UM.1192.1 RDS600HD

USER MANUAL
RDS600
Rapid Deployment Video Surveillance System
UM.1192.1
Contents
INTRODUCTION
6
SYSTEM OPTIONS
7
SYSTEM OVERVIEW
8
MAIN PANEL OVERVIEW
10
CONTROL PANEL OVERVIEW
10
INPUTS/OUTPUTS
11
SOCKET PINOUTS
12
OPERATION
13
Hand Controller Overview
14
Hand Controller Operation
15
Hand Controller Operation in TVi Control Centre
16
Mode On-Screen Menu
17
On-Screen Display
19
On-Screen Menus
20
HDS600
26
Panel Overview
27
LED Indicators
27
SD Card
28
Connecting Anntennae for Cellular and Wi-Fi
28
Inserting SIM cards
28
Updating Software
28
Connecting to a Network
30
Preparing the HDS600 for Operation
31
Troubleshooting
41
WIRELESS ROUTER (Optional)
42
Logging In
43
Settings and Menus
46
Network Information
47
LTE
47
WAN
48
LAN
48
Wireless
49
CLIENT
49
AP
50
3
DHCP Leases
51
Backup WAN
51
Routes
52
Realtime Graphs
52
LTE Configuration
57
WAN Configuration
58
General
59
Static
59
DHCP
59
PPPoE
60
Advanced
61
IP Aliases
63
LAN
64
DHCP Server
65
Wireless
67
Device
68
Interface
69
Security
70
MAC-Filter
71
Firewall
73
DMZ
74
Services
77
Ping Reboot
77
SMS Reboot
78
NTP
79
Dynamic DNS
81
Wireless Hotspot
81
Logging and FTP Settings
82
Open VPN
83
GRE Tunnel
88
System
89
Administration
91
4
VIDEO SERVER BOARD (Optional)
95
Network Connectivity
98
Digital Zoom
99
Image Settings
99
Fine Tune Settings
100
Network Settings
101
System Settings
102
Application Settings
103
Pan/Tilt Settings
104
GSM COMMAND (Optional)
106
Setting up the SIM Card
108
Power On
109
Dialling Into the GSM Command
109
Operations During a Call
109
Status Message Request
110
Front Panel LED Conditions
111
5
RDS600 HD
Introduction
The Sonic RDS600 HD allows the user to remotely control, view, and record audio and video
images by streaming the real-time high-definition live footage over a GSM cellular network.
By incorporating the Digital Barriers TVI HDS600 module, the system is able to broadcast HDSDi and SD footage with AES encryption over a 3G/4G mobile network from up to 4x SD Pan/Tilt/
Zoom (PTZ) cameras or 1x HD SDi 1080p camera. Audio can also be recorded in stereo by
connecting microphones to the system. Audio and video footage can be recorded onto 2
removable SD cards, with a current maximum capacity of 64GB.
The analogue cameras can be controlled locally by using the Sonic Ruggedized Hand Controller,
which give the user access to all of the systems main functions for controlling and selecting the
cameras. The Hand Controller also features a 2.5” spotting screen to show the selected cameras
field of vision.
Alternatively, camera control can be performed over several different remote methods by using
the 3G/4G facility such as a tablet, a smartphone, a laptop, or via ADSL to a Central Sever or
Command Centre.
The system can be powered by either a 12V DC or a mains power supply unit (PSU). For mobile
deployment or for longer deployments, the RDS600 HD system can be fitted with an optional
40A/h battery pack to provide more than 10 hours running time.
The system can be customised to house an additional Digital Video Recorder (DVR) to allow
recording of the analogue video cameras. This solution is ideal for long term, unmanned video
surveillance or for recording footage for use at a later date. A range of different DVR options are
available.
An optional built-in GSM Command unit is also available for the RDS600 HD system. This allows
the user to remotely enable power to the system over a GSM cellular network.
This is carried out by dialling the number of the SIM card fitted into the GSM Command Unit,
once connected a PIN will need to be entered which is checked against the PIN stored on the
SIM card before control over the systems is authorized. This can be used to remotely enable or
disable power to the various elements of the case and also operate the DVR and record functions
as well as monitoring the status of the system.
An optional Wireless Router can be installed into the RDS600 HD system to allow the user to set
up local wireless network. This can be used to view and control the analogue camera system
using a windows PC, which is also compatible with the Sonic Virtual Hand Controller software.
Configuration of the HDS600 encoder can also be done over the wireless connection.
6
RDS600 HD
System Options
The Sonic RDS600 HD can be customised to facilitate different options to suit user requirements;

DVR options

Micro H.264 4-channel (USB or SSD options).

Quattro Mini H.264 4-channel.

Flashback-3.

Flashback-4.

X200 4-channel.

X300 4-channel.

Optional built-in GSM Command Unit.

Optional internal rechargeable 40Ah LiFePo4 battery pack.

Optional built-in Wireless Router with Video Server.

Optional Wireless Tablet.

Optional Sonic Virtual Hand Controller software.

Optional quad view.
7
RDS600 HD
System Overview
8
RDS600 HD
RDS600 Main Panel Overview (No DVR)
HDS600
GSM Command
(Optional)
Power Buttons
Control Panel
Camera LED’s
DVR LED
Record LED
System On/Off
DVR On/Off
HDS600 On/Off
10
Router On/Off
GSM On/Off
RDS600 HD
Inputs/Outputs
Right Hand Side Panel
Fuse
Fuse
Hand Controller
Socket
DC input
Internal Battery
Charge Socket
Left Hand Side Panel
HDS600
3G/4G
Auxiliary
Socket
Hand Controller
Video Output
Data Socket
HDS600
GPS
HDS600
Network
WI-FI
Stereo Audio
Input
DVR Video
Output
HD-SDi
Video Input
Mic in ‘L’
Mic in ‘R’
HDS600 PTZ/
Triggers
11
Camera 1
Camera 3
System WI-FI
Camera 2
Camera 4
GSM Command
WAN Port
Socket Pinouts
RDS600HD ‘Auxiliary’, ‘Data Socket’ and ‘HDS600 PTZ/Triggers’ Pin-outs Issue. 1
Data Socket
1.
+V
6. +5v D/C (1A max)
2.
+V
7. Scorpion + RS-485 -
3.
+V
8. Scorpion + RS-485 +
4.
Gnd
9. Data Sense Line (A/D line)
5.
Gnd
Auxiliary
1.
System Record Enable
14.
Digital O/P 1/ DVR Record Enable 1
2.
System Record Status
15.
Digital O/P 2/ DVR Record Enable 2
3.
Digital I/P 1/ DVR 1 Record Status
16.
Digital O/P 3/ DVR Record Enable 3
4.
Digital I/P 2/ DVR 2 Record Status
17.
Digital O/P 4/ DVR Record Enable 4
5.
Digital I/P 3/ DVR 3 Record Status
18.
Aux Sense Line (A/D line)
6.
Digital I/P 4/ DVR 4 Record Status
19.
Gnd
7.
Video I/P From External DVR
20.
Gnd
8.
Video O/P To External DVR
21.
Gnd
9.
Hand Controller Video O/P
22.
Gnd
10. +5v D/C O/P (1A max)
23.
Gnd
11. Hand Controller Txd
24.
Gnd
12. Hand Controller Rxd
25.
Gnd
13. SW +V O/P (1A max)
PTZ/Triggers
1.
RS485/422 Transmitted – (or A)
5. Trigger 2 (Off: 0v-2.5v DC, On: 4.5V-36V DC)
2.
RS485/422 Transmitted + (or B)
6. RS485/422 Received +
3.
RS485/422 Received –
7. Trigger 3 (Off: 0v-2.5v DC, On: 4.5V-36V DC)
4.
Trigger 1 (Off: 0v-2.5v DC, On: 4.5V-36V DC) 8. Isolated Ground for Alarm Input Trigger
12
RDS600 HD
RDS600 HD Operation

Press the SYSTEM button to power on the RDS600 HD. The button will illuminate when on.

Each individual unit can be independently powered by pressing the relevant button.

Press DVR to power on the Digital Video Recorder. The button will illuminate
when on.

Press HDS600 to power on the encoder. The button will illuminate when on.

Press ROUTER to power on the wireless router. The button will illuminate when
on.

Press GSM to power on the GSM Command. The button will illuminate when on.
The LED’s numbered 1 to 4 will illuminate when a camera is attached on system power up with
the current camera selection remaining illuminated once the system has powered up

The REC LED will illuminate when one of the optional DVR’s is placed into record.

The DVR LED will illuminate when the DVR camera view is selected.
To power the system down press and hold the SYSTEM button for 5 seconds for the system to
begin its shut-down sequence.
13
RDS600 HD
Hand Controller Overview
DISPLAY SCREEN
③
①
④
②
PAN & TILT JOYSTICK
⑦
⑧
⑤
⑨
⑥
⑩
⑪
⑫
⑬
① MENU/KEYLOCK
⑦
GAIN +/-
② CAMERA SELECT
⑧
FOCUS +/-
③ DISPLAY ADJUST/BLACKOUT
⑨
MODE
④ LCD SCREEN BRIGHTNESS +/-
⑩
BACKLIGHT COMPENSATION
⑤ ZOOM +/-
⑪
VIDEO PLAYBACK CONTROLS
⑥ AUTO FOCUS, GAIN & ZOOM
⑫
RECORD
⑬
STOP
14
RDS600 HD
Hand Controller Operation
MENU/KEYLOCK



Short press to activate the system (from system standby only).
Short press to enable/disable the on-screen menu.
Long press to activate/deactivate the keylock.
DISPLAY ADJUST/BLACKOUT


Short press: activate/scroll through display adjust.
Long press: Blackout; The hand controller display screen and all LED’s are
deactivated. Commands from the hand controller will still continue to function.
CAMERA SELECT



Short press: Scrolls up through the selected camera view.
Long press: Scrolls down through the selected camera view.
Enables/Disables the camera background during On Screen Display operation.
CAMERA MODE

Enables/Disables the intelligent camera module On Screen Display menu.
BACKLIGHT COMPENSATION

Activates the intelligent function of the camera to compensate in cases where a
subject with a large amount of background light would otherwise be obscured
by blooming or silhouetting.
This does not function when Frame Integration is enabled.
AUTO GAIN/FOCUS

Activates the intelligent function of the camera to automatically compensate for
the subject conditions.
15
RDS600 HD
Hand Controller Operation Using the TVi Control Centre
PTZ operation is carried out from the Control window. Advanced controls are controlled using the
following keys (some controls may only function with compatible equipment),
KEY
ACTION
KEY
ACTION
Y
Fast Forward
C
Change Camera
T
Step Forward
D
Record
R
Step Rewind
X
Mode : Enable/Disable Camera
Mode
E
Rewind
8
Menu, Keylock Enable/Disable
G
Play
1
Select Camera 1
H
Back Light Compensation
2
Select Camera 2
F
Stop
3
Select Camera 3
7
Auto
4
Select Camera 4
Z
Gain Up
5
Select Camera 5
Q
Gain Down
6
Select Camera 6
16
RDS600 HD
Mode On-Screen Display
During operation, the on-screen display for the intelligent camera can be accessed at any time by
pressing the Mode button on the Hand Controller.
Older Sony camera modules will not support all of the features listed below, when the menu is
launched, the system will interrogate the camera to determine which model it is and list only the
supported functions for this module.
The full menu as available on newer camera modules.
An abridged menu as shown by older camera modules.
Menu Functions;
DAY/NIGHT MODE
Colour; Used for day/good visibility recording.
Black and White; Used for night/low visibility recordings.
Automatic: The camera will determine which option will record
the best image in the current light conditions and adjust
accordingly.
NOISE REDUCTION
When activated this will remove noise from the image from 1 (2D
filter) to 5 (2D + 3D filters). Level 5 filter effects are maximized
with moving objects possibly showing a trail.
WIDE-D
Wide Dynamic range allows dark and bright areas to be
displayed in the same image, however this will have an impact on
the low light performance of the camera module along with some
noise on the image and flashing light sources e.g fluorescent
lamps.
17
RDS600 HD
Menu Functions;
FRAME INTEGRATION
When set, this will slow down the exposure rate on the camera
module to allow it to operate in lower light environments. With
this enabled, moving objects will show a trail.
DE-FOG
This adjusts the contrast of the camera module automatically to
make the image appear clearer.
IMAGE STABILIZER
This reduces any image blurring caused by vibration. This uses
the digital zoom system, which slightly changes the angle of view
and resolution but maintains the sensitivity.
STABLE ZOOM
This uses the digital zoom to perform corrections using the Image
Stabilizer function up to about x44 zoom ration.
MIRROR IMAGE
Mirrors the camera image.
IMAGE FLIP
Flips the camera image.
CAMERA OSD
Enables/Disables the On Screen Display generated from the
Sony module.
SAVE CAMERA SETTINGS
Saves the camera settings to the current module selected.
RESET TO DEFAULTS
Resets the currently selected module to the factory default
settings.
MODEL NUMBER
Shows the currently selected cameras model number.
18
RDS600 HD
On-Screen Display
During operation, the on-screen display will vary depending on which modes the system is used
in;
Normal Camera Operation;
①
②
③
④
⑤
⑥
⑦
① Current camera selection.
② Camera currently being recorded.
③ Internal DVR memory space availability. This will show EXT when the system is controlling an
external DVR.
④ System keylock.
⑤ Record scheduler active.
⑥ Camera Automatic Changeover enabled (when using with a supported camera).
⑦ Camera Automatic Gain/Focus enabled (when using with a supported camera).
19
RDS600 HD
On-Screen Menus
All of the system menus have been pre-configured for this installation.
It is recommended that these settings are not changed.
System Tab;

Press the Menu button on the controller to access the system tab.

Use the joystick to scroll the menus.


Left/Right to scroll tabs/options.

Up/Down to select sub-menu.
The selected section will show as highlighted black text.
To save any changes, select SAVE SETTINGS and move the joystick to the right. A rotating icon
will appear for a few seconds and then a SETTINGS SAVED message will appear for a short
time.
20
RDS600 HD
System Menu Functions;
KEYLOCK
When activated this will lock the system until the keylock function
is released. To release, press the keylock disable button. When
the locked symbol is shown in system standby, the device will
remain powered.
SYSTEM STANDBY
When activated will place the system into standby mode.
AUXILIARY POWER
(If an external power source is available), Enables/Disables +V
O/P from the AUX port.
ETHERNET POWER
Enables/Disables power to the internal video server.
INTERNAL DVR POWER
Enables/Disables power to the internal DVR.
DVR CONTROL
Sets which DVR will be controlled by the hand controller (when
multiple DVR’s are available).
RECORD SCHEDULER
Enables/Disables the Record Scheduler and allows the seven
day scheduler to be set up. (Internal DVR only).
FORMAT INTERNAL DVR
Allows the user to format the Internal DVR memory.
SAVE SETTINGS
Press to save the selected settings.
BATTERY VOLTAGE
Indicates the current system voltage.
21
RDS600 HD
Inputs/Outputs Tab;
I/P
Designation of Digital Input number.
FUNCTION
This determines what action will take place when the digital input is
activated, a number of pre-set functions are available.
ACT
Sets whether the Digital Input is activated when taken low (to ground) or
high (+3.3v D/C to +12v D/C).
TYPE
Sets whether the input type to activate the Digital Input will be latching (L)
or momentary (NL). If set to latching the action will cease when the latched
input is removed.
O/P
Designation of Digital Output number.
FUNCTION
Allows the selection of the activation type. Either activated manually using
the soft switch or when the relevant Digital Input is activated.
SW
Allows the user to manually activate the Digital Output when the function is
set to manual.
22
RDS600 HD
Video Tab;
CONTROL VIEW
Allows the user to change the camera control view from the single
view of the camera currently being controlled to a quad view from the
internal quad video module when fitted.
PICTURE-IN-PICTURE
Allows the user to select picture-in-picture option using the internal
quad video module. This will give a live view thumbnail when playing
recorded footage back using the internal DVR. (This option also
overrides the current quad video setting from the Quad BNC O/P).
INPUTS
The user can select any four of the six cameras connected to be the
inputs to the optional internal quad video module. (If a camera
is not connected then it will not allow it to be selected).

To select a camera, scroll to the INPUTS section.

Using the joystick, scroll across to the desired camera and then press the button.

A tick will appear next to the selected camera.

Press again to unselect the camera.
23
RDS600 HD
QUAD FORMAT (Optional)
This setting allows the quad video view to be adjusted in the
following formats,
A
B
C
D
E
F
G
H
I
QUAD LABELS
When enabled this allows the user to display either the camera
number (e.g.1,2,5) or camera position (i.e. FRONT, REAR) alongside
the video image.
PRESETS
Allows up to six camera settings to be saved and recalled when using
an RS-485 Pelco-D camera and Sonic RS-485 Camera Interface.
24
RDS600 HD
DATA/MD Tab;
RS232 FORMAT
Indicates the Baud rate, Parity and Data bits the RS232 port is set to.
This will read 38400,8,0,1 for communication with the HDS600.
RS232 PROTOCOL
Indicates the current selected RS232 Protocol. A range of protocols
are currently supported and can be selected.
RS485 FORMAT
Indicates the Baud rate, Parity and Data bits the RS485 port is set to.
This can be adjusted depending on the RS485 Protocol selected.
RS232 PROTOCOL
Indicates the current selected RS485 Protocol. This will read SONIC
for communication with the HDS600.
TRIGGER ZONE
Selects the zones in the camera view that the motion detection will be
active in.
TRIGGER ACTION
Selects what action is taken when motion is detected.
SENSITIVITY
Selects the sensitivity of the motion detection activation.
OSD
Enables an on screen display tool to see when the motion detection
zones are activated.
25
HDS600 HD
HDS600
The HDS600 is designed for use on the TVI surveillance distribution platform from Digital
Barriers. TVI is the pre-eminent technology solution for efficiently and securely transmitting video
and audio from the scene under surveillance to multiple operators, whether in control rooms or
remotely in the field. The HDS600 offers high-definition streaming and edge recording, and
delivers class leading performance in terms of its reliable real-time streaming, remote over-the-air
archive retrieval and uniquely powerful surveillance tools.
Capture and stream real-time video and audio
The primary function of the HDS600 is to transmit surveillance footage with the ultra-low latency
required for mission-critical operations. The HDS600 provides secure, real-time video streaming
at up to 1080p full HD from an HD-SDI camera and employs (up to) AES-256 encryption to
securely stream surveillance content.
Remotely control streaming rates over-the-air
The HDS600 allows operators to remotely set the maximum bandwidth to be utilised when
streaming. This provides complete control of cellular data consumption and associated costs. TVI
also allows operators to set frame rates remotely, in order to achieve the optimal trade-off
between degree of motion and detail levels.
Local recording and remote retrieval
The HDS600 combines two edge-recording options. The first is an on-board H.264 format
recording option (up to 1920x1080p resolution at 30 fps), using removable dual Micro SD card
storage. The second is an ONVIF ‘S’ profile output (over a Local Ethernet connection) that can be
recorded locally on a network video recorder (NVR) device. Locally recorded footage can be
retrieved remotely and securely using the TVI platform.
Advanced surveillance tools and retrieval of critical operational details
The HDS600 supports TVI surveillance tools that provide an operator with flexible manipulation of
real-time video. TVI ensures efficient representation of detail at lower network bandwidths,
particularly where motion levels are high, as well as very low latency in remote PTZ control of
cameras. TVI also includes a full resolution enhance function that allows remote retrieval of detail
from frames of interest, whilst enabling the operator to view the real-time video stream, thereby
ensuring that situational awareness is not compromised.
Plug-and-play inter-operability for digital cameras
The HDS600 is designed around the HD-SDI uncompressed digital format for ‘plug-and-play’
interoperability with HD digital cameras, whilst also ensuring the highest quality input possible.
Backwards compatibility is provided through support for composite analogue cameras with the
PAL/NTSC standard.
26
HDS600 HD
Panel Overview
LED Indicators
LED
FLASHING
ON
Power
-
System On
IP-link
Orange: Initialising connection.
Green: Connecting to a cellular network.
Red: Problem on connection.
Green: Connected to network.
Red: Problem with SIM.
Server
Orange: Connecting to server.
Green: Hand-shake with server.
Red: Server connection rejected.
Green: Connected to server.
Red: Unable to connect to network.
2.5G/3G
-
Orange: Using 2.5G.
Green: Using 3G.
4G/Wi-Fi
-
Orange: Using 4G.
Green: Using Wi-Fi
27
HDS600 HD
SD Card
The HDS600 supports local recording of video and audio onto dual Micro SD/SDXC cards. The
HDS600 has two Micro SD slots. The Micro SD cards should be pre-formatted to the FAT file
system prior to insertion into the SD slots. When using two cards, the archive will automatically
record on the second card when the first is full. To record HD video, it is recommended that class
10 Micro SD cards be used to support high-speed read/write.
LED
STATUS
Off
No card inserted.
Green
Card recognised and ready to record.
Red
SD card not recognised; SD card set to read only; archive
password is wrong, or the SD card has been formatted
incorrectly.
Amber
Archive is currently writing to, or reading this SD card.
Connecting antennas for cellular and Wi-Fi connections
The HDS600 includes antenna fixings for the internal modem (two antennas for 3G/4G cellular
networks) and the internal Wi-Fi module. Note that the GPS module is not currently supported in
the TVI software.
Inserting SIM Cards for GSM Cellular Communications
The HDS600 supports CDMA and GSM cellular communications for ultra-efficient real-time
streaming and remote archive retrieval. When using the device on GSM networks, a SIM card is
required from a network operator. Note that sustained use of the HDS600 on cellular networks
can result in high network data usage and this should be considered when selecting a cellular
data plan. For more details, consult the network provider.
28
HDS600 HD
Updating the software on the unit
Once notified of a new software (firmware) release by Digital Barriers, updates will become
available for download from the TVI support site www.tvi-support.digitalbarriers.com. There are
two methods available to update a HDS600 unit; undertaking a local update using a USB pen
drive or undertaking a remote update using TVI Web Manager. The method used will depend on
how the device is deployed and administered.
Using a USB pen to update the HDS600
1.
Download the .firmware file from the TVI Support site onto a USB pen drive.
2.
Remove the USB pen drive from the computer and plug it into the USB port on the HDS600.
3.
The HDS600 will automatically update the firmware using the file from the USB pen.
4.
Once all the status lights become green, this indicates that the update has completed
successfully. At this point remove the USB pen. The HDS600 will reset and will re-power
using the new firmware.
Using TVI Web Manager to update the HDS600
1.
Download the .firmware file from the TVI Support site onto the server.
2.
Run TVI Web Manager and go to the Firmware tab.
3.
Click the Browse button to browse to the location where the firmware was downloaded.
4.
Click Upload to upload the new firmware.
5.
Delete the old firmware files using the Remove option.
6.
Go to the Encoders tab and click the Select Action drop-down and choose Update Firmware
(the Update Encoder Firmware dialog is displayed).
7.
Select the firmware to update to then click Update.
8.
The firmware will now be uploaded onto the HDS600. It will then reboot and the firmware
changes will take effect.
29
HDS600 HD
Connecting to the network
The HDS600 can connect to a network in one of three ways:
Connection via the Systems WAN Port to an ADSL line or external router (i.e. satellite router).
1.
Connect the RJ45 Ethernet cable (CAT5) to the Systems WAN connector on the side of the
case.
2.
Connect the other end of the cable to the network.
Connection via a Mobile Network using 4G/3G/GPRS
1.
Connect the Cellular Antenna to the cellular RF connector on the system case.
2.
Insert a SIM card into the SIM slot on the HDS600 (unless using a CDMA modem).
Connection via a Wi-Fi Network
1.
Connect the Wi-Fi antenna to the Wi-Fi connector on the system case.
30
HDS600 HD
Preparing the HDS600 for operation
Before it can be used, the HDS600 must be prepared according to the methods of
communications to be used, the TVI Encoder and Server details and security settings for
encryption of transmission data and locally recorded footage. There are two methods to prepare
the HDS600 unit, and both are local to the unit.
The TVI Configuration Application involves the preparation of a configuration profile that is
applied to the unit using a USB pen drive. The TVI Setup Interface is a browser-based application
that allows an operator to define and review the operating parameters of the unit via a computer
and local Ethernet connection.
When preparing an HDS600 for use, the most appropriate and practical method should be
adopted. Only one of the methods should be completed for each unit and both methods cover the
same operational parameters and details. For those already familiar with the preparation of
existing TVI specialist encoders (such as the S400 or R400), the TVI Configuration Application
provides the same USB pen drive approach to prepare an HDS600. For those requiring an
alternative approach to preparing a unit; for example where organisational security policies
preclude the use of USB drives, the TVI Setup Interface provides a web based alternative that
will be familiar to those who have prepared units in the TVI IP Series (such as the IP100) using
the Setup Interface.
Preparation method A: Preparing the HDS600 using the USB-based Configuration Application
Using the configuration application on the USB pen drive is a quick and easy way to define and
install the configuration settings for a HDS600. The application includes a Windows-based wizard
that guides the user through a variety of settings, before saving these back to the USB pen drive
and delivering the configuration into the HDS600 by plugging in the drive. Follow the steps
described in Method A: Preparing the HDS600 using the USB Configuration approach to prepare
the HDS600 using this method. Do not complete any of the steps in method B.
Preparation method B: Preparing the HD-S600 using the browser--based Setup Interface
The web-based setup Interface offers an alternative approach to preparing a unit. For this
method, a laptop/PC is connected locally to the HDS600 using an Ethernet cable and the setup
application is launched via a web browser. This requires the user to specify an IP address for the
computer that is in the same IP range as the HDS600. Follow the steps described in Method B:
Preparing the HDS600 using the Setup Interface approach , to prepare the HDS600 using this
method. Do not complete any of the steps in method A.
Note that the HDS600 should be prepared for use using ONE of the two configuration methods
described.
31
HDS600 HD
Method A: Preparing the HDS600 using the USB Configuration Application
The HDS600 can be configured using the TVI Configuration App provided on the USB pen drive
that is distributed with the HDS600 device. This method creates a configuration profile on a
computer that is then transferred back onto the USB pen drive, before insertion into the HDS600
to apply the configuration settings.
Accessing the TVI Configuration App

Insert the USB pen drive with the TVI Configuration App into a USB socket on a PC running
Microsoft Windows XP operating system or
newer.

Navigate to the pen drive using Windows
Explorer, or select the view files option if a
Windows prompt appears with a list of auto
play actions.

Locate the TVI Configuration App file (it will
appear
on
the
pen
drive
as
‘ConfigureEncoder5.x.x.exe’) and doubleclick to launch the configuration app.

Once it has launched, select HDS600
Encoder from the list of devices and click
Next to proceed to configuration.
Setting up the primary communications method
Select the connection method that is appropriate
to the operational requirement. The lower section
of the wizard will change to reflect the
configuration options for the selected connection
method:
Standard LAN connection: The unit will connect to
any network/device with a standard LAN interface.
Cellular Modem: The unit has an inbuilt cellular
modem supporting HSDPA, 3G/4G, EDGE and
GPRS.
Wireless LAN (Wi-Fi): The unit will connect to a
Wi-Fi network using the inbuilt Wi-Fi module.
32
HDS600 HD
Connection settings for LAN based connections
If the selected connection method is LAN, it is
possible to edit the network configuration of the
LAN connection. The Communications Device
dialog options allow for the entering/editing of the
IP details of the LAN connection. In most cases,
the unit will use DHCP to obtain its network
settings automatically from the network gateway.
If the network does not provide a DHCP address
to the unit select ‘Use the following IP settings’
and enter settings that are valid for the network
that the unit is joining. A DNS Server and Domain
is only required if the supplied TVI Server address
is a resolvable host name (e.g. video.server.com)
and not an IP Address (e.g. 192.168.50.10).
Connection settings for cellular connections
If the selected connection method is Internal
Cellular Modem, the Communications Device
dialog allows for selection of a network provider.
The wizard has predefined settings for most
major UK and North American mobile operators.
To use one of these, select the operator from the
'Predefined Settings for' list box. The
appropriate details for the mobile operator will be
entered automatically. Otherwise enter the
correct APN, username and password for the
mobile network. The predefined settings are
correct as of April 2014 and may be changed by
the mobile operator at any time. Please confirm
with the mobile operator that the predefined
settings are correct.
33
HDS600 HD
Connection settings for Wi-Fi connections
If selecting Wi-Fi as the desired connection
method, the options on the Communications
Device dialog change to enable the details of
the appropriate wireless network to be entered.
Enter the SSID and network key for the wireless
network that is to be used to connect to, then
either click the Obtain… radio button to use
DHCP to automatically obtain an IP address, or
click the Use… radio button to enable entry of the
details.
Select the backup communication method
The unit can be configured to use a second backup communication connection in case of a
failure to the primary communications method. The drop down menu at the top will list the
remaining connections that can be used to provide a backup capability. For most installations it
is likely that the default setting of ‘Not Enabled’ is correct. For further information and help
configuring the failover capabilities please refer to the ‘Using the Communication Failover
Feature of your Encoder’ knowledge base article on the support site.
Entering the TVI device and TVI server details
Each TVI unit requires an encoder account be
created on a TVI Server (using TVI Web
Manager). Enter the details of the account that
was created for this encoder unit. Please refer to
the TVI Web Manager Guide for further
instructions. Enter the IP address or domain
name that the unit will use to communicate with
the TVI Server. This can either be an IP address
(e.g. 12.87.54.255) or a domain name (e.g. video
-server.company.com). A primary and secondary
TVI Server can be configured. If the primary
server fails, the unit will automatically connect to
the secondary server.
34
HDS600 HD
Applying encryption and security settings
The pull down menu at the top of the Encryption
page allows for two different options:
No Encryption: Traffic between the encoder unit
and the TVI Server will be unencrypted.
Encrypt the link between unit and TVI Server:
Encrypts the traffic between the encoder unit and
TVI Server using the built-in AES-128/256
encryption. This requires the Encryption Pack
that is created during the installation of TVI
Server.
Setting up the local Ethernet port
This dialog allows changes to the Local Ethernet
port of the HDS600. The local Ethernet port is
only used to access the local ONVIF output
stream and the browser-based Setup Interface.
Either click the Obtain… radio button to use
DHCP to automatically obtain an IP address, or
click the Use… radio button to allow the manual
entry of IP address, subnet mask and router
address.
Specify time zone and archive encryption
It is possible to encrypt the archive footage for
secure viewing of the footage outside of the TVI
software. This requires a user to enter the archive
password. To enable archive encryption, click the
Enable Archive Encryption check box then
type a password into the Archive password text
box. To ensure that the video playback time
displayed in the viewing application will be
correct, select the Time Zone for the area that the
unit will be operating in. Note that Military time
zones are available by checking the Include
Military… box.
35
HDS600 HD
Finalising and applying configuration to device
Once all of the settings have been entered, click the Finish button to close the wizard. The
configuration on the USB pen drive can now be applied to the unit. Safely eject the USB pen
drive from the computer then plug it into the USB socket on the unit. If the unit is being configured
for cellular operation, insert the SIM card into the SIM slot. Power-on the unit and monitor the
sequence of the LED status lights.
Once all the phases are complete, the unit should show three solid green lights. This indicates
that the unit is connected to the TVI Server. If all the status lights stay red then there was an error
transferring settings to the unit. Power off the unit, plug the USB pen drive into the computer and
confirm the settings. In order to initiate a connection between the unit and TVI Server, the unit
must be reset. To do this, remove the USB pen drive and after a few seconds the HDS600 will
reset. The unit will now connect to the TVI Server.
LED
STATUS
Flashing orange IP-Link
Initialising connection.
Flashing green IP-Link
Connecting to network (cellular only).
Solid green IP-Link
Connection successfully created.
Flashing orange Server-Link
Connecting to server.
Flashing green Sever-Link
Handshaking with server.
Solid green Server-Link
Successfully connected to server.
36
HDS600 HD
Method B: Preparing the HDS600 using the Setup Interface
The HDS600 can be similarly configured using the browser-based setup interface. This method
requires a laptop/PC and Ethernet cable to connect to the unit.
Establish a connection between the computer and the HDS600
In order to access and run the Setup Interface the unit must first be connected to the laptop/PC
that is to be used to perform the setup. Connect an Ethernet cable from the computer to the Local
Ethernet port on the unit. The computer must be in the same IP range as that of the local
Ethernet port of the unit. This is set to 192.168.10.10 as the default. This IP address can be
changed during the setup process.
Log into the setup interface
To access the Setup Interface, enter the following address in the web browser:
http://192.168.10.10. Once connected to the HDS600, the Login page will be shown. The
default password is password. Type this into the Password box then click the Login button to
move to the beginning of the setup process.
If this is the first time of use, the default password should be changed. To change the password,
click the Change Password button. Enter the current and new passwords into the dialog then
click Apply. The system will re-display the Login page to allow login using the new password.
Login with the new password.
Specify the encoder connection methods
Once logged in, the first setting that is required is the connection method (or bearer) to be used
by the unit to communicate with the TVI Server. Two connections can be configured; a primary
connection that is the default connection method and a secondary connection for failover if the
primary method fails. Note that selection and configuration of a secondary method is not
mandatory. Select the appropriate communications method from the Primary Communications
drop-down menu and enter the details.
Standard LAN connection: The unit will connect to any network/device with a standard LAN
interface.
Cellular Modem: The unit has an inbuilt cellular modem that supports HSDPA, 3G, EDGE and
GPRS.
Wireless LAN (Wi-Fi): The unit will connect to a Wi-Fi network using the inbuilt Wi-Fi module.
37
HDS600 HD
Once the information for the primary communications method is complete, enter details for the
desired secondary communications method (if this is required). Note that the primary option will
not be available for selection as the secondary method. Once the information on this page is
complete, click Next to continue.
Specify HDS600 and TVI Server settings
In order to communicate with the TVI Server, the HDS600 encoder unit must be configured with
the correct encoder and TVI Server details. Each HDS600 must have an encoder account setup
on a TVI Server, using the TVI Web Manager tool. A primary and secondary TVI Server can be
specified so that the unit will automatically connect to the secondary server if the primary server
fails. The connection between the encoder unit and each of the specified TVI Servers can be
encrypted using the built-in AES-128/256 encryption.
38
HDS600 HD
Enter the encoder name and password of the encoder account that was created for this HDS600.
Enter the IP address (e.g. 12.87.54.255) or domain name (e.g. video-server.company.com) that
the unit will use to communicate with the TVI Server.
To enable encryption between the HDS600 and the server using built-in AES-128/256
Encryption, click the Enable Encryption check box and select the Encryption pack from the
Encryption Pack drop-down.
In order to set up encryption, an encryption pack is required. This is created as part of the TVI
Server setup. This pack needs to be uploaded by clicking the Upload button, which becomes
enabled when the Enable Encryption check box is selected. Once all entries have been made,
click Next to continue.
Select the HDS600 time zone and modify the local IP setting (if required)
The Local Encoder Settings page is displayed. In order to ensure that the video playback time
displayed in the viewing application is accurate, select the time zone relating to where the unit is
being installed. This screen also allows changes to the IP address of the unit. Remember to note
of any changes to the IP address, since this is the address that will be required for future access
to the Setup Interface, and may require a change to the IP address of the laptop/PC that is used
to connect. Make any changes and click Next to continue.
39
HDS600 HD
Configure the local DVR settings and finalise device setup
The final configuration page is Local DVR Settings. It is possible to encrypt the archive footage to
allow secure viewing of the footage outside of a TVI Viewer application. This will require an
archive password. To enable encryption, check the ‘Enable DVR Encryption’ check box and enter
an encryption key in the ‘DVR Encryption Key’ text box. At this stage, all of the settings are
complete. To save them to the HDS600, click Done. Apply the configuration changes to the
HDS600 by clicking the Apply button.
40
HDS600 HD
Troubleshooting and frequently asked questions
Diagnosing problems encountered during unit operations.
The following table describes some of the common problems that may occur:
LED STATUS
PROBLEM WITH
REASONS FOR NOT PROCEEDING
No LED’s On
Power

Encoder is not plugged in or switched on.

There is a problem with the power supply.
Power (green) On. No Initialising the encoder
other lights

Possible problem with the network encoder hardware.

Corrupt firmware.
IP-Link LED solid red
SIM card

SIM card is not detected.
IP-Link LED flashing
red
Creating network
connection

The network cable is not plugged in.

The router is not powered.

The network settings are incorrect.

The encoder is not getting a DHCP address.

Incorrect mobile settings.

Incorrect Wi-Fi settings.

The server is not running.

The server address is incorrect.

There is a firewall blocking access to the internet.

The encryption pack is wrong.

The supplied encoder password is wrong.

There is an existing encoder with the same name on the TVI
server.
Server-Link LED solid Unable to connect to
red
server
Server-Link LED
flashing red
Server rejected
connection
What standard HD-SDI inputs are supported?
The following standards are supported: 720p, 1080p and 1080i (all at 25 and 30 fps).
What are the recording rates for the SD cards?
Below are the approximate recording rates for the inbuilt Micro SD cards:
RECORDING QUALITY
2x 8GB SD
2x 64GB SDXC
Very High (5 mbits/sec)
7 hours
2.5 days
High (4mbits/sec
9 hours
3 days
Medium (2 mbits/sec
18 hours
6 days
What ports does the HDS600 use?
The HDS600 does not require inbound ports opened on a firewall but makes outbound
connections to the TVI Server on the following: TCP and UDP port 9300; TCP and UDP port
9301 (if using encryption); UDP port 2048.
41
WIRELESS ROUTER
42
Wireless Router
Wireless Router (optional)
If the wireless router has been added into the RDS600 HD system, then it will have been preinstalled to allow its immediate use.
All of the settings menus on the router can be accessed through a wireless link. Please note that
the 3G aspect has not been utilised in this installation although the menus will still be visible.
Logging In

Click the Start menu from the computer, and navigate to the Settings/Control Panel/
Networks.

Right click on the wireless device that is used. This is normally shown as Wireless Network
Connection, and scroll down to Properties.

Select Internet Protocol Version 4 (TCP/IPv4) and then click Properties.
43
Wireless Router

By default, the router is going to have DHCP enabled, which means that if ‘Obtain an IP
address automatically’ and ‘Obtain DNS server address automatically’ are selected, then
the router will provide an IP address ready for logging into the router.

Alternatively this can be configured manually by first selecting an IP address. Due to the
stock settings that the router has arrived in, this can only be an IP in the form of
192.168.1.XXX, where XXX is a number in the range of 2-254.

Next enter the Subnet mask: this has to be “255.255.255.0”. Then enter the default
gateway: this has to be “192.168.1.1”. Finally enter the Primary and Secondary DNS server
IPs. One will suffice although it is recommended to have a secondary one as well as it will
act as a backup if the first should fail. The DNS can be the routers IP (192.168.1.1), but it
can also be an external DNS server.

Click OK to save any changes.
44
Wireless Router

Right click on the Wireless Network Connection and select Connect/Disconnect.

This will open up a list of available wireless networks. Select Teltonika, and click Connect.

Launch a web browser such as Internet Explorer or Google Chrome, and type in the routers
IP into the address field and press enter to get taken to the log in screen.

The default password and login are set as;
Username:
admin
Password:
admin01
45
Wireless Router

Once successfully logged into the router, the status page will be shown. Menus and settings
can be altered from here to configure the router as required.
Settings and Menus
System
Field
Value
Explanation
Router Name
Teltonika
Name of the router.
Router Model
Teltonika RUT550
The routers model.
Firmware Version
RUT5XX_R_01.00.768
The current version of firmware that is loaded on the router.
Kernel Version
3.2.15
The current version of the Linux kernel that is running on the router.
Local Time
Wed Aug 8 13:10:47 2013
Shows the current system time. This is synced with an NTP server.
Uptime
1h 36m 51s
Indicates how long it has been since the router booted up. Reboots
will reset this timer to 0.
Load Average
0.18, 0.11, 0.13
Indicates how busy the router is. The first number shows the
amount of processes performed in the last minute, the second
number shows the amount of processes performed in the last 10
minutes, and the third number shows the amount of processes
performed in the last 15 minutes.
46
Wireless Router
Settings and Menus
Memory
Field
Value
Explanation
Total Available
14416/29964
Shows how much memory is available to maintain the routers functionality.
Free
1476/29964
The amount of memory that is completely free. Should this rapidly decrease or
get close to 0, it would indicate that the router is running out of memory which
could cause crashes and unexpected reboots.
Cached
9868/29964
The size of the area of memory that is dedicated to storing frequently accessed
data.
Buffered
3072/29964
The size of the area in which data is temporarily stored before moving it to
another location.
Network Information
This tab will show data associated with networking.
LTE (not used in the RDS600 HD system)
Field
Explanation
State
Shows the state of connection.
IMEI
Shows the LTE modems IMEI number.
SIM Card State
Indicates whether the SIM card is inserted or not.
Signal Stremgth
Indicates Connection Strength.
Operator
Indicates the operator of the mobile network.
Connection Type
Indicates the connection type.
Bytes Received
How many bytes were received via LTE.
Bytes Sent
How many bytes were sent via LTE.
47
Wireless Router
WAN
Field
Value
Explanation
Interface
LTE
Specifies through what medium the router is connecting to the internet. This
can either be Wired, LTE, or Wi-Fi.
Type
DHCP
Specifies the type of connection. This can either be Static, DHCP, or PPPoE.
IPv4 Address
10.12.104.103
The IP address that the router uses to connect to the internet.
Netmask
255.255.255.240
Indicates the networks Netmask.
Gateway
10.12.104.97
Indicates the default gateway, an address where traffic destined for the
internet is routed to.
DNS#
8.8.8.8
Domain Name Server.
Expires
1h 57m 25s
The amount of time before the routers DHCP lease expires.
Connected
0h 2m 2s
How long the connection has been successfully maintained.
LAN
Field
Value
Explanation
IPv4 Address
192.168.1.161
The IP address that the router uses on a LAN network.
Netmask
255.255.255.0
Indicates the networks Netmask.
Connected
0h 2m 2s
How long the connection has been successfully maintained.
48
Wireless Router
Wireless
Wireless can work in two modes, AP or Client. AP is when the wireless radio is used to create an
Access Point that other devices can connect to. Client is when the radio is used to connect to an
Access Point via WAN.
Client
Field
Value
Explanation
SSID
Teltonika_rnd_division_ap
The SSID of the Access Point to which the router is connected to uses.
Mode
Client
The connection mode: Client indicates that the router is a client to a
local Access Point.
Channel
6 (2.44GHz)
The channel that the Access Point to which the router is connected to
uses. The wireless radio is forced to work in this channel in order to
maintain a connection.
BSSID
C8:3A:53:02:FC:B0
The MAC address of the Access Point.
Encryption
WPA2 PSK (CCMP)
The Access Point, which the router is connected to, method of
encryption.
Bit Rate
65.0 Mbit/s
The physical maximum possible throughput that the routers radio can
handle. Please note that this value is cumulative . The bitrate will be
shared between the router and other possible devices that connect to
the local Access Point.
Country
UK
Country Code.
49
Wireless Router
AP
Field
Value
Explanation
Signal Quality
100%
The quality between the routers radio and another device that is connected
to the router. This will show 0% if no devices are trying to connect or are
currently mainstreaming a connection.
SSID
Teltonika_demo
The SSID that is being broadcast. Other devices will see this and be able to
connect to this wireless network.
Mode
Master
The connection mode: Master indicates that the router is acting as an
Access Point.
Channel
6 (2.44GHz)
The channel which is used to broadcast the SSID and to establish new
connections to devices.
BSSID
00:0C:43:30:50:38
The MAC address of the wireless radio.
Encryption
WPA2 PSK (CCMP)
The type of encryption that the router will use to authenticate, establish and
maintain a connection.
Bit Rate
1.0 Mbit/s
The bitrate will be shared between all devices that connect to the routers
wireless network.
Country
UK
Country Code.
Additional note: Mbit/s indicates the bits not bytes. To get the throughput in bytes, divide the bit
value by 8.
Associated Stations
Outputs a list of all devices and their MAC addresses that are maintaining a connection with the
router at that moment.
This can either be the information of the Access Point that the router is connecting to in Client
Mode or a list of all devices that are connecting to the router in Access Point mode:
50
Wireless Router
DHCP Leases
If a DHCP server is enabled then this field will show how many devices have received an IP
address and what those IP addresses are.
The picture above shows a DHCP lease for an Android phone that is currently connecting to the
routers Access Point.
Backup WAN
When enabled this field will indicate the health of your primary connection:
IN USE
Indicates that the connection is being used for main traffic.
READY
Indicates that the connection is ready to take over network traffic if the other link should fail.
NOT READY
Indicates that the connection is down.
51
Wireless Router
Routes
The following rules are currently active on this system.
ARP:
Shows the routers active ARP table. An ARP table contains recently
cached MAC addresses of every immediate device that was
communicating with the router.
Active IPv4-Routes:
Shows the routers routing table. The routing table indicates where a
TCP/IP packet, with a specific IP address, should be directed to.
Realtime Graphs
Real-time graphs show how various statistical data changes over time.
Load
This illustrates the average system load over the course of ~3 minutes. Each new measurement
is taken every 3 seconds. The graph consists of three colour coded segments, each one
corresponding to the average system load over 1 (red), 5 (orange) and 15 (yellow) most recent
minutes. Although not graphed, the page also displays peak loads over 1, 5 and 15 minutes.
52
Wireless Router
Bridge
Cumulative graph, which encompasses wired Ethernet LAN and the wireless network.
LAN + WAN
Graphs the total amount of traffic that passes through both WAN and LAN network interfaces.
53
Wireless Router
LAN
Indicates how much traffic has been passed through your Ethernet LAN network.
WAN
Graphs the amount of traffic which passed through the current active WAN connection.
54
Wireless Router
Wi-Fi
Shows the amount of traffic that has been sent and received through the wireless radio.
Wireless
This graph illustrates how signal strength and the amount of noise change over time.
55
Wireless Router
This graph illustrates how the physical rate of wireless changes over time.
Connections
This graph shows a concise history of the amount of connections that the router maintained.
The blue graph indicates UDP connections, green indicates TCP and red shows other types
(ICMP, etc). Other values indicate each respective graphs average and peak connection
amounts over 3 minutes.
On the same page there is also a detailed list of all active connections that the router maintains.
Each entry consists of a type of network (“IPV4”), protocol (TCP, UDP, ICMP), the source
address (an IPv4 address + the source port), the destination address (an IPv4 address + the
destination port) and how much traffic has gone through that particular connection: its size in
Bytes and the amount of packets.
56
Wireless Router
LTE (Not used in this configuration)
This menu allows the user to configure the LTE specific settings which are used when connecting
to the local LTE network.
Field
Value
Explanation
LTE Connection

Use PPPD mode.

PPPD mode uses dialling number to establish a connection.

Use NDIS mode.


Use Bridge Mode.
NDIS (default) does not use dialling and is usually faster than
PPPD.

This bridges a LTE data connection with a LAN. In this mode
the router does not have to have an internet connection as the
ISP will provide the IP directly to the end device.
APN
“Soniccomms”
Access Point Name is a configurable network identifier used by a
mobile device when connecting to a GSM carrier.
Pin Number
5555
A personal identification number. This can be any number between
0000 and 9999.
Dialling number
“*99#”
Dialing number is only used in PPPD mode to establish a data
connection.
Authentication
Method
CHAP, PAP or None
The authentication method that the carrier uses to authenticate new
connections.
Username
“User”
The username used to connect to the carriers network. This only
becomes active when an authentication method is selected.
Password
“Passwd”
The password used to connect to the carriers network. This only
becomes active when an authentication method is selected.
Service Mode
GSM (2G) , UMTS(3G),
LTE(4G) or Automatic.
The network preference. If auto is selected then the router will connect
to the network that provides the better quality.
57
Wireless Router
WAN
This determines how the router will connect to the internet.
Operation Mode
Wired
An Ethernet cable connected to the WAN port on the system.
Wi-Fi
The router will be able to connect to a local wireless access point to reach the internet.
LTE
The router will connect to a local mobile network (not active in this configuration).
Common Configuration
Common configuration allows the TCP/IP settings for the WAN network to be configured.
This can be switched between the Static, DHCP or PPPoE protocol by selecting the desired
protocol and then pressing Switch Protocol button.
58
Wireless Router
General
This area is dedicated for protocol specific options.
Static
This is the configuration setup for when selecting the static protocol.
Field
Example
Explanation
IPv4 Address
192.168.99.162
The routers address on the WAN network.
IPv4 Netmask
255.255.255.0
A mask used to define how “large” the WAN network is.
IPv4 Gateway
192.168.99.254
Address where the router will send all outgoing traffic.
IPv4 Broadcast
192.168.99.255
Broadcast address (auto-generated if not set). It is recommended to
leave this blank unless an advanced user.
Custom DNS Servers
8.8.8.8 8.8.6.6
Normally the gateway will have predefined DNS servers. As such, the
router, when it needs to resolve a hostname (“www.google.com”,
“www.cnn.com”, etc) to an IP address, it will forward all the DNS
requests to the gateway. By entering custom DNS servers, the router
will take care of the host name resolution. Multiple DNS servers can be
entered to provide redundancy in case the one of the server fails.
DHCP
When the DHCP protocol is selected, it can be used without making any changes as most
networks will not require any additional advanced configuration.
59
Wireless Router
PPPoE
This protocol is mainly used by DSL providers;
Field
Example
Explanation
PAP/CHAP Username
Test
The username to be used to connect to the carriers network.
PAP/CHAP Password
Test
The password to be used to connect to the carriers network.
Access Concentrator
Isp
Specifies the name of the access concentrator. Leave blank to auto-detect.
Service Name
Isp
Specifies the name of the service. Leave blank to auto-detect.
60
Wireless Router
Advanced
These are the advanced settings for each of the protocols, it is highly recommended to leave to
advanced users/engineers.
Field
Example
Explanation
Bring up on Boot
On
Specifies whether the interface will be configured and brought up
when the router boots up. Disabling will render the WAN connection
non-functional.
Disable NAT
On/Off
Toggle NAT On and Off.
Override MAC address
00:0C:43:30:50:38
Override MAC address of the WAN interface. If the ISP gives a static
IP address. It may also bind it to the computers MAC address (i.e. that
IP address will only work with this computer). In this field the
computers MAC address can be entered to fool the gateway into
believing that it is communicating with the computer.
Override MTU
1500
Maximum Transmission Unit: this specifies the largest possible size of
a data packet.
Use Gateway Metric
0
The WAN configuration by default generates a routing table entry.
With this field you can alter the metric of that entry.
61
Wireless Router
DHCP
PPPoE
62
Wireless Router
IP Aliases
IP aliases are a way of defining or reaching a subnet that works in the same space as a regular
network.
The configuration is very similar to the static protocol; only in the example a 55’th subnet is
defined. If a device has an IP in the 55 subnet (192.168.55.xxx) and the subnets gateway metric
is “higher” and the device is trying to reach the internet it will reroute it’s traffic not to the gateway
that is defined in common configurations but through the one that is specified in IP aliases.
There is also an option to define a broadcast address and a custom DNS server.
63
Wireless Router
LAN
This page is used to configure the LAN network where all the devices and computers that
connect to the router will reside.
The common configuration and IP aliasing sections are identical to the ones found in WAN,
please refer to that section for further information.
64
Wireless Router
DHCP Server
The DHCP server is the router side service that can automatically configure the TCP/IP settings
of any device that requests such a service. If a device is connected that has been configured to
obtain an IP address automatically, the DHCP server will lease an address and the device will be
able to fully communicate with the router.
Field
Example
Explanation
Disable
Checked/Unchecked
Check to Disable the DHCP server.
Start
100
The starting address of the range that the DHCP server can use to give out
to devices. E.g.: if the LAN IP is 192.168.2.1, and the subnet mask is
255.255.255.0, this means that to network, a valid IP address has to be in
the range of [192.168.2.1 – 192.168.2.254](192.168.2.0 and 192.168.2.255
are special unavailable addresses). If the Start value is set to 100 then the
DHCP server will only be able to lease out addresses starting from
192.168.2.100.
Limit
150
How many addresses the DHCP server gets to lease out. Continuing on the
above example: if the start address is 192.168.2.100 then the end address
Lease Time
12h
How long can a leased IP be considered valid. This will expire after the
specified amount of time and the device that leased it out will have to
request for a new one.
65
Wireless Router
DHCP Server: Advanced Settings
Advanced options can also be defined to specify how the DHCP server will operate on the LAN
network.
Field
Example
Explanation
Dynamic DHCP
Checked/Unchecked
Dynamically allocate client addresses, if set to 0 only clients present in
the ethers files are served.
Force
Checked/Unchecked
Forces DHCP serving even if another DHCP server is detected on the
same network segment.
IPv4 Netmask
255.255.255.0
The LAN netmask can be overridden here to make the DHCP server
think it is serving a larger or a smaller network than it actually is.
DHCP Options
6,192.168.2.1,192.168 Additional options to be added for this DHCP server. For example with
.2.226,1470
'26,1470' or 'option:mtu, 1470' this can assign an MTU per DHCP. The
client must accept MTU by DHCP for this to work.
Option: mtu, 1470
66
Wireless Router
Wireless
On this page the wireless settings can be configured. Depending on whether the WAN mode is
set to Wi-Fi or not, the page will display either the options for configuring an Access Point or
options for configuring a connection to a local access point.
Access Point:
This shows the overview of the wireless configuration. It is divided into two main sections; Device
and Interface.
Device is dedicated to configuring the hardware parameters and Interface is used for the
configuration of the software parameters.
Device
This gives the option to toggle the availability of the wireless radio and the physical channel
frequency.
Please note: Always save before toggling the radio On and Off.
67
Wireless Router
Device: Advanced
This gives the option to configure more advanced options.
Field
Example
Explanation
Mode
Auto, b, g, g+n
Different modes to provide different throughput and security options.
Country Code
Any ISO/IEC 3166
Selecting this will help the wireless radio configure its internal
alpha 2 country code parameters to meet the countries wireless regulations.
Distance Optimization
100
Distance to farthest network member in meters.
Frag. Threshold
2346
The smallest packet size that can be fragmented and transmitted by
multiple frames. In areas where interference is a problem, setting a
lower fragment threshold might help reduce the possibility of
unsuccessful packet transfers, thus increasing speed.
RTS/CTS Threshold
2346
Request to send threshold. This can help resolve problems arising
when several access points are in the same area contending.
68
Wireless Router
Interface
This gives the option to configure more advanced options.
ESSID
The wireless networks identification string. This is the name of the Wi-Fi network.
When other Wi-Fi capable computers or devices scan the area for Wi-Fi networks
they will see the network with this name.
Hide ESSID
Will render the SSID hidden from other devices that try to scan the area.
69
Wireless Router
Security
Encryption

There are many modes of encryption, though two distinctive classes have to
pointed out.
WEP
Enter the keys that will be used as passphrase for connecting computers, and then specify which
key will be preferred above the remaining. It is sufficient to enter one key and then specify it as
the preferred one. Length is also important: 10 or 26 characters in length in hex mode or 5 or 13
in ASCII mode. A hex key may only contain numbers ‘0’ through ‘9’ and letters ‘a’ through ‘f’.

WPA
First select an encryption method: TKIP, CCMP, TKIP&CCMP, Auto.
Note: Some authentication methods won’t support TKIP and TKIP&CCMP encryption.
After selecting the encryption method, enter the passphrase, which must be at least 8 characters
long.
70
Wireless Router
MAC-Filter
This allows the user to define a rule for what to do with the created MAC list., either allow only the
listed MAC’s or allow ALL, but forbid only the listed ones.
Client
Client mode is nearly identical to AP, except for the fact that most of the options are dictated by
the wireless access point that the router is connecting to. Changing them can result in an
interrupted connection to an AP.
In addition to standard options, there is also the ability to click on the Scan button to rescan the
surrounding area and attempt to connect to a new wireless access point.
Backup WAN
Backup WAN is function that allows the back up of the wired or the wireless connection, in the
event that they fail. The current firmware only allows the backup of the wired/Wi-Fi with LTE.
71
Wireless Router
The majority of the options consist of timing and other important parameters that help determine
the health of the primary connection. Regular health checks are constantly performed in the form
of ICMP packets (PINGs) on the the primary connection.
When the connections state starts to change (READY->NOT READY and vice versa), a
necessary amount of failed or passed health checks has to be reached before the state changes
completely.
This delay is instated so as to mitigate “spikes” in connection availability, but it also extends the
time before the backup link can be brought up or down.
Field
Example
Explanation
Health Monitor Interval
Dsb/5/10/20/30/60/12 The interval at which health checks are performed.
0 Seconds
Health Monitor ICMP
HOST
Dsb/DNS/WAN GW/ Where to PING for a health check. As there is no definitive way to
Custom
determine when the connection to internet is down for good, it is
recommended to define a host whose availability is that of the
internet as a whole.
Health Monitor IMCP
Timeout
½/3/4/5/10 Seconds
How long to wait for an ICMP request to come back. Set a higher
value if the connection has high latency or high jitter (latency
Attempts Before WAN
Failover
1/3/5/10/15/20
How many checks should fail for the WAN connection to be
declared DOWN for good.
Attemps before WAN
Recovery
1/3/5/10/15/20
How many checks should pass for the WAN connection to be
declared UP.
DNS Servers
Auto/Custom
Define custom DNS servers. Has meaning when selecting DNS as
the Health Monitor ICMP HOST.
Backup ICMP Host
IPv4 Address
This is where the address of an ICMP host, that will be used to
check the health of the LTE backup link, goes. This has to be a ping
-able host.
72
Wireless Router
Firewall
This section shows the various firewall features that come with RUT550.
General Settings
The routers firewall is a standard Linux IPtables package, which uses routing chains and policies
to facilitate control over inbound and outbound traffic.
Field
Example
Explanation
Enable SYN-Flood
Protection
Checked/Unchecked When checked the router becomes more resistant against SYN-flood
attacks.
Drop Invalid Packets Checked/Unchecked A “Drop” action is performed on a packet that is determined to be
invalid.
Input
Reject/Drop/Accept
DEFAULT* action that is to be performed for packets that pass through
the Input chain.
Output
Reject/Drop/Accept
DEFAULT* action that is to be performed for packets that pass through
the Output chain.
Forward
Reject/Drop/Accept
DEFAULT* action that is to be performed for packets that pass through
the Forward chain.
*DEFAULT:
When a packet goes through a firewall chain it is matched against all the
rules for that specific chain. If no rule matches said packet, an according
Action (either Drop or Reject or Accept) is performed.

Accept:
Packet gets to continue down the next chain.

Drop:
Packet is stopped and deleted.

Reject:
Packet is stopped, deleted and, differently from Drop,
an ICMP packet containing a message of rejection is
sent to the source of the dropped packet.
73
Wireless Router
DMZ
By enabling DMZ for a specific internal host, this will expose that host and its services to the
routers WAN network.
Port Forwarding
Here the port forwarding rules can be defined.
Port forwarding can be used to set up servers and services on local LAN machines. The above
picture shows how to set up a rule that would allow a website that is being hosted on
192.168.99.156, to be reached from the outside by entering http://routersExternalIp:12345/.
Field
Example
Explanation
Name
“localWebsite”
Name of the rule. Used purely to make it easier to manage rules.
Protocol
TCP/UDP/
TCP+UDP/OTHER
Type of protocol of the incoming packet.
External Port
1-65535
From which port on the WAN network for the traffic to be forwarded.
Internal IP Address IPv4 address of a The IP address of the internal machine that hosts the service that
computer on the LAN outside access is wanted from.
Internal Port
1-65535
To which port on the internal machine would the rule redirect the traffic.
74
Wireless Router
Traffic Rules
The Traffic Rule page contains a more generalised rule definition. Here it is possible to block or
open ports and alter how traffic is forwarded between LAN and WAN.
Field
Example
Explanation
Name
“rulename”
Used to make rule management.
Family
IPv4
Only IPv4 is currently supported.
Protocol
TCP/UDP/Other…
Protocol of the packet that is being matched against traffic rules.
Source
IPv4 Address
The source of the packet.
Destination IPv4 Address
The destination of the packet.
Action
Drop/Accept/Reject + Action to be taken on the packet if it matches the rule. Additional options can
Chain + additional also be defined, such as limiting packet volume, and defining to which chain the
rules
rule belongs .
Enable
Checked/Unchecked Uncheck to make the rule inactive. The rule will not be deleted, but it also will
not be loaded into the firewall.
Sort
Up/Down
When a packet arrives, it gets checked for a matching rule. If there are several
rules that match the rule, the first one is applied, i.e. the order of the rule list
impacts how the firewall operates, therefore it gives the ability to sort your list as
Custom Rules
This gives more freedom in defining rules allowing them to be entered straight into the IPtables
program.
Type them out into the text field and it will get executed as a Linux shell script.
75
Wireless Router
Static Routes
Static routes provide a way of entering custom entries in the internal routing table of the router.
Field
Example
Explanation
Interface
LAN/WAN
The zone where the target resides.
Target
IPv4 Address
The source of the traffic.
IPv4 Netmask
IPv4 Mask
The mask that is applied to the target to determine to what actual IP addresses the
routing rule applies.
IPv4 Gateway
IPv4 Address
To where the router should send all of the traffic applied to the rule.
Metric
Integer
Used as a sorting measure. If a packet about to be routed fits two rules, the one
with the higher metric is applied.
Diagnostics
Contains Network Utilities used for testing network.
Ping
The utility used to test the reachability of a host on an Internet IP network and to
measure the round-trip time for messages sent from the originating host to a
destination server. Enter the server IP address or hostname and click “Ping”.
Server echo response will be shown after few seconds if the server is accessible.
Traceroute
Diagnostic tool for displaying the route (path) and measuring transit delays of
packets across an Internet IP network. Enter server IP address or hostname and
click “Traceroute”. Log containing route information will be shown after few
seconds.
Nslookup
Network administration command-line tool for querying the Domain Name
System (DNS) to obtain domain name or IP address mapping or for any other
specific DNS record. Enter the server hostname and click “Nslookup”. Log
containing specified server DNS lookup information will be shown after few
seconds.
76
Wireless Router
Services
PING Reboot
PING Reboot function will periodically send a PING command to the server and wait for an echo
receive. If no echo is received, the router will try again, sending a PING command the defined
number times, after a set time interval.
If no echo is received after a number of unsuccessful attempts, the router will reboot. It is
possible to turn off this reboot function. Therefore this feature can be used as “Keep Alive”
function, when router PING’s the host an unlimited number of times.
Common Configuration
Field
Description
Notes
Enable PING
This check box will enable or disable the PING PING Reboot is disabled by default.
Reboot router if no
echo is received
This check box will disable router rebooting This check box must be unselected if the
after the defined number of unsuccessful PING Reboot feature is to operate as the
Interval between
PING’s
Time interval in minutes between two PINGs.
Retry Count
Number of attempts at sending the PING to the Minimum retry number is 1. The second retry
server after the time interval if the echo receive will be done after the defined time interval.
Server to PING
Server IP address or host name, which will If the server host name is used instead of the
receive the PING from the router.
IP address, then the DNS server must be
configured first.
77
Minimum time interval is 5 minutes.
Wireless Router
SMS Reboot
It is possible to reboot the router via a SMS text message. This function is useful for when the
router does not respond and it is difficult to manually restart the router by hand.
Common Configuration
Field
Description
Notes
Enable SMS Reboot
This check box will enable/disable the SMS SMS reboot is disabled by default.
reboot function.
SMS Text
SMS text that will reboot the server.
Sender Phone
Number
The phone number of the person who is As many phones numbers as desired can be
able to reboot the router via a SMS added. A dropdown list will show additional
message.
rows by clicking on the “Add” icon at the end of
the row.
Get Status
Check this to receive a SMS connection Disabled by default.
status after performing a reboot.
SMS texts can contain letter, numbers, spaces
and special symbols. Capital sensitive.
Status via SMS
It is possible to get the routers connection status via a SMS text message.
Common Configuration
Field
Description
Notes
Enable SMS Status
This check box will enable/disable the SMS SMS status is disabled by default.
status function.
SMS Text
SMS text that will send the routers status.
Sender Phone
Number
The phone number of the person who can As many phones numbers as desired can be
receive the router status via a SMS added. A dropdown list will show additional
message.
rows by clicking on the “Add” icon at the end of
the row.
78
SMS texts can contain letter, numbers, spaces
and special symbols. Capital sensitive.
Wireless Router
NTP
Hostname, Network Time Protocol (NTP) and time zone configuration settings is needed to
periodically update router local time.
The “Sync with browser” button will synchronize local router time with computer browser time.
Field
Description
Notes
Current System Time
Local time of the router.
-
Timezone
Time zone of the current country.
-
Run NTP Client on
Startup
This check box will turn on automatic time With the check box selected, one or more
synchronizing with defined NTP servers.
working NTP servers must be entered for the
feature to function.
Update Interval
Interval between time updates in seconds.
Save Time to Flash
Turn on to save the time to the flash Prevents situations when devices are using
memory after every update.
the wrong time after a power failure. Use this
is the correct system time to critical to the
Count of Time
Measurements
Specify the number of time updates to Use this to save data traffic.
perform.
Offset Frequency
Specify the frequency offset to fix the system clock to be too fast or too slow.
Time Servers
NTP server hostname and port.
Use shorter intervals for a more precise
system time. Specify longer intervals to save
data traffic.
As many servers can be added as desired
by clicking on the ‘Add’ button.
79
Wireless Router
Dynamic DNS
Dynamic DNS (DDNS) is a domain name service allowing the user to link dynamic IP addresses
to static hostnames.
To start using this feature it is required to be registered to a DDNS service provider.
Field
Description
Enable
Enables current DDNS configuration.
Status
Timestamp of the last IP check or update.
Service
The dynamic DNS service provider selected from the list:

Dydns.org

3322.org

No-ip.com

Easydns.com

Zoneedir.com
In the event that the required DDNS provider is not present from the list provided, use ‘custom’
to add the hostname of the update URL.
Hostname
The domain name which will be linked with the dynamic IP address.
Username
Name of the user account.
Password
Password of the user account.
IP Renew Interval
The time interval in minutes to check if the IP address of the device has changed.
Force IP Renew
Time interval in minutes to force the IP address to renew.
80
Wireless Router
Wireless hotspot
Wireless hotspot provides essential functionality for managing an open access wireless network.
In addition to standard RADIUS server authentication there is also the ability to gather and
upload detailed logs on what each device (denoted as a MAC address) was doing on the network
(what sites were traversed and so on).
General Settings
Field
Description
Enabled
Check this box to enable the hotspot feature on the router.
AP IP
Access Point IP address. This will be the address of the router on the hotspot network. The
router will automatically create a network according to its own IP and the CIDR number that is
specified after the slash. E.g. “192.168.182.254/24” means that the router will create a network
with the IP address 192.168.182.0, netmask 255.255.255.0 for the express purpose of
containing all the wireless clients. Such a network will be able to have 253 clients (their IP
addresses will be automatically granted to them and will range from 192.168.182.1 to
192.168.182.253).
Radius Server #1
The IP address of the RADIUS server that is to be used for Authenticating the wireless clients.
Radius Server #2
The IP address of the RADIUS server.
Authentication Port
RADIUS server authentication port.
Accounting Port
RADIUS server accounting port.
Hotspot Name
The name of the hotspot. This will appear on the login screen.
Secret Key
The secret key used for authenticating with the RADIUS server.
Allowed Hosts
A list of hosts that clients will be able to reach regardless of whether they were authenticated or
not.
81
Wireless Router
Logging and FTP Settings
Field
Description
Logging Enabled
Check this box to enable wireless traffic logging. This feature will produce logs which contain
data on what websites each client was visiting during the time they were connected to the
FTP Enabled
Check this box for logs to be periodically uploaded to a specified FTP server.
Server Address
The IP address of the FTP server for logs to be uploaded to.
Username
The username on the FTP server.
Password
The password on the FTP server.
Port
The TCP/IP Port of the FTP server.
Description
The description of the schedule.
Mode
The mode of the schedule. Use “Fixed” for uploading to be done on a specific time of the day.
Weekdays
This field specifies on what weekdays the uploading should be done. The entry format is
numbers from 1 to 7 separated by only commas. E.g. To upload the logs on Monday, Wednesday
Interval
Shows only when “Mode” is set to Interval. Specifies the interval of regular uploads on one
specific day. E.g. If 4 hours is chosen, the uploading will be done on midnight, 4:00, 8:00, 12:00,
Hours, Minutes
Shows only when “Mode” is set to Fixed. Uploading will be done on that specific time of the day.
82
Wireless Router
OPEN VPN
VPN (Virtual Private Network) is a method for secure data transfer through an unsafe public
network. This section explains how to configure OpenVPN, which is the implementation of VPN
supported by the RUT550 router.
The image above demonstrates the default OpenVPN configurations list, which is empty, so a
new configuration will have to be defined to establish any sort of OpenVPN connection.
To create one, enter the desired configuration name in “New configuration name” field, select the
device role from “Role” drop down list, and press “Add New” button.
The above example shows a new configuration entry has appeared in the list and it is populated
with default OpenVPN client settings.
This new configuration entry will appear in the list and will be populated with default OpenVPN
client settings.
Specific configuration settings can be changed by pressing the “Edit” button. A new page with
detailed configuration will open.
83
Wireless Router
Field
Description
Enabled
This must be selected to make configuration active.
TUN/TAP
Selects the virtual VPN interface type. TUN is most often used in typical IP-level VPN connections,
Protocol
Defines a transport protocol used by the connection. Choose between TCP and UDP.
Port
Defines the TCP or UDP port number (ensure that this port allowed by firewall).
LZO
This setting enables LZO compression. With LZO compression, the VPN connection will generate
less network traffic; however, this means higher router CPU loads. Use it carefully with high rate
Authentication
Sets authentication mode, used to secure data sessions. There are two options;

Static; This means that the OpenVPN client and server will use the same secret key, which
must be uploaded to the router using “Static pre-shared key” option.

Tls; This authentication mode uses X.509 type certificates. Depending on the selected
OpenVPN mode (client or server), these certificates need to be uploaded to the router:
For client: Certificate Authority (CA), Client certificate, Client key.
For server: Certificate Authority (CA), Server certificate, Server key and Diffie-Hellman (DH)
certificate used to key exchange through unsafe data networks.
All mentioned certificates can be generated using OpenVPN or OpenSSL utilities on any type host
Remote Host IP IP address of OpenVPN server (applicable only for client configuration).
Address
Resolve Retry
Sets time in seconds to try resolve the server hostname periodically in case of first resolve failure
84
Wireless Router
Field
Description
Resolve Retry
Sets the time in seconds to try resolve the server hostname periodically in case of
Keep Alive
Defines two time intervals: one is used to periodically send ICMP request to
OpenVPN server, and another one defines a time window, which is used to restart
Local Tunnel Endpoint
IP address of virtual local network interface (applicable only for point to point
Remote Tunnel Endpoint
IP address of virtual remote network interface.
Remote Network IP Address
IP address of remote virtual network.
Remote Network IP Netmask
Subnet mask of remote virtual network.
After setting any of these parameters, press the “Save” button.
Some of the selected parameters will be shown in the configuration list table. Also note that the
router will launch a separate OpenVPN service for every configuration entry (if it is defined as
active) so that the router has the ability to act as a server and client at the same time.
IPsec
The IPsec protocol client enables the router to establish a secure connection to an IPsec peer via
the Internet. IPsec is supported in two modes; Transport and Tunnel. Transport mode creates a
secure point-to-point channel between two hosts. Tunnel mode can be used to build a secure
connection between two remote LANs serving as a VPN solution.
An IPsec system maintains two databases: Security Policy Database (SPD) which defines
whether to apply IPsec to a packet or not, and specify which/how IPsec-SA is applied; and
Security Association Database (SAD), which contains the Key of each IPsec-SA.
The establishment of the Security Association (IPsec-SA) between two peers is needed for IPsec
communication. It can be done by using either manual or automated configuration.
Note: The router starts establishing a tunnel when the data from the router to the remote site over
tunnel is sent. For automatic tunnel establishment, use the Keep Alive feature.
85
Wireless Router
Automatic IPSec Key Exchange
Field
Description
Enable IPSec
Check to enable IPSec.
IPSec Key Exchange Mode
Automatic key exchange.
Enable NAT Traversal
Enable this function if client-to-client applications are to be used.
Enable Initial Contact
Enable this to send an INITIAL-CONTACT message.
Peers Identifier Type
Choose “fqdn” or “user fqdn”.
Mode
Select “Main” or “Aggressive” mode.
My Identifier
Set the device identifier for IPSec tunnel.
Preshare Key
Specify the authentication secret [string]. Secret’s length depends on selected
algorithm, eg. 128 bit long secret is 16 characters in length, 128 bits / 8 bits (one
character) = 16.
Remote VPN Endport
Set the remote IPSec server IP address.
86
Wireless Router
Phase 1 and Phase 2 must be configured accordingly to the IPSec server configuration.
Remote Network Secure Group sets the remote network (Secure Policy Database)
information.
Field
Description
Tunnel Keep Alive
Allows sending ICMP echo request (ping utility) to the remote tunnel network. This function
may be used to automatically start the IPSec tunnel.
Pin IP Address
Enter the IP address to which ICMP echo requests will be sent.
Ping Period (seconds)
Set sent ICMP request period in seconds.
87
Wireless Router
GRE Tunnel
GRE (Generic Routing Encapsulation RFC2784) is a solution for tunnelling RFC1812 private
address-space traffic over an intermediate TCP/IP network such as the Internet. GRE tunnelling
does not use encryption it simply encapsulates data and sends it over the WAN.
In the example network diagram, two distant networks LAN1 and LAN2 are connected.
To create GRE tunnel the user must know the following parameters:
1.
Source and destination IP addresses.
2.
Tunnel local IP address.
3.
Distant network IP address and Subnet mask.
Field
Description
Enable GRE Tunnel
Check to enable the GRE Tunnel function.
TTL
Specify the fixed time-to-live (TTL) value on tunnelled packets [0-255]. The 0 is a special
PMTUD
Check to enable the Path Maximum Transmission Unit Discovery (PMTUD) status on this
Remote Tunnel Network
Address
Specify remote LAN Subnet address.
Remote CIDR
Specify remote LAN Subnet CIDR value.
Remote IP Address
Specify remote WAN IP address.
MTU
Specify the maximum transmission unit (MTU) of a communications protocol of a layer in
88
Wireless Router
System
Configuration Wizard
The configuration wizard provides a simple way of quickly configuring the device in order to bring
it up to basic functionality.
The wizard is comprised out of 4 steps as follows:
Step 1 (Password change)
The wizard will prompt to change the default password. Enter the same password into both
Password and Confirmation fields and press Next.
Note: At this point there is also an option to skip the wizard.
Step 2 (LTE)
Alternate model:
89
Wireless Router
Step 3 (LAN)
Step 4 (Wi-Fi)
The final step will allow the configuration of the wireless settings in order to set up a rudimentary
Access Point.
90
Wireless Router
Administration
Administration Properties
Administration Password

Field
Description
Password
Enter the new administration password.
Confirmation
Re-enter the new administration password.
The only way to gain access to the web management, if the administrator password has
been forgotten, is to reset the device to the factory default settings.
The default administrator login settings are:

User Name:
admin

Password:
admin01
Logging
Field
Description
System Log Level
Select log level to be used for messages in system log (requires restart of the device).
Save Login
Select whether system log is saved to the RAM or the Flash memory (requires restart
Include GSMD Information
Include GSMD information in the system log.
Include PPPD Information
Include PPPD information in the system log (relevant only when PPPD mode is
Include Chat Script
Include Chat script information in the system log (relevant only when PPPD mode is
System Log
View system log.
Kernel Log
View kernel log.
91
Wireless Router
SSH Access Control
Field
Description
SSH Access
SSH can be enabled or disabled.
Port
Specify port for SSH access. The default port is 22.
Remote SSH Access
If the check box is selected, users can access the router via SSH from the outside (WAN).
When check box is not selected users can access the router only from LAN.
Web Access Control
Field
Description
HTTP Web Server
Port
Specify a port number for routers web management via HTTP protocol. Default port is 80.
Remote HTTP Access If the check box is selected, users can access the router via the HTTP WEB Interface from
the outside (WAN). When the check box is not selected, users can access the router only
from LAN.
HTTPS Server Port
Specify a port number for routers web management via HTTPS protocol. Default port is 443.
Remote HTTPS
Access
If this is selected users can access the router via the HTTPS WEB Interface from the outside
(WAN). When the check box is not selected users can access the router only from LAN.
92
Wireless Router
Web Access Control
Backup and Firmware
Router firmware backup, upgrade and settings reset to their factory defaults.
Backup and reset configuration
Backup archive;
Downloads the current router settings file to a personal
computer.
Reset to defaults;
Resets the router settings to their default values.
Troubleshoot package
Logging information and configuration;
Downloads the troubleshoot package to provide
Information to the device support team when facing a
problem.
Restore configuration
Restore backup;
Upload and restore the router settings file from a
personal computer.
Firmware upgrade
Keep settings;
When selected, the router will keep the saved user
configuration settings after a firmware upgrade. When
the check box is not selected, all of the router settings
will be restored to the factory defaults after a firmware
upgrade.
Image;
Router firmware upgrade file.
93
Wireless Router
Firmware upgrade - Verify
Compare firmware file checksum to ensure data integrity. If the checksum is correct click the
“Proceed” button for the upgrade process to complete.
Important notes:
Leaving “Keep settings” check box unselected before an upgrade process will change the IP
address of router to the default value 192.168.1.1, and may require the router to be reconfigured.
Do not remove the router power supply or press the reset button during an upgrade process. This
will damage the router making it inaccessible.
Reboot
Reboot router by pressing button “Reboot”.
Logout
Log out from router management WEB interface.
94
VIDEO SERVER BOARD
95
Video Server Board
Video Server Board (optional)

This option is also compatible with the Sonic Virtual Hand Controller Software Package
System Requirements

Windows 2000, XP or above.

Browser: IE 6 or above.

Live Monitor: Max. 16 Split, Real Time REC/ Capture/ Audio/ Live Event/ Full Screen.


Playback Viewer: Playback, Time / live event Search / Export (JPEG / AVI).
Settings: Device/ System/ Camera management/ web page.
Passwords; Default and Changing
The password can be changed by clicking the System button and clicking “Users”.
User Name
Password
Internal Video Server
sonic
sonic
Default Settings
admin
inetsev
Technical Specifications

Video Signal;
NTSC/PAL.

Video input:
1.0Vp-p, 75 ohms (BNC unbalanced).
AGC Range: 0.5 ~ 2.0Vpp.
Chrominance: 0.286Vpp, +/- 2db.
Color sub-carrier lock range: +/- 200H.

Video output level:
1.0Vpp +/-10%, 75 Ω, composite, negative (BNC
unbalanced).

Video output frequency:
-3dB +/-1dB at 3.58 MHz .

Video output burst level:
286mv +/-10%(NTSC), 300mv +/-10%(PAL).

Compression resolution:
NTSC: Full D1: 720x480, Half D1: 720x240, CIF: 352x240.
Pal: Full D1: 720x576, Half D1: 720x288, CIF: 352x288.

Video Fine Tune:
Contrast, Brightness, Hue, Saturation.

Audio Signal:
1 Channel.

Audio compression:
8 kHz sampling, μ-law.

Network Audio Stream:
Available.
96
Video Server Board
Compression
Image
Compression
Resolution
MPEG4
MJPEG
VGA, QVGA
Performance
Up to 30 (25 PAL) FPS
720x480(Field), 720x480(Frame), 720x240,
352x240
Up to 30 (25 PAL) FPS
Picture Size
Varies
4~64 KB
Watermark
N/A
Digital Signature
Quality
5 Levels and customized bit-rate from 64
KBPS to 8 MBPS
30(25 PAL)/ 24/ 15/ FPS
4 to 64 KB
Frame Rate
30(25 PAL)/ 24/ 15 FPS
Environmental

Operating temperature:
0°C to 50°C (32°F to 122°F).

Storage temperature:
-20°C to 60°C (-4°F to 140°F)

Operation humidity:
30% to 80 %.
Display

Display Format at Local:
Full.

Display Format at Client:
Full.

Display Refresh Rate:
NTSC: 60fps.
PAL: 50fps.
Additional Features

Built in RTC:
Yes.

Software Upgrade:
HTTP or FTP.

Motion Detection:
96 independent blocks with 5 levels sensitivities.

Security:
10 users with 3 levels of authority.

Time Stamp:
Date/ Time/ Location.

Regulation:
CE, FCC, RoHS.
Compatible Devices

Media File Format:
JPEG Snapshot/AVI File.
MTBF

Main:
135,000 Hr.
97
Video Server Board
Network Connectivity
It is possible to stream images from the integrated Scorpion + over a short-range wireless link.
Accessing the Video Server
Follow the procedure to be able to access the video server over a network.

Click the Start menu from the computer, and navigate to the Settings/Control Panel/
Networks.

Click the Configuration tag, and note down the DHCP server address.

Using the Scan IP software, perform a search for local networked devices, this should find
the Video Server IP address.

Open a web browser and enter the Video Server address into the address bar.

This will open the configuration home page. Before anything can be accessed a username
and password is required to be entered. Click anywhere to open the login dialogue box.

Enter the correct username and password, on the initial login, the DHCP server address is
also required to be entered.
The homepage features can now be accessed to control and monitor the cameras on the
RDS600.
The screen will show the following accessible menus;

Image

Network

System

Application

SD Card

Pan/Tilt
Other options can also be accessed from the homepage to perform the following operations;
Click to change the time/date mode.
Click to switch between a high speed/low speed network.
Click to play/mute the live audio.
Click to archive .AVI videos into the PC. Click again to deactivate.
In the recording mode, this red blinking icon will display in the upper
right corner of the image.
98
Video Server Board
Digital Zoom:
Click the left mouse button in the video display area to zoom in.
Double click the left mouse button to Zoom to the maximum size.
Click the right mouse button in the video display area to zoom out.
Double click the right mouse button to return to the normal video
image.
Click the drop down list to select between viewing the image in normal
size or a larger 2x size.
Image Settings
The image menu, allows the user to select Compression Mode and fine tune the IP camera
settings.
The format of the image can be changed between MJPEG or MPEG4, each will present different
menu choices depending on the attached cameras.
Device Title:
This can be used to give the Video Server a unique name.
Resolution:
The resolution of the image can be changed by scrolling through the given
options.
Quality:
The quality of the image can be changed by scrolling through the given
options.
Frame Rate:
This can be changed between 30,24 or 15 frames per second.
Fine Tune:
Click this to open the fine tune menu page.
99
Video Server Board
Fine Tune Settings
Click the Fine Tune button to open the settings page.
The fine tune allows the user to manually adjust the video image;
Brightness:
Adjust the image brightness from a spectrum of 0 to 255.
Contrast:
Adjust the image contrast from a spectrum of 0 to 255.
Hue:
Adjust the image hue from a spectrum of 0 to 255 (NTSC only).
Saturation:
Adjust the image saturation from a spectrum of 0 to 255.
Default:
Click to return the fine tune adjustments back to the default setting.
100
Video Server Board
Network Settings
Click the Network button to open the Network page, a warning dialogue box will open up;
Network settings can be altered to suit user requirements;
Each accessible network will bring up the relevant menu once selected, this allows network
administrators the facility to troubleshoot or set up a connection to suit.
101
Video Server Board
System Settings
Click the System Settings button to open the settings page.
The following choices will appear;
Date and Time:
This can be set manually, or can be synchronized with the
computer or a SNTP server.
Timestamp:
Allows the user to add and modify the timestamp settings that will
appear on the image.
Users:
Allows the user to add and manage accounts that can access the
video server.
Digital I/O:
To use the Digital Output function, the drive type of the alarm
device must be set. The IP Camera provides two choices; high or
low. When setting to high, or activating the rising edge, it is
recommended that users set the Digital Output function to High.
Audio Mechanism:
Allows the user to activate/deactivate the cameras audio function
if present.
RS485:
Allows the user to set the RS485 port settings.
Update Firmware:
Allows the user to update the system firmware. It is
recommended not to disrupt the system’s power during any
updates. Ensure that the correct UPDATE.BIN file is selected as
the incorrect file may cause damage to the device.
Events Log:
Shows all activity on the device.
102
Video Server Board
Application Settings
Click the Application Settings button to open the settings page.
The following choices will appear;
FTP:
(MJPEG Only) Allows the user to select the amount of images that can
be uploaded periodically.
SD Card:
Not used in this configuration.
SMTP:
(MJPEG only) Allows the user to set the amount of images sent
attached to each sent email.
Enable Record:
Gives the option to record directly to an FTP server or the SD Card.
Schedule:
Gives the user the ability to set up a record schedule to enable the
programmed record function.
Enable Alarm:
Allows the user to set up the auto-alarm function and adjust the
settings.
Motion Detection:
This function gives the user the ability to set up and manage the
motion detection settings of the Scorpion+.
103
Video Server Board
Pan/Tilt Settings
The following settings are available by clicking into the Pan/Tilt tab at the bottom of the page.
1.
Click “Configure” to enter the RS485 setting page. Select a device ID from the drop-down
device list on the Speed Dome Controller.
2.
The Controller will display the corresponding ID.
3.
Each of the ten buttons next to ‘Set’ is connected with a specific position and angle, either
panning or tilting the camera. Click each button to activate its particular position and angle.
Press the button under ‘Preset‘ to turn the camera angle-by-angle in the set positions. Each
of the ten buttons designated ‘Go to’ can be clicked to view the particular corresponding
angle of the position in which it is set.
4.
The RS-485 communication port functions as a controller when two or more units are
serially connected to an external control device.
5.
When a button is clicked, a camera will move one short step only in any of the four
designated directions.
6.
Click the buttons to control the Focus setting on the Speed Dome Controller. Click “+”
button to focus far and click the “–“ button to focus near.
7.
Click the buttons to control the Zoom setting on the Speed Dome Controller. Click “+” button
to zoom in and click the “–“ button to zoom out.
8.
When a button is clicked a camera will turn all the way, without stopping, in one of the four
designated directions.
Aperture function is not available at this time
104
Video Server Board
Additional control of the system can be achieved by changing the ID to 2, the buttons will then
mimic the following controls from the virtual hand controller.
A
Switch to Camera view 1
B
Switch to Camera view 2
C
OSD Menu Up
D
Stop Button
E
OSD Menu Up
F
Record Button
G
OSD Menu Left / <
H
OSD Menu Right / >
I
OSD Menu Left / <<
J
OSD Menu Right / >>
K
Auto Button
L
OSD Menu Down
M
Mode Button
N
Play Button
O
OSD Menu Down
P
Enable/Disable OSD
105
GSM COMMAND
106
GSM Command
GSM Command (Optional)
STATUS LED’S
SIM CARD SLOT
Prior to using the GSM Command, a SIM card needs to be correctly set up by using a mobile
phone. Once it is programmed accordingly then the GSM Command will be ready to use.
107
GSM Command
Setting up the GSM Command Unit SIM card

Insert the SIM card from the GSM Command Unit into a mobile phone handset and turn on.

Ensure that the PIN is disabled.

Enter a new contact called PASSCODE with a 4 digit PIN number as shown in the example
below. This number will need to be entered and confirmed before control of the system can
be gained remotely over a GSM cellular network.

Enter a new contact called SMS with the desired recipient phone number beginning with the
country prefix (UK: +44) as shown in the example below. This number to receive status
messages and alarms from the GSM device.
When these numbers have been set-up and saved to the SIM card, remove it from the handset
and install into the GSM Command Unit. This is now ready for use.
108
GSM Command
Power on
Ensure that the SIM card is inserted and switch the GSM power to On.
Dialling into the GSM Command Unit

Call the number of the SIM card from a mobile phone, the device will auto answer after a
few rings.

A tone will be received, this is an indication to enter the PASSCODE.

If an incorrect key is pressed then enter the passcode again.

An ascending confirmation tone will be heard upon successfully entering the PIN number.
The green Network LED will pulse rapidly as it attempts to register to a network. This will change
to a slow pulse once connection is successful.
Operations during a call
The GSM Command Unit can be instructed to perform actions by using the keypad on the callers
mobile phone.
Key Press Command

0
System ON/OFF

1
DVR ON/OFF (where fitted)

2
Record ON/OFF

3
HDS600 ON/OFF

4
ROUTER ON/OFF (where fitted)

*
Request Status Message
Note: if the calling phone is set to speakerphone, this may interfere with any commands being
sent to the GSM Command Unit.
Upon a successful operation, confirmation tones from the GSM unit will be heard;

Turning equipment on;
An ascending tone will be heard in the callers handset.

Turning equipment off:
A descending tone will be heard in the callers handset
109
GSM Command
Status Message Request
Messages will differ depending on the connected equipment and installation variations.
A typical status message generated from the GSM Command Unit will look like the following;
Temp XXC
Ext DC XX.Xv D/C (with external DC connected)
Batt XX.Xv D/C (with battery option fitted)
0. System ON or OFF
1. DVR ON or OFF (with DVR option fitted)
2. Record ON or OFF (with DVR option fitted)
3. HDS600 ON or OFF
4. Router ON or OFF (with wireless router option fitted)
Alarm Messages
The GSM Command Unit will generate an alarm message if any of the following conditions arise;

The temperature goes above 50º C.

The temperature goes below 10º C.

The battery falls below 11V DC.

A system is set to ON but no voltage is detected.

A system voltage fails after it has been turned ON.

An alarm condition resets.
110
GSM Command
Front panel LED conditions
The front panel LED’s will give various warnings depending on their status;
Network LED
Green:
Pulses slowly when connected to a network. Pulses quickly when not connected to a
network.
Red:
Charging.
Status LED
Green:
ON when in high power mode. OFF when in low power mode.
Red :
When writing data to the internal modem.
111
Birmingham International Park,
Starley Way, Bickenhill,
Birmingham,
B37 7HB,
England,
United Kingdom
Tel: +44 (0) 121 781 4400
Fax: +44 (0) 121 781 4402 (Sales),
+44 (0) 121 781 4404 (General)
[email protected]
www.sonic-comms.com