Nokia Network Card 12 GSM MODULE REMOTE I O User Manual

NOKIA 12 GSM MODULE  
REMOTE I/O CONTROL GUIDE  
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ACRONYMS AND TERMS  
Acronym/term  
Description  
ASCII  
American Standard Code for Information  
Interchange  
AT  
Attention  
CORBA  
CSD  
GPRS  
GPS  
GSM  
I/O  
Common Object Request Broker Architecture  
Circuit Switched Data  
General Packet Radio Service  
Global Positioning System  
Global System for Mobile Communications  
Input/Output  
M2M  
Machine-to-Machine, Mobile-to-Machine,  
Machine-to-Mobile  
NITZ  
SMS  
SW  
Network Indication and Time zone  
Short Message Service  
Software  
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1.  
ABOUT THIS DOCUMENT  
This document describes how the Nokia 12 GSM module can be used in  
Remote I/O control mode. The methods for controlling a module in this  
operation mode are described, as well as how to increase security.  
Before using the product, it is important to read the safety instructions and  
notifications at the end of this document, see chapter 10.  
For more information about the Nokia 12, other Nokia M2M products, and  
application development for M2M, please visit Forum Nokia and M2M links at  
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2.  
INTRODUCTION  
2.1  
GENERAL  
The Nokia 12 GSM Module provides wireless connectivity and remote  
management possibilities for machine-to-machine (M2M) applications and other  
wireless solutions. The Nokia 12 GSM Module has two variants:  
RX-2 is dual band EGSM900/GSM1800 product  
RX-9 dual band GSM850/GSM1900 product.  
The Nokia 12 GSM Module supports EGPRS, GPRS, HSCSD (not supported in  
RX-9), CSD, and SMS.  
Simple I/O applications can be easily implemented using the Nokia 12 GSM  
Module in the Remote I/O control, which offers message personalising, secure  
messaging, and timing functionality for SMS controlled I/O applications.  
Additional intelligence for I/O applications can easily be implemented with Java.  
Java technology enables upgrading the application software, IMlet, also  
remotely.  
The Nokia 12 GSM Module enables also location service in the Remote I/O  
control. Location coordinates can be easily queried by SMS.  
The Remote I/O control is explained in this document.  
Note: Some services described or mentioned in this document, such as GPRS, are  
network dependent. Please contact your network service provider for details.  
2.2  
REMOTE I/O CONTROL  
In the Remote I/O control the Nokia 12 GSM Module is controlled with, for  
example, a compatible mobile phone. Control messages are sent as text  
messages from the mobile phone to the Nokia 12 GSM Module. Based on the  
information in the text message, the Nokia 12 GSM Module in turn controls a  
device or machine attached to it through the M2M system connector.  
Table 1. Functions in the Remote I/O control  
Function  
Control a device  
Details  
Switch devices on or off  
Switch devices on or off for a period of time  
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Monitor a device  
Personalize  
Find out if a device is already on or off  
Receive alarm messages if a device has been switched on or off  
Receive alarm messages if a specified alarm limit has been crossed  
Define your own device commands (aliases)  
Disable acknowledgements for device commands  
Select the frequency of alarm messages (alarm once/continuously)  
Identify the calling party and give permissions for device control  
Position  
Get position information through the Nokia 12 GSM Module when connected to a  
GPS device  
The Nokia 12 GSM Module processes the control message it receives, and  
sends the response as a text message back to the originator. Received and  
recognised control messages are not stored in the Nokia 12 GSM Module  
memory. If a text message is not recognised as a control message, it is stored  
on the SIM card or Nokia 12 GSM Module memory as a normal text message.  
Before you can send control messages to the Nokia 12 GSM Module in order to  
control or monitor the device attached to it, you must configure the Nokia 12  
GSM Module. Use the Nokia 12 Configurator software, which can be  
downloaded at http://www.forum.nokia.com or  
http://www.americas.forum.Nokia.com. Some configurations are also possible  
with control messages; others require that Configurator is used.  
Note: To use Configurator, you need the Nokia 12 GSM Module and a test board.  
The Nokia 12 GSM Module is connected to a compatible PC and Configurator with  
the test board. A power supply, data cable, antenna adapter, antenna, and SIM  
card are also needed. All these items are included in the Nokia 12 GSM Module  
test board sales package.  
Attach the device to be controlled or monitored with control messages to the  
general-purpose inputs and outputs of the M2M system connector of the Nokia  
12 GSM Module. There are 11 inputs of which the first three (1-3) are analog  
and the rest (4-11) are digital. The Nokia 12 GSM Module has also 9 digital  
output pins on the M2M system connector. If the information available from the  
device is continuous, select one of the three analog input pins. If the information  
is on/off information, use the inputs 4-11. The nine outputs can be used in  
digital mode only (set something on/off).  
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3.  
SECURITY  
There are different levels of access control for the Remote I/O control: message  
identifier, password, and authorised numbers. Also the aliases defined for  
commands increase security.  
You must use a message identifier, which means that you must name the Nokia  
12 GSM Module to be able to use the Remote I/O control. Each control  
message begins with an identifier, which enables the Nokia 12 GSM Module  
recognise it as a Remote I/O control message. Enter the identifier with the  
Nokia 12 Configurator software when using the Nokia 12 GSM Module for the  
first time (see chapter 4.5). Only users who know the correct message identifier  
can control and monitor the device attached to the Nokia 12 GSM Module. The  
message identifier is case sensitive.  
You can use a password to further secure the communication between the  
mobile phone and the Nokia 12 GSM Module. You must enter the password  
when sending a control message to the Nokia 12 GSM Module. Set the  
users who know the correct password can control and monitor the device  
attached to the Nokia 12 GSM Module. The password is case sensitive.  
You can also determine a closed user group of up to 16 authorised phone  
numbers. The Nokia 12 GSM Module only accepts control messages from  
these phone numbers. Specify the numbers with Configurator. The first number  
on the authorised phone number list is in bold and it identifies the main user of  
the Nokia 12 GSM Module. The main user is notified of any unauthorised  
control attempts.  
You can use user-defined commands (aliases) instead of the default  
commands of the Nokia 12 GSM Module (see chapter 5.3). If an alias has been  
defined, the default command can no longer be used and is not accepted as  
part of a control message. While default commands are generally known, an  
alias is only known by the one who defined it. Only users who know the correct  
alias can control and monitor the device attached to the Nokia 12 GSM Module.  
Note: The message identifier and password are case sensitive, whereas  
commands and aliases are not.  
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4.  
GETTING STARTED  
4.1  
SETTING UP THE CONFIGURATOR ENVIRONMENT  
To use Configurator, the following tools are needed:  
Nokia 12 GSM Module (RX-2 or RX-9)  
Nokia 12 test board  
Power supply ACW-6  
Data cable AXS-3  
Antenna adapter cable  
Antenna  
SIM card  
All items listed above, except the SIM card, are included in Test board sales  
package. Configurator can be used with a SIM card inserted to the test board  
SIM card holder. To use Configurator:  
1. Mount the Nokia 12 GSM Module on the 60-pin connector of the test board.  
2. Insert the SIM card into the test board SIM card holder.  
3. Connect the antenna to the Nokia 12 GSM Module with the antenna adapter  
cable.  
4. Connect the data cable AXS-3 to a compatible PC and to the test board. Use  
the D9 connector port 2 in the test board. To enable the connection, select  
the M2M system protocol in the preferences dialog (File -> Preferences) as  
the communication type.  
5. Turn the switch on the test board in the following way:  
6. Connect the power supply ACW-6 to the test board and to an AC wall outlet.  
Note: The connection settings in the preferences dialog must be correct.  
For more information on the Nokia 12 test board, refer to the Nokia 12 Test  
Board Specification.  
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When you have completed the above steps, Configurator automatically  
establishes a connection between the PC and the Nokia 12 GSM Module when  
Configurator is started.  
4.2  
CONNECTING A DEVICE OR A MACHINE  
Connect the device to be controlled with the Remote I/O control to the Nokia 12  
GSM Module through the M2M system interface. The general-purpose inputs  
and outputs of the M2M system connector that are described in Chapter 6 are  
connected to the device.  
More information about how to connect a device electrically to the Nokia 12  
GSM Module and about the recommended connector types is provided in Nokia  
12 GSM Module HW Integration Manual.  
4.3  
MANDATORY SETTINGS  
To use the Remote I/O control of the Nokia 12 GSM Module, you have to  
configure these settings:  
Message identifier  
SMS centre address  
You can also configure the following optional settings (described in Chapter  
Disabling acknowledgements  
Security settings  
Input settings  
Defining aliases for text messages  
Initial output value settings  
GPS port settings  
Use Nokia 12 Configurator to configure the settings of the Nokia 12 GSM  
Module. Download Configurator at http://www.forum.nokia.com or  
http://www.americas.forum.nokia.com. You can also use a control message  
(short message) for the optional settings.  
The following sections describe the process of getting started with the Remote  
I/O control.  
Note: To use Configurator, you need the Nokia 12 GSM Module and a test board.  
The Nokia 12 GSM Module is connected to a compatible PC and Configurator with  
the test board. A power supply, data cable, antenna adapter, antenna, and SIM  
card are also needed. All these items are included in the Nokia 12 GSM Module  
test board sales package.  
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4.4  
READING AND WRITING PARAMETERS  
To read parameter values from the Nokia 12 GSM Module and write parameter  
values to it, use Configurator. Each Configurator dialog has “Read parameters”  
and “Write parameters” button for this purpose. Data is transferred between  
Configurator and the Nokia 12 GSM Module only after you have clicked either  
of these buttons.  
Note: To apply the configured settings, click either the Read parameters or Write  
parameters button.  
Some of the settings require that you reset the Nokia 12 GSM Module before  
they take effect. Either click the Reset button on the test board or remove and  
plug in the power cord on the test board. You can also use Configurator to reset  
the Nokia 12 GSM Module (File -> Reboot Module).  
Note: The Nokia 12 GSM Module should be reset after you have configured all  
parameter values.  
After a parameter value has been successfully configured to the Nokia 12 GSM  
Figure 1. Dialog for successful parameter configuration  
DEFINING THE MESSAGE IDENTIFIER  
4.5  
The message identifier is a mandatory setting that must be configured in order  
to use the Remote I/O control. Figure 2 shows a dialog (User Control Mode ->  
Settings -> Initialize) where you can set the identifier in Configurator. To define  
the message identifier, press Change. See Figure 2.  
Note: Press the Write parameters button to activate the new identifier.  
After you have set the message identifier, more parameters become available.  
If a message identifier has been previously defined to the Nokia 12 GSM  
Module, press the Read parameters button to enable the additional parameters.  
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Characters accepted for the message identifier are defined in Chapter 7, except  
the space characters.  
Note: You cannot use the Remote I/O control if there is no message identifier  
defined. In this case, all received short messages will be handled as normal  
messages and the inputs/outputs cannot be controlled in the Remote I/O control.  
Note: The message identifier is 1-8 characters long and case sensitive.  
Figure 2. User Control Mode dialog  
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4.6  
SETTING THE SMS CENTRE ADDRESS  
A dialog for setting the SMS centre address with the Nokia 12 Configurator  
(GSM Settings -> Advanced -> Short Messages) is shown in Figure 3.  
To check whether the SMS centre address is available on the network service  
SMS centre address is not available, specify it in the Short Messages dialog in  
order to be able to use the Remote I/O control.  
Note: Contact your network service provider for the SMS centre address.  
Figure 3. Short Messages dialog  
Short messages can be stored in the SIM card or the Nokia 12 GSM Module  
memory. If both of these short message storages are full, new messages  
cannot reach the Nokia 12 GSM Module. If the “Remove oldest message”  
option is selected in the short message dialog, the oldest message will be  
removed from the SIM card memory when a new message arrives, if both the  
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SIM card and the Nokia 12 GSM Module memory are full. It is recommended to  
select the option “Remove oldest message when new arrives” for the Remote  
I/O control, because then the control messages have a better chance of  
reaching their destination and fulfilling their purpose.  
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5.  
OPTIONAL CONFIGURATIONS  
5.1  
DISABLING ACKNOWLEDGEMENTS  
The Nokia 12 GSM Module acknowledges whether or not a text message has  
successfully commanded a device. The Nokia 12 GSM Module sends a  
response as a text message back to the phone number that sent the control  
message. It is also possible to disable this feature to decrease the amount of  
communication with the device, for example.  
Figure 4 displays a dialog (User Control Mode -> Settings -> General) for  
configuring acknowledgement messages.  
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Figure 4. General settings  
If you select the Disable acknowledgements option, only response messages to  
acknowledgement messages are disabled. The following will not be disabled:  
Status messages; responses to input state or value queries  
Indication messages, for example, responses to timed commands (see  
Alarm messages; responses to alarm subscriptions (see Chapters 5.4 and  
Error messages that are sent, for example, in response to a control  
message with the correct message identifier and password, but with the  
wrong command  
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Response messages to password change messages (see Chapter 9.3.1)  
Response messages to pulse cancel messages (see Chapter 9.3.8)  
5.2  
SECURITY SETTINGS  
Figure 5 shows a dialog (User Control Mode -> Settings -> Security) where  
security settings can be configured with Nokia 12 Configurator.  
5.2.1  
Authorised numbers  
Authorised number selection limits the access to specific phone numbers only  
in the Remote I/O control. Only control messages originating from an  
authorised number are allowed to control the Nokia 12 GSM Module and the  
device attached to it.  
It is possible to define up to 16 authorised numbers. The first number on the  
of the main user. The main user will be notified of any unauthorised control  
attempts.  
The following message will be sent to the main user if there is an unauthorised  
control attempt:  
Unauthorized Number:  
Number: X  
Command: Y  
X is the phone number of the originator of the control message, and Y is the  
command that was attempted. If the length of a command or alias is too long to  
be shown in one message (more than 160 characters), it will be sent as several  
messages.  
The phone numbers in the authorised number list may contain digits 0-9 and  
the “+” character (ASCII range 0x30-0x39 and 0x2B), for example,  
+1234567890, for a maximum length of 32 characters.  
Note: The phone numbers in the authorised number list should be defined in  
international format with a plus sign, country codes, etc. Note that the Nokia 12  
GSM Module needs to receive and identify the number to recognise it as  
authorised. Contact your network service provider for details.  
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Figure 5. Security settings  
Authentication  
A user-specified password can further secure the communication between a  
mobile handset and the Nokia 12 GSM Module. The password must be entered  
when a control message is sent to the Nokia 12 GSM Module. When this  
feature has been set on, but the password is missing or incorrect, the message  
received is discarded. Activate or change the password with Configurator or  
with a control message (see Chapter 9.3.1).  
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The length of the password is 1- 8 characters, and it is case sensitive. It  
accepts characters defined in Chapter 7, except space characters. The  
password is case sensitive.  
Note: If the password is changed, an indication message is only sent to the phone  
number that requested the change.  
5.3  
ALIASING  
Figure 6 shows a dialog (User Control Mode -> Settings -> Aliasing) where  
aliases can be defined for commands with the Nokia 12 Configurator.  
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Figure 6. Setting aliases for device commands  
In the Aliasing dialog, you can replace the predefined commands with user-  
specified commands (aliases). The defined alias replaces the initial command  
or previous alias configured for the command. If an alias has been configured,  
the original command is no longer accepted. Defining an empty alias for a  
command can restore the original command. Duplicate aliases are not allowed.  
Aliases can also be defined for status messages sent in response to status  
queries. Thus, an alias can be defined for a command for controlling the device,  
querying the status of the device (see chapter 9.1), and for the message  
received in response to the query (see chapter 9.2).  
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Characters accepted in aliases are defined in chapter 7.  
Note: If an alias is defined, the default command will be disabled. There can be  
only one effective command or alias for each function at a time. An alias must not  
be equal to a default command.  
Empty aliases cannot be used. If an empty alias is set, the default command will  
remain effective.  
Note: The alias string must be unique and the maximum length is 24 characters.  
Neither commands nor aliases are case sensitive. However, the message identifier  
and password are.  
5.4  
INPUT SETTINGS  
Figure 7 shows a dialog (File -> Module Configuration -> Input Settings) where  
you can configure analog input settings with Configurator.  
The Nokia 12 GSM Module has separate digital and analog inputs. You can set  
high and low limits to the analog input pins. The pin can be in the normal or  
alarm mode. If the information is continuous, use inputs 1-3.  
The input sampling interval indicates the period for which the Nokia 12 GSM  
Module polls the input state. The sampling interval value ranges from 1 to 60  
seconds.  
For control messages querying input states or values, see Chapter 9.3.2.  
You can subscribe to text message alarms as response messages. This is  
done using control messages described in Chapter 9.3.3.  
As a default, the alarm message is sent once to the number where the alarm  
was subscribed. Alternatively, the alarm can be sent continuously. In this case,  
alarm messages are sent when alarm conditions are met, until the alarm  
subscription is cancelled (see Chapter 9.3.3). To configure the alarm sequence,  
select “Continuously” or “Once” in the Input Settings dialog.  
In analog input, or if device data is continuous, an alarm can be set to be  
triggered when a limit is crossed. Configurator requires the high and low limits  
as millivolts (0 … 2800 mV) and the sampling interval as seconds (1-60 s).  
Control messages for subscribing an alarm or alarms are described in chapter  
Note: It is mandatory to set input high and low limit values in the analog mode.  
Note: The number to which alarm messages are sent can only be defined by  
subscribing to an alarm. After the subscription, the alarm will be sent as a response  
to the number where the alarm was subscribed. Thus, the number cannot be  
defined with Configurator.  
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Note: In digital input, an alarm can be triggered when the state of the digital input  
Figure 7. Input settings  
Note: In Figure 7 the Input 1 and 3 cannot be used for alarming because they are  
configured as Normal.  
5.5  
DEFAULT OUTPUT VALUE SETTING  
Set the initial state of each output pin and the device being controlled with  
Configurator (File -> Module Configuration -> Default Output Values). The  
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values set here will take effect the next time the Nokia 12 GSM Module is  
powered up.  
Check the box in the Default Output Settings window to set the output to 1. If  
you leave the box empty, the output is 0.  
Note: The number of available digital outputs depends on the port configurations.  
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6.  
INPUT/OUTPUT PIN DESCRIPTIONS  
The Nokia 12 GSM Module has input and output pins on the M2M system  
connector, which can be controlled using the services of the Remote I/O  
control. Pin descriptions are shown in Table 2.  
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Table 2. PIN descriptions  
Name  
Analog/Digital  
Analog  
Analog  
Analog  
Digital  
Digital  
Digital  
Digital  
Digital  
Digital  
Digital  
Digital  
Digital  
Digital  
Digital  
Digital  
Digital  
Digital  
Digital  
Digital  
Digital  
Pin Number (*)  
R/W  
Input 1  
Read  
36  
20  
19  
54  
35  
34  
56  
43  
59  
55  
46  
53  
30  
31  
32  
33  
57  
58  
42  
44  
Input 2  
Read  
Input 3  
Read  
Input 4  
Read  
Input 5  
Read  
Input 6  
Read  
Input 7  
Read  
Input 8  
Read  
Input 9  
Read  
Input 10  
Input 11  
Output 1  
Output 2  
Output 3  
Output 4  
Output 5  
Output 6  
Output 7  
Output 8  
Output 9  
Read  
Read  
Read/Write  
Read/Write  
Read/Write  
Read/Write  
Read/Write  
Read/Write  
Read/Write  
Read/Write  
Read/Write  
(*) Pin number on M2M System Connector  
For more information on the electrical characteristics of the M2M system  
connector, see Nokia 12 GSM Module Hardware Integration Manual.  
Note: Depending on the Nokia 12 GSM Module configuration, some pins are used  
as serial ports (TxD, RxD, CTS and so on). GPS support can be configured to  
some pins. See Figure 8.  
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Figure 8. Port settings in Configurator  
Note: You can see the available I/O pins in the Module Configuration dialog when  
you change the settings. See Figure 8.  
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7.  
SUPPORTED CHARACTERS  
The characters listed in Table 4 are supported for:  
Message identifier  
Password  
Aliasing  
The list is derived from the Default Alphabet table of a GSM technical  
specification (see Digital cellular telecommunications system (Phase 2+);  
Alphabets and language-specific information (GSM 03.38)). CR, LF and Escape  
characters are not supported.  
Note: You cannot use a space in the message identifier or password. However,  
you can use it in aliases defined for commands.  
Table 3. Characters supported by Configurator for Remote I/O control  
@
£
SP 0 ¡ P ¿ p  
_ ! 1 A Q a q  
Φ " 2 B R b r  
Γ # 3 C S c s  
Λ ¤ 4 D T d t  
% 5 E U e u  
Π & 6 F V f v  
Ψ ' 7 G W g w  
Σ ( 8 H X h x  
Θ ) 9 I Y i y  
Ξ * : J Z j z  
$
¥
è
é
ù
ì
ò
Ç
SP  
Ø SP + ; K Ä k ä  
ø Æ , < L Ö l ö  
SP æ - = M Ñ m ñ  
Å ß . > N Ü n ü  
å É / ? O § o à  
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8.  
COMMAND SYNTAX  
The command syntax of control messages varies according to the activated  
options. There may also be spaces in aliases defined for commands as seen in  
the example below. However, only one space character is accepted between  
words. The message identifier and password are case sensitive.  
Note: A control message always begins with a message identifier. Otherwise the  
message is not interpreted as a Remote I/O control message, and is stored in the  
SIM card or the Nokia 12 GSM Module memory.  
Control message without a password:  
<message identifier> <command / alias>  
term123 Output_Set All On  
Control message without a password with an alias defined:  
<message identifier> <command / alias> <parameter>  
term123 Output_Pulse All On 1h30m  
Control message with a password:  
<message identifier> <password> <command / alias>  
term123 password Output_Set All On  
Control message with a password with an alias defined:  
<message identifier> <password> <command / alias>  
<parameter>  
term123 password Output_Pulse All On 1h30m  
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9.  
REMOTE I/O CONTROL SMS COMMANDS  
The following chapter describes the commands and status messages available  
in the Remote I/O control. Status messages are sent in response to device  
status queries. You can define an alias for each of the commands and status  
messages described here with Configurator.  
The first part of the chapter lists commands that are sent to the Remote I/O  
control as part of a control message; the second part provides a list of status  
messages for which an alias can be defined.  
9.1  
COMMANDS  
The Nokia 12 GSM Module supports the SMS commands listed in Table 4.  
These commands are for controlling or monitoring purposes (to query the state  
of a device attached to the Nokia 12 GSM Module). An alias can be defined for  
each of the commands.  
Note: If an alias is defined, the default command will be disabled. There can be  
only one effective command or alias for each function at a time. An alias must not  
be equal to a default command.  
Empty aliases cannot be used. If an empty alias is set, the default command will  
remain effective.  
Note: The alias string must be unique and the maximum length is 24 characters.  
Neither commands nor aliases are case sensitive. However, the message identifier  
and password are.  
Table 4. List of commands.  
Command  
Description  
OUTPUT_GET x  
Return a state of output x, x = pin number 1-9  
OUTPUT_SET x ON  
OUTPUT_SET x OFF  
OUTPUT_INVERT x  
OUTPUT_PULSE x ON *  
Set output x ON, x = pin number 1-9  
Set output x OFF, x = pin number 1-9  
Inverts output x, x = pin number 1-9  
Output x pulse ON *, x = pin number 1-9  
Output x pulse OFF *, x = pin number 1-9  
OUTPUT_PULSE x OFF  
*
OUTPUT_GET ALL  
Return a state of all outputs  
Set all outputs ON  
OUTPUT_SET ALL ON  
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OUTPUT_SET ALL OFF  
OUTPUT_INVERT ALL  
Set all outputs OFF  
Inverts all outputs  
OUTPUT PULSE ALL ON  
*
All outputs pulse ON *  
OUTPUT_PULSE ALL  
OFF *  
All outputs pulse OFF *  
INPUT_GET x  
Return a voltage of input x, x = pin number 1-11  
Return states of all inputs  
INPUT_GET ALL  
INPUT_GET_CHANGE x  
Subscribe a voltage limit alarm of input x, x = pin number 1-  
11  
INPUT_GET_CHANGE  
ALL  
Subscribe a input state change of all inputs  
Cancel input x subscription, x = pin number 1-11  
Cancel all input subscriptions  
INPUT CHANGE CANCEL  
x
INPUT CHANGE CANCEL  
ALL  
CHANGE_PWORD  
Change password  
OUTPUT PULSE CANCEL  
x
Cancel output x pulse, x = pin number 1-9  
OUTPUT PULSE CANCEL  
ALL  
Cancel all outputs  
LOCATION_GET  
Get location information **  
* The duration of the pulse will be added to the control message after the corresponding command. The format is the  
following:  
Output_Pulse 1 On <days>d<hours>h<minutes>m<seconds>s  
for example Output_Pulse 1 On 5m30s  
For more information about pulse commands, see Chapter 9.3.7.  
** The location support needs external GPS device to be connected to the Nokia 12 GSM Module. The Nokia 12  
GSM Module supports NMEA-0183 protocol.  
9.2  
STATUS MESSAGES  
The Nokia 12 GSM Module supports the status messages listed in  
Table 5. You can define an alias for each of them. The messages will be sent  
as responses to device query control messages according to the current  
command and device state.  
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Note: If an alias is defined, the default command will be disabled. There can be  
only one effective command or alias for each function at a time. An alias must not  
be equal to a default command.  
Empty aliases cannot be used. If an empty alias is set, the default command will  
remain effective.  
Note: The alias string must be unique and the maximum length is 24 characters.  
Neither commands nor aliases are case sensitive. However, the message identifier  
and password are.  
Table 5. List of response messages  
Response Message  
Description  
OUTPUT x: ON  
OUTPUT x: OFF  
INPUT x: *  
Alias for output x on state, x = pin number 1-9  
Alias for output x off state, x = pin number 1-9  
Alias for input x voltage *, x = pin number 1-3  
Alias for input x on state, x = pin number 4-11  
Alias for input x off state, x = pin number 4-11  
INPUT x: ON  
INPUT x: OFF  
* The value of the sampled voltage will be added to the end of the response. The value of the sampled voltage is  
between 0 – 2800 mV, for example:  
INPUT 1: 10mV  
9.3  
DETAILED COMMAND INFORMATION AND RESPONSES  
All example commands in this chapter use the “term123” identifier string, and  
the password property is set off in all of the subsequent chapters.  
Note: If a command or the alias defined for it is not identified, but the identifier and  
the optional password are correct, the Nokia 12 GSM Module will send an error  
message as a response to the command originator, for example:  
Control message:  
Response:  
term123 passWORD ResetAll  
ERROR (Unknown Command)  
9.3.1  
Changing the Password  
Use the Change_Pwordcommand to control the password. Note that all  
example commands in this chapter use the “term123” identifier string (see  
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Table 6. Commands for the password control.  
Command Type  
Command  
Comments  
The example  
term123 passWORD  
Change_PWord wordPASS  
Changing Password  
changes the  
password from  
‘passWORD’ to  
‘wordPASS’  
OK Response:  
Fail Response:  
CHANGE_PWORD wordPASS: OK  
CHANGE_PWORD: FAILED  
term123 Change_PWord  
wordPASS  
Activating Password  
Property  
The example  
changes an empty  
password to  
‘wordPASS’  
OK Response:  
Fail Response:  
CHANGE_PWORD wordPASS: OK  
CHANGE_PWORD: FAILED  
term123 wordPASS  
Change_PWord  
Deactivating  
Password Property  
The example  
changes the  
password from  
‘wordPASS’ to an  
empty password  
OK Response:  
Fail Response:  
CHANGE_PWORD: OK  
CHANGE_PWORD: FAILED  
Note: An indication of a password change is only sent to the phone number where  
the change was requested.  
9.3.2  
Reading Inputs  
Use the Input_Get X commands for reading inputs, that is the state or value of  
a device. Note that all example control messages in this chapter use the  
“term123” identifier string and the password property is set off (see Table 7)  
A response depends on the pin. There are three analog inputs (1-3) and nine  
digital inputs (4-11) in the Nokia 12 GSM Module M2M system interface. You  
can also specify an alias for the response (see chapter 9.2).  
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Table 7. The Input_Get X commands  
Command Type  
Input_Get All  
Command  
Comments  
term123 Input_Get All  
The command  
reads all inputs  
and the response  
returns the value  
and state  
Response:  
INPUT_GET ALL: OK  
INPUT1: Y  
INPUT2: Y  
INPUT3: Y  
INPUT4: Y  
INPUT5: Y  
INPUT6: Y  
INPUT7: Y  
INPUT8: Y  
INPUT9: Y  
INPUT10: Y  
INPUT11: Y  
The Y varies according to the input pin state and it can be:  
xxxx mV if the input analog (pins 1-3), xxxx = value  
between 0-2800  
ON or OFF if the input is digital (pins 4 -11)  
term123 Input_Get X  
Input_Get X  
The command  
reads input pin X  
and the response  
returns the value  
or state of it  
Response:  
INPUT_GET X: OK  
INPUT X: Y  
according to  
queried input pin  
The X refers to input pin number,  
X=1,2,3,4,5,6,7,8,9,10,11.  
The Y varies according to the input pin state and it can be:  
xxxx mV if the input is analog (pins 1-3), xxxx = value  
between 0-2800  
ON or OFF if the input is digital (pins 4-11)  
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9.3.3  
Subscribing to Input Alarms  
To subscribe to input state changes, that is, alarms, use the  
Input_Get_Change Xcommands. All example control messages in this  
chapter use the “term123” identifier string and the password property is set off  
(see Table 9).  
When you subscribe to this service, and an input state changes, you will  
receive an alarm message. You can also subscribe to alarms on a continuous  
basis, so that each time the state changes, you receive an alarm message until  
you cancel the subscription with the Input_Change_Cancel command.  
You can subscribe to alarms for all input state changes at once, or to each input  
separately. Note that an input must be configured properly in order to get the  
alarms. For more information about alarm configurations, see Chapter 5.4.  
There are two ways to configure an analog input to operate with alarm sending  
(see Chapter 5.4 for configurations):  
Alarming + Input High Limit + Input Low Limit + Sampling Interval  
Once/Continuously  
An alarm from the analog pin is sent if the value is equal to or higher than the  
high limit, or equal to or lower than the low limit. Define the frequency of the  
state of the input polling in the sampling interval box (see Figure 7).  
An alarm from the digital pin is sent if the digital pin state is changed and the  
input state change is subscribed to that pin by the Input_Get_Change X  
command.  
Important: The latest subscription overrides any previous alarm subscription. The  
alarm will only be sent as a response to the latest subscription; the originator of the  
previous subscription will not be notified.  
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Table 8. Input_Get_Change commands for alarm functionality  
Command Type  
Input_Get_Change All  
Command  
Comments  
Term123 Input Get Change  
All  
The command  
subscribes alarms for  
all inputs at once  
Response:  
INPUT_GET_CHANGE ALL:  
INPUT 1: Y  
INPUT 2: Y  
INPUT 3: Y  
INPUT 4: Y  
INPUT 5: Y  
INPUT 6: Y  
INPUT 7: Y  
INPUT 8: Y  
INPUT 9: Y  
INPUT 10: Y  
INPUT 11: Y  
The Y refers to success state and it can be:  
OK or CHECK CONFIG  
Alarm message, when input state has changed,  
contains the following information:  
INPUT 1: Y  
INPUT 2: Y  
INPUT 3: Y  
INPUT 4: Y  
INPUT 5: Y  
INPUT 6: Y  
INPUT 7: Y  
INPUT 8: Y  
INPUT 9: Y  
INPUT 10: Y  
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INPUT 11: Y  
The Y varies according to the input pin state and it can  
be:  
xxxx mVif the input is in analog mode (pins 1-3)  
(xxxx=value between 0-2800)  
ON or OFF if the input is in digital mode (pins 4-11)  
term123 Input Get Change  
X
Input_Get_Change X  
The command  
subscribes an alarm  
for input pin X and the  
response returns the  
state of it according to  
input pin configuration  
Response:  
INPUT_GET_CHANGE Z:  
INPUT X: Y  
The X refers to input pin number,  
X=1,2,3,4,5,6,7,8,9,10,11.  
The Y refers to success state and it can be:  
OKor CHECK CONFIG  
Event data, when input state has changed, contains the  
following information:  
INPUT X: Y  
The X refers to input pin number,  
X=1,2,3,4,5,6,7,8,9,10,11.  
The Y varies according to the input pin state and it can  
be:  
ONor OFFif the input is digital (4-11)  
xxxxmVif the input is analog (1-3) (xxxx=value  
between 0-2800)  
term123  
Input_Change_Cancel X  
Input_Change_Cancel  
The command  
cancels an alarm  
subscription for input  
pin X  
OK Response:  
INPUT_CHANGE_CANCEL X:  
OK  
The X refers to input pin number,  
X=1,2,3,4,5,6,7,8,9,10,11,all.  
9.3.4  
Reading Outputs  
Use the Output_Get X commands for reading digital output states. Note that all  
example control messages in this chapter use the “term123” identifier string and  
the password property is set off (see Table 9).  
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Table 9. Output_Get X commands  
Command Type  
Command  
Comments  
term123 Output_Get All  
The command reads all  
outputs and the response  
returns the state of them  
Output_Get All  
Response:  
OUTPUT_GET ALL: OK  
OUTPUT 1: Y  
OUTPUT 2: Y  
OUTPUT 3: Y  
OUTPUT 4: Y  
OUTPUT 5: Y  
OUTPUT 6: Y  
OUTPUT 7: Y  
OUTPUT 8: Y  
OUTPUT 9: Y  
The Y refers to either ON or OFF  
term123 Output_Get X  
Output_Get X  
The command reads  
output pin X and the  
response returns the  
state of it  
Response:  
OUTPUT_GET X: OK  
OUTPUT X: Y  
The X refers to output pin number, X=1,2,3,4,5,6,7,8,9.  
The Y refers to either ON or OFF  
9.3.5  
Writing Outputs  
Use the Output_Set Xcommands to set digital output states. Note that all  
example control messages in this chapter use the “term123” identifier string and  
the password property is set off (see Table 10).  
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Table 10. Output_Set X commands  
Command Type  
Command  
Comments  
term123 Output_Set X On  
Output_Set X On  
Output_Set X Off  
Output_Set All On  
The command sets  
output pin X to ON state  
and the response returns  
the state of it  
Response:  
OUTPUT_SET Z ON: OK  
OUTPUT Z: ON  
The X refers to output pin number, X=1,2,3,4,5,6,7,8,9.  
term123 Output_Set X Off  
The command sets output  
pin X to OFF state and the  
response returns the state  
of it  
Response:  
OUTPUT_SET X OFF: OK  
OUTPUTX: OFF  
The X refers to output pin number, X=1,2,3,4,5,6,7,8,9.  
term123 Output_Set All  
On  
The command sets all  
outputs to ON state and  
the response returns the  
state of all outputs  
Response:  
OUTPUT_SET ALL ON: OK  
OUTPUT 1: ON  
OUTPUT 2: ON  
OUTPUT 3: ON  
OUTPUT 4: ON  
OUTPUT 5: ON  
OUTPUT 6: ON  
OUTPUT 7: ON  
OUTPUT 8: ON  
OUTPUT 9: ON  
term123 Output_Set All  
Off  
Output_Set All Off  
The command sets  
all outputs to OFF  
state and the  
response returns the  
state of all outputs  
Response:  
OUTPUT_SET ALL OFF: OK  
OUTPUT 1: OFF  
OUTPUT 2: OFF  
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OUTPUT 3: OFF  
OUTPUT 4: OFF  
OUTPUT 5: OFF  
OUTPUT 6: OFF  
OUTPUT 7: OFF  
OUTPUT 8: OFF  
OUTPUT 9: OFF  
9.3.6  
Inverting Outputs  
Use the Output_Invert Xcommands to invert digital output states. The  
state of an output can be changed without knowing its previous state. Note that  
all example control messages in this chapter use the “term123” identifier string  
and the password property is set off (see Table 11).  
Table 11. Output_Invert X commands  
Command Type  
Command  
Comments  
term123 Output_Invert X  
Output_Invert X  
The command inverts  
output pin X to  
opposite state.  
Response:  
OUTPUT_INVERT X: OK  
OUTPUT X: Y  
The X refers to output pin number, X=1,2,3,4,5,6,7,8,9.  
The Y refers to either ON or OFF  
term123 Output_Invert  
All  
Output_Invert All  
The command inverts  
all output pins to  
opposite state.  
Response:  
OUTPUT_INVERT ALL: OK  
OUTPUT 1: X  
OUTPUT 2: X  
OUTPUT 3: X  
OUTPUT 4: X  
OUTPUT 5: X  
OUTPUT 6: X  
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OUTPUT 7: X  
OUTPUT 8: X  
OUTPUT 9: X  
The X refers to either ON or OFF  
9.3.7  
Output Pulses  
Use the Output_Pulse X Ycommands to set digital output states to  
requested state for a specified time. Note that all example control messages in  
this chapter use the “term123” identifier string and the password property is  
set off (see Table 12).  
While the pulse is active, the pin state remains as requested and is locked. You  
can cancel the pulse with the Output_Pulse_Cancelcommand described in  
to the opposite value of that requested. The final state of the output is  
independent of the initial state of the output.  
The behavior of the output pins when the Output_pulse X command is used  
a)  
b)  
Case  
Initial  
state  
Control message to be sent  
a)  
b)  
c)  
d)  
ON  
term123 Output_pulse 1 ON 5s  
term123 Output_pulse 1 OFF 5s  
term123 Output_pulse 1 ON 5s  
term123 Output_pulse 1 OFF 5s  
ON  
OFF  
OFF  
c)  
d)  
0 s  
5 s  
Time  
Figure 9. Output pulses in different initial stages and for different  
commands  
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Table 12. Output_Pulse X commands  
Command Type  
Output_Pulse X On  
Command  
Comments  
term123 Output_Pulse X  
On <time>  
The command sets to  
output pin X on for a  
requested time interval,  
that is, pulse  
Response:  
OUTPUT_PULSE X ON  
<time>: OK  
Response, when pulse time expires:  
OUTPUT X: Y  
The X refers to output pin number, X=  
1,2,3,4,5,6,7,8,9,all.  
The Y refers to either ON or OFF.  
Response, if another pulse command has already been  
issued:  
OUTPUT_PULSE X ON  
<time>:  
OUTPUT X LOCKED  
Fail response, if invalid <time> value:  
ERROR( Unknown Command )  
Fail response, if NITZ network service is not supported  
and <time> value was more than 23 hours 59 minutes  
and 59 seconds:  
OUTPUT_PULSE ON <time>:  
ERROR( Network Time  
Missing )  
term123 Output_Pulse X  
Off <time>  
Output_Pulse X Off  
The command sets to  
output pin X off for a  
requested time interval,  
that is, pulse  
Response:  
OUTPUT_PULSE X OFF  
<time>: OK  
Response, when pulse time expires:  
OUTPUT X:Y  
Response, if another pulse command has already been  
issued:  
OUTPUT_PULSE X OFF  
<time>:  
OUTPUT X LOCKED  
Fail response, if invalid <time> value:  
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ERROR( Unknown Command )  
Fail response, if NITZ network service is not supported  
and <time> value was more than 23 hours 59 minutes  
and 59 seconds:  
OUTPUT PULSE OFF <time>:  
ERROR( Network Time  
Missing )  
The X refers to output pin number,  
X=1,2,3,4,5,6,7,8,9,all.  
The Y refers to either ON or OFF  
Command syntax for <time> parameter:  
<days>d<hours>h<minutes>m<seconds>s  
for example, Output_Pulse 1 On 5m30s  
Value ranges for <time> parameter:  
<time>  
If Network Indication and Time Zone (NITZ) network service is  
supported, the range is from 1 second to 7 days.  
If NITZ network service is not supported, the range is from 1 second to 23  
hours 59 minutes and 59 seconds.  
<days>  
If NITZ network service is supported, the range is from 1 … 7  
days.  
<hours>  
1…23  
<minutes> 1…59  
<seconds> 1…59  
Value examples for valid <time>:  
7d, 6d23h59m59s, 45m, 59s, 4h25s, 30m45s, etc.  
Value examples for invalid <time>:  
7d1s  
3m3m  
100s  
24h  
Maximum time (7 days) exceeded  
There cannot be two unit fields of the same  
Maximum second and minute value is 59. Use 1m40s instead  
Maximum hour value is 23. Use 1d instead of 24h  
9.3.8  
Cancelling Output Pulses  
It is possible to cancel pulses before the <time> parameter defined in the pulse  
control message has passed. This is done with the “Output_Pulse_Cancel  
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X” command. Note that all example control messages in this chapter use the  
“term123” identifier string and the password property is set off (see Table 13).  
The command cancels the timing of the pulse operation and informs the original  
pulse originator about it. The state of the cancelled output remains the same, as  
was set with Output_Pulse Xcommand. Thus, it is the timing of the pulse  
that is cancelled, not the pulse itself.  
Table 13. Output_Pulse_Cancel X commands  
Command Type  
Command  
Comments  
term123  
Output_Pulse_Cancel X  
The command cancels  
the pulse of output pin X  
Output_Pulse_Cancel X  
Response:  
OUTPUT_PULSE_CANCEL X:  
OK  
Indication to original pulse originator:  
OUTPUT X PULSE  
CANCELLED  
The X refers to output pin number,  
X=1,2,3,4,5,6,7,8,9,all.  
Note: When canceling a pulse, the state of the output does not revert to the same  
as it was before the Output_Pulse X command. The Output_Pulse_Cancel  
Xcommand cancels the timing on the pulse, not the pulse itself, as can be seen in  
Figure 10 (the pulse without cancelling can be seen dashed in the figure).  
a)  
b)  
c)  
d)  
0 s  
3 s 5 s  
Time  
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Case  
Initial Control message  
state  
Control message sent when 3s  
passed  
a)  
b)  
c)  
d)  
ON  
Term123 Output_pulse 1 ON 5s  
Term123 Output_Pulse_Cancel 1  
ON  
Term123 Output_pulse 1 OFF 5s  
Term123 Output_pulse 1 ON 5s  
Term123 Output_pulse 1 OFF 5s  
OFF  
OFF  
Figure 10. Effects of cancelling an output pulse in different initial stages  
and for different commands  
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9.3.9  
Location information  
Figure 11. GPS support configured to serial port 1  
You can query location information from the Nokia 12 GSM Module if an  
external GPS device is connected to either the serial port 1 or 3. The serial port  
Note: If you have selected serial port 3 for GPS support, Java cannot use the serial  
port.  
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Note: You cannot connect a GPS device to serial port 2. It is always in the M2M  
system protocol use.  
Note: You can connect only one GPS device to the Nokia 12 GSM Module  
(PORT1 or PORT3).  
To use GPS support, configure the GPS settings (baud rate and used NMEA  
parameters). See your GPS device manual for information about parameters  
used.  
Query the location information with the Location_getcommand. Note that all  
example control messages in this chapter use the “term123” identifier string and  
the password property is set off (see Table 14).  
Response parameters of Location_getcommand are:  
AA  
Latitude, degrees [0 – 90]  
Latitude, minutes [0 – 59.999999]  
Latitude, type [N or S]  
BBBBBBBBB  
C
DDD  
Longitude, degrees [0 – 180]  
Longitude, minutes [0 – 59.999999]  
Longitude, type [E or W]  
EEEEEEEEE  
F
GGGG  
HHHH  
II  
Angle (geological) [0 – 359,9]  
Speed in knots [0 – 999,9]  
Number of visible satellites [0 – 99]  
Altitude [-99999.9 - +99999.9]  
Altitude unit [M]  
JJJJJJJJ  
K
LL  
UTC Time hours [00 – 23]  
UTC Time minuts [00 – 59]  
UTC Time seconds [00 – 59.99]  
UTC Date day [01 – 31]  
MM  
NNNN  
OO  
PP  
UTC Date month [01 – 12]  
UTC Date year [0000 - 9999]  
QQQQ  
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Table 14. Location_get  
Command Type  
Location_get  
Command  
Comments  
term123 Location_get  
Response is packed to  
one reply message.  
Response:  
LOCATION:  
LATITUDE: AA, BBBBBBBBB,  
C
LONGITUDE: DDD,  
EEEEEEEEE, F  
SPEED: GGGG, HHHH  
SATELLITES: II  
ALTITUDE: JJJJJJJJ, K  
TIME: LL, MM, NNNN  
DATE: OO, PP, QQQQ  
Example response:  
LOCATION:  
LATITUDE:  
66,12.2907,N  
LONGITUDE:  
025,30.7094,E  
SPEED:173.3,21.7  
SATELLITES: 04  
ALTITUDE:  
-0022,M  
TIME:13,36,15.44  
DATE:15,09,2003  
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10.  
SAFETY INFORMATION  
Read these simple guidelines as they contain important safety information.  
Breaking the rules may be dangerous or illegal and may also invalidate the  
service terms that may apply to this device. Read the complete documentation  
for further information.  
The device should only be installed to places where it does not cause  
interference or danger. Do not use or install where the use of wireless phones  
is prohibited.  
Do not install or use in hospitals, airports or planes, potentially explosive  
atmospheres. Obey all signs and regulations concerning the use of wireless  
phones.  
Obey all laws, regulations and safety standards when using this device.  
All wireless devices are susceptible to interference, which could affect  
performance.  
Only qualified personnel may install or repair this device.  
To protect the power supply cables and meet the fire safety requirements, it is  
recommended that the electrical circuits are supplied with a power regulator.  
The power regulator should be placed as close to the terminals of the power  
supply as possible.  
Do not connect to incompatible products or components.  
The device and antenna may be damaged if either come into contact with  
ground potentials other than the one in your applications.  
10.1  
NETWORK SUPPORT  
The wireless device described in this guide is approved for use on the EGSM  
900/GSM 1800 network (RX-2) or on the GSM 850/GSM 1900 network (RX-9).  
Contact your service provider for more information about networks.  
This device requires a separate SIM card reader. Always switch off the device  
before handling the SIM cards. Design your application to enable easy access  
to the SIM card reader. Keep all miniature SIM cards out of the reach of small  
children. For availability and information on using SIM card services, contact  
your SIM card vendor. This may be the service provider, network operator, or  
other vendor.  
To use the device you must have service from a wireless service provider.  
Many of the features in this device depend on features in the wireless network  
to function. These Network Services may not be available on all networks or  
you may have to make specific arrangements with your service provider before  
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you can utilize Network Services. Your service provider may need to give you  
additional instructions for their use and explain what charges will apply. Some  
networks may have limitations that affect how you can use Network Services.  
This device operates using radio signals, wireless networks, landline networks,  
and user-programmed functions. Because of this, connections in all conditions  
cannot be guaranteed. You should never rely solely on any wireless device for  
essential communications.  
10.2  
ANTENNA  
This device requires a separate antenna. If the antenna is to be mounted  
outside, consider the risk of lightning. Follow the instructions provided by the  
antenna manufacturer. Never connect more than one device to a single  
antenna. The device can be damaged by radio frequency energy from the  
transmitter of another module.  
Like any mobile station, the antenna of the device emits radio frequency  
energy. To avoid EMI (electromagnetic interference), you must determine  
whether the application itself, or equipment in the application’s proximity, need  
further protection against radio emission and the disturbances it might cause.  
In any event, you should contact your local antenna manufacturer for additional  
information concerning antenna types, cables, connectors, antenna placement,  
and the surrounding area. You should also determine whether the antenna  
needs to be grounded or not. Your local antenna manufacturer might be able to  
design a special antenna suitable for the application.  
In order to comply with RF exposure guidelines, install the external antenna so  
that a minimum distance of 20 cm (8 inches) can be maintained between the  
external antenna and all persons, with external antenna gain not exceeding 3  
dBi. Note that you may be required to provide SAR measurement test report  
and declaration.  
10.3  
10.4  
MEDICAL DEVICES  
Operation of any radio transmitting equipment, including this device, may  
interfere with the functionality of inadequately protected medical devices.  
Hospitals or health care facilities may be using equipment that could be  
sensitive to external RF energy.  
VEHICLES  
RF signals may affect improperly installed or inadequately shielded electronic  
systems in motor vehicles such as electronic fuel injection systems, electronic  
antiskid (antilock) braking systems, electronic speed control systems, air bag  
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systems. For more information, check with the manufacturer or it’s  
representative of your vehicle or any equipment that has been added.  
Only qualified personnel should service the device, or install the device in a  
vehicle. Faulty installation or service may be dangerous and may invalidate any  
warranty that may apply to the device. Check regularly that all wireless device  
equipment in your vehicle is mounted and operating properly. Do not store or  
carry flammable liquids, gases, or explosive materials in the same compartment  
as the device, its parts, or enhancements. For vehicles equipped with an air  
bag, remember that air bags inflate with great force. Do not place objects,  
including installed or portable wireless equipment in the area over the air bag or  
in the air bag deployment area. If in-vehicle wireless equipment is improperly  
installed and the air bag inflates, serious injury could result.  
10.5  
POTENTIALLY EXPLOSIVE ENVIRONMENTS  
Do not use the device when in any area with a potentially explosive atmosphere  
and obey all signs and instructions. Potentially explosive atmospheres include  
areas where you would normally be advised to turn off your vehicle engine.  
Sparks in such areas could cause an explosion or fire resulting in bodily injury  
or even death. Observe restrictions on the use of radio equipment in fuel  
depots, storage, and distribution areas, chemical plants or where blasting  
operations are in progress. Areas with a potentially explosive atmosphere are  
often but not always clearly marked. They include below deck on boats,  
chemical transfer or storage facilities, vehicles using liquefied petroleum gas  
(such as propane or butane), and areas where the air contains chemicals or  
particles such as grain, dust or metal powders.  
10.6  
CARE AND MAINTENANCE  
Your device is a product of superior design and craftsmanship and should be  
treated with care. The suggestions below will help you protect your warranty  
coverage.  
Keep the device dry. Precipitation, humidity and all types of liquids or  
moisture can contain minerals that will corrode electronic circuits.  
Do not use or install the device in dusty, dirty areas. Its moving parts and  
electronic components can be damaged.  
Do not store the device in hot areas. High temperatures can shorten the life  
of electronic devices and warp or melt certain plastics.  
Do not store the device in cold areas. When the device returns to its normal  
temperature, moisture can form inside the device and damage electronic  
circuit boards.  
Do not attempt to open the device.  
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Do not drop, knock, or shake the device. Rough handling can break internal  
circuit boards and fine mechanics.  
Do not use harsh chemicals, cleaning solvents, or strong detergents to  
clean the device.  
Do not paint the device.  
Use only with properly authorized antennas. Unauthorised antennas,  
modifications, or attachments could damage the device and may violate  
regulations governing radio devices.  
If the device is not working properly, take it to the nearest authorized service  
facility for service.  
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