- Improved mechanical and electrical design for Sinamics S120 Chassis-2
- Chassis with smaller standard footprint and up to 60 percent lower width
- Benefits of innovated Sinamics S120 Chassis-2 applied to type-tested ready-to-use cabinet solution Sinamics S120 Cabinet Modules-2
Siemens has adapted the electrical and mechanical design of the Sinamics S120 Chassis-2 to meet today’s and tomorrows market requirements. The new frequency converters are designed to meet the very highest demands with state-of-the-art components, an innovated cooling concept with speed controlled fan and is like always type and system tested to ensure the very highest reliability and availability.
On the first day of the Hannover Messe, April 1, Klaus Helmrich welcomed you to the annual Siemens Press Conference. As member of the Managing Board of Siemens AG, Klaus Helmrich is responsible for the Digital Industries Operating Company. The Press Conference took place at 6:30 PM in the Trade Fair's Convention Center, Room 1 A/B.Mr. Helmrich talked about the latest developments of digitalization and the next step towards the digital transformation in the manufacturing and process industries under the theme "Digital Enterprise – Thinking industry further!".
- Two back-to-back links with a transmission capacity of 500 MW each ensure a reliable electricity supply of Bangladesh's population and growing economy
- HVDC Classic technology helps stabilize the connected systems in the event of grid disturbances
- The high capacity power link helps to avoid transmission bottlenecks
In June 2018, Siemens has fully commissioned the second block of the high-voltage direct-current (HVDC) back-to-back link in Bheramara, Bangladesh, to connect the electricity supply networks of India and Bangladesh with a transmission capacity of up to 500 Megawatts (MW). Block 1 is in operation since 2013 and offers a transmission capacity of up to 500 MW. With block 1 & 2 operating in parallel the Bheramara HVDC back-to-back link has a capacity of up to 1000 MW – the highest reliable power capacity in Bangladesh. On July 27th, 2018, the trial run was successfully completed; however, Block 2 has been put into commercial operation since July 2nd, 2018, to support the customer's operating needs. From Bheramara at the Western border of Bangladesh, the 230-kilovolt (kV) grid of the country will be connected via a substation and overhead lines to India's 400-kV grid.
- New low-voltage motor Simotics SD Pro suitable for mains-fed and converter operation with voltages up to 690 volts
- Multi-voltage capability and reliable adherence to efficiency class IE3 at 50 and 60 hertz
- Industry-specific and country-specific certificates for global use
Simotics SD Pro completes the next generation of low-voltage Simotics SD motors from Siemens. The new variant is equally suited for mains-fed operation or for use with a converter for voltages up to 690 volts (V). There is generally no need to use special filters at the converter output. The Simotics SD Pro motors reliably fulfill the requirements for compliance with efficiency class IE3, irrespective of whether they are operated at 50 or 60 hertz (Hz). Used in conjunction with a comprehensive range of industry-specific and country-specific certificates, they can be used in all the world's most important regions and markets, and also in wide-ranging different plant configurations. The Simotics SD Pro offers the bonus of multi-voltage capability, making it ideal for series production by OEMs. The motors can be stably operated with all power supplies in common use around the world, and fulfill the requirements for compliance with the respective efficiency class at all operating points. This motor variant operates with the utmost reliability and efficiency under even the toughest enviromental conditions such as those prevailing in the oil and gas industry. Typical applications for the low-voltage motors include pumps, compressors, fans, cranes and hoists, conveyors, chippers, coilers, grinders, shears and rolling stands.
- Scalable uniform-topology power supply and drive solutions
- Customized configuration based on practically tested, standardized components such as Sinamics
- High level of resilience, availability and service friendliness
- Up to zero emissions depending on drive configuration
Siemens is expanding its portfolio of green ship propulsion systems by adding a new member to the Siship BlueDrive Family: Siship BlueDrive Eco. Besides by integrating battery systems produced in-house, the company is now able to offer a scalable and flexible solution to cover every propulsion requirement, with different power graduations for small to medium-sized propulsion systems from 5 kilowatts (kW) in auxiliary mode up to 5.5 megawatts (MW) for the main drive – from Siship BlueDrive Eco through to Siship BlueDrive PlusC. The solutions can be configured to individual customer specifications and are based on practically tested standardized components such as Sinamics converters. With its Siship BlueDrive, Siemens provides an efficient, environmentally friendly propulsion solution providing a high level of reliability, availability and service friendliness, with emissions down as low as zero depending on the drive configuration.
- Innovative woodworking control system
- Digitalization boosts productivity and flexibility
Under the banner "Digital Enterprise – Thinking industry further", Siemens is showcasing an extensive portfolio of innovative control and automation solutions for digitalizing the entire value chain in the woodworking and wood processing industry at the Ligna 2019 in Hannover from May 27-31, 2019 in Hall 16 at Booth C14.
In an era of consumer-oriented production and economic uncertainty, industrial companies are constantly facing new challenges. We're integrating cutting-edge technologies like artificial intelligence, Edge and Cloud computing, and Industrial 5G into the Digital Enterprise. This is how we're enabling the intelligence that’s required for the production of customized products. On Wednesday, March 4, the CEOs of Digital Industries presented technological innovations as well as current product highlights. They showed numerous specific examples to demonstrate how companies need to think and act in ecosystems in order to implement Industrie 4.0. We also demonstrated how we’re combining the latest technologies with our domain expertise to make our solutions for the digital transformation more and more market-specific.
- "Creating the most from wind – discover the value of digitalization" the Siemens slogan on its booth at Husum Wind 2017
- Digitalization and engineering efficiency in focus
- New wind converter portfolio, specifically for wind turbines up to ten megawatts
Under the slogan "Creating the most from wind – discover the value of digitalization", digitalization and engineering efficiency are main themes of this year's Siemens presentation at Husum Wind. The digitalization focuses on the Simatic WinCC Open Architecture Scada System, the cloud-based MindSphere open IoT operating system, and industrial communication: for efficient storage and analysis of large quantities of data, from condition monitoring to the operational optimization of wind energy plants. The company is exhibiting a wide range of tools for engineering efficiency, for example: libraries for controlling a wide range of turbine types, simulation tools for creating prototypes and models, planning tools with extensive CAx data, and engineering tools for the efficient automation of wind turbines. The focus on engineering efficiency also includes a busway system for safe, efficient power transmission, compact, gas-insulated medium voltage switchgear, components and solutions for the pitch and yaw system, and a new series of compact wind converters, specifically for wind turbines up to ten megawatts.
- The Simatic S7-1500 Advanced Controller portfolio has two new technology CPUs for motion control tasks
- Standard, safety and motion control functionalities for gearing and camming up to the control of kinematics
- Even challenging motion control tasks can be easily handled in combination with Sinamics servo drive systems
- The "Simatic Safe Kinematics" software library safely monitors kinematics in space – to protect the machine operator
Siemens has expanded its Simatic S7-1500 Advanced Controller portfolio for challenging automation applications to include two new technology CPUs that combine standard, safety and motion control functionalities in a single device. The 1515SP PC2 T CPU and fail-safe 1515SP PC2 TF CPU complement the range of Open Controllers. They are suitable for motion control tasks such as gearing and camming, or the control of kinematics with up to four axes – for example for handling applications, such as Pick & Place, Cartesian Portal, Delta Picker and Scara robots. Even challenging motion control tasks can be easily handled in combination with the Sinamics V90 PN, S210 and S120 servo drive systems.
- Firmware 4.8 enables Sinamics S120 converters to operate with synchronous reluctance motors
- System operation with or without position sensor using new Sinamics reluctance control license
- Durable in any operating environment due to field-oriented vector control
- High energy efficiency even at low speeds
Firmware version 4.8 allows Simotics synchronous reluctance motors to also be operated with Sinamics S120 converters, enabling them to benefit from the complex functionalities of the modular S120 product portfolio. The new Sinamics reluctance control license used in combination with the Sinamics Booksize Modules means that precise drive control down to a complete standstill is now possible with and without a position sensor. This applies both for motor and generator operation. Field-oriented vector control across the whole of the operating range makes for a tangibly more robust drive system. Unlike U/f-based methods, for instance, any possibility of motor stalling in the event of load jumps is excluded. Sensorless control also enhances the energy efficiency of the drive, as even in the low speed range it allows the achievement of low values normally only possible using a sensor.