- Sale for price of €2.025 billion
- Another step in executing Vision
2020+ strategy for becoming a focused technology company
- New ownership structure offers Flender
optimal growth and development opportunities
- Long-term and reliable commitments agreed
upon for Flender’s employees and German locations
The Managing
Board and Supervisory Board of Siemens AG have approved the sale of Flender GmbH
– a world-leading supplier of mechanical and electrical drive systems – to Carlyle.
The contracting parties signed a corresponding agreement today. The price is €2.025 billion (enterprise value). Siemens
recently gave its energy business independence through a public listing. By
selling Flender, the company is now promptly taking another important step in
the rigorous execution of its Vision 2020+ strategy for enabling Siemens
to become a focused technology company. Carlyle’s plans – following Flender’s successful
reorientation – are to further accelerate its growth and fully develop its
strengths through more independence and greater leeway for decisions. The sale also
makes it possible to forgo the originally planned spin-off and public listing
and thus offers a faster track to clarity for a successful future of Flender. The
transaction is expected to close in the first half of 2021 and is subject to
foreign-investment and antitrust approvals.
- Siemens is the exclusive global sales partner for Moby.Check in the process industry
- Simple functional solution offers advantages for mobile servicing and maintenance procedures as well as for production and logistic operations in the process industry
- Audit-proof storage of testing and maintenance tasks
- Stand-alone solution can be integrated easily into existing maintenance or ERP systems
Siemens and Log.Go.Motion - a specialist in the digitalization of processes in industry and logistics - have concluded a cooperation agreement.Effective immediately, Siemens is the exclusive global third-party distributor for the Moby.Check software solution within the process industry. Moby.Check can be used to create, control, and monitor individual digital inspection checklists for servicing and maintenance procedures as well as for production and logistics processes. The software system has been developed for global use in industry.
- Robotic fiber placement and 3D printing enable disruptive breakthroughs in today’s manufacturing processes thanks to the advantages promised by Industry 4.0, the Digital Twin, higher robotic intelligence and complex motion control.
Siemens and Ingersoll Machine Tools have expanded their decade-long partnership to support the Rockford, IL-based machine tool company of Camozzi Group on its digital journey of creating digital twins of its products and expanding into new markets. Based upon extensive experience in heavy machine tool building, Siemens cutting-edge technologies in hardware complement Ingersoll Machine Tools’ successful journey into the new market of additive manufacturing and have pushed the boundaries for industrial robots for the aerospace market with its entry-level robotic platforms MasterPrint Robotic™ and MasterPrint Continuous Filament™.
Connected and self-driving vehicles are on the horizon. Autonomous taxis and minibuses could cover the last mile between homes and public mass transit and long-distance transport hubs, helping make private cars superfluous in cities and relieving congestion. In rail transport as well, fully automated systems and connectivity can help satisfy the rapidly growing demand for mobility. Making vehicles and infrastructure more intelligent can ensure better availability and make mobility safer. All this adds up to vastly improved urban environments.
Siemens is working with municipalities, public transit authorities and research institutes to develop these transport concepts.
- Siemens Mobility intends to acquire Aldridge Traffic Controllers (ATC) based in Sydney, Australia
- ATC is a traffic controller provider with manufacturing and engineering competencies as well as a licensed SCATS® software distributor
- ATC is a main player in the Asia-Pacific market for urban traffic management, where SCATS® is the predominant technology
- The intended acquisition will allow Siemens Mobility ITS to enhance its core business, gain access to new customers and to expand its footprint
- Siemens Mobility will further implement its strategy for ITS to reduce congestion, increase safety and comfort and improve air quality in cities around the world
- The acquisition is subject to regulatory approval by the respective authorities
Siemens Mobility has initiated proceedings for the acquisition of Aldridge Traffic Controllers (ATC), a main player in the market for urban traffic control and SCATS® customers around the world. ATC is one of a few companies holding a license to distribute the Sydney Coordinated Adaptive Traffic System (SCATS®), a holistic, innovative and scalable system of traffic management software and SCATS® type approved controllers. Through the intended acquisition, SCATS® customers will get access to Siemens Mobility’s broad Intelligent Traffic Systems (ITS) product and solution portfolio as well as global ITS domain competence. Furthermore, the intended acquisition of ATC will allow Siemens Mobility to strengthen its core business of traffic management and expand its footprint and operations in the APAC region, one of the fastest growing markets for traffic management. As a result of this intended acquisition, Siemens Mobility will be able to provide the entire chain of major adaptive traffic control systems globally.
- Award for
outstanding interpretive recording of Piano Concerto Opus 25 by Viktor Ullmann
(1898–1944)
- Accolades
for soloist Annika Treutler, the Berlin Radio Symphony Orchestra and conductor
Stephan Frucht
- The
project aims to keep alive the memory of Viktor Ullmann in the name of the many
artists expelled and murdered under the Nazi regime
- It also
features a groundbreaking digital, multi-perspective VR media installation with
immersive sound engineering as the narrative to Ullmann’s piano concerto
The Siemens Arts
Program has launched an audiovisual art project in partnership with pianist
Annika Treutler and media artist Alexander Stublić. The project is based on
Piano Concerto Opus 25 by the composer Viktor Ullmann, who was murdered at
Auschwitz in 1944. The art project features an elaborate new 3D audio recording
of the concerto alongside a virtual reality media art installation. The music
was recorded at the RBB concert studio in Berlin in partnership with the
Deutschlandfunk Kultur radio network and performed by the Berlin Radio Symphony
Orchestra conducted by Stephan Frucht (Artistic Director of the Siemens Arts
Program).
As a virtual event, the Siemens Machine
Tool Days provide insights into digital solutions for the machine tool
industry. Keynotes, #HowTo expert panels and practical examples will deal with
digital possibilities for increasing productivity in manufacturing under the
motto "Digitalization in Machine Tool Manufacturing - Thinking further!
Using the Digital Enterprise portfolio as an example, Siemens will show how the
integration of automation and digitization with future technologies such as
edge and cloud computing and artificial intelligence can be used effectively in
every phase of the value-added chain: from building a digital twin of the
product to production and machine performance to digital services.
> Register here > Explore our agenda
Today, the need for industrial digital solutions is more pressing and more important than ever before. During this event, we want to show how you can benefit from our digital solutions for the machine tool industry - from the Digital Twins of product, production and performance to every aspect of the value chain, including digital services.
- Sinumerik One Dynamics - three technology packages to increase the efficiency of CNC users when programming in the shopfloor and executing CAM-generated CNC programs
- Top Surface and Top Speed Plus for excellent motion control and perfect workpiece surfaces
With the software version NCU-SW 6.14, Siemens is launching three powerful technology packages exclusively for the CNC Sinumerik One. The Sinumerik One Dynamics packages are available in three different packages: One Dynamics Operate, One Dynamics 3-axis milling and One Dynamics 5-axis milling. The software functions contained in the technology packages support users from machine-oriented programming in the jobshop to high-performance machining of CAD-CAM-programmed workpieces with high surface quality.
- Order worth almost €400 million
- Avenio HF light rail vehicles provide highest passenger comfort
- 24-year contract for service and spare parts to guarantee availability
Düsseldorfer Rheinbahn AG and Duisburger Verkehrsgesellschaft AG have jointly ordered 109 Avenio HF high-floor light rail vehicles from Siemens Mobility, including an option for an additional 48 units. The contract also includes the maintenance and servicing of the Duisburg vehicles for 24 years and an option for a further eight years. A 24-year spare parts supply contract was signed for the Düsseldorf vehicles. The order has a volume of almost €400 million.
- Improvement of machine tool availability through predictive maintenance with Analyze MyMachine /Condition
- Analyze MyMachine /Condition for Sinumerik Edge creates a mechanical fingerprint of the machine tool
- Condition evaluation, analysis and comparison of all connected machines using the Mindsphere application
Siemens is extending its edge application Analyze MyMachine /Condition with a corresponding Mindsphere application and thus demonstrating how edge computing and cloud computing can be intelligently combined. The Sinumerik Edge Application Analyze MyMachine /Condition, which the company presented last year at the EMO, uses high-frequency CNC data to create the mechanical fingerprint of a machine tool. In the application, users can capture and evaluate various parameters such as stiffness, friction, and backlash in the individual axes with the help of flexibly configurable measurement series. The measurement results can then be visualized and compared with reference data.