Related Manuals for AEG ARE i5 MTL
Summary of Contents for AEG ARE i5 MTL
- Page 1 Manual for the RFID reader ARE i5 – MTL – RS 232 --------------------------------------------------------------------------1/21------------------------------------------------------------------------------------...
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Page 2: Table Of Contents
Content Introduction Reader installation Coordinate definition Mounting options Metal free zone in immediate environment of the antenna Optimal orientation of the antenna to the transponder moving direction Plug Cable Case Electric requirements Interface - RS232 Cold start Command set of the reader / command format General Input Output... -
Page 3: Introduction
Introduction This document describes the technical features of the ARE i5 MTL reader with air-core coil and integrated decoding electronic. It contains instructions for start-up and successful and durable operation. To reach the maximal reading distance, a correct installation is essential. -
Page 4: Mounting Options
Mounting options plane, metall free surface reader ARE I5 nut M6 Screw M6 reader Screw M6 ARE I5 Figure 2: Front- (a) and rear side (b) mounting of the reader The antenna can be attached through the mounting holes at a suitable plate. Don’t exceed 2 [N/m] when tightening the screws. -
Page 5: Metal Free Zone In Immediate Environment Of The Antenna
Metal free zone in immediate environment of the antenna It must be followed to the minimum distances shown in figure 4 and figure 5! metal free zone Figure 4: Minimum distance of the antenna to structures of metal – drawing in plane x-z Figure 4: Minimum distance of the antenna to structures of metal –... - Page 6 Optimal orientation of the antenna to the moving direction of the transponder The antenna should be mounted as close as possible at the site of the transponder. As a rule a parallel orien- tation of the antenna to the transponder is favorable in regard of the reading range. ID 1002/ ID 1002/ ARE I5...
- Page 7 Figure 8: Optimal position of the transponder above the antenna (static) Figure 9: Disadvantageous motion paths of the transponder over the antenna A transponder has to be long enough in the active reading area to achieve a reliable reading result. The max- imum reading distance will be achieved only in stationary operation.
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Page 8: Plug
Plug The reader is connected to the control unit (PC or SPS) with a RS232 interface. For power supply 12 or 24 VDC are necessary. Check the identification plate. The corresponding signals are connected to a 7-pin Hiraschmann plug on the reader side. The plug is IP 65 protected. -
Page 9: Cable
Cable The cable, to provide power supply to the reader, and connection between control unit and reader, is 5m long. On the reader side it has a 7-pin Hirschmann socket matching to the plug at the reader. For the control unit side, the RS232 interface signals are connected to a 9-pin Sub D socket. Power supply has to be connected to two single strands with cord end terminals. -
Page 10: Case
Case Material Pocan Protection class IP 65 Dimensions 365 x 265 x 50mm Weight approx. 2.0kg Working temperature 0° C to +70°C Storage temperature -20°C to +70°C Maximal humidity 95% at +50°C (non-condensing) Electric requirements Supply voltage 12V ± 0.3V (Id 1000495, 1000496) 24V ±... -
Page 11: Command Set Of The Reader / Command Format
Command set of the reader / command format General The command set, described in this chapter, defines the data exchange via the serial interface. The commands consist of a command code and optional a parameter value. A command is completed by a carriage return <CR>. -
Page 12: Answer To A Parameter Input
Answer to a parameter input After input of a valid parameter value, the reader answers with the new parameter value and a <CR>. The new parameter value has been saved. Example: Command: MD <SP> 2 <CR> Answer: 2 <CR> After input of a invalid parameter value, the reader answers with the actual valid parameter: Command: MD <SP>... -
Page 13: Ver - Software Version Of The Reader
VER – Software version of the reader The command VER asks the reader for its software version. Input format: VER <CR> Output: i5_XXXXX <CR> e.g. i5_MTR09 <CR> MD – Operation mode The operation mode of the reader is changed with the command MD. Input format: MD <SP>... -
Page 14: Cid - Suppression Of Equal Id Codes
CID – Suppression of equal ID codes If the parameter CID is on value 1 the transponder code is only sent once, if the same transponder is read several times. Only with a new transponder the new code is sent back after a successful reading. No reads do not affect this function. -
Page 15: Cn - Suppression Of No Reads
CN – Suppression of no reads When the parameter CN is on value 1, the no read messages on the serial interface are suppressed. Input format: CN <SP> Parameter <CR> Parameter: Parameter Function No reads output on the serial interface Suppression of no reads on the serial interface Output (Example): 0 <CR>... -
Page 16: Tor - Maximal Reading Time
TOR – Maximal reading time TOR is a timing parameter of the reader. It is used in operation mode 2 to limit the reading attempts. The maximal time for one reading cycle is TOR * TB. The timing parameter TB (Time base) has the default value 100 ms. -
Page 17: Algo - Algorithm
ALGO – Algorithm The reader supports 8 algorithms respectively transponder formats. With the parameter ALGO every single algorithm can be activated or deactivated. With the hexadecimal format of the parameter, every possible combination of algorithms can be masked. 00 means no algorithm, FF means all 8 algorithms. Input format: ALGO <SP>... -
Page 18: Cd - Code Presentation
CD – Code presentation The code presentation of a ISO transponder can be changed by changing the CD parameter: Input format: CD <SP> Parameter <CR> Parameter: Parameter Function Hexadecimal e.g. 145A1000004F0001 ISO animal e.g. 968 000000547368 ISO industry ISO BDE Output (Example): 2 <CR>... - Page 19 If the first reading attempt is not successful there are more reading attempts until the TOR time is expired or one reading attempt was successful (reader received the ID code by the transponder). During the whole read- ing cycle the exciter stays on. If all reading attempts stay unsuccessful a no read message is sent to the com- munication partner.
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Page 20: Md 0 - Continuous Reading Mode
MD 0 – Continuous reading mode The reader tries continuously to power up a transponder and to read it’s code. External triggering is not nec- essary. Figure 13: Continuous reading process This operation mode can be configured with the following commands: MD 0 –... -
Page 21: Contacts
Contacts To improve our products, as well as its documentation is our permanent effort. For any questions, feedback or comments please call: Sales und Marketing: ++49 (0)731-140088-0 Fax: ++49 (0)731-140088-9000 e-mail: sales@aegid.de http:\ www.aegid.de Notification of changes revision Date description of changes Editor 29.08.2007 First revision...