Totally Integrated Power Distributing Power Economically Gas-insulated medium-voltage switchgear: safe, compact, and reliable siemens.de/mediumvoltage
Totally Integrated Power (TIP) we bring power to the point. A reliable, highly available, and flexible power supply for industrial plants as well as for buildings and facilities forms the basis for both industrial processes and infrastructure solutions. The solution from Siemens is Totally Integrated Power (TIP), our comprehensive power supply portfolio with software and hardware products, complete systems for power supply across all voltage levels, as well as energy management solutions. TIP is closely connected with the industrial and building automation systems, enabling integration into the company s IT systems. In this way, it is possible to fully exploit the complete optimization potential of an integrated solution. TIP satisfies even the maximum requirements of supply-critical plants. Our portfolio is completed by comprehensive support throughout the entire lifecycle, from planning to maintenance. 2
Gas-insulated medium-voltage switchgear from Siemens The right solution As part of Totally Integrated Power, gasinsulated medium-voltage switchgear from Siemens provides a decisive contribution to the sustainable safety of power supply and have been doing so for more than 30 years. We offer a comprehensive range of gas-insulated switchgear for almost any application whether it be for primary or secondary distribution systems. This switchgear stands out in industrial medium-voltage systems, such as in the mining industry or steel manufacture and in applications for wind parks or offshore platforms, as a result of their cost efficiency. They have high levels of availability, are maintenance-free, compact, and sturdy. This means that energy suppliers are best-equipped for the requirements of today and the future. The world-wide need for power will continue to increase over the coming years due to the constant population growth, ongoing urbanization, and new trends such as electro-mobility, for example. This represents a complex challenge for medium-voltage systems: Due to the increasing number of growing urban areas and increasing real estate prices, switchgear is having to become increasingly more compact. In order to achieve climate targets, medium-voltage systems must be able to accommodate increasingly more power in the form of renewable energy. This increasingly requires intelligent switchgear which also has to be both environmentally friendly and sustainable from the point of manufacture through operation up to the point of disposal. In addition to a high level of personal safety the reliability of the switchgear is particularly important for a secure supply during operation. Gas-insulated medium-voltage switchgear from Siemens is the right solution for all of these requirements. Benefits at a glance One-stop-shop Including everything from planning and installation to operation and after-sales service Safety Protection for your investment due to the ability to integrate with intelligent distribution systems Reliability Reliable and expert local support for everything from planning to operation Cost-efficiency Great cost-efficiency due to our climate-independent, long-last-ing, and maintenance-free switchgear Flexibility The right solution for every requirement Advanced technology Minimal space requirements due to compact dimensions Consistency Comprehensive availability of gas-insulated switchgear for primary and secondary distribution systems 3
The flexible multi-talents for use in every power infrastructure Compact, reliable, safe and economical Anywhere where space, maintenancefree design, altitude, climate, or extreme ambient conditions have a great influence, gas-insulated switchgear from Siemens offer the right technology for any application with all the experience of more than 30 years of cutting-edge development. You can profit from our modern, reliable technology by structuring the power supply in your network safely and reliably with sustainable and environmentally friendly systems that you can operate at almost any site regardless of climate, with minimum space requirements and with practically no maintenance. Regarding the integration into upstream control and monitoring or energy management systems: Our switchgear, with your integrated communication modules, will offer precisely the right technology, regardless of whether it is for use in the oil and gas industry, in the metal industry, or in the integration of renewable power, in heavy industry, or in infrastructure such as railway stations, airports, and other buildings. Impressive for energy suppliers Economical and safe: Gas-insulated medium-voltage switchgear from Siemens are impressing power supply companies (EVUs) world-wide due to their extensive personal and operational safety and their cost-efficient, maintenance-free, and trouble-free operation. In addition, power supply companies are benefiting from the compact design of gas-insulated switchgear from Siemens, which facilitate the setup of compact transformer substations or their refitting or retrofitting. 4
Reliable wind parks, both offshore and onshore Wind parks also have specific requirements, not only with respect to the place of use. Our gas-insulated medium-voltage switchgear, with its climate-independent maintenance-free technology and minimal space requirements, enable safe connection of the wind turbine and also the entire wind park to the power grid and thus make a sustainable contribution to environmental protection. Trouble-free in the mining industry If you need maximum availability and reliability under extreme conditions, such as in lignite open-cast mining, then gasinsulated medium-voltage switchgear from Siemens is the first choice. It functions trouble-free around-the-clock also in a dusty atmosphere under the most varied of ambient temperatures and under high mechanical stresses. High-performance in the metal industry The performance demands in metal industry companies are enormous: Connection loads of up to 300 MW this corresponds to a power consumption of more than 300,000 households are common. Our gas-insulated mediumvoltage switchgear can support the safe flow of all processes by reliably switching and distributing large quantities of power. The hardest conditions in the oil and gas industry Exploration and conveyor systems in the oil and gas industry must have a troublefree, safe power supply and require maximum power in the tightest of spaces. Gas-insulated medium-voltage switchgear from Siemens reliably performs its tasks even under extreme conditions. Therefore, they are particularly wellsuited for oil and gas applications because the highest operational safety and availability are necessary. Safety and compactness for modern infrastructure Modern infrastructure such as airports and office buildings are placing increasingly higher demands on safety, flexibility, and less environmental pollution over the entire service life. Our compact, gasinsulated medium-voltage switchgear in this case helps to support the establishment of safe medium-voltage power distribution and reliably provides power to large consumers and the low-voltage system. For almost any application Gas-insulated mediumvoltage switchgear from Siemens also ensures optimum current flow in other applications such as computing centers or branches such as the automotive industry, chemical industry, and the food and beverage industry. 5
Impressive advantages Future-proof investment In these times of growing cost pressure, it is even more important to decide on the right technology, especially when switchgear represents an investment for decades. Compactness, performance capability, climate independence, and cost-efficiency in this case supplement the central aspects of gas-insulated medium-voltage switchgear from Siemens making it a sound investment for the future; it also provides optimum personal and functional safety and reliable, maintenance-free operation. In addition, our service contributes to power distribution: Within the scope of Totally Integrated Power, we offer you much more than products, systems, and solutions for power distribution. We will support you through the entire process and life-cycle of switchgear starting from the initial idea to completion and after-sales service. We offer tools for planning of system architecture and its switchgear, support the specifications of energy management and monitoring, and we offer training and education in the perfect use of our product line. 6
Compact A gas-insulated medium-voltage switchgear also assures you many advantages in the future due to the technically superior solutions including protection of your investments from the target-oriented switchgear extension. Thanks to its compact construction, it offers you space savings and provides the space for new functions or the compact design of transformer substations. Space savings are up to 70 %, e.g. for a 36 kv switchgear for primary distribution. Maintenance-free A cost-efficient operation is one of the key factors for system operators. This also includes particularly long maintenance intervals. Hermetically-sealed, welded switchgear vessels made of stainless steel (sealed pressure system) ensure tightness for the entire service life as per IEC 62271-200, which means that maintenance of function is normally determined by the service life of the switchgear. This is determined, for example, for vacuum circuit-breakers under normal ambient conditions as per IEC 62271-1 with up to 10,000 operating cycles without relubrication or readjustment. Our switchgear is therefore practically maintenance-free which ensures maximum availability with extensive cost-efficiency. Advantages, that mean real money for every switchgear operator. Climate-independent Even under extreme ambient conditions, such as salty air, high air humidity, conductive dust or condensation, our gasinsulated switchgear has proven to be the ideal solution and, depending on the switchgear design, will fulfill your needs regardless of the altitude. They are reliable, owing to the superior technology which ensures the safety of your distribution system. Intelligent In the age of intelligent grids, so-called Smart Grids, stations must be able to integrate smoothly into the new grid control structures. With respect to integration into such upstream control and energy management systems: There are a variety of communication and telecontrol units available for implementing an interface via various protocols (e.g. IEC 61850, IEC 60870-5-101/104, PROFIBUS, MODBUS, DNP). To do this, medium-voltage switchgear should also be equipped with the necessary actuator (e.g. motor drives) and sensors. Depending on the configuration, errors can be localized more quickly, and measured values can be gathered and transferred. In addition, load curves can be recorded, overloads can be detected early on, decentralized supply can be controlled, and losses in the distribution system can be minimized. 7
Personal safety Gas-insulated medium-voltage switchgear from Siemens is very safe. They meet international standards and specifications for switchgear and are internal arc classified in accordance with IEC 62271-200. Thereby, a high level of personal safety is achieved, among other things, by design measures such as the hermetically sealed, shock-proof primary enclosure and the metal enclosure of all high-voltage conducting parts, including cable terminations, busbars, and voltage transformers, as well as earthed sheathing. In addition to standard protection class IP 65 for all high-voltage parts, the primary circuit ensures advanced control logic to provide additional safety. Logical mechanical interlocks prevent maloperation. In addition, safe isolation from supply can be verified with a capacitive voltage detecting system. All operating mechanisms and auxiliary switches are accessible outside the primary enclosure without danger, while operation is possible, depending on the system, only with the switchgear enclosure closed. Security of operation Cost-efficient goals go hand-in-hand with a high level of operational safety. Gasinsulated switchgear from Siemens will support you with a largely maintenancefree, stable, and tested design for maximum availability even under extreme environmental conditions. Thus, the hermetically sealed primary enclosure makes the switchgear insensitive to environmental influences but also to the penetration of foreign objects or small animals. No significant electrical fields occur outside the enclosure, which means that no partial discharge can occur in the long term. The electrical and thermal stresses of the current transformers as well as the low-voltage components are practically zero. Environmentally responsible Our manufacturing plants are certified in accordance with DIN EN ISO 14001 we place particular value on the preservation of resources in all of our processes. This also means that we select environmentally compatible materials, even at the product development phase, and minimize the material and energy consumption through production-friendly development. Thus, our gas-insulated switchgear has a small footprint not only because of the compact design but also from an ecological perspective. 8
After its service life, lasting decades, is over, we take on the responsibility of recycling the switchgear in accordance with the valid standards. Reliable Gas-insulated medium-voltage switchgear from Siemens are of high quality and perfectly tailored to the specific customer requirements and the respective place of use of the switchgear. We achieve optimum adaptation to local challenges through our internationally constituted development teams and customer-oriented manufacturing centers, which are certified according to DIN EN ISO 9001 and 14001. Crucial for highquality, however, are the excellent training and education of our employees and the use of innovative technologies such as highly precise laser welding systems that we use to ensure that the switchgear vessels are gas-tight. We check every switchgear vessel with helium in the vacuum test cell for leaks. Our goal for each individual switchgear vessel is Sealed for life. We also do not compromise with crucial components such as insulation parts made of cast resin; instead, we produce them ourselves and ensure their quality and function 100 % by X-ray and tightness, high-voltage, and partial discharge testing. Competent local support Our experts provide support and advice world-wide regarding the optimum solutions for your secondary distribution system. You will benefit, among other things, from our specific know-how in project management and our financing services and also from the fact that our experienced customer service representatives consider all the relevant aspects of things such as safety, logistics, and environmental protection in their quotation. Support for planners and designers As a planner or designer, you will profit from Consultant Support for Totally Integrated Power (TIP). These technical experts support you in various planning phases with software tools, online tender specification texts, planning manuals, and with professional advice when planning an integrated electrical power distribution in infrastructure, buildings, and industry. For more information, please see: www.siemens.com/tip-cs 9
Portfolio overview Here we have a clear and comprehensive switchgear program for medium-voltage: Your requirements and the appropriate solution from Siemens. Our matrix will also be your guide for the correct gas-insulated medium-voltage switchgear from Siemens. Depending on the IEC or ANSI standard, you will find the suitable products for your requirements by selecting the appropriate combination of distribution level, busbar system, as well as the basic electric parameters at a glance. 10
Selection matrix Electrical data (max.) Page Standard Distribution level Busbar system Switchgear type U r [kv] I k [ka] I Busbar [A] I Feeder [A] 7.2 12 15 17.5 24 27.5 36 40.5 20 25 31.5 40 IEC Primary distribution level Single 8DA10 5000 2500 12 NXPLUS 2500 2000 13 NXPLUS C 2500 2000 14 2500 2500 14 Double 8DB10 5000 2500 12 NXPLUS 2500 2500 13 NXPLUS C 2500 1250 14 Single SIMOSEC 1) 1250 1250 15 Secondary distribution level Single NXPLUS C 2500 2000 14 2500 2500 14 8DJH/ 8DJH Compact 630 630 16 18 630 630 16 18 8DJH 36 630 630 19 SIMOSEC 1) 1250 1250 15 Wind power systems Single NXPLUS C Wind 1000 1000 20 Traction power supply (system) 8DA11/8DA12 3150 2500 21 Selection matrix Electrical data (max.) Page Standard Distribution level Busbar system Switchgear type U r [kv] I k [ka] I Busbar [A] I Feeder [A] 8.25 13.8 15.0 27.6 38 40.5 20 25 31.5 40 ANSI Primary distribution level Single 8DA10 5000 2500 22 Double 8DB10 5000 2500 22 1) Air-insulated switchgear with gas-insulated switching devices 11
8DA10/8DB10 The reliable switchgear for meeting high demands with single-pole metal enclosure of the phases for a primary distribution level up to 40.5 kv Technical features Rated values up to Rated frequency Busbar current up to Feeder current up to Busbars Insulation Switchgear vessel Switchgear type 40.5 kv, 40 ka, 3 s 50/60 Hz 5000 A 2500 A Single and double busbars Gas-insulated Sealed, single-pole Factory-assembled, type-tested, single-pole, metal-enclosed switchgear as per IEC 62271-200 Modular and extendable as an individual panel Classification as per IEC 62271-200 Partition class PM Loss of service continuity category LSC 2 Accessibility of compartments Busbar compartment: Tool-based Switching device compartment: Cable compartment: Tool-based Tool-based Internal arc classification IAC A FLR 40 ka, 1 s Dimensions Panel width Panel height Panel depth mm 2350 mm (standard), 2700 mm (option) SBB 1) : 1625 mm, DBB 2) : 2665 mm For additional information, refer to Catalog HA 35.11 Product range (excerpts) Circuit-breaker panel Disconnector panel Bus sectionalizer Circuit-breaker panel Bus sectionalizer Bus coupler 8DA10 single busbar 8DB10 double busbar HA35-2661a eps 2350 850 275 380 380 1625 80 1145 80 320 405 320 410 45 70 45 HA35-2667 eps 2350 850 275 360 360 360 360 360 2665 80 2185 80 320 320 410 70 45 HA35-2668 eps 2350 850 275 360 360 360 360 360 2665 80 2185 80 320 410 320 45 70 HA35-2669 eps 2350 850 275 360 360 360 360 360 2665 80 2185 80 320 405 320 70 140 45 210 1 2 3 4 410 140 45 210 1 2 3 4 45 45 210 1 2 3 4 45 45 210 1 2 3 4 12 1) SBB: single busbar 2) DBB: double busbar
NXPLUS Strong performance in a three-pole metal enclosure for high voltage and short-time withstand current for a primary distribution level up to 40.5 kv Technical features Rated values up to 40.5 kv, 31.5 ka, 3 s 36 kv, 31.5 ka, 3s Rated frequency 50/60 Hz 50/60 Hz Busbar current up to 2500 A 2500 A Feeder current up to 2000 A 2500 A Busbars Single busbar Double busbar Insulation Switchgear vessel Switchgear type Gas-insulated Sealed Factory-assembled, type-tested, metal-enclosed switchgear as per IEC 62271-200 Modular and extendable as an individual panel Classification as per IEC 62271-200 Partition class PM Loss of service continuity category LSC 2 Accessibility of compartments Busbar compartment: Tool-based Switching device compartment: Non-accessible Internal arc classification Cable compartment: IAC A FLR 31.5 ka, 1 s Dimensions Panel width depends on panel type mm, 900 mm Panel height SBB 1) : 2450 mm, DBB 2) : 2 mm Panel depth SBB 1) : 1 mm, DBB 2) : 1840 mm For additional information, refer to Catalog HA 35.51 Tool-based Product range (excerpts) Circuit-breaker panel Circuit-breaker panel Bus sectionalizer Circuit-breaker panel Bus sectionalizer Bus coupler AK 3) SBB 1) IK 4) SBB 1) SBB 1) IK 4) DBB 2) DBB 2) DBB 2) 1) SBB: single busbar 2) DBB: double busbar 3) AK: Outside cone 4) IK: Inside cone 13
NXPLUS C Strong performance in a three-pole metal enclosure for flexible use for primary and secondary distribution levels up to 24 kv Technical features Rated values up to 15 kv, 31.5 ka, 3 s 24 kv, 25 ka, 3 s Rated frequency 50/60 Hz 50/60 Hz Busbar current up to 2500 A 2500 A Feeder current up to 2500 A 2000 A Busbars Insulation Switchgear vessel Switchgear type Single and double busbars Gas-insulated Sealed Factory-assembled, type-tested, metal-enclosed switchgear as per IEC 62271-200 Modular and extendable as an individual panel Classification as per IEC 62271-200 Partition class PM Loss of service continuity category LSC 2 Accessibility of compartments Busbar compartment: Tool-based Switching device compartment: Non-accessible Internal arc classification Cable compartment: Includes HV HRC fuse: Without HV HRC fuse: 7.2 kv to 15 kv: IAC A FLR 31.5 ka, 1 s Dimensions Panel width depends on panel type mm, 900 mm with 2000 A and 2500 A Panel height 2250 mm, 2550 mm with 2000 A and 2500 A Panel depth 1225 mm For additional information, refer to Catalog HA 35.41 Interlock-controlled and tool-based Tool-based 17.5 kv to 24 kv: IAC A FLR 25 ka, 1 s Product range (excerpts) Circuit-breaker panel Disconnector panel Bus sectionalizer Switch-disconnector panel Contactor panel Metering panel 14
SIMOSEC Air-insulated switchgear with gas-insulated switching device vessel for secondary and primary distribution levels up to 24 kv Technical features Rated values up to 24 kv, 20 ka, 3 s 24 kv, 25 ka, 2 s Rated frequency 50/60 Hz 50/60 Hz Busbar current up to 1250 A 1250 A Feeder current up to 1250 A 1250 A Busbars Insulation Switchgear vessel Switchgear type Single busbar Air-insulated Switching device vessel gas-insulated, sealed Factory-assembled, type-tested, metal-enclosed switchgear as per IEC 62271-200 Modular and extendable as an individual panel Classification as per IEC 62271-200 Partition class PM Loss of service continuity category Feeder panels R, T, L: LSC 2 Metering panels M, bus riser LSC 1 panels H, cable panels K: Accessibility of compartments Busbar compartment: Tool-based Switching device compartment: Non-accessible Internal arc classification (option) Switching device compartment with removable circuit-breaker: Cable compartment: Includes HV HRC fuse: Without HV HRC fuse: IAC A FL/FLR 21 ka, 1 s Accessible, interlock-controlled Interlock-controlled, tool-based Interlock-controlled, tool-based Dimensions Panel width depends on panel type 375 mm, 500 mm, 750 mm Panel height 1750 mm (standard), 2100 mm and 2300 mm (option) Panel depth 1020 mm /1170 mm, 1080 mm /1230 mm; depending on switchgear design For additional information, refer to Catalog HA 41.43 Product range (excerpts) Ring-main panel R Transformer panel T Circuit-breaker panel L Circuit-breaker panel L1 Circuit-breaker panel L1(r) Metering panel M Panel width 500 mm Panel width 750 mm Panel width 750 mm 15
8DJH One that fits all flexible with individual panels for a secondary distribution level up to 24 kv Technical features Rated values up to 17.5 kv, 25 ka, 1 s 24 kv, 20 ka, 3 s Rated frequency 50/60 Hz 50/60 Hz Busbar current up to 630 A 630 A Feeder current up to 630 A 630 A Busbars Insulation Switchgear vessel Switchgear type Single busbar Gas-insulated Sealed Factory-assembled, type-tested, metal-enclosed switchgear as per IEC 62271-200 Modular and extendable, individual panels and panel blocks freely configurable Classification as per IEC 62271-200 Partition class PM Loss of service continuity category Feeder panels R, T, L: LSC 2 Metering panel M, LSC 1 cable panel K or K(E): Accessibility of compartments Busbar compartment: Non-accessible Switching device compartment: Non-accessible Cable compartment: Interlock-controlled Internal arc classification (option) IAC A FL/FLR 21 ka, 1 s Dimensions Panel width depends on panel type 310 mm, 430 mm, 500 mm, 620 mm, 840 mm Panel height Choice of 1200 mm, 1400 mm, or 1700 mm (each without low-voltage compartment) Height, low-voltage compartment Choice of 200 mm, 400 mm, mm, or 900 mm (option) Panel depth For additional information, refer to Catalog HA 40.2 775 mm, 890 mm (includes rear pressure relief duct) Product range, individual panels (excerpts) Cable feeder K or K(E) Ring-main feeder R Transformer feeder T Circuit-breaker feeder L Metering panel M 16
8DJH One that fits all efficient with panel blocks, can also be used in intelligent transformer substations for a secondary distribution level up to 24 kv Technical features Rated values up to 17.5 kv, 25 ka, 1 s 24 kv, 20 ka, 3 s Rated frequency 50/60 Hz 50/60 Hz Busbar current up to 630 A 630 A Feeder current up to 630 A 630 A Busbars Insulation Switchgear vessel Switchgear type Single busbar Gas-insulated Sealed Factory-assembled, type-tested, metal-enclosed switchgear as per IEC 62271-200 Modular and extendable (option), 2, 3, and 4 panel blocks Classification as per IEC 62271-200 Partition class PM Loss of service continuity category Feeder panels R, T, L: LSC 2 cable panel K or K(E): LSC 1 Accessibility of compartments Busbar compartment: Non-accessible Switching device compartment: Non-accessible Cable compartment: Interlock-controlled Internal arc classification (option) IAC A FL/FLR 21 ka, 1 s Dimensions Block width depends on the number and types of panels 620 mm to 1720 mm Block height Height, low-voltage compartment (option) Block depth For additional information, refer to Catalog HA 40.2 Choice of 1200 mm, 1400 mm, or 1700 mm (each without low-voltage compartment) Choice of 200 mm, 400 mm, mm, or 900 mm 775 mm, 890 mm (includes rear pressure relief duct) Compact telecontrol unit for integrating in Smart Grids Product range, panel blocks (excerpts) Panel block KT Panel block RT Panel block RRT Panel block RRL Panel block RRRL 17
8DJH Compact Maximum functionality on minimum space even for intelligent transformer substations for a secondary distribution level up to 24 kv Technical features Rated values up to 17.5 kv, 25 ka, 1 s 24 kv, 20 ka, 3 s Rated frequency 50/60 Hz 50/60 Hz Busbar current up to 630 A 630 A Feeder current up to 630 A 630 A Busbars Insulation Switchgear vessel Switchgear type Single busbar Gas-insulated Sealed Factory-assembled, type-tested, metal-enclosed switchgear as per IEC 62271-200 3, 4, and 6 panel blocks Classification as per IEC 62271-200 Partition class PM Loss of service continuity category LSC 2 Accessibility of compartments Busbar compartment: Non-accessible Switching device compartment: Non-accessible Cable compartment: Interlock-controlled Internal arc classification IAC A F/FL/FLR 21 ka, 1 s Dimensions Block width depends on a number and types of panels Panel height Panel depth 620 mm, 700 mm, 930 mm, 1010 mm, 1240 mm, 1400 mm Choice of 1400 mm or 1700 mm 775 mm Integration into Smart Grid 8DJH Compact with telecontrol unit in a transformer substation Product range, panel blocks Panel block RRT Panel block RRT-R Panel block RRT-RRT Panel block RRT Panel block RRT-R Panel block RRT-RRT 1400 mm overall height 1700 mm overall height 18
8DJH 36 Modular switchgear for flexible application for a secondary distribution level up to 36 kv Technical features Rated values up to Rated frequency Busbar current up to Feeder current up to Busbars Insulation Switchgear vessel Switchgear type 36 kv, 20 ka, 3 s 50/60 Hz 630 A 630 A Single busbar Gas-insulated Sealed Factory-assembled, type-tested, metal-enclosed switchgear as per IEC 62271-200 Modular and extendable, individual panels and panel blocks Classification as per IEC 62271-200 Partition class PM Loss of service continuity category Feeder panels R, T, L: LSC 2 Metering panel M, cable panel K: LSC 1 Accessibility of compartments Busbar compartment: Non-accessible Switching device compartment: Non-accessible Cable compartment: Interlock-controlled Internal arc classification IAC A FL/FLR 20 ka, 1 s Dimensions Panel width depends on panel type 430 mm, 500 mm, 590 mm, 1100 mm Panel height 1 mm (without low-voltage compartment) Panel depth 920 mm or 980 mm, 1025 mm or 1085 mm (includes rear pressure relief duct) Block width depends on panel type 1360 mm or 1450 mm Height, low-voltage compartment Choice of 200 mm, 400 mm, or mm (option) For additional information, refer to Catalog HA 40.3 Product range (additional switchgear panel and block variants in preparation) Ring-main feeder R Transformer feeder T Panel block RRT Circuit-breaker feeder L Metering panel M Panel block RRL F_8DJH36-2300_Fr-01 F_8DJH36-2300_Sa 19
NXPLUS C Wind Reliable connection between wind turbines and the power grid offshore and onshore up to 36 kv Technical features Rated values up to Rated frequency Busbar current up to Feeder current For disconnector panel up to For circuit-breaker panel up to For ring-main panel up to Busbars Insulation Switchgear vessel Switchgear type 36 kv, 20 ka, 3 s and 25 ka, 1 s 50/60 Hz 1000 A 1000 A 800 A 630 A Single busbar Gas-insulated Sealed Factory-assembled, type-tested, metal-enclosed switchgear as per IEC 62271-200 Modular and extendable as an individual panel Classification as per IEC 62271-200 Partition class PM Loss of service continuity category LSC 2 Accessibility of compartments Busbar compartment: Tool-based Switching device compartment: Non-accessible Cable compartment: Tool-based Internal arc classification IAC A FL/FLR 25 ka, 1 s Dimensions Panel width depends on panel type 450 mm, mm Panel height 1900 mm Panel depth 1000 mm For additional information, refer to Catalog HA 35.61 Product range Circuit-breaker panel Ring-main panel Disconnector panel 20
8DA11/8DA12 Safe and flexible AC traction power supply for railway operation in a single-pole or double-pole design up to 27.5 kv Technical features Rated values up to Rated frequency Busbar current up to Feeder current up to Insulation Switchgear vessel Switchgear type 27.5 kv. 31.5 ka, 3 s 50/60 Hz 3150 A 2500 A Gas-insulated Sealed, single-pole Factory-assembled, type-tested, single-pole, metal-enclosed switchgear as per IEC 62271-200 Modular and extendable as an individual panel Classification as per IEC 62271-200 Partition class PM Loss of service continuity category LSC 2 Accessibility of compartments Busbar compartment: Tool-based Switching device compartment: Tool-based Cable compartment: Tool-based Internal arc classification IAC A FLR 31.5 ka, 1 s Dimensions Panel width mm Panel height 2350 mm (standard), 2700 mm (option) Panel depth single-pole: 865 mm, double-pole: 1245 mm For additional information, refer to Catalog HA 35.11 Product range (excerpts) Circuit-breaker panel Disconnector panel Bus sectionalizer Circuit-breaker panel Disconnector panel Bus sectionalizer 8DA11 single-pole panels 8DA12 double-pole panels 21
8DA10/8DB10 ANSI design Metal-enclosed switchgear for high availability due to single-pole switchgear design for a primary distribution level up to 40.5 kv Technical features Rated values up to Rated frequency Busbar current up to Feeder current up to Busbars Insulation Switchgear vessel Switchgear type 40.5 kv, 40 ka, 3 s 50/60 Hz 5000 A 2500 A Single and double busbars Gas-insulated Sealed, single-pole Factory-assembled, type-tested, single-pole, metal-enclosed switchgear as per IEC 62271-200 Modular and extendable as an individual panel Includes camera system for visual monitoring of the switch positions of the disconnector switch and grounding switch Includes UL certification Classification as per IEEE Std C37.20.7 TM 2007 Accessibility of compartments Internal arc classification Switchgear in enclosed electrical operating areas; Access for authorized personnel only Type 2B, 40 ka, 0.5 s Dimensions Panel width Panel height Panel depth mm 2350 mm (standard), 2700 mm (option) SBB 1) : 1625 mm, DBB 2) : 2665 mm For additional information, refer to Catalog HA 35.11 Product range (excerpts) Circuit-breaker panel Disconnector panel Bus sectionalizer Circuit-breaker panel Bus sectionalizer Bus coupler 8DA10 single busbar ANSI design 8DB10 double busbar ANSI design HA35-2661a eps 2350 850 275 380 380 1625 80 1145 80 320 405 320 410 45 70 45 HA35-2667 eps 2350 850 275 360 360 360 360 360 2665 80 2185 80 320 320 410 70 45 HA35-2668 eps 2350 850 275 360 360 360 360 360 2665 80 2185 80 320 410 320 45 70 HA35-2669 eps 2350 850 275 360 360 360 360 360 2665 80 2185 80 320 405 320 70 140 45 210 1 2 3 4 410 45 210 1 2 3 4 140 45 45 210 1 2 3 4 45 45 210 1 2 3 4 22 1) SBB: single busbar 2) DBB: double busbar
Siemens AG Energy Management Medium Voltage & Systems Mozartstr. 31 C 91052 Erlangen, Germany www.siemens.com/mediumvoltage For more information, please contact our Customer Support Center. Phone: +49 180 524 7000 Fax: +49 180 524 2471 (Charges depending on provider) E-mail: support.energy@siemens.com Article No.: EMMS-B10011-00-7 Printed in Germany 07.15 2.0 1400/72718 Subject to change 2015 Siemens. All rights reserved. The information provided in this brochure contains descriptions or characteristics of performance which in case of actual use do not always apply as described or which may change as a result of further development of the products. An obligation to provide the respective characteristics shall only exist if expressly agreed in the terms of contract. Read the QR code for further information.