User Manual
Contents
1. OxBB Length 02 There are several effective bytes that including XOR follows this column Node ID 02 Destination Node Address Number xx Xx Low byte first 00 00 Broadcast to each reader Function It will be transmission ability of each different code commana Low byte frist Data Data length is not fixed according to its purpose XOR XOR each byte from Node ID to Last Data byte with OxFF REPLY DATA FORMAT Data length Byte Head 02 Fixed OxAA OxBB Length 02 There are several effective bytes that including XOR follows this column Node ID 02 Destination Node Address Number xx Xx Low byte first 00 00 Broadcast to each reader Function It will be transmission ability of each different code command Low byte frist Status Reply result if succeed is 0 other fail Data Data length is not fixed according to its purpose XOR XOR each byte from Node ID to Last Data byte NOTE if from Length to XOR have a data is AA then should follow a data 0x00 but length don t changed While a command send and after 100ms no reply then consider this command failed Command List 10 20 30 4 SIN o0 70 SU 90 100 110 120 130 140 150 160 170 180 190 200 20 20 230 240 250 Initialize port 0x0101 Set device node number 0x0102 Read device node number 0x0103 Read device Mode 0x0102. Sample Host to Reader aa bb 09 00 00 00 03 02 46 ff a6 b8 a6 Respond aa bb 07 00 52 51 03 02 00 08 Oa 12 Mifare Hlta Ox 0204 Function Hilta card Host to reader aa bb 05 00 00 00 04 02 06 Respond aa bb 06 00 52 51 04 02 00 05 13 Mifare Authentication 0x0206 Function authenticate Card Key Stroe in RC500 Format aa bb xx 00 00 00 06 02 Auth_mode Block KeyEE CHK Auth_mode Authenticate mode 0x60 Key A 0x61 Key B Block Authenticate block KeyEE Key store in RC500 EEPROM group from 0 to 31 total 32 Sample Host to Reader aa bb 08 00 00 00 06 02 60 04 01 61 Authenticate Block4 Key group 01 Respond aa bb 06 00 11 12 06 02 00 07 14 Mifare Authentication2 0x0207 Function authenticate Card Format aa bb xx 00 00 00 07 02 Auth_mode Block xx xx xx xx xx xx XOR Auth_mode Authenticate mode 0x60 KEY A 0x61 KEY B Block Authenticate block Sample Host to Reader aa bb Od 00 00 00 07 02 60 04 ff ff ff ff ff ff 61 Authenticate Block 4 Key A FF FF FF FF FF FP Respond aa bb 06 00 52 51 07 02 00 06 15 Mifare Read 0x0208 Function Read block Format aa bb 06 00 00 00 08 02 Block XOR Block which block want read Sample Host to Reader aa bb 06 00 00 00 08 02 04 Oe Respond aa bb 16 00 52 51 08 02 00 00 00 00 00 00 00 00 00 00 00 00 00 12 34 56 78 01 Tenth to sixteenth byte is Data 16 Mifare Write 0x0209 Function write block Format aa bb 16 00 00 00 09 02 Block DO D1
3. xor check Sample Host to Reader aa bb 06 00 00 00 06 01 64 63 Respond aa bb 06 00 52 51 06 01 00 04 60 Set Led color 0x0107 Host To Reader aa bb 06 00 00 00 07 01 03 05 set Red amp green LED on Respond aa bb 06 00 bf bf 07 01 00 06 Tenth data is LED parameter function as below 0 LED_RED Off LED_GREEN Off l LED RED On LED_GREEN Off 2 LED GREEN Off LED RED On 3 LED_GREEN On LED_RED ON 7 Set reader working status 0x0108 not use in this device 8 Set antenna status 0x010c Host To Reader aa bb 06 00 00 00 Oc 01 00 OD set antenna off Tenth data is Antenna status parameter 0 Close Filed 1 Open Filed 9 Mifare Request 0x0201 Function U Request Type a Card Format aa bb 06 00 00 00 01 02 req_code XOR req_code Request mode req_code 0x52 request all TypeA card In filed req_code 0x26 request idle card sample Host To Reader aa bb 06 00 00 00 01 02 52 51 Respond aa bb 08 00 52 51 01 02 00 04 00 04 TagTypef 0x4400 ul tra_li ght Ox0400 M fare Cer S50 0x0200 Mf are Mne S70 0x4403 Mfare LESFire 0x0800 Mfare Pro 0x0403 Mfare Prox 10 Mifare anticollision 0x0202 Function card anticollision Format aa bb 05 00 00 00 02 02 00 Respond aa bb Oa 00 52 51 02 02 00 46 ff a6 b8 a4 46 ff a6 b8 is card serial number 11 Mifare Select 0x0203 Function Select card Format aa bb 09 00 00 00 03 02 xx xx xx xx XOR Ninth to twelfth is card serial number
4. 4 Set buzzer beep 0x0106 Set Led color 0x0107 Set reader working status 0x0108 Set antenna status 0x010c Mifare Request 0x0201 Mifare anticollision 0x0202 Mifare Select 0x0203 Mifare Hlta 0x 0204 Mifare Authentication1 0x0206 Mifare Authentication2 0 x0207 Mifare Read 0x0208 Mifare Write 0x0209 Mifare Initval 0x020A Mifare Read Balance Ox 020B Mifare Decrement 0x020C Mifare Increment 0x020D Mifare Restore 0x020E Mifare Transfer 0x020F Mifare UltraLight Anticoll 0x0212 Mifare UltraLight Write 0x 0213 Write key store in RC500 EEPROM T 10 Initialize port 0x0101 Function set baud rate Format aa bb 06 00 00 01 01 Baud_para xor Chk Baud parameter T 0 4800 1 9600 2 14400 3 19200 4 28800 5 38400 6 57600 7 115200 sample Host To Reader aa bb 06 00 00 00 01 01 03 03 Set Baud Rate as 19200 Respond aa bb 06 00 bf ff 01 01 00 40 20 Set device node number 0x0102 A abb 07 00 00 00 02 01 00 00 03 set device node number 0x00 00 3 Read device node number 0x0103 A abb 05 00 00 00 03 01 02 R ead device node number 4 Read device Mode 0x0104 function read device mode and version Host to Reader aa bb 05 00 00 00 04 01 05 Respond aa bb 12 00 52 51 04 01 00 43 52 35 30 30 4c 52 2d 31 32 30 33 11 C R5 0 0 LR 1 2 03 SIT Set buzzer beep 0x0106 Function beep format aa bb 06 00 00 00 06 01 Delay XOR Delay 10ms beep time XOR is
5. D2 D3 D4 D5 D6 D7 D8 D9 Da Db De Dd De Df XOR Sample write data to Block4 Host to Reader aa bb 16 00 00 00 09 02 04 00 00 00 00 00 00 00 00 00 00 00 00 12 34 78 56 07 Respond aa bb 06 00 52 51 09 02 00 08 17 Mifare Initval 0x020A Function initialize purse Format aa bb 0a 00 00 00 0a 02 Block VO V1 V2 V3 XOR 18 Mifare Read Balance 0x020B Function read balance Format aa bb 06 00 00 00 OB 02 Block XOR Return four byte balance 19 Mifare Decrement 0x020C Function decrease balance Format aa bb 0a 00 00 00 Oc 02 Block VO V1 V2 V3 XOR 20 Mifare Increment 0x020D Function increase balance Format aa bb Oa 00 00 00 OD 02 Block VO V1 V2 V3 XOR 21 Mifare Restore 0x020E Function Restore a mifare_one block data to buffer Format aa bb 06 00 00 00 OE 02 Block XOR 22 Mifare Transfer 0x020F Function Transfer buffer data to a block Format aa bb 06 00 00 00 OF 02 Block XOR 23 Mifare UltraLight Anticoll Ox 0212 Function U UltraLight anticollision respond ultralight ID Format aa bb 05 00 00 00 12 02 CHK Sample Host to Reader aa bb 05 00 00 00 12 02 10 Respond aa bb Od 00 52 51 12 02 00 04 Ifae 11 14 7a 00 d9 04 If ae 11 14 7a 00 is card serial number J 24 Mifare UltraLight Write 0x0213 Function write mifare Ultralight 25 Format aa bb 0a 00 00 00 13 02 Page DO D1 D2 D3 XOR Page which page want write data DO D3 data J XOR xor check Sample Host to Reader aa bb O
6. RFID R80 Module Serial Reader Protocol User Manual 1 Mifare Standard N 1024 bytes EEPROM divided into 16 sectors with 64 bytes on each sector 100 000 write endurance cycles 10 years data retention ISO 14443 A 13 56MHz transponder frequency 106 kbit baud rate Bit wise anti collision Up to 10 cm operating distance 4 byte unique serial number Random number generator 2 bytes access key per sector Individual access condition for each sector Purse functionality Technical Specification Power supply 5V 80 100mA Interface 232 TTL Transmission speed 19200 bps R W distance of up to 60mm up to 100mm with bigger antenna size depending on TAG Storage temperature 40 C 85 C Operating temperature 0 C 70 C 3 Communication setting The communication protocol is byte oriented Both sending and receiving bytes are in hexadecimal format The communication parameters are as follows Baud rate 19200 bps Data 8 bits Stop 1 bit Parity None Flow control None 4 Dimension k veereree o L arianna r P 7 Dimension 41X18 mm Note The module s pin same as DIP28 PIN Character mmm HTS current include antenna manana ime fe ee ed a HS en STS Default 19200 N 8 1 Data format Binary HEX hexadecimal Data package Head Length Node ID Function Code COMMAND Data length Byte Head 02 Fixed OxAA
7. a 00 00 00 13 02 04 88 88 88 88 15 Respond aa bb 06 00 52 51 13 02 00 12 Write key store in RC500 EEPROM Format U aa bb xx 00 00 00 1602 Auth_mode group xx xx xx xx xx xx XOR Auth_mode 0x60 KEY A 0x61 KEY B ignore in this command Group 0 31 write RC500 Eeprom Address from 0x80 to Ox1FF total 32 group XX XX XX XX XX XX KEY should be writed to EEPROM Sample Host to Reader aa bb Od 00 00 00 16 02 60 01 ff ff ff ff ff ff 75 Write group0l Key FF FF FF FF FF FF Respond aa bb 06 00 11 12 16 02 00 17
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