High Frequency RFID Reader (13.56 MHz)
TCP/IP Series
1.Overview
The RFID (Radio Frequency Identity) RFH-1332-114C is a non-contact high frequency RFID reader, specially designed for use in embedded applications such as address reading or proximity control of AGV and other industrial application. It can be worked in a variety of harsh environments. The RFID reader has anti-collision function, its operating frequency is 13.56MHz.
2. Key Features
Comply with ISO14443A protocol and support M1 card and so on.
Support NXP CODE I, CODE SLI and other tags in line with the ISO15693 Protocol.
Support reading and writing, complies with ISO/IEC 18000-3 Mode.
Ethernet interface,TCP/IP protocol.
Built in RFID antenna (Integration Design of Reader and Antenna)
Read / write distance 70-90mm (industry Environment).
reading time less than 20 millisecond per 8 bits. no data mistake
Good package IP65, PBT engineering material suit industry environment application
3. Applications
It is mainly used in material management of production line, intelligent parking lot, AGV, electronic label reading and writing of forklift positioning management system.
4. Technical Data sheet
Operating Frequency13.56MHz Working Voltage10-30Vdctotal power2W Standard protocolISO/IEC 15693 and 14443ACompliance interfaceISO18000-3 modeMaximum Reading distance70-90mm Reading time20ms/8 bitInterfaceEthernetIndication 4 LedWorking Temperature -10ºC~+70ºC Storage temperature-20ºC~+85ºC Working humidity<90% CableM12 connectors Color of HousingGreen Housing.Material of HousingPBT+ABSDimension As attached drawingIP classIP65 Industry Environment
5. Dimension and picture
Installation location dimension:4-φ3mm*6mm
6. Wiring Diagram
7. RFID Sensor with Host Computer Communication Data Packet Format
This data message format is used for communication between the RFID (HF) sensor and the host computer (controller). The host computer sends commands (downstream) and the RFID sensor responds (upstream).
Command format
frame header
01Data lengthData1Data2…Data NChecksum (CAL)End of frame
FD
Data length:The length of the Data1~Data N(=N);
Checksum(CAL):From the data length to Data N (N+1 number) sum, take the lower 8 bits.
Note:The data is a hexadecimal number in the table.Start to read tagStop reading tagReading 15693 tag data
010242478BFD
010245448BFD
01035452Block number(0-1bit) CALFD
Respond
0104XXXXXXXXCALFD
Where from 3 to 6 byte is read data (4 bytes).Writing 15693 tag data
01075457Block number
(0-1B) XXXXXXXXCALFD
Where from 6 to 9 byte is written data (4 bytes)
Respond (success)
01045355434332FD
Reading Mifare tag data(S70 card)
01034D52Block number(0-3F)CALFD
Respond(success)
0110XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXCALFD
Where from 3 to 18 bytes are read data(16 bytes).Writing Mifare tag data(S70 card)
01134D57Block number
(0-3F)XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXCALFD
Where from 6 to 21 bytes are written data (16 bytes).
Respond(success)
01045355434332FD
Instruction:The RFID sensor automatically reads the tag when it is turned on.The RFID sensor reads the data stored in the tag automatically when the tag is in reading area. The RFID sensor stops reading the tag automatically after receiving the command to stop reading; and it can be restarted read the card after receiving the reading tag command.when the mifare tag is used, block cannot be read and written with block numbers 3+4n (n=0, 1, 2...), In other words, the blocks cannot be read and written with blocks numbers 3,7,11....
8. How to configure WEB server
8.1 After connecting RJ45 to PC and supply the power to the reader, start the computer's WEB browser.
8.2 Specify the IP address of the reader in the address bar of the WEB. The factory setting of the IP address is http://192.168.1.200/