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==Description==
 
==Description==
Teltonika TSM232 is an Iridium SATELLITE terminal with a backup battery. The full solution combines Teltonika TSM232 with Teltonika FM63XY, FMB630, or FMB640 connected via RS232. This solution allows transferring data to a server via the Iridium satellite network when other terrestrial networks are unavailable. High capacity internal Ni-MH battery ensures long autonomous working hours when the main power source is disconnected. Such a solution meets the demand for high-security logistics, marine transport, construction & mining transport, oil/gas industry, public safety, government/defense, and more.
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Teltonika [[TSM232]] is an Iridium SATELLITE terminal with a backup battery. The full solution combines Teltonika [[TSM232]] with Teltonika FM63XY, [[FMB630]], [[FMB640]], [[FMC640]], or [[FMM640]] connected via RS232. This solution allows transferring data to a server via the Iridium satellite network when other terrestrial networks are unavailable. High capacity internal Ni-MH battery ensures long autonomous working hours when the main power source is disconnected. Such a solution meets the demand for high-security logistics, marine transport, construction & mining transport, oil/gas industry, public safety, government/defense, and more.
    
[[Image:TSM232_schematic2.jpg|500px|center]]
 
[[Image:TSM232_schematic2.jpg|500px|center]]
    
==First Start Guide==  
 
==First Start Guide==  
The device supports Iridium devices which can send short burst data (SBD) to the server. This means that some data can be sent from the FM device to the server through satellites.  
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The device supports Iridium devices that can send short burst data (SBD) to the server. This means that some data can be sent from the FM device to the server through satellites.  
 
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===TSM232 connection scheme===
 
===TSM232 connection scheme===
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Port1/2 cable from the FM package can be used for the TSM232 connection. For this, you need to cut a D-SUB connector
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Port1/2 cable from the FM package can be used for the [[TSM232]] connection. For this, you need to cut a D-SUB connector
 
and connect wires according to the instruction below. (PIN 4 to TSM GND, PIN5 to TSM Rx, PIN6 to TSM Tx).<br/>
 
and connect wires according to the instruction below. (PIN 4 to TSM GND, PIN5 to TSM Rx, PIN6 to TSM Tx).<br/>
 
[[Image:FMX6 and TSM232 connection scheme v1.2.png|950px|center]]
 
[[Image:FMX6 and TSM232 connection scheme v1.2.png|950px|center]]
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===Configuring FM63XY/FMB630===
 
===Configuring FM63XY/FMB630===
At first FM63XY/FMB630 device will have default factory settings set. These settings should be changed according to the user's needs first. Please see our First start guide'''[[FM6300 First Start| here]]'''.<br/><br/>
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At first FM63XY/[[FMB630]] device will have the default factory settings set. These settings should be changed according to the user's needs first. Please see our First start guide'''[[FM6300 First Start| here]]'''.<br/><br/>
 
After you have connected the device to FM COM1 or COM2 port. Select COM1 or COM2 mode Satellite backup mode. Those settings are found in the External devices TAB. Baud rate for satellite devices is 19200 bps
 
After you have connected the device to FM COM1 or COM2 port. Select COM1 or COM2 mode Satellite backup mode. Those settings are found in the External devices TAB. Baud rate for satellite devices is 19200 bps
 
[[Image:Sattelite_mode_63.gif|600px|center]]
 
[[Image:Sattelite_mode_63.gif|600px|center]]
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FM will enable satellite mode only if the device can not send data via GPRS. Sattelite mode has his own Save/Send period. If the timeout is set to 0 no periodic records will be made. It is not recommended to save records often because of satellite traffic price. 8 kilobytes monthly data limit is hardcoded in firmware. If the data limit is reached – the data limit counter will reset automatically only on next month first day or you can rest counter by SMS command “sbdlimitsreset”
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FM will enable satellite mode only if the device can not send data via GPRS. Sattelite mode has its own Save/Send period. If the timeout is set to 0 no periodic records will be made. It is not recommended to save records often because of satellite traffic prices. 8 kilobytes monthly data limit is hardcoded in firmware. If the data limit is reached – the data limit counter will reset automatically only on next month first day or you can rest counter by SMS command “sbdlimitsreset”
 
[[Image:Short_burst_data_63.gif|600px|center]]
 
[[Image:Short_burst_data_63.gif|600px|center]]
In addition, you can select which IO element can generate Satellite records. In order to do that you need to go to the IO tab select IO record priority Panic and check the checkbox “Satellite I/O” what you want to get that data through satellites if there is no GSM connection.
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In addition, you can select which IO element can generate Satellite records. In order to do that you need to go to the IO tab select IO record priority Panic and check the checkbox “Satellite I/O” for what you want to get that data through satellites if there is no GSM connection.
 
[[Image:Io_sattelite_63.gif|1000px|center]]
 
[[Image:Io_sattelite_63.gif|1000px|center]]
In this scenario, then the Digital input record will be generated internal 90 seconds timer will start to tick and if in that timeout device will not send the record through the GPRS network it will be sent with Iridium satellites. Only 9 elements can generate Alarm priority records in the current firmware version. These elements are Digital input 1, Digital input 2, Digital
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In this scenario, then the Digital input record will be generated internal 90 seconds timer will start to tick and if in that timeout device will not send the record through the GPRS network it will be sent with Iridium satellites. Only 9 elements can generate Alarm priority records in the current firmware version. These elements are:
input 3, Digital input 4, Digital output 1, Digital output 2, Digital output 3, Digital output4, Speed.
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* Digital input 1
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* Digital input 2
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* Digital input 3
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* Digital input 4
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* Digital output 1
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* Digital output 2
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* Digital output 3
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* Digital output 4
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* Speed
 
Record which will be sent through the Iridium satellite network will be different than the regular record. It will contain: 4
 
Record which will be sent through the Iridium satellite network will be different than the regular record. It will contain: 4
 
bytes timestamp, 3 bytes longitude, 3 bytes latitude, 1 byte record generation info, 1 byte DIN, DOUT info, 1 byte speed
 
bytes timestamp, 3 bytes longitude, 3 bytes latitude, 1 byte record generation info, 1 byte DIN, DOUT info, 1 byte speed
 
value.
 
value.
===Configuring FMB640===
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===Configuring FMX640===
 
Since 00.02.05 firmware version device supports Iridium devices which can send short burst data (SBD) to the server. This means that some data can be sent from the FM device to the server through satellites.
 
Since 00.02.05 firmware version device supports Iridium devices which can send short burst data (SBD) to the server. This means that some data can be sent from the FM device to the server through satellites.
In order to get those records, you have to connect the device to FM64 COM1 or COM2 port. Select COM1 or COM2 mode Satellite backup mode. Those settings could be found in RS232/RS485 TAB in the configurator. The Baud rate for satellite devices is 19200 bps. Furthermore, TSM232 functionality should be enabled. These settings can be found in the Features TAB in Short burst data settings. See the picture below.
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In order to get those records, you have to connect the device to FMX640 COM1 or COM2 port. Select COM1 or COM2 mode Satellite backup mode. Those settings could be found in RS232/RS485 TAB in the configurator. The Baud rate for satellite devices is 19200 bps. Furthermore, [[TSM232]] functionality should be enabled. These settings can be found in the Features TAB in Short burst data settings. See the picture below.
 
[[Image:Rs232_setting.gif|280px|center]]
 
[[Image:Rs232_setting.gif|280px|center]]
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You should also configure periodic Alarm record save. If the timeout is set to 0, no periodic records are going to be made. It is not recommended to save records often because of satellite traffic price. 3 kilobytes data limit counter is set which is reset every month. In addition, you can select which IO element can generate the Alarm priority record. The configurable IO parameters are shown as SBD IO source in the picture above. In order to do that you need to configure these IO elements as Panic priority. If properly configured SBD records are generated and sent if there is no GSM connection.
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You should also configure periodic Alarm record save. If the timeout is set to 0, no periodic records are going to be made. It is not recommended to save records often because of satellite traffic prices. 8 kilobytes data limit counter is set which is reset every month. In addition, you can select which IO element can generate the Alarm priority record. The configurable IO parameters are shown as SBD IO sources in the picture below. In order to do that you need to configure these IO elements as a Panic priority. If properly configured SBD records are generated and sent if there is no GSM connection.
    
[[Image:Short_burst_data_settings.gif|300px|center]]
 
[[Image:Short_burst_data_settings.gif|300px|center]]
   −
In addition, you can select which IO element can generate Satellite records. In order to do that you need to go to the IO tab select IO record priority Panic  
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In addition, you can select which IO element can generate Satellite records. In order to do that you need to go to the IO tab select IO record priority Panic what you want to get that data through satellites if there is no GSM connection.
what you want to get that data through satellites if there is no GSM connection.
   
[[Image:Io_sattelite.gif|1300px|center]]
 
[[Image:Io_sattelite.gif|1300px|center]]
In the scenario shown in the above picture when a panic record is made (generated by Digital Input 1 or Digital Input 2) internal 90 seconds timer will start to tick and if in that timeout device will not send record through the GPRS network it will be sent with Iridium satellites. 9 elements can generate Alarm priority records in the current (00.02.05) firmware version. These elements are Digital input 1, Digital input 2, Digital input 3, Digital input 4, Digital output 1, Digital output 2, Digital output 3, Digital output4, Speed.
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In the scenario shown in the above picture when a panic record is made (generated by Digital Input 1 or Digital Input 2) internal 90 seconds timer will start to tick and if that timeout device will not send a record through the GPRS network it will be sent with Iridium satellites. 9 elements can generate Alarm priority records in the current (00.02.05) firmware version. These elements are:
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* Digital input 1
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* Digital input 2
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* Digital input 3
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* Digital input 4
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* Digital output 1
 +
* Digital output 2
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* Digital output 3
 +
* Digital output 4
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* Speed
 
Record which will be sent through the Iridium satellite network will be different than the regular record. It will contain 4 bytes timestamp, 3 bytes longitude, 3 bytes latitude, 1 byte record generation info, 1 byte DIN, DOUT info, 1 byte speed value.
 
Record which will be sent through the Iridium satellite network will be different than the regular record. It will contain 4 bytes timestamp, 3 bytes longitude, 3 bytes latitude, 1 byte record generation info, 1 byte DIN, DOUT info, 1 byte speed value.
  

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