RFID high-temperature electronic tag D15- Instrument Network

The RFID high-temperature electronic tag D15 mainly adopts a special antenna design and is encapsulated in ABS engineering plastic, which can effectively prevent metal interference with RFID signals, enabling tags attached to metal to achieve good reading performance, even farther than reading in air. This product is waterproof, acid resistant, alkali resistant, and collision resistant, and can be used outdoors. We can install this tag on fixed assets on metal or non-metal surfaces, install RFID recognition devices at entrances and exits, and combine it with a real-time monitoring platform for data center assets to achieve comprehensive visibility and real-time information updates of assets, and monitor their usage and flow in real time.

Technical parameters of RFID high-temperature electronic tag D15
Operating Frequency	125KHz/134Khz/(American Standard)902-928MHz,(european standard) 865-868MHz
Protocol standards	EPC Class1 Gen2, ISO18000-6C ISO1443A
Scan Distance	2-300CM (depending on the device)
chip type	TK4100、EM4200、EM4305、T5577、FM1108、Mifarel S50、Ultralight、I Code2、Ntag 203、Alien H3
Chip capacity	64bits/96bits/256bits/512bits/1024bits/2048bits
rewrite cycle	10one million time
Data Storage	50year
RFID high-temperature electronic tag D15 physical parameters
Appearance color	black
Encapsulant	ABS
Product size	15mm*3mm
Product weight	4g
Installation method	Screws and rivets
protection grade	IP68
Product packaging	200pcs/box
RFID high-temperature electronic tag D15 environmental parameters
operation temperature	-30℃~+85℃
storage temperature	-40℃~+230℃
Working humidity	＜95%

RFID high-temperature electronic tag D15advantage:

1. Operating frequency of RF tag
The working frequency range of RF tags is 860 MHz -930 MHz. The tag chip contains an automatic tuning mechanism, which makes the electronic tag more stable in commonly used media environments and has excellent environmental adaptability.
2. Memory area of RF tag
The memory area of the RF tag should include a tag identification area (TID area), an item identification area (EPC area) of no less than 128 bits, a user data area (User area) of no less than 512 bits, and a reserved area (Reserved area) of 64 bits.
Unique identification of 3 RF tags

The TID area of the RF tag should contain the unique identifier of the tag.

Basic functions of RF tags
Supports all mandatory and access commands of ISO/IEC 18000-6 Type C. Meet the multi label anti-collision requirements of ISO/IEC 18000-6 Type C. This electronic tag has high read and write efficiency, advanced data integrity and error detection capabilities. In addition, it contains anti-collision mechanisms and self suppression functions for read tags, which perform better than general electronic tags in multi tag recognition applications.
5 Data Security

Support locking, unlocking, and deactivation functions. The RF tag can be set with a 32-bit access password and a 32-bit kill password. The access password and deactivation password should support permanent locking, which means they are not readable or writable. The TID (96 bit) area should be permanently locked and cannot be unlocked. The UII and User areas support locking and unlocking functions and meet the corresponding requirements of ISO/IEC 18000-6 Type C.

6. Encoding and storage of RF tags
Print the corresponding Code39 barcode and related identification information on the front of the label. The data written into the RF tag should be consistent with the barcode encoded data printed on the front of the paper and the characters for human recognition.
The barcode number is the asset number of the electrical equipment, and the EPC of the electronic label is set as the asset number of the electrical equipment.
The unique identification information of the TID area of the tag can be associated with the asset number written in the EPC area and archived to increase anti-counterfeiting performance.
7. Material of RF tags
The label surface material is made of PET material.
8. RF tag read and write frequency
More than 100000 times
9. Storage time of RF tag data
More than 20 years

RFID high-temperature electronic tag D15Application areas: anti-counterfeiting identification, logistics tracking, biometric identification, industrial automation, location patrol, laundry shops, unique identification for automotive engines, chemical raw material and power identification, underground pipelines, and areas that require use in harsh environments such as high temperature wear resistance and corrosion resistance.

1. Operating frequency of RF tag
The working frequency range of RF tags is 860 MHz -930 MHz. The tag chip contains an automatic tuning mechanism, which makes the electronic tag more stable in commonly used media environments and has excellent environmental adaptability.
2. Memory area of RF tag
The memory area of the RF tag should include a tag identification area (TID area), an item identification area (EPC area) of no less than 128 bits, a user data area (User area) of no less than 512 bits, and a reserved area (Reserved area) of 64 bits.
Unique identification of 3 RF tags

The TID area of the RF tag should contain the unique identifier of the tag.
Basic functions of RF tags
Supports all mandatory and access commands of ISO/IEC 18000-6 Type C. Meet the multi label anti-collision requirements of ISO/IEC 18000-6 Type C. This electronic tag has high read and write efficiency, advanced data integrity and error detection capabilities. In addition, it contains anti-collision mechanisms and self suppression functions for read tags, which perform better than general electronic tags in multi tag recognition applications.
5 Data Security
Support locking, unlocking, and deactivation functions. The RF tag can be set with a 32-bit access password and a 32-bit kill password. The access password and deactivation password should support permanent locking, which means they are not readable or writable. The TID (96 bit) area should be permanently locked and cannot be unlocked. The UII and User areas support locking and unlocking functions and meet the corresponding requirements of ISO/IEC 18000-6 Type C.
6. Encoding and storage of RF tags
Print the corresponding Code39 barcode and related identification information on the front of the label. The data written into the RF tag should be consistent with the barcode encoded data printed on the front of the paper and the characters for human recognition.
The barcode number is the asset number of the electrical equipment, and the EPC of the electronic label is set as the asset number of the electrical equipment.
The unique identification information of the TID area of the tag can be associated with the asset number written in the EPC area and archived to increase anti-counterfeiting performance.
7. Material of RF tags
The label surface material is made of PET material.
8. RF tag read and write frequency
More than 100000 times
9. Storage time of RF tag data
More than 20 years

Application areas of RFID high-temperature electronic tag D15: anti-counterfeiting identification, logistics tracking, biometric identification, industrial automation, location patrol, laundry shop, unique identification of automobile engines, chemical raw material and power identification, underground pipelines, and areas that require use in harsh environments such as high temperature wear resistance and corrosion resistance.