AEG Identifikationssysteme AREK1-1 RFID Reader User Manual ARE K1 set of comands englisch

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Set of Commands for
ARE K1 / RS232
Inhalt
INTRODUCTION ............................................................................................................ 5
MODES OF OPERATING ............................................................................................... 5
2.1
Change of Operating mode ........................................................................................................................5
2.2
Operating mode 0 - continuous mode .........................................................................................................6
2.3
Operating mode 1 - running externally triggered........................................................................................6
2.4
Operating mode 2 - reading triggered by the serial interface .....................................................................8
PROTOCOL FORMAT ..................................................................................................... 8
3.1
Echo function ............................................................................................................................................8
3.2
Entering of commands...............................................................................................................................9
3.3
Output format............................................................................................................................................9
3.3.1
Command specific response.................................................................................................................9
3.3.2
Response to a parameter change .........................................................................................................9
3.3.3
Response to a parameter query .........................................................................................................10
3.4
Parameters .............................................................................................................................................10
3.4.1
Set of parameters.............................................................................................................................10
3.5
Blank input line.......................................................................................................................................10
3.6
Erroneous entering of commands - error codes ........................................................................................11
3.7
Boot message..........................................................................................................................................11
3.8
Use of capital letters ...............................................................................................................................11
3.9
Line feed ................................................................................................................................................11
3.10
Output format for the transponder number ...........................................................................................11
3.10.1 Output format for the NoRead information .......................................................................................12
3.10.2 Output of a reader number................................................................................................................12
COMMAND SET SPECIFICATION............................................................................... 12
4.1
ALGO......................................................................................................................................................12
4.2
BD ..........................................................................................................................................................12
4.3
CID .........................................................................................................................................................13
4.4
CN ..........................................................................................................................................................14
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4.5
DIAG ......................................................................................................................................................14
4.6
EC ..........................................................................................................................................................15
4.7
GT ..........................................................................................................................................................15
4.8
INIT .......................................................................................................................................................15
4.9
MD .........................................................................................................................................................16
4.10
NID .....................................................................................................................................................16
4.11
NRD ....................................................................................................................................................17
4.12
QR1.....................................................................................................................................................17
4.13
QN1.....................................................................................................................................................17
4.14
RNR ....................................................................................................................................................18
4.15
RST.....................................................................................................................................................18
4.16
TOR.....................................................................................................................................................18
4.17
VER ....................................................................................................................................................19
4.18
VS.......................................................................................................................................................19
4.19
VSAVE................................................................................................................................................19
DESCRIPTION OF HARDWARE NEAR FUNCTIONS .................................................. 21
5.1
Cold start ................................................................................................................................................21
5.2
Interface to the master ...........................................................................................................................21
5.3
Digital trigger input.................................................................................................................................21
5.3.1
Logical level.....................................................................................................................................21
5.3.2
Timing characteristics ......................................................................................................................21
5.4
Digital trigger outputs .............................................................................................................................21
5.4.1
Logical level.....................................................................................................................................22
5.4.2
Logical function ...............................................................................................................................22
5.5
Indicating elements (LEDs).....................................................................................................................22
5.6
DIP-switches...........................................................................................................................................22
APPENDIX .................................................................................................................. 24
6.1
Glossary ..................................................................................................................................................24
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6.2
list of control characters..........................................................................................................................24
6.3
List of error messages .............................................................................................................................25
6.4
List of system commands.........................................................................................................................25
6.5
List of parameters and default values ......................................................................................................25
--------------------------------------------------------------------------------4/26--------------------------------------------------------------------------------
1
Introduction
The individual command set of a readers or decoders manufactured by AEG ID base on standardized command sets, that are specific to each class of readers/decoders. This standardized command sets are designated as ASB, which means AEG ID Standardized Command Set. The standardized command sets make it
possible to use different hardware components (within a class of readers/decoders) without modification of
the software application.
The command set of the ARE K1 is compatible to the ASB 1.0. Beyond it the ARE K1 RS232 is provided
with a special command for self-diagnosis and extended parameter settings as well.
The difference between the command set of the ARE K1 and the ASB 1.0 is made quite clear at the relevant subjects in this description.
Modes of operating
Three basic modes of operating are defined:
• Operating mode 0 (continous mode) - reader is automatically triggered
• Operating mode 1(external mode) - reader is externally triggered
• Operating type 2 (command mode)- reader is triggered by serial interface
2.1
Change of Operating mode
The operation mode of the ARE K1 can be changed out of each operation mode using the MD command1.
this behaviour is not universally applicable at ASB 1.0
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2.2
Operating mode 0 - continuous mode
When operating continuously the exciter is switched on permanently. The reading cycles are initiated periodically.
After an accomplished reading cycle the reading information is evaluated. After that data (either transponder number or NoRead code) is output to the serial interface.
exciter
processor
reading cycle
interface
reading cycle
ID
reading cycle
ID
ID
Figure 2.1: continuous operation
2.3
Operating mode 1 - running externally triggered
In operation mode 1 the exciter is turned off. As soon as the external triggered signal rises from logic 0
to 1, the exciter is started and a reading process is initiated.
trig_in
exciter
processor
interface
reading cycle
ID
Figure 2.2: external triggering -limitation of the switch period through a successful reading
After a successful reading cycle, the exciter is turned off immediately (irrespective of the trigger signal).
The next reading cycle starts at the next leading edge (0 to 1) of the trigger signal.
If a reading cycle is not successful, the reading process is controlled by the state of the external trigger
signal: further reading cycles are started as long as either a successful cycle has occurred or the external trigger signal is logic 0 again. In the latter case the identification NoRead code is output.
--------------------------------------------------------------------------------6/26--------------------------------------------------------------------------------
trig_in
exciter
processor
reading cycle
reading cycle
interface
reading cycle
NoRead
reading process
Figure 2.3: external triggering - limitation of the switch period through the Trig_In signal
Please note: In the course of the reading process no NoRead message will be output!
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2.4
Operating mode 2 - reading triggered by the serial interface
In operating mode 2, the exciter is always turned off. Triggered by the command GT, the exciter is activated. After successful reading of a transponder number the exciter is turned off automatically.
exciter
processor
reading cycle
GT
interface
ID
Figure 2.4: software triggered reading operation
If the first reading cycle yields no result (NoRead), the on-time of the exciter is limited by the parameter TOR (time out reader): Reading cycles are continuously started until either a transponder is read
successfully or the time span corresponding to the value of the parameter TOR has expired. The reader
will not interrupt the last running readout cycle. If no transponder number has been read, a NoRead is
output.
TOR
exciter
processor
interface
reading cycle
reading cycle
reading cycle
GT
NoRead
reading process
Figure 2.5: software triggered reading operation with TOR>0
Please note: Within the time span defined by the value of TOR no NoRead will be output on the interface!
Protocol format
The command set described in this chapter defines the transfer of data on the serial interface.
The commands consist of a command code and of a parameter value optionally. Commands are terminated by the control character  (13H). The control character terminates the command line.
Command codes and parameters, that means all letters and numerical values, are principally transmitted as
a sequence of ASCII characters (the value 255 (decimal) consequently as 32H, 35H, 35H; the command
RST as 52H, 53H, 54H).
3.1
Echo function
The echo function can be switched on or off.
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If the echo function is activated using the EC command, every signal sent to the reader is immediately sent
back (echoed) after receipt. Thus the echo function can be used as life indication. If the reader is controlled
by a terminal, the echo function should normally be activated.
If an echo function is not intended, e.g. in automation applications where the reader might be connected to
an PLC, the echo function should be deactivated.
3.2
Entering of commands
The protocol format is as follows
command  parameter 
The space character  separates the commands from the parameter value. The  character
terminates the command line.
For commands without parameter values (e.g. GT or RST) the  character and parameter values
are omitted. The command line is as short as this:
command .
3.3
Output format
Generally, every input terminated by  is acknowledged by the reader. The following response protocols are different:
3.3.1 Command specific response
After a correct command without parameter value is sent to the reader, the reader answers using a format, which is specific for the submitted command. Example:
Command:
GT 
Output: transponder number  or NoRead-code2 
3.3.2 Response to a parameter change
After entering a valid command together with a parameter value, the system answers by sending the parameter value and . Example:
Command:
MD  1 
Output: 1 
see chapter3.10.1
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After entering an invalid parameter value, the system answers with the corresponding error code (see chapter 3.6 ).
3.3.3 Response to a parameter query
Parameter settings can be queried by sending the command without adding an parameter value. Example:
Command:
MD 
Output: 1 
3.4
Parameters
Generally a command comes with one parameter value at the most. Command code and paramter value
are separated by SP>.
3.4.1 Set of parameters
The ARE K1 is provided with three independent sets of parameters:
• the set of parameters ex work
• the set of parameters specific to the application plus
• the actual set of parameters
The set of parameters ex work enclose all original reader settings. This set is stored in the EPROM and
can’t be changed. The set of parameters specific to the application is stored in an EEPROM. This set defines the configuration after a cold start. The actual set of parameters defines the actual function of the
decoder. It is stored in the RAM.
All changes of the parameter values have an effekt to the actual set of parameters only. This set is temporary, that means all values are lost after switching off the decoder.
Using the VSAVE command (see chapter 4.19) the actual set can be stored permanently as set of parameters specific to the application. Then all values are loaded back automatically after a cold start.
3.5
Blank input line
If a single  is input, the reader answers with a single . Example:
Command:

Output: 
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Please note: If echo mode is active, a single  forces the reader to output   (echo plus
output).
3.6
Erroneous entering of commands - error codes
If a command is not entered correctly, the reader sends one of the following error codes:
3.7
Wrong command:
 #00 
Wrong parameter:
 #02 
Boot message
After booting the system (cold and warm start) the software version is output as described for the VER
command (see chapter 4.17), if echo is active. If echo is disabled, no boot message will appear.
3.8
Use of capital letters
The standard operating system is not case-sensitive, that means capital- and small letters are treated the
same.
3.9
Line feed
A line feed character  is not sent by the decoder. If the decoder is controlled by a terminal, a line
feed can be added by the terminal software (option: replace CR by CR LF at receipt).
3.10 Output format for the transponder number
The location of the transponder bits in the ASCII characters is shown in Table 3.1:
D38 ... D32
ASC9 ASC8
D31 ... D24
ASC7 ASC6
D23 ... D16
ASC5 ASC4
D15 ... D8
ASC3 ASC2
D7 ... D0
ASC1 ASC0
1011 1101
BDH
42H 44H
1001 0010
92H
39H 32H
Table 3.1: data format of the transponder number
000 0000
00H
30H 30H
0001 1111
1FH
31H 46H
0011 0111
37H
33H 37H
Table 3.2: example of a transponder number
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The transponder ID 001F37BD92 will be transmitted on the interface using the characters 30H, 30H,
31H, 46H, 33H, 37H, 42H, 44H, 39H, 32H and .
3.10.1 Output format for the NoRead information
An unsuccessful reading cycle is represented by the NoRead character sequence (see CN command in chapter 4.3). Normally the NoRead is coded by the number FFFFFFFFFF, which can never appear as transponder code.
Alternativly at the ARE K1 a NoRead information can be output using the error messages  #09
. For this the parameter value of CN has to be set to 23.
3.10.2 Output of a reader number
For readers connected by a network the output of an individual reader identification is necessary, to assign
a message with the belonging sender device. This identification can be made activating the RNR function
(see chapter 4.14 - reader number). If the RNR function is active, each reader answer is preceded by a
reader number and a space character as well (i.e 15 ).
Command set specification
4.1
ALGO
Algo defines the type of chip used.
Input format:
Parameter
value
4.2
ALGO  Parameter 
Function
Trovan read only
PSK
output (example):
1 
note:
After correct parameter setting, Algo defines chip type used.
BD
The BD command enables the change of the baud rate.
not compatible down to ASB 1.0
--------------------------------------------------------------------------------12/26--------------------------------------------------------------------------------
Input format:
BD  Parameter 
Parameter
value
24
4.3
Function
4800 baud
9600 baud
19200 baud
38400 baud
output (example):
2 
note:
The settings are effective after a warm start using the RST command.
CID
With CID=1 only the first of in succession identical transponder numbers is output on the serial interface.
The possibly following identical transponder numbers are suppressed, as long as no new valid transponder
number is received, processed and output. NoReads do not influence the data filtering
input format:
Parameter
CID  parameter 
Function
no filter function
suppression of repeatedly read IDs
output (example):
0 
Example: A, B, C are specific different transponder numbers, N is NoRead:
Sequence of reading cycles
Output sequence after Output sequence after
filtering with CN=0
filtering with CN=1
and CID=1
and 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, C, C, C, ....... N. N, N, A, N, B, A, C,
.....
N, N, B, B, B, B, B, N, N, N, B, B, B, B, N,
N, N, B, N, N, N, N,
N,...
N,...
N, N, N, B, B, B, B, B, N, B, B, B, B, N, N,
N, N, N, B, N, N, N, N,
N, ....
....
A, B, A, C
Table 4.1: example for the effect of the CID function
annotation:
The internal reference number is cleared at the following conditions:
• after a cold start
• after a warm start
default values are underlined
--------------------------------------------------------------------------------13/26--------------------------------------------------------------------------------
• after entering the command line CID  1 
This causes that the next transponder code is output definitely.
The filter function CID picks up the results of the complete reading cycles,
while the parameter NID proceeds from the results of single readings! The filter
function CID has effect on the serial interface only. The digital output QR1 is
not effected by CID.
caution:
4.4
CN
The CN parameter defines the type of NoRead output.
input format:
Parameter
CN  parameter 
Function
issue NoReads on serial interface using FFFFFFFFFF
suppress NoReads on serial interface
issue NoReads on serial interface using  #09 5
output (example):
4.5
0 
DIAG
A self-diagnosis is executed. An antenna test is included.
input format:
DIAG 
function:
A test of the antenna is executed . After this either the message  #99
 (o.k.) is output on the interface or the message  #10  (anntenna failure).
annotation:
With an antenna failure the Error-LED is set.
parameter value 2 is not compatible down to ASB 1.0
--------------------------------------------------------------------------------14/26--------------------------------------------------------------------------------
4.6
EC
The EC parameter changes of the echo function setting.
input format:
Parameter
output (example):
4.7
EC  parameter 
Function
echo on
echo off
0 
GT
The reading command code is GT. For details to this function see chapter 2.
input format:
GT 
output:
Dependent of the parameter settings and the actual antenna input signal, three
different responses are possible in operating mode 2:
• Transponder number, e.g. 001F37BD92 
• NoRead, e.g. FFFFFFFFFF 
•  as command acknowledge, if a filter function is active, which cut
the transponder code or the NoRead result.
annotation:
4.8
In mode 2 the GT command triggers a reading process.
In mode 1 the GT command is effectiv too6.
In mode 0 the GT command has no effect.
INIT
With INIT a warm start with default values is executed.
input format:
INIT 
output:
Version number  if EC=1, otherwise  only
course:
not compatible down to ASB 1.0
--------------------------------------------------------------------------------15/26--------------------------------------------------------------------------------
EPROM
RAM
INIT
set of parameter
ex work
(default values)
actual set of
parameter
Figure 4.1: function of INIT
4.9
MD
The command MD changes the operating mode.
input format:
MD  parameter 
Parameter
Function
continuous operation
externally triggered
triggered via serial interface
output(example):
0 
4.10 NID
NID specifies the number of identical transponder numbers, which have to appear for the result ”successful reading” within a reading cycle. In the setting NID = 1, two successive readings have to show
the same transponder number.
input format:
Parameter
NID  parameter 
Function
one out of one (no effect)
two out of two
output (example):
1 
Sequence of readings
NoRead
0000125ED1, 0000125ED1
0000125ED1, 0000126ED1
Length of the reading
cycle
1 reading
2 readings
2 readings
Result of the reading cycle
NoRead
0000125ED1
NoRead
--------------------------------------------------------------------------------16/26--------------------------------------------------------------------------------
table 4.2: example for a reading cycle with NID=1
4.11 NRD
For improvement of the signal to noise ratio, a number of telegrams can be superimposed. The number
of superimpositions is determined by the value NRD.
input format:
Parameter
NRD  parameter 
Function
no superimposition - evaluation of one telegram only
superimposition of 2 telegrams
superimposition of 4 telegrams
output (example):
1 
4.12 QR1
The command QR1 changes the parameters of the digital port QR1.
input format:
Parameter
output (example):
4.13
QR1  parameter 
Function
port turned off
port turned on
port controlled by previous reading process
0 
QN1
The command QN1 changes the parameters for the digital port QN1.
input format:
Parameter
QN1  parameter 
Function
port turned off
port turned on
port controlled by previous reading process
output (example):
0 
--------------------------------------------------------------------------------17/26--------------------------------------------------------------------------------
4.14 RNR
Setting RNR not to 0 activtes the RNR fuction. Then each reader answer is preceded by a reader number and a space character as well (i.e 15 ).
input format:
RNR  parameter 
Parameter
1 ... 9
Function
RNR function not active
the one-digit reader number and  is
preceded to each reader answer
the two-digit reader number and  is
preceded to each reader answer
10 ... 99
output (example):
99  after entering RNR 99 
NAK#02  after entering RNR 1A 
4.15 RST
With RST a warm start is executed. All changed parameter values (i.e. BD) become effecive. The relays
and error LEDs are cleared.
input format:
RST 
output:
Version number  if EC=1, otherwise  is output only
4.16 TOR
Timeout for the reader. TOR is used in operation mode 2 as maximum gating time for a reading process
(see chapter 2.4). The length of the maximum gating time results from the equation gating_time = TOR
* TB.
The time constant TB (Time Base) has always the default value 100ms.
input format:
TOR  parameter 
--------------------------------------------------------------------------------18/26--------------------------------------------------------------------------------
Parameter7
...
...
255
Function
limits the reading process duration to
exactly one reading cycle
Tmax = 100ms
Tmax = 200ms
Tmax = 500ms
Tmax = 25,5s
output (example):
2 , this means 200ms.
4.17 VER
The command VER outputs the software version of the reader. The software version is permanently
stored in the program memory together with the firmware.
input format:
VER 
output:
AEG  ID  -  V1.4E 
4.18 VS
The command VS lists all current parameter settings.
input format:
VS 
output (example):
EC  0 
BD  2 
MD  2 
.....
4.19 VSAVE
All operating parameters temporarily stored are saved permanently using VSAVE.
input format:
VSAVE 
output:
ok  oder error message
course:
values > 9 are not compatible down to ASB 1.0
--------------------------------------------------------------------------------19/26--------------------------------------------------------------------------------
RAM
actual set of
parameter
EEPROM
VSAVE
set of parameter
specific to the
application
figure 4.2: function of VSAVE
function:
While storing the parameter values the EEPROM is tested by „write and verify“. On EEPROM-error the message  #03  is transmitted.
--------------------------------------------------------------------------------20/26--------------------------------------------------------------------------------
5
Description of hardware near functions
5.1
Cold start
After a cold start the system is initialized using the parameter values out of the EEPROM. The indicating elements (relays / LEDs) are cleared.
5.2
Interface to the master
The serial interface permits communication between the reader and a master (e.g. terminal or PC). The basic configuration of the interface is 19200baud and 8N1 (8 bit, no parity and 1 stop bit). With the command BD the reader can be set to a different baud rate. Changing the data format (8 data bits, no parity, 1
start- and stop bit) is not possible. The same applies to hardware-handshaking, e.g. Xon/Xoff or RTS/CTS.
5.3
Digital trigger input
For the operating mode 1 - externally triggered - a digital input channel is required. The following logical
function is defined:
5.3.1 Logical level
If the digital input is open (not connected), then it is in the logical state zero (0). By feeding the defined
input voltage the digital input has one-level (1).
5.3.2 Timing characteristics
When triggered externally, the first reading process is initiated by a change from 0 to 1 (leading edge) see chapter 2.3.
5.4
Digital trigger outputs
Two specified digital outputs are defined as follows:
--------------------------------------------------------------------------------21/26--------------------------------------------------------------------------------
Output
QR1
QN1
Function
trigger output - transponder read (QREAD)
trigger output - NoRead (QNoREAD)
Table 5.1: definition of the digital output channels
5.4.1 Logical level
At rest all digital outputs are logical 0. This means the rest contact is closed and the working contact is
open.
5.4.2 Logical function
The logical function of the digital outputs is determined by the particular parameter setting.
If QR1 = 2 resp. QN1 = 2, the logical function is defined as follows:
After cold- and warm start all trigger outputs are set to logical zero. After processing the reading result, the corresponding output is set to logical 1 according to Table 5.1. If both trigger outputs QR1
and QN1 are set to parameter value 2, therefore only one of the trigger outputs can be at logical 1 at a
time.
The result of each reading cycle is displayed at the corresponding digital output until the end of the next
reading process.
The data filtering functions for the serial interface (e.g. CN - suppression of the NoRead output or CID)
do not influence on the digital outputs.
5.5
Indicating elements (LEDs)
LED1:
LED2:
LED3:
LED4:
LED5:
LED6:
LED7:
LED8:
LED9:
5.6
on when antenna is operated
on when last read was not successful
on when last read was a success
on as long as the digital input is high
on when a hardware error was detected
flashing as long as the reader is powered and the microprocessor is working properly
on as long as commands were received on the RS 232 interface
on as long as information is transmitted from the RS.232 interface
not used
DIP-switches
In normal condion (ex work) all DIP-switches are set OFF (down).
--------------------------------------------------------------------------------22/26--------------------------------------------------------------------------------
On
DIP-Switch
If switch 1 is in position ON, the default values (see chapter 3 - firmware) are loaded out of the EPROM at
a cold start (when reader is put in operation).
DIP-switches 2 ... 8 have no function.
--------------------------------------------------------------------------------23/26--------------------------------------------------------------------------------
6
Appendix
6.1
Glossary
6.2
Telegram:
Sequence of 64 data bits transferred from the transponder to the reader.
Superimposition:
Number of superimposed telegrams for an improved signal to noise ratio adjusted by the parameter NRD.
Reading:
Interval of several telegrams, whose number is fixed by NRD. The result of a
reading is a transponder number or NoRead. In contrast to the reading process
a reading does not appear at an external interface, that means the result is
processed within the reading algorithm only.
NoRead:
If it is not possible to determine a transponder number (no header, wrong parity, ...), then the reader operates for the next internal operations with the transponder number FF FFFF FFFF (Hex) as NoRead information.
NID:
This parameter sets the number of readings with identical transponder number,
which have to appear within one reading cycle for the result ”successful reading
cycle”.
Reading cycle:
Interval of several readings. The maximum length of intervals is fixed by the
values of NRD and NID. A reading cycle is successful if within the reading cycle
the number of readings specified by NID yields the same result.
Reading process:
Interval of several readings. A reading process is started with occurrance of the
trigger condition. The reading process is either terminated by occurrence of a
successful reading cycle or through a break (time out, falling edge of the external trigger signal)8. At the end of a reading process appears always a result on
the interface9.
list of control characters
Steuerzeichen
SP
CR
NAK
DEL
Hexcode
20H
0DH
15H
23H
7FH
Bezeichnung
space character
carriage return
negative acknowledge
number sign
delete
Funktion
separates commands from parameters
terminates command line
error code
error number
change of operation mode after a cold
start
table 6.1: List of the control symbols used
In operating mode 0 is a reading process equal to a reading cycle.
The result will not appear when a data filter suppresses the result (e.g. NoRead suppression).
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6.3
List of error messages
error number
#00
#01
#02
#03
#04
#05
#06
#07
#08
#09
#10
#99
function
command code not known, wrong code
stack-error (under- / overflow)
parameter value not valid
error in EEPROM
function not supportet
reserved
reserved
reserved
reserved
kein Code gelesen (NoRead)
antenna error
system o.k. (DIAG state messages)
error-LED
no
no
no
no
no
no
no
no
no
no
yes
no
Table 6.2: List of error messages
6.4
List of system commands
commandcode
DIAG
GT
INIT
RST
VER
VS
VSAVE
function
action on interface
diagnosis / state of the reader
read transponder (get tag)
load basic configuration
warm start
Output version number
Output of all parameter values
store current configuration
state or error message
transponder number
boot message / 
boot message / 
version number
List of parameters
ok
Compability
with ASB1.0
no
yes
yes
yes
yes
yes
yes
Table 6.3: List of system commands
6.5
List of parameters and default values
comfunction
mandcode
MD
BD
EC
CN
CID
NID
NRD
RNR
mode of operation
baud rate
echo
suppression of NoRead
filter function for multiply read IDs
number of identical IDs per reading cycle
superimposition of telegrams
reader identification number
universally
defined
parameters
(ASB 1.0)
0 .. 2
0 .. 3
0, 1
0, 1
0, 1
0,1
0 .. 2
valid parameter
values for
ARE K1
0 .. 2
0 .. 3
0, 1
0 .. 2
0, 1
0,1
0 .. 2
0 .. 9, 10..
99
default-values
2 (triggered by interface)
2 (19200baud)
0 (off)
0 (output FFFFFFFFFF)
0 (filter off)
1 (two out of two)
1 (two telegrams)
0 (not active)
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QN1
digital output QN1
0 .. 2
0 .. 2
QR1
digital output QR1
0 .. 2
0 .. 2
timeout parameter for unsuccessfull reading
0...9
0...255
TOR
2 (controlled by reading
process)
2 (controlled by reading
process)
5 (500ms)
Table 6.4: List of parameters
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Create Date                     : 2010:08:12 10:06:44
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Title                           : ARE K1_ set of comands_englisch
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Author                          : smuelmi

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