Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF 6 -Insulated Medium-Voltage Switchgear Catalog HA 5. 00 Invalid: Catalog HA 5. 00
R-HA5-05 eps Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Contents Application Page Types Application Types, typical uses, ratings to Requirements Features, safety, technology and 5 Technical Data Electrical data 6 and 7 Room planning 8 Shipping data 9 Dimensions Front views, sections, floor openings, fixing points 0 to Product Range Single-busbar panels to 5 Double-busbar panels 6 Design Basic panel design 7 Components Vacuum circuit-breaker 8 and 9 Three-position switch 0 and HV HRC fuse assembly and Vacuum contactor, motor protection Busbars 5 Current and voltage transformers 6 and 7 Panel connection 8 to 0 Indicating and measuring equipment to Standards Standards, specifications, guidelines and 5 Fixed-mounted circuitbreaker switchgear NXPLUS C is a factoryassembled, type-tested, metal-enclosed, metal-clad, SF 6 -insulated switchgear for single-busbar and double-busbar applications and indoor installation. Notes 5 Circuit-breaker panel (example) Siemens AG 00 Siemens HA 5. 00
R-HA5-07 eps R-HA5-06 eps R-HA5-08 eps R-HA5-08 eps Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Application Typical uses Application Public power supply system R-HA5-09 eps Application Industry NXPLUS C switchgear 0 kv (example) Application Industry Siemens HA 5. 00
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Application Requirements Typical uses Ratings Fixed-mounted circuit-breaker switchgear NXPLUS C is used in transformer and switching substations, e.g., in Power supply companies Power stations Cement industry Automobile industry Iron and steel works Rolling mills Mining industry Textile, paper and food industries Chemical industry Petroleum industry Pipeline installations Offshore installations Electrochemical plants Petrochemical plants Shipbuilding industry Diesel power plants Emergency power supply installations Lignite open-cast mines Traction power supply systems Electrical data (maximum values) and dimensions Rated voltage kv 7. 5 7.5 Rated frequency Hz 50/60 50/60 50/60 50/60 50/60 Rated short-duration powerfrequency kv 0 8 6 ) 8 ) 50 withstand voltage Rated lightning impulse kv 60 75 95 95 5 withstand voltage Rated peak withstand current ka 80 80 80 6 6 Rated short-circuit making ka 80 80 80 6 6 current Rated short-time ka.5.5.5 5 5 withstand current s Rated short-circuit breaking current ka.5.5.5 5 5 Rated normal current of busbar A 500 500 500 500 500 Rated normal current of feeders A 500 500 500 000 000 Width mm 600 ) 600 ) 600 ) 600 ) 600 ) Depth without pressure relief duct at the rear with pressure relief duct at the rear mm mm 5 5 5 5 5 Height mm 50 50 50 50 50 Features Environmental independence Welded switchgear vessels made of stainless steel without seals make NXPLUS C switchgear Insensitive to aggressive ambient conditions such as Salt water Air humidity Dust Temperature Hermetically tight to ingress of foreign bodies such as Dust Dirt Independent of site altitude Compact design Thanks to the SF 6 -insulation, compact dimensions are possible Thus, Existing switchgear 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 Maximized power supply reliability Personnel safety Sealed-for-life design according to IEC 60 98 (sealed pressure system) Installation, operation, extension and replacement without SF 6 -gas work Reduced operating costs Cost-efficient investment No maintenance cycles Innovations The use of digital secondary systems and combined protection and control devices ensure Clear integration in process control systems Flexible and highly simplified adaptation to new system conditions and thus to cost-efficient operation ) kv according to some international requirements ) 00 mm for rated normal feeder currents of 000 A, 00 A and 500 A Siemens HA 5. 00
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Requirements Safety Technology Personal safety Safe-to-touch and hermetically sealed primary enclosure All high-voltage parts including the cable terminations, busbars and voltage transformers are surrounded by earthed layers or metal enclosures Capacitive voltage detection system for verification of safe isolation from supply Operating mechanisms and auxiliary switches safely accessible outside the primary enclosure (switchgear vessel) Protective system interlock to prevent operation when the switchgear enclosure is open Standard degree of protection IP 65 for all high-voltage parts of the primary circuit, IP XD for the switchgear enclosure according to IEC 60 59 and VDE 070 Part High resistance to internal arcs by logical mechanical interlocks and tested switchgear enclosure Arc-fault tested panels according to IEC 60 98 and VDE 0670 Part 6, Criteria to 6 Logical mechanical interlocks prevent maloperation Make-proof earthing by means of the vacuum circuitbreaker Security of operation Hermetically sealed primary enclosure independent of environmental effects (dirt, moisture and small animals) Maintenance-free in an indoor environment (IEC 60 69 and VDE 0670 Part 0) Operating mechanisms of switching devices accessible outside the primary enclosure (switchgear vessel) Metal-enclosed, plug-in inductive voltage transformers mounted outside the gas compartments Ring-core current transformers mounted outside the gas compartments Complete logical mechanical interlocking system Welded switchgear vessels, sealed for life Minimum fire load Type and routine-tested Standardized, NC production processes Quality assurance in accordance with DIN EN ISO 900 More than 00,000 switchgear panels of Siemens in operation worldwide for many years Option: Aseismic design Reliability Type and routine-tested Standardized, NC production processes Quality assurance in accordance with DIN EN ISO 900 More than 00,000 switchgear panels of Siemens in operation worldwide for many years General Three-pole enclosure of the primary part consisting of a switchgear vessel made of stainless steel Insulating gas SF 6 Three-position switch as busbar disconnector and feeder earthing switch Make-proof earthing by means of the vacuum circuitbreaker Compact dimensions due to SF 6 -insulation Hermetically welded switchgear vessel made of stainless steel without seals Single-pole, solid-insulated, screened busbars, plug-in type Cable connection with outside-cone plug-in system, or for connection of solid-insulated bars Wall-standing or free-standing arrangement Cable connection access from front or rear Installation and extension of existing switchgear on both sides without gas work and without modification of existing panels Interlocks According to IEC 60 98 and VDE 0670 Part 6 Logical mechanical interlocks prevent maloperation Circuit-breaker or contactor can only be operated with three-position switch in end position and operating lever removed Three-position switch-disconnector not interlocked in circuit-breaker panels 60 A and in switch-disconnector, contactor, ring-main and metering panels due to its own switching capacity Three-position disconnector interlocked against the circuit-breaker in circuit-breaker panels > 60 A and in bus sectionalizers with one panel width Cable compartment cover (access to HV HRC fuses) always interlocked against the three-position switchdisconnector in panels with HV HRC fuses (switch-disconnector, metering and contactor panels) Option: Three-position switch-disconnector in circuitbreaker panels 60 A can only be operated with circuitbreaker in OPEN position Option: Cable compartment cover interlocked against the three-position switch Option: Electromagnetic interlocks Option: Actuating openings can be locked with padlocks Modular design Panel replacement possible without SF 6 -gas work Low-voltage compartment can be removed, plug-in bus wires Instrument transformers Current transformers not subjected to dielectric stress Easy replacement of ring-core current transformers Metal-enclosed, plug-in and disconnectable voltage transformers Vacuum circuit-breaker Maintenance-free under normal ambient conditions according to IEC 60 69 and VDE 0670 Part 0 No relubrication or readjustment Up to 0,000 operating cycles Vacuum-tight for life Secondary systems Standard protection, measuring and control equipment Option: Digital multifunction protection relay with integrated protection, control, communication, operating and monitoring functions Can be integrated in process control systems Siemens HA 5. 00 5
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Technical Data Electrical data, filling pressure, temperature for single-busbar switchgear Common electrical data, filling pressure and temperature Rated insulation level Rated voltage U r kv 7. 5 7.5 Rated short-duration power-freq. withstand voltage U d : phase-to-phase, phase-to-earth, open contact gap kv 0 8 6 ) 8 ) 50 across the isolating distance kv 9 ) 5 ) 60 Rated lightning impulse withstand voltage U p : phase-to-phase, phase-to-earth, open contact gap kv 60 75 95 95 5 across the isolating distance kv 70 85 0 0 5 Rated frequency f r 50/60 Hz Rated normal current I r ) for the busbar A 500 500 500 500 500 Rated filling pressure p re ) 50 kpa (absolute) at 0 C Minimum operating pressure p me ) 0 kpa (absolute) at 0 C Ambient temperature 5 C to +55 C Panel data Circuit-breaker panel 60 A Circuit-breaker panel and bus sectionalizer 0 A 50 A 000 A 00 A 500 A Switchdisconnector panel (with HV HRC fuses) Ring-main panel (switchdisconnector panel without HV HRC fuses) Disconnector panel 0 A 50 A 000 A 00 A 500 A Contactor panel (with HV HRC fuses) Rated normal current I r ) A 60 60 60 60 60 Rated short-time for switchgear with t k = s up to ka 0 5 0 5 0 5 0 5 0 withstand current I k for switchgear with t k = s up to ka 0 0 0 0 0 Rated peak withstand current I p up to ka 50 6 50 6 50 6 50 6 50 Rated short-circuit making current I ma up to ka 50 6 50 6 50 6 50 6 50 Rated short-circuit breaking current I sc up to ka 0 5 0 5 0 5 0 5 0 Electrical service life of at rated normal current 0,000 operating cycles vacuum circuit-breakers at rated short-circuit breaking current 50 breaking operations Rated normal current I r ) Rated short-time for switchgear with t k = s up to ka.5.5.5 5 5 withstand current I k for switchgear with t k = s up to ka.5.5.5 5 5 Rated peak withstand current I p up to ka 80 80 80 6 6 Rated short-circuit making current I ma up to ka 80 80 80 6 6 Rated short-circuit breaking current I sc up to ka.5.5.5 5 5 Electrical service life of at rated normal current 0,000 operating cycles vacuum circuit-breakers at rated short-circuit breaking current 50 breaking operations with t = s up to Rated normal current I r ) for feeder ) A 60 60 60 60 60 Rated short-time for switchgear ka.5.5.5 5 5 withstand current I k k for switchgear with t k = s up to ka.5.5.5 5 5 Rated peak withstand current I p ) uptoka 80 80 80 6 6 Rated short-circuit making current I ma ) uptoka 80 80 80 6 6 Dimension e of HV HRC fuse links mm 9 5 ) 9 5 ) with t = s up to 5 5 5 5 Rated normal current I r ) for feeder A 60 60 60 60 60 Rated short-time for switchgear ka 0 0 0 0 0 withstand current I k k for switchgear with t k = s up to ka 0 0 0 0 0 Rated peak withstand current I p up to ka 50 6 50 6 50 6 50 6 50 Rated short-circuit making current I ma up to ka 50 6 50 6 50 6 50 6 50 Rated normal current I r ) Rated short-time for switchgear with t k = s up to ka.5.5.5 5 5 withstand current I k for switchgear with t k = s up to ka.5.5.5 5 5 Rated peak withstand current I p up to ka 80 80 80 6 6 with t = s up to Rated normal current I r ) for feeder ) A 00 00 00 00 00 Rated short-time for switchgear ka.5.5.5 5 5 withstand current I k k for switchgear with t k = s up to ka.5.5.5 5 5 Rated peak withstand current I p ) uptoka 80 80 80 6 6 Rated short-circuit making current I ma ) uptoka 80 80 80 6 6 Electrical service life at rated normal current,000 or 500,000 operating cycles Dimension e of HV HRC fuse links mm 9 5 ) 9 5 ) A A A A A A A A A A 0 50 000 00 500 0 50 000 00 500 0 50 000 00 500 0 50 000 00 500 0 50 000 00 500 0 50 000 00 500 0 50 000 0 50 000 0 50 000 0 50 000 Metering panel (with HV HRC fuses) 6 Siemens HA 5. 00 Rated short-time for switchgear with t k = s up to ka.5.5.5 5 5 withstand current I k for switchgear with t k = s up to ka.5.5.5 5 5 Rated peak withstand current I p ) uptoka 80 80 80 6 6 Dimension e of HV HRC fuse links mm 9 5 ) 9 5 )
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Technical Data Electrical data, filling pressure, temperature for double-busbar switchgear Common electrical data, filling pressure and temperature Rated insulation level Rated voltage U r kv 7. 5 7.5 Rated short-duration power-freq. withstand voltage U d : phase-to-phase, phase-to-earth, open contact gap kv 0 8 6 ) 8 ) 50 across the isolating distance kv 9 ) 5 ) 60 Rated lightning impulse withstand voltage U p : phase-to-phase, phase-to-earth, open contact gap kv 60 75 95 95 5 across the isolating distance kv 70 85 0 0 5 Rated frequency f r 50/60 Hz Rated normal current I r ) for the busbar A 000 000 000 000 000 Rated filling pressure p re ) 50 kpa (absolute) at 0 C Minimum operating pressure p me ) 0 kpa (absolute) at 0 C Ambient temperature 5 C to +55 C Panel data Circuit-breaker panel 0 A 50 A Incoming sectionalizer, bus coupler Further panel types Rated normal current I r ) Rated short-time for switchgear with t k = s up to ka 5 5 5 5 5 withstand current I k for switchgear with t k = s up to ka 5 5 5 5 5 Rated peak withstand current I p up to ka 6 6 6 6 6 Rated short-circuit making current I ma up to ka 6 6 6 6 6 Rated short-circuit breaking current I sc up to ka 5 5 5 5 5 Electrical service life of at rated normal current 0,000 operating cycles vacuum circuit-breakers at rated short-circuit breaking current 50 breaking operations Rated normal current I r ) A 50 50 50 50 50 Rated short-time for switchgear with t k = s up to ka 5 5 5 5 5 withstand current I k for switchgear with t k = s up to ka 5 5 5 5 5 Rated peak withstand current I p up to ka 6 6 6 6 6 Rated short-circuit making current I ma up to ka 6 6 6 6 6 Rated short-circuit breaking current I sc up to ka 5 5 5 5 5 Electrical service life of at rated normal current 0,000 operating cycles vacuum circuit-breakers at rated short-circuit breaking current 50 breaking operations The above-mentioned panel types can on request be combined with panel types of the single-busbar range. A A 0 50 0 50 0 50 0 50 0 50 Footnotes for pages 6 and 7 ) Higher values for rated shortduration power-frequency withstand voltage available with: kv for phase-to-phase, phase-to-earth, open contact gap as well as 8 kv across the isolating distance ) The rated normal currents apply to ambient temperatures of max. 0 C. The -hour mean value is max. 5 C (acc. to IEC 60 69 / VDE 0670 Part 0) ) Pressure values for SF 6 -insulated switchgear vessels ) Depending on the HV HRC fuse link, observe max. cut-off current of HV HRC fuse links 5) Extension tube (50 mm long) required additionally Siemens HA 5. 00 7
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Technical Data Room planning Switchgear arrangement For single-busbar applications: Room planning for single-busbar switchgear Wall-standing arrangement or Free-standing arrangement Face-to-face arrangement accordingly For double-busbar applications: Back-to-back arrangement (free-standing arrangement) Room dimensions See opposite dimension Wall-standing arrangement (top view) drawings Panels without pressure relief duct Door dimensions The door dimensions depend on the number of panels in one transport unit Switchgear fastening For floor openings and fixing points of the switchgear, see pages 0 to Foundations: Steel structure Steel-reinforced concrete with foundation rails, welded or bolted on Panel dimensions See pages 0 to Weights Panels for 50 A: Approx. 700 kg Panels for > 50 A: Approx. kg B**** B**** 5 Room height 5 ³50*** ³ 800 mm ³500*** Wall-standing arrangement (same as left side), but panels with pressure relief B**** B**** 5 Room height 5 ³50*** ³ 800 mm ³500*** duct Free-standing arrangement (top view) 8 Siemens HA 5. 00 5* * 5-mm-deep pressure relief duct at the rear ** For panel replacement: Control aisle ³ mm recommended *** Lateral wall distances ³ 50 mm and ³ 500 mm optionally possible on left or right side **** For panel width B, see dimensions on pages 0 to 5 ³800** ³500 ³800** 5 HA5-59d eps 5 ³50 HA5-50b eps 5*
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Technical Data Shipping data for single-busbar switchgear Transport NXPLUS C switchgear is delivered in form of individual panels. In special cases, transport units with a length of up to 00 mm can be combined and put together in one crate, if applicable. The following must be noted when defining transport units: Transport facilities on site Transport dimensions and weights Size of door openings in building Transport dimensions Panel width mm Transport dimensions Width x Height x Depth mm x mm x mm Transport inside Germany or to other European countries x 600 50 x 50 x 50 x 600 or x 00 550 x 50 x 50 x600orx600+x00 50 x 50 x 50 x600orx600+x00 750 x 50 x 50 Transport overseas x 600 50 x 650 x 50 x 600 or x 00 550 x 650 x 50 x600orx600+x00 50 x 650 x 50 x600orx600+x00 750 x 650 x 50 Packing Place of destination inside Germany or other European countries Method of transport: Rail and truck Type of packing: Panels on open pallets Open packing with PE protective foil Transport weights * Panel width Transport weight with without packing packing mm approx. kg approx. kg x 600 700 600 x 600 or x 00 00 x600orx600+x00 800 x600orx600+x00 800 00 Place of destination overseas Method of transport: Ship Type of packing: Panels on open pallets In closed crates with sealed upper and lower PE protective foil With desiccant bags With sealed wooden floor Max. storage time: 6 months * Average values depending on the equipping degree of the panels Siemens HA 5. 00 9
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Dimensions Front views, sections, floor openings, fixing points for single-busbar switchgear Circuit-breaker panels Disconnector panels 70 50 76 09 76 09 HA5-50a eps 76 HA5-506a eps 70 76 50 600 5 600 5 00 ³ 50 90 80 5 0 80 6 600 5 700 0 0 50 A 50 A Floor opening for control cables Option: Pressure relief duct Fixing point Floor opening for high-voltage cables 00 ³ 50 90 80 5 0 80 6 600 5 0 0 700 Floor opening for control cables Option: Pressure relief duct Fixing point Floor opening for high-voltage cables 09 09 HA5-505a eps 70 HA5-507a eps 70 50 76 50 76 76 76 00 5 00 5 00 ³ 50 90 80 5 0 80 6 00 5 700 0 0 000 A, 00 A and 500 A Floor opening for control cables Option: Pressure relief duct Fixing point Floor opening for high-voltage cables 00 ³ 50 90 80 5 0 80 6 00 5 700 0 0 000 A, 00 A and 500 A Floor opening for control cables Option: Pressure relief duct Fixing point Floor opening for high-voltage cables 0 Siemens HA 5. 00
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Dimensions Front views, sections, floor openings, fixing points for single-busbar switchgear Bus sectionalizers with disconnector before the circuit-breaker Bus sectionalizers with disconnector before and after the circuit-breaker 09 76 09 HA5-508a eps HA5-50a eps 76 76 76 50 50 600 5 600 5 00 ³ 50 90 80 0 80 5 700 0 0 50 A panel width Floor opening for control cables Option: Pressure relief duct Fixing point 00 ³ 50 90 80 0 80 5 700 0 0 50 A panel width Floor opening for control cables Option: Pressure relief duct Fixing point 5 6 600 5 6 600 09 09 50 76 50 76 76 76 00 ³ 50 90 80 80 0 HA5-509a eps 00 5 5 700 0 0 000 A, 00 A and 500 A panel width Floor opening for control cables Option: Pressure relief duct Fixing point 00 ³ 50 90 80 HA5-5b eps 0 80 00 5 5 700 0 0 50 A panel widths Floor opening for control cables Option: Pressure relief duct Fixing point 5 6 00 5 6 00 Siemens HA 5. 00
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Front views, sections, floor openings, fixing points for single-busbar switchgear Switch-disconnector panel with HV HRC fuses HA5-5a eps 50 50 76 09 HA5-5a eps 70 50 76 76 09 76 600 5 600 5 00 ³ 50 90 80 0 80 5 700 0 0 00 ³ 50 90 80 0 80 5 700 0 0 5 6 600 5 6 600 HA5-5b eps 50 50 76 09 76 5 HA5-55a eps 50 76 Dimensions Ring-main panel (switch-disconnector panel without HV HRC fuses) Floor opening for control cables Option: Pressure relief duct Fixing point Floor opening for high-voltage cables Floor opening for control cables Option: Pressure relief duct Fixing point Floor opening for high-voltage cables Contactor panel with HV HRC fuses Metering panel 09 76 600 5 600 5 00 ³ 50 90 80 5 0 80 6 600 5 700 0 0 Floor opening for control cables Option: Pressure relief duct Fixing point Floor opening for high-voltage cables 5 Option: HV HRC fuses 00 ³ 50 90 80 5 0 80 6 600 5 700 0 0 Floor opening for control cables Option: Pressure relief duct Fixing point Siemens HA 5. 00
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Product Range Single-busbar panels Circuit-breaker panels Three-position switch-disconnector Three-position disconnector Vacuum circuit-breaker HA5-88b eps 60 A ) HA5-90 eps ) 000 A, 00 A and 500 A ) Plug-in voltage transformer Current transformer Capacitive voltage detection system HA5-5a eps Disconnectable and plug-in voltage transformer Forced ventilation at 500 A Busbar earthing switch ) Surge arrester or limiter HA5-89 eps Max. or outside-cone plugs (not included in the scope of supply) plug thereof replaceable by surge arrester or limiter 0 A and 50 A Max. 6 outside-cone plugs (not included in the scope of supply) plugs thereof replaceable by surge arrester or limiter ) Rated normal current of busbar 50 A (> 50 A on request) Siemens HA 5. 00
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Product Aufbau Range Single-busbar panels Disconnector panels Bus sectionalizers Three-position disconnector Vacuum circuit-breaker ) Plug-in voltage transformer ) HA5-9b eps 50 A, panel width Current transformer Capacitive voltage detection system HA5-9 eps 0 A and 50 A HA5-5a eps Disconnectable and plug-in voltage transformer Forced ventilation at 500 A ) Surge arrester or limiter HA5-9 eps HA5-9 eps 50 A, panel widths Max. outside-cone plugs (not included in the scope of supply) plug thereof replaceable by surge arrester or limiter Max. 6 outside-cone plugs (not included in the scope of supply) plugs thereof replaceable by surge arrester or limiter 000 A, 00 A and 500 A ) Rated normal current of busbar 50 A (> 50 A on request) HA5-95 eps 000 A, 00 A and 500 A, panel width Siemens HA 5. 00
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Product Range Single-busbar panels Switch-disconnector panel Ring-main panel Three-position switch-disconnector Vacuum contactor HV HRC fuses ) ) Outside-cone plug (not included in the scope of supply) ) HA5-96 eps HA5-98 eps Plug-in voltage transformer Current transformer Capacitive voltage detection system Contactor panel Metering panel HA5-5a eps Disconnectable and plug-in voltage transformer Plug-in voltage transformer Surge arrester or limiter ) ) ) HA5-97a eps HA5-99a eps nd outside-cone plug (not included in the scope of supply) ) Rated normal current of busbar 50 A (> 50 A on request) Siemens HA 5. 00 5
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Product Range Double-busbar panels Circuit-breaker panels Incoming sectionalizer SS SS SS SS Three-position disconnector Vacuum circuit-breaker ) Plug-in voltage transformer ) ) ) ) Plug-in voltage transformer, mounted separately HA5-500 eps HA5-50 eps Current transformer 0 A and 50 A Single-busbar panel, prepared for later extension to double-busbar panel: 0 A and 50 A Bus coupler Capacitive voltage detection system HA5-5a eps Disconnectable and plug-in voltage transformer SS SS Surge arrester or limiter Max. outside-cone plugs (not included in the scope of supply) plug thereof replaceable by surge arrester or limiter ) ) ) Panel bars HA5-50 eps 0 A and 50 A HA5-50 eps ) Rated normal current of busbar 50 A (> 50 A on request) Abbreviations SS = Busbar SS = Busbar 6 Siemens HA 5. 00
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Design Basic panel design Insulating system Switchgear vessel filled with SF 6 -gas Features of SF 6 -gas: Non-toxic Odourless and colourless Non-inflammable Inert Heavier than air Electronegative (high-quality insulator) Pressure of SF 6 -gas in the switchgear vessel: Rated filling pressure: 50 kpa Design pressure: 80 kpa Design temperature of SF 6 -gas: 80 C Operating pressure of rupture diaphragm: ³ 00 kpa Bursting pressure: ³ 00 kpa Panel design Factory-assembled, type-tested Metal-enclosed, metal-clad Hermetically welded switchgear vessel made of stainless steel, without seals Single-pole, solid-insulated, screened busbars, plug-in type Maintenance-free Degree of protection IP 65 for all high-voltage parts of the primary circuit IP XD for the switchgear enclosure Vacuum circuit-breaker and vacuum contactor Three-position disconnector for disconnecting and earthing by means of the circuit-breaker Make-proof earthing by means of the vacuum circuit-breaker Three-position switch-disconnector Cable connection with outside-cone plug-in system according to DIN EN 50 8 Wall-standing or free-standing arrangement Installation and possible later extension of existing panels without gas work Replacement of switchgear vessel without gas work Replacement of instrument transformers without gas work, as they are mounted outside the gas compartments Enclosure made of galvanized sheet-steel, front cover and end walls painted in colour light basic Low-voltage compartment removable, plug-in bus wires Lateral, metallic wiring ducts for control cables Z 5 6 7 8 9 0 HA5-56 eps Circuit-breaker panel (example) Front view Detail Z: 5 6 7 8 9 0 5 6 7 8 9 Low-voltage compartment Multifunction protection relay SIPROTEC (example) Switch position indication for circuit-breaker Actuating opening for charging the circuitbreaker springs 5 ON pushbutton for circuit-breaker 6 Spring charged indication 7 Operating cycle counter for circuit-breaker 8 Switch position indication for disconnecting function of three-position switch 9 Ready-for-service indication Sectional view (cable connection from the front) 0 Switch position indication for ready-toearth function of three-position switch Control gate and locking device for disconnecting/earthing functions of threeposition switch Circuit-breaker interrogation lever Actuating opening for disconnecting function of three-position switch Actuating opening for ready-to-earth function of three-position switch 5 Option: Busbar voltage transformer, plug-in type 6 Busbars, single-pole, fully-insulated, plug-in type, earthed on the outside 7 Option: Busbar current transformer 8 Switchgear vessel, hermetically welded, filled with SF 6 -gas 9 Three-position disconnector 0 OFF pushbutton for circuit-breaker Siemens HA 5. 00 7 0 Vacuum interrupter of circuit-breaker Pressure relief (rupture diaphragm) Capacitive voltage detection system Locking device for feeder earthed (suitable for locking with padlock) 5 Disconnecting facility for feeder voltage transformer 6 Bushing for feeder voltage transformer 7 Option: Feeder voltage transformer 8 Option: Pressure relief duct 9 Cable connection compartment 0 Operating mechanism for three-position switch Circuit-breaker operating mechanism Feeder current transformer Cable connection with outside-cone T-plug Operation of disconnecting facility of the feeder voltage transformer
R-HA5-050 eps Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Components Vacuum circuit-breaker Features According to IEC 60 056 and VDE 0670 Parts 0 to 06 (standards see page ) Application in hermetically welded switchgear vessel in conformity with the system Climate-independent vacuum interrupter poles in the SF 6 -filled switchgear vessel Maintenance-free for use indoors according to IEC 60 69 and VDE 0670 Part 0 Individual secondary equipment A metal bellows is used for gasketless separation of the SF 6 -insulation and the operating mechanism as already used with success for over,000 vacuum interrupters Switching duties and operating mechanisms The switching duties of the vacuum circuit-breaker are dependent, among other factors, on its type of operating mechanism. Motor operating mechanism Motor operating storedenergy mechanism For auto-reclosure (K) For synchronization and rapid load transfer (U) Further operating mechanism features Located outside the switchgear vessel in the operating mechanism box and behind the control board Stored-energy springoperated mechanism for 0,000 operating cycles Operating mechanism functions Motor operating mechanism ) (M *) In the case of the motor operating mechanism, the closing spring is charged by means of a motor and latched in the charged position (the spring charged indication is visible). Closing is effected either by means of an ON pushbutton or a closing solenoid. The closing spring is recharged automatically (for auto-reclosure). Vacuum circuit-breaker 5 6 Vacuum circuit-breaker (operating mechanism open) Gear with motor (M *) Position switch (S *) Closing spring Closing spring charged indication 5 Closing solenoid (Y9 *) 6 Operating cycle counter 7 Auxiliary switch 6NO+6NC (S *), option: NO+NC 8 Switch position indication CLOSE/OPEN for circuit-breaker 9 Option: nd release 0 st release (Y *) Locking device for feeder earthed 5 6 7 8 7 8 9 0 Trip-free mechanism The vacuum circuit-breaker is fitted with a trip free mechanism according to IEC 60 056 and VDE 0670. HA5-76d eps Section through the vacuum circuit-breaker 9 Fixed terminal Pole support Vacuum interrupter 5 Moving terminal 6 Metal bellows 7 Switchgear vessel, SF 6 -insulated, with vacuum interrupter 8 Operating mechanism box (see above figure) 9 Operating kinematics Abbreviations for switching duties and applications: U = Synchronization and rapid load transfer (make time 90 ms) K = Auto-reclosure ) Motor power consumption at V to 0 V DC: 50 W 0 V and 0 V AC: 00 VA * Equipment identification code For further technical data and description of typical applications, please refer also to Catalog HG. AH Vacuum Circuit-Breakers 8 Siemens HA 5. 00
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Components Vacuum circuit-breaker Switching frequency of the vacuum interrupter Permissible operating cycles 0000 00 5000 000 0 500 00 50 0 0 5 0 0 ka 50 5 Breaking current (r.m.s. value) Electrical data Rated voltage kv Rated short-circuit breaking current 5 ka Rated normal current 000 A Permissible operating cycles 0000 00 5000 000 0 500 00 50 0 0 5 0 0 ka 50.5 Breaking current (r.m.s. value) Electrical data Rated voltage 5 kv Rated short-circuit breaking current.5 ka Rated normal current 500 A Rated switching sequences O-t-CO oro-t-co-t -CO with motor operating stored-energy mechanism version HA5-59 eps HA5-50 en eps Secondary equipment The scope of the secondary equipment of the vacuum circuit-breaker depends on the type of application and offers a wide range of variations, thus allowing even the highest requirements to be satisfied: Closing solenoid Type AY5 0 (Y9 *) For electrical closing Shunt releases Types: Standard: AY5 0 (Y *) Option: AX 0 (Y *), with energy store Tripping by protection relay or electrical actuation Current-transformer operated release Type AX 0 (Y6 *) for tripping pulse W 0. Ws in conjunction with suitable protection systems Used where no external auxiliary voltage is available, tripping by protection relay Undervoltage release Type AX 0 (Y7 *) Comprising: Energy store and unlatching mechanism Electromagnetic system, to which voltage is permanently applied in the CLOSED position of the vacuum circuit-breaker; tripping is initiated when this voltage drops Connection to voltage transformers possible Anti-pumping (mechanical and electrical) Function: If CLOSE and OPEN commands are applied simultaneously and continuously to the vacuum circuit-breaker, this reverts to its OPEN position subsequent to closing. The circuit-breaker remains in this position until a new CLOSE command is given. Thus continuous closing and opening (= pumping) is obviated. Circuit-breaker tripping signal For electrical signalling (as pulse > 0 ms), e.g. to remote control systems, in the case of spontaneous tripping (e.g. protection) Via limit switch (S6 *) and cut-out switch (S7 *) Varistor module To limit overvoltages to approx. 500 V for protection devices (when inductive devices are mounted in the vacuum circuit-breaker) For auxiliary voltages W 60VDC Auxiliary switch Type SV9 (S *) Standard: 6NO+6NC, of which NO+NC contacts are free ) Option: NO+NC, of which 9NO+6NC contacts are free ) Position switch Type SE (S *) For signalling closing spring charged Mechanical interlocking Mechanical interlocking to the three-position disconnector to the three-position switch-disconnector 60 A (option) During operation of the three-position switch, the vacuum circuit-breaker cannot be operated O = OPEN operation CO = CLOSE operation with subsequent OPEN operation at the shortest internal closeopen time of the vacuum circuit-breaker t = Dead time 0. s t = Dead time min ) For utilization by the customer * Equipment identification code Abbreviations: NO = normallyopen contact NC = normallyclosed contact Siemens HA 5. 00 9
R-HA5-07 eps R-HA5-00a eps Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Components Three-position switch Common features According to IEC 6 7-0 and VDE 0670 Part (Standards see page ) Application in hermetically welded switchgear vessel in conformity with the system Climate-independent switching elements in the SF 6 -filled switchgear vessel Maintenance-free for use indoors according to IEC 60 69 and VDE 0670 Part 0 Individual secondary equipment A metal bellows is used for gasketless separation of the SF 6 -insulation and the operating mechanism as already used with success for over,000 vacuum interrupters Three-position disconnector Application in Circuit-breaker panel from 0 A to 500 A (standard: with interlock against the circuit-breaker) Disconnector panel from 0 A to 500 A Bus sectionalizer from 0 A to 500 A 0 mechanical operating cycles for CLOSED / OPEN / EARTHED Compact design due to short contact gaps in SF 6 -gas Operation via gas-tight welded bushing at the front of the switchgear vessel Reliable switch position up to the operating front of the panel Three-position switch-disconnector Application in Circuit-breaker panel 60 A (interlock against the circuit-breaker not necessary) Switch-disconnector panel Ring-main panel Contactor panel Metering panel 0 mechanical operating cycles for CLOSED / OPEN / EARTHED Switching functions as general-purpose switchdisconnector (Class E) according to IEC 60 65- VDE 0670 Part 0 IEC 6 7-0 VDE 0670 Part /EN 60 9 (Standards see page ) Designed as a multi-chamber switch incorporating the functions Switch-disconnector and Make-proof earthing switch Additional switch-disconnector functions: 0 closing operations at rated short-circuit making current (demanded according to IEC / VDE: closing operations) operating cycles at rated normal current Switch positions of the three-position switches Three-position disconnector Switch positions (in OPEN position) with vacuum circuit-breaker arranged below (view into the switchgear vessel opened at the rear) Fixed contact at the busbar Swinging contact blade Fixed contact for feeder EARTHED Operating shaft 5 6 7 8 Three-position switch-disconnector (exploded view) 5 Fixed contacts to earth 6 Rotary contact blade 7 Operating shaft 8 Fixed contact to the feeder 9 Fixed contact to the busbar 5 9 HA5-58 eps HA5-59 eps CLOSED OPEN Feeder EARTHED CLOSED OPEN Feeder EARTHED Switch positions 0 Siemens HA 5. 00
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Components Three-position switch Interlocks Selection of permissible switching operations by means of a control gate with mechanically interlocked circuit-breaker Corresponding operating shafts are not released at the operating front until they have been preselected with the control gate Operating lever cannot be removed until switching operation has been completed Circuit-breaker cannot be closed until control gate is in neutral position again Switchgear interlocking system possible with electrical interlocks if switchgear is equipped with motor operating mechanisms (mechanical interlocking for manual operation remains) Switch positions CLOSED, OPEN, EARTHED In circuit-breaker panels, the cable connection is earthed and short-circuited by closing the vacuum circuitbreaker Operating mechanism Spring-operated mechanism operated via operating lever (slip-on lever) at the operating front of the panel Separate operating shafts for the functions DISCONNECTING and EARTHING Option: Motor operating mechanism Spring-operated/storedenergy mechanism for the switch-disconnector function with fuses: Opening spring pre-charged (after closing) Maintenance-free due to non-rusting design of parts subjected to mechanical stress Bearings which require no lubrication Transmission principle for operating mechanisms (see opposite drawings) Transmission of operating power from outside into the gas-filled switchgear vessel by means of a metal bellows Gas-tight Maintenance-free HA5-50 eps HA5-5 eps Transmission principle for operating mechanisms Three-position disconnector Gas-filled switchgear vessel Gas-tight welded metal bellows Three-position switch-disconnector Gas-filled switchgear vessel Gas-tight welded metal bellows Siemens HA 5. 00
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Components HV HRC fuse assembly Features Application in Switch-disconnector panel Contactor panel Metering panel HV HRC fuse links according to DIN 65 (main dimensions) with striker pin in medium version acc. to IEC 60 8 / VDE 0670 Part As short-circuit protection before transformers in the switch-disconnector panel As short-circuit protection before motors in the contactor panel As short-circuit protection before voltage transformers in the metering panel With selectivity (depending on correct selection) to upstream and downstream connected equipment Single-pole insulated Requirements according to IEC 60 0 and VDE 0670 Part 0 fulfilled by combination of HV HRC fuses with the three-position switchdisconnector Climate-independent and maintenance-free, with fuse boxes made of cast resin Fuse assembly connected to the three-position switch-disconnector via welded bushings and connecting bars Location of fuse assembly below the switchgear vessel Fuse can only be replaced if feeder is earthed Mode of operation In the event that an HV HRC fuse link has tripped, the switch is tripped via an articulation which is integrated into the cover of the fuse box (see figure). 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 overheating trips the switch via the diaphragm in the cover of the fuse box and via an articulation. This breaks the current before the fuse box incurs irreparable damage. The above thermal protection works independently of the type and design of the HV HRC fuse used. Like the fuse itself, it is maintenancefree and independent of any outside climatic effects. Furthermore, the Siemens HV HRC fuses release the striker pin independently of the temperature and trip the three-position 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 Isolating and earthing of the transformer feeder Subsequent manual replacement of the HV HRC fuse link after removing the cable compartment cover HA5-5 eps HA5-5 eps HV HRC fuse assembly Basic design Bushing Switchgear vessel Sealing cover with seal Tripping pin for spring-operated/ stored-energy mechanism 5 Fuse box 6 HV HRC fuse link 7 Striker pin of the HV HRC fuse link and articulation for tripping of the spring-operated/stored-energy mechanism Schematic sketches for fuse tripping 5 6 7 Fuse link in service condition Fuse tripped by striker pin Fuse tripped by overpressure, e.g. if HV HRC fuse link has been inserted incorrectly Siemens HA 5. 00
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Components Allocation of three-position switch-disconnector with HV HRC fuses Transformer ratings The opposite table shows recommended HV HRC fuse links GD (electrical data valid for ambient temperatures of up to 0 C) for the fuse protection of transformers. Recommendation The three-position switch-disconnector in the transformer feeder (transformer switch) was combined with Siemens HV HRC fuse links of type GD and tested in accordance with IEC 60 0. Higher transformer ratings on request. Standards HV HRC fuse links with striker pin medium version according to IEC 60 8 VDE 0670 Parts and 0 DIN 65 main dimensions Rated Transformer system Rating S N voltage kv kva 6 to 7. 50 75 5 60 00 50 5 00 500 60 0 to 50 75 5 60 00 50 5 00 500 60 800 0.8 50 75 5 60 00 50 5 00 500 60 800 0 50 5 to 7.5 50 75 5 60 00 50 5 00 500 60 800 0 50 50 75 5 60 00 50 5 00 500 60 800 0 50 600 000 Relative impedance voltage u k % 5to6 5to6 5to6 5to6 5to6 5to6 5to6 5to6 5to6 5to6 5to6 5to6 5to6 Rated current I A.8 7. 9.6.0 5. 9..0 0. 8. 8.0 6.0.9. 5.8 7. 9..5.5 8.. 9.0 6. 6. 58.0... 5. 6.7 8. 0.5. 6.8.0 6..5.9 5..9.9.9.8 6. 7.7 9.7. 5.5 9.. 0.9 8.5 8..5..9.6.7 5.8 7. 9..6.5 8.. 9.0 6.0 6.5 58.0 Rated normal current of the HV HRC fuse Lowest value A 6 6 0 5 0 50 50 6 6 0 0 6 6 0 5 5 0 50 6 6 80 6 0 0 6 6 6 0 5 0 50 50 6 80 6 0 0 0 6 6 0 5 0 50 6 6 6 6 0 0 0 6 6 0 0 5 0 50 6 Highest value A 6 0 5 0 50 6 80 0 0 6 0 5 0 50 6 80 6 0 0 6 0 5 5 50 50 6 6 80 6 0 0 0 6 5 5 0 50 6 50 80 6 6 0 0 0 6 0 5 0 50 0 50 6 Siemens HA 5. 00
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Components Vacuum contactor Motor protection Features According to IEC 60 70 and DIN EN 60 70 (Standards see page ) Application in hermetically welded switchgear vessel in conformity with the system Climate-independent vacuum interrupter poles in the SF 6 -filled switchgear vessel Maintenance-free for use indoors according to IEC 60 69 and VDE 0670 Part 0 Individual secondary equipment A metal bellows is used for gasketless separation of the SF 6 insulation and the operating mechanism as already used with success for over,000 vacuum interrupters Magnet coil for operation located outside the switchgear vessel,000 or 500,000 operating cycles at rated normal current Short-circuit and overload protection in connection with motors In circuits subjected to shortcircuit currents, HV HRC fuse links protect switching devices without short-circuit breaking capacity (e.g. vacuum contactors). The max. stress for HV HRC fuses arises during motor starting (starting currents, starting times and starting frequency). Fuses must not operate or be pre-damaged during motor starting. The opposite table shows the permissible motor starting currents according to the starting time and starting frequency of downstream connected HV motors with the associated HV HRC fuses. R-HA5-0 eps HA5-5a eps HA5-55 eps Vacuum contactor Vacuum contactor (operating mechanism open) Metal bellows Pole support Vacuum interrupter 6 7 8 9 0 Section through the vacuum contactor Motor protection table M ~ HV motors with starting times upto5s HV motors with starting times up to 5 s HV motors with starting times up to 0 s 5 Number of starts per hour Operating mechanism box with magnet coil 5 Base plate (welded into the switchgear vessel) Maximum permissible motor starting current in A 6 Fixed terminal 7 Pole support 8 Vacuum interrupter 9 Moving terminal 0 Switchgear vessel, SF 6 -insulated, with vacuum interrupter Metal bellows Operating mechanism box (see above figure) Operating kinematics at rated normal current of fuse 0 A 6 A A 5 A 60 A 50 A 90 5 55 60 80 70 80 0 5 0 0 675 8 75 0 5 00 00 65 6 65 90 70 60 550 85 0 5 0 0 65 75 0 05 85 00 580 8 70 85 60 60 50 6 60 90 65 5 5 75 80 0 5 00 0 600 70 05 90 65 70 50 8 65 90 65 0 0 60 6 55 80 5 00 80 00 Siemens HA 5. 00
eps R-HA5-05 eps HA5-57 HA5-8d Busbars Features Single-pole, plug-in design Consisting of round-bar copper, insulated by means of silicone rubber Busbar joints with cross and end adapters, insulated by means of silicone rubber Field control by means of electrically conductive layers on the silicone-rubber insulation (both internally and externally) Safe-to-touch by earthing the external layers with the switchgear vessel Insensitive to pollution and condensation Safe-to-touch as a result of use of metallic covers Switchgear extension or panel replacement without SF 6 -gas work Possible fittings Current transformers Voltage transformers Surge arresters Cables with Straight plug or T-plug Duresca bars (fully insulated) Legend Cap Busbar insulation made of silicone rubber Clamps Busbar (round-bar copper) 5 End adapter 6 Switchgear vessel 7 Metal cover of busbars 8 Cross adapter 9 Earthing connection Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Components 7 8 9 0 7 8 9 8 9 0 Siemens HA 5. 00 5 5 6 5 5 6 Plug-in busbars (example) Busbars up to 50 A, plug-in type, fully insulated (as front view of three panels, without low-voltage compartments) Section of busbar 0 A or 50 A (basic design) Section of tandem busbar 600 A, 000 A, 00 A or 500 A (basic design)
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Components Current transformers Features According to IEC 60 0- and VDE 0 Part Designed as ring-core current transformers, single-pole Free of dielectrically stressed cast-resin parts (due to design) Insulation class E Inductive type Certifiable Climate-independent Secondary connection by means of a terminal strip inside the panel Installation Arranged outside the primary enclosure (switchgear vessel) R-HA5-05 eps Current transformers Busbar current transformers Example 50 A Front views: Busbar current transformer Feeder current transformer at the panel connection Cable-type current transformer Side view: Mounting locations At the busbar () At the panel connection () Around the cable () Current transformer types Busbar current transformer (): Inside diameter of transformer 56 mm / 50 A and 56 x 00 mm / > 50 A Usable height max. 90 mm/>50aor max. 70 mm / 50 A Feeder current transformer (): Inside diameter of transformer 06 mm / 50 A and 06 x 0 mm / > 50 A Max. usable height mm Cable-type current transformer (): Inside diameter of transformer 55 mm Max. usable height 70 mm HA5-56c eps 60 A, 0 A 000 A, 00 A and 500 A and 50 A Current transformer fitting (basic design) Electrical data Designation Operating voltage Rated short-duration power-frequency withstand voltage (winding test) Rated frequency Rated continuous thermal current Rated thermal short-time current, max. s Rated current dynamic primary secondary Type MC max. 0.8 kv kv 50/60 Hz max.. x rated current (primary) max..5 ka unlimited 0 A to 500 A Aand5A Designation Multiratio (secondary) Core data according to rated primary current: Measuring Rating core Class Overcurrent factor Protection Rating core Class Overcurrent factor Permissible ambient temperature Insulation class Type MC 00 A to 500 50 A max. cores.5 VA to 0 VA 0. to FS 0.5 VA to 0 VA 5Por0P 0 to 0 max. 60 C E 6 Siemens HA 5. 00
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Components Voltage transformers Features According to IEC 60 0- and VDE 0 Part Designed as single-pole voltage transformers, plug-in type Metal-enclosed, safe-to-touch Connection system with plug-in contact Inductive type Certifiable Climate-independent Secondary connection by means of plugs inside the panel Cast-resin insulated Arranged outside the primary enclosure (switchgear vessel) Mounting locations: At the busbar At the panel connection Voltage transformer types Busbar voltage transformer MT: Pluggable in the cross adapters of the busbar 50 A using additional adapters (> 50 A on request) No separate metering panel required Suitable for 80 % of the rated short-duration powerfrequency withstand voltage at rated frequency Repeat test at 80 % of the rated short-duration powerfrequency withstand voltage possible with mounted voltage transformer Feeder voltage transformer MT at the panel connection: Switchable through an SF 6 -insulated disconnecting facility in the switchgear vessel Switch positions: CLOSED and Transformer bushing EARTHED Operation of the disconnecting facility from outside through a metal bellows welded in the switchgear vessel Voltage testing of switchgear and cables possible with mounted and earthed voltage transformer R-HA5- eps Voltage transformers Feeder voltage transformer Front view: HA5-57a eps Z Side view: Voltage transformer fitting (basic design) Electrical data Primary data Rated voltage For types MT and MT. to kv Rated 0 kv.6/ kv voltage 0 kv.8/ kv... at rated 5.0/ kv shortduration 6.0/ kv 6.6/ kv powerfrequency 7./ kv withstand 8 kv 0 / kv voltage / kv 8 kv.8/ kv 5 / kv 50 kv 7.5/ kv 0 / kv / kv Rated voltage.9 factor U n /8 h Secondary data HA5-58a eps Disconnecting facility for feeder voltage transformer (details Z) For type MT Rated voltage / V, 0/ V Auxiliary winding / V 0/ V Thermal limit 8A current (measuring winding) Rated long-time 5A current, 8h Rating 0. at accuracy 0.5 class Busbar voltage transformer Feeder voltage transformer at the panel connection Operating lever for disconnecting facility Panel connection CLOSED OPEN and EARTHED 0, 5 and 0 VA 50, 75 and 90 VA, 50 VA For type MT / V, 0/ V / V 0/ V 8A 5A 5 VA 5 VA 75 VA Siemens HA 5. 00 7
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Components Panel connection Features Bushings with outside cone With bolted contact (M6) as interface type C according to EN 50 80 / EN 50 8 Cable connection height: 70 mm (for switch-disconnector panels and contactor panels with HV HRC fuses: 50 mm) With cable bracket, e.g. type C0 according to DIN EN 50 0 Option: Access to the cable connection compartment only if the feeder has been isolated and earthed For thermoplastic-insulated cables For cable T-plugs or cable elbow plugs with bolted contact For connection cross-sections up to 60 mm (standard) Cable routing downwards, cable connection from the front For rated normal currents up to 500 A Cable plugs, cable sealing ends and cable clamps are not included in the scope of supply Surge arresters Can be plugged into the cable T-plug Surge arresters are recommended if, at the same time The cable system is directly connected to the overhead line, The protective range of the arrester at the terminal tower of the overhead line does not cover the switchgear Surge limiters Can be plugged into the cable T-plug Surge limiters are recommended if motors with starting currents < 600 A are connected HA5-5 eps HA5-5 eps HA5-5 eps HA5-55a eps Cable connection compartment L L L Panel width 600 mm L L L Panel width 600 mm L L L Panel width 600 mm Panel width 00 mm 70 (50*) 70 (50*) 70 L L L Connectable cables Connection with cable per phase Connection with cables per phase Connection with cables per phase Legend Cable T-plug Cable elbow plug Screwed coupling insert 70 Connection with cables per phase 70 * Cable connection height of 50 mm for switch-disconnector panels and contactor panels with HV HRC fuses HA5-56a eps L L L Panel width 00 mm Connection with 6 cables per phase 8 Siemens HA 5. 00
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Components Installation possibilities for cable connections and surge arresters Panel type Number Make of cables per panel and phase Core crosssection ) mm Insulation Cable elbow plugs bolted Cable T-plugs bolted Coupling inserts bolted Surge arresters (additionally) Circuit-breaker panel 60 A, 0 A Switch-disconnector panel 60 A Ring-main panel 60 A Euromold up to 00 EPDM x(k)00 TB/G x56sa-x or x00pb-5/0-sa-x 85 to 60 EPDM x(k)0 TB/G x56sa-x or x00pb-5/0-sa-x up to 0 Silicone xagt 0(0), with metal housing up to 0 Silicone xagtl0(0), screened CP-AGT(L) CP-AGT(L) x56sa-x or x00pb-5/0-sa-x x56sa-x or x00pb-5/0-sa-x up to 00 EPDM x(k)00 LB/G ABB up to 00/0 Silicone xset/ xmut / Energiekabel 00 to 500 Silicone xsehdt/ nkt cables up to 00 Silicone xcb -60 xcsa -5 Tyco Electronics up to 00 Silicone xrsti-56xx Raychem up to 00 Silicone xrsti-56xx RSTI-56CPxx xrsti-56a-xx Euromold up to 00 EPDM x(k)00 TB/G (K)00CP 85 to 60 EPDM x(k)0 TB/G (K)0CP up to 0 Silicone xagt 0(0), CP-AGT(L) x00pb-5/0-sa-x with metal housing up to 0 Silicone xagt L0(0), CP-AGT(L) x00pb-5/0-sa-x screened up to 00 EPDM x(k)00 LB/G x(k)00 TB/G (K)00CP-LB ABB up to 00/0 Silicone xset/ Energiekabel 00 to500 Silicone xsehdt/ up to 00/0 Silicone xset/ xmut / nkt cables up to 00 Silicone xcb -60 CP 60C xcsa -5 up to 00 Silicone xcb -60 + xcc -60 xcsa -5 Tyco Electronics up to 00 Silicone xrsti56xx RSTI-56CP Raychem up to 00 Silicone xrsti56xx RSTI-56CP xrsti-56sa-xx Circuit-breaker or Same possibility as above panel and ) Euromold 85 to 60 EPDM x(k)0 TB/G (K)0CP disconnector panel, 50 A ) nkt cables up to 00 Silicone xcb -60 CP 60C xcsa -5 up to 00 Silicone xcb -60 + xcc -60 xcsa -5 Tyco Electronics Raychem up to 00 Silicone xrsti-56xx RSTI-56CP Circuit-breaker panel and disconnector panel, 000 A Euromold up to 00 EPDM x(k)00 TB/G (K)00CP x56sa-x or x00pb-5/0-sa-x 85 to 60 EPDM x(k)0 TB/G (K)0CP x56sa-x or x00pb-5/0-sa-x up to 0 Silicone xagt 0(0), with metal housing up to 0 Silicone xagt L0(0), screened CP-AGT(L) CP-AGT(L) x56sa-x or x00pb-5/0-sa-x x56sa-x or x00pb-5/0-sa-x up to 00 EPDM x(k)00 LB x(k)00 TB/G (K)00CP-LB ABB 00 to 500 Silicone xsehdt/ Energiekabel nkt cables up to 00 Silicone xcb -60 CP 60C xcsa -5 up to 00 Silicone xcb -60 + xcc -60 xcsa -5 Tyco Electronics up to 00 Silicone xrsti-56xx RSTI-56CP Raychem up to 00 Silicone xrsti-56xx RSTI-56CP RSTI-56SA-xx 6 ) Euromold 85 to 60 EPDM 6x(K)0 TB/G (K)0 CP nkt cables up to 00 Silicone 6xCB -60 CP 60C up to 00 Silicone xcb -60 + xcc -60 Tyco Electronics Raychem up to 00 Silicone 6xRSTI-56xx RSTI-56CP Up to 5 kv: Circuit-breaker panel and disconnector panel, 00 A, 500 A ) 6 ) Euromold up to 00 EPDM 6x(K)00 TB/G7 (K)0 CP ) Observe the actual current carrying capacity and short-circuit current carrying capacity of the cables and sealing ends ) With an actual current carrying capacity of > A at 0 C, provide silver-plated cable lugs ) With a current carrying capacity of ³ 00 A, provide silver-plated cable lugs ) Cable compartment cover 0 mm deeper than standard Siemens HA 5. 00 9
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Components Panel connection (cable sealing ends available on the market) Cable type Cable sealing end (further types on request) Comment Make Type Design Cross-section T/W ) mm Thermoplastic-insulated cables kv according to IEC 60 50- and VDE 076 Part 60 -core cable, Euromold 00 TB/G T 5 00 EPDM (conductive) PE and XLPE-insulated 00 LB/G W 5 00 EPDM (conductive) NYSY (Cu) and 0 TB/G T 85 60 EPDM (conductive) NXSY (Cu) AGT 0 T 95 0 Silicone with metal housing or AGTL 0 T 95 0 Silicone (conductive) NAYSY (AI) and nkt cables CB -60 T 5 00 Silicone (conductive), option: with metal housing NAXSY (AI) ABB Energiekabel SET T 70 00 Silicone (conductive), option: with metal housing SEHDT T 00 500 Silicone (conductive), option: with metal housing Tyco Electronics Raychem RSTI 56.. T 5 00 Silicone (conductive), with capacitive measuring point Thermoplastic-insulated cables 5/7.5/ kv according to IEC 60 50- and VDE 076 Part 60 -core cable, Euromold K00 TB/G T 5 00 EPDM (conductive) PE and XLPE-insulated K00 LB/G W 5 00 EPDM (conductive) NYSY (Cu) and K0 TB/G T 85 60 EPDM (conductive) NXSY (Cu) AGT 0 T 5 0 Silicone with metal housing, multi-range design or AGTL 0 T 5 0 Silicone (conductive) NAYSY (AI) and nkt cables CB -60 T 5 00 Silicone (conductive), option: with metal housing NAXSY (AI) ABB Energiekabel SET T 5 0 Silicone (conductive), option: with metal housing SEHDT T 00 500 Silicone (conductive), option: with metal housing Tyco Electronics Raychem for single-core cables RSTI 56.. T 5 00 Silicone (conductive), with capacitive measuring point ) T = Cable T-plug, W = Cable elbow plug ) VDE 078, IEC 6007, BS 75, ANSI / IEEE 86, CENELEC HD 69. S 0 Siemens HA 5. 00
R-HA0-080 eps R-HA0-089 eps R-HA0-088 eps R-HA0-059 eps Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Components Indicating and measuring equipment Voltage detection systems To verify safe isolation from supply Detection systems (option): LRM system with plug-in indicator HR system with plug-in indicator LRM system with CAPDIS LRM system with CAPDIS-S LRM system with CAPDIS-S LRM and HR systems With voltage indicator according to IEC 6-5 and VDE 068 Part 5 Verification of safe isolation from supply phase by phase by insertion in each socket pair Indicator for continuous operation Safe-to-touch Routine-tested Measuring system and voltage indicator can be tested Voltage indicator flashes if high voltage is present CAPDIS Voltage detection system according to VDE 068 Part 5 Maintenance-free Three-phase display Reliable indication of Voltage state of switchgear Isolation from supply by active zero indication Error With integrated signalling relay for Voltage present Voltage not present Error Self-testing, thus repeated testing, as demanded in the standards, is not required Additional test sockets for phase comparison with an LRM phase comparison test unit CAPDIS-S and -S Same design as CAPDIS voltage detection system, but: Without active zero indication and without signalling relay Auxiliary voltage not required Option: With remote indication of the voltage state (auxiliary voltage required for CAPDIS-S) Verification of correct terminal-phase connections Verification of correct terminal-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 capacitive taps (socket pairs) of the switchgear HA5-57 eps R-HA5-067.eps Voltage indicators and detection systems Voltage indicator pluggable per phase at the panel front Voltage detection system CAPDIS-S Voltage indication principle C U LE C U Voltage detection system CAPDIS Signalling relay (accessible from the rear) LCD Test sockets plugged-in LRM or HR system Voltage indication with capacitive voltage divider (principle) mounted CAPDIS L L L C Capacity integrated into bushing C Capacity of the connection leads and of the voltage indicator to earth U LE = U N / during rated operation in the three-phase system U = U A = Voltage at the capacitive interface of the switchgear or at the voltage indicator Phase comparison test units Phase comparison test unit Make: Pfisterer, type EPV (or other makes) Phase comparison test unit Make: Horstmann, type ORION.0 as combined test unit for Phase comparison Interface testing at switchgear Voltage detection for HR and LRM systems or other makes Siemens HA 5. 00
R-HA5-a eps R-HA5-05 eps Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Components Indicating and measuring equipment Ready-for-service indicator Features Self-monitoring; easy to read Independent of temperature and pressure variations Independent of site altitude Only responds to changes in gas density Option: Alarm switch NO contact for remote electrical indication Gas monitoring Low-voltage compartment Mode of operation For the ready-for-service indicator, a gas-tight measurement box is installed inside the switchgear vessel. A coupling magnet, which is fitted to the bottom end of the measurement box, transmits its position to an outside armature through the non-magnetizable stainless steel 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 insulating capacity, 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. The temperature effect is compensated via the same pressure change in both gas volumes. Low-voltage compartment Accommodates equipment for protection, control, measuring and metering Separated from the highvoltage part, safe-to-touch Low-voltage compartment can be removed, bus wires and control cables are plugged in Option: High low-voltage compartment (60 mm instead of 76 mm) possible HA5-58 eps Control board (detail) with red/green ready-for-service indicator Principle of operation of gas monitoring with ready-for-service indicator Ready-for-service indicator Measurement box Magnetic coupling Red indication: not ready for service 5 Green indication: ready for service Stainless-steel vessel filled with SF 6 -gas, gauge pressure 50 kpa at 0 C 5 Ready-forservice indicator Low-voltage compartment with multifunction protection relay SIPROTEC 7SJ6 (example) Description of the SIPROTEC multifunction protection relays, see page. Siemens HA 5. 00
Fixed-Mounted Circuit-Breaker Switchgear Type NXPLUS C up to kv, SF6-Insulated Components Indicating and measuring equipment The low-voltage compartment can accommodate all customary protection, control, measuring and monitoring equipment available on the market. Examples: Multifunction protection relay SIPROTEC 7SJ600/7SJ60 User-friendly operating program DIGSI for configuration and analysis Communications and bus capability Functions: control, protection, indicating, communications and measuring LCD ( text lines) and keyboard for local operation, configuration and display Four user-programmable LEDs for displaying any desired data Operation and fault indication memory Fault recording Circuit-breaker control Multifunction protection relay SIPROTEC 7SJ6/7SJ6 For stand-alone or master operation Communications and bus capability Functions: control, protection, indicating, communications and measuring LCD ( text lines) for process and equipment data, in the form of a feeder mimic diagram and as text, e.g. for Measuring and metering values Information on status of switchgear and switching device Protection data General indications Alarms Four user-programmable function keys for frequently performed actions Seven user-programmable LEDs for displaying any desired data Keys for navigation in menus and for entering values Multifunction protection relay SIPROTEC 7SJ6 For stand-alone or master operation Communications and bus capability Functions: control, protection, indicating, communications and measuring LCD for process and equipment data, in the form of a feeder mimic diagram and as text, e.g. for Measuring and metering values Information on status of switchgear and switching device Protection data General indications Alarms Four user-programmable function keys for frequently performed actions Fourteen user-programmable LEDs for displaying any desired data Two key-operated switches to switch between local and remote control and interlocked and non-interlocked operation Keys for navigation in menus and for entering values Integrated motor control by special relays with enhanced performance Legend LCD LEDs Key-operated switches Navigation keys 5 Control keys 6 Function keys 7 LCD (text display) 7 7 R-HA5-0 eps R-HA5-0 eps R-HA5-0 eps Multifunction protection relays SIPROTEC Multifunction protection relay SIPROTEC 7SJ600/7SJ60 6 Multifunction protection relay SIPROTEC 7SJ6/7SJ6 5 6 Multifunction protection relay SIPROTEC 7SJ6 Siemens HA 5. 00