Circuit Breaker Accessories
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Circuit Breaker Accessories
Circuit breakers are the central part of air-insulated (AIS) and gas-insulated (GIS) switchgear. High-voltage circuit breakers are mechanical switching devices which connect and break current circuits (operating currents and fault currents) and carry the nominal current in closed position.
As a world market leader, Siemens takes the responsibility to provide circuit breakers which meet the environmental, technological and economic conditions in the various countries worldwide.
|Portfolio:||▪ Live Tank Circuit Breakers,
▪ Dead Tank Circuit Breakers,
▪ Circuit Breakers for GIS
▪ Dead Tank Compact,
▪ Disconnecting Circuit Breaker
|Expertise:||▪ Voltage range from 72.5 kV up to 800 kV
▪ More than 136,000 circuit breakers delivered
▪ More than 150 countries delivered
Few basic components leading to a high diversity of types
Siemens high-voltage circuit breakers, regardless of type or voltage range, are designed in a well proven modular platform concept. This leads to a high diversity of circuit breaker types and to high flexibility with regard to various applications according to our customers’ requirements.
The main components, such as
are identical and based on decades of manufacturing and operating experience. Our GIS switchgear range also includes the same interrupter units, operating mechanisms and control elements. By applying this proven modular design not only at our lead factory in Germany, but also within our global manufacturing network, we are able to fulfill the highest expectations regarding availability and reliability at eminently competitive prices.
All construction types consist ot the same basic components:
1 Interrupter unit
2 Post insulator
4 Control cabinet
5 Operating mechanism cubiche
Our complete 3AP family up to 800 kV and above relies on our arc-quenching principles, either the self-compression or the dynamic self-compression principle using the thermal energy of the arc. Siemens patented this method for arc quenching in 1973 and has continued to develop the technology of the self-compression interrupter unit. In short-circuit breaking operations the actuating energy required is reduced to the energy needed for mechanical contact movement.
For applications up to 245 kV, our 3AP circuit breakers with self-compression principle ensure optimum switching performance under every operating condition.
Dynamic self-compression principle
From 245 kV onwards, the dynamic self-compression principle with two-way moving contacts is utilized in our 3AP type circuit breakers.
If you have any questions concerning mode of operation or other details please do not hesitate to contact us or download information material on our circuit breakers.
Stored-energy spring mechanism
The operating mechanism is a central part of high-voltage circuit breakers. The drive concept of the 3AP circuit breaker family is based on the patented stored-energy spring principle and is identical on all types. The use of such an operating mechanism for voltage ranges of up to 800 kV became appropriate as a result of the development of a self-compression interrupter unit that requires minimal actuating energy. The compact design of this operating mechanism makes it possible to place the stored-energy spring mechanism within the control cubicle in a compact housing.
The mechanism types differ in terms of the number, size and arrangement of the opening and closing springs. Both the closing and opening springs are located inside the operating mechanism, thereby achieving a simple and sturdy device. This design minimizes the number of required moving parts. The use of roller bearings and of the maintenance-free charging mechanism is a prerequisite for reliable operation over decades. Proven design principles such as vibration-isolated latches and load-free isolation of the charging mechanism were retained.
Advantages of the stored-energy spring mechanism:
Electrohydraulic operating mechanism
The electrohydraulic operating mechanism has been used in 3AT and 3AQ circuit breakers for more than 20 years. Even the highest switching voltages are safely brought under control in the shortest possible time and also the most difficult switching tasks can be mastered.
Advantages of the electrohydraulic operating mechanism:
Field of application:
▪ Bushings for transformers and other devices
▪ Grading capacitors
▪ Voltage and current transformers
▪ Cable connections
▪ Surge arresters
▪ Circuit breakers
Characteristics of composite insulators:
▪ Low risk of breakage due to flexible sheds
▪ Easy montage
▪ Low weight
▪ Safety at internal shorts-circuits and earthquakes
▪ No cleaning of silicon housing necessary
▪ Highly resistant to environmental influences and pollution
▪ Decades of operational experience with long rod insulators,
surge arrestors and circuit-breakers
The foundation of quality for Siemens high-voltage circuit breakers begins right in the development of a new product. Switching performance, high voltage stability and performance under normal mechanical loads (wind and short circuits) as well as seismic conditions are simulated and optimized in the outline design phase using computer-aided calculations. The use of parts and assembly units in a large number of breaker types such as live tank, dead tank, as well as GIS leads to a high volume standardization of the main components. Steady and regular amounts of produced units form a continuous production process and ensure the highest standards. Statistical quality control is based on large numbers produced, and hence, a higher validity is achieved.
All 3AP circuit breakers are earthquake-proof up to 0.5 g.
All our circuit breakers are completely type-tested in accordance with latest IEC and ANSI standards before their market launch. In our Berlin factory, we have one of the most modern testing laboratories available which are accredited to EN 45001 and part of the European network of the independent testing organization, PEHLA.
All required facilities are available:
▪ Physics laboratory
▪ High-voltage testing laboratory
▪ High-power testing laboratory
▪ Mechanical testing laboratory
▪ Temperature rise testing laboratory
Other testing laboratories that we work together with are KEMA, CESI, IPH and FGH, which are also part of the European network of independent testing organizations.
Important components are subjected to complete pre-acceptance testing before assembly. The routine test is performed on the assembled circuit breaker. The specification requirements are automatically imported into the computer-aided routine test plan during order processing. This makes sure that fulfillment of every customer requirement is checked before delivery.
Routine testing is performed in accordance with IEC or ANSI and encompasses
the following points at least:
▪ 100 mechanical operations
▪ Closing and opening times
▪ Release and motor currents
▪ Gas monitoring
▪ Testing of control circuits in accordance with the circuit diagram
▪ Voltage drop of the main conducting path
▪ High-voltage testing
▪ 2 kV testing of auxiliary circuits
We provide installation and commissioning on request. We are available 24 hours worldwide.
24h standby duty for the types 3AP, 3AQ and 3AT
Phone: +49 30 386 26659
Full control with circuit breaker accessories
The usage of accessories for Siemens high-voltage circuit breakers can help to reduce the life-cycle-costs of your substation and to increase lifetime of your equipment.
We can provide you with tools, sensor systems and additional equipment that will support your installation, maintenance and operating procedures for your circuit-breakers. All these products have been developed and tested for Siemens breakers.
Controlled switching with PSD02/03
Conventional methods to reduce overvoltages and protect the electrical equipment involve circuit breakers equipped with closing resistors or the installation of surge arresters. Using PSD can replace these additional devices and helps to save costs.
The design is based on more than 10 years of experiences with controlled switching. This includes applications such as capacitor bank and reactor switching, energizing of transformers and uncompensated transmission lines up to 800 kV.
Features at a glance:
The SiCEA01 contact erosion analyzer is used to determine the extent of wear to the circuit breaker contacts. The breaking currents of the circuit breaker are used to determine the contact wear.
Switching operations with currents below the rated normal current are evaluated with the rated normal current.
The contact burn off is calculated using the integral of the circuit breaker breaking currents. The result is compared with the configured reference values. If the result of this comparison exceeds the warning or alarm value, the corresponding signal contact is activated, and the signal light on the contact wear analysis device shows the status.
With this warning or alarm, SiCEA01 shows whether the circuit breaker contact system has already been worn down to a specific level, which allows servicing work to be scheduled in good time.
Features at a glance:
Controlled monitoring with SOLM01
The Siemens SOLM01 on-line monitoring system supervises the status of the circuit breaker by means of sensor technology.
SOLM01 records events, measures momentary values as well as other external parameters and compares them with given reference values. It is able to inform the servicing team automatically about divergences or signs of wear, and calculates trends for the further operational behavior. It optimizes servicing work with regard to corrective and preventive maintenance measures.
The measured data is continuously obtained by the data collector and stored in a database on the Oracle server. The data can be accessed via a web browser on the Intranet/Internet by an unlimited number of authorized users with different rights. Alarm messages can also be sent directly to the SCADA system via relay outputs.
Features at a glance:
Switchgear Tests with ACTAS
ACTAS PXX is a high-precision, portable measuring system which has been specially developed for operating tests on various types of switchgear devices, including circuit breakers, disconnectors and earthing switches, regardless of the type of drive unit. All the electrical and mechanical parameters needed for the assessment of switching performance are measured in real time without either the main contact chamber or the drive unit having to be opened.
With the DYNAMIC Timing function, ACTAS manages to combine extended measurement and analysis functions with improved safety and convenience. With DYNAMIC Timing, measurements can be carried out with earthing on both sides. The result of the measurement is displayed in the form of a curve which visualizes in detail all the events of a switching operation. Even switchgear devices with different contact materials, such as graphite, tungsten or silver, can be tested reliably and precisely.