Difference between revisions of "Template:FMB640 System settings"

From Wiki Knowledge Base | Teltonika GPS
m (Minor changes)
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[[Image:FMB640 Sleep mode.png|right|300px]]
 
[[Image:FMB640 Sleep mode.png|right|300px]]
  
This feature will be used to save power consumption of external battery (power supply). It let the user choose one of four power saving modes which he would prefer: '''[[{{{model|FMB1YX}}} Sleep modes#GPS Sleep mode|GPS Sleep]]''', '''[[{{{model|FMB1YX}}} Sleep modes#Deep Sleep mode|Deep Sleep]]''' and '''[[{{{model|FMB1YX}}} Sleep modes#Online Deep Sleep mode|Online Deep Sleep]]'''. Also, after the mentioned options you can find the Timeout (min) parameter which starts counting when the device is in STOP mode. After timeout is reached and all conditions for sleep mode are met, the device goes to sleep mode. <br></br>
+
This feature will be used to save power consumption of external battery (power supply). It let the user choose one of four power saving modes which he would prefer: '''[[{{{model|FMB1YX}}} Sleep modes#GPS Sleep mode|GPS Sleep]]''', '''[[{{{model|FMB1YX}}} Sleep modes#Deep Sleep mode|Deep Sleep]]''' and '''[[{{{model|FMB1YX}}} Sleep modes#Online Deep Sleep mode|Online Deep Sleep]]'''. Also, after the mentioned options you can find the Timeout (min) parameter which starts counting when the device is in STOP mode. After timeout is reached and all conditions for sleep mode are met, the device goes to sleep mode. <br><br>
'''Note:''' Detail description and conditions about every mode you can find [[{{{model|FMB1YX}}} Sleep modes|'''here''']].<br></br><br></br>
+
'''Note:''' Detail description and conditions about every mode you can find [[{{{model|FMB1YX}}} Sleep modes|'''here''']].<br><br><br><br>
  
 
==System Settings==
 
==System Settings==
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[[Image:Movement source.png|right|300px]]
 
[[Image:Movement source.png|right|300px]]
 
Parameter, which determines if device should work in "Vehicle on Stop" or "Vehicle on Moving" mode. There are four possible movement sources<br>
 
Parameter, which determines if device should work in "Vehicle on Stop" or "Vehicle on Moving" mode. There are four possible movement sources<br>
* '''Ignition''' - if Ignition (based on Ignition Source) is ON, Vehicle MOVING mode is used; if Ignition is OFF, Vehicle on STOP mode is used;
+
 
* '''Movement''' - if accelerometer detects movement, Vehicle MOVING mode is used; if no movement is detected, Vehicle on STOP mode is used;
+
*'''Ignition''' - if Ignition (based on Ignition Source) is ON, Vehicle MOVING mode is used; if Ignition is OFF, Vehicle on STOP mode is used;
* ''GNSS''' - if GPS Fix is acquired and the vehicle speed is >=5 km/h, Vehicle MOVING mode is used; if GPS speed is <5 km/h, Vehicle on STOP mode is used (if there is no GPS Fix, accelerometer determines vehicle modes);
+
*'''Movement''' - if accelerometer detects movement, Vehicle MOVING mode is used; if no movement is detected, Vehicle on STOP mode is used;
* '''CAN Speed''' - if CAN adapter or FMS speed is >0 km/h, Vehicle MOVING mode is used; if CAN adapter or FMS speed is <=0 km/h, Vehicle on STOP mode is used;
+
*''GNSS''' - if GPS Fix is acquired and the vehicle speed is >=5 km/h, Vehicle MOVING mode is used; if GPS speed is <5 km/h, Vehicle on STOP mode is used (if there is no GPS Fix, accelerometer determines vehicle modes);
 +
*'''CAN Speed''' - if CAN adapter or FMS speed is >0 km/h, Vehicle MOVING mode is used; if CAN adapter or FMS speed is <=0 km/h, Vehicle on STOP mode is used;
  
 
===GNSS Source===
 
===GNSS Source===
Line 25: Line 26:
 
[[Image:GNSS source.png|right|300px]]
 
[[Image:GNSS source.png|right|300px]]
  
* GPS + Galileo;
+
*GPS + Galileo;
* GLONASS + BeiDou;
+
*GLONASS + BeiDou;
* Galileo + BeiDou;
+
*Galileo + BeiDou;
* Galileo + GLONASS;
+
*Galileo + GLONASS;
* GPS + GLONASS + BeiDou;
+
*GPS + GLONASS + BeiDou;
* GPS + Galileo + BeiDou;
+
*GPS + Galileo + BeiDou;
* Galileo + GLONASS + BeiDou;
+
*Galileo + GLONASS + BeiDou;
* GPS + Galileo + GLONASS + BeiDou.<br></br>
+
*GPS + Galileo + GLONASS + BeiDou.<br><br>
 +
 
 
'''List of configurable GNSS sources:'''
 
'''List of configurable GNSS sources:'''
* GPS only
+
 
* GPS + BeiDou
+
*GPS only
* GPS + GLONASS
+
*GPS + BeiDou
* GPS + Galileo + GLONASS
+
*GPS + GLONASS
 +
*GPS + Galileo + GLONASS
  
 
===Battery Charge Mode===
 
===Battery Charge Mode===
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Possible options:
 
Possible options:
* '''On Need''' - enable battery charger any time when needed;
+
 
* '''After Ignition ON''' - charger can be enabled after ignition is turned on, except if the battery is fully charged or 10-minute timeout has not passed since the device was turned on for faster FIX receiving;
+
*'''On Need''' - enable battery charger any time when needed;
 +
*'''After Ignition ON''' - charger can be enabled after ignition is turned on, except if the battery is fully charged or 10-minute timeout has not passed since the device was turned on for faster FIX receiving;
  
 
===Analog Input value range===
 
===Analog Input value range===
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[[Image:Analog input value range.png|right|300px]]
 
[[Image:Analog input value range.png|right|300px]]
  
In ''Analog Input Value Range'' settings user can choose an analog input range of 10 V or 30 V.<br></br>
+
In ''Analog Input Value Range'' settings user can choose an analog input range of 10 V or 30 V.<br><br>
  
 
===AIN4/DOUT4 Mode===  
 
===AIN4/DOUT4 Mode===  
Line 61: Line 65:
 
[[Image:FMB640_AIN4_DOUT4_Mode.png|right|300px]]
 
[[Image:FMB640_AIN4_DOUT4_Mode.png|right|300px]]
  
Users can select one of 2 options to define which way the 18th PIN will work.Configurable options are DIN4 and AIN4.<br></br>
+
Users can select one of 2 options to define which way the 18th PIN will work.Configurable options are DIN4 and AIN4.<br><br>
  
 
===Analog Input value range 3-4===
 
===Analog Input value range 3-4===
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[[Image:FMB640 analog input range 3 4.png|right|300px]]
 
[[Image:FMB640 analog input range 3 4.png|right|300px]]
  
In ''Analog Input Value Range'' settings user can choose an analog input range of 10 V or 30 V for AIN3 and AIN4.<br></br>
+
In ''Analog Input Value Range'' settings user can choose an analog input range of 10 V or 30 V for AIN3 and AIN4.<br><br>
  
 
===Odometer Source settings===  
 
===Odometer Source settings===  
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In ''Odometer Source settings'' a user can select one of the options for odometer counting. There are 4 possible options:  
 
In ''Odometer Source settings'' a user can select one of the options for odometer counting. There are 4 possible options:  
* GPS
+
 
* LVCAN
+
*GPS
* FMS
+
*LVCAN
* KLINE
+
*FMS
 +
*KLINE
  
 
===Speed source settings===  
 
===Speed source settings===  
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In ''Speed Source settings'' a user can declare what technology will be used for vehicle speed measurement. There are 4 possible options:  
 
In ''Speed Source settings'' a user can declare what technology will be used for vehicle speed measurement. There are 4 possible options:  
* GPS
 
* LVCAN
 
* FMS
 
* KLINE
 
  
==IO Global settings==
+
*GPS
 +
*LVCAN
 +
*FMS
 +
*KLINE
 +
 
 +
==IO Global Settings==
  
 
[[Image:FMB640 IO Global Settings.png|right|300px]]
 
[[Image:FMB640 IO Global Settings.png|right|300px]]
  
 
In ''IO Global settings'' a user can set IO value if I/O is not present for 30 seconds. <br>
 
In ''IO Global settings'' a user can set IO value if I/O is not present for 30 seconds. <br>
A user can choose how the device will send this IO element: <br/>
+
A user can choose how the device will send this IO element: <br />
* '''Don't Send''' - IO element is not included in the packet until new data is acquired;
+
 
* '''Send Zero''' - Zero value is sent until new data is acquired;
+
*'''Don't Send''' - IO element is not included in the packet until new data is acquired;
* '''Send Last''' Know Value - Last known value is sent until new data is acquired;
+
*'''Send Zero''' - Zero value is sent until new data is acquired;
* '''Send 0xFF''' - 0xFF value is sent until new data is acquired;
+
*'''Send Last''' Know Value - Last known value is sent until new data is acquired;
 +
*'''Send 0xFF''' - 0xFF value is sent until new data is acquired;
  
 
==Protocol Settings==
 
==Protocol Settings==
Line 107: Line 114:
 
[[Image:Data Protocol.png|right|300px]]
 
[[Image:Data Protocol.png|right|300px]]
  
In ''Data Protocol'' settings user can choose which protocol version ('''[[Codec#Codec 8|Codec 8]]''' or '''[[Codec#Codec 8 Extended|Codec 8 Extended]]''') will use for data sending to the server.<br></br>
+
In ''Data Protocol'' settings user can choose which protocol version ('''[[Codec#Codec 8|Codec 8]]''' or '''[[Codec#Codec 8 Extended|Codec 8 Extended]]''') will use for data sending to the server.<br><br>
  
 
==Records Settings==
 
==Records Settings==
Line 119: Line 126:
  
 
Possible options:
 
Possible options:
* '''After Position Fix''' - records will be saved and send only after position fix;
+
 
* '''After Time Sync''' - records will be saved and send only after time synchronization;
+
*'''After Position Fix''' - records will be saved and send only after position fix;
* '''Always''' - records will be always saved and send even if will not be time synchronization.
+
*'''After Time Sync''' - records will be saved and send only after time synchronization;
 +
*'''Always''' - records will be always saved and send even if will not be time synchronization.
 +
 
 
'''Note:''' ''If record is without valid coordinates – (there were no GPS fix in the moment of data acquisition) – Longitude, Latitude and Altitude values are last valid fix, and Angle, Satellites, and Speed are 0. After a reboot, it will send zero coordinates.''
 
'''Note:''' ''If record is without valid coordinates – (there were no GPS fix in the moment of data acquisition) – Longitude, Latitude and Altitude values are last valid fix, and Angle, Satellites, and Speed are 0. After a reboot, it will send zero coordinates.''
  
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This feature is used to set sort records sending sequence. Possible options:
 
This feature is used to set sort records sending sequence. Possible options:
* '''Newest''' - sends records from newest to oldest. High priority records are sent to the server immediately;
+
 
* '''Oldest''' - sends records from oldest to newest. High priority records are sent to the server immediately.
+
*'''Newest''' - sends records from newest to oldest. High priority records are sent to the server immediately;
 +
*'''Oldest''' - sends records from oldest to newest. High priority records are sent to the server immediately.
  
 
===Save records to===  
 
===Save records to===  
Line 153: Line 163:
  
 
This feature is used to select where to save records which are not sent yet. Possible options:
 
This feature is used to select where to save records which are not sent yet. Possible options:
* Internal memory;
+
 
* SD card.
+
*Internal memory;
 +
*SD card.
 
   
 
   
 
===Ping mode===  
 
===Ping mode===  
Line 161: Line 172:
 
[[Image:Ping mode.png|right|300px]]
 
[[Image:Ping mode.png|right|300px]]
  
The user can enable and select how frequent devices will send packets to inform the server about the active data link. It works when the device did not send any records to the server in a defined time period. <br></br><br></br>
+
The user can enable and select how frequent devices will send packets to inform the server about the active data link. It works when the device did not send any records to the server in a defined time period. <br><br><br><br>
  
 
===Network Ping Timeout===  
 
===Network Ping Timeout===  
Line 174: Line 185:
 
[[Image:FMB640_Static_navigation_settings.png|right|300px]]
 
[[Image:FMB640_Static_navigation_settings.png|right|300px]]
  
''Static Navigation Mode'' is a filter, which filters GPS jumps when an object is parked (is not moving) and GPS position is still traced.<br></br>
+
''Static Navigation Mode'' is a filter, which filters GPS jumps when an object is parked (is not moving) and GPS position is still traced.<br><br>
 
If the Static navigation filter is disabled, it will apply no changes to GPS data. If the Static navigation filter is enabled:
 
If the Static navigation filter is disabled, it will apply no changes to GPS data. If the Static navigation filter is enabled:
* '''Movement OR Ignition''' - filter changes in GPS position if no movement (configured movement source)or ignition (configured ignition source) is detected;
+
 
* '''Movement''' - filter changes in GPS position if no movement (configured movement source) is detected;
+
*'''Movement OR Ignition''' - filter changes in GPS position if no movement (configured movement source)or ignition (configured ignition source) is detected;
* '''Ignition''' - filter changes in GPS position if ignition (configured ignition source) is detected;
+
*'''Movement''' - filter changes in GPS position if no movement (configured movement source) is detected;
* '''Movement''' AND Ignition - filter changes in GPS position if no movement (configured movement source) and ignition (configured ignition source) is detected.
+
*'''Ignition''' - filter changes in GPS position if ignition (configured ignition source) is detected;
 +
*'''Movement''' AND Ignition - filter changes in GPS position if no movement (configured movement source) and ignition (configured ignition source) is detected.
 +
 
 
If the user chooses Movement OR Ignition (default setting), static navigation will be deactivated, when movement or ignition is detected. If the user chooses Movement, static navigation will be deactivated, only when movement is detected. If the user chooses Ignition, static navigation will be deactivated, only when the ignition is detected. If the user chooses Movement AND Ignition, static navigation will be deactivated, when both movement and ignition are detected. Parameter values for each source are described in the table below.  
 
If the user chooses Movement OR Ignition (default setting), static navigation will be deactivated, when movement or ignition is detected. If the user chooses Movement, static navigation will be deactivated, only when movement is detected. If the user chooses Ignition, static navigation will be deactivated, only when the ignition is detected. If the user chooses Movement AND Ignition, static navigation will be deactivated, when both movement and ignition are detected. Parameter values for each source are described in the table below.  
  
Line 189: Line 202:
  
 
Ignition source will be used to determine the ignition of the vehicle. If voltage is between High Voltage Lever and Low Voltage Level (below ''Ignition Settings'' options) - ignition is ON. If voltage is higher than High Voltage Lever or lower than Low Voltage Level - ignition is OFF.<br>
 
Ignition source will be used to determine the ignition of the vehicle. If voltage is between High Voltage Lever and Low Voltage Level (below ''Ignition Settings'' options) - ignition is ON. If voltage is higher than High Voltage Lever or lower than Low Voltage Level - ignition is OFF.<br>
* '''Digital Input 1''' - if ''Digital Input 1'' is 1 - ignition is ON; if ''Digital Input 1'' value is 0 - ignition is OFF;
+
 
* '''Digital Input 2''' - if ''Digital Input 2'' is 1 - ignition is ON; if ''Digital Input 2'' value is 0 - ignition is OFF;
+
*'''Digital Input 1''' - if ''Digital Input 1'' is 1 - ignition is ON; if ''Digital Input 1'' value is 0 - ignition is OFF;
* '''Digital Input 3''' - if ''Digital Input 3'' is 1 - ignition is ON; if ''Digital Input 3'' value is 0 - ignition is OFF;
+
*'''Digital Input 2''' - if ''Digital Input 2'' is 1 - ignition is ON; if ''Digital Input 2'' value is 0 - ignition is OFF;
* '''Digital Input 4''' - if ''Digital Input 4'' is 1 - ignition is ON; if ''Digital Input 4'' value is 0 - ignition is OFF;
+
*'''Digital Input 3''' - if ''Digital Input 3'' is 1 - ignition is ON; if ''Digital Input 3'' value is 0 - ignition is OFF;
* '''Power Voltage''' - if the voltage is between High Voltage Lever and Low Voltage Level (below ''Ignition Settings'' options) - ignition is ON; if the voltage is higher than High Voltage Lever or lower than Low Voltage Level - ignition is OFF.
+
*'''Digital Input 4''' - if ''Digital Input 4'' is 1 - ignition is ON; if ''Digital Input 4'' value is 0 - ignition is OFF;
* '''Movement''' - if ''Movement'' is still detect 1 after ''Movement Start Delay (s)'' - ignition is ON; if ''Movement'' value is 0 after ''Movement Stop Delay (s)'' - ignition is OFF;
+
*'''Power Voltage''' - if the voltage is between High Voltage Lever and Low Voltage Level (below ''Ignition Settings'' options) - ignition is ON; if the voltage is higher than High Voltage Lever or lower than Low Voltage Level - ignition is OFF.
 +
*'''Movement''' - if ''Movement'' is still detect 1 after ''Movement Start Delay (s)'' - ignition is ON; if ''Movement'' value is 0 after ''Movement Stop Delay (s)'' - ignition is OFF;
 +
 
 
'''Example:''' DIN1 and Movement are selected as the Ignition source. When the device detects movement, Ignition status will change to 1, regardless that the DIN1 value is 0.  
 
'''Example:''' DIN1 and Movement are selected as the Ignition source. When the device detects movement, Ignition status will change to 1, regardless that the DIN1 value is 0.  
  
==Time synchronization settings==
+
==Time Synchronization Settings==
  
 
[[Image:Time synchronization older.png|right|300px]]
 
[[Image:Time synchronization older.png|right|300px]]
  
 
''Synchronization settings'' is used for choosing the device’s internal time synchronization source. Possible options are:
 
''Synchronization settings'' is used for choosing the device’s internal time synchronization source. Possible options are:
* '''GPS Only''' - time synchronization by GPS;
+
 
* '''NITZ and NTP''' - time synchronization from GSM operators (NITZ) and/or web server (NTP);
+
*'''GPS Only''' - time synchronization by GPS;
* '''NTP''' - time synchronization from NTP server only;
+
*'''NITZ and NTP''' - time synchronization from GSM operators (NITZ) and/or web server (NTP);
* '''NITZ''' - time synchronization from GSM operators (NITZ).
+
*'''NTP''' - time synchronization from NTP server only;
 +
*'''NITZ''' - time synchronization from GSM operators (NITZ).
 +
 
 
''NTP Resync'' parameter determines how often a device should resynchronize its time. If the set value is not equal to zero, time resynchronization will occur periodically at time intervals to which this parameter is set.<br>
 
''NTP Resync'' parameter determines how often a device should resynchronize its time. If the set value is not equal to zero, time resynchronization will occur periodically at time intervals to which this parameter is set.<br>
''NTP server 1'' and ''NTP Server 2'' let the user select which NTP server (s) will be used to re-synchronize time.<br></br>
+
''NTP server 1'' and ''NTP Server 2'' let the user select which NTP server (s) will be used to re-synchronize time.<br><br>

Revision as of 09:05, 31 August 2020

System settings have the following configurable parameters:

Sleep Mode

FMB640 Sleep mode.png

This feature will be used to save power consumption of external battery (power supply). It let the user choose one of four power saving modes which he would prefer: GPS Sleep, Deep Sleep and Online Deep Sleep. Also, after the mentioned options you can find the Timeout (min) parameter which starts counting when the device is in STOP mode. After timeout is reached and all conditions for sleep mode are met, the device goes to sleep mode.

Note: Detail description and conditions about every mode you can find here.



System Settings

Movement Source


Movement source.png

Parameter, which determines if device should work in "Vehicle on Stop" or "Vehicle on Moving" mode. There are four possible movement sources

  • Ignition - if Ignition (based on Ignition Source) is ON, Vehicle MOVING mode is used; if Ignition is OFF, Vehicle on STOP mode is used;
  • Movement - if accelerometer detects movement, Vehicle MOVING mode is used; if no movement is detected, Vehicle on STOP mode is used;
  • GNSS' - if GPS Fix is acquired and the vehicle speed is >=5 km/h, Vehicle MOVING mode is used; if GPS speed is <5 km/h, Vehicle on STOP mode is used (if there is no GPS Fix, accelerometer determines vehicle modes);
  • CAN Speed - if CAN adapter or FMS speed is >0 km/h, Vehicle MOVING mode is used; if CAN adapter or FMS speed is <=0 km/h, Vehicle on STOP mode is used;

GNSS Source


In GNSS Source settings user can configure which GNSS system(s) to use.
User has a choice to use only one system GPS and it is possible to choose two or three systems together. One exception is that you cannot combine BeiDou and GLONASS systems together. Examples of non-configurable GNSS source combinations are:

GNSS source.png
  • GPS + Galileo;
  • GLONASS + BeiDou;
  • Galileo + BeiDou;
  • Galileo + GLONASS;
  • GPS + GLONASS + BeiDou;
  • GPS + Galileo + BeiDou;
  • Galileo + GLONASS + BeiDou;
  • GPS + Galileo + GLONASS + BeiDou.

List of configurable GNSS sources:

  • GPS only
  • GPS + BeiDou
  • GPS + GLONASS
  • GPS + Galileo + GLONASS

Battery Charge Mode


In Battery Charge Mode settings user can choose when the battery will be charged.

FMB640 Battery Charge Mode.png

Possible options:

  • On Need - enable battery charger any time when needed;
  • After Ignition ON - charger can be enabled after ignition is turned on, except if the battery is fully charged or 10-minute timeout has not passed since the device was turned on for faster FIX receiving;

Analog Input value range


Analog input value range.png

In Analog Input Value Range settings user can choose an analog input range of 10 V or 30 V.

AIN4/DOUT4 Mode


FMB640 AIN4 DOUT4 Mode.png

Users can select one of 2 options to define which way the 18th PIN will work.Configurable options are DIN4 and AIN4.

Analog Input value range 3-4


FMB640 analog input range 3 4.png

In Analog Input Value Range settings user can choose an analog input range of 10 V or 30 V for AIN3 and AIN4.

Odometer Source settings


FMB640 Odometer Source settings.png

In Odometer Source settings a user can select one of the options for odometer counting. There are 4 possible options:

  • GPS
  • LVCAN
  • FMS
  • KLINE

Speed source settings


FMB640 Speed source settings.png

In Speed Source settings a user can declare what technology will be used for vehicle speed measurement. There are 4 possible options:

  • GPS
  • LVCAN
  • FMS
  • KLINE

IO Global Settings

FMB640 IO Global Settings.png

In IO Global settings a user can set IO value if I/O is not present for 30 seconds.
A user can choose how the device will send this IO element:

  • Don't Send - IO element is not included in the packet until new data is acquired;
  • Send Zero - Zero value is sent until new data is acquired;
  • Send Last Know Value - Last known value is sent until new data is acquired;
  • Send 0xFF - 0xFF value is sent until new data is acquired;

Protocol Settings

Data Protocol.png

In Data Protocol settings user can choose which protocol version (Codec 8 or Codec 8 Extended) will use for data sending to the server.

Records Settings

Recors Saving/Sending Without TS


This feature will be used to save and send records to the server without time synchronization.

Records saving sending without TS.png

Possible options:

  • After Position Fix - records will be saved and send only after position fix;
  • After Time Sync - records will be saved and send only after time synchronization;
  • Always - records will be always saved and send even if will not be time synchronization.

Note: If record is without valid coordinates – (there were no GPS fix in the moment of data acquisition) – Longitude, Latitude and Altitude values are last valid fix, and Angle, Satellites, and Speed are 0. After a reboot, it will send zero coordinates.

Open Link Timeout


Open link timeout.png

This feature is used to set a timeout of the link between FMB640 and AVL application termination. If FMB640 has already sent all records it waits for new records before closing link (except Deep Sleep mode, more information in Deep Sleep mode chapter). If new records are generated in the period of this timeout, and the minimum count of the timer to send is reached, they are sent to AVL application. This option is useful when a GSM operators charge money for link activation.

Response Timeout


Response Timeout.png

This feature is used to set a time period waiting for a response from the server-side.

Sort By


Sort By.png

This feature is used to set sort records sending sequence. Possible options:

  • Newest - sends records from newest to oldest. High priority records are sent to the server immediately;
  • Oldest - sends records from oldest to newest. High priority records are sent to the server immediately.

Save records to


Save records to.png

This feature is used to select where to save records which are not sent yet. Possible options:

  • Internal memory;
  • SD card.

Ping mode


Ping mode.png

The user can enable and select how frequent devices will send packets to inform the server about the active data link. It works when the device did not send any records to the server in a defined time period.



Network Ping Timeout


Network ping timeout.png

This feature is used to set network ping after a timeout to prevent link close by the operator.

Static navigation settings

FMB640 Static navigation settings.png

Static Navigation Mode is a filter, which filters GPS jumps when an object is parked (is not moving) and GPS position is still traced.

If the Static navigation filter is disabled, it will apply no changes to GPS data. If the Static navigation filter is enabled:

  • Movement OR Ignition - filter changes in GPS position if no movement (configured movement source)or ignition (configured ignition source) is detected;
  • Movement - filter changes in GPS position if no movement (configured movement source) is detected;
  • Ignition - filter changes in GPS position if ignition (configured ignition source) is detected;
  • Movement AND Ignition - filter changes in GPS position if no movement (configured movement source) and ignition (configured ignition source) is detected.

If the user chooses Movement OR Ignition (default setting), static navigation will be deactivated, when movement or ignition is detected. If the user chooses Movement, static navigation will be deactivated, only when movement is detected. If the user chooses Ignition, static navigation will be deactivated, only when the ignition is detected. If the user chooses Movement AND Ignition, static navigation will be deactivated, when both movement and ignition are detected. Parameter values for each source are described in the table below.

Static Navigation mode is a filter, which filters out track jumps when the object is stationary. If the static navigation filter is disabled, it will apply no changes to GPS data. If static navigation filter is enabled, it will filter changes in GPS position if no movement (as defined by configured movement source) or ignition (as defined by configured ignition source) is detected. It allows filtering GPS jumps when the object is parked (not moving) and GPS position is still traced.

Ignition Source

FMB640 Ignition source.png

Ignition source will be used to determine the ignition of the vehicle. If voltage is between High Voltage Lever and Low Voltage Level (below Ignition Settings options) - ignition is ON. If voltage is higher than High Voltage Lever or lower than Low Voltage Level - ignition is OFF.

  • Digital Input 1 - if Digital Input 1 is 1 - ignition is ON; if Digital Input 1 value is 0 - ignition is OFF;
  • Digital Input 2 - if Digital Input 2 is 1 - ignition is ON; if Digital Input 2 value is 0 - ignition is OFF;
  • Digital Input 3 - if Digital Input 3 is 1 - ignition is ON; if Digital Input 3 value is 0 - ignition is OFF;
  • Digital Input 4 - if Digital Input 4 is 1 - ignition is ON; if Digital Input 4 value is 0 - ignition is OFF;
  • Power Voltage - if the voltage is between High Voltage Lever and Low Voltage Level (below Ignition Settings options) - ignition is ON; if the voltage is higher than High Voltage Lever or lower than Low Voltage Level - ignition is OFF.
  • Movement - if Movement is still detect 1 after Movement Start Delay (s) - ignition is ON; if Movement value is 0 after Movement Stop Delay (s) - ignition is OFF;

Example: DIN1 and Movement are selected as the Ignition source. When the device detects movement, Ignition status will change to 1, regardless that the DIN1 value is 0.

Time Synchronization Settings

Time synchronization older.png

Synchronization settings is used for choosing the device’s internal time synchronization source. Possible options are:

  • GPS Only - time synchronization by GPS;
  • NITZ and NTP - time synchronization from GSM operators (NITZ) and/or web server (NTP);
  • NTP - time synchronization from NTP server only;
  • NITZ - time synchronization from GSM operators (NITZ).

NTP Resync parameter determines how often a device should resynchronize its time. If the set value is not equal to zero, time resynchronization will occur periodically at time intervals to which this parameter is set.
NTP server 1 and NTP Server 2 let the user select which NTP server (s) will be used to re-synchronize time.