Extremely Ultra Low Temperatures of UHF RFID Label tags uses thin and flexible material used is able to survive utral-low temperatures upto -200°C (392°F) degrees for the Cryogenic storage industry used is the storage facilities to maintain accurate autoID data of samples accurate and precise details, locations, full and detailed description, and handling procedures for tissue and stem cell samples stored in vials, small diameter cryotubes & cryovials,
Extremely Ultra Low Temperatures of UHF RFID Label tags uses thin and flexible material used is able to survive utral-low temperatures upto -200°C (392°F) degrees for the Cryogenic storage industry used is the storage facilities to maintain accurate autoID data of samples accurate and precise details, locations, full and detailed description, and handling procedures for tissue and stem cell samples stored in vials, small diameter cryotubes & cryovials, cardboard freezer boxes, polypropylene cryo/freezer boxes, cell culture plates and othercontainers.
Allows for Tracking & Trace means accurately recordings, identifying, locating and delivering auditable reports of samples in the science laboratory and the complete storage lifecycle. Suitable for real-time tracking and inventory of small diameter cryotubes & cryovials, cardboard freezer boxes, polypropylene cryo/freezer boxes, cell culture plates, and other containers.
UHF RFID Labels Tags for CryoGenic Ultra Low Temperatures of -200°C (392°F) UHF RFID Label Tags are rated to standards Gen2 Class1 ISO18000-6C EPC 96 Bits Read & Write UHF RFID Working Frequency: EPC Class1 Gen2 with Global Frequency of 860MHz to 960MHz (ETSI & FCC etc).
These UHF RFID label tags are an ideal tracking for CryoGenic Ultra Low Temperatures of -200°C (392°F) applications for tracking & Trace data information and records, identifying, locating and delivering fast data & information and of reports of samples in the science laboratories and clinics for the complete storage lifecycle of samples. Data & information and reports of samples are made available in real-time tracking and inventory of cryotubes & cryovials, cardboard freezer boxes, polypropylene cryo/freezer boxes, cell culture plates, and other containers.
Technical Specification:
• Working Frequency to EPC C1 Gen2 with Global frequency 860MHz to 960MHz (ETSI & FCC) for the European and UK as well as the USA and Canada market.
• UHF RFID Labels Tags suitable for CryoGenic Ultra Low Temperatures of -200C (-392°F)
• Read Range: 0.5Mts (depends on reader, antenna and environment etc.)
• EPC data encoding, barcode and human visible Thermal transfer information printing
• Customized Size and customized RFID performance.
• Manufacturer of IC Impinj and Monza R6 Chip set.
Cryogenic storage industry faces many challenges using RFID Technologies for automatic Identification purposes for extreme temperatures even freezer temperatures ranging from -200°C (392°F) for tissue and stem cell samples stored in vials, as many difficulty problems arise for materials of the label and adhesive as well as the operations and functions of the UHF RFID technologies to work in ultra low temperatures of -200°C (-392°F).
UHF RFID Labels Tags for CryoGenic Liquid Nitrogen Storage Ultra Low Temperatures of -200°C (-392°F) used for storage facilities to maintain accurate data of samples precise location, detailed description, and handling procedures.
Ultra High Frequency (UHF) Radio Frequency Identification (RFID) is now commonly used at ambient temperatures and above in many industrial and consumer applications. The focus of many new developments today is to survive high temperatures less then -200°C (-392°F) for industrial paint-shop processes and other applications. On the other end, there are medical applications with the need of conserving live samples at freezing temperatures matching the boiling point for liquid nitrogen of -200°C (-392°F) .
Live biological samples need to be kept below -200°C (392°F) to avoid degradation. Uncontrolled temperature increase during inventory or retrieval of vials and straws is the biggest threat destroying viable samples. Until now, RFID solutions did not address these types of harsh environments, as these low temperatures are typically outside the specification of such products.