Andrew Wireless Innovations Group RPT-MR801 CELLULAR REPEATER User Manual M0062A0B

Andrew Wireless Innovations Group CELLULAR REPEATER M0062A0B

SOFTWARE MANUAL

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Document DescriptionSOFTWARE MANUAL
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Date Submitted1999-08-17 00:00:00
Date Available1999-12-06 00:00:00
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Document TitleM0062A0B.PDF
Document CreatorMicrosoft Word
Document Author: Mikom

REP1009V1.xx
REP1009V1.xx ( Id.-No. 147127 )
Software manual
for band/channel selective Repeater
Copyright  MIKOM, Buchdorf 1998
All rights reserved.
No parts of this publication may be
reproduced, stored in a retrieval system, transmitted in any form or by
any means, electronical, mechanical photocopying,
recording or otherwise, without prior written permission of the
publisher.
Author:
M0062A0B.doc
Approved:
Id.-No. 148964
QA:
Page 1
6-Apr-99
REP1009V1.xx
Table of contents
LIST OF UNIT SPECIFIC ABBREVIATIONS
INTRODUCTION
INSTALLATION
SOFTWARE DOWNLOAD
3.1
3.1.1
3.1.2
Download procedure in local mode
Download procedure in local mode, software controlled:
Download procedure in local mode, manually controlled:
RUNNING THE SOFTWARE
10
4.1
Via PC or Laptop as terminal
10
4.2
4.2.1
4.2.2
4.2.3
Via modem
PSTN modem
Siemens M1 modem for GSM900
Motorola mobile ( CELLect1 card )
12
12
14
14
DESCRIPTION OF THE COMMANDS
15
5.1
Instruction modes
15
5.2
Conventions
15
5.3
5.3.1
5.3.2
5.3.3
5.3.4
5.3.5
5.3.6
5.3.7
5.3.8
5.3.9
5.3.10
5.3.11
5.3.12
5.3.13
5.3.14
5.3.15
5.3.16
5.3.17
5.3.18
5.3.19
5.3.20
Description of SET commands
SET ALARMMASK, definition of the severity level for an alarm
SET ALCTHR, setting of the ALC threshold
SET ALIAS*, enter name strings for external alarms 1 ... 4
SET ATT, sets attenuation in uplink or downlink path
SET BAUD, definition of baudrate used
SET CF, setting of the center frequency
SET CFO, setting of the frequency offset
SET DIALMETH, setting of the dialing method
SET ID, Repeater identification
SET ILA, definition of a limit for invalid login attempts
SET INITSTR, definition of a initialisation string
SET LMT, to change timeout for local maintenance interface
SET LOGIC, definition of the I/O port logic for the external alarms
SET NUM, definition of 2 phone numbers used for the automatic dial out
SET PAR, definition of parity
SET PWD, to change password
SET PWRDOWN, to switch off band modules
SET REP, definition of waiting time between alarm call trials
SET TIME, to change actual time and date
SET UID, changes user identification
16
17
18
19
19
19
20
20
20
20
21
21
21
22
22
22
22
23
23
24
24
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REP1009V1.xx
5.4
5.4.1
5.4.2
5.4.3
5.4.4
5.4.5
5.4.6
5.4.7
5.4.8
5.4.9
5.4.10
5.4.11
5.4.12
5.4.13
5.4.14
5.4.15
5.4.16
5.4.17
Description of the GET commands
GET ALARMMASK, displays the set severity level for an alarm
GET ALCTHR, displays the set value for the ALC threshold
GET ALIAS*, name strings for external alarms
GET ATT, gain setting
GET BAUD, baudrate
GET CF, set centre frequency in the GSM900 / GSM1800 band
GET CFO, frequency offset
GET ID, Repeater identification
GET ILA, displays stored number of invalid login attempts
GET INITSTR, displays the string which is used to initialize the modem
GET LMT, timeout for local interface
GET LOGIC, displays the logic of the I/O ports
GET NUM, displays stored phone numbers
GET PAR, modem parity
GET PWRDOWN, displays power down status of the modules
GET REP, defines waiting time between trials for automatic alarm call
GET TIME, to get the actual time and date
25
27
27
27
28
28
28
29
29
29
29
30
30
30
30
30
31
31
5.5
5.5.1
5.5.2
5.5.3
5.5.4
5.5.5
5.5.6
5.5.7
5.5.8
5.5.9
Status commands
STATUS ALC, displays the actual status
STATUS AMPBIAS, current consumption of the RF modules
STATUS DOOR, door open / closed
STATUS HIST, list of all occurred alarms
STATUS I2C , displays the status of the I²C bus
STATUS LBATT, response information about Lithium battery
STATUS PWR, status of the power supplies
STATUS SYNTH, modules in operation
STATUS TEMP, temperature
32
33
33
33
33
35
35
35
35
36
5.6
5.6.1
5.6.2
5.6.3
Optional status commands
STATUS ACCU, response voltage value of backup battery
STATUS EXTALARM, status of external alarms
STATUS VSWR, displays the DL antenna VSWR
37
37
37
37
5.7
5.7.1
5.7.2
5.7.3
5.7.4
5.7.5
Action commands
ALARMACKN, acknowledgement of all alarms.
BYE, disconnect Repeater from telephone line in remote mode
BYE, disconnect Repeater from local maintenance interface
DNLOAD, starts software download
VER, displays the version of software and hardware
38
38
38
39
39
39
5.8
5.8.1
5.8.2
Optional action commands
ACCUDIS, starts discharge of accumulator
STOPDIS, stops battery discharging immediately
40
40
40
5.9
5.9.1
5.9.2
5.9.3
Error messages
SYNTAX ERROR
VALUE ERROR
I²C-BUS ERROR
41
41
41
41
5.10
Features
41
INDEX
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REP1009V1.xx
LIST OF UNIT SPECIFIC ABBREVIATIONS
ALC
DL
EEPROM
I²C-Bus
LMT
MR
OMC
RF
RSSI
UL
UPS
VSWR
Automatic Level Control
Downlink
Electrical erasable programming read only memory
Inter Integrated Circuit Bus
Local Maintenance Terminal
Mikom Repeater
Operation and Maintenance Center
Radio Frequency
Receive Signal Strength Indication
Uplink
Uninterruptable Power Supply
Voltage Standing Wave Ratio
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REP1009V1.xx
1 Introduction
This manual describes the functions of the standard software REP1009V1.xx implemented in
band/channel selective Repeaters of the second generation. These Repeaters can be set locally
or remotely. A PCMCIA slot for modem operation is available. The design of the Repeater
comprises a large number of functions which the operator may monitor via terminal emulation
program or the MIKOM OMC software platform. An easy to understand and easy to learn
communication language supports the operator to query status reports from the Repeater or to
change settings.
Your Repeater is equipped with the required software which enables the operator to
communicate with the microprocessor of the control module.
The communication with the microprocessor of the control module is realized with a VT100
compatible dialogue.
The software is accessible in two different ways.
n Locally
n Remotely
Both possibilities are described below.
• The communication can be done locally by connecting a Laptop or a PC with VT100
emulation or a VT100 terminal via the control cable.
Required equipment:
- Laptop or PC with terminal program, e.g. PROCOMM
- one serial RS232 cable: SUB-D9 (female) to SUB-D9 (female)
Laptop or PC
with terminal program
figure 1-1 Repeater locally controlled
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• Furthermore the communication can be realized remotely via modem.
figure 1-2 Repeater remotely controlled
2 Installation
The actual software version is part of the delivery schedule of your Repeater unit and will be
installed in factory.
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3 Software download
It might be necessary to download another software version. This can be realized in two
different ways.
n Software download in local mode
n Software download in remote mode
3.1 Download procedure in local mode
Two different download procedures exist in local mode. The software download software or
manually controlled. After a software download previous user settings ( data default values )
might be overwritten. Before you start a software download save the set values for:
n attenuation
n ALC threshold
3.1.1 Download procedure in local mode, software controlled:
Required equipment:
- PC with terminal program, e.g. PROCOMM
- one serial RS232 cable: SUB-D9 (female) to SUB-D9 (female)
1. Check the position of DIP-Switch 4 ( position OFF ) on the control module.
DIP-Switch 4
OFF
ON
figure 3-1 Position of DIP-Switch 4
1. Switch on Repeater and PC and connect control cable. Wait until the boot process is
finished.
2. Start Repeater software and login by typing ‘User-ID1’ and ‘P-word1’.
3. Type software command:
Syntax:
DNLOAD ↵
4. Exit terminal program immediately.
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5. To start upload procedure type:
Syntax:
upload 1 ↵ or
upload 2 ↵
depending on which serial interface is available ( COM 1 or COM 2 ).
6. The copy procedure is running. You will be asked to continue by pressing any key. Now the
software download is in progress. The download lasts approximately 1 minute.
7. Software boot starts automatically.
Response: ‘MIKOM REPEATER MRx01A - SM2009 - SW:REP1009V1.xx’
ENTER <.>  TO LOGIN
3.1.2 Download procedure in local mode, manually controlled:
Required equipment:
- PC or Laptop
- one serial RS232 cable: SUB-D9 (female) to SUB-D9 (female)
1. Set the DIP-Switch 4 to position ON on the control module.
DIP-Switch 4
OFF
ON
figure 3-2 Position of DIP-Switch 4
1. To start upload procedure type:
Syntax:
upload 1 ↵ or
upload 2 ↵
depending on which serial interface is available ( COM 1 or COM 2 ).
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2. The copy procedure is running. You will be asked to continue by pressing any key. Now the
software download is in progress. The download lasts approximately 5 minutes in local
mode.
3. Software boot starts automatically.
4. Don’t forget to switch back the DIP-Switch 4 to position OFF.
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4 Running the software
4.1 Via PC or Laptop as terminal
The local mode for settings via PC has to be set. Therefore the DIP-Switch 2 has to be at
position OFF.
OFF
ON
figure 4-1 DIP-Switch 2 for local mode
F Note:
Only if a Modem M1 is used DIP-Switch 2 has to be set.
A VT100 terminal or a PC with VT100 emulation can be connected to the control module
SM2009 by a standard RS232 cable, if necessary in connection with an adapter 9 to 25.
PC or Laptop
9 contact SUB - D- Connector
male
PC
PIN
Control Module SM2009
9 contact SUB - D- Connector
male
RS 232
PIN
figure 4-2 Cable connection
The following communication mode between control module and VT100 is set initially.
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9600 baud - 8 bit - no parity -1 stopbit
These settings can only be changed after connection of the terminal. If all wanted settings have
been initialized and a modem has to be used it will be recommended to check whether the
settings comply with the capabilities of the modem and the line. Modifications are possible by
software commands.
F Note:
Settings on the Repeater can be performed after the following procedure
only.
After connecting the PC to the Repeater, following procedure is necessary to get access to the
program.
MIKOM REPEATER MRx01A - SM2009 - SW: REP1009V1.xx
ENTER <.> 
1. Step:
Type the two keys ( . ) FULLSTOP and (↵) ENTER
You have to type the keys:
2. Step:
ENTER PASSWORD
You have to enter:
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UserID1 ↵
The input is case sensitive, no blanks. After three mistrial follows
disconnection.
3. Step:
F Note:
↵
ENTER USER ID
You have to enter:
F Note:
P-word1 ↵
The input is case sensitive, no blanks. After three mistrials follows
disconnection.
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4.2 Via modem
The Repeater will be delivered with a preset init string. This init string was used for internal
tests. In case no connection can be established check the local conditions and change the init
string if necessary.
Three different modem types are available
• PSTN modem ( DigiTel 34P ), line modem
• Siemens M1 for GSM900, wireless modem
• Motorola for GSM900 or GSM1800, wireless modem
The following list contains the description of the AT commands:
&F
Sets modem to factory configuration
E0
Echo OFF
S0=1
Auto answer ON; the GSM module / M1 modem goes offhook after the first ringing signal.
S7=60
Waiting time for connection after dialing; permissible values
are from 0 ... 60.
B13
Setting to 9600 bps asynchronous mode
\ N6
Auto reliable operation
\ N0
Standard operation, no error correction
+CBST=7,0,1
Set bearer service type to 9600 bps. Non-transparent
connection ( uses RLP )
X3
Not waiting for dial tone; usually used at PABX.
*P1
Switch ON phone
&K4
Enables XON / XOFF flow control
Table 4.2-1 List of AT commands
4.2.1 PSTN modem
A Hayes compatible PSTN modem can be connected to the control module SM 2009 by the
control cable, which is subject of the delivery schedule.
The init string for the PSTN modem is:
AT&F X3 E0 S0=2
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control module SM2009
cable connection modem
PCMCIA
figure 4-3 Connection of control module and PSTN modem
The following communication mode between control module and VT100 is initially set for the
use of a Hayes-compatible modem.
9600 baud - 8 bit - no parity -1 stopbit
These settings can only be changed after connection of the terminal. If a different modem has
to be used or if the quality of the line does not allow to use the set parameters, the settings
have to be changed in PC mode. This is the same for all other parameters, which can be set
previously for modem mode by software.
F Note:
Settings on the Repeater can be performed after the following procedure
only.
After connection to the Repeater following response appears on screen:
1. Step:
ENTER USER ID
Response on the screen:
ENTER USER ID:------
You have to enter:
UserID1 ↵
F Note:
The input is case sensitive, no blanks. After three mistrial follows
disconnection.
2. Step:
ENTER PASSWORD
Response on the screen:
ENTER PASSWORD:--------
You have to enter:
P-word1 ↵
F Note:
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The input is case sensitive, no blanks. After three mistrials follows
disconnection.
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4.2.2 Siemens M1 modem for GSM900
The Siemens M1 modem can be connected to the control module SM 2009 by the control
cable, which is subject of the delivery schedule.
If an individual antenna of a wireless modem is required, the antenna cable may be fed through
a watertight grommet at the connector panel of the housing.
The init string for the Siemens M1 modem is ( without reset circuit )
AT E0 S0=1 B13 S7=60 \N6
The init string for the Siemens M1 modem has to be set by PC / Laptop ( with reset circuit )
AT E0 S0=1 B13 S7=60 \N6 &W
This is the standard init string. If no connection can be established check the local conditions
and change the init string if necessary.
4.2.3 Motorola mobile ( CELLect1 card )
The Motorola mobile ( Dual band ) together with the CELLect1 card can be connected to the
control module SM 2009 by the control cable, which is subject of the delivery schedule.
If an individual antenna of a wireless modem is required, the antenna cable may be fed through
a watertight grommet at the connector panel of the housing.
The init string for the Motorola module is:
AT&F &K4 E0 S0=2 *P1 \N0+CBST=7,0,1
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5 Description of the commands
All available software commands are described in the following chapter.
5.1 Instruction modes
There are four different types of commands:
- SET commands
- to change variable parameters
- GET commands
- to ask status of variable parameters
- STATUS commands
- to ask status of fixed parameters
- ACTION commands
- to perform certain actions
5.2 Conventions
The instruction is written in capital letters followed by selections in square brackets to be
entered.
SET NUM [x] [number] ↵
The selections can be entered directly following the instruction e.g. SET NUM, but in case
only SET NUM has been entered the computer queries for the missing information in an
interactive dialogue. As an example, x can be substituted by 1 or 2 corresponding to the
wanted position in the telephone list and number can be substituted by the telephone number,
which may consists of up to 25 characters.
↵ stands for carriage return. It indicates to press the return key. If, in the above example, the
telephone number 2716 with priority 2 has to be entered the following command has to be
typed:
SET NUM 2 2716 ↵
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5.3 Description of SET commands
SET commands are used to set variable parameters. These parameters are stored non-volatile
in an EEPROM.
Table 5.3-1 presents a summary of SET commands.
Command
SET ALARMMASK
SET ALCTHR
SET ALIAS*
SET ATT
SET BAUD
SET CF
SET CFO
SET DIALMETH
SET ID
SET ILA
SET INITSTR
SET LMT
SET LOGIC
SET NUM
SET PAR
SET PWD
SET PWRDOWN
SET REP
SET TIME
SET UID
* Option
Description
definition of the severity level for an alarm
setting of the ALC threshold
alarm message name for external alarms
attenuation in DL and UL path
definition of local interface baudrate
sets the center frequency in UL and DL
sets frequency offset in UL and DL
changes the dialing method pulse / tone
Repeater identification
sets the maximum value for invalid login attempts
definition of string for initialisation of the modem
changes timeout of local interface
definition of the logic of I/O ports for external alarms
two phone numbers for automatic dial out
definition of parity
changes password
switch off band/channel modules
definition of waiting time between alarm calls
changes date and time
changes user identification
Table 5.3-1 Summary of SET commands
If a SET command has been entered not correctly SYNTAX ERROR or VALUE ERROR will
be returned depending on whether the erroneous input was due to an error in correct writing
the command or the erroneous input was a non-plausible value.
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5.3.1 SET ALARMMASK, definition of the severity level for an alarm
Syntax:
SET ALARMMASK ↵
Response:
ENTER ALARMMASKSTRING: ↵
ENTER BAND MODULE (1-8) : ↵
ENTER PERCEIVED SEVERITY(CRI,MAJ,MIN,WAR,DIS): ↵
where the ALARMMASKSTRING must be one of the following strings
PWR-SUPPLY-MAIN
PWR-SUPPLY-8V
PWR-SUPPLY-12V
LITHIUM-BATT
PASSWORD
TEMPERATURE
DOOR
SYNTH-LOCK-UL
SYNTH-LOCK-DL
ALC-UL
ALC-DL
CURRENT-AT-8V
CURRENT-AT-12V
or if the corresponding option is active
ACCU-VOLTAGE-L1
ACCU-VOLTAGE-L2
VSWR
EXT-ALARM-1
EXT-ALARM-2
EXT-ALARM-3
EXT-ALARM-4
For each alarmmask string it is also possible to set the severity level for all modules at the same
time.
Syntax:
SET ALARMMASK-ALL ALC-UL CRI CRI CRI CRI CRI CRI CRI CRI
With this command it is possible to change the severity level for an alarm message. The
severity level for an optional alarm can only be changed if the option is enabled. There will be
no alarm message if the severity level has been set to DIS ( disabled ), or if the corresponding
band/channel module has been switched off with the command SET PWRDOWN ENA.
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The severity parameter defines five levels for an alarm message and can be set in the alarm
mask. The severity levels indicate how the capability of the managed object has been affected.
The levels are described below and are ordered from most severe to least severe:
- Critical:
The critical severity level indicates that a service affecting condition has
occurred and an immediate corrective action is required to restore the capability
of the managed object.
- Major:
The major severity level indicates that a service affecting condition has
developed and an urgent corrective action is required. Such a severity can be
reported, for example, when there is a severe degradation in the capability of the
managed object and its full capability must be restored.
- Minor:
The minor severity level indicates the existence of a non-service affecting fault
condition and that corrective actions should be taken in order to prevent a more
serious failure. Such a severity can be reported, for example, when the detected
alarm condition is not currently degrading the capability of the managed object.
- Warning:
The warning severity level indicates the detection of a potential or impending
service affecting failure before any significant effect has been caused. Action
should be taken to further diagnose and correction of the problem shall prevent
a more serious service affecting failure.
- Disable:
The disable severity level indicates that the detected failure has no influence
on the system and shall not be sent to the terminal.
The alarm message for all status alarms will not be sent, if the alarm mask is set to DIS or the
module is deactivated with PWRDOWN ENA.
5.3.2 SET ALCTHR, setting of the ALC threshold
With this command it is possible to set the ALC threshold. The value for the ALC threshold
will be determined in factory and can be found on a label on the RF modules. In case a second
module will be mounted or a module will be exchanged the values for the ALC threshold have
to be compared. If the modules have different values, the higher value must be set, due to the
fact that the threshold can only be set for the whole Repeater.
F Note:
The higher ALC threshold value has to be set.
Syntax:
SET ALCTHR ↵
Response:
BAND-MODULE
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ENTER MODE (UL or DL) : ↵
ENTER ALC THRESHOLD 0 - 255 : ↵
***CAUTION***
THE FOLLOWING ACTION MAY CAUSE DAMAGE TO
EXTERNAL HARDWARE
PRESS  +  TO PERFORM CHANGE
Allowed values are binary digits 0 ... 255. Default value is 255.
5.3.3 SET ALIAS*, enter name strings for external alarms 1 ... 4
Syntax:
SET ALIAS ↵
Response:
ENTER ENTRY - 1 TRU 4: ↵
ENTER ALARM ACTIVE NAME STRING -MAX 30 CHARS
: ↵
ENTER ALARM NON ACTIVE NAME STRING -MAX 30 CHARS
: ↵
You will be asked to enter a name string for the external alarms 1 ... 4. Two different names
can be defined, the first input is the name for the alarm active name and the second input is the
name if the alarm is not active. Be aware the OMC needs appropriate key words for
recognising an alarm.
5.3.4 SET ATT, sets attenuation in uplink or downlink path
↵
Syntax :
SET ATT
Response:
ENTER BAND MODULE ( 1-8 ): ↵
ENTER MODE ( UL or DL): ↵
ENTER ATTENUATION: ↵
You will be asked to enter the band module, mode and attenuation ( attenuation in dB, only
values between 0 and 30 dB in steps of 2 dB ).
5.3.5 SET BAUD, definition of baudrate used
Syntax:
SET BAUD [ baudrate ] ↵
Response:
ENTER BAUDRATE – 1200, 2400, 4800 OR 9600:
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After first power on or change of battery a baudrate of 9600 is used.
5.3.6 SET CF, setting of the center frequency
Syntax:
SET CF ↵
Response:
ENTER BAND MODULE (1-8): ↵
ENTER CF UL : ↵
ENTER CF DL : ↵
The frequency can be set within the range of the GSM900 / GSM1800 band.
5.3.7 SET CFO, setting of the frequency offset
Syntax:
SET CFO ↵
Response:
ENTER BAND MODULE (1-8): ↵
ENTER CFO UL : ↵
ENTER CFO DL : ↵
The frequency offset can be set in the range of +/- 1 MHz in steps of 10 kHz.
5.3.8 SET DIALMETH, setting of the dialing method
Syntax:
SET DIALMETH ↵
Response:
ENTER DIALING METHOD:
T - TONE DIALING
P - PULSE DIALING
ENTER CHOICE: ↵
The default method is tone dialing.
5.3.9 SET ID, Repeater identification
Syntax:
SET ID ↵
Response:
ENTER ID STRING - MAX 25 CHARS: ↵
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where Repeater ID may be max. 25 symbols. All characters between 21 H and 7E H will be
accepted.
If you skip this request, the default Repeater identification appears:
Response:
Repeater ID:
MIKOM
5.3.10 SET ILA, definition of a limit for invalid login attempts
Syntax:
SET ILA ↵
Response:
ENTER VALUE : ↵
The maximum allowed number of invalid login attempts have to be entered. Default value is 8.
Setting range is 3 – 10 invalid login attempts.
5.3.11 SET INITSTR, definition of a initialisation string
Syntax :
SET INITSTR [Initstring] ↵
Response:
ENTER MODEM INIT STRING - MAX 60 CHARS
: ↵
where :
[ Initstring ] is max. 60 symbols, 21 H to
7E H is allowed.
Initstring stands for the string stored in the modem for initialisation. It is defined in the manual
of the modem.
This stored INIT STRING was used for internal tests. In case no connection can be established
check the local conditions and change the INIT STRING if necessary
F Note:
Use upper case characters for entry.
5.3.12 SET LMT, to change timeout for local maintenance interface
Syntax:
SET LMT ↵
Response:
ENTER VALUE: ↵
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Enter the local maintenance terminal timeout in minutes. LMT can be set in the range from 5 to
99 minutes. Default value is 25 minutes.
5.3.13 SET LOGIC, definition of the I/O port logic for the external alarms
With this command it is possible to set the logic of the I/O ports for the external alarms. The
logic can be changed for each alarm separately. The default settings of the I/O ports on the
control module are LLHH. This command is only available if the option “External Alarms” is
active.
Syntax:
SET LOGIC↵
Response:
ENTER
ENTER
ENTER
ENTER
ALARM
ALARM
ALARM
ALARM
LEVEL
LEVEL
LEVEL
LEVEL
(H/L):
(H/L):
(H/L):
(H/L):
↵
↵
↵
↵
5.3.14 SET NUM, definition of 2 phone numbers used for the automatic dial out
Syntax:
SET NUM ↵
Response:
ENTER ENTRY - 1 TRU 2: ↵
ENTER PHONE NUMBER - MAX 25 CHARS: ↵
Depending on the entry the numbers can have the priority 1 or 2 and max. 25 symbols are
allowed.
5.3.15 SET PAR, definition of parity
Syntax :
SET PAR [ parameter ] ↵
Response:
SELECT PARAMETER:
7 BITS ODD PARITY
7 BITS EVEN PARITY
8 BITS NO PARITY
enter choice
- 1
- 2
- 3
After first power on or change of battery the interface module is preset to 8 Bits no parity.
5.3.16 SET PWD, to change password
Syntax:
SET PWD ↵
Response:
ENTER ENTRY
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1 to 4 different passwords are possible. Users with password 1 or 2 have full access to the
Repeater ( SET and GET commands possible). Users with password 3 or 4 have restricted
access ( only GET commands are available ).
After typing this command you are requested to type the old password and finish with ↵.
ENTER OLD PASSWORD: ----- ↵
If the old password was correct you are requested to type the new password ( 1 - 10 symbols
long - letters, numbers, case sensitive ) and finish with ↵.
ENTER NEW PASSWORD – MIN 1 MAX 10 CHARS: --------- ↵
To store the new password the new password has to be typed again.
ENTER NEW PASSWORD AGAIN TO CONFIRM : ---------- ↵
PASSWORD HAS BEEN CHANGED
After first power on or change of batteries the default password ( to be determined for each
customer ) is used.
5.3.17 SET PWRDOWN, to switch off band/channel modules
Syntax:
SET PWRDOWN ↵
Response:
ENTER BAND MODULE ( 1-8 ): ↵
SET POWER DOWN MODE: E - ENABLE POWER DOWN
D - DISABLE POWER DOWN
ENTER CHOICE: ↵
After typing the command you are asked to enter band module and the mode.
Power down enable, means to switch off the band module.
5.3.18 SET REP, definition of waiting time between alarm call trials
If an alarm call is not acknowledged, the call will be repeated in time intervals, until it is
acknowledged. The minimum value for the waiting time is 5 minutes.
Syntax :
SET REP [ cycle length ] ↵
Response:
ENTER CYCLE LENGTH IN MIN: ↵
REP CYCLE: 10 MIN
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where :
[ cycle length ] is the waiting time in minutes
5 - 99 is allowed ( default: 10 min )
5.3.19 SET TIME, to change actual time and date
Syntax:
SET TIME ↵
After carriage return the software queries line by line for the input as follows:
ENTER
ENTER
ENTER
ENTER
ENTER
PRESS
YEAR < YYYY >
MONTH < MM >
DAY < DD >
HOURS < HH >
MINUTES < MM >
CR TO START
(SKIP
(SKIP
(SKIP
(SKIP
(SKIP
WITH
WITH
WITH
WITH
WITH
CR):
CR):
CR):
CR):
CR):
5.3.20 SET UID, changes user identification
Syntax:
SET UID ↵
Response:
ENTER ENTRY
1 TRU 4: ↵
1 to 4 user identification terms are possible. Users with user ID 1 or 2 have full access to the
Repeater ( SET and GET commands possible). Users with ID 3 or 4 have restricted access
( only GET commands are available ).
After typing this command you are requested to type the old UID and finish with ↵.
ENTER OLD USER ID: ----- ↵
If the old UID was correct you are requested to type the new UID and finish with ↵.
ENTER NEW USER ID - MIN 1 MAX 10 CHARS:: --------- ↵
To store the new UID type it again.
ENTER NEW USER ID AGAIN TO CONFIRM : ---------- ↵
USER ID HAS BEEN CHANGED
After first power on or changing of the Lithium battery the default password ( to be
determined for each customer ) will be loaded.
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5.4 Description of the GET commands
GET commands are used to ask for the status of variable parameters.
Table 5.4-1 presents a summary of GET commands.
Command
Description
GET ALARMMASK
GET ALCTHR
GET ALIAS*
GET ATT
GET BAUD
GET CF
GET CFO
GET DIALMETH
GET ID
GET ILA
GET INITSTR
GET LMT
GET LOGIC
GET NUM
GET PAR
GET PWRDOWN
GET REP
GET TIME
definition of the severity level for an alarm
setting of the ALC threshold
displays all name strings of external alarms
attenuation in DL and UL path
baudrate of the local interface
lists center frequencies of 8 band modules
frequency offset
information about dial method pulse / tone
Repeater identification
sets the maximum value for invalid login attempts
initialisation string for the modem
timeout of the local interface
definition of the logic of I/O ports for external alarms
two phone numbers for automatic dial out
parity ( communication parameter of the local interface )
displays state if a band module is powered down
waiting time between alarm calls via modem
date and time of system
* Option
Table 5.4-1 Summary of GET commands
If a GET command has been entered not correctly, SYNTAX ERROR will be returned.
By typing the GET command all status information are given. Due to the fact that the report is
very long the GET report can be split in two parts. You have to type GET1 to see the first part
and GET2 to see the second part.
In the following an example of a GET1 and a GET2 report is given.
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figure 5-1 Example of a GET1 report
figure 5-2 Example of a GET2 report
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5.4.1 GET ALARMMASK, displays the set severity level for an alarm
Syntax:
GET ALARMMASK ↵
Response:
*** A L A R M M A S K ***
PWR-SUPPLY-MAIN: CRI
PWR-SUPPLY-8V : CRI
PWR-SUPPLY-12V : CRI
LITHIUM-BATT
: WAR
ACCU-VOLTAGE-L1*: WAR
ACCU-VOLTAGE-L2*: MIN
VSWR*
: MAJ
EXT-ALARM-1*
: WAR
EXT-ALARM-2*
: WAR
EXT-ALARM-3*
: WAR
EXT-ALARM-4*
: WAR
PASSWORD
: WAR
BAND-MODULE
1/2
TEMPERATURE
: CRI
DOOR
: WAR
BAND-MODULE
SYNTH-LOCK-UL : CRI
CRI
SYNTH-LOCK-DL : CRI
CRI
ALC-UL
: CRI
CRI
ALC-DL
: CRI
CRI
CURRENT-AT-8V : MAJ
MAJ
CURRENT-AT-12V : MAJ
MAJ
3/4
CRI
WAR
CRI
CRI
CRI
CRI
MAJ
MAJ
CRI
CRI
CRI
CRI
MAJ
MAJ
5/6
CRI
WAR
CRI
CRI
CRI
CRI
MAJ
MAJ
CRI
CRI
CRI
CRI
MAJ
MAJ
7/8
CRI
WAR
CRI
CRI
CRI
CRI
MAJ
MAJ
CRI
CRI
CRI
CRI
MAJ
MAJ
* Optional
The alarmmask string will only be displayed if the corresponding option is implemented.
Depending on the system configuration the response might be different compared to the
example above.
5.4.2 GET ALCTHR, displays the set value for the ALC threshold
Syntax:
GET ALCTHR ↵
Response:
BAND-MODULE
1/2
ALC THRESHOLD UL : 170
ALC THRESHOLD DL : 200
3/4
5/6
7/8
5.4.3 GET ALIAS*, name strings for external alarms
Syntax:
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Response:
NAME
EXT.
EXT.
EXT.
EXT.
EXT.
EXT.
EXT.
EXT.
STRINGS
ALARM 1
ALARM 1
ALARM 2
ALARM 2
ALARM 3
ALARM 3
ALARM 4
ALARM 4
FOR ALARMS
ACTIVE
NON ACTIVE
ACTIVE
NON ACTIVE
ACTIVE
NON ACTIVE
ACTIVE
NON ACTIVE
–
–
–
–
–
–
–
–
EXT.
EXT.
EXT.
EXT.
EXT.
EXT.
EXT.
EXT.
ALARM
ALARM
ALARM
ALARM
ALARM
ALARM
ALARM
ALARM
FAILURE
OK
FAILURE
OK
FAILURE
OK
FAILURE
OK
or
UPS ALARM ACTIVE
UPS NON ACTIVE
BATTERY VOLTAGE LOW
BATTERY VOLTAGE OK
UPS DOOR OPEN
UPS DOOR CLOSED
BATTERY DOOR OPEN
BATTERY DOOR CLOSED
5.4.4 GET ATT, gain setting
Syntax:
GET ATT ↵
Response:
BAND-MODULE
CF UL [MHz] 833.5
CF DL [MHz] 947.5
CFO UL [kHz]
CFO DL [kHz]
ATT UL [dB]
ATT DL [dB]
5.4.5 GET BAUD, baudrate
Syntax:
GET BAUD ↵
Response:
LOCAL - INTERFACE : 9600 bps, 8 bits, NO PARITY
( also 4800, 2400 or 1200 are possible)
5.4.6 GET CF, set centre frequency in the GSM900 / GSM1800 band
Syntax:
GET CF ↵
Response, e.g. for the GSM900 system:
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BAND MODULE
CF UL [MHz] 833.5
CF DL [MHz] 880.5
CFO UL [kHz]
CFO DL [kHz]
ATT UL [dB]
ATT DL [dB]
5.4.7 GET CFO, frequency offset
Syntax:
GET CFO ↵
Response, e.g. for the GSM900 system:
BAND MODULE
CF UL [MHz] 833.5
CF DL [MHz] 880.5
CFO UL [kHz]
CFO DL [kHz]
ATT UL [dB]
ATT DL [dB]
5.4.8 GET ID, Repeater identification
Syntax:
GET ID ↵
Response:
REPEATER ID: MIKOM
5.4.9 GET ILA, displays stored number of invalid login attempts
Syntax:
GET ILA ↵
Response:
ILA Invalid login attempts:
5.4.10 GET INITSTR, displays the string which is used to initialize the modem
Syntax:
GET INITSTR ↵
Response:
If a Hayes compatible modem is used:
MODEM INITSTRING: AT&F &K4 E0 S0=2
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5.4.11 GET LMT, timeout for local interface
Syntax:
GET LMT ↵
Response:
TIMEOUT FOR LMT : 25 min
5.4.12 GET LOGIC, displays the logic of the I/O ports
Syntax:
GET LOGIC ↵
Response:
EXT. ALARM LEVEL: L L H H
5.4.13 GET NUM, displays stored phone numbers
Syntax :
GET NUM [ x ] ↵
where:
[ x ] is priority in the list, may be 1 or 2
Syntax:
GET NUM ↵
Response:
PHONE NUMBER 1: 0000
PHONE NUMBER 2: 0000
or
5.4.14 GET PAR, modem parity
Syntax:
GET PAR ↵
Response:
LOCAL-INTERFACE : 9600 bps, 8 bits, NO PARITY
5.4.15 GET PWRDOWN, displays power down status of the modules
Syntax:
GET PWRDOWN ↵
Response:
BAND-MODULE
PWR DOWN MODE: ENA
DIS
This command displays the status of the band modules.
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If a module is switched off the response is ‘POWER DOWN MODE ENA’.
If a module is switched on the response is ‘POWER DOWN MODE DIS’.
5.4.16 GET REP, defines waiting time between trials for automatic alarm call
Syntax:
GET REP ↵
Response:
REP CYCLE : 10 min
( Possible range is 5....99 min )
5.4.17 GET TIME, to get the actual time and date
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Syntax:
GET TIME ↵
Response:
TIME : 13:30:20
DATE : 02-12-98
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5.5 Status commands
Status commands are used to receive information about fixed parameters.
Table 5.5-1 presents a summary of STATUS commands.
Command
Description
STATUS ACCU*
see chapter 5.6.1
STATUS ALC
ALC in DL and UL for each band module
STATUS AMPBIAS
current consumption of the RF modules
STATUS DOOR
door open/ closed
STATUS EXTALARM * see chapter 5.6.2
STATUS HIST
history of alarms
STATUS I2C
status of the I²C bus
STATUS LBATT
Lithium battery
STATUS PWR
power supply
STATUS SYNTH
modules in operation / not in operation
STATUS TEMP
actual temperature inside Repeater cabinet
STATUS VSWR *
see chapter 5.6.3
* Option
Table 5.5-1 Summary of STATUS commands
By typing STATUS commands all status information are given.
figure 5-3 Example of a STATUS report
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5.5.1 STATUS ALC, displays the actual status
Syntax:
STATUS ALC ↵
Response:
BAND-MODULE
ALC-UL
: OK
ALC-DL
: OK
OK
ALARM < CRI >
If the Repeater exceeds the set ALC threshold an alarm will be released. The value for the
ALC threshold is written on a label on the conversion module. The alarm may have one of the
severity levels.
5.5.2 STATUS AMPBIAS, current consumption of the RF modules
Syntax:
STATUS AMPBIAS ↵
Response:
BAND-MODULE
CURRENT-AT-8V :OK OK
CURRENT-AT-12V:OK ALARM < CRI >
Displays the status of the current consumption in the conversion modules. In case of a defect
conversion module, the values might be too low or too high, which results in an alarm
message. The alarm can have on of the severity levels
5.5.3 STATUS DOOR, door open / closed
Syntax:
STATUS DOOR ↵
Response :
BAND MODULE
DOOR :
1/2
OPEN
3/4
5/6
7/8
< WAR >
A DOOR OPEN condition results in an alarm message. The alarm may have one of the five
severity levels.
5.5.4 STATUS HIST, list of all occurred alarms
Syntax:
STATUS HIST ↵
Response:
HISTORY OF ALARMS:
NO ALARMS STORED
In the following example there is also a status hist listing depicted, after the alarms have been
acknowledged.
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figure 5-4 Example of a STATUS HIST report
The following table contains a list of all available alarm:
NO.
10
11
12
13
14*
15*
16*
17*
**
ALARM NAME
AMPLIFIER BIAS
POWER SUPPLY 8 V
POWER SUPPLY 12 V
POWER SUPPLY MAINS
SYNTH
DOOR
VSWR**
ALC
ACCU VOLTAGE**
LITHIUM BATTERY VOLTAGE
OVERTEMP
INVALID LOGIN ATTEMPT
I2C BUS
EXT. ALARM 1**
EXT. ALARM 2**
EXT. ALARM 3**
EXT. ALARM 4**
ALARM ACTIVE STATUS
FAILURE
FAILURE
FAILURE
FAILURE
FAILURE
OPEN
ALARM
FAILURE
LOW
LOW
FAILURE
FAILURE
FAILURE
FAILURE
FAILURE
FAILURE
Alarms default settings, changeable by software instruction SET ALIAS
Only available if the option is active
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5.5.5 STATUS I2C , displays the status of the I²C bus
Syntax:
STATUS I2C ↵
Response:
I2C BUS OK
or
I2C BUS FAILURE < WAR >
This alarm may have one of the possible severity levels. A defect ribbon cable between the
control module and the modules might be the cause for an I²C bus failure or if a Repeater was
disconnected from mains.
5.5.6 STATUS LBATT, response information about Lithium battery
Syntax:
STATUS LBATT ↵
Response:
LITHIUM BATTERY OK
or
LITHIUM BATTERY VOLTAGE TOO LOW
If the voltage of the Lithium battery is < 1 V, an alarm will be released.
5.5.7 STATUS PWR, status of the power supplies
Syntax :
STATUS PWR ↵
Response:
PWR-SUPPLY-8V
PWR-SUPPLY-12V
PWR-SUPPLY-MAINS
: OK
: OK
: OK
In case of power supply 12 Volts failure.
Response:
PWR-SUPPLY-12V
FAILURE < WAR >
If power is available the message is OK, if no power can be detected a failure will be displayed.
5.5.8 STATUS SYNTH, modules in operation
Syntax :
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Response:
BAND-MODULE
SYNTH-LOCK-UL: OK
SYNTH-LOCK-DL: OK
OK
FAIL
< CRI >
A defect synthesizer indicates that the conversion module has to be exchanged.
5.5.9 STATUS TEMP, temperature
Syntax:
STATUS TEMP ↵
Response:
BAND-MODULE
1/2
TEMP [deg C] : 56
3/4
5/6
7/8
In case 4 Repeaters are installed, the temperature will be displayed for each unit with a
resolution of 1° C. The accuracy is ± 2° C.
An alarm will be released at a temperature ≥ +75° C
The response then is: TEMPERATURE = 76 °C, Temperature Alarm - Stage 1
Another alarm will be released at a temperature ≥ +90° C.
The response then is: TEMPERATURE = 91 °C, Temperature Alarm - Stage 2
RF stages are in POWER DOWN mode as long as the temperature alarm stage 2 exists and
will be switched on again if the temperature is below +85° C.
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5.6 Optional status commands
In case of implementing optional modules like external alarms, battery backup module or
VSWR following commands are available.
5.6.1 STATUS ACCU, response voltage value of backup battery
Syntax:
STATUS ACCU ↵
Response:
ACCU-VOLTAGE-L1 :
ACCU-VOLTAGE-L2 :
OK
OK
If the voltage of the backup battery is < 7.7 V, a warning will be released ( L1 ).
If the voltage of the backup battery is < 7.0 V, an alarm will be released ( L2 ).
5.6.2 STATUS EXTALARM, status of external alarms
Syntax:
STATUS EXTALARM ↵
Response:
EXT.
EXT.
EXT.
EXT.
ALARM
ALARM
ALARM
ALARM
OK
OK
FAILURE < WAR >
FAILURE < WAR >
5.6.3 STATUS VSWR, displays the DL antenna VSWR
Syntax:
STATUS VSWR ↵
Response:
VSWR
: OK
The VSWR module measures the voltage standing wave ratio of the DL output antenna port.
If the VSWR falls below approximately 10 dB an alarm is released.
This enables the provider to know the status of the cable to the antenna. If a cable is defective
the VSWR will decrease and the alarm will be released. The alarm can be forwarded to an
OMC, so that faults and irregularities can be recognised and eliminated rather quick.
The alarm has one of the severity levels ( DISable, WARning, MINor, MAJor, CRItical ).
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5.7 Action commands
Action commands are used to perform a certain kind of action without an additional parameter.
Table 5.7-1 presents a summary of action commands.
Command
Description
ACCUDIS *
ALARMACKN
BYE
BYE
DNLOAD
STOPDIS *
VER
* Options
starts to discharge the accumulator, see chapter 5.8.1
acknowledgement of all occurred alarms
disconnect Repeater from telephone line in remote mode
disconnect Repeater from local maintenance interface
starts software download
stops to discharge the accumulator, see chapter 5.8.2
revision number of software
Table 5.7-1 Summary of action commands
5.7.1 ALARMACKN, acknowledgement of all alarms.
Syntax:
ALARMACKN ↵
Response:
ALARM ACKNOWLEDGED
Entered alarms in the alarm list can be acknowledged by simply ringing back a dn typing
ALARMACKN.
Acknowledged alarms will be indicated in the STATUS HIST with ‘-ack’. As soon as the
alarms have been acknowledged the alarm relay will be reset and the summary LEDs switch to
green light again. Additionally connected devices for alarm indication will be switched off with
this command. All data of the STATUS HIST are lost if the Repeater will be booted or if the
Repeater was disconnected from mains.
A new failure will be written immediately in the STATUS HIST.
5.7.2 BYE, disconnect Repeater from telephone line in remote mode
Syntax:
BYE ↵
5.7.3 BYE, disconnect Repeater from local maintenance interface
Syntax:
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Response:
LOGOUT FROM LOCAL MAINTENANCE INTERFACE
5.7.4 DNLOAD, starts software download
Syntax:
DNLOAD ↵
It is not possible to interrupt this process after typing the command DNLOAD. If there is no
input for about 1 minute the Repeater boots automatically.
A separate documentation is available for the remote download procedure.
Exit terminal program immediately.
To start upload procedure type:
Syntax:
upload1.bat
upload2.bat
or
depending on which serial interface is available ( COM 1 or COM 2 ).
5.7.5 VER, displays the version of software and hardware
Syntax :
VER ↵
Response:
HW MRx01A – SM2009 SW REP1009 V1.xx
*actual version number
Displays the hardware configuration ( control module SM2009 ) and the integrated software
version.
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5.8 Optional action commands
5.8.1 ACCUDIS, starts discharge of accumulator
Syntax:
ACCUDIS ↵
Response:
START DISCHARGE OF BACKUP BATTERY
Starts to discharge the backup battery and stops automatically if the minimum voltage is
reached.
5.8.2 STOPDIS, stops battery discharging immediately
Syntax:
STOPDIS ↵
Response:
BATTERY DISCHARGE STOPPED
Stops the discharge of the backup battery immediately.
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5.9 Error messages
There are two error messages resulting from erroneous inputs and one error message that
results from hardware failure.
5.9.1 SYNTAX ERROR
This error message will be returned if a command is written not correctly or if the written
command does not exist. The computer is ready for new inputs immediately.
5.9.2 VALUE ERROR
This error message will be returned if a non-plausible value has been entered. Possibly, the
value was out of the defined range, as e.g. in case of a negative number, or it was not in the
defined range of the character set as e.g. 19H in INIT STR.
5.9.3 I²C-BUS ERROR
This error occurs if a part of the hardware has been damaged, e.g. the control module cannot
get access to a synthesizer, because of a bad ribbon cable or an I²C-Bus slave ties the one line
of the bus to ground.
5.10 Features
1. By pressing the arrow keys ↑ or ↓, the last ten commands, stored in the command buffer
will be repeated forward and backward.
2. To correct a typing error use backspace function as usual.
3. After typing a command of an option which is not active, the response is “OPTION NOT
ACTIVE”.
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6 Index
Init string
for Motorola modem 14
for PSTN modem 12
for Siemens M1 modem 14
used in factory 12
Installation 6
Action commands
ALARMACKN 39
BYE 39
DNLOAD 40
VER 40
AT commands 12
Login procedure
in modem mode 13
Commands
GET 26
SET 16
STATUS 33
Communication
locally 5
remotely 6
Modem 11
Modem types 12
Motorola (Flare) 14
PSTN 12
Siemens M1 14
Error message 42
Errors
I²C-Bus 42
Syntax error 42
Value error 42
Optional action commands
ACCUDIS 41
STOPDIS 41
Gain
Settings via modem 12
GET commands
GET ALARMMASK 28
GET ALCTHR 28
GET ALIAS* 29
GET ATT 29
GET BAUD 29
GET CF 30
GET CFO 30
GET ID 30
GET ILA 30
GET INITSTR 31
GET LMT 31
GET LOGIC 31
GET NUM 31
GET PAR 31
GET PWRDOWN 32
GET REP 32
GET TIME 32
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Repeating commands 42
Running the software
via Laptop/PC 10
via modem 12
SET commands
SET ALARMMASK 17
SET ALCTHR 19
SET ALIAS 19
SET ATT 19
SET BAUD 20
SET CF 20
SET CFO 20
SET DIALMETH 20
SET ID 21
SET ILA 21
SET INITSTR 21
SET LMT 22
SET LOGIC 22
SET NUM 22
SET PAR 22
SET PWD 23
SET PWRDOWN 23
SET REP 24
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REP1009V1.xx
STATUS I2C 36
STATUS LBATT 36
STATUS PWR 36
STATUS SYNTH 37
STATUS TEMP 37
STATUS commands, optional
STATUS ACCU 38
STATUS EXTALARM 38
STATUS VSWR 38
SET TIME 24
SET UID 24
Severity levels 18
Software download 7
local mode 7
STATUS commands
STATUS ALC 34
STATUS AMPBIAS 34
STATUS DOOR 34
STATUS HIST 34
M0062A0B.doc
Id.-No. 148964
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Source Exif Data:
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File Type Extension             : pdf
MIME Type                       : application/pdf
PDF Version                     : 1.2
Linearized                      : No
Encryption                      : Standard V1.2 (40-bit)
User Access                     : Print, Copy, Annotate, Fill forms, Extract, Assemble, Print high-res
Creator                         : Microsoft Word
Create Date                     : 06 April 1999 08:35
Title                           : M0062A0B.PDF
Author                          : Mikom
Producer                        : Acrobat PDFWriter 3.0 for Windows
Subject                         : 
Modify Date                     : 1999:04:06 08:37:31
Page Count                      : 43
EXIF Metadata provided by EXIF.tools
FCC ID Filing: BCR-RPT-MR801

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