand

voltage (winding test)

3 kV

Rated short-time

thermal current Ith

up to 25 kA /1 s

or 20 kA /3 s

Rated continuous

thermal current ID

1.2 × IN

Transient overload

current

1.5 × ID/ 1 h or

2 × ID/0.5 h

Rated dynamic

current Idyn

2.5 × Ith

Secondary data

Rated current 1 A (option: 5 A)

Measur-

ing

core

Class 0.2 0.5 1

Overcurrent

factor

with-

out

FS5 FS10

Rating 2.5 VA to 10 VA

Protec-

tion

core

Class 10 P 5 P *)

Overcurrent

factor

10 10

Rating 2.5 VA to 15 VA

Dimensions

Overall width B,

depending on core data

and mounting location

80 mm/150 mm

Outside diameter 125 mm

Inside diameter 55 mm

Other values on request *) On request

Bus / cable-type current transformer

4MC7032

R-HA41-027.eps

Panel section type V

1 Bus / cable-type current transformer

4MC7032

Components

Bus / cable-type current transformer 4MC7032

40 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Common features

• According to

IEC /EN 61869-1 and -3/

VDE 0414-9-1 and -3

• 1-pole, plug-in design

• Inductive type

• Connection with

plug-in contact

• Safe-to-touch due

to metal cover

• Secondary connection by

means of plugs inside the

panel.

Features of type 4MT3

• Metal-coated or metal-

enclosed (option)

• For outside-cone system

type A.

Installation

• Mounting location:

– Arranged above the

switchgear vessel in

individual panels type

L(500), M(430), V and E

(optional)

– Arranged in front of the

switchgear vessel in indivi-

dual panel type M(500)

– Direct connection to the

busbar.

Features of type 4MT8

• Metal-enclosed

• For connection to the cable

plug-in unit (screened). 1)

Installation

• Mounting location:

– Arranged in the cable

compartment of indivi-

dual panels type L(500)

and R(500) (optional).

Primary data

Highest voltage for equipment 1.2 × Un

Rated voltage (8 h) = 1.9 × Un

Rated voltage UrOperating voltage Un

kV kV/√3

3.6 3.3

7.2 3.6

4.2

4.8

5.0

6.0

6.3

6.6

12 7.2

10.0

11.0

11.6

17.5 12.8

13.2

13.8

15.0

16.0

24 17.5

20.0

22.0

23.0

Secondary data

Rated voltage 1st winding 100 /√3

110 / √3

Auxiliary winding

(option)

100 / 3

110 / 3

for 4MT3

Rated long-time current (8 h) 6 A Class

Rating in VA up to 20 0.2

60 0.5

120 1.0

for 4MT8

Rated long-time current (8 h) 6 A Class

Rating in VA up to 25 0.2

75 0.5

120 1.0

Technical data

for types 4MT3 and 4MT8

Plug-in

voltage transformer 4MT3

Plug-in

voltage transformer 4MT8

R-HA35-120.eps

R-HA41-020.eps

1) Connection with symmetrical cable

T-plugs (see table on page 47)

Components

Plug-in voltage transformers 4MT3 and 4MT8

41Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Features

Current transformer 4MA7

• According to

IEC /EN 61869-1 and -2/

VDE 0414-9-1 and -2

• Dimensions according to

DIN 42600-8 (small design)

• Designed as indoor support-

type current transformer,

1-pole

• Cast-resin insulated

• Insulation class E

• Secondary connection by

means of screw-type

terminals.

Voltage transformer 4MR

• According to

IEC /EN 61869-1 and -3/

VDE 0414-9-1 and -3

• Dimensions according to

DIN 42600-9 (small design)

• Designed as indoor voltage

transformer:

– Type 4MR, 1-pole

– Option: Type 4MR, 2-pole

• Cast-resin insulated

• Insulation class E

• Secondary connection by

means of screw-type

terminals.

Technical data

Current transformer 4MA7, 1-pole

Primary data

Highest voltage

for equipment Um

up to 24 kV

Rated short-duration

power-frequency

withstand voltage Ud

up to 50 kV

Rated lightning impulse

withstand voltage Up

up to 125 kV

Rated current IN20 A to 600 A

Rated short-time

thermal current Ith

up to 25 kA /1 s

Rated continuous

thermal current ID

1.2 × IN

Rated dynamic

current Idyn

max. 2.5 × Ith

Secondary data

Rated current 1 A or 5 A

Measur-

ing

core

Class 0.2 0.5 1

Overcurrent factor without FS5 FS10

Rating 2.5 VA to 30 VA

Protec-

tion

core

Class 5 P or 10 P

Overcurrent factor 10

Rating 2.5 VA to 30 VA

Other values on request

Current transformer 4MA7 Voltage transformer 4MR

R-HA41-030.eps

R-HA41-029.eps

Technical data

Voltage transformer 4MR, 1-pole

Primary data

Highest voltage for equipment 1.2 × Un

Rated voltage (8 h) = 1.9 × Un

Rated voltage UrOperating voltage Un

kV kV/√3

3.6 3.3

7.2 3.6

4.2

4.8

5.0

6.0

6.3

6.6

12 7.2

10.0

11.0

11.6

17.5 12.8

13.2

13.8

15.0

16.0

24 17.5

20.0

22.0

23.0

Secondary data

Rated voltage

in V

1st winding 100/√3

110 / √3

120 / √3

Auxiliary

winding

( option)

100 / 3

110 / 3

120 / 3

Rating

in VA up to

Class

20 0.2

60 0.5

100 1.0

Other values on request

Components

Current transformers 4MA7 and voltage transformers 4MR for air-insulated billing metering panels

42 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Common features

• According to

IEC 60044-8

(low-power current trans-

formers)

• Example for available

secondary devices that can

be connected:

–SICAM FCM

–7SJ81

Current sensors

(make Zelisko)

The current sensors are

inductive current transfor-

mers whose secondary

winding delivers a voltage

signal through a precision

shunt. At the rated primary

current, this is 225 mV.

Depending on their version,

the sensors have a dual

accuracy class; the output

signal can be equally used for

measuring, protection and,

if required, earth-fault detec-

tion. The outgoing leads of

the sensors are directly

connected to the secondary

device (SICAM FCM, 7SJ81).

Primary data

Highest voltage

for equipment Un0.72/3 kV 0.72 / 3 kV 0.72 / 3 kV 0.72/3 kV

Rated current IN300 A 1) 300 A 1) 60 A 300 A 1)

Rated short-time

thermal current Ith 25 kA 1 s 25 kA 1 s 25 kA 1 s 25 kA 1 s

Secondary data

Output signal 225 mV 225 mV 225 mV 225 mV

Measuring Class 0.5; 1; 3 1; 3 – 0.5; 1; 3

Overcurrent factor – – – –

Protection Class 5P 5P – 5P

Overcurrent factor 10 20 10; 20 – 10

Earth-fault

detection

Class – – 1 1

Angle error – – ± 120' ± 120'

Composite

error e ––

≤ 10 % (at 0.4 A)

≤ 20 % (at 200 A)

≤ 10 %

(at 0.4 A)

Rated burden ≥ 20 kOhm ≥ 20 kOhm ≥ 20 kOhm ≥ 20 kOhm

Dimensions and installation

Overall height, depending on

the overcurrent factor

28 mm up to 56

53 mm 130 mm (incl.

mounting plate)

54 mm

External dimensions in mm 128 × 106 111 × 106 242 × 226 300 × 132

Inside diameter in mm 82 55 120 84 (per phase)

Mounting location Cable plug 2) On the cable On the cable Cable plug 2)

Usable for panel widths

in mm

310, 430,

500

430, 500 310, 430, 500 310, 430, 500 310

1) Usable up to 2 × In = 600 A (output signal 2 × 225 mV) at constant accuracy class and

half overcurrent factor

2) Mounting location at the bushings around the screened cable plug

Technical data

SMCS-JW1001 SMCS/

T-JW1002

GAE120/

SENS-JW1003

SMCS3-

JW1004

Ring-core current sensor

SMCS-JW 1001

Three-phase ring-core current sensor

SMCS3-JW1004 with integrated

earth-fault detection sensor

Ring-core current sensor

SMCS / T-JW 1002, divisible

Ring-core current sensor

GAE120/ SENS-JW 1003 for

earth-fault detection, divisible

R-HA40-147.tifR-HA40-148.tif

R-HA40-152.tif

R-HA40-151.tif

Components

Current sensors

R-HA3541-194 tif

43Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Common features

• According to

IEC 60044-7

(low-power voltage trans-

formers)

• Example for available

secondary devices that can

be connected:

–SICAM FCM

–7SJ81

Voltage sensors

(make Zelisko)

The voltage sensors are

resistor dividers which

provide an output signal

of 3.25 V/√3 at the rated

primary voltage. The out-

going leads of the sensors are

directly connected to the

secondary device

(SICAM FCM, 7SJ81).

Primary data

Highest voltage

for equipment Um1.2 × Un1.2 × Un

Rated voltage (8 h) 1.9 × Un1.9 × Un

Rated voltage Ur12 kV 24 kV 12 kV 24 kV

Operating voltage Un10 kV 20 kV 10 kV 20 kV

Secondary data

Rated voltage 3.25 V/√3 3.25 V / √3

Class 0.5; 1; 3 0.5; 1; 3

Rated burden 200 kOhm ± 1 % 200 kOhm ± 1 %

Installation

Mounting location On the screened cable plugs

make Nexans type 440TB, K440TB;

other types and makes on request

On the screened cable plugs

make TE Connectivity type RSTI-58,

RSTI-CC58xx,

make nkt cables type CB-24 and

CC-24; other types and makes

on request

Technical data

SMVS-UW1001 SMVS-UW1002

Voltage sensor

SMVS-UW 1001

R-HA40-153.tif

Voltage sensor

SMVS-UW 1002

Components

Voltage sensors

HA40-2155a eps

L1 L2 L3

60 95 60

HA40-2157b eps

L1 L2 L3

150 150

100 100

HA40-2156b eps

L1 L2 L3

130 13085 85

HA40-2159 eps

HA40-2160a eps

275380

185260

HA40-2161b eps

290298

1 3

HA40-2162a eps

1 4

HA40-2163a eps

44 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Features

• Access to the cable compart-

ment only if the feeder has

been disconnected and

earthed

• Bushings according to

DIN EN 50181 with outside

cone and bolted connection

M16 as interface type C.

Connection of

• Cable elbow plugs or cable

T-plugs with bolted contact

M16 for 630 A

• Paper-insulated mass-

impregnated cables via

customary adapters

• Thermoplastic-insulated

cables (1-core and 3-core

cables).

Option

• Mounted cable clamps on

cable bracket.

Cable plugs

• As screened (semi-conduc-

tive) design independent of

the site altitude,

as unscreened (insulated)

design, but then dependent

on the site altitude.

Surge arresters

• Pluggable on cable T-plug,

cable elbow plug or T-adapter

• The switchgear depth can be

extended when surge arrest-

ers are mounted (depending

on the make and type)

• Surge arresters recommended

if, at the same time,

– the cable system is directly

connected to the overhead

line,

– the protection zone of

the surge arrester at the end

tower of the overhead line

does not cover the switch-

gear.

Surge limiters

• Pluggable on cable T-plug

• Surge limiters recommended

when motors with

starting currents < 600 A

are connected.

Connection options

Cable compartment

Panel width 310 mm Panel width 500 mm

Single cable

Double cable

Panel width 430 mm

1 Cable T-plug

2 Cable elbow plug

3 Surge arrester

4 Coupling T-plug

5 Screw-type coupling insert

Switchgear height

without low-voltage

compartment 1)

1040 2) 1200 1400 without

absorber base

1400 with

absorber base,

or 1700

Panel width 310 mm Typical K, R A500 660 860 1160

Typical R (8DJH Compact) – – 200 500

Panel width 430 mm Typical K(E), L B – 660 860 1160

Panel width 500 mm Typical R(500), L(500) C – 510 710 1010

1) Option: With low-voltage compartment

2) Only for panel blocks RR, RRR, RT, RRT and RTR

Components

Cable connection with interface type C

45Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Cable type Cable plugs

Make Se-

rial

no.

Type Design

T/W 1)

Conductor

cross-section

mm2

Design 2)

Thermoplastic-insulated cables ≤ 12 kV according to IEC / EN 60502-2/ VDE 0276-620

1-core or 3-core cable,

PE and XLPE-insulated

N2YSY (Cu) and

N2XSY (Cu)

NA2YSY (AI) and

NA2XSY (AI)

Nexans 1 400TB /G, 430TB/G, 480TB/G T 35–300 Screened

2 400LB /G W 35–300 Screened

3 484TB/ G T 70–630 Screened

4 440TB/G T 185–630 Screened

nkt cables 5 CB 24-630 T 25–300 Screened

6 AB 24-630 T 25–300 Insulated

7 CB 36-630 (1250) T 300–630 Screened

Südkabel 8 SET 12 T 50–300 Screened

9 SEHDT 13 T 185–500 Screened

Prysmian Kabel und

Systeme (Pirelli Elektrik)

10 FMCTs-400 T 25–300 Screened

3M 11 93-EE 705-6 /-95 T 50–95 Screened

12 93-EE 705-6 /-240 T 95–240 Screened

TE Connectivity 13 RICS 51 ... with IXSU T 25–300 Insulated

14 RICS 31 ... with IXSU T 25–300 Insulated

15 RSTI-39xx T 400–800 Screened

Thermoplastic-insulated cables 15/ 17.5 / 24 kV according to IEC / EN 60502-2/ VDE 0276-620

1-core or 3-core cable,

PE and XLPE-insulated

N2YSY (Cu) and

N2XSY (Cu)

NA2YSY (AI) and

NA2XSY (AI)

Nexans 16 K400TB/G, K430TB/G, K480TB/G T 35–300 Screened

17 K400LB / G W 35–300 Screened

18 K484TB / G T 70–630 Screened

19 K440TB / G T 185–630 Screened

nkt cables 20 CB 24-630 T 25–300 Screened

21 AB 24-630 T 25–300 Insulated

22 CB 36-630 (1250) T 300–630 Screened

Südkabel 23 SET 24 T 50–240 Screened

24 SEHDT 23.1 T 300 Screened

25 SEHDT 23 T 185–630 Screened

Prysmian Kabel und

Systeme (Pirelli Elektrik)

26 FMCTs-400 T 25–240 Screened

3M 27 93-EE 705-6 / -95 T 25–95 Screened

28 93-EE 705-6 /-240 T 95–240 Screened

TE Connectivity for

1-core cables

29 RICS 51 ... with IXSU T 25–300 Insulated

30 RSTI-58xx T 25–300 Screened

31 RSTI-59xx T 400–800 Screened

for

3-core cables

32 RICS 51 ... with IXSU T 25–300 Insulated

33 RSTI-58xx + RSTI-TRFxx T 25–300 Screened

Paper-insulated mass-impregnated cables ≤ 12 kV according to IEC /EN 60055-2/ VDE 0276-621

3-core cable, paper-insulated

N(A)KLEY, N(A)KBA, N(A)KBY

TE Connectivity 34 RICS 51... with UHGK / EPKT T 95–300 Insulated

3-core cable, paper-insulated

N(A)EKBA, N(A)KLEY

TE Connectivity 35 RICS 51... with IDST 51 .. 3) T50–300Insulated

Paper-insulated mass-impregnated cables 15 / 17.5 / 24 kV according to IEC / EN 60055-2 / VDE 0276-621

1-core or 3-core cable,

paper-insulated

N(A)EKBA, N(A)KLEY

TE Connectivity 36 RICS 51 ... with IDST 51 .. 3) T35–240Insulated

1) T = Cable T-plug, W = Cable elbow plug

2) Use of current transformers and sensors in combination with insulated systems on request

3) Discontinued by the manufacturer

Components

Cable connection with interface type C

Cable plugs for single cable connection

46 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Double cable connection Connection combination Deep cable compartment cover 1)

Make Se-

rial

no.

Cable plug (type) Design 2) Arrangement Mounting

depth

(mm)

Deeper

by a

(mm)

Depth of ﬂ oor

opening b

(mm)

Nexans 1 (K)430TB / G + (K)300PB / G,

(K)480TB /G + (K)800PB / G,

(K)484TB / G + (K)804PB / G

Screened K + K 290 – 635

2 2× (K)400TB / G

with coupling insert (K)400CP

Screened K + K 505 250 860

3 (K)400TB / G + (K)400LB / G

with coupling insert (K)400CP-LB

Screened K + K 455 250 860

4 (K)400TB / G + (K)430TB /G

with coupling insert (K)400CP

Screened K + K 403 250 860

5 2× (K)440TB / G

with coupling insert (K)440CP

Screened K + K 505 250 860

Südkabel 6 SET (12 / 24) + SEHDK (13.1/ 23.1) Screened K + K 290 – 635

7 SEHDT 23.1 + SEHDK 23.1 Screened K + K 290 – 635

8 2× SEHDT 23.1

with coupling unit KU 23.2 / 23

Screened K + K 363 250 860

9 SEHDT (13/23) + SET (12 / 24)

with coupling unit KU 23 or KU 33

Screened K + K 451 250 860

10 2× SET (12 / 24)

with coupling unit KU 23.2 / 23

Screened K + K 363 105 715

nkt cables 11 CB 24-630 + CC 24-630 Screened K + K 290 – 635

12 2× CB 24-630

with coupling unit CP 630C

Screened K + K 370 250

105 o.r.

860

715

13 AB 24-630 + AC 24-630 Insulated K + K 290 105 o.r. 715

14 2× AB 24-630

with coupling unit CP 630A

Insulated K + K 370 250

105 o.r.

860

715

15 CB 36-630 (1250) + CC 36-630 (1250) Screened K + K 300 – 635

TE Connectivity 16 RSTI-58xx + RSTI-CC-58xx Screened K + K 285 – 635

17 RSTI-x9xx + RSTI-CC-x9xx Screened K + K 315 105 715

3M 18 2× 93-EE705-6/xxx

with coupling unit KU 23.2

Screened K + K 363 105 715

o.r. = on request K = Cable plug

1) Applies to panels of 310 mm and 430 mm. For individual panels of 500 mm, no deep cable compartment cover and ﬂ oor opening are

required – except for serial no. 2 and no. 5 with cable compartment cover deeper by 105 mm (a).

2) Use of current transformers and sensors in combination with insulated systems on request

Deep cable compartment cover

To increase the mounting depth in the cable compartment,

deep cable compartment covers can be ordered optionally

(not for 8DJH Compact). The assignment to selected types

of cable plugs and cable plug / surge arrester combinations

is given in the following tables.

Cable plugs for double cable connection

Mounting depth at the panel connection

for types R, K and L for types R(500) and L(500)

Components

Cable connection with interface type C

HA40-2277a eps

775

480

HA40-2164c eps

775

775 + (a+10)

300 a

47Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Cable plugs for single and double cable connection with

surge arresters

Connection combination Deep cable compartment cover 1)

Make Se-

rial

no.

Cable plug/

surge arrester (type)

Design 2) Arrangement Mounting

depth

(mm)

Deeper by a 3)

(mm)

Nexans 1 (K)430TB /G + 300SA,

(K)480TB/G + 800SA,

(K)484TB / G + 800SA

Screened K + Ü 290 –

2 (K)400TB / G + 400PB-...SA Screened K + Ü 410 250

3 (K)430TB / G + (K)300PB /G + 300SA Screened K + K + Ü 395 105

4 (K)480TB / G + (K)800PB /G + 800SA,

(K)484TB / G + (K)804PB / G + 800SA

Screened K + K + Ü 400 250

Südkabel 5 SET (12 / 24) + MUT (13/ 23) Screened K + Ü 302 105

6 SEHDT 23.1 + MUT 23 Screened K + Ü 302 105

7 2× SET (12 / 24) + MUT (13/23)

with coupling unit KU 23.2 / 23

Screened K + K + Ü 476 250

8 2× SEHDT 23.1 + MUT 23

with coupling unit KU 23.2 / 23

Screened K + K + Ü 476 250

9 SEHDT (13/23) + MUT 33 Screened K + Ü 540 250

nkt cables 10 CB 24-630 + CSA 24... Screened K + Ü 290 –

11 AB 24-630 + ASA 24... Insulated K + Ü 290 105

12 CB 36-630 (1250) + CSA... Screened K + Ü 290 –

TE Connectivity 13 RICS 5139 + RDA... Insulated K + Ü 275 –

14 RSTI-58xx + RSTI-CC-58SAxx Screened K + Ü 285 –

15 RSTI-58xx + RSTI-CC-68SAxx Screened K + Ü 292 –

16 RSTI-x9xx + RSTI-CC-58SAxx Screened K + Ü 295 –

17 RSTI-x9xx + RSTI-CC-68SAxx Screened K + Ü 302 105

3M 18 2× 93-EE705-6/ xxx + MUT 23

with coupling unit KU 23.2

Screened K + K + Ü 476 250

Cable plugs for single and double cable connection with surge arresters

Cable plugs for single cable connection and 4MT8 voltage transformers

The 4MT8 voltage transformers can be installed in ring-main

and circuit-breaker feeders (500 mm panel width). A deep

cable compartment cover is not necessary. To connect

them, symmetrical cable T-plugs (see table) are required.

Before a dielectric test on the cables (supplied by site with

max. 80 % Ud) can be carried out, the voltage transformers

must be demounted.

1) Applies to panels of 310- and 430-mm. For individual panels of 500 mm, no deep cable compartment cover

and ﬂ oor opening are required – except for serial no. 9 with cable compartment cover deeper by 105 mm (a)

2) Use of current transformers and sensors in combination with insulated systems on request

3) See drawing on page 46.

K = Cable plug Ü = Surge arrester

Make Type Design

Nexans (K)400TB/G

(K)440TB / G

Screened

Prysmian FMCTs-400 Screened

Südkabel SEHDT (13 / 23) without metal

enclosure

Screened

Components

Cable connection with interface type C

HA40-2166a eps

210300

270310

HA40-2167a eps

HA40-2365 eps

HA40-2168 eps

HA40-2165a eps

L1 L3L2

135 13580 80

HA40-2364 eps

48 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Features

• Access to the cable compartment only if the feeder has

been disconnected and earthed

• Bushings according to DIN EN 50181 with outside cone

and plug-in contact as interface type A.

Connection of

• Cable elbow plugs or straight cable plugs

• Connection cross-sections up to 120 mm2.

Option

• Mounted cable clamps on cable bracket

• Bushings according to DIN EN 50181 with outside cone

and bolted contact as interface type C for cable routing

downwards.

Routing of transformer cables

For 8DJH Standard design with bushing arrangement:

• At the front with cable elbow plug: Downwards

(standard)

• At the bottom with cable elbow plug: To the rear (option)

• At the bottom with straight cable plug: Downwards

(option).

For 8DJH Compact design with bushing arrangement:

• At the top with cable elbow plug: To the rear (standard)

• At the top with straight cable plug: Upwards (option)

• At the top with cable elbow plug: To the right (option).

Cable plugs

• As screened (semi-conductive) design independent of

the site altitude,

as unscreened (insulated) design, but then dependent

on the site altitude.

Cable compartment

Connection options

8DJH Standard 8DJH Compact

Panel width 430 mm (standard) 8DJH Compact

Cable routing downwards

with cable elbow plug

Cable routing downwards

with straight plug

Cable routing to the rear

with cable elbow plug

Cable routing to the rear

with cable elbow plug

Cable routing upwards

with straight plug

HA40-2367 eps

HA40-2366 eps

Cable routing to the right

with cable elbow plug

1) Option: With low-voltage compartment

2) Only for panel blocks RR, RRR, RT, RRT and RTR

Switchgear

height without

low-voltage

compartment 1)

1040 2) 1200 1400

without

absorber

base

1400

with

absorber

base, or

1700

Panel

width

430 mm

Typical T A 62 222 422 722

Typical T

(8DJH Compact)

B1– – 1245 1545

B2– – 1143 1443

Components

Cable connection for transformer feeders with interface type A

49Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Cable type Cable plug

Make Se-

rial

no.

Type Design

G/W

Conductor

cross-section

mm2

Design

Thermoplastic-insulated cables ≤ 12 kV according to IEC / EN 60502-2/ VDE 0276-620

1-core cable,

PE and XLPE-insulated

N2YSY (Cu) and

N2XSY (Cu)

NA2YSY (AI) and

NA2XSY (AI)

Nexans 1 158LR W 16–120 screened; with capacitive measuring point

2 152SR G 95–120 screened; with capacitive measuring point

nkt cables 3 EASW 10/250, Gr. 2 W 25–95 screened; option: with metal housing or

with capacitive measuring point

4 EASG 10 / 250, Gr. 2 G 25–95 screened; option: with capacitive

measuring point

5 CE 24 – 250 W 95–120 screened; option: with metal housing or

with capacitive measuring point

Südkabel 6 SEHDG 11.1 G 25–120 screened; option: with metal housing

7 SEW 12 W 25–120 screened; option: with metal housing

Cooper Power Systems 8 DE 250 – R-C W 16–120 screened

9 DS 250 – R-C G 16–120 screened

Prysmian Kabel und

Systeme (Pirelli Elektrik)

10 FMCE-250 W 25–120 screened

3M 11 93-EE 605-2/-95 W 25–95 screened; option: with metal housing

12 93-EE 600-2 / xx G 25–150 screened; option: with metal housing

TE Connectivity 13 RSSS 52xx G 25–95 screened; with capacitive measuring point

14 RSES 52xx-R W 25–120 screened; with capacitive measuring point

Thermoplastic-insulated cables 15/ 17.5 / 24 kV according to IEC / EN 60502-2/ VDE 0276-620

1-core cable,

PE and XLPE-insulated

N2YSY (Cu) and

N2XSY (Cu)

NA2YSY (AI) and

NA2XSY (AI)

Nexans 15 K158LR W 16–120 screened; with capacitive measuring point

16 K152SR G 25–120 screened; with capacitive measuring point

nkt cables 17 EASG 20/250 G 25–95 screened; option: with metal housing

18 CE 24 – 250 W 25–95 screened; option: with metal housing or

with capacitive measuring point

Südkabel 19 SEHDG 21.1 G 25–70 screened; option: with metal housing

20 SEW 24 W 25–95 screened; option: with metal housing

Cooper Power Systems 21 DE 250 – R-C W 16–120 screened

22 DS 250 – R-C G 16–120 screened

Prysmian Kabel und

Systeme (Pirelli Elektrik)

23 FMCE-250 W 25–120 screened

3M 24 93-EE 605-2/-95 W 25–95 screened; option: with metal housing

25 93-EE 600-2 / xx G 25–150 screened; option: with metal housing

TE Connectivity 26 RSSS 52xx G 16–70 screened; with capacitive measuring point

27 RSES 52xx-R W 16–120 screened; with capacitive measuring point

1) G = Straight cable plug

W = Cable elbow plug

Components

Cable connection for transformer feeders with interface type A

Cable plugs for single cable connection

HA40-2035d eps

2 1

HA40-2036d eps

2 1

50 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

1) Further values on request

2) VLF = Very low frequency

Cable testing

Cable testing at the

cable T-plug (example)

Cable testing at the

cable elbow plug (example)

1 Insulating cap

2 Measuring bolt

Components

Cable connections

Cable testing

• For cable, ring-main cable and circuit-breaker feeders

• Disassembly of the switchgear cables not necessary

• Measuring bolts can be connected following the removal

of the protective cap and/or the end stopper of the cable

plug

• The switchgear is suitable for the following cable test

voltages:

Rated voltage of

switchgear

Cable test voltage 1)

UrUct (DC) Uct (AC) VLF 0.1 Hz 2)

kV kV kV kV

7.2 22 11 11

12 38 19 19

15 52 28 28

17.5 52 28 28

24 72 38 38

Test duration 15 min 60 min 60 min

• Additional important data for cable testing are included

– In the installation and operating instructions for the

8DJH switchgear

– In the standards IEC /EN 62271-200/ VDE 0671-200,

HD 620 S2/ VDE 0276-620, HD 621 S1/ VDE 0276-621

– In the cable and cable plug manufacturer information.

HA40-2225b epsHA40-2226b epsHA40-2227b eps

HA40-2278a eps

51Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Standard interlocks

• Three-position switch: Disconnecting function against

earthing function

• Circuit-breaker feeder: Circuit-breaker against three-

position disconnector

• Access to cable compartment is generally only possible if

– the feeder is isolated

and

– the feeder is earthed (“EARTHED” position).

For ring-main and circuit-breaker feeders

• Option: Closing lockout

Prevents switching the three-position switch-disconnec-

tor from “OPEN” position to “CLOSED” position when the

cable compartment cover is removed.

For transformer feeders

• The three-position switch-disconnector cannot be

switched from “EARTHED” to “OPEN” position when the

cable com- partment cover/ the HV HRC fuse compart-

ment is open.

Locking device for padlock

• Shackle diameter 12 mm

• Standard for transformer and circuit-breaker feeders

(stored-energy mechanisms)

• Option for ring-main feeders (spring-operated mecha-

nisms)

• Three-position switch-disconnector lockable at the

operating mechanism in any desired switch position.

Key-operated interlock (option)

• With cylinder locks from selected manufacturers

• For the basic functionalities:

–Switch-disconnector/disconnector

KF 1 Key free in OPEN

Key trapped in CLOSED

–Earthing switch

KF 2 Key free in OPEN

Key trapped in EARTHED

KF 3 Key free in EARTHED

Key trapped in OPEN

These basic functionalities can be combined at will.

Furthermore, it is possible to integrate cylinder locks, e.g.

of doors to transformer rooms, or external key boxes.

Interlocking of three-position switch

(option: locking device)

Initial situation

Release for disconnector operation

Release for earthing switch operation

Interlocking of three-position switch

(option: key-operated interlock)

Components

Interlocks, locking devices

52 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

HA40-2216a eps

HA40-2217a eps

Ready-for-service indicator

Features

• Self-monitoring; easy to read

• Independent of temperature and pressure variations

• Independent of the site altitude

• Only responds to changes in gas density

• Option: Alarm switch “1NO + 1NC” for remote electrical

indication.

Mode of operation

For the ready-for-service indicator, a gas-tight measure-

ment box is installed inside the switchgear vessel.

A coupling magnet, which is ﬁ tted to the bottom end of

the measurement box, transmits its position to an outside

armature through the non-magnetizable switchgear vessel.

This armature moves the ready-for-service indicator of the

switchgear.

While changes in the gas density during the loss of gas,

which are decisive for the dielectric strength, are

displayed, temperature-dependent changes in the gas

pressure are not. The gas in the measurement box has the

same temperature as that in the switchgear vessel.

The temperature effect is compensated via the same

pressure change in both gas volumes.

Gas monitoring

Indicator on control board:

1 Indication:

green: ready for service

red: not ready for service

2 Measurement box

3 Magnetic coupling

Principle of operation

of gas monitoring with ready-for-service indicator

Ready-for-service

indicator

Stainless-steel vessel

ﬁ lled with SF6 gas

Components

Indicating and measuring equipment

53Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Components

Indicating and measuring equipment

R-HA40-103 psd

R-HA41-VOIS tif

R-HA41-CAPDIS-S1.tif

R-HA41-CAPDIS-S2.tif

HA35-2537a eps

C1

ULE

C2

Voltage detecting systems according

to IEC 61243-5 or VDE 0682-415

• For veriﬁ cation of safe isolation from

supply

• HR or LRM detecting systems with plug-

in indicator

• LRM detecting systems with integrated

indicator type VOIS+, VOIS R+,

CAPDIS-S1+, CAPDIS-S2+, WEGA 1.2 C,

WEGA 2.2 C or WEGA 3.

Plug-in voltage indicator

• Veriﬁ cation of safe isolation from

supply phase by phase

• Indicator suitable for continuous

operation

• Measuring system and voltage indicator

can be tested, repeat test according to

local speciﬁ cations and standards

• Voltage indicator ﬂ ashes if high voltage

is present.

VOIS+, VOIS R+

• Without auxiliary power

• Display indication “A1” to “A3”

(see legend)

• Repeat test according to local

speciﬁ cations and standards

• With integrated 3-phase LRM test socket

for phase comparison

• With integrated signaling relay

(only VOIS R+).

Common features of CAPDIS-Sx+

• Without auxiliary power

• Integrated repeat test of the interfaces

(self-monitoring)

• With integrated function test

(without auxiliary power)

by pressing the “Test” button

• Adjustable for different operating

voltages (adjustable capacitance C2)

• With integrated 3-phase LRM test socket

for phase comparison

• With connectable signal-lead test

• With overvoltage monitoring and

signaling (1.2 times operating voltage).

CAPDIS-S1+

• Without auxiliary power

• Display indication “A1” to “A7”

(see legend)

• Without ready-for-service monitoring

• Without signaling relay

(without auxiliary contacts).

CAPDIS-S2+

• Display indication “A0” to “A8”

(see legend)

• Only by pressing the “Test” pushbutton:

“ERROR” indication (A8), e.g. in case of

missing auxiliary voltage

• With ready-for-service monitoring

(auxiliary power required)

• With integrated signaling relay for

signals (auxiliary power required).

Symbols shown

Plug-in

voltage

indicator

per phase at

the panel front

Integrated voltage indicator

VOIS+, VOIS R+

Integrated voltage detecting system

CAPDIS-S1+, -S2+

Indicators and

detecting systems

Voltage indication

via capacitive voltage divider (principle)

– C1 Capacitance integrated into bushing

– C2 Capacitance of the connection leads and the voltage indicator to earth

ULE = UN / 3 during rated operation in the three-phase system

U2 = UA = Voltage at the capacitive interface of the switchgear or at the voltage indicator

Voltage indica-

tor plugged in

(HR, LRM)

CAPDIS-Sx+ / VOIS+

installed

VOIS+, VOIS R+ CAPDIS-S1+ CAPDIS-S2+

A0 CAPDIS-S2+: Operating voltage not

present

A1 Operating voltage present

A2 – Operating voltage not present

– For CAPDIS-S2+: Auxiliary power

not present

A3 Failure in phase L1, operating voltage at

L2 and L3 (for CAPDIS-Sx+ also earth-

fault indication)

A4 Voltage (not operating voltage) present

A5 Indication “Test” passed (lights up

shortly)

A6 Indication “Test” not passed (lights up

shortly)

A7 Overvoltage present

(lights up permanently)

A8 “ERROR” indication, e.g. in case of

missing auxiliary voltage

CAPDIS S2+: The red and green LEDs show the

state of the relay contacts

 LED doesn’t light up

-- LED lights up

U = Operating voltage

L1 L3 L2

L1 L3

HA35-2579c eps

54 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Components

Indicating and measuring equipment

HA35-2537a eps

C1

ULE

C2

Integrated voltage indicator

WEGA 2.2 C

WEGA 3

• Display indication “A1” to “A5”

• Integrated repeat test of the

interface (self-monitoring)

• With integrated 3-phase LRM

test socket for phase com-

parison.

WEGA 1.2 C

• Display indication “A1” to “A6”

(see legend)

• Integrated repeat test of the

interface (self-monitoring)

• With integrated function test

(without auxiliary power) by

pressing the “Display Test”

button

• With integrated 3-phase LRM

test socket for phase compar-

ison.

WEGA 2.2 C

• Display indication “A0” to

“A7” (see legend)

• Integrated repeat test of the

interface (self-monitoring)

• With integrated function test

(without auxiliary power) by

pressing the “Display Test”

button

• With integrated 3-phase LRM

test socket for phase com-

parison

• With two integrated signal-

ing relays (auxiliary power

required *) ).

Symbols shown

WEGA

installed

Voltage indication

via capacitive voltage divider (principle)

– C1 Capacitance integrated into bushing

– C2 Capacitance of the connection leads

and the voltage indicator to earth

ULE = UN/ 3 during rated operation in the

three-phase system

U2 = UA = Voltage at the capacitive interface of

the switchgear or at the voltage indicator

R-HA41-WEGA-3.tif

Integrated voltage indicator

WEGA 3

Integrated voltage indicator

WEGA 1.2 C

R-HA41-WEGA-2-2-C.tif R-HA41-WEGA-1-2-C.tif

*) Shows the function of the

relay via the LED indications

(U=0, U≠0)

Voltage indica-

tor plugged in

(HR, LRM)

A0 For WEGA 2.2 C:

Operating voltage not present, auxiliary

power present, LCD illuminated

A1 Operating voltage present

For WEGA 2.2 C: Auxiliary power

present, LCD illuminated

A2 Operating voltage not present

For WEGA 2.2 C: Auxiliary power not

present, LCD not illuminated

A3 Failure in phase L1,

operating voltage at L2 and L3

For WEGA 2.2 C: Auxiliary power

present, LCD illuminated

A4 Voltage present,

current monitoring of coupling

section below limit value

For WEGA 2.2 C: Auxiliary power

present, LCD illuminated

A5 Indication “Display-Test” passed

For WEGA 2.2 C: Auxiliary power

present, LCD illuminated

A6 Indication “Display Test” passed

For WEGA 2.2 C:

Auxiliary power present

A7 For WEGA 2.2 C: LCD for missing

auxiliary voltage is not illuminated

LC display gray: not illuminated

LC display white: illuminated

WEGA 2.2 C: The red and green LEDs show the

state of the relay contacts

 LED doesn´t light up

-- LED lights up

U = Operating voltage

WEGA 3 WEGA 1.2 C WEGA 2.2 C

L1 L3 L2

L1 L3

HA35-2845a eps

55Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

R-HA41-EPV.epsR-HA41-CAP-Phase.eps

Phase comparison test units according to IEC 61243-5 or VDE 0682-415

Veriﬁ cation of correct

terminal-phase connections

• Veriﬁ cation of correct termi-

nal-phase connections possible

by means of a phase comparison

test unit (can be ordered

separately)

• Safe-to-touch handling of

the phase comparison test unit

by inserting it into the capaci-

tive taps (socket pairs) of the

switchgear.

Phase comparison test unit

make Pﬁ sterer, type EPV

as combined test unit (HR and LRM) for:

– Voltage detection

– Phase comparison

– Interface test

– Integrated self-test

– Indication via LED.

Phase comparison test unit

make Kries, type CAP-Phase

as combined test unit (HR and LRM) for:

– Voltage detection

– Repeat test

– Phase comparison

– Phase sequence test

– Self-test.

The unit does not require a battery.

R-HA41-ORION-M-1.tif

Phase comparison test unit

make Horstmann, type ORION M1

as combined test unit (HR and LRM) for:

– Voltage detection

– Phase comparison

– Interface testing at the switchgear

– Integrated self-test

– Indication via display and acoustic alarm

– Phase sequence indication and status LED

– Measurement of interface current

up to 25 A

– Measurement of phase angle from

–180° to +180°

– Measurement of harmonics up to

40th harmonic

– Securing the measured values via PC

software (ORION explorer) and USB.

R-HA41-ORION-3-1.tif

Phase comparison test unit

make Horstmann, type ORION 3.1

as combined test unit (HR and LRM) for:

– Phase comparison

– Interface testing at the switchgear

– Voltage detection

– Integrated self-test

– Indication via LED and acoustic alarm

– Phase sequence indication.

Components

Indicating and measuring equipment

56 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Short-circuit /earth-fault indicators make Horstmann

Short-circuit /earth-fault indicator (option)

Ring-main, cable and circuit-breaker feeders can optionally

be equipped with short-circuit or earth-fault indicators in

different designs. The equipment features are shown in the

table on page 57.

Short-circuit and earth-fault indicators reduce the

downtimes of a power system by delimiting the fault

locations in medium-voltage systems.

Ring-main unit

Short-circuit indicator has picked up

Short-circuit indicator has not picked up

Response of protection device with tripping

R-HA40-146.tif

Short-circuit/earth-fault indicators can be used in all kinds of

power systems. In impedance-earthed and solidly earthed

systems, as well as in isolated and compensated (resonant-

earthed) systems, earth-fault detection is also possible.

SIGMA 2.0 with basic functions

• Adjustable pickup values

• Phase-selective fault indication

• Reset of the fault indication: manually, automatically,

from remote

• Earth-fault detection in impedance-earthed or solidly

earthed systems

• Remote indication with relay contacts.

SIGMA D++ with directional function

• Directional short-circuit indication

• Directional earth-fault indication for all types of neutral

treatment

• Unambiguous indication of the fault direction

• Monitoring with “SIGMA Explorer” software.

ComPass B 2.0 with monitoring

• Voltage detection via WEGA voltage detecting system

and resistive sensor system for up to 4 devices

• High-precision current and voltage measurement up to 0.5 %

• Monitoring of the values: U, I, f, P, Q, S, E, cos ϕ, load

ﬂ ow direction, power meter with direction

• Temperature measurement with PT100

• Limit value recording for U, I, P, Q, T

• Transfer of measured values, fault indications and events

via RS485/MODBUS.

ComPass Bs 2.0 with control function

• Remote control of a switch-disconnector or circuit-breaker

• Freely programmable logic to deﬁ ne the switching con-

ditions

• 6 binary inputs for recording relevant state information

from the switchgear/substation.

ALPHA E

SIGMA 2.0

SIGMA D++

R-HA41-ALPHA-E.psd

R-HA41-SIGMA-2.psd

ComPass B 2.0

R-HA41-ComPass-B.psd R-HA41-SIGMA-D.psd

Components

Indicating and measuring equipment

All indicators (except ALPHA) use the same

phase current sensors.

EARTH ZERO

R-HA41-EARTH-ZERO.psd

57Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Short-circuit /

earth-fault indicators

Horstmann

ALPHA M

ALPHA E

SIGMA 2.0

SIGMA 2.0 AC / DC

SIGMA F+E 2.0

SIGMA F+E 2.0 AC / DC

SIGMA F+E 3 2.0

SIGMA F+E 3 2.0 AC / DC

SIGMA D

SIGMA D+

SIGMA D++

ComPass A 2.0

ComPass B 2.0

ComPass Bs 2.0

Earth Zero-

EarthZeroFlag

Function

Short circuit /earth fault  /  /  /  /  /  /  /  /  /  / – / 

Direction indication –––– – –

Monitoring: U, I, f, P, Q, S, E, cos ϕ,

load ﬂ ow direction –––– – – – –

Control of a CB or SD –––– – – ––––

Logic –––– – – ––––

Applicable for the following neutral treatments

Impedance earthed    

Solidly earthed    

Isolated    –

Compensated    –

Short-circuit pickup values

I>> Short-circuit current

400, 600,

800,

1000 A

200, 300, 400, 600,

800, 1000, 2000 A,

self-adjustment

DIP: 200, 300, 400, 600, 800,

2000 A, self-adjustment

Software (SW): 50 – 2000 A

20 – 2000 A –

tI>> Pickup delay 100 ms 40, 80 ms 40, 80, 200,

300 ms

DIP: 40, 80 ms,

Software (SW): 40 ms – 60 s 40 ms – 60 s –

Earth-fault pickup values

IES> Short-circuit-to-earth

current ––

20, 40, 60, 80, 100,

120 or 160 A

DIP: off, 20, 40, 60, 80, 100, 120, 160 A,

Software (SW): 20 – 1000 A 20 – 1000 A 25, 50,

75, 100 A

IET> Transient earth fault – – – – – 10 – 100 A 10 – 500 A – 10 – 500 A –

IEP> Active residual current cos ϕ– – – – – 5 – 200 A 5 – 200 A – 1 – 200 A –

IEQ> Reactive current sin φ– – – – – 5 – 200 A 5 – 200 A – 1 – 200 A –

UNE> Permanent earth fault – – – – – – – – 1 – 100 % –

IE> Pulse location (pulse amplitude) –––– 1 – 100 A 1 – 100 A 1 – 200 A –

Pickup delay ––

80,

200 ms

60, 80, 200,

300 ms

DIP: 80, 160 ms,

Software (SW): 40 ms – 60 s 40 ms – 60 s 80,

160 ms

Reset

Manually/ from remote  / – (M)

 /  (E)  /  /  /  /  /  /  /  /  /  / –

Auto. time reset  (E) 

Current / voltage recovery ––– / –  /  /  /  / –  /  / – / 

Test

Manually/ from remote  / –  /  /  /  /  /  /  /    / –

Communication

Relay contact 1123 4 4 44441

Maintained/passing contact adjustable adjustable adjustable adjustable adjustable

RS485/MODBUS-RTU –––– – – – –

USB connection –– –     –

Parameterizing

Manually/ from remote  / –  / –  / –  / –  / –  / –  / –  /  /  /  / –

Supply

Lithium cell, ≥ 20 years  (E) /Capacitor (AC /DC)     

Current-transformer operated    (not IET>)–––

External auxiliary voltage

–24 – 230 V AC / DC

(only AC / DC versions)

24 – 230 V

AC / DC

(SIGMA F+E3

2.0 optional)

–

24 V AC,

24 – 60 V DC

(possible)

24 – 230 V

AC / DC

(for IET>)

24 – 230 V

AC / DC –

Binary inputs

Number 2222 2 2 2226–

Current inputs

Phase current 3333 3 3 333 or 2 0

Summation current 0 0 0 0 0 0 or 1 0 or 1 0 0 or 1 1

Voltage inputs

Capacitive –––– – –

Resistive –––– –––– –

Components

Indicating and measuring equipment

R-HA41-IKI-20.tifR-HA41-IKI-20CPULS.tifR-HA41-IKI-22.tifR-HA41-IKI-50.tifR-HA41-IKI-10light.tif

58 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

IKI-20

IKI-20CPULS

IKI-22

IKI-50

Short-circuit / short-circuit-to-earth and earth-fault

indicators, make Kries

Ring-main, cable and circuit-breaker feeders can optionally

be equipped with short-circuit or earth-fault indicators in

different designs. The equipment features are shown in

the table on page 59.

The three most common types of faults in medium-voltage

systems are earth faults in cables and switchgear, faults and

overloads of distribution transformers, as well as short

circuits in cables and switchgear. For fast fault location and

minimization of downtimes, electronic fault indicators are

used:

• Selective fault detection, and thus minimization of

downtimes

• Reliable fault detection through electronic measured-

value acquisition

• Remote indication of fault events and measured values.

Short-circuit and short-circuit-to-earth indicator IKI-20

–Universally adjustable

– Current-transformer supported battery version or

auxiliary voltage versions available

– Extended commissioning and testing functions.

Short-circuit and earth-fault indicator IKI-20PULS

– Short-circuit detection same as IKI-20

– Earth-fault detection via pulse location in compensated

systems.

Short-circuit and earth-fault indicator IKI-20C(PULS)

– Current-transformer operated (No battery, no auxiliary

voltage)

– Optionally with pulse location for earth-fault detection

in compensated systems.

Directional short-circuit and earth-fault indicator IKI-22

– Directional fault detection for all system types

– Directional detection combined with the voltage

detecting system CAPDIS-Sx+.

Grid-Inspector IKI-50

– Directional measured-value acquisition

– Monitoring of values U, I, f, P, Q, S, E, cos ϕ, power

factor, load ﬂ ow direction (momentary value,

mean value and min/max value directional)

– Directional fault detection for all system types

– Switchgear control or automation through an

integrated, programmable logic component

– Directional detection combined with the voltage

detecting system CAPDIS-Sx+.

Options:

– One device controls two cable panels and the load

ﬂ ow total

– Directional detection combined with resistor dividers

(accuracy 1.0 %)

– Early fault detection and detection of intermittent

earth faults

– Telecontrol interface according to IEC 60870-5-104.

Short-circuit-to-earth indicator IKI-10light

– Earth-fault detection in systems with impedance-

earthed neutral or temporarily impedance-earthed

neutral

–Adjustable.

IKI-10light

Components

Indicating and measuring equipment

59Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Components

Indicating and measuring equipment

Short-circuit /

earth-fault indicators

Kries

IKI-20B

IKI-20T

IKI-20U

IKI-20PULS

IKI-20C

IKI-20CPULS

IKI-22

IKI-50_1F

IKI-

50_1F_EW_

PULS

IKI-50_2F

IKI-

50_2F_EW_

PULS

IKI-10-light-P

Function

Short-circuit indication     

Earth-fault indication    

Short-circuit-to-earth

indication 5)     

Direction indication  

Applicable for the following neutral earthing options

Impedance     

Solid     

Isolated     

Compensated    

Pickup current

Short-circuit current 100, 200, 400, 600, 800,

1000, 2000 A

400, 600,

800, 1000 A

100, 200, 300, 400,

600, 800, 1000, 2000 A

100 ... 1000 A (steps of 100 A)

Earth-fault current Transient fault detection 4 ... 30 A (steps of 1 A)

Short-circuit-to-earth

current 5) 40, 80, 100, 150 A 40, 80, 100, 200 A 40 ... 200 A (steps of 10 A) 20, 40,

60, 80 A

Pulse location  

Pickup time

Short-circuit current 60, 80, 150, 200 ms 100 ms 60, 80, 150, 200 ms 60 – 1600 ms

Short-circuit-to-earth

current 5) 60, 80, 150, 200 ms 100 ms 60, 80, 150, 200 ms 60 – 1600 ms 70,

250 ms

Earth-fault current Pulse

location

Pulse

location Transient fault detection 400 – 3000 ms

Reset

Manual      

Automatic      

From remote    

Remote indication

Passing contact adjustable   adjustable

Maintained contact adjustable adjustable

Interface

RS485/MODBUS 

IEC 60870-5-104 (option) 

Power supply

Lithium battery 

External auxiliary

voltage   Only for transient fault

detection

Buffered for 6 h by

internal capacitor 

Current inputs

Phase current 3333 3 3 3 3366 –

Summation current 1 1 1 1 1 1 1) 0 2) 0 2) 0 2) 1

Voltage inputs

Capacitive 3 3366 –

Resistive (option) – 3366 –

Release outputs

Potential-free 1 – 31 – 31 – 31 – 32 2 4 4444 1

Supplied by internal

capacitor (option) 2 3) 2 3) 2 3) 2 3)

Binary inputs

Number 2 (test + reset) 2 (test + reset) 4444 –

1) Optional for wattmetric detection of earth-fault direction

2) Creation of sum signal via 3 transformers mounted around the conductor

3) 0.1 Ws, 24 V DC

4) Momentary value, mean value and min / max value directional

5) Short-circuit to earth = Earth fault in impedance-earthed system

60 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Components

On request: Indicating and measuring equipment

SICAM FCM

The short-circuit and earth-fault indicator SICAM FCM

(Feeder Condition Monitor) with direction indication

enables fast and precise fault location, thus reducing

the downtimes in the power system. The possibility to

determine and telecommunicate the values U, I, f, P, Q, S,

E, cos ϕ and load ﬂ ow direction supports efﬁ cient opera-

tional management and network planning.

• Usable in earthed, isolated and resonance-earthed systems

• Directional short-circuit and earth-fault detection

• Selective fault information with direction indication as a

basis for “self-healing” applications

• Usable with current and voltage sensors according to

IEC 60044 for precise measurement without calibration

and adjustment to the primary values

• Alternatively usable with an integrated capacitive

voltage detecting system

• Flexible earth-current detection as from 0.4 A

• Integrated MODBUS-RTU interface:

• Remote parameterization via SICAM A8000 and MODBUS

• Self-test function of the communication connection.

SICAM FPI (Fault Passage Indicator)

• Detection of short circuits and earth faults

• Indication of phase and earth faults via 4 separate LEDs

• Enhanced diagnostics, self and sensor cable diagnostics

is supported

• Conﬁ gurable binary outputs, for remote indication to

SCADA via RTU for faults and for diagnostics.

R-HA41-SICAM-FCM.tif

R-HA41-SICAM-FPI.psd

SICAM FCM

SICAM FPI

Short-circuit/earth-fault

indicator Siemens

SICAM

FCM

SICAM

FPI

Function

Short-circuit indication 

Earth-fault indication 

Earth-fault function

(impedance-earthed system) 

Indication of direction,

short-circuit / earth-fault –

Undervoltage and

overvoltage indication –

Applicable for the following neutral earthing options

Impedance 

Solid 

Isolated 

Compensated 

Pickup current

Short-circuit current 50 … 2000 A

(steps of 1 A)

Type 1: 200 – 1200 A,

Type 2: 200 – 800 A

(in 7 steps each)

Earth-fault current 1 … 1000 A

(steps of 1 A)

Type 1: 10 – 100 A,

Type 2: 40 – 300 A

(in 7 steps each)

Pulse location – –

Pickup time

Short-circuit current 40 ms

< t < 60 s < 500 ms adjustable

Earth-fault current 40 ms

< t < 60 s < 500 ms adjustable

Reset

Manual 

Automatic 

From remote 

Remote indication

Passing contact adjustable –

Maintained contact adjustable 2 binary outputs

Interface

RS485/MODBUS –

Power supply

Lithium battery 

External auxiliary voltage –

Current inputs

Phase current 3 (2) 1) 3 optical

Summation current 0 (1) 1) 1 optical

Voltage inputs

Via resistor divider 3 –

Via integrated capacitive

voltage indicator (optional) 3–

Relay outputs

Potential-free 2 2) 2

Binary inputs

Number 1 –

1) Measuring sensor 3+0 (summation current is calculated),

measuring sensor 2+1 (phase L2 is calculated)

2) Optional

61Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Transformer monitor IKI-30 (make Kries)

Protection of distribution transformers with ratings that

cannot or should not be protected with HV HRC fuses:

• Tripping in case of overload (delayed)

• Tripping when the short-circuit current arises.

R-HA41-IKI-30.tif

Transformer monitor IKI-30

Application

The transformer monitor IKI-30 is suitable for the following

transformer ratings:

• Operating voltage 6 to 15 kV: ≥ 160 kVA to 2500 kVA

• Operating voltage 20 kV: ≥ 250 kVA to 7500 kVA.

Features

• Current-transformer operated, alternatively auxiliary

voltage 24 to 230 V AC /DC

• Current measurement through special ring-type sensors

• For low-energy magnetic release (0.02 Ws) on circuit-

breaker type 2

• Optional for shunt release with circuit-breaker or switch-

fuse combination (auxiliary voltage supply required)

• Mounting location

– In the front operating mechanism box of the feeder panel

– In the low-voltage compartment (option) of the circuit-

breaker feeder

• Response performance

– Deﬁ nite-time overcurrent characteristic

–Deﬁ nite-time overcurrent characteristic for earth-fault

protection

– Inverse-time overcurrent characteristic

– extremely inverse

– normal inverse

– Externally undelayed instantaneous tripping

• Self-test function

• Indication

– LED indication for tripping (single ﬂ ash: starting;

double ﬂ ash: tripping)

– Reset after 2 h or automatically (after return of power)

or manually with reset pushbutton

• Outputs for signals

– Tripping signal: 1 NC (passing contact)

– Starting signal: 1 NC (maintained contact during

protection device pickup)

– 1 watchdog to report internal device faults

• Input

– Remote tripping signal

– Instantaneous tripping.

Components

Transformer monitor system, time-fuse-link protection system

Time-fuse-link protection system

The time-fuse-link protection system in accordance with

the TS 12-6 British ENA speciﬁ cation is a simple protection

system for protection of medium-voltage transformers

with circuit-breakers.

Mode of operation

In undisturbed operation, the ring-core current transformers

of the protection system are short-circuited on the

secondary side via type XF low-voltage fuses. In the case

of a fault, the fuses are tripped and commutate the

secondary current directly on the tripping coil of the circuit-

breaker. The switching device disconnects the fault. The

selection of fuses is made based on the fuse protection

table for the protection system.

Application

• For Dyn transformers with a rated output

– Operational voltage 6.6 kV: ≤ 1000 kVA

– Operational voltage 11 kV: ≤ 1250 kVA

– Additional values on request

• For short-circuit protection and earth-fault protection

• For circuit-breakers type 2 with specially-adapted

low-energy releases

• Installation in the front operating mechanism box of the

switchgear panel.

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Time fuse link

Circuit diagram of the time fuse link

R_HA40_170 tif

62 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

1 Uninterruptible power supply (UPS)

2 Intelligent SC indicators

3 Remotely controllable operating mechanisms

4 Current sensors

5 Voltage sensors

6 Communication modem

7 Remote terminal unit

The integration

R-HA40-151a.psd

Components

Intelligent transformer substation

Equipment examples for the

switchgear

8DJH switchgear can be equipped

with motor operating mechanisms,

voltage detecting and measuring

devices, short-circuit indicators,

and further detection systems.

RTUs (Remote Terminal Units) can

be optionally integrated inside the

switchgear, in additional low-

voltage compartments, or in a

separate wall cubicle via a plug

connection.

In this way, the switchgear fulﬁ lls

all preconditions for integration in

an intelligent network infrastruc-

ture. Depending on the purpose,

different components for moni-

toring and control are used: These

components can also be easily

and quickly retro ﬁ tted at a later

time. An equipment example for

the switchgear is illustrated here.

63Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Components Function

Uninterruptible power supply (UPS)

Depending on the requested bridging time

in case of power failures, an uninterrupt-

ible power supply based on battery or

capacitor modules is used.

The task of the UPS is to continue to

ensure the communication and/or the

possibility to telecontrol the transformer

substation in case of power failure.

Intelligent SC indicators

Intelligent short-circuit and ground fault

indicators with or without direction indica-

tion can be used in all grid types. For com-

munication with the RTU, a Modbus RTU

interface is available.

Intelligent short-circuit / ground fault direc-

tion indicators report short-circuits or

ground faults in the medium-voltage distri-

bution grid. Relevant measured values are

acquired, allowing for an active load man-

agement in the distribution grid.

Remotely controllable operating

mechanisms

Motor operating mechanisms inside the

ring-main unit are available in original

equipment manufacturer quality. If

required, retrofitting is easily possible.

In order to reduce the reclosing times in

case of fault, the switch-disconnectors or

circuit-breakers are equipped with motor

operating mechanisms for remote control.

Current sensors

Current sensors with low-power trans-

former technology are available as closed

or divisible ring cores.

The current signal serves to detect

short-circuits and ground faults, and can

be used as a measured value for load flow

control or for optimal utilization of the

grid capacity.

Voltage sensors

Voltage sensors as resistor dividers are

available as cast-resin plugs for insertion

into the cable T-plug.

The voltage signal serves to detect the

direction of the short-circuit or ground

fault, and can be used as a measured

value for load flow control or voltage

regulation.

Communication modem

The selection of the communication

modem to be used is determined by the

selected or available telecommunication

technology.

Communication modems are employed

for safe data transmission from the remote

terminal unit to the network control cen-

ter using the selected telecommunication

technology.

Remote terminal unit

The remote terminal unit (RTU) is

equipped with binary inputs and outputs,

various communication interfaces, and

freely programmable user programs.

Inside the intelligent transformer substation,

the RTU serves as a connecting element to

the network control center. It collects all

relevant signals and receives control com-

mands, or works autonomously according

to predetermined control or regulation algo-

rithms.

Components

Intelligent transformer substation

64 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Simple protection systems

As a simple protection for distribution transformers and

circuit-breaker feeders, standard protection systems are

available, consisting of:

• Current-transformer operated protection device with

c.t.-operated release (low-energy 0.1 Ws)

–Siemens SIPROTEC 7SJ45

– Woodward/SEG WIC 1-2P, WIC 1-3P, WIP-1

• Protection device with auxiliary voltage supply

with shunt release (f)

–Siemens SIPROTEC 7SJ46

• Instrument transformer as

– Cable-type current transformer (standard)

– Three-phase current transformer as option for

8DJH switchgear panels L(500).

Mounting location

• In 200-mm-high top low-voltage unit (option) of the

circuit-breaker feeder.

Application of simple protection systems

Operating

voltage (kV)

Transformer rating (kVA)

7SJ45 / 7SJ46 WIC 1-2P

≥

160

≥

160

≥

200

≥

250

13.8

≥

250

≥

400

≥

315

≥

400

≥

400

≥

500

Multifunction protection (selection)

SIPROTEC Compact series,

overcurrent protection SIPROTEC 7SJ80

• 9 programmable function keys

• 6-line display

• USB front port

• 2 additional communication ports

• IEC 61850 with integrated redundancy (electrical or

optical).

SIPROTEC 5 series, overcurrent protection SIPROTEC 7SJ82

• Directional and non-directional time-overcurrent protec-

tion with additional functions

• Time optimization of the tripping times by directional

comparison and protection data communication

• Frequency protection and rate-of-frequency-change

protection for load shedding applications

• Overvoltage and undervoltage protection in all required

variations

• Power protection, conﬁ gurable as active or reactive

power protection

• Control, synchrocheck and switchgear interlocking system

• Firmly integrated, electrical Ethernet port J for DIGSI

• Complete IEC 61850 (Reporting and GOOSE) via inte-

grated port J

• Two optional, pluggable communication modules us-

able for different and redundant protocols (IEC 61850,

IEC 60870-5-103, DNP3 (serial+TCP), Modbus RTU Slave,

protection data communication).

Other types and makes on request

Mounting location

• In the 400 mm, 600 mm, or 900 mm high low-voltage

compartment (option) of the circuit-breaker feeder.

SIPROTEC 7SJ80

LSP 2874-afp.eps

SIPROTEC 7SJ45

LSP 2339-afp.tif

SIPROTEC 7SJ82

R-HA35-177.tif

Components

Protection systems

R-HA41-042a.eps

65Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Open low-voltage compartment

with built-in equipment (option)

R-HA40-128.eps

Low-voltage compartment (example 500 × 600 mm)

Features

• Overall heights

– 200 mm, 400 mm, 600 mm, 900 mm

–Option: Cover

• Partitioned safe-to-touch from the high-voltage part

of the panel

• Installation on the panel:

– Possible per feeder

– Standard for circuit-breaker panels type L (1.1) and

bus sectionalizer panels with circuit-breaker type V (1.1)

– Option for all other panel types, depending on the

scope of the secondary equipment

• Customer-speciﬁ c equipment

For accommodation of protection, control, measuring

and metering equipment

• Separate wiring duct on the switchgear beside the

low-voltage compartment (option)

• Door with hinge on the left (standard for heights

of 400, 600 and 900 mm).

Low-voltage cables

• Control cables of the panel to the low-voltage compart-

ment via multi-pole, coded module plug connectors

• Option: Plug-in bus wires from panel to panel in the

separate wiring duct on the panel.

Low-voltage niche

• Only inside billing metering panels type M

• For accommodation of options, e.g.:

– Voltage transformer m.c.b.s

– Small distribution fuse-box and fuse-links type Diazed

or Neozed.

Low-voltage niche of a billing metering panel type M

with open cover

1 Low-voltage niche

2 Built-in equipment (option)

Low-voltage niche

Components

Low-voltage compartment, low-voltage niche

³200*

³15

775

³50

³800**

HA40-2101a eps

³200*

³15

775

³50

890

HA40-2107 eps

2100

430

1200

310 500

1800

1400

HA40-2169a eps

2300

1400

2000

1600

HA40-2170a eps

2600

1700

2300

1900

HA40-2171a eps

66 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Please observe the following for room planning and switch-

gear installation:

Switchgear installation

Wall-standing arrangement

–1 row

– 2 rows (for face-to-face arrangement)

Option: Free-standing arrangement.

Pressure relief

The type of pressure relief selected has an effect on the

switchgear depth, and places requirements on the size of the

cable basement and /or the room height. In case of pressure

relief upwards, the room heights reproduced in the type

test are decisive for the internal arc classiﬁ cation acc. to

IEC / EN 62271-200 / VDE 0671-200 (see table on page 67).

Door dimensions

The door dimensions have an inﬂ uence on the size of the

transport units (see page 87) and the factory assembly of

panel groups, low-voltage compartments and pressure

absorber systems. If required, this installation work can

also be performed on site by the customer.

Switchgear ﬁ xing

• For ﬂ oor openings and ﬁ xing points of the switchgear,

see pages 83 to 86

• Foundations:

– Steel girder construction

– Reinforced-concrete ﬂ oor.

Panel dimensions

See illustrations on pages 69 to 86.

Weight

For data, see page 88.

Local regulations and guidelines

Room planning

Top view: Switchgear without pressure relief duct at the rear

*) For lined up switchgear

**) Depending on national requirements

For extension or panel replacement, a control aisle

of at least 1000 mm is recommended

Top view: Switchgear with pressure relief duct at the rear

Switchgear height 1200 mm 1400 mm 1700 mm

Dimensions

Room planning

1400

³15

775

880

HA40-2104b eps

³15

775

890

2300

HA40-2106d eps

³15

775

890

1700

1800

HA40-2276a eps

600É8001)

HA40-2102b eps

500

HA40-2103b eps

67Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

The following type-tested versions of the pressure relief

system are available for 8DJH switchgear:

• Downwards into the cable basement (for individual panels

and panel blocks, internal arc classiﬁ cation up to

IAC A FL 21 kA /1 s or IAC A FLR 21 kA /1 s, minimum

cross-section of the cable basement according to the

illustration below)

• To the rear (for non-extendable panel blocks with 1400

or 1700 mm switchgear height, internal arc classiﬁ cation

up to IAC A FL 21 kA /1 s, a rear pressure relief outlet

with a minimum cross-section of 1 m2 is required in the

switchgear room and must be supplied by the site)

• Upwards through rear pressure relief duct (for extend-

able and non-extendable panel blocks, internal arc classi-

ﬁ cation up to IAC A FL 16 kA /1 s, minimum room heights

according to the table below), with pressure absorber

system

• Upwards through base and rear pressure relief duct (for

individual panels and panel blocks, internal arc classiﬁ -

cation up to IAC A FL 21 kA /1 s and IAC A FLR 21 kA /1 s,

minimum room heights according to the table below),

with pressure absorber system.

Room heights for switchgear

installation with pressure relief duct

at the rear (design with or without base)

Switchgear height Room height

1400 mm

≥

2000 mm

1700, 1800 mm

≥

2200 mm

2300 mm

≥

2400 mm

2600 mm

≥

2600 mm

Switchgear installation with pressure

relief downwards (standard) or to the rear (option)

Side view

1 Floor opening

2 Direction of pressure relief

3 Expanded metal (supplied by site)

4 Floor cover (divided plate for

comfortable working at the cable connection)

5 Pressure absorber system with pressure relief duct

1) Total opening minimum 0.48 m2

Switchgear installation with rear pressure

relief duct (option) for panel block

with IAC A FL or FLR up to 16 kA /1 s

Side view

Switchgear installation with base and rear pressure

relief duct (option) for panel block

with IAC A FL or FLR up to 21 kA / 1 s

Side view, wall-standing

arrangement without

metering panel

Side view, free-standing

arrangement, also metering panel

for wall-standing arrangement

Dimensions

Room planning

600É8001)

HA40-2368 eps

1700

500

HA40-2371 eps

600É8001)

HA40-2370 eps

600É8001)

HA40-2369 eps

HA40-2372a eps

68 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

For 8DJH Compact, the following types of pressure relief

can be selected:

• Downwards into the cable basement for all feeders

(internal arc classiﬁ cation up to IAC A FL or FLR 21 kA /1 s)

• Downwards into the cable basement for the ring-main

feeders, and to the rear for the transformer feeders

(internal arc classiﬁ cation up to IAC A F 21 kA /1 s).

The dimensions for wall distances, control aisles and cable

basements correspond to those of the 8DJH Standard

design. The pressure relief to the rear was tested with a

rear wall distance of ≥ 3 m. This design is recommended

for application in prefabricated substations without control

aisle, with internal arcing test according to IEC 62271-202.

For 8DJH with outdoor enclosure (option), the direction of

the pressure relief can be selected as follows:

• Downwards into the cable basement (internal arc

classiﬁ cation up to IAC A FL or FLR 21 kA /1 s, minimum

cross-section of the cable basement according to the

illustration below)

• To the rear (internal arc classiﬁ cation up to

IAC A FL 21 kA /1 s; for wall-standing arrangement, a rear

pressure relief outlet with a minimum cross-section of

1 m2 is required and must be supplied by the site)

• Upwards through rear pressure relief duct (internal arc

classiﬁ cation up to IAC A FL or FLR 21 kA /1 s, free space

above the switchgear 600 mm as a minimum).

The dimensions for wall distances, control aisles and cable

basements correspond to those of the 8DJH Standard de-

sign. The outdoor enclosure is conceived for application on

company ground.

Switchgear installation for 8DJH Compact

with pressure relief downwards for all feeders

(standard)

1 Floor opening

2 Direction of pressure relief

3 Expanded metal (supplied by

site)

4 Floor cover (divided plate for

comfortable working at the

cable connection)

5 Pressure absorber system

with pressure relief duct

Switchgear installation for outdoor enclosure

with pressure relief downwards

Switchgear installation for 8DJH Compact with

pressure relief downwards for the ring-main

feeders, and to the rear for the transformer

feeders (option)

Switchgear installation for outdoor enclosure

with pressure relief to the rear or upwards

through rear duct

Dimensions

Room planning

HA40-2172b eps

B1)

3002)

310 775

554

B1)

3002)

310 775

HA40-2173b eps

554

69Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Cable feeder type K Ring-main feeder type R

1) Option: With low-voltage compartment

2) Base for switchgear height of 1700 mm, or absorber --> cable connection height = D + 300 mm

3) Only for panel blocks RR, RRR, RT, RRT and RTR

Switchgear height without low-voltage compartment A 1040 3) 1200 1400

with low-voltage compartment 1) B – see page 67

Low-voltage compartment 1) C – 200, 400, 600 or 900

Cable connection Typical K and R D 500 660 860

Base cover E 32 32 232

Dimensions

Feeder panels (310 mm)

B1)

3002)

430 775

HA40-2174c eps

434

B1)

3002)

430

HA40-2186c eps

775

554

775

B1)

3002)

430

HA40-2175e eps

554

70 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Circuit-breaker feeder type L

Transformer feeder type T

Switchgear height without low-voltage compartment A 1040 3) 1200 1400

with low-voltage compartment 1) B – see page 67

Low-voltage compartment 1) C – 200, 400, 600 or 900

Cable connection Typical K(E), L D–660860

Typical T 62 222 422

Base cover E 32 32 232

Cable feeder type K(E)

with make-proof earthing switch

1) Option: With low-voltage compartment

2) Base for switchgear height of 1700 mm, or

absorber --> cable connection height = D + 300 mm

3) Only for panel blocks RR, RRR, RT, RRT and RTR

Dimensions

Feeder panels (430 mm)

775

B1)

3002)

500

HA40-2187e eps

369

775

B1)

3002)

500

HA40-2176f eps

369

71Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Switchgear height without low-voltage compartment A 1200 1400

with low-voltage compartment 1) Bsee page 67

Low-voltage compartment 1) C 200, 400, 600 or 900

Cable connection Typical R(500), L(500) D 510 710

Base cover E 32 232

Ring-main feeder type R(500) Circuit-breaker feeder type L(500)

HA40-2179c eps

Design option with busbar voltage transformer

for all circuit-breaker types

1) Option: With low-voltage compartment

2) Base for switchgear height of 1700 mm, or

absorber --> cable connection height = D + 300 mm

Dimensions

Feeder panels (500 mm)

B1)

3002)

430 775

HA40-2180c eps

775

B1)

3002)

500

HA40-2373 eps

HA40-2213c eps

B1)

3002)

620 775

B1)

3002)

430 775

HA40-2181d eps

72 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Switchgear height without low-voltage compartment A 1200 1400

with low-voltage compartment 1) Bsee page 67

Low-voltage compartment 1) C 200, 400, 600 or 900

Base cover E 32 232

Bus sectionalizer panel type S

with three-position switch-disconnector

and earthing on the right

Bus sectionalizer panel type S(500)

with three-position switch-disconnector

and earthing on the right

Bus sectionalizer panel type S(620)

with three-position switch-disconnector

and earthing on the left

Bus sectionalizer panel type H

with switch-disconnector/fuse combination

1) Option: With low-voltage compartment

2) Base for switchgear height of 1700 mm, or absorber

Dimensions

Bus sectionalizer panels with switch-disconnector

775

130130

775

E60

130130

HA40-2183c eps

775

B1)

3002)

500

HA40-2182f eps

73Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Switchgear height without low-voltage compartment A 1200 1400

with low-voltage compartment 1) Bsee page 67

Low-voltage compartment 1) C 200, 400, 600 or 900

Base cover E 32 232

1) Option: With low-voltage compartment

2) Base for switchgear height of 1700 mm, or absorber

Bus sectionalizer panel type V

with circuit-breaker

Design options

with busbar voltage transformer and/or

busbar current transformer

Dimensions

Bus sectionalizer panel with circuit-breaker

HA40-2184c eps

B1)

3002)

310 775

775

E60

B1)

3002)

500

HA40-2185d eps

775

B1)

3002)

500

HA40-2212b eps

B1)

3002)

430

HA40-2275b eps

775

E60

74 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Switchgear height without low-voltage compartment A 1200 1400

with low-voltage compartment 1) Bsee page 67

Low-voltage compartment 1) C 200, 400, 600 or 900

Transformer connection Typical M(500) D 510 710

Base cover E 32 232

Busbar earthing panel type E Busbar earthing panel type E(500)

with voltage transformer

Metering panel type M(500)

with disconnectable voltage transformer

Metering panel type M(430)

with disconnectable voltage transformer

fused on the primary side

1) Option: With low-voltage compartment

2) Base for switchgear height of 1700 mm, or absorber

Dimensions

Busbar earthing panels and busbar voltage metering panels

HA40-2208d eps

B1)

250

840

250

775

HA40-2210f eps

B1)

250

840

250

775

HA40-2211e eps

B1)

250

840

250

775

HA40-2209e eps

B1)

250

840

250

775

75Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Switchgear height without low-voltage compartment A 1400

without absorber base with absorber base

with low-voltage compartment 1) Bsee page 67

Low-voltage compartment 1) C 200, 400, 600 or 900

Cable connection D 515 815

Connection: busbar – busbar

Connection: cable – cable

Connection: busbar on the left – cable on the right

Connection: cable on the left – busbar on the right

1) Option: With low-voltage compartment

Dimensions

Billing metering panel as individual panel, air-insulated

310

HA40-2188 eps

430

TKK

740

430 430

HA40-2189b eps

860

K (E) T

310 430

HA40-2190 eps

740

310

HA40-2191 eps

430

1050

310

HA40-2192 eps

430

1360

310

430

HA40-2193 eps

430

1480

310

76 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Versions with transformer feeders

Panel block KT Panel block K(E)T Panel block RT

Panel block RRT Panel block RRRT Panel block TRRT

For further dimension data,

see individual panels on pages 69 and 70.

Overall height optionally 1200 mm, 1400 mm or 1700 mm.

For ﬂ oor openings and ﬁ xing points, see pages 83 to 86.

Dimensions

Panel blocks (preferred versions)

310

HA40-2194 eps

430

LKK

740

430 430

HA40-2214b eps

860

K (E) L

310

HA40-2195 eps

430

740

310

HA40-2196 eps

430

1050

310

HA40-2197 eps

430

1360

310

430

HA40-2198 eps

430

310

1480

77Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Versions with circuit-breaker feeders

Panel block KL Panel block K(E)L Panel block RL

Panel block RRL Panel block RRRL Panel block LRRL

For further dimension data,

see individual panels on pages 69 and 70.

Overall height optionally 1200 mm, 1400 mm or 1700 mm.

For ﬂ oor openings and ﬁ xing points, see pages 83 to 86.

Dimensions

Panel blocks (preferred versions)

310

HA40-2199 eps

620

310

HA40-2200 eps

930

310

310 310

HA40-2201 eps

1240

310

R R

HA40-2202 eps

310

620

310

HA40-2203 eps

430 430

860

78 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Further versions

Panel block RR Panel block RRR Panel block RRRR

Panel block RK Panel block TT

For further dimension data,

see individual panels on pages 69 and 70.

Overall height optionally 1200 mm, 1400 mm or 1700 mm.

For ﬂ oor openings and ﬁ xing points, see pages 83 to 86.

Dimensions

Panel blocks (preferred versions)

310

700

310

801) 554

775

HA40-2374 eps

310

1010

310

801) 310

HA40-2375 eps

310

1400

310

801) 310310 80

HA40-2376 eps

79Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Switchgear height A11400 1700

A2740 1040

Cable connection Typical R D1200 500

Typical T D21245 1545

D31143 1443

Panel block RRT Compact

1) Only for pressure relief downwards for all

feeders (IAC A FLR up to 21 kA /1 s)

Panel block RRT-R Compact Panel block RRT-RRT Compact

Dimensions

Panel blocks (8DJH Compact)

310

HA40-2204a eps

430

1480

310

430430

L R

310

1050

HA40-2272 eps

430

310

HA40-2206a eps

1480

310

430

310

HA40-2207 eps

1050

310

430

80 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Further panel block versions can be supplied without functional restrictions

up to a total width of 2 m as an assembled and tested unit.

Examples

Panel block RRLL

Panel block RTTR

Panel block LRR

Panel block RTR

Panel blocks with common gas-ﬁ lled vessel are possible for

•Up to 4 functions in one block

•Functions in 310 mm and 430 mm panel widths

•Functions R and T in any arrangement

•Functions R and L in any arrangement

•Optionally for overall heights 1200 mm, 1400 mm and 1700 mm

Dimensions

Panel blocks (freely conﬁ guarable)

HA40-2220b eps

2320

840 430

1050

HA40-2221b eps

2390

620

840 430

500

HA40-2222b eps

2320

840 430

1050

81Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Transfer with ring-main switch (RRS-M-T...)

Transfer with circuit-breaker without cables (RR-V-M-T...)

Transfer with circuit-breaker in the panel block and cable connection (RRL-M-T...)

Dimensions

Panel combinations with billing metering panels (examples)

HA40-2377 eps

1070

HA40-2196 eps

1380

1740

2020

821

667

955

HA40-2378 eps

821

667

955

HA40-2379 eps

871

82 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Switchgear height without low-voltage compartment A1200 1400

with low-voltage compartment 1) –140016001800–

Low-voltage compartment 1) – – 200 400 600 – 200 400

Enclosure height without crane height B 1575 1575 1775 1975 1575 1775 1975

with crane proﬁ le (removable) C 1640 1640 1840 2040 1640 1840 2040

Cable connection Typical K, K(E), R, L

660 860

Typical T 222 422

Typical R(500), L(500) 510 710

Enclosure depth (roof level,

without pressure relief duct)

Door open E 1000 1000 1200 1400 1000 1200 1400

Door while opening / closing F 1725 1725 1925 2125 1725 1925 2125

1) Option: With low-voltage compartment

Note: Maximum switchgear width = Enclosure width – 20 mm

Outdoor enclosure with pressure relief

downwards or to the rear

Outdoor enclosure with pressure relief

downwards or to the rear

Outdoor enclosure with pressure relief upwards

Dimensions

Outdoor enclosure

HA40-2228a eps

155

310

610

230

714

699

102

223

319

465

653

291

HA40-2229b eps

215

430

610

350

714

699

102

223

319

465

653

411

HA40-2230b eps

500

610 64

420

250

714

699

102

223

319

465

653

481

HA40-2231 eps

840

610 64

760

714

699

102

223

319

465

653

155

364

476

685

821

420

83Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Individual panels

• For ring-main panel type R

• For cable panel type K

• For busbar earthing panel type E

• For cable panel with make-proof earthing switch type K(E)

• For circuit-breaker panel type L

• For transformer panel type T

• For bus sectionalizer panel type S with switch-disconnector

• For bus sectionalizer panel type H

with switch-disconnector/fuse combination

• For busbar voltage metering panel type M(430)

• For ring-main panel type R(500)

• For circuit-breaker panel type L(500)

• For busbar earthing panel type E(500)

• For bus sectionalizer panel type S(500) with switch-diconnector

• For bus sectionalizer panel type V with circuit-breaker

• For busbar voltage metering panel type M(500)

• For billing metering panel type M

Dimensions

Floor openings and ﬁ xing points

84 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Dimensions

Floor openings and ﬁ xing points

Panel blocks (excerpt)

HA40-2234a eps

930

610

850

1240

155

292

465

602

775

1085

912

1221

714

699

102

223

319

465

653

Panel

block

type

Width

RRR 930

RRRR 1240

HA40-2232b eps

620

610

540

1050

155

292

465

602

835

1031

714

699

102

223

319

465

653

Panel

block

type

Width

620RK

RRT 1050

RRL

HA40-2235b eps

1360

610

1280

155

292

465

602

775

1145

912

1341

714

699

102

223

319

465

653

Panel

block

type

Width

RRRT 1360

RRRL

HA40-2233b eps

740

610

660

1050

155

292

525

722

895

1031

714

699

102

223

319

465

653

Panel

block

type

Width

740RL

1050RTR

RLR

HA40-2236b eps

860

610

780

1720

215

412

645

842

1075

1505

1272

1701

1290

714

699

102

223

319

465

653

Panel block

type

Width

K(E)T

860

K(E)L

TTT 1290

LLL

TTTT 1720

LLLL

HA40-2237b eps

740

610

660

1480

215

412

585

722

1032

1461

1265

895

1050

714

699

102

223

319

465

653

Panel block

type

Width

TK 740

TRRT 1480

LRRL

HA40-2280d eps

715

19 19

819

752

804

102

223

319

465

653

310 / 430 / 500

HA40-2281d eps

860

964

902

752

949

102

223

319

465

653

310 / 430 / 500

19 19

HA40-2246a eps

752

610 64

970

1050

155

292

465

602

835

1031

330

714

819

804

102

223

319

465

653

HA40-2247b eps

752

902

610 64

970

1050

155

292

465

602

835

1031

330

714

964

949

102

223

319

465

653

HA40-2241d eps

310 / 430 / 500

610 / 635*

699

102

223

319

465

653

19 19

714

HA40-2380a eps

235

682

620

540 40

734

220

315

462

650

711

642 52

372

545

HA40-2381a eps

235

991

930

850 40

734

220

315

462

650

711

642 52

372

545

855

682

719

HA40-2382a eps

235

1301

1240

1160 40

734

220

315

462

650

711

642 52

372

545

855

682

719

991

1165

85Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Versions with deep cable compartment covers

(e.g. for double cable connections)

Panel blocks 8DJH Compact (design option with pressure relief downwards)

Deep cable compartment cover:

Without With base extension

(ﬂ oor opening depending on selected cable connection /arrester)

Deeper by 105 mm Deeper by 250 mm

Example:

Position of ﬂ oor openings and ﬁ xing points for double cable connection

for panel blocks

Type RRT deeper by 105 mm Type RRT deeper by 250 mm

* 610 mm for single cable connection; 635 mm for double cable connection with coupling T-plug

Panel block RRT Compact Panel block RRT-R Compact Panel block RRT-RRT Compact

Dimensions

Floor openings and ﬁ xing points

HA40-2284c eps

550

829

200

(225)

115

310 / 430

814

217

338

434

580

768

19 19

151

HA40-2285c eps

550

305

115

934

310 / 430

919

217

338

434

580

768

867

19 19

151

HA40-2286c eps

550

450

115

1079

310 / 430

1064

217

338

434

580

768

867

1017

19 19

151

HA40-2251c eps

430

320

115

829

19 19

151

814

217

338

434

580

768

HA40-2290b eps

829

115

19 19

151

310 / 430 / 500

814

217

338

434

580

768

HA40-2287c eps

500

365385

115

829

19 19

151

814

217

338

434

580

768

HA40-2288c eps

500

365490

115

934

19 19

151

919

217

338

434

580

768

HA40-2289c eps

840

210425

115

829

550

200

155

364

476

685

760

821

151

814

217

338

434

580

768

86 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Versions in connection with base and rear pressure relief duct for switchgear

with IAC A FL or FLR up to 21 kA / 1 s and deep cable compartment covers**

• For ring-main panel

type R

• For cable panel type K

• For cable panel type K(E)

with make-proof

earthing switch

• For circuit-breaker panel

type L

• For panels

without cable feeder

types S, H, V, M(430)/(500),

E, E(500)

• For transformer panel

type T

• For ring-main panel type R(500)

• For circuit-breaker panel type L(500)

• For billing metering panel type M

* 200 mm for single cable connection; 225 mm for double cable connection with coupling T-plug

** In versions with rear pressure relief duct for panel block with IAC A FL or FLR

up to 16 kA / 1 s, the depth is reduced by 10 mm.

For wall-standing arrangement, a wall distance of ≥15 mm must be provided.

Dimensions

Floor openings and ﬁ xing points

Deep cable compartment cover:

Without With base extension

(ﬂ oor opening depending on selected cable connection /arrester)

Deeper by 105 mm Deeper by 250 mm

<90°

HA40-2238 eps

<90°

HA40-2239 eps

HA40-2011b eps

HA40-2012b eps

HA40-2013b eps

87Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Crane hook

Pallet

Rod Ø 40 mm

Crane transport with Pallet

Types of transport (examples)

Crane transport with rod

Transport with lifting truck

with or without pallet

Rod Ø 40 mm

(observe switchgear weight)

Transport with fork-lift truck, standing

Transport with fork-lift truck, suspended

Packing types (examples)

For size and weight of the transport units, see the follow-

ing tables.

Means of

transport

Examples for packing

Rail and truck Type: Open

PE protective foil pulled over the switchgear,

with wooden base

Seafreight Type: Open (for container transport)

PE protective foil pulled over the switchgear,

with wooden base

Type: Seaworthy crate (for open-top container)

Welded PE protective foil, with closed wooden crate,

with desiccant bag

Airfreight Type: Open

PE protective foil pulled over the switchgear,

with wooden base and lattice or cardboard cover

Transport

8DJH switchgear is completely delivered in transport units.

Please observe the following:

• Transport facilities on site

• Transport dimensions and weights

• Size of door openings in building

• Switchgear with low-voltage compartment: Please ob-

serve other transport dimensions and weights.

Transport dimensions

Max. width

of switchgear

unit TE

Transport dimensions

Truck /rail / container Seaworthy crate /

airfreight

Width B Height Depth T Height Depth T

mm m m m m m

850 1.10 A + 0.20 1.10/1.26 *)A + 0.4

min. 2.00

1.10 /1.26 *)

1200 1.40

1550 1.80

1800 2.05

2300 2.55

A = Switchgear height with or without low-voltage compartment

*) Deeper transport base required in case of cable compartment cover

deeper by 250 mm

HA40-2261 eps

Transport units for shipment

(top view)

Installation

Shipping data, transport

88 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Transport weights

The transport weight results from the switchgear weight per

transport unit and the packing weight. The packing weight

results from the transport dimensions and the type of trans-

port.

Switchgear weights

The weight of the switchgear unit results from the sum of the

weights per functional unit. Depending on the design and

the degree to which it is equipped (e.g. current transformers,

motor operating mechanism, low-voltage compartment),

different values will result. The table shows typical values.

Panel type Width Gross weight

for switchgear height

1200 mm 1400 mm 1700 mm

mm approx. kg approx. kg approx. kg

R 310 100 110 120

R(500) 500 140 150 170

K 310 100 110 120

K(E) 430 130 140 160

T430135145160

L430130140155

L (type 1.1) without 4MT3 500 210 220 240

L (type 2) 500 160 170 190

M (BC / BB /CB) 840 – 370 400

M (CC) 840 – 270 300

M(430) with 3x4MT3 430 220 230 245

M(500) with 3x4MT3 500 230 240 260

S430130140160

S(500) 500 150 160 180

S(620) 620 200 220 240

H430135145160

V500240250270

E 310 100 110 120

E(500) 500 140 150 170

Additional weights for pressure absorber

Pressure relief

version for IAC

Absorber unit Weight of the

absorber unit

approx. kg

A FL 16 kA /1 s,

A FLR 16 kA /1 s

Type 8DJH panel block,

2...4 panels

110

A FL 21 kA /1 s A minimum of 2 type 8DJH panels,

gas-insulated

120

For each additional type 8DJH panel

(total panel width ≤ 2000 mm)

A FLR 21 kA /1 s A minimum of 2 type 8DJH panels,

gas-insulated

145

For each additional type 8DJH panel

(total panel width ≤ 2000 mm)

A FL 21 kA /1 s,

A FLR 21 kA /1 s

Metering panel M 145

Additional weights for low-voltage compartment

for a height of 600 mm with average degree of equipment

Low-voltage compartment for panel width Weight

mm approx. kg

310 40

430 50

500 60

620 45

840 70

Packing weights

Max. width of

switchgear unit

Packing weight

Truck / rail / container

Packing weight

Seaworthy crate / airfreight

mm approx. kg approx. kg

850 30 90

1200 40 120

1550 50 150

1800 60 180

2000 75 225

8DJH Compact

Panel block Width Gross weight for switchgear height

1400 mm 1700 mm

mm approx. kg approx. kg

RRT 2) 700 365 380

RRT 620 340 345

RRT-R 2) 1010 475 490

RRT-R 930 450 455

RRT-RRT 2) 1400 730 760

RRT-RRT 1240 680 690

1) Weight data applies to design with circuit-breaker type 2

2) With lateral pressure relief duct

Panel block Width Gross weight for switchgear height

without LV compartment

1200 mm 1400 mm 1700 mm

mm approx. kg approx. kg approx. kg

2 panels

KT, TK 740 230 250 280

K(E)T 860 240 260 290

KL 1), LK 740 230 250 280

K(E)L 1) 860 250 270 300

RK, KR 620 200 220 240

RT, TR 740 230 250 280

RL 1), LR 740 230 250 280

TT 860 270 290 320

RR 620 200 220 240

LL 1) 860 260 280 310

RS 740 230 250 280

RH 740 230 250 280

3 panels

RRT 1050 330 360 400

RRL 1) 1050 320 350 390

RTR 1050 330 360 400

RLR 1050 320 350 390

RRR 930 300 330 360

TTT 1290 410 440 490

LLL 1) 1290 400 430 480

RRS 1050 320 350 390

RRH 1050 330 360 400

4 panels

RRRT 1360 430 470 520

RRRL 1) 1360 430 470 520

RRRR 1240 400 440 480

TRRT 1480 470 510 560

LRRL 1480 460 500 550

TTTT 1720 540 580 640

LLLL 1) 1720 520 560 620

RRRS 1360 420 460 510

RRRH 1360 430 470 520

Installation

Shipping data, transport

89Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Overview of standards (June 2017)

IEC / EN standard VDE standard

Switchgear 8DJH IEC / EN 62271-1 VDE 0671-1

IEC/EN 62271-200 VDE 0671-200

Devices Circuit-breakers IEC / EN 62271-100 VDE 0671-100

Disconnectors and

earthing switches

IEC/EN 62271-102 VDE 0671-102

Switch-disconnectors IEC / EN 62271-103 VDE 0671-103

Switch-disconnector /

fuse combination

IEC/EN 62271-105 VDE 0671-105

HV HRC fuses IEC /EN 60282-1 VDE 0670-4

Voltage detecting

systems

IEC/EN 61243-5 VDE 0682-415

Degree of

protection

– IEC /EN 60529 VDE 0470-1

Insulation – IEC /EN 60071 VDE 0111

Instrument

trans for-

mers

Current transformers IEC / EN 61869-1/-2 VDE 0414-9-1/-2

Voltage transformers IEC /EN 61869-1/-3 VDE 0414-9-1/-3

Electronic

voltage transformers

IEC /EN 60044-7 VDE 0414-44-7

Electronic

current transformers

IEC /EN 60044-8 VDE 0414-44-8

Installation,

erection

– IEC /EN 61936-1

EN 50522

VDE 0101

SF6 insulat-

ing gas

Speciﬁ cation for SF6IEC /EN 60376 VDE 0373-1

Altitude correction factor Ka for panels with HV HRC

fuses or for metering panels type M

2,500

2,000

1,500

1,000

1.50

1.40

1.30

1.20

1.00

3,000 3,500 4,000

1.10

m = 1

HA40-2037c en eps

Altitude correction factor

Site altitude in m above sea level

For site altitudes

above 1000 m,

the altitude cor-

rection factor Ka

is recommended,

depending on

the site altitude

above sea level.

Curve m = 1 for rated short-duration power-frequency

withstand voltage and rated lightning impulse withstand

voltage according to IEC /EN 62271-1/ VDE 0671-1.

Example:

3000 m site altitude above sea level,

17.5 kV switchgear rated voltage,

95 kV rated lightning impulse withstand voltage

Rated lightning impulse withstand-

voltage to be selected 95 kV · 1.28 = 122 kV

Result:

According to the

above table, a

switchgear for a

rated voltage of

24 kV with a rated

lightning impulse

withstand voltage

of 125 kV is to be

selected.

Standards

8DJH switchgear complies with the relevant standards

and speciﬁ cations applicable at the time of type tests.

In accordance with the harmonization agreement reached

by the countries of the European Union, their national

speciﬁ cations conform to the IEC standard.

Type of service location

8DJH switchgear can be used as indoor installation

according to IEC /EN 61936 (Power Installations exceeding

AC 1 kV) and VDE 0101.

• Outside lockable electrical service locations at places

which are not accessible to the public. Enclosures of

switchgear can only be removed with tools.

• Inside lockable electrical service locations. A lockable

electrical service location is a place outdoors or indoors

that is reserved exclusively for housing electrical equip-

ment and which is kept under lock and key. Access is

restricted to authorized personnel and persons who have

been properly instructed in electrical engineering. Un-

trained or unskilled persons may only enter under

the supervision of authorized personnel or properly in-

structed persons.

Terms

“Make-proof earthing switches” are earthing switches with

short-circuit making capacity according to IEC/EN 62271-102

and VDE 0671-102.

Dielectric strength

• The dielectric strength is veriﬁ ed by testing the switch-

gear with rated values of short-duration power-frequency

withstand voltage and lightning impulse withstand

voltage according to IEC /EN 62271-1 / VDE 0671-1.

• The rated values are referred to sea level and to normal

atmospheric conditions (1013 hPa, 20 °C, 11 g/m3 hu-

midity according to IEC /EN 60071 and VDE 0111).

• The dielectric strength decreases with increasing alti-

tude. For site altitudes above 1000 m (above sea level)

the standards do not provide any guidelines for the

insulation rating, but leave this to the scope of special

agreements.

All parts housed inside the switchgear vessel which are

subjected to high voltage are SF6-insulated against the

earthed enclosure.

The gas insulation at a relative gas pressure of 50 kPa

(= 500 hPa) permits switchgear installation at any desired

altitude above sea level without the dielectric strength

being adversely affected. This also applies to the cable

connection when using screened cable T-plugs or cable

elbow plugs.

A decrease (reduction) of the dielectric strength with in-

creasing site altitude must be considered for panels with

HV HRC fuses as well as for air-insulated metering panels

and a site altitude above 1000 m (above sea level). A higher

insulation level must be selected, which results from the

multiplication of the rated insulation level for 0 to 1000 m

with the altitude correction factor Ka.

Standards

Standards, speciﬁ cations, guidelines

90 Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

Current carrying capacity

• According to IEC /EN 62271-200/ VDE 0671-200 or

IEC /EN 62271-1/ VDE 0671-1, the rated normal current

refers to the following ambient air temperatures:

– Maximum of 24-hour mean + 35 °C

– Maximum + 40 °C

• The current carrying capacity of the panels and busbars

depends on the ambient air temperature outside the

enclosure.

Appearance of internal faults

In gas-insulated switchgear 8DJH, faults leading to inter-

nal arcing are widely excluded by construction due to the

following measures:

• Use of gas-ﬁ lled switchgear compartments

• Use of suitable operational equipment such as three-

position switches with make-proof earthing switch

• Logical mechanical interlocks

• Use of metal-coated or metal-enclosed voltage transfor-

mers and three-phase current transformers as ring-core

current transformers

• There are no effects due to external inﬂ uences, such as

– Pollution layers

–Humidity

– Small animals and foreign objects

• Maloperation is practically excluded due to logical

arrangement of operating elements

• Short-circuit-proof feeder earthing by means of the

three-position switch-disconnector.

In the event of an arc fault at the cable connection or, in an

unlikely case, inside the switchgear vessel, pressure relief

is effected downwards into the cable basement.

For the use in substation buildings without internal arcing

test, such as “old substations”, the switchgear can be de-

signed with a modiﬁ ed pressure relief system with absorb-

ers (option).

As a “special cooling system”, this maintenance-free pres-

sure absorber system reduces the pressure-dependent and

thermal effects of internal arcing in switchgear vessels

and cable compartments, and thus protects people and

buildings.

The closed switchgear system is suitable for both

wall-standing and free-standing arrangement.

Internal arcing test (design option)

• Protection of operating personnel by means of tests for

verifying the internal arc classiﬁ cation

• Internal arcing tests must be performed in accordance

with IEC /EN 62271-200 / VDE 0671-200 for IAC (internal

arc classiﬁ cation)

• Deﬁ nition of criteria:

– Criterion 1

Correctly secured doors and covers do not open,

limited deformations are accepted

– Criterion 2

No fragmentation of the enclosure, no projection of

small parts above 60 g

– Criterion 3

No holes in accessible sides up to a height of 2 m

– Criterion 4

No ignition of indicators due to hot gases

– Criterion 5

The enclosure remains connected to its earthing point.

Optionally, 8DJH switchgear can be designed with internal

arc classiﬁ cation.

Seismic withstand capability (option)

8DJH switchgear can be upgraded for regions at risk from

earthquakes. For upgrading, earthquake qualiﬁ cation testing

has been carried out in accordance with the following

standards:

• IEC /EN 60068-3-3

• IEC /EN 60068-2-6

• IEEE 693

• IABG TA13-TM-002/98 (guide).

Climate and environmental inﬂ uences

8DJH switchgear is completely enclosed and insensitive to

climatic inﬂ uences.

• The switchgear is maintenance-free under indoor

ambient conditions (according to IEC 62271-1 and

VDE 0671-1)

• Switchgear versions for outdoor installation or severe

ambient conditions (according to customer speciﬁ cation)

are available on request

• Climatic tests are fulﬁ lled according to

IEC /EN 62271-304/ VDE 0671-304

• All medium-voltage devices (except for HV HRC fuses)

are installed in a gas-tight, welded stainless-steel

switchgear vessel which is ﬁ lled with SF6 gas

• Live parts outside the switchgear vessel are provided

with single-pole enclosure

• At no point can creepage currents ﬂ ow from high-volt-

age potentials to earth

• Operating mechanism parts which are functionally

important are made of corrosion-resistant materials

• Bearings in the operating mechanism are designed as

dry-type bearings and do not require lubrication.

Color of the panel front

Siemens standard (SN) 47030 G1, color no. 700 / light basic

(similar to RAL 7047/gray).

Standards

Standards, speciﬁ cations, guidelines

91Switchgear Type 8DJH for Secondary Distribution Systems up to 24 kV, Gas-Insulated · Siemens HA 40.2 · 2017

IEC/EN 60529

*) For standards, see page 89

Standards

Standards, speciﬁ cations, guidelines

Recycling

The switchgear can be recycled in ecological manner in

compliance with existing legislation. Auxiliary devices such

as short-circuit indicators have to be recycled as electronic

scrap. Batteries have to be recycled professionally. Insulat-

ing gas SF6 has to be evacuated professionally as a re usable

material and recycled (SF6 must not be released into the

environment).

Protection against solid foreign objects,

electric shock and water

8DJH switchgear fulﬁ lls according to the standards *)

IEC/EN 62271-1 VDE 0671-1

IEC/EN 62271-200 VDE 0671-200

IEC/EN 60529 DIN EN 60529

the following degrees of protection (for explanations, see

opposite table):

Degree of protection Type of protection

IP 2x for switchgear enclosure

IP 3x for switchgear enclosure (optional)

IP 65 for gas-ﬁ lled switchgear vessel

Type of protection Degree of protection

IP 2

Protection against solid foreign objects

Protected against solid foreign objects of 12.5 mm diameter

and greater (the object probe, sphere of 12.5 mm diameter,

shall not fully penetrate)

Protection against access to hazardous parts

Protected against access to hazardous parts with a ﬁ nger

(the jointed test ﬁ nger of 12 mm diameter, 80 mm length,

shall have adequate clearance from hazardous parts)

Protection against water

No deﬁ nition

IP 3

Protection against solid foreign objects

Protected against solid foreign objects of 2.5 mm diameter

and greater (the object probe, sphere of 2.5 mm diameter,

shall not penetrate at all)

Protection against access to hazardous parts

Protected against access to hazardous parts with a tool

(the access probe, sphere of 2.5 mm diameter shall not

penetrate)

Protection against water

No deﬁ nition

IP 6 5

Protection against solid foreign objects

Dust-tight (no ingress of dust)

Protection against access to hazardous parts

Protected against access to hazardous parts with a wire

(the access probe of 1.0 mm diameter shall not penetrate)

Protection against water

Protected against water jets

(water projected in jets against the enclosure from any direction

shall have no harmful effects)

Published by

Siemens AG 2017

Energy Management

Medium Voltage & Systems

Mozartstraße 31 C

91052 Erlangen, Germany

For further information please contact

our Customer Support Center

Phone: +49 180 524 70 00

Fax: +49 180 524 24 71

E-mail: support.energy@siemens.com

siemens.com/medium-voltage-switchgear

siemens.com/8DJH

Article No. EMMS-K1440-A211-A6-7600

Printed in Germany

Dispo 40401

PU 002806 KG 07.17 1.0

Subject to changes and errors. The information

given in this document only contains general

descriptions and/or performance features which

may not always specifically reflect those described,

or which may undergo modification in the course

of further development of the products.

The requested performance features are binding

only when they are expressly agreed upon in the

concluded contract.



HA_40_2_2017_EN HA40 Catalogue 8djh En

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