Siemens is offering a new service for the calibration of measuring devices in process instrumentation. This enhances the reliability, availability and lifespan of field devices, thereby ensuring a high quality product.
As part of the Process Instrumentation Services - Calibration and Verification, Siemens experts provide calibration and verification services for field devices such as the Sitrans flowmeters, pressure transmitters, temperature measuring devices and belt scales. The service can be provided at the plant (on-site) or in the laboratory (off-site).
It is geared in particular for companies involved in water and waste water treatment as well as companies involved in the chemical, food and pharmaceutical industry. It is also suitable for the mining, cement, oil and gas and energy production industries.
The calibration and verification services fulfill the highest standards in terms of quality, reliability and traceability. The calibration equipment used for on-site calibration and calibration in the laboratory is certified in accordance with national and international standards; factory calibration is ISO/IEC 17025 certified.
Users are subsequently furnished with a calibration and verification certificate. Exact calibration prevents unplanned downtime which in turn reduces total operating costs, safeguarding the quality of the end products.
Measuring, positioning, recording and controlling are important parameters for all industrial processes. Siemens offers high levels of precision and reliability with its Sitrans product family and its range of belt scales.
For further information, please go to: www.siemens.com/piscv
Siemens AG (Berlin and Munich) is a global technology powerhouse that has stood for engineering excellence, innovation, quality, reliability and internationality for more than 165 years. The company is active in more than 200 countries, focusing on the areas of electrification, automation and digitalization. One of the world's largest producers of energy-efficient, resource-saving technologies, Siemens is No. 1 in offshore wind turbine construction, a leading supplier of gas and steam turbines for power generation, a major provider of power transmission solutions and a pioneer in infrastructure solutions as well as automation, drive and software solutions for industry. The company is also a leading provider of medical imaging equipment – such as computed tomography and magnetic resonance imaging systems – and a leader in laboratory diagnostics as well as clinical IT. In fiscal 2015, which ended on September 30, 2015, Siemens generated revenue of €75.6 billion and net income of €7.4 billion. At the end of September 2015, the company had around 348,000 employees worldwide.
Further information is available on the Internet at www.siemens.com
Reference Number: PR2016010127DFEN
Mr. David Petry
Tel: +49 (9131) 7-26616
Dr. David Petry | Siemens Digital Factory
“Laser Technology Live” at the AKL’18 International Laser Technology Congress in Aachen
23.02.2018 | Fraunhofer-Institut für Lasertechnik ILT
Empa shows "Gas station of the future"
23.02.2018 | Empa - Eidgenössische Materialprüfungs- und Forschungsanstalt
A newly developed laser technology has enabled physicists in the Laboratory for Attosecond Physics (jointly run by LMU Munich and the Max Planck Institute of Quantum Optics) to generate attosecond bursts of high-energy photons of unprecedented intensity. This has made it possible to observe the interaction of multiple photons in a single such pulse with electrons in the inner orbital shell of an atom.
In order to observe the ultrafast electron motion in the inner shells of atoms with short light pulses, the pulses must not only be ultrashort, but very...
A group of researchers led by Andrea Cavalleri at the Max Planck Institute for Structure and Dynamics of Matter (MPSD) in Hamburg has demonstrated a new method enabling precise measurements of the interatomic forces that hold crystalline solids together. The paper Probing the Interatomic Potential of Solids by Strong-Field Nonlinear Phononics, published online in Nature, explains how a terahertz-frequency laser pulse can drive very large deformations of the crystal.
By measuring the highly unusual atomic trajectories under extreme electromagnetic transients, the MPSD group could reconstruct how rigid the atomic bonds are...
Quantum computers may one day solve algorithmic problems which even the biggest supercomputers today can’t manage. But how do you test a quantum computer to...
For the first time, a team of researchers at the Max-Planck Institute (MPI) for Polymer Research in Mainz, Germany, has succeeded in making an integrated circuit (IC) from just a monolayer of a semiconducting polymer via a bottom-up, self-assembly approach.
In the self-assembly process, the semiconducting polymer arranges itself into an ordered monolayer in a transistor. The transistors are binary switches used...
Breakthrough provides a new concept of the design of molecular motors, sensors and electricity generators at nanoscale
Researchers from the Institute of Organic Chemistry and Biochemistry of the CAS (IOCB Prague), Institute of Physics of the CAS (IP CAS) and Palacký University...
15.02.2018 | Event News
13.02.2018 | Event News
12.02.2018 | Event News
23.02.2018 | Physics and Astronomy
23.02.2018 | Health and Medicine
23.02.2018 | Physics and Astronomy