04-01-16
Member news
First for LogiMAT: Extremely Small RFID Label for On-Metal Applications
Schreiner ProTech will present the company's extensive range of RFID labels for marking metallic products at LogiMAT 2016 from March 8 to 10 in Stuttgart. The RFID experts will showcase the ((rfid))-DistaFerr Mini, which enables reliable communication of even the smallest components and objects. With an antenna especially designed for the innovative RFID label the ((rfid))-DistaFerr Mini has a reading range of up to one meter ? ten times the range of standard HF solutions of the same size. All RFID solutions presented by Schreiner ProTech in Hall 4, Stand 4G21 also offer a large reading range on metallic substrates and conducting materials. The labels thus ensure consistent recording and quality management throughout the entire value delivery system.
((rfid))-DistaFerr Mini: A Sensation in the UHF Range
The extremely small UHF-RFID label is ideally suited for applications on all metallic substrates. Despite measuring just 10 mm x 50 mm x 1.7 mm, thanks to UHF technology it is powerful enough to obtain good reading ranges even on narrow components or housings. It is therefore ideal for use as a service label or smart communication medium between product and machine.
((rfid))-DistaFerr Slim: Flat Master Label for Mechanical Engineering and Automotive
The ((rfid))-DistaFerr Slim label combines the benefits of UHF-RFID technology with the ability to read RFID tags on metallic substrates. Thanks to its compact design (60 mm x 23 mm x 0.5 mm) the label is suitable for very flat product marking applications such as nameplates. ((rfid))-DistaFerr Slim offers a range of at least one meter on metallic substrates. The label is particularly suited for production, service and assembly processes in mechanical engineering and equipment manufacturing as well as in automotive and metal processing industries. The flat label offers optimal, fully automated linking of the components to be assembled with the RFID master label, especially when used as RFID master nameplates on metal housings.
((rfid))-DistaFerr ESD: Robust Label for Bulk Reading
The ((rfid))-DistaFerr ESD label is 48 x 23 mm or 69 x 15 mm in size, has a thickness of 1.5 mm and offers a reading range of about two meters. This enables bulk reading of ESD containers on pallets or forklifts as well as automated empties recording and consistent documentation of washing cycles.
((rfid))-DistaFerr SL (UHF): Reading Range of up to Four Meters
The ((rfid))-DistaFerr SL label was especially designed to offer maximum reading range on components and metal containers. For individual applications, the ((rfid))-DistaFerr SL label can be programmed and provided with barcode, human-readable text or logos. Measuring 22.5 mm x 50 mm, the RFID label offers extremely impressive reading ranges of up to four meters on metal.
((rfid))-DistaFerr HighTemp: Heat-Resistant up to 230°C
Metallic objects have to undergo high temperature cycles in may industrial processes such as painting, drying or testing. The ((rfid))-DistaFerr HighTemp label guarantees process-reliable data reading from a distance of approximately two meters even at high temperatures and directly on metal. The RFID labels can withstand several cycles at up to 230 °C. The label is smaller in size than standard UHF labels. Its special high-tech material composition prevents the label from shrinking during the heat process, thus guaranteeing that the substrate remains fully covered after the heat cycle.
((rfid))-DistaFerr Mini: A Sensation in the UHF Range
The extremely small UHF-RFID label is ideally suited for applications on all metallic substrates. Despite measuring just 10 mm x 50 mm x 1.7 mm, thanks to UHF technology it is powerful enough to obtain good reading ranges even on narrow components or housings. It is therefore ideal for use as a service label or smart communication medium between product and machine.
((rfid))-DistaFerr Slim: Flat Master Label for Mechanical Engineering and Automotive
The ((rfid))-DistaFerr Slim label combines the benefits of UHF-RFID technology with the ability to read RFID tags on metallic substrates. Thanks to its compact design (60 mm x 23 mm x 0.5 mm) the label is suitable for very flat product marking applications such as nameplates. ((rfid))-DistaFerr Slim offers a range of at least one meter on metallic substrates. The label is particularly suited for production, service and assembly processes in mechanical engineering and equipment manufacturing as well as in automotive and metal processing industries. The flat label offers optimal, fully automated linking of the components to be assembled with the RFID master label, especially when used as RFID master nameplates on metal housings.
((rfid))-DistaFerr ESD: Robust Label for Bulk Reading
The ((rfid))-DistaFerr ESD label is 48 x 23 mm or 69 x 15 mm in size, has a thickness of 1.5 mm and offers a reading range of about two meters. This enables bulk reading of ESD containers on pallets or forklifts as well as automated empties recording and consistent documentation of washing cycles.
((rfid))-DistaFerr SL (UHF): Reading Range of up to Four Meters
The ((rfid))-DistaFerr SL label was especially designed to offer maximum reading range on components and metal containers. For individual applications, the ((rfid))-DistaFerr SL label can be programmed and provided with barcode, human-readable text or logos. Measuring 22.5 mm x 50 mm, the RFID label offers extremely impressive reading ranges of up to four meters on metal.
((rfid))-DistaFerr HighTemp: Heat-Resistant up to 230°C
Metallic objects have to undergo high temperature cycles in may industrial processes such as painting, drying or testing. The ((rfid))-DistaFerr HighTemp label guarantees process-reliable data reading from a distance of approximately two meters even at high temperatures and directly on metal. The RFID labels can withstand several cycles at up to 230 °C. The label is smaller in size than standard UHF labels. Its special high-tech material composition prevents the label from shrinking during the heat process, thus guaranteeing that the substrate remains fully covered after the heat cycle.