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|Compatible Protocols:||ISO15693, ISO14443A, ISO18000-3M3 And NFC||Cursor Output:||Support|
|Max Power Consumption:||0.65W||Color:||White|
mifare rfid reader,
rfid chip readers
This HF Micro Power RFID Reader supports transponders according to ISO 14443A, ISO 15693, ISO 18000-3M1 and ISO 18000-3M3. The reader has been integrated with an built-in antenna. RL863 is high capability, anti-jamming, small size and good quality, which brings more convenience. With its anti-collision function, the reader is able to read up to multiple transponders simultaneously.
|Operating Frequency||13.56 MHz (±7KHz)|
|Compatible Protocols||ISO15693, ISO 14443A, ISO 18000-3M3 and NFC|
I Code ILT / I Code SLI / I Code SLIX / I Code SLIX2; NTAG21x (NFC),MIFARE Classic 1K/4K,MIFARE Ultralight,
MIFARE Ultralight C,MIFARE Ultralight EV1;
TI tag-it HF Plus / TI tag-it HF Pro / Tag-it HF standard; FM1208
|Reading Range||ISO 15693||16cm|
|Working Voltage||DC 5V (USB power supply)|
|Max Power Consumption||0.65W|
Primary applications are in RFID tags for use in gaming, healthcare, pharmaceuticals, document and media management.
About ICODE ILT:
The ISO 18000-3 mode 3/EPC Class-1 HF standard allows the commercialized provision of mass adoption of HF RFID technology for passive smart tags and labels. Main fields of applications are supply chain management and logistics for worldwide use.
The ICODE ILT is a dedicated chip for passive, intelligent tags and labels supporting the ISO 18000-3 mode 3 RFID standard. It is especially suited for applications where reliable identification and high anti-collision rates are required.
The ICODE ILT is a product out of the NXP Semiconductors ICODE product family. The entire ICODE product family offers anti-collision functionality. This allows a reader to simultaneously operate multiple labels/tags within its antenna field. A ICODE ILT based label/tag requires no external power supply.
Its contactless interface generates the power supply via the antenna circuit by inductive energy transmission from the interrogator (reader), while the system clock is extracted from the magnetic field. Data transmitted from interrogator to label/tag is demodulated by the interface, and it also modulates the interrogator's magnetic field for data transmission from label/tag to interrogator. A label/tag can be operated without the need for line of sight or battery, as long as it is connected to a dedicated antenna for the targeted frequency range. When the label/tag is within the interrogator's operating range, the high-speed wireless interface allows data transmission in both directions.
Contact Person: Cherry Chen