TY - CONF A1 - Melzer, Michael A1 - Fischer, Michael A1 - Thomas, Marcus A1 - Subaric-Leitis, Andreas A1 - Bartholmai, Matthias T1 - Calibration Service as a Gateway to Sustainable Research and Development N2 - Over decades, the German Federal Institute for Materials Research and Testing (BAM) has established a sophisticated calibration laboratory for force, temperature and electrical quantities. Since more than 15 years it is accredited, currently by the national accreditation body (DAkkS), and offers its service also to external entities on a global scale. As a public provider, we are furthermore committed to research and development activities that demand measurements with highest quality and low level of uncertainties. Two R&D examples are highlighted within this contribution. T2 - SMSI 2020 CY - Meeting was canceled DA - 22.06.2020 KW - Calibration of force KW - Calibration of temperature KW - Calibration of electrical quantities KW - Measurement uncertainty KW - New sensor principles PY - 2020 SN - 978-3-9819376-2-6 DO - https://doi.org/10.5162/SMSI2020/E3.3 SP - 374 EP - 375 AN - OPUS4-51222 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Kondo, M. A1 - Melzer, Michael A1 - Karnaushenko, D. A1 - Uemura, T. A1 - Yoshimoto, S. A1 - Aklyama, M. A1 - Noda, Y. A1 - Araki, T. A1 - Schmidt, O. G. A1 - Sekitani, T. T1 - Imperceptible magnetic sensor matrix system integrated with organic driver and amplifier circuits N2 - Artificial electronic skins (e-skins) comprise an integrated matrix of flexible devices arranged on a soft, reconfigurable surface. These sensors must perceive physical interaction spaces between external objects and robots or humans. Among various types of sensors, flexible magnetic sensors and the matrix configuration are preferable for such position sensing. However, sensor matrices must efficiently map the magnetic field with real-time encoding of the positions and motions of magnetic objects. This paper reports an ultrathin magnetic sensor matrix system comprising a 2 × 4 array of magnetoresistance sensors, a bootstrap organic shift register driving the sensor matrix, and organic signal amplifiers integrated within a single imperceptible platform. The system demonstrates high magnetic sensitivity owing to the use of organic amplifiers. Moreover, the shift register enabled real-time mapping of 2D magnetic field distribution. KW - Imperceptible electronics KW - Magnetic sensor system KW - Electronic skin KW - Organic electronics KW - Giant magnetoresistance PY - 2020 UR - https://nbn-resolving.org/urn:nbn:de:kobv:b43-503855 DO - https://doi.org/10.1126/sciadv.aay6094 SN - 2375-2548 VL - 6 IS - 4 SP - Paper eaay6094, 1 EP - 10 PB - American Association for the Advancement of Science AN - OPUS4-50385 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Gupta, P. A1 - Karnaushenko, D. D. A1 - Becker, C. A1 - Okur, I. E. A1 - Melzer, Michael A1 - Özer, B. A1 - Schmidt, O. G. A1 - Karnaushenko, D. T1 - Large Scale Exchange Coupled Metallic Multilayers by Roll-to-Roll (R2R) Process for Advanced Printed Magnetoelectronics N2 - Till now application of printed magnetoelectronics is hindered by lack of large area exchange coupled metallic multilayers required to produce printable magneto-sensory inks. Large-scale roll-to-roll (R2R) fabrication process is an attractive approach owing to its capabilities for high volume, high throughput, and large area manufacturing. Precise and high performance R2R sputtering technology is developed to fabricate large area giant magnetoresistive (GMR) thin-films stacks that contain 30 metallic bilayers prepared by continuous R2R sputtering of Co and Cu sequential on a hundred meters long polyethylene terephthalate (PET) web. The R2R sputtered Co/Cu multilayer on a 0.2 × 100 m2 PET web exhibits a GMR ratio of ≈40% achieving the largest area exchange coupled room temperature magneto-sensitive system demonstrated to date. The prepared GMR thin-film is converted to magnetosensitive ink that enables printing of magnetic sensors with high performance in a cost-efficient way, which promotes integration with printed electronics. An average GMR ratio of ≈18% is obtained for 370 printed magnetic sensors. The realized precise R2R sputtering approach can also be extended to a wide range of hybrid thin-film material systems opening up a path for new functional inks applied with printing technologies. KW - Printed Electronics KW - Flexible Magnetic Sensors KW - Roll-to-Roll Processing KW - Functional Materials KW - Upscaling PY - 2022 UR - https://nbn-resolving.org/urn:nbn:de:kobv:b43-552344 DO - https://doi.org/10.1002/admt.202200190 SN - 2365-709X SP - 1 EP - 11 PB - Wiley-VCH CY - Weinheim, Deutschland AN - OPUS4-55234 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Melzer, Michael T1 - Flexible Magnetic Sensors Enabling Novel Measuring Capabilities N2 - Since several years, magnetic sensor elements are available in fully flexible architectures that often reveal identical sensing properties, compared to their rigid counterparts, while being bent severely and repeatedly. Nowadays, a variety of magnetic senor principles, including well known Hall, AMR and GMR but also more exotic PHE and AHE sensors were demonstrated on such flexible platforms. The novel properties of being thin, lightweight, shapeable, and wearable enable magnetic sensory systems to be utilized in vicinities and conditions that are inaccessible for rigid and microchip-based sensors. T2 - SMSI 2023 - Sensor and Measurement Science International CY - Nuremberg, Germany DA - 08.05.2023 KW - Flexible electronics KW - Flexible sensors KW - Magnetic sensors KW - Novel applications KW - In-situ sensing PY - 2023 UR - https://www.ama-science.org/proceedings/details/4402 SN - 978-3-9819376-8-8 DO - https://doi.org/10.5162/SMSI2023/C5.2 SP - 175 EP - 176 PB - AMA Service GmbH CY - Wunstorf AN - OPUS4-58039 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Melzer, Michael T1 - Flexible Magnetic Sensors Enabling Novel Measuring Capabilities N2 - Since several years, magnetic sensor elements are available in fully flexible architectures that often reveal identical sensing properties, compared to their rigid counterparts, while being bent severely and repeatedly. Nowadays, a variety of magnetic senor principles, including well known Hall, AMR and GMR but also more exotic PHE and AHE sensors were demonstrated on such flexible platforms. The novel properties of being thin, lightweight, shapeable, and wearable enable magnetic sensory systems to be utilized in vicinities and conditions that are inaccessible for rigid and microchip-based sensors. T2 - SMSI 2023 - Sensor and Measurement Science International CY - Nuremberg, Germany DA - 08.05.2023 KW - Flexible electronics KW - Flexible sensors KW - Magnetic sensors KW - Novel applications KW - In-situ sensing PY - 2023 UR - https://www.ama-science.org/ama-conferences/smsi2023/ AN - OPUS4-58041 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Witt, Florian A1 - Melzer, Michael T1 - Digitale Kalibrierzertifikate – die Umsetzung in akkreditierten Laboratorien N2 - Die PKI zum digitalen Akkreditierungssymbol der DAkkS sowie dessen Funktionsweise und daraus resultierende Mehrwerte für Kalibrierlaboratorien und Endanwender werden vorgestellt. Im Anschluss wird der aktuelle Stand bei der Einführung des digitalen Kalibrierscheins (DCC) im akkreditierten Kalibrierlabor der BAM wiedergegeben. Eine Roadmap für die Digitalisierung des Kalibrierlabors sowie die Vorstellung des Quality-X Konzeptes geben einen Ausblick in die nähere Zukunft. T2 - 324. PTB-Seminar: Berechnung der Messunsicherheit – Empfehlungen für die Praxis CY - Berlin, Germany DA - 22.05.2023 KW - eAttestation KW - Digitalisierung KW - DCC KW - Akkreditierung KW - QI-Digital PY - 2023 UR - https://www.ptb.de/cms/de/ptb/fachabteilungen/abt8/fb-84/ag-842/seminare/324-ptb-seminar-berechnung-der-messunsicherheit-empfehlungen-fuer-die-praxis.html AN - OPUS4-58002 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Melzer, Michael A1 - Nattuveettil, Keerthana A1 - Brunner, Nanine A1 - Thomas, Marcus T1 - DCC´s im Praxistest: Rückführung auf Knopfdruck N2 - Eine online Live-Vorführung des DCC Demonstrators zur automatisierten Erstellung und Auswertung eines maschinenlesbaren digitalen Kalibrierscheins zur metrologischen Rückführung eines Pt 100 Temperaturfühlers. Workflow: DCC Vorlage für Kalibrierungen nach DKD-R 5-1; DCC Middleware zur Aufnahme der auftragsbezogenen Metadaten und Einfügen aller Daten, inkl. der Messdaten, in die DCC Vorlage; Validierung des befüllten DCCs gegen das DCC-Schema; Siegelung des DCCs mit dem digitalen Akkreditierungssymbol; Übertragung an den DCC-Nutzer; nutzerseitige Verifizierung des elektronischen Siegels zur Sicherstellung von Authentizität, Integrität und Akkreditierung; direktes auslesen der Sensordaten mit Messunsicherheit basierend auf Herstellerspezifikationen; Einlesen und Auswerten des DCCs auf Knopfdruck, damit automatisierte Erstellung einer Kalibrierfunktion und entsprechende Korrektur der Sensordaten, automatisches Auslesen der temperaturabhängigen Messunsicherheit und Erweiterung um relevante Beiträge zum Erreichen der metrologischen Rückführbarkeit der Temperaturmessung; qualitätsgesicherte Konformitätsaussage des Prozesses auf Basis der so korrigierten Temperaturmesswerte und deren Unsicherheiten. T2 - Virtuelle und interaktive Praxiswerkstätten: "Digitale QI für Prüf- und Kalibrierlabore" CY - Online meeting DA - 30.11.2023 KW - Live Demonstration KW - Digitalisierung KW - Digitaler Kalibrierschein KW - Metrologische Rückführbarkeit PY - 2023 UR - https://www.qi-digital.de/hauptmenue/begleitforschung/praxiswerkstaetten AN - OPUS4-59048 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Melzer, Michael T1 - The digitalization of force metrology N2 - The transfer of data for the metrological traceability of measurement results is currently taking place in the form of paper-based calibration certificates, mostly. Especially accredited metrology services providers are often bound to paper certificates by regulatory constrictions and sometimes lack of IT-infrastructure. This analog form of metrology data transfer, however, implies hands-on work, in particular for the certificate receiver, as its key values need to be translated into the device- and quality management (QM) system, manually. With thousands of certificates transferred from accredited calibration labs until the industrial regime, this binds a significant amount of human resources and is a well-known source of errors, thus constricting cost-effective and secure workflows. This contribution highlights the status of the advancing digital transformation in metrology, on the example of force calibration. Although this appealing initiative is to a large extend driven by German stakeholders, it currently evolves to extend across all Europe and far beyond. T2 - 39TH DANUBIA-ADRIA SYMPOSIUM ON ADVANCES IN EXPERIMENTAL MECHANICS CY - Siofok, Hungary DA - 26.09.2023 KW - Digitalisierung KW - Metrologische Rückführung KW - Digitaler Kalibrierschein PY - 2023 UR - https://das2023.hu/ AN - OPUS4-59027 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Melzer, Michael A1 - Nattuveettil, Keerthana T1 - Digital Calibration Certificates: Transforming Efficiency and Safety in Hydrogen Refuelling Station N2 - Digital Certificates have emerged as a pivotal element in automation and digitalisation. This presentation highlights the added value of a digitalised metrology, its impact on the workflows on the calibration service providing and receiving side as well as their significance in enhancing the quality infrastructure. An overview of digital calibration certificates (DCC) for temperature sensors, including their structure and role in establishing trust in hydrogen refuelling stations (HRS), will be discussed. Additionally, it explores the impact of DCC on optimising efficiency in the hydrogen refuelling process. Exploring the paradigm shift brought about by Industry 4.0, where machines possess the ability to autonomously interpret digital certificate data, leads to streamlined safety checks and reduced human intervention. We will discuss how automated verification of machine-readable certificates contributes to maintaining and elevating safety standards over human-readable certificates. Furthermore, we will take a deep dive into the application of DCCs in HRS, showcasing how they enhance operational efficiency, accuracy, and maintenance by enabling real-time monitoring and adjustment of process data. By exploring the interdependent relationship between digital certificates, machine-readable environments, and HRS optimisation, this presentation will provide valuable insights into harnessing cutting-edge technologies to create a safer, more efficient, and technologically empowered hydrogen refuelling process. T2 - H2Safety@BAM : Hydrogen Colloquium CY - Online meeting DA - 06.09.2023 KW - Digital Calibration Certificate KW - Digitalization KW - Digital Traceability KW - QI-Digital KW - Hydrogen Infrastructure PY - 2023 UR - https://www.bam.de/Content/DE/Standardartikel/Themen/Energie/Wasserstoff/wasserstoff.html AN - OPUS4-58353 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Melzer, Michael T1 - Flexible GMR sensors for novel flux leakage testing capabilities N2 - In order to detect small and hidden material defects or micro-cracks, weak and localized magnetic stray fields need to be detected and characterized on the magnetic surface. Current flux leakage sensor elements are rigid and rely on air gaps to detect stray fields several hundred micrometers above the surface. Furthermore, the increasing complexity of critical components, enabled by novel fabrication technologies, primarily additive manufacturing, poses a significant challenge to the available flux leakage testing technologies. The emergence of flexible magneto-electronics paves the way to a compliant form of magnetic sensors that, on one hand, are able to adapt to highly curved surfaces, allowing these measurements to be conducted on irregularly formed components, which are inaccessible for nowadays electromagnetic NDT equipment and, on the other hand, could enhance the detection limit for small magnetic stray fields, by allowing the magneto-sensitive elements to approximate the object’s surface until only a few µm, mediated by thin and flexible packaging. T2 - 38th Danubia-Adria Symposium on Advances in Experimental Mechanics CY - Poros, Greece DA - 20.09.2022 KW - Non-destructive testing KW - Flux leakage testing KW - Flexible sensorics KW - GMR Sensors KW - Flexible electronics PY - 2022 AN - OPUS4-56628 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - GEN A1 - Bauer, R. A1 - Pham, M. A1 - Becker, T. A1 - Melzer, Michael A1 - Pelkner, Matthias A1 - Böhle, B. A1 - op den Winkel, F. A1 - Kliche, K. A1 - Welker, F. A1 - Becker, P. A1 - Pfeffer, A. A1 - Gerber, J. A1 - Holzhey, R. A1 - Wenzel, B. A1 - Slatter, R. A1 - Grönefeld, M. A1 - Nasaruk, M. A1 - Buß, R. A1 - Hille, P. A1 - Bartos, A. A1 - Schreiner, I. T1 - Anforderungen an die technische Darstellung von magnetischen Maßverkörperungen in Konstruktionszeichnungen N2 - Dieses Dokument legt Anforderungen an die technische Darstellung von Geometrie und magnetischen Eigenschaften in Konstruktionszeichnungen von magnetischen Maßverkörperungen fest und definiert die dazu notwendige Terminologie. KW - Magnetische Maßverkörperungen KW - Konstruktionszeichnungen KW - Terminologie KW - Magnetische Messsysteme PY - 2022 DO - https://doi.org/10.31030/3359425 IS - DIN SPEC 91411:2022-08 SP - 1 EP - 48 PB - Beuth CY - Berlin AN - OPUS4-56631 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - GEN A1 - Melzer, Michael T1 - Taxonomie magnetischer Maßverkörperungen N2 - Darstellung der Taxonomie magnetischer Maßverkörperungen im Zusammenhang mit der DIN SPEC 91411 "Anforderungen an die technische Darstellung von magnetischen Maßverkörperungen in Konstruktionszeichnungen" KW - Magnetische Maßverkörperungen KW - Magnetische Messysteme KW - Taxonomie PY - 2022 UR - https://innomag.org/wp-content/uploads/2021/10/DIN-SPEC-Poster_final.pdf SP - 1 EP - 1 PB - Innovationsplattform Magnetische Mikrosysteme INNOMAG CY - Kaiserslautern AN - OPUS4-56633 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Melzer, Michael ED - Deschermeier, Regina ED - Bünger, Lars ED - Schüür, Jens T1 - Good practice für digitale Kalibrierscheine von Temperatur- und Feuchtemessgrößen N2 - Der digitale Kalibrierschein (DCC) enthält alle Informationen eines herkömmlichen Kalibrierscheins in maschinenlesbarer und möglichst auch -interpretierbarer Form, um eine Automatisierung des Qualitätsmanagements und der metrologischen Rückführbarkeit in den Laboren und im industriellen Messwesen zu ermöglichen. Neben den allgemeinen Anforderungen, z.B. aus ISO/IEC 17025, gibt es spezifische Anforderungen bezüglich der Messgrößen und der Kalibrierverfahren, die auch in digitalen Ergebnisberichten erfüllt sein müssen. Innerhalb des DKD Fachausschusses für Temperatur und Feuchte werden derzeit good practice Empfehlungen erarbeitet, um zu definieren, wie genau diese Anforderungen im Rahmen des DCC erfüllt werden sollten. Anhand der Temperaturskala und des Kalibriermediums werden zwei dieser good practices hier beispielhaft erläutert. Außerdem wird eine Übersicht über die bereits definierten spezifischen refType-Attribute für Temperatur- und Feuchtemessgrößen gegeben. T2 - TEMPERATUR 2024 CY - Berlin, Germany DA - 05.06.2024 KW - Digital Calibration Certificate KW - Digital certificates KW - Digital Metrology KW - QI-Digital KW - Calibration PY - 2024 UR - https://www.temperatur.ptb.de/startseite SP - 145 EP - 151 AN - OPUS4-61923 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Melzer, Michael T1 - Good practice definitions for DCCs on temperature- and humidity quantities N2 - Automation in metrological traceability of measurements bears high potential for a more effective quality management with less human interaction and reduced risks from manual data processing. However, this can only be achieved, if the metrological data from the calibration service is provided in a machine-readable and machine-interpretable format. With the provision of an XML-schema for digital calibration certificates (DCCs), PTB has defined a comprehensive frame for machine-readable reports that is applicable to calibrations of arbitrary quantities and methods. In order to increase the interoperability of DCCs, further harmonization needs to be established, especially within the communities of specific measurement quantities. This allows for a straight-forward automation in the processing of DCCs independent from the issuing laboratory. Recently, the German Calibration Service (DKD) has started to compile quantity-specific as well as overarching good practice definitions for DCCs in its various technical committees. The committee for temperature and humidity quantities set the focus on good practice for calibrations according to its guidelines DKD-R 5-1 for resistance thermometers (e.g. Pt100) and DKD-R 5-8 for hygrometers for the direct measurement of relative humidity, first. Here, for several specific expressions, e.g. the used temperature scales (e.g. ITS-90 vs. thermodynamic temperature), the impact of hysteresis and self-heating or the calibration medium used, related XML code implementations are defined and tested. Another important aspect to achieve machine-interpretability of information in a DCC are refType definitions. RefTypes are key semantic providing attributes that are used in the XML code if no unique structure is available in the DCC scheme for a particular information that should still be associated with a specific meaning. Hence, they represent “bookmarks” for the algorithms interpreting good practice DCCs and therefore it is vital that they have a fixed wording. For the case of temperature and humidity calibrations, several refType denotations together with their meanings and allowed locations in the DCC-schema were defined, respectively. These refType definitions will be available in an online refType repository that is hosted by the DKD and can be incorporated into good practice DCCs for validation. The good practice definitions for temperature and humidity DCCs introduced in this contribution will be thoroughly described and published in an open access DKD expert report that is also equipped with validated DCC templates for most common calibration items and procedures. Since most of the added values of an automated metrological traceability are provided on the receiving side of DCCs, specific use cases are currently acquired for temperature and humidity calibrations, respectively. These pilot applications are especially intended to demonstrate the potential of DCC utilization for the industrial metrology and quality management. T2 - IMEKO 2024 XXIV World Congress CY - Hamburg, Germany DA - 26.08.2024 KW - Digital Calibration Certificate KW - QI-digital KW - Digital Metrology KW - Calibration KW - Temperature quantities PY - 2024 UR - https://www.imeko2024.org/home AN - OPUS4-61870 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Melzer, Michael T1 - The temperature DCC exposed N2 - The DAkkS-accredited calibration laboratory of the German Federal Institute for Materials Research and Testing (BAM) has established valid XML digital calibration certificates (DCCs) for calibrations of resistance thermometers within the scope of its accreditation. Hence, all necessary information according to ISO/IEC 17025 and the DKD-R 5-1 calibration rule is provided in a machine-readable and machine-interpretable form. Furthermore, we actively participate in the definition of general and community-specific good practice requirements for the DCC of temperature quantities as technical specifications, hosted by the German Calibration Service (DKD). In this contribution the entire XML source code of a DCC from a Pt 100 thermometer calibration will be exposed and discussed. The DCC was automatically generated using a self-implemented middleware that is compiling the metadata (i.e. customer-, order-, item- and method data) and combines it with the measured calibration data and influence conditions into a process- and lab-specific DCC template. Since it was issued as an accredited calibration certificate, the validated and authorized DCC is also equipped with the novel digital accreditation symbol to form an `eAttestation´. This advanced electronic seal with a qualified certificate was recently piloted with the German national accreditation body (DAkkS), and, after successful validation by the receiver, verifies the active accreditation status of the issuing body at the time of sealing (authorization). As it also provides all other functionalities of an electronic seal, (i.e. data integrity and authenticity), it can fully replace a digital signature on accredited DCCs. The presented temperature DCC architecture fully complies to the latest good practice definitions of the DKD and thus represents a level 4 DCC according to the utility model for machine interpretability of DCCs. This also includes basic and quantity-specific refType definitions that are linked to an online refType repository to harmonize these key semantic providing elements across other DCC-issuing laboratories. The paper and also its conference poster will not represent a general introduction and motivation for the DCC itself. It rather addresses more detailed aspects of good practice, especially for DCCs from temperature quantity calibrations and may stimulate in-depth discussions between DCC experts from the providing, utilizing and accrediting points of view. The work was performed within the national QI-Digital initiative of the German Federal Ministry for Economic Affairs and Climate Action. T2 - IMEKO 2024 XXIV World Congress CY - Hamburg, Germany DA - 26.08.2024 KW - Digital Calibration Certificate KW - E-Attestation KW - QI-Digital KW - Digital Metrology KW - Calibration PY - 2024 UR - https://www.imeko2024.org/home AN - OPUS4-61872 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Melzer, Michael T1 - Accredited Digital Calibration Certificates (DCCs): Automated Generation and Utilization for Thermal Process Monitoring T1 - Der digitale Kalibrierschien (DCC) mit Akkreditierung: Metrologische Rückführung und Qualitätssicherung auf Knopfdruck N2 - The accredited calibration laboratory of the German Federal Institute for Materials Research and Testing (BAM) has established validated XML digital calibration certificates for calibrations of resistance thermometers (e.g. Pt100) within the scope of its accreditation. Hence, all necessary information according to ISO/IEC 17025 and the DKD-R 5-1 calibration rule is provided in a machine-readable and machine-interpretable form. For the automated DCC generation, a self-implemented middleware is compiling the calibration- and metadata into a process- and lab-specific DCC template. All generated DCCs can be readily validated against the approved DCC schema (v.3.2.1). Furthermore, the authorized DCCs are equipped with the novel digital accreditation symbol, that was recently piloted with the German national accreditation body (DAkkS). In order to demonstrate the added value of DCCs particularly on the receiver side, a DCC demonstrator was developed for the use case of thermal process monitoring, which is also exhibited at the “innovative calibration” area. The software automatically processes incoming DCCs, to provide metrological traceability and a quality-assured process conformity assessment, practically at the push of a button. T2 - SENSOR+TEST 2024 Technology Forum "Innovative Calibration" CY - Nuremberg, Germany DA - 11.06.2024 KW - Digital Calibration Certificate KW - QI-digital KW - Digital Metrology KW - Calibration PY - 2024 UR - https://www.sensor-test.de/de/besucher/sensor-test-2024-digital/ AN - OPUS4-61875 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Melzer, Michael T1 - Werkzeugkasten für die digitale Transformation der QI: eAttestation N2 - Für den internationalen Handel mit Waren und Dienstleistungen ist es entscheidend, dass sich Qualitätsaussagen schnell und verlässlich überprüfen lassen. Gleichzeitig müssen digitale Ergebnisberichte immer häufiger maschinenlesbar sein und vertrauensvoll in Anwendungen und Prozesse der Industrie 4.0 eingebunden werden. Aus diesen Gründen hat die DAkkS ein digitales Akkreditierungssymbol (d-AS) entwickelt. Dieser Impulsvortrag zeigt kurz die Entwicklung des d-AS von der analogen Form bis zur automatisierten digitalen Verifizierung und stellt seine Anwendung und Funktionalitäten auf einer eAttestation vor. T2 - QI-Digital Forum 2024 CY - Berlin, Germany DA - 09.10.2024 KW - eAttestation KW - Digital certificates KW - QI-Digital KW - Quality Infrastructure KW - Automation PY - 2024 UR - https://www.qi-digital.de/termine-und-veranstaltungen/meldung/rueckblick-auf-das-qi-digital-forum-2024-pressemitteilung AN - OPUS4-61897 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - VIDEO A1 - Melzer, Michael T1 - Der DCC-Demonstrator erklärt N2 - In diesem Video erklärt Dr. Michael Melzer (Leiter des BAM-Kalibrierlabors) die notwendigen Entwicklungsschritte hin zu einer Praxistauglichkeit des DCCs und wie die „Metrologische Rückführung auf Knopfdruck“ funktioniert. Der digitale Kalibrierschein macht den Kalibrierprozess effizienter, sicherer und digital nachverfolgbar. Anhand eines Demonstrators zeigt er die Vorteile der metrologischen Digitalisierung und Automatisierung in der Anwendung – von der Reduzierung von Fehlerquellen bis hin zum wirtschaftlichen Nutzen im industriellen Messwesen. KW - Digital calibration certificate KW - QI-digital KW - Digital metrology KW - Calibration KW - Automation PY - 2024 UR - https://www.youtube.com/watch?v=0lfYypvTl9E&t=8s PB - YouTube, LLC CY - San Bruno, CA, USA AN - OPUS4-62076 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Melzer, Michael T1 - Good Practice für DCCs von Temperatur- und Feuchtemessgrössen N2 - Der digitale Kalibrierschein (DCC) enthält alle Informationen eines herkömmlichen Kalibrierscheins in maschinenlesbarer und möglichst auch -interpretierbarer Form, um eine Automatisierung des Qualitätsmanagements und der metrologischen Rückführbarkeit in den Laboren und im industriellen Messwesen zu ermöglichen. Neben den allgemeinen Anforderungen, z.B. aus ISO/IEC 17025, gibt es messgrößen- und kalibrierverfahrensspezifische Anforderungen, die auch in digitalen Ergebnisberichten erfüllt sein müssen. Innerhalb des DKD Fachausschusses für Temperatur und Feuchte werden derzeit good practice Empfehlungen erarbeitet, um zu definieren, wie genau diese Anforderungen im Rahmen des DCC erfüllt werden sollten. Anhand der Temperaturskala des Kalibriermediums und der Angabe der Hysterese werden drei dieser good practices hier beispielhaft erläutert. T2 - TEMPERATUR 2024 CY - Berlin, Germany DA - 05.06.2024 KW - Digital Calibration Certificate KW - Digital certificates KW - QI-Digital KW - Digital Metrology KW - Calibration PY - 2024 UR - https://www.temperatur.ptb.de/startseite AN - OPUS4-61891 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Nicolicea, Alberto A1 - Oliveros-Mata, E. S. A1 - Zabila, Y. A1 - Makarov, D. A1 - Melzer, Michael A1 - Pelkner, Matthias T1 - Flexible anisotropic magnetoresistive sensors for novel magnetic flux leakage testing capabilities N2 - Rigid magnetic field sensors such as anisot Hall sensors have been used for years and have become industry standard for electromagnetic non-destructive testing (NDT). Recent technological developments in the field of flexible electronics allow for the fabrication of reshapeable magnetic field sensors on flexible substrates via thin-film deposition or printing. The magnetic properties of these sensors have comparable characteristics to industry-standard rigid magnetic field sensors, with the added ability of adapting to the surface of complex components and scanning in contact with the sample surface. This improves defect detectability and magnetic signal strength by minimizing the scanning lift-off (LO) distance. In this article flexible AMR sensors mounted on a rotative mechanical holder were used to scan a semi-circular ferromagnetic sample with 3 reference defects via magnetic flux leakage (MFL) testing, thus demonstrating the applicability of this type of sensors for the scanning of curved samples. In order to benchmark the performance of these sensors in comparison to industry standard rigid magnetic field sensors, a ferromagnetic sample with 10 reference defects of different depths was scanned employing flexible AMR and rigid GMR sensors. Defects with depths ranging from 110 μm up to 2240 μm were detected with an signal-tonoise ratio (SNR) of 2.7 up to 27.9 (for flexible AMR sensors) and 6.2 up to 72.3 (for rigid GMR sensors), respectively. A 2D magnetometer mapping of the sample with a spatial scanning step of 10 × 50 μm2 (flexible AMR) and 16 × 100 μm2 (rigid GMR) was obtained. The results show that this type of sensor can be used for high-resolution and high-detail mapping of defects on the surface of planar and non-planar ferromagnetic samples since the scanning lift-off distance is equal to the substrate thickness of 20 μm for in-contact scanning. The SNR comparison between flexible and rigid sensors shows that the performance of the flexible AMR sensors employed is not very far behind the performance of the rigid GMR sensors used. KW - Flexible magnetic field sensors KW - Non-destructive testing KW - Magnetic flux leakage KW - Thin film sensor fabrication KW - Defect detection PY - 2024 UR - https://nbn-resolving.org/urn:nbn:de:kobv:b43-603931 DO - https://doi.org/10.1016/j.ndteint.2024.103160 SN - 0963-8695 VL - 146 SP - 1 EP - 15 PB - Elsevier CY - Amsterdam AN - OPUS4-60393 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Nicolicea, Alberto A1 - Oliveros-Mata, E. S. A1 - Makarov, D. A1 - Melzer, Michael A1 - Pelkner, Matthias T1 - Flexible anisotropic magnetoresistive sensors for novel eddy current testing applications N2 - The standard method for eddy current testing (ET) of conductive materials relies on using rigid coils. In recent years magnetoresistive (MR) sensors in combination with an excitation wire have become a promising candidate for this application since it would increase the spatial resolution. New developments in flexible electronics have enabled the production of flexible sensors with the novel capability of scanning samples in conformal contact with the surface. In this article flexible anisotropic magnetoresistive (AMR) sensors were used in combination with a thin induction wire to perform eddy current testing of a curved aluminum sample with several defects imprinted on its surface. To benchmark the performance of this new method, a flat sample with reference defects of various dimensions was also scanned using flexible AMR sensors, inductive coils and rigid giant magnetoresistive (GMR) sensors. The results show that this new method of using flexible magnetic field sensors coupled with an excitation wire can easily be applied to the scanning of curved samples, while in the benchmark test employing the flat sample, the performance is not far behind more conventional techniques, with defects with depths down to 30 μm and widths down to 400 μm being detectable with an SNR of 3 (signal magnitude) and 8 (signal phase shift) at the excitation frequency of 50 kHz, and defects with depths down to 30 μm and widths down to 600 μm being detectable with an SNR of 10 (signal magnitude) and 17 (signal phase shift) at 260 kHz. KW - Magnetic field sensors KW - Flexible magnetic field sensors KW - Flexible electronics KW - Non-destructive testing KW - Eddy current testing KW - Thin film sensor fabrication KW - Defect detection KW - Magnetism PY - 2025 UR - https://nbn-resolving.org/urn:nbn:de:kobv:b43-634325 DO - https://doi.org/10.1016/j.measurement.2025.117340 SN - 1873-412X VL - 253, Part A SP - 1 EP - 15 PB - Elsevier CY - Amsterdam AN - OPUS4-63432 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Melzer, Michael T1 - The temperature DCC exposed N2 - The DAkkS-accredited calibration laboratory of the German Federal Institute for Materials Research and Testing (BAM) has established valid XML digital calibration certificates (DCCs) for calibrations of resistance thermometers within the scope of its accreditation. Hence, all necessary information according to ISO/IEC 17025 and the DKD-R 5-1 calibration rule is provided in a machine-readable and machine-interpretable form. Furthermore, we actively participate in the definition of general and community-specific good practice requirements for the DCC of temperature quantities as technical specifications, hosted by the German Calibration Service (DKD). In this contribution the entire XML source code of a DCC from a Pt 100 thermometer calibration will be exposed and discussed. The DCC was automatically generated using a self-implemented middleware that is compiling the metadata (i.e. customer-, order-, item- and method data) and combines it with the measured calibration data and influence conditions into a process- and lab-specific DCC template. Since it was issued as an accredited calibration certificate, the validated and authorized DCC is also equipped with the novel digital accreditation symbol to form an `eAttestation´. This advanced electronic seal with a qualified certificate was recently piloted with the German national accreditation body (DAkkS), and, after successful validation by the receiver, verifies the active accreditation status of the issuing body at the time of sealing (authorization). As it also provides all other functionalities of an electronic seal, (i.e. data integrity and authenticity), it can fully replace a digital signature on accredited DCCs. The presented temperature DCC architecture fully complies to the latest good practice definitions of the DKD and thus represents a level 4 DCC according to the utility model for machine interpretability of DCCs. This also includes basic and quantity-specific refType definitions that are linked to an online refType repository to harmonize these key semantic providing elements across other DCC-issuing laboratories. The work was performed within the national QI-Digital initiative of the German Federal Ministry for Economic Affairs and Climate Action. T2 - Deutsche Marktüberwachungskonferenz 2025 CY - Berlin, Germany DA - 17.09.2025 KW - Calibration KW - Digital Calibration Certificate KW - E-Attestation KW - Digital Metrology KW - QI-Digital PY - 2024 AN - OPUS4-64147 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Melzer, Michael T1 - The digital accreditation symbol: verified trust in digital certificates N2 - This presentation provides a brief overview of the digital accreditation symbol, which is available for DAkkS-accredited bodies to proof their active accreditation on digital reports and certificates (eAttestations). The basic functionality, application and automatic verifycation is presented on PDF and XML based eAttestations. T2 - International Metrology Congress (CIM) 2025 CY - Lyon, France DA - 11.03.2025 KW - Akkreditation KW - Digital Calibration Certificate KW - E-Attestation KW - Digital Certificates KW - QI-Digital PY - 2025 AN - OPUS4-64174 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Melzer, Michael T1 - The temperature DCC exposed N2 - The DAkkS-accredited calibration laboratory of the German Federal Institute for Materials Research and Testing (BAM) has established valid XML digital calibration certificates (DCCs) for calibrations of resistance thermometers within the scope of its accreditation. Hence, all necessary information according to ISO/IEC 17025 and the DKD-R 5-1 calibration rule is provided in a machine-readable and machine-interpretable form. Furthermore, we actively participate in the definition of general and community-specific good practice requirements for the DCC of temperature quantities as technical specifications, hosted by the German Calibration Service (DKD). In this contribution the entire XML source code of a DCC from a Pt 100 thermometer calibration will be exposed and discussed. The DCC was automatically generated using a self-implemented middleware that is compiling the metadata (i.e. customer-, order-, item- and method data) and combines it with the measured calibration data and influence conditions into a process- and lab-specific DCC template. Since it was issued as an accredited calibration certificate, the validated and authorized DCC is also equipped with the novel digital accreditation symbol to form an `eAttestation´. This advanced electronic seal with a qualified certificate was recently piloted with the German national accreditation body (DAkkS), and, after successful validation by the receiver, verifies the active accreditation status of the issuing body at the time of sealing (authorization). As it also provides all other functionalities of an electronic seal, (i.e. data integrity and authenticity), it can fully replace a digital signature on accredited DCCs. The presented temperature DCC architecture fully complies to the latest good practice definitions of the DKD and thus represents a level 4 DCC according to the utility model for machine interpretability of DCCs. This also includes basic and quantity-specific refType definitions that are linked to an online refType repository to harmonize these key semantic providing elements across other DCC-issuing laboratories. The paper and also its conference poster will not represent a general introduction and motivation for the DCC itself. It rather addresses more detailed aspects of good practice, especially for DCCs from temperature quantity calibrations and may stimulate in-depth discussions between DCC experts from the providing, utilizing and accrediting points of view. The work was performed within the national QI-Digital initiative of the German Federal Ministry for Economic Affairs and Climate Action, T2 - Global Industrie CY - Lyon, France DA - 11.03.2025 KW - Calibration KW - Digital Calibration Certificate KW - E-Attestation KW - Digital Metrology KW - QI-Digital PY - 2024 AN - OPUS4-64177 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Brunner, Nanine A1 - Melzer, Michael T1 - Digital Certificates: Enabling Automation in Quality Assurance and Metrological Traceability N2 - Automation in the metrological traceability of measurements bears high potential for a more effective quality management with less human interaction and reduced risks from manual data processing. For this purpose all metrological and administrative information in quality certificates must be provided in a fully machine-readable and machine-interpretable form. Following the well-established approach of dig-ital calibration certificates (DCCs) also other digital quality certificates are currently under development. T2 - SMSI 2025 Conference – Sensor and Measurement Science International CY - Nuremberg, Germany DA - 06.05.2025 KW - Digital metrology KW - Calibration KW - Quality assurance KW - Reference materials KW - Automation PY - 2025 UR - https://nbn-resolving.org/urn:nbn:de:kobv:b43-641930 SN - 978-3-910600-06-5 DO - https://doi.org/10.5162/SMSI2025/C6.4 SP - 171 EP - 172 PB - AMA Service GmbH CY - Wunstorf AN - OPUS4-64193 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Melzer, Michael T1 - Die Umsetzung maschinenlesbarer DCCs am Beispiel der Kraftkalibrierung nach DIN EN ISO 376 N2 - Dieser Vortrag stellt eine konkrete Umsetzung eines DCCs (Digitaler Kalibrierschein) einer Kraftkalibrierung nach nach DIN EN ISO 376 vor. Nach einer kurzen Zusammenfassung der Aspekte, die in der international gültigen Kalibriernorm geregelt sind und einer allgemeinen Vorstellung von gängigen Kalibriereinrichtungen und -gegenständen, wird zunächst auf die Besonderheiten hingewiesen, die in derartigen Kalibrierscheinen enthalten sind und bisher kaum in anderen DCCs umgesetzt wurden. Dies sind z.B. die Einbindung mehrerer Messreihen (auf- und abwärts) in teilweise unterschiedlichen Einbaupositionen, Klassifizierung, multiple relative Messunsicherheiten sowie Ausgleichsfunktionen mit mehreren Sätzen von Koeffizienten. Anschließen wird die konkrete Umsetzung dieser Angaben im DCC im Einzelnen aufgezeigt. Die präsentierten Lösungen wurden im gemeinsamen DCC Unterausschuss der DKD Fachausschüsse für Kraft und Beschleunigung sowie Drehmoment erarbeitet und werden in Kürze als pränormativer Expertenbericht erscheinen. Die Kalibrierung wurde innerhalb des akkreditierten Geltungsbereiches des BAM Kalibrierlabors durchgeführt. T2 - 329. PTB-Seminar "Berechnung der Messunsicherheit – Empfehlungen für die Praxis" CY - Berlin, Germany DA - 19.05.2025 KW - Calibration KW - Digital Calibration Certificate KW - Force Measurements KW - Digital Metrology KW - QI-Digital PY - 2025 UR - https://www.ptb.de/cms/fileadmin/internet/fachabteilungen/abteilung_8/8.4_mathematische_modellierung/8.42/329_PTB_Seminar/Tag1_S2/DCC-ISO376.pdf AN - OPUS4-64209 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER -