INTRODUCTION ......................5 STARTUP AND TESTING THE READER DT1 .............. 6 AEG ID INSTRUCTION SET ..................6 General ..............................6 3.1.1 Entering instuctions ........................... 7 3.1.2 Output format ............................ 7 3.1.2.1 Instruction specific output ......................7 3.1.2.2 Output after changing a parameter ....................7 3.1.2.3...
Introduction This document describes the RFID-reading device ARE DT1 and the set-up procedure. The main features of the reader are listed below: integrated USB interface selectable either communications port (similar RS232) or HID USB powered (no external supply voltage necessary) ...
Send the command „VER <CR>“ to the reader. The reader answers with the actual firmware version (e.g. AEG ID Multi-ISO V2.034). Send the command „SI <SP> 0 <CR>“ if you want to read a ISO 14443A transponder. If you want to read a ISO 15693 transponder you have to send the command „SI <SP>...
With the command CS you can change to the alternative instruction set. If the reader is set to alter- native instruction set, you can change back to the AEG ID instruction set via the command AEG (see chapter 5.3.3). 3.1.1 Entering instuctions The protocol format is as follows Command <SP>...
After entering an invalid parameter value, the system answers with the corresponding error code. Error message: MD <SP> 4 <CR> Command: NAK <SP> #02 <CR> Output: 3.1.2.3 Output at parameter query Parameter settings can be queried by sending the command without adding a parameter value. Exam- ple: MD <CR>...
3.1.5 Upper and lower case The instruction set isn’t case-sensitiv. 3.1.6 Linefeed The reader does never send a linefeed. If you use a terminal program it can add the linefeed. You have to choose the option “displace CR with CR LF”. --------------------------------------------------------------------------------10/45--------------------------------------------------------------------------------...
0 <CR> Output (example): Parameter: PARAMETER FUNCTION RS232 emu- lation HID inter- face, key- board You have to unplug the device and plug the device in again to use the new setting. Don’t forget to use the command VSAVE to save the new setting. If the reader is in HID mode, you can not send any commands to the device.
FF <CR> Output (example): Parameter: PARAMETER FUNCTION 0000h..079Fh address 3.2.6 LED – LED control With the command LED you can control the LED ring of the ARE DT1. LED <SP> parameter <CR> Input format: 1 <CR> Output (example): Parameter: PARAMETER FUNCTION...
3.2.7 RST – reset With the command RST the reader does a warmstart and loads the saved settings from the internal EEPROM. The antenna field is off after the reset. RST <CR> Input format: ACK <CR> Output (example): --------------------------------------------------------------------------------14/45--------------------------------------------------------------------------------...
FF <CR> Output (example): Parameter: PARAMETER 1 FUNCTION 0005h..079Fh address PARAMETER 2 FUNCTION 00h..FFh data 3.2.9 VER – version With the command VER the reader sends the actual firmware version. VER <CR> Input format: AEG ID V1.22 <CR> Output (example): --------------------------------------------------------------------------------15/45--------------------------------------------------------------------------------...
Instructions for reading settings 3.3.1 CE – convert error code With CE=1 the reader sends no error codes, except the no read error, during the md0 mode or the commands Get Tag. With CE=2 the reader sends the normal no read error (XXXXXXXX) if there is an error with the se- lect or anticollision.
Sequence of reading cycles Output sequence Output sequence after filtering with after filtering with CN=0 und CID=1 CN=1 und CID=1 N, N, ..,N, A, A, A, ..A, N,N, N, N, ..,N, A, N, ..N, ..N. N, N, A, A, A, N, A, A, B, A, N.
3.3.4 INIT – initialization With the command INIT all paramters of this command set are set to the default values. After that you can save the settings with the command VSAVE. INIT <CR> Input format: ACK <CR> Output (example): 3.3.5 LAA – LED automatic activity The leds can be controlled by the reader or over the interface.
3.3.7 RA – resend last answer The command RA resends the last answer sent by the reader. RA <CR> Input format: 0 <CR> Output (example): 3.3.8 TSC – time show code With the command TSC you can define the time in ms, after that the transpondercode is shown again, when the CID parameter is set to 1.
limits the reading process duration of exactly one reading cycle 01h..FFh limits the reading process duration to maximum 1..256 times 3.3.10 SI – set iso standard With this command you can switch the iso standard of the reader. SI <SP> parameter <CR> Input format: 0 <CR>...
… Note: The function VS shows just the settings that are used in the actual ISO standard. just available in the ISO 14443A standard just available in the ISO 15693 standard General reading instructions 3.4.1 GA – get active The command GA causes one reading cycle. There are different cycles for different transpondertypes. This command is only available in the ISO 14443A standard.
Mifare 7 byte UID: request (WUPA) anticollision level 1 select 1 anticollision level 2 select 2 ISO 15693: inventory The reader answers the UID of a transponder. GT <CR> Input format: 625E562A <CR> Output (example): 3.4.3 HD – halt detected code The command HD mutes the last selected transponder.
3.4.5 RD – read page With the command RD you can read out a page of the transponder. The command executes internally the commands get tag, if using mifare 1K/4K log in (with the key attuned to KM) and the reading command. RD <SP>...
3.4.6 RDM – read page manual With the command RDM you can read out a page of the transponder. The reading command is executed single. You have to do a get tag first. If you are using a mifare standard 1K/4K you have to log in, too. RD <SP>...
3.4.7 WD – write page With the command WD you write one page to the transponder. The command executes internally the commands get tag, log in (with the key attuned to KM) and the writing command. WD <SP> parameter 1 <SP> parameter 2 <SP> parameter 3 Input format mifare 1K/4K: <CR>...
3.4.8 WDM – write page manual With the command WDM you write one page to the transponder. The writing command is executed alone. You have to select the transponder first. If you are using a mifare standard 1K/4K you have to log in, too.
Mifare instructions 3.5.1 AC – anticollision With the command AC the reader executes the anticollision level 1 command. AC <CR> Input format: 595B1B80 <CR> Output (example): 3.5.2 AC2 – anticollision level 2 With the command AC2 the reader executes the anticollision level 2 command. AC2 <CR>...
PARAMETER FUNCTION key type A key type B 3.5.5 LOG – transponder log in The command LOG is only valid with mifare standard 1K/4K transponders. The log in is necessary to read or write a page: LOG <SP> parameter 1 <SP> parameter 2 <SP> parameter 3 <CR> Input format: LOG <SP>...
PARAMETER 2 FUNCTION 1 character source block PARAMETER 3 FUNCTION 1 character target block PARAMETER 4 FUNCTION 8 characters new purse value PARAMETER 5 FUNCTION 2 character optional address 3.5.7 PDC – purse decrement With this command you can decrement a value. This command is only valid with mifare standard 1K/4K. You have to log in first.
PARAMETER 4 FUNCTION 8 characters new purse value PARAMETER 5 FUNCTION 2 character optional address 3.5.8 PIC – purse increment With this command you can increment a value. This command is only valid with mifare standard 1K/4K. You have to log in first. PDC <SP>...
3.5.9 PIV – purse init value With this command you can initialize a value. This command is only valid with mifare standard 1K/4K. You have to log in first. PIV <SP> parameter 1 <SP> parameter 2 <SP> parameter 3 <SP> param- Input format: eter 4 <CR>...
PARAMETER 2 FUNCTION 1 character block PARAMETER 3 FUNCTION 8 characters value PARAMETER 4 FUNCTION 2 characters optional address 3.5.11 RQ – request The RQ command answers with the ATQA answer of the transponder. RQ <SP> parameter <CR> Input format: 4400 <CR>...
ACK <CR> Output (example): 3.5.14 WK – write key With the command WK you save a key to the EEPROM. You can save 8 different keys. It is not possible to read out the saved keys. WK <SP> parameter 1 <SP> parameter 2 <CR> Input: ACK <CR>...
ISO 15693 instructions 3.6.1 AFI – application family identifier With this command you can change the application family identifier of the reader. The reader reads only transponders, with the same application family identifier as the reader. If the application family identifi- er is set to 00h the reader reads each transponder.
parameter 3 <CR> Output (example): Parameter: PARAMETER 1 FUNCTION 1 or 2 characters block/start block number PARAMETER 2 FUNCTION 1 or 2 characters end block number PARAMETER 3 FUNCTION block is not locked block is locked 3.6.4 GS – get system information This command sends the get system information to the transponder.
PARAMETER FUNCTION 0h..FFh block number 3.6.7 LDS – lock DSFID This command locks the DSFID of a transponder. You have to do a get tag first. LDS <CR> Input format: ACK <CR> Output (example): 3.6.8 RTR – reset to ready With this command the transponder enteres the ready state.
PARAMETER 2 FUNCTION 2 characters ISO 15693 flags 3.6.10 WA – write AFI With this command the reader writes the AFI into the transponder. You have to do a get tag first. WA <SP> parameter <CR> Input format: ACK <CR> Output (example): Parameter: PARAMETER...
Reader EEPROM organisation EEPROM overview The ARE 110 contains an internal 2048 byte EEPROM. In the following table you can see the memory map. ADDRESS AEG IN- STRUCTION 0000h..0002h SNR read only 0003h..0004h internal use, read only 0005h..0009h USER 000Ah..002Fh do not chan- 0030h..007Fh...
Operating Modes of the Reader In the AEG instruction set there are two operational modes defined: MD 0 - continuous mode MD 2 - the reading process is triggered by the serial interface In the next capters can you find a detailed functional description.
exciter processor reading cycle reading cycle reading cycle interface NoRead reading process Figure 10: Software triggered reading operation with TOR>0 Please note: The TOR parameter is only active, if the GT-Command is applied. Within the time span defined by the value of TOR no NoRead will be output on the interface! MD 0 - Continuous Reading When operating continuously the exciter is switched on permanently.
Instructions To avoid any reduction of the reading distance of the reader, the reader must not be brought next to a metal surface (e.g. don’t put metallic sticker to the reader). This could lead to a significant change of the properties of the antenna circuit, which in turn reduces the reading range considerably or causes reading holes! To get reliable readings, the distance between reader and transponder must be within the specified read- ing volume.
FCC Information Federal Communications Commissions (FCC) Statement 15.21 You are cautioned that changes or modifications not expressly approved by the part responsible for com- pliance could void the user’s authority to operate the equipment. 15.105(b) This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC rules.
Hotline If there are questions or suggestions please call the hotline: Sales und Marketing: +49 (0)731-140088-0 Fax: +49 (0)731-140088-9000 e-mail: sales@aegid.de http://www.aegid.de Revisions 11.01.13 Revision 00: initial edition 30.01.13 Revision 01: chapter 3.3.9 „TSC time show code“ added chapter 3.6.9 „SF set flag“ added 09.12.13 Revision 02: new software conformation...