Software version TC1.0
NOVEMBER 2008
TANDBERG Codec C90
System Integrator Guide
D14128.02—NOVEMBER 2008
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Codec C90
System Integrator Guide
Contents
Introduction
Getting Started
Interfaces
About the API
xConfiguration
xCommand
xStatus
Cameras
Appendices
Contact us
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Codec C90
System Integrator Guide
Introduction
Contents
Getting Started
Interfaces
About the API
xConfiguration
xCommand
xStatus
Cameras
Appendices
Contact us
Chapter 1
Introduction
Thank you for choosing TANDBERG!
In this chapter...
Your TANDBERG Codec C90 has been
designed to give you many years of safe,
reliable operation.
Intellectual property rights
Trademark
Copyright
Disclaimer
How to read this document
Patent information
Safety instructions
Environmental issues
You will find that some places information
has been copied from other chapters (but
adapted, when needed) to let you have all
the relevant information there and then.
This helps eliminating the need to read
through long sections before you can even
think of getting started.
Our main objective with this user guide is
to address your goals and needs. Please
let us know how well we succeeded!
We recommend you visit the TANDBERG
web site regularly for updated versions of
the manual.
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Codec C90
System Integrator Guide
Introduction
Contents
Getting Started
Interfaces
About the API
xConfiguration
xCommand
xStatus
Cameras
Appendices
Contact us
Intellectual Property Rights
Disclaimer
Patent Information
This System Integrator Guide and the Products to which it relates
contain information that is proprietary to TANDBERG and its licensors.
Information regarding the Products is found on the page entitled
License Agreements and Patent Information.
The specifications for the Products and the information in this
document are subject to change at any time, without notice, by
TANDBERG.
The products described in this manual are covered by one or more of
the following patents:
US6,584,077
US5,003,532
US7,034,860
US6.731.334
US5,838,664
US5,768,263
US7,010,119
GB1338127
US5,600,646
US5,991,277
EP01953201
Every effort has been made to supply complete and accurate
information in this System Integrator Guide, however, TANDBERG
assumes no responsibility or liability for any errors or inaccuracies that
may appear in this document.
This System Integrator Guide may be reproduced in its entirety,
including all copyright and intellectual property notices, in limited
quantities in connection with the use of the Products. Except for the
limited exception set forth in the previous sentence, no part of this
System Integrator Guide may be reproduced, stored in a retrieval
system, or transmitted, in any form, or by any means, electronically,
mechanically, by photocopying, or otherwise, without the prior written
permission of TANDBERG. Requests for such permission should be
addressed to [email protected].
INTELLECTUAL PROPERTY RIGHTS
Other patents pending.
The Products that are covered by this System Integrator Guide are
protected under copyright, patent, and other intellectual property
rights of various jurisdictions. Any applicable software licenses and
any limited warranty are located in the License Information section in
this TANDBERG Codec C90 System Integrator Guide.
list
This Product is
Copyright Notice
COPYRIGHT © 2008, TANDBERG
All rights reserved.
Trademark
The product that is covered by this System Integrator Guide is
protected under copyright, patent, and other intellectual property
rights of various jurisdictions. This product is Copyright © 2008,
Tandberg Telecom AS. All rights reserved. This product includes
copyrighted software licensed from others.
TANDBERG® is a registered trademark belonging to Tandberg ASA.
Other trademarks used in this document are the property of their
respective holders.
COPYRIGHT © 2008, TANDBERG
All rights reserved.
A document describing the copyright notices and the terms and
Philip Pedersens vei 20
Navigate to User manuals > TANDBERG Codec C90 Copyright and
License Information to download the pdf.
1366 Lysaker, Norway
Tel: +47 67 125 125 Fax: +47 67 125 234
E-mail: [email protected]
IMPORTANT: USE OF THIS PRODUCT IS SUBJECT IN ALL CASES
TO THE COPYRIGHT RIGHTS AND THE TERMS AND CONDITIONS
OF USE REFERRED TO ABOVE. USE OF THIS PRODUCT
CONSTITUTES AGREEMENT TO SUCH TERMS AND CONDITIONS.
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Codec C90
System Integrator Guide
Introduction
Contents
Getting Started
Interfaces
About the API
xConfiguration
xCommand
xStatus
Cameras
Appendices
Contact us
Water and Moisture
Power Connection and Hazardous
Voltage
•
•
•
If the cabinet has been damaged.
Safety Instructions
Do not operate the apparatus under or near water –
for example near a bathtub, kitchen sink, or laundry
tub, in a wet basement, near a swimming pool or in
other areas with high humidity.
If the apparatus seems to be overheated.
For your protection please read these safety
instructions completely before you connect the
equipment to the power source. Carefully observe
all warnings, precautions and instructions both on
the apparatus and in these operating instructions.
The product may have hazardous voltage inside.
If the apparatus emits smoke or abnormal
odor.
•
Never attempt to open this product, or any
peripherals connected to the product, where
this action requires a tool.
•
If the apparatus fails to operate in
accordance with the operating instructions.
•
Never install jacks for communication cables
in wet locations unless the jack is specifically
designed for wet locations.
•
•
•
This product should always be powered from
an earthed power outlet.
Retain this manual for future reference.
Accessories
•
Do not touch the product with wet hands.
Never connect attached power supply cord to
other products.
Use only accessories specified by the
manufacturer, or sold with the apparatus.
Cleaning
In case any parts of the product has visual
damage never attempt to connect main power,
or any other power source, before consulting
service personnel
Unplug the apparatus from communication lines,
mains power-outlet or any power source before
cleaning or polishing. Do not use liquid cleaners
or aerosol cleaners. Use a lint-free cloth lightly
moistened with water for cleaning the exterior of
the apparatus.
Communication Lines
Do not use communication equipment to report a
gas leak in the vicinity of the leak.
•
•
The plug connecting the power cord to the
product/power supply serves as the main
disconnect device for this equipment. The
power cord must always be easily accessible.
IMPORTANT!
Route the power cord so as to avoid it being
walked on or pinched by items placed upon or
against it. Pay particular attention to the plugs,
receptacles and the point where the cord exits
from the apparatus.
Ventilation
There should always be a distance of minimum
10 cm (0.33 ft) free space in the front of the codec.
Do not block any of the ventilation openings of the
apparatus. Never cover the slots and openings with
a cloth or other material. Never install the apparatus
near heat sources such as radiators, heat registers,
stoves, or other apparatus (including amplifiers)
that produce heat.
•
•
Do not tug the power cord.
If the provided plug does not fit into your outlet,
consult an electrician.
Min. 10 cm
Do not place the product in direct sunlight or close
to a surface directly heated by the sun.
•
Never install cables, or any peripherals, without
first unplugging the device from its power
source.
Lightning
Never use this apparatus, or connect/disconnect
communication cables or power cables during
lightning storms.
Servicing
WARNING!
•
Do not attempt to service the apparatus
Make sure the Codec
C90 never rest on
the front panel.
yourself as opening or removing covers may
expose you to dangerous voltages or other
hazards, and will void the warranty. Refer all
servicing to qualified service personnel.
Dust
Do not operate the apparatus in areas with high
concentration of dust.
•
Unplug the apparatus from its power source
and refer servicing to qualified personnel under
the following conditions:
Vibration
•
If the power cord or plug is damaged or
frayed.
Do not operate the apparatus in areas with
vibration or place it on an unstable surface.
•
•
•
If liquid has been spilled into the apparatus.
If objects have fallen into the apparatus.
If the apparatus has been exposed to rain
or moisture
•
If the apparatus has been subjected to
excessive shock by being dropped.
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Codec C90
System Integrator Guide
Introduction
Contents
Getting Started
Interfaces
About the API
xConfiguration
xCommand
xStatus
Cameras
Appendices
Contact us
TANDBERG’s Environmental Policy
European Environmental Directives
Information for Recyclers
Environmental Issues
Environmental stewardship is important to
TANDBERG’s culture. As a global company with
strong corporate values, TANDBERG is committed
to following international environmental legislation
and designing technologies that help companies,
individuals and communities creatively address
environmental challenges.
As a manufacturer of electrical and electronic
equipment TANDBERG is responsible for
compliance with the requirements in the European
Directives 2002/96/EC (WEEE - Waste Electrical
and Electronic Equipment) and 2002/95/EC
(RoHS).
As part of compliance with the European
WEEE Directive, TANDBERG provides recycling
information on request for all types of new
equipment put on the market in Europe after
August 13th 2005.
Thank you for buying a product which contributes
to a reduction in pollution, and thereby helps save
the environment. Our products reduce the need for
travel and transport and thereby reduce pollution.
Our products have either none or few consumable
parts (chemicals, toner, gas, paper).
Please contact TANDBERG and provide the
following details for the product for which you
would like to receive recycling information:
The primary aim of the WEEE Directive and RoHS
Directive is to reduce the impact of disposal of
electrical and electronic equipment at end-of-life.
The WEEE Directive aims to reduce the amount
of waste electrical and electronic equipment sent
for disposal to landfill or incineration by requiring
producers to arrange for collection and recycling.
The RoHS Directive bans the use of certain heavy
metals and brominated flame retardants to reduce
the environmental impact of WEEE which is in
landfill or incinerated.
TANDBERG’s environmental objectives are to:
•
•
•
•
•
•
Model number of TANDBERG product
Your company’s name
Contact name
•
Develop products that reduce energy
consumption, CO2 emissions, and traffic
congestion
Address
•
•
•
Provide products and services that improve
quality of life for our customers
Telephone number
E-mail.
Produce products that can be recycled or
disposed of safely at the end of product life
TANDBERG has implemented necessary process
changes to comply with the European WEEE
Directive (2002/96/EC) and the European RoHS
Directive (2002/95/EC).
Comply with all relevant environmental
legislation.
Digital User Guides
TANDBERG is pleased to announce that we have
replaced the printed versions of our user guides
with digital versions available on the TANDBERG
environmental benefits of this are significant. The
user guides can still be printed locally, whenever
needed.
Waste Handling
In order to avoid the dissemination of hazardous
substances in our environment and to diminish the
pressure on natural resources, we encourage you
to use the appropriate recycling systems in your
area. Those systems will reuse or recycle most
of the materials of your end of life equipment in a
sound way.
TANDBERG products put on the market after
August 2005 are marked with a crossed-out
wheelie bin symbol that invites you to use
those take-back systems.
Please contact your local supplier, the regional
www.tandberg.com/recycling if you need more
information on the collection and recycling system
in your area.
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Codec C90
System Integrator Guide
Getting Started
Contents
Introduction
Interfaces
About the API
xConfiguration
xCommand
xStatus
Cameras
Appendices
Contact us
Chapter 2
Getting started
This chapter introduces you to the codec
and gets you up and going.
In this chapter...
Assemble your system
Using the remote control
Turn on the system
This guide has been divided into several
chapters, all of which provide different
information. You can access the chapters
directly by clicking on the menu bar at the
top of this page.
Verify IP address settings
Setting a static IP address
Add the system to the network
Verify your settings
Time zone settings
About monitors
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Codec C90
System Integrator Guide
Getting Started
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Introduction
Interfaces
About the API
xConfiguration
xCommand
xStatus
Cameras
Appendices
Contact us
Assemble your system
The illustration shows you the basic setup when connecting your monitor, PC,
camera, microphone, loudspeakers (if applicable), LAN and line voltage to your
codec.
1
OPTIONAL:
Loudspeakers
OPTIONAL:
Audio from PC
Video
from PC
LAN/
Ethernet
Monitor
(Audio from HDMI 1 or
Line Out 1–2)
Mains Power
Cable
Microphone
OPTIONAL:
You may connect additional
microphones
OPTIONAL:
You may connect a second camera.
(extra camera not included). Extra camera will
require separate power supply and control
cabling. Consult the documentation supplied
with the extra camera for details.
Main camera:
Video from
PrecisionHD 1080p
OPTIONAL:
Dual monitor setup
Connect the second
monitor to HDMI 3
Main camera:
Camera Control to
PrecisionHD 1080p
Make sure the codec has been switched off and
disconnected from the line voltage whenever
connecting or disconnecting other equipment.
!
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Codec C90
System Integrator Guide
Getting Started
Contents
Introduction
Interfaces
About the API
xConfiguration
xCommand
xStatus
Cameras
Appendices
Contact us
Using the Remote Control
ARROW UP/DOWN: Use
the up and down
arrow keys to navigate in
the menu.
FUNCTION KEYS: Each key reflects
a soft key on screen and represents
shortcuts and advanced functions.
The functions keys
in the upper part of
the remote control
reflects the soft keys
on screen.
ARROW LEFT: Press
the left arrow key
to go one step back
in the menu or to
move to the left in a
text field.
ARROW RIGHT: Press
the right arrow key
to expand the selected
menu item or to move
to the right in a text
field.
... and the middle
part of the remote
control is used to
handle the video
part of the call.
1.@
4 ghi
2 abc
5 jkl
8 tuv
0
def 3
mno 6
wxyz 9
... while the lower
part of the remote
control resembles
very much the
keypad of a mobile
phone
OK/SELECT: Press the OK/
Select key to confirm your
choice odresf 3election.
2 abc
7 pqrs
abc/123
#
1.@
MICROPHONE: Press the
Microphone key
the microphone
PRESENTATION: Press the
Presentation key to show/hide
a presentation.
Batteries
PHONE BOOK: Press
the Phone Book key to
display the local phone
book.
LAYOUT: Press the Layout
Make sure the remote control has
working batteries (4 x AAA batteries).
key to display the layout
menu, then select a view
in the menu.
VOLUME: Press
ZOOM: Press
the + or – on the
Volume key to adjust
the codec volume.
the + or – on the Zoom
key to zoom the camera
in and out.
2 abc
def 3
1.@ HOME: Press the
Home key to go back
to the mainmmnoenu.
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About the API
xConfiguration
xCommand
xStatus
Cameras
Appendices
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Using the Remote
CALL KEY
ALPHANUMERIC KEYPAD
Control, cont...
INITIATE CALL: Select a name from the Phone book or enter the
name, number or URI and press the Call key to initiate the call.
Use the keypad in the same way as you would
use a cellular phone.
SHORTCUT TO RECENT CALLS: Use the Call button as a
shortcut to Recenble.
The functions keys
in the upper part of
the remote control
reflects the soft keys
on screen.
0-9, a-z, period (.), @, space, *:
Press a key repeatedly to toggle
between the options displayed
on each key.
END CALL, STANDBY:
Press the End Call
key to end a call, or
when idle, press and
hold the key to go into
standby mode.
... and the middle
part of the remote
control is used to
handle the video
part of the call.
1.@
abc
def 3
1.@
4 ghi
2 abc
5 jkl
8 tuv
0
def 3
mno 6
wxyz 9
abc/123 #: Press the # key to
toggle between lower case
characters and numbers.
4 ghiCLEAR: Premssnot6he Cancel
key to remove characters
5 jkl
... while the lower
part of the remote
control resembles
very much the
keypad of a mobile
phone
7 pqrs
7 pqrisn a text field.
8 tuv
wxyz 9
abc/123
#
Waking up the system
IR sensor range (DIP switch setting)
Press any key on the remote control to wake up the system.
The IR sensor has a short and long range. Open the battery cover and remove
the batteries to set the DIP switch.
•
•
Short range (1 m): Move the DIP switch down
Long range: Move the DIP switch up.
Press the HOME
key to show the
menu on screen
The DIP
switch
1.@
4 ghi
2 abc
5 jkl
8 tuv
0
def 3
mno 6
wxyz 9
rs
abc/123
#
Touch the rubber
line sensors along
the sides to wake
up the system
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Interfaces
About the API
xConfiguration
xCommand
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Cameras
Appendices
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Turn on the system
If you need to set a static IP address
Go to IP Settings to set static IP addresses:
•
•
•
•
Turn on the codec and wait a few minutes for the system to start
1
3
Make sure the remote control has the batteries installed.
1. Navigate to Settings > Administrator Settings > IP Settings.
2. Set IP Assignment to Static. Press the left arrow key to go back one step
Press Home (
) on the remote control to show the menu on screen
When you can see the menu on screen, proceed to Step 2.
3. Enter the IP Address, Subnet Mask and Gateway address in the address fields.
The sequence is shown below.
Show the menu:
4. Press OK to save the changes, or Cancel to leave without saving.
•
Press Home (
) on the remote control to show the menu on screen
5. Press Home (
) to exit.
Navigate in the menu:
•
Use the arrow keys on the remote control to navigate up and down in
the menus
Confirm your choice:
•
To confirm your choice, press OK ( ) on the remote control
Verify IP address settings
2
Go to System Information to verify the IP address:
1. Navigate to Settings > System Information
2. When the IP address is automatically assigned from a DHCP server, the
Address of the codec is shown on the System Information page.
3. Press Home (
) to exit.
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System Integrator Guide
Getting Started
Contents
Introduction
Interfaces
About the API
xConfiguration
xCommand
xStatus
Cameras
Appendices
Contact us
Add the system to the network
Verify your settings
Your service provider should have provided you with the information you
need to get on-line.
We strongly recommend that you verify the settings by inspecting the System
Information list.
4
5
For H323 type of communication, this will include such things as system
name, H323 alias, gatekeeper address, etc. For SIP type of communication,
similar type of information will be supplied.
You do this by accessing the System Information in the same way as you did
when you verified you IP address setting.
For networks administrated through TMS (TANDBERG Management Suite),
your TMS administrator will be able to assist you when configuring.
Go to System Information to verify the settings:
1. Navigate to Settings > System Information
The H323 and SIP settings are configured from the Administrator Settings
menu:
2. Verify the previous configurations. For example, if you successfully registered
to a SIP server the Status will show Registered. If the registration failed the
Status will show Not registered.
Navigate to Settings > Administrator Settings > Advanced Settings.
3. Press Home (
) to exit.
•
Expand the items in need of modification and enter the information
supplied by your service provider.
Time zone settings
Verify the date and time to see if the time zone settings need to be adjusted. The
date and time is located in the upper right corner on screen.
6
Go to Time settings to set the NTP (date and time) settings:
1. Navigate to Settings > Administrator Settings > Time > Zone
2. You may need to consult the NTP Time Zone expression list to find the
exact expression. Go to the Appendices section and the NTP Time Zone
expressions to see a complete overview.
3. Enter the time zone expression for where the system is located. The default
value is Etc/UTC.
NOTE: Spelling correctly is important when entering the NTP Time Zone
expression
4. Press Save to save the changes, or Cancel to leave without saving.
5. Press Home (
) to exit.
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Codec C90
System Integrator Guide
Getting Started
Contents
Introduction
Interfaces
About the API
xConfiguration
xCommand
xStatus
Cameras
Appendices
Contact us
About monitors
The video outputs at Codec C90
The main monitor
The main monitor can be connected to the default video output HDMI
1 or one of the other outputs which are HDMI 3, DVI-I 2 or DVI-I 4.
When connecting to HDMI 1
When you connect the main monitor to the default video output on
Codec C90 the menu, icons and other information on screen (OSD -
on screen display) will show on this monitor.
DVI-I 4
When connecting to DVI-I 2, DVI-I 4, HDMI 3
HDMI 3
(the default connector
for the dual monitor)
When connecting the main monitor to another video output, and no
menu shows on screen, you must run a shortcut on the remote control
to reset the resolution and move the OSD to this output.
The resolution will be set to the default value, which is
1280x720@60Hz for HDMI and 1024x768@60Hz for DVI.
DVI-I 2
The menu on screen, icons and other information (OSD - on screen
display) will be moved to the selected output.
HDMI 1
(the default connector
for the main monitor)
Key sequence
If connected to DVI-I 2, DVI-I 4 or HDMI 3 you must run the following
shortcut or key sequence on the remote control.
Dual monitors
When you want to run a dual monitor setup, connect the second
monitor to video output HDMI 3 on Codec C90.
•
Disconnect * # * # 0 x # (where x is output 2, 3 or 4)
Example: Set DVI-I 2 as the OSD output:
Disconnect * # * # 0 2 #
•
Dual monitor configuration
Go to Administrator settings to set the monitor to dual:
You can also set the resolution and the OSD output by setting up a
serial port connection and run API commands. See the Codec C90
System Integrator Guide for information about API commands.
1. Navigate to Settings > Administrator Settings > Video > Output >
Monitor
2. Set the Monitor to Dual.
3. Press Home (
) to exit.
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Codec C90
System Integrator Guide
Interfaces
Contents
Introduction
Getting Started
About the API
xConfiguration
xCommand
xStatus
Cameras
Appendices
Contact us
Chapter 3
Interfaces and sockets
In this chapter you will find an in-depth
presentation of the rear panel sockets and
interface of the TANDBERG Codec C90,
including audio signal levels and formats
supported.
In this chapter...
The front panel
Rear panel overview
The video input matrix
Video inputs
Video outputs
Audio inputs
Audio outputs
Audio signal level tables
Audio hardware information
Volume control table
Network connectors
COM ports
Camera control port
Power
Other connectors
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System Integrator Guide
Interfaces
Contents
Introduction
Getting Started
About the API
xConfiguration
xCommand
xStatus
Cameras
Appendices
Contact us
The front panel
There are four LED’s in the front of the Codec:
•
Power – The POWER LED turns ON when power is connected,
otherwise OFF
•
Call – The CALL LED turns ON when there are active calls on the
codec, otherwise OFF
•
•
Infrared – The IR LED flashes when infrared signals are received
Alarm – The ALARM LED turns ON when there is no connection to
the network, otherwise OFF
Power
Call
IR
Alarm
(infrared)
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System Integrator Guide
Interfaces
Contents
Introduction
Getting Started
About the API
xConfiguration
xCommand
xStatus
Cameras
Appendices
Contact us
Video sockets
The video input sockets are:
Audio sockets
The audio input sockets are:
Other sockets
Rear panel sockets
overview
The other sockets are:
Ethernet 1 and Ethernet 2*
COM - Serial data port
4 x HDMI
8 x XLR Female - Microphone/Line In
4 x RCA - Line In (1 Left, 2 Right, 3 Left, 4 Right)
2 x HDMI
The TANDBERG Codec C90 offers a great flexibility
in connecting audio and video equipment to the
system.
4 x HD-SDI
2 x DVI-I
Camera control - Serial port for camera control
Power socket
2 x Analog Component (Y-Pr-Pb)
The illustration below shows the rear panel of the
TANDBERG Codec C90.
1 x Composite* or 1 x S-Video(YC)*
The audio output sockets are:
2 x XLR Male - Line Out
Grounding - Chassis grounding
Power On/Off switch
The video output sockets are:
2 x HDMI
4 x RCA - 1 Left (SPDIF), 2 Right, 3 Left
(SPDIF), 4 Right
GPIO**, USB Host**, USB Device**, T Link**
Inputs
Outputs
TANDBERG Basic
Setup
2 x HDMI
2 x DVI-I
The main connectors
for TANDBERG basic
setup are highlighted
in orange.
1 Composite
1
1
* Not supported in version 1
** For future use
The following pages gives a detailed description of the rear panel sockets and connectors.
Codec C90 Rear Panel
Video sockets
Audio sockets
Video sockets
Audio sockets
T Link
Network
interface
sockets
COM Port,
Camera
Control
Power
socket
Power
switch
GPIO and USB
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System Integrator Guide
Interfaces
Contents
Introduction
Getting Started
About the API
xConfiguration
xCommand
xStatus
Cameras
Appendices
Contact us
The Video Input Matrix
The video input matrix is found at the rear side of the codec and
illustrates the combinations in which the video inputs can be
connected.
Video input matrix
About the matrix
Input Sources
Connector Name
HDMI 1 HD-SDI 1 YPrPb 1
2nd Camera HDMI 2
Only one video input source from each row can be active at any time.
The numbers in the left column represents the Video Input Sources
1–5. The main connectors, which are used in basic setup, are marked
in orange color.
1
2
3
4
1st Camera
HD-SDI 2 YPrPb 2
HD-SDI 3 DVI-I 3
PC
HDMI 3
HDMI 4
The Comp. 5 and S-Video (YC) 5 inputs uses the same physical
connectors and can not be connected at the same time.
HD-SDI 4
–
5
DVI-I 5
Comp. 5* YC 5*
Configure the video inputs
You can configure the video input settings from the Administrator
Settings menu or by running API commands.
* Comp 5 and YC 5 are not supported in version 1
The default configurations are shown below:
What connectors are active is determined by the configuration of
the video input connector settings:
Administrator settings
Open the menu on screen to configure the video input sources
and which of the sources should be the main video source and
the default presentation source.
API commands
Open a telnet or ftp session to the codec to issue an API command to
configure the video input sources and which of the sources should be the
main video source and the default presentation source.
•
•
•
•
•
Video Input Source 1 Connector: HDMI
Video Input Source 2 Connector: HDMI
Video Input Source 3 Connector: DVI
Video Input Source 4 Connector: HDMI
Video Input Source 5 Connector: DVI
If the system is in standby mode, press any key on the remote
control to wake up the system.
The following commands determines which connector to be active:
• xconfiguration video input source 1 connector: hdmi
• xconfiguration video input source 2 connector: hdmi
• xconfiguration video input source 3 connector: dvi
• xconfiguration video input source 4 connector: hdmi
• xconfiguration video input source 5 connector: dvi
1. Select: Settings > Administrator Settings > Advanced
Configurations
The video name of the connector inputs should be set:
•
•
•
•
•
Video Input Source 1 Name: “Main Camera“
Video Input Source 2 Name: “Secondary Camera“
Video Input Source 3 Name: “PC“
2. From this point you can:
•
Search for the words “source” or “video” to see a list
of the available Video Input Source [1–5] Connector
settings
Video Input Source 4 Name: “DVD“
Set the video quality and a name of the video inputs 1 to 5:
Video Input Source 5 Name: “Document Camera“
•
- or, you can navigate down in the list to Video > Input >
Source 1 > Connector
• xconfiguration video input source 1 quality: motion
• xconfiguration video input source 1 name: “Main Camera“
The video quality of the connector inputs should be set:
3. On the remote control, press the right arrow to edit the
values
•
•
•
•
•
Video Input Source 1 Quality: Motion
Video Input Source 2 Quality: Motion
Video Input Source 3 Quality: Sharpness
Video Input Source 4 Quality: Motion
Video Input Source 5 Quality: Sharpness
•
Configure the video inputs 2 to 5
•
Select a value and press Save, or press Cancel to leave
without saving.
The main video source is the camera, connected to video input source 1:
4. Proceed and configure the:
• xconfiguration video mainvideosource: 1
•
•
•
•
Video Input Source Name, for the current input
Video Input Source Quality, for the current input
Video Main Video Source, for the system
The default presentation source is a PC, connected to video input source 3:
To determine the main video source and the default presentation
source for the system the following setting must be configured:
• xconfiguration video defaultpresentationsource: 3
•
•
Video MainVideoSource: 1
Video Default Presentation Source, for the system
Video DefaultPresentationSource: 3
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Video input formats supported
HD-SDI
Video inputs (I)
All video inputs can not be active at the same
time. Please refer to the Video Input Matrix on the
previous page to see an overview.
1920x1080@30Hz
1920x1080@25Hz
1280x720@60Hz
1280x720@50Hz
1280x720@30Hz
1280x720@25Hz
2 x Component In
(YPrPb)
Component 1–2 (Y-Pr-Pb)
2 x 3 BNC sockets, analog video input 1, 2.
There are three BNC connectors for each
Component interface; Y (luma), Pr (red), Pb (blue).
Analog component
1920x1080@60Hz
1920x1080@50Hz
1920x1080@30Hz
1920x1080@25Hz
1280x720@60Hz
1280x720@50Hz
1280x720@30Hz
720x576@50Hz
Typical use. Camera, DVD and Content player.
1 x Composite *
or 1 x S-Video* (YC)
4 x HD-SDI In
HD-SDI 1–4
4 BNC sockets, digital video input 1, 2, 3, 4.
Typical use. Cameras.
Composite 5* / S-Video (YC) 5*
2 BNC sockets, analog video input 5.
BNC pin-out
BNC: Bayonet Neill-Concelman
720x480@60Hz
External view of socket
HD-SDI: High Definition - Serial Digital Interface
* Comp 5 and YC 5 are not supported in version 1.
Composite/S-Video
Y-Pr-Pb: Y: Information about luma (luminance);
Pr: Red color; Pb: Blue color
The S-Video (YC) and the composite inputs uses
the same physical connectors, and will not be able
to be connected at the same time.
PAL / NTSC
Signal
GND
Y-C: Y: Information about luma (luminance); C:
Information about chroma (color)
•
S-Video 5 - Connect to the Y/Comp 5 (luma)
and C 5 (chroma) connectors
Levels
HD-SDI
•
Composite 5 - Connect to Comp 5 connector
0.8 Vpp, 75 Ω
Typical use. Camera and DVD.
SMPTE 259M (270 Mbps)
SMPTE 292M (1.485, 1.485/1.001 Gbps)
Y-Pb-Pr
Y: 1V Vpp, 75 Ω
Pb: 0.7 Vpp, 75 Ω
Pr: 0.7 Vpp, 75 Ω
Composite. 1Vpp, 75 Ω
S-Video (YC)
Y: 1Vpp, 75 Ω
C (PAL): 0.3Vpp, 75Ω
C (NTSC): 0.28Vpp, 75Ω
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Video input formats supported
DVI-D/HDMI
Video inputs (II)
All video inputs can not be active at the same time.
Please refer to the Video Input Matrix (two pages
back) to see an overview.
1920x1080@60Hz
1920x1080@50Hz
1920x1080@30Hz
1920x1080@25Hz
1920x1080@24Hz
1280x720@60Hz
1280x720@50Hz
720x480@60Hz
4 x HDMI In
HDMI 1–4
4 x HDMI sockets, digital video input 1–4. Audio
input on 3 and 4.
HDMI - High Definition Multimedia Interface (digital,
sound & picture)
Typical use. Camera, DVD, PC.
DVI-A
Main connector. The HDMI 1 input is the main
connector to the PrecisionHD 1080p camera.
640x480@72, 75, 85 Hz (VGA)
800x600@56, 60, 72, 75, 85 Hz (SVGA)
1024x768@60, 70, 75, 85 Hz (XGA)
1280x1024@60, 75 Hz (SXGA)
2 x DVI-I In
DVI-I 3 and 5
2 x DVI-I sockets, digital/analog video input 3, 5.
•
•
DVI-D
DVI-I pin-out
External view of socket
HDMI pin-out
DVI-A (Analog RGB / VGA)
External view of socket
DVI-I - Digital Video Interface - Integrated (digital
DVI-D and analog DVI-A)
Pin: 19 17
3
1
Typical use. Two digital video inputs for PC
presentations or used for the TANDBERG Precision
HD Camera.
Pin: 18 16
4
2
Main connector. The DVI-I 3 is the main
connector for PC input.
HDMI Pin-out
Pin
1
Assignment
T.M.D.S. Data 2+
Pin
Assignment
11
12
13
14
15
16
17
18
19
T.M.D.S. Clock Shield
T.M.D.S. Clock–
CEC
2
T.M.D.S. Data 2 Shield
T.M.D.S. Data 2–
T.M.D.S. Data 1
3
4
Reserved (N.C. on device)
SCL
5
T.M.D.S. Data 1 Shield
T.M.D.S. Data 1–
T.M.D.S. Data 0
6
SDA
7
DDC/CEC Ground
+5 V Power (max 50 mA)
Hot Plug Detect
8
T.M.D.S. Data 0 Shield
T.M.D.S. Data 0–
T.M.D.S. Clock+
9
10
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Video output formats supported
DVI-D/DVI-I/HDMI
Video outputs
1920x1080@60fps (HD1080p60)
1280x720@60fps (HD720p60)
1366x768@60fps (WXGA)
1280x768@60fps (WXGA)
1024x768@60fps (XGA)
1280x1024@60fps (SXGA)
640x480@60fps (VGA)
HDMI 1 and 3
2 x HDMI sockets, digital video and audio output
1, 3.
HDMI - High Definition Multimedia Interface (digital,
sound & picture)
2 x HDMI
Typical use. Monitor, recording device
Main connector. The HDMI output 1 is the main
connector to the monitor.
800x600@60fps (SVGA)
Dual monitor. Dual output is provided on HDMI
output 3.
Composite
PAL / NTSC
DVI-I 2 and 4
2 x DVI-I sockets, digital/analog video output 2, 4.
Levels
Composite. 1Vpp, 75 Ω
2 x DVI-I Out
1 x Composite Out
•
•
DVI-D
DVI-A (Analog RGB / VGA)
DVI-I - Digital Video Interface - Integrated (digital
DVI-D and analog DVI-A)
Typical use. Monitors.
BNC pin-out
DVI-I pin-out
External view of socket
External view of socket
Composite 5
Signal
GND
1 x BNC sockets, analog video output 5.
Typical use. Monitor.
BNC - Bayonet Neill-Concelman
HDMI pin-out
External view of socket
Pin: 19 17
Pin: 18 16
3
1
4
2
Please refer to previous page for pin-out scheme.
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Audio inputs (I)
Unused, but connected audio inputs should be set
to Off to avoid unwanted audio/noise.
Microphone/Line In 1–8 (XLR)
8 x Balanced XLR sockets, audio input 1–8.
Main connector. The Microphone/Line In 1 is the
main connector for the microphone.
All eight microphone inputs are for balanced
electret microphones, 48V phantom powered via
XLR connectors.
The phantom powering of all eight XLR sockets can
be individually switched off. The input will then be a
balanced line level input.
All Microphone/Line In 1–8 are equipped with
acoustic echo canceller.
Use Microphone/Line In 1–8 to connect to an
external microphone amplifier or an external mixer.
2 x HDMI In
8 x Microphone /Line In
Default configuration. In default configuration,
all Microphone/Line In inputs are enabled and
configured as microphones.
XLR pin-out
External view of socket
HDMI pin-out
HDMI In 3, 4
2 x HDMI connectors, audio input 3, 4
External view of socket
Pin: 19 17
3
1
Typical use. Use HDMI In 3 or 4 (2–8 channels)
to connect to external playback devices as DVD
players. Each input support up to two channels at
48kHz sampling rate.
Pin 1: Gnd
2
1
Pin 2: Hot
Pin: 18 16
4
2
Pin 3: Cold/neutral
3
Please refer to previous page for pin-out scheme.
XLR - Electrical Connector (Cannon XL series with
Rubber compound)
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Audio inputs (II)
Unused, but connected audio inputs should be set
to Off to avoid unwanted audio/noise.
Line In 1–4 (RCA)
4 x RCA sockets, audio input 1–4
Audio Line In 1–4 are used when connecting to PC
and to external playback devices, such as VCR’s
or DVD players.
Main connectors. The Line In 1 (left) and Line In
2 (right) are the main connectors to a PC.
Stereo. For systems with stereo I/O the audio
inputs can be configured in stereo pairs:
•
•
Connect the left channel to Line In 1 or 3
Connect the right channel to Line In 2 or 4
Default configuration for Line In 1–2. In the
default configuration Line In 1 and 2 are configured
as stereo inputs for external playback devices,
such as a PC.
4 x Line In
Default configuration for Line In 3–4. In the
default configuration Line In 3 and 4 are configured
as stereo input pairs. The two inputs are paired
with Line Out 3 and 4 respectively.
This pairing will avoid feedback situations that
can arise when playback/recording devices are in
standby mode (Loop suppression).
RCA pin-out
External view of socket
Signal
GND
Line In 3 and 4 are used with external playback
devices as VCR’s and DVD players.
RCA - Phono Plug (the Radio Corporation of
America)
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Audio outputs (I)
Line Out 5–6 (XLR)
2 x Balanced XLR sockets, audio output 5–6.
Audio Line Out 5–6 are balanced outputs, for
connection to balanced speakers.
Default configuration. In default configuration
Line Out 5 is configured as Left speaker, and Line
Out 6 is configured as right speaker.
HDMI Out 1, 3
2 x HDMI connectors, audio out 1, 3
Use HDMI Out 1 to connect to a flatscreen with
speakers. HDMI 1 will provide stereo audio speaker
signals at 48kHz.
Use HDMI Out 3 to connect to a DVD recorder.
HDMI will provide stereo line output signals at
48kHz. Includes local microphones.
2 x HDMI Out
2 x Line Out (XLR male)
Main connector. The HDMI output 1 is the main
connector to the monitor.
HDMI 1. Audio from far end and PC.
What is a Line output
Left channel
HDMI 3. All audio mixed together for recordings.
XLR pin-out
A Line output consists of all signals from local
side and all signals from far end side.
The Left channel consists of all Left channel and
Mono signals.
External view of socket
Pin 1: Gnd
2
1
Pin 2: Hot
What is a Speaker output
Right channel
Pin 3: Cold/neutral
3
A Speaker output consists of all signals from
local side, except microphones, and all signals
from far end side.
The Right channel consists of all Right channel
and Mono signals.
XLR - Electrical Connector (Cannon XL series with
Rubber compound)
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Audio outputs (II)
Line Out 1–4 (RCA)
4 x RCA sockets, audio output 1-4
Can be configured as two stereo pairs.
Main connectors. Line Out 1 (left) and Line
Out 2 (right) are the main connectors to the local
loudspeaker system.
The local loudspeaker system may or may not
include the TANDBERG DNAM (Digital Natural
Audio Module).
Default configuration Line Out 1-2. In default
configuration, Line Out 1 and 2 are configured as
stereo speakers.
if a DNAM is present or SPDIF is active on Line Out
1, then Line Out 1 provides a digital stereo speaker
signal and Line Out 2 is not active.
Default configuration Line Out 3-4. In default
configuration, Line Out 3 and 4 are configured as
stereo line out for external recording devices as
VCR’s or DVD recorders.
4 x Line Out
if a DNAM is present or SPDIF is active on Line Out
3, then Line Out 3 provides a digital stereo speaker
signal and Line Out 4 is not active.
What is a Line output
Left channel
RCA pin-out
A Line output consists of all signals from local
side and all signals from far end side.
The Left channel consists of all Left channel and
Mono signals.
SPDIF - Sony/Philips Digital Interface, used by the
Digital Natural Audio Module.
External view of socket
Signal
GND
What is a Speaker output
Right channel
A Speaker output consists of all signals from
local side, except microphones, and all signals
from far end side.
The Right channel consists of all Right channel
and Mono signals.
RCA - Phono Plug (the Radio Corporation of
America)
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Audio Signal Levels tables
Microphone Inputs 1 to 8
XLR female
Line Inputs 1 to 8
XLR female
Line outputs 5 to 6
XLR male
Line Inputs 1 to 4
Female RCA/phone
Signal
levels
Clipping level
Nominal
level
Signal
levels
Clipping level
Nominal
level
Signal
levels
Absolute max
output level
Nominal
level
Signal
levels
Clipping level
Nominal
level
Level
Level
Level
Level
setting
[dB]
setting
[dB]
setting
[dB]
setting
[dB]
[mVpp]
275.0
245.1
218.4
194.7
173.5
154.6
137.8
122.8
109.5
97.6
[dBu]
[dBu]
[Vpp]
34.7
[dBu]
24.0
[dBu]
[Vpp]
[dBu]
6.0
[dBu]
[Vpp]
17.4
[dBu]
18.0
[dBu]
0.0
1.0
2.0
3.0
4.0
5.0
6.0
7.0
8.0
9.0
-18.0
-19.0
-20.0
-21.0
-22.0
-23.0
-24.0
-25.0
-26.0
-27.0
-28.0
-29.0
-30.0
-31.0
-32.0
-33.0
-34.0
-35.0
-36.0
-36.0
0.0
1.0
2.0
3.0
4.0
5.0
6.0
7.0
8.0
9.0
6.0
5.0
–18.0
4.4
4.9
5.5
-12.0
0.0
1.0
2.0
3.0
4.0
5.0
6.0
7.0
8.0
9.0
0.0
-37.0
-38.0
-39.0
-40.0
-41.0
-42.0
-43.0
-44.0
-45.0
-46.0
-47.0
-48.0
-49.0
-50.0
-51.0
-52.0
-53.0
-54.0
31.0
27.6
24.6
21.9
19.5
17.4
15.5
13.8
12.3
11.0
9.8
23.0
22.0
21.0
20.0
19.0
18.0
17.0
16.0
15.0
14.0
13.0
12.0
11.0
10.0
9.0
–17.0
–16.0
–15.0
–14.0
–13.0
–12.0
–11.0
–10.0
–9.0
–8.0
–7.0
7.0
8.0
-11.0
-10.0
-9.0
-8.0
-7.0
-6.0
-5.0
-4.0
-3.0
-2.0
-1.0
0.0
15.5
13.8
12.3
11.0
9.8
8.7
7.8
17.0
16.0
15.0
14.0
13.0
12.0
11.0
10.0
9.0
-1.0
-2.0
4.0
3.0
6.2
6.9
9.0
-3.0
2.0
10.0
11.0
12.0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20.0
21.0
22.0
23.0
24.0
-4.0
1.0
7.8
-5.0
0.0
8.7
-6.0
-1.0
-2.0
-3.0
-4.0
-5.0
-6.0
-7.0
-8.0
-9.0
-10.0
-11.0
-12.0
9.8
-7.0
11.0
12.4
13.9
15.6
17.5
19.6
22.0
24.7
27.7
31.0
34.8
6.9
6.2
5.5
4.9
4.4
3.9
3.5
3.1
-8.0
-9.0
10.0
11.0
12.0
13.0
14.0
15.0
16.0
17.0
18.0
87.0
10.0
11.0
12.0
13.0
14.0
15.0
16.0
17.0
18.0
10.0
11.0
12.0
13.0
14.0
15.0
16.0
17.0
18.0
8.0
-10.0
-11.0
-12.0
-13.0
-14.0
-15.0
-16.0
-17.0
-18.0
77.5
7.0
69.1
8.7
–6.0
–5.0
–4.0
–3.0
–2.0
–1.0
6.0
61.6
7.8
1.0
5.0
54.9
2.0
4.0
6.9
48.9
3.0
3.0
6.2
43.6
4.0
2.8
2.5
2.2
2.0
5.5
8.0
38.8
5.0
1.0
4.9
7.0
34.6
0.0
6.0
0.0
4.4
6.0
This specification is valid for Mic 1–8 inputs if
Microphone Level setting is selected.
This specification is valid for Line 1-8 inputs if Line
Level setting is selected.
Notes:
1. Default levels are marked with white text on black
2. For the dBu value for input clipping level and absolute max output level, a sine waveform is
assumed
3. If numbers in dBV are required, dBV value is 2.2 dB lower than the dBu value.
Example: -10 dBu equals -12.2 dBV
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Audio signal levels, cont...
Audio hardware information table
Line outputs 1 to 4
Female RCA/phone
Hardware Information
Line in 1–8 **
Balanced
Mic 1–8 *
Balanced
XLR-F
Line out 5–6
Balanced
XLR-M
Line in 1–4
Unbalanced
Line out 1–4
Unbalanced
Signal
levels
Absolute max
output level
Nominal
level
Signal type
Connector (codec)
XLR-F
Female RCA/phono Female RCA/phono
10k Ohm
Level
setting
[dB]
Input impedance
8100 Ohm (pin 2–3) 10k Ohm (pin 2–3)
[Vpp]
[dBu]
[dBu]
Output impedance
50 Ohm
100 Ohm
-18.0
2.2
2.5
2.8
3.1
3.5
3.9
4.4
4.9
0.0
1.0
-18.0
Max input level when set to Min input level
Max input level when set to Max input level
Max output level when set to Min output level
Max output level when set to Max output level
Gain range
–18dBu/275mVpp
–36dBu/35mVpp
24dBu/34.7Vpp
6dBu/4.4Vpp
18dBu/17.4Vpp
-17.0
-16.0
-15.0
-14.0
-13.0
-12.0
-11.0
-10.0
-9.0
-8.0
-7.0
-17.0
-16.0
-15.0
-14.0
-13.0
-12.0
-11.0
-10.0
-9.0
-8.0
-7.0
0.0dBu/2.2Vpp
2.0
6dBu/4.4Vpp
0dBu/2.2Vpp
3.0
24dBu/34.8Vpp
18dBu/17.4Vpp
4.0
<– 18dB (18 steps of 1dB) –>
5.0
Phantom power
48 Volt +/- 2%
6800 Ohm
6800 Ohm
14mA
6.0
Phantom power resistor pin 1
Phantom power resistor pin 2
Max phantom power current (per mic)
7.0
5.5
6.2
8.0
9.0
* This specification is valid for Mic 1–8 inputs if Microphone Level setting is selected
6.9
10.0
11.0
12.0
13.0
14.0
15.0
16.0
17.0
18.0
** This specification is valid for Line 1-8 inputs if Line Level setting is selected
7.8
-6.0
-5.0
-4.0
-3.0
-2.0
8.7
-6.0
-5.0
-4.0
-3.0
-2.0
9.8
11.0
12.3
13.8
15.5
17.4
Volume control table
-1.0
-1.0
Volume control
0.0
0.0
Ring tone volume*
Audio gain value
0
0
1
-34.5 dB
0.0 dB
Notes:
70
1. Default levels are marked with white text
on black
100
15.0 dB
2. For the dBu value for input clipping level
and absolute max output level, a sine
waveform is assumed
* The ring tone volume which is displayed on screen,
when using the TRC5 remote control, goes from 0 to 20.
3. If numbers in dBV are required, dBV value
is 2.2 dB lower than the dBu value.
Example: -10 dBu equals -12.2 dBV
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Network connectors
Ethernet interface
2 × Gigabit Ethernet LAN (RJ-45 Jack) interface
(GbE).
Ethernet 1
Ethernet 1: Main connector for network connection
Ethernet 2: For future use.
Ethernet 2
(for future use)
RJ-45 Connector pin-out
1
8
TOP
FRONT
1
8
Wiring diagram
standard cable
1 ---------- 1
2 ---------- 2
3 ---------- 3
6 ---------- 6
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COM port and Camera
Control port
COM port
1 x COM (RS-232) data port for codec control and
configuration through API commands.
COM port
Camera Control port
1 x Camera Control (RS-232) port for power and
camera control (pan, tilt, zoom) using the VISCA™*
protocol.
Main connector. The main camera is connected
to the Camera Control port.
Power. Pin No. 4 on the Camera Control port
provides 12V DC/1A to the main camera.
If more than one camera is connected, only the first
camera is powered from the codec. The additional
cameras must be daisy chained by using a serial
cable and external power.
Camera Control Port
Additional cameras. For information about
additional cameras, go to the Cameras section
later in this guide.
Pin-out—VISCA™ camera control
Pin-out—COM Port
Pin-out—TANDBERG camera cable
RJ11, 8 pins shielded modular jack
Pin
1
Signal name
Direction
Signal
RJ-45 pin
D-SUB pin
Pin
Signal name
name
+12V DC
GND
RX
Carrier detect, CD
Receive data, RXD
Transmit data, TXD
12V/1A
From DCE
8
+12V (presence 2.8mA current source
when connected in daisy chain)
1
2
3
6
4
5
7
8
Twisted
pair
4
5
2
3
1
6
5
4
From DCE
2
*VISCA™ is a trademark of Sony Corporation
To DCE
3
7
6
5
4
3
2
1
GND
Twisted
pair
To the main camera
4
TXD (out)
NC (no connect)
NC (no connect)
RXD (in)
RS232 9 pin D-SUB pin-out
TX
Signal GND
5
External view of socket
NC
Twisted
pair
From DCE
To DCE
6
Data set ready, DSR
Ready to send, RTS
Clear to send, CTS
Ring indicator, RI
1
5
9
NC
7
GND
+12V DC
Twisted
pair
From DCE
From DCE
8
GND
9
+12V
6
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Power
Power socket
Power Cord Socket.
Accepts 100-240V, 50/60Hz, 2.8A max.
CAUTION! This equipment must be grounded.
Power switch
Power Switch (On/Off)
Chassis
Grounding
Chassis grounding
For grounding of the chassis
Power
Socket
Power
Switch
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Other connectors
USB
1 × USB Host
1 × USB Device
For future use.
GPIO
1 × GPIO (General Purpose I/O)
6 pins Phoenix plug, having 4 ports for On/Off
control, GND and +12V
For future use.
T Link
2 × T Link, RJ45 connector.
The cable for T Link out must be shielded.
For future use.
GPIO
(for future use)
USB
(for future use)
T Link
(for future use)
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Chapter 4
About the TANDBERG API
The heart of the API is the TANDBERG
API-Engine. This is where all information is
stored and processed.
In this chapter...
The TANDBERG API
Connecting to the codec
Value types and formats
Root commands
The API engine can be accessed by an
easy-to-use Command Line Interface
called XACLI using RS-232/Telnet/SSH, or
by the TANDBERG XML API Service (TXAS)
over HTTP/HTTPS.
Main type of commands
About xConfiguration
xConfiguration operations
About xCommand
Both alternatives are described in detail
in this section of the System Integrator
Guide.
xCommand operations
About xStatus
Query xStatus information
About xHistory
About xFeedback
About xPreferences
TANDBERG XML API Service
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Main types of information
TANDBERG API
If we look at the TANDBERG systems we can
identify three main types of information
XACLI
(XML)
TXAS
(XML)
•
•
•
READ information (R)
Basic Principles
The heart of the API is the TANDBERG API-
Engine. This is where all information is stored and
processed.
WRITE information (W)
READ/WRITE information (RW)
(R) READ information. This is Status Information
about the system and system processes, i.e.
information generated by the system.
The API-engine can be accessed by an easy-to-
use Command Line Interface called XACLI using
RS-232, Telnet or SSH, or by the TANDBERG XML
API Service (TXAS) over HTTP/HTTPS.
Typical examples include: status about ongoing
calls, network status, conference status etc. All
status information is structured in a hierarchy,
making up a database constantly being updated by
the system to reflect process changes.
RS-232
cable
Working with the API-engine is very similar to
working with catalogues and files on a computer.
All information is stored in a hierarchic tree
structure which is accessible from different
interfaces.
Telnet/SSH
via LAN
HTTP/
HTTPS
API-Engine
•
When accessing the API-engine using XACLI
(RS-232, Telnet or SSH), the information is
formatted in a proprietary Command Line style
or in XML formatting.
(W) WRITE information. This is Command
information the user/control application supply to
initiate an action.
Typical examples include: instructing the system
to place a call, assigning floor to a specific site,
disconnecting a call etc.
•
When accessing the API-engine using the TXAS
interface (HTTP/HTTPS), XML formatting is
supported.
A command is usually followed by a set of
parameters to specify how the given action is to be
executed.
This is similar to viewing files on a computer.
Accessing catalogues on a Windows computer
using the Command Prompt gives a different view
than using Windows Explorer, but the information
is the same.
The TANDBERG API-Engine
The TANDBERG API-Engine is optimized for easy, yet advanced, machine-machine interaction between a
TANDBERG system and an external control application.
(RW) READ/WRITE information. This is
The main features can be summarized to:
Configuration Information defining system settings.
This information can both be supplied and read
by the user/control application. Typical examples
include: default call rate, baud rate of a serial port,
enabling/disabling of various features etc.
•
•
•
Structuring of information
About Telnet
Addressing using XPath (XML Path Language) or TANDBERG SimplePath
Feedback
Telnet is disabled by default. Before connecting to
the codec using Telnet you will need to enable the
interface via either RS-232 or SSH.
All configuration information is structured in a
hierarchy making up a database of system settings.
But for the Configuration information, the data in
the database can only be updated by the user/
control application.
Structuring of Information
The following command can be set from the
Administrator settings menu or from the API
command interface:
An application programming interface (API) can be seen as a gate where information
is exchanged between two systems – a control application and a target system.
• xConfiguration NetworkServices
The control application transmits instructions to the target system, while the target system supplies
information about how these instructions are executed, in addition to other system related information.
Telnet Mode: On
Consequently, the exchange of information can be divided into:
1. Information flowing from target. This we call READ information (R). The (R) should not be confused with
the (r) used to indicate required parameters in the Commands tables.
2. Information flowing to target. This we call WRITE information (W).
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Addressing Using XPath or TANDBERG SimplePath
Feedback
To address information in the hierarchic structure of Status and
Configuration information, the TANDBERG systems support
abbreviated XML Path Language (XPath) and a proprietary notation
called TANDBERG SimplePath (only available using XACLI).
Feedback is an extremely powerful feature where the TANDBERG
system actively returns updated status and configuration information
to the user/control application whenever changes occur.
The user/control application can specify what parts of the status
and configuration hierarchies it wants to monitor by using XPath. The
user/control application can thereby limit the amount of information it
receives from the target system to only those parts being of interest
for the given application. This will also reduce the load on the link
connecting the systems.
This allows the user/control application to address everything from a
single element of data (for example the call rate of a specific call) to
larger parts of the hierarchy (for example all information available for a
given call).
Feedback is supported on both XACLI (RS-232/Telnet/SSH) and
TXAS (HTTP/HTTPS) simultaneously.
Using TANDBERG SimplePath
The system uses TANDBERG SimplePath when presenting
configurations.
Addressing the 1st DNS Server Address of the 1st Network:
Each level is separated with a slash (‘/’). Item numbers are added in
brackets after the element name:
XPath and TANDBERG SimplePath are described thoroughly later in
this section of the manual.
•
Network[1]/DNS Server[1]/Address
The structuring of information together with XPath and TANDBERG
SimplePath for addressing, makes up powerful features as the ability
to search and setting of multiple instances of a configuration.
Example:
xConfiguration Network[1]/DNS Server[1]/Address
*c xConfiguration Network 1 DNS Server 1 Address:
“test”
OK
Using TANDBERG SimplePath
Addressing the 1st DNS Server Address of the 1st Network:
Both levels and item numbers are separated with white spaces:
•
Network 1 DNS Server 1 Address
Example:
xConfiguration Network 1 DNS Server 1 Address
*c xConfiguration Network 1 DNS Server 1 Address:
“test”
OK
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Connecting to the codec
The COM Port at TANDBERG Codec C90
Accessing XACLI
Line in
XACLI can be accessed through Telnet and SSH via the LAN interface
or through the COM port by connecting a serial cable to the serial
interface connector, referred to as the COM port.
The COM port (RS-232) is a 9-pin, female, D-sub connector located
on the back of the TANDBERG Codec C90. See the illustration to the
right.
The port is configured as a DCE (Data Communications Equipment).
The COM port (RS-232) is default set to 38400 baud, 8 data bits,
none parity and 1 stop bit from factory. The port may also be referred
to as the Data port.
Telnet/SSH login
Telnet is by default disabled. This can be changed with a configuration
command: xConfiguration NetworkServices Telnet Mode: On/Off
• xConfiguration NetworkServices Telnet Mode: On
Serial port configurations
Telnet/SSH login
On the serial port the baud rate and password protection may be
configured.
•
•
User name is: admin
Default password is: TANDBERG
The configuration command for the baud rate is:
xConfiguration SerialPort BaudRate: <9600/19200/38400/115200>
• xConfiguration SerialPort BaudRate: 38400
Serial port login
The serial port is password protected by default. The password
protection may be configured.
The configuration command for login required is:
xConfiguration SerialPort LoginRequired: <On/Off>
• xConfiguration SerialPort LoginRequired: On
•
•
User name is: admin
Default password is: TANDBERG
Reboot. The system requires a reboot for the changes to baud rate
and password protection to take effect.
NOTE: When system boots up the baud rate of the boot messages is
38400 regardless of the baud rate set in the codec application.
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Connecting to the codec, cont...
COM port (RS-232)
Cable wiring (RS-232) TANDBERG DCE <-> PC
Hardware & Cabling (RS-232)
The pin outs for the RS-232 are defined in the tables to the right.
Observe that the DTE (Data Terminal Equipment), could be a PC or
any other device capable of serial communication.
Direction
From DCE
From DCE
To DCE
Pin
1
Signal name
TANDBERG DCE 9 pin
Direction
— >
PC DTE, 9 pin
1 CD
Carrier detect, CD
Receive data, RXD
Transmit data, TXD
Data terminal ready, DTR
Signal GND
1 CD
—>
2 RD
2
2 RD
Cable. A straight-through cable should be used between the
TANDBERG RS-232 port and the DTE. The lower table shows the
recommended cable-wiring scheme when connecting the TANDBERG
Codec C90 to a PC through RS-232.
3 TD
3
3 TD
<—
<—
<—>
—>
<—
—>
—>
From DCE
4 DTR
4
4 DTR
5 GND
6 DSR
7 RTS
8 CTS
9 RI
5
5 GND
6 DSR
7 RTS
8 CTS
9 RI
DTR and RTS are ignored. DSR, CD, and CTS are always asserted,
while RI is not used.
From DCE
To DCE
6
Data set ready, DSR
Ready to send, RTS
Clear to send, CTS
Ring indicator, RI
7
From DCE
From DCE
8
Troubleshooting (RS-232)
If communication cannot be established between the PC/terminal and
the TANDBERG Codec data port, the following should be checked:
9
1. Verify that the serial cable is a straight-through 9-pin to 9-pin
cable.
2. Confirm that the configuration of the PC/terminal’s serial RS-232
port is identical to the configuration of the TANDBERG RS-232
port.
3. Verify that the PC/terminal’s serial RS-232 port is working properly
by connecting it back-to-back to another PC/terminal and send
characters in both directions.
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Value types and formats
Formats for values types
The system supports the following value types:
Integer values:<x..y>
•
•
•
•
•
•
•
Integer values
Defines the valid range for an integer input. x = min value, y = max value.
Literal values
String values
<1..100>
E164 string values (strings only containing digits, ‘#’ and ‘*’)
IPv4 Address values
Literal values: <X/Y/../Z>
Defines the possible values for a given configuration.
<On/Off/Auto>
IPv6 Address values
IPv4 or IPv6 Address values
String values: <S: x, y>
Defines that the valid input for this configuration is a String with minimum length x and maximum length of y characters.
<S: 0, 49>
IPv4 Address values: <IPAddr>
Defines that the input must be an IPv4 address.
<IPAddr>
IPv6 Address values: <IPv6Addr: x, y>
Defines that the input must be an IPv6 address with minimum length x and maximum length y.
<IPv6Addr: 0, 43>
IPv4 or IPv6 Address values: <IPv4v6Addr: x, y>
Defines that the input must be an IPv4 or IPv6 address with minimum length x and maximum length y.
<IPv4v6Addr: 0, 43>
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Root commands
?
By typing ? or help after connecting to the TANDBERG Codec C90
using RS-232/Telnet/SSH, the system will list all supported root
commands.
- User Commands -
help
xconfiguration
xpreferences
xfeedback
xcommand
xgetxml
log
xhistory
xstatus
OK
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Configuration type commands
Configuration type commands defines the system
settings. Configuration type commands are either
supplied or read by the user.
Command type commands
Command type commands instructs the system to
perform an action. Command type commands are
supplied by the user.
Status type commands
Status type commands returns information about
the system and system processes. Status type
commands are read by the user.
Main type of commands
The XACLI is divided into three main types of
commands, reflecting the information types
supported by the TANDBERG API Engine.
Example: Set default call rate, baud rate of a serial
port and enabling/disabling of various features etc.
Example: instructing the system to place a call,
assign floor to a specific site, disconnect a call etc.
Example: Information generated by the system
about ongoing calls, network status, conference
status etc.
The main types are:
•
•
•
Configuration type commands
Status type commands
The configuration commands are structured in
a hierarchy, making up a database of system
settings.
A Command type command is usually followed by
a set of parameters to specify how the given action
is to be executed.
All status information is structured in a hierarchy,
making up a database constantly being updated by
the system to reflect system and process changes.
Command type commands
Supported Configuration-type commands:
xConfiguration
Supported Command-type commands:
xCommand
Supported Status-type commands:
xStatus
xHistory
Feedback type command
Preferences type command
Special commands
The xFeedback command is used to specify what
parts of the configuration and status hierarchies to
monitor.
The xPreferences command is used to set various
preferences for the RS-232/Telnet/SSH sessions.
In addition to the above sets of commands, XACLI
supports the following set of special commands:
Each session can define preferences individually.
Feedback will only be issued on the RS-232/Telnet/
SSH session for which it is specified.
IMPORTANT! This command has various settings
to define the formatting of the XACLI output. It is
therefore important to define settings to match
the parser used on the control system. XACLI
is designed to make parsing of data from the
TANDBERG Codec C90 very simple.
If connecting to the TANDBERG codec with
multiple RS-232/Telnet/SSH sessions, each
session can define feedback individually.
More on this can be found in xfeedback.
xFeedback
More on this can be found in xpreferences.
xPreferences
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About xConfiguration
xConfiguration ?
The xConfiguration type commands defines the system settings
and are either supplied or read by the user. The xConfigurations
commands are organized in a hierarchic tree structure.
– User Configurations –
Audio
SIP
Cameras
Standby
To get an overview of accessible top-level configuration elements
within the xConfiguration commands, enter ? or help after the
xConfiguration command:
DoNotDisturb
H323
SystemUnit
Time
• xConfiguration ?
NetworkServices
Phonebook
Provisioning
SerialPort
Video
• xConfiguration help
Experimental
Conference 1
Network 1
To get an overview of all supported xConfiguration commands with
the corresponding value space, enter ?? after the xConfiguration
command:
OK
• xConfiguration ??
When issuing a xConfiguration command, the command consists of
three parts:
1. The type of command: xConfiguration
2. The path: An address expression, terminated by a colon
3. The value: A value type
xConfiguration ??
Example:
*h xConfiguration Audio Volume: <0..100>
xConfiguration Audio Input HDMI 1 Mode: On
*h xConfiguration Audio Input Microphone [1..8] Type: <Microphone/Line>
*h xConfiguration Audio Input Microphone [1..8] Mode: <On/Off>
*h xConfiguration Audio Input Microphone [1..8] Level: <0..18>
The type
The path
The value
*h xConfiguration Audio Input Microphone [1..8] Channel: <Left/Right/Mono>
*h xConfiguration Audio Input Microphone [1..8] EchoControl Mode: <On/Off>
*h xConfiguration Audio Input Microphone [1..8] EchoControl NoiseReduction: <On/Off>
*h xConfiguration Audio Input HDMI [1..4] Mode: <On/Off>
*h xConfiguration Audio Input Line [1..4] Mode: <On/Off>
*h xConfiguration Audio Input Line [1..4] Level: <0..18>
.
.
.
OK
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xConfiguration Help
To get help on a system setting you can use a help
query. Enter the path followed by ?or help.
xConfiguration operations
Example with xConfiguration Help:
To get help on xConfiguration, type ? or help after the configuration path (address expression):
xConfiguration <address expression> ?
Configuration type commands defines system
settings and are either supplied or read by the user.
• xConfiguration H323 Profile 1
Gatekeeper ?
xConfiguration H323 Profile 1 Gatekeeper Discovery ?
Returns information about the setting defined
by the path.
Return result parameters
Three operations can be performed on
xConfiguration:
*h xConfiguration H323 Profile 1 Gatekeeper Discovery: <Manual/Auto>
OK
• xConfiguration H323 Profile 1
Gatekeeper help
As above.
Configuration Help
•
Help text for this configuration is returned
Configuration Read
xConfiguration Read
Example with xConfiguration Read:
•
*c is used when returning the result of a read
To read configurations from the system just type the root command (xConfiguration) followed by the path
(address expression):
query
When reading a value you will use the configuration
read. The level of details is defined by the path:
Configuration Write
xConfiguration <address expression>
• xConfiguration H323 Profile 1
Gatekeeper Discovery
•
No return result parameter for configuration set
(write)
Returns the current value of the setting defined
by the path.
xConfiguration H323 Profile 1 Gatekeeper Discovery
*c xConfiguration H323 Profile 1 Gatekeeper Discovery: Manual
OK
xConfiguration Write
When defining a system setting you will use the
configuration write. The structure is described by
the example to the right.
Example with xConfiguration Write:
To issue a command type a root command (xConfiguration) followed by a valid path (address expression).
The path must be terminated with a colon before the value is added:
• xConfiguration H323 Profile 1
Gatekeeper Discovery: Auto
Writes this value to the setting defined by the
path.
xConfiguration <address expression>: <value>
xConfiguration H323 Profile 1 Gatekeeper Discovery: Auto
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About xCommand
xCommand ?
xCommand type commands instructs the system to perform an
action. xCommand type commands are supplied by the user.
– User Commands –
Audio
Boot
FarEndControl
HTTPFeedback
Key
Standby
To get an overview of the supported xCommand type commands,
type ? or help after the xCommand:
Video
Call
CamCtrlPip
SystemUnit
Phonebook
Experimental
• xCommand ?
CallLog
Camera
Dial
Presentation
Preset
• xCommand help
TStringSend
SStringSend
To get an overview of all supported xCommand commands with the
corresponding value space, enter ?? after the xCommand:
DTMF
• xCommand ??
OK
When you type a command and ? or help a list of the available
parameters will show. Required parameters are identified by an (r)
behind the parameter name.
xCommand ??
Example:
*h xCommand Audio Microphones Mute
*h xCommand Audio Microphones Unmute
*h xCommand Audio LocalInput Update
InputId(r): <0..65534>
xCommand Camera Ramp
- the result may look like this:
A return result parameter
The command type
MixerMode: <Auto/Fixed>
AGC: <On/Off>
Mute: <On/Off>
The path
Channels: <1..2>
*h xCommand Camera Ramp
CameraId(r): <1..7>
*h xCommand Audio RemoteInput Update
InputId(r): <0..65534>
Pan: <Left/Right/Stop>
AGC(r): <On/Off>
Required (r) parameter
PanSpeed: <1..15>
*h xCommand Audio Sound Play
Tilt: <Down/Stop/Up>
TiltSpeed: <1..15>
Sound(r): <Busy/CallWaiting/KeyTone/Ringing/SpecialInfo/TelephoneCall/VideoCall>
Loop: <On/Off>
Zoom: <In/Out/Stop>
ZoomSpeed: <1..15>
Focus: <Far/Near/Stop>
*h xCommand Audio Sound Stop
*h xCommand Boot
.
.
A list of returned parameters
.
OK
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xCommand Help
To get help on a setting you can use a help query.
Enter the path followed by ?or help.
xCommand operations
Example with xCommand Help
To get help on xCommand, type ? or help after the command path (address expression):
xCommand <address expression> ?
Command type commands are used to instruct the
system to perform a given action.
• xCommand dial ?
Returns a set of return values. See the example
to the right.
xCommand dial ?
*h xCommand dial:
Number(r): <S: 0, 255>
Protocol: <H323/SIP>
CallRate: <64..6000>
OK
Return result parameters
The following operations can be performed on
xCommand:
• xCommand dial help
As above.
Command Help
•
*h is used when returning the result of a help
xCommand Write
When issuing a command, the system will return a
set of return values. The structure is described by
the example to the right.
query
Command Write
•
*r is used when returning the result of a write
Example with xCommand Write
command
• xCommand Dial Number: 12345
Issues the command and gives a response. See
the example to the right.
Dial a number with only the required parameter:
xCommand dial number: 558458
The response will by default be on the same format
as the standard XACLI Status format. The XML
status format is also supported.
*r Result (status=OK):
CallRef: 1
LogTag: 6
*r/end
You can read more about XML in the xPreferences
section.
OK
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About xStatus commands
xStatus ?
Status type commands returns information about the system and
system processes. Status type commands are read by the user.
– Status –
All status information is structured in a hierarchy, making up a
database constantly being updated by the system to reflect system
and process changes.
Audio
HTTPFeedback
MediaChannels
Network
Call
Camera
Conference
Diagnostics
Call
SIP
To get an overview of the supported xStatus type commands, type ?
or help after the xStatus:
SystemUnit
Standby
• xStatus ?
• xStatus help
H323
Video
OK
Return result parameters
The following operation can be performed on xStatus commands:
xStatus Read
•
*s is used when returning the result of xStatus read query
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Query status information
Address status information with xStatus
Status type commands returns information about the system and
system processes. You can query all information or just some of it.
To read status from the system just type the root command (xStatus) followed by the path (address expression):
xStatus <address expression>
To address status information enter the xStatus command followed by
an address expression (XPath or TANDBERG SimplePath).
Example 1: Query all ongoing Call information:
xstatus call
You can set up the xStatus read command to address all information
or just some of it, see the examples to the right for illustrations.
*s Call 8 Status: Connected
*s Call 8 Direction: Outgoing
*s Call 8 Protocol: “h323”
*s Call 8 RemoteNumber: “558458”
*s Call 8 DisplayName: “jon.nordal.offi[email protected]”
*s Call 8 CallRate: 768
*s Call 8 Encryption Type: “Aes-128”
OK
Example 2: Query the protocol for a call:
xstatus call protocol
*s Call 8 Protocol: “h323”
OK
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About xHistory command
xHistory ?
History type commands returns information about what has happened
on the system. History type commands are read by the user.
– History –
CallLogs
All history information is structured in a hierarchy, making up a
database constantly being updated by the system to reflect system
and process changes.
OK
To get an overview of the supported xHistory type commands, type ?
or help after the xHistory:
• xHistory ?
• xHistory help
Status operations and the return result parameters
xHistory Log
•
*h is used when returning the result of xHistory log query
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About xFeedback
xFeedback ?
The xFeedback command is used to specify what parts of the
configuration and status hierarchies to monitor.
Usage: xfeedback register <XPathExpression>
The xFeedback command will only be issued on the RS-232/Telnet/
SSH for which it is specified.
or:
or:
xfeedback deregister <XPathExpression>
xfeedback list
If connecting to the TANDBERG codec with multiple RS-232/Telnet/
SSH sessions, each session can define feedback individually.
–
<examples:
“xfeedback register status/call“ – to monitor all changes
“xfeedback register status/call––“ – to monitor only call state changes
“xfeedback register configuration“ – to monitor all configuration changes
“xfeedback register event” - to monitor all events >
OK
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About xPreferences
xPreferences ?
The xPreferences command is used to set various preferences for the
RS-232/Telnet/SSH sessions.
xpreferences usage:
Each session can define preferences individually.
xpreferences outputmode <terminal/xml>
OK
IMPORTANT! This command has various settings to define the
formatting of the XACLI output. It is therefore important to define
settings to match the parser used on the control system. XACLI is
designed to make parsing of data from the TANDBERG Codec C90
very simple.
xPreferences output mode:
•
Terminal: Line based XACLI output for use with line based control
systems
•
XML: Pure XML output for use with control systems that
understand XML. NOTE! This mode is to be considered
experimental in version 1 of the software. Its format WILL
change in next version.
To get an overview of the supported xPreferences commands and
their value space, type ? or help after the xPreferences:
• xPreferences ?
• xPreferences help
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TANDBERG XML API service
getxml
TXAS is a service provided by TANDBERG units for transmitting and
receiving (transceiving) information encoded in XML format.
/getxml request returns an XML document based on the location parameter passed to the request. The elements (or complete document)
matching the expression will be returned.
The API uses HTTP(S) as the transport mechanism and connects to
the normal web port (80). TXAS can be accessed by bare-bone HTTP
requests where URL’s uniquely identifies the request.
On Incorrect XPath expression, a <Fault> element with a <XPathError> element will be returned.
getxml
REQUEST:
/getxml
Bare-bone HTTP/HTTPS Access
PARAM:
location = XPath expression
The bare-bone HTTP mode uses a unique URL to identify the specific
request. The contents of the HTTP body will be a XML document (or
part of it).
Bare-bone HTTP(S) access is accomplished by passing arguments
in the query string (after ‘?’ in URL) in a GET request, or using the
“application/x-www-form-urlencoded” content-type method of
POSTing form data (Each argument starts with a name ‘=’ and a
value, and every parameter separated with ‘&’ (and opt NL).)
formputxml
This is most useful in a POST (to extend character limit of 255 of GET urls). It posts a Configuration or Command document to set the
configurations or issue a command.
Like getxml, it has the data URL form-data encoded with one single parameter. The Content-Type of the document must be of type
“application/x-www-form-urlencoded” and the body must be encoded accordingly (e.g. first line will be xmldoc=<then the document>).
formputxml
REQUEST:
/formputxml
PARAM:
xmldoc
= “an XML document of Configuration, Directory or Command”
putxml
Putxml is like formputxml+, put uses the complete BODY as argument (i.e. the content of the xmldoc parameter). The Content-type should be
“text/xml” or “application/xml” ( or “text/plain”), though no check at the moment. (Except for application/x-www-form-url encoded which will
cause a failure).
putxml
REQUEST:
/putxml
PARAM:
HTTP BODY as argument
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xConfiguration
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Chapter 5
xConfiguration type commands
This chapter gives a detailed description of
the xConfiguration commands.
In this chapter...
Audio
Configuration type commands defines
system settings and are either supplied or
read by the user. The Configurations type
commands are structured in a hierarchy,
making up a database of system settings.
Cameras
Conference
Do Not Disturb
H323 Profile
Network
NOTE: The description of the xConfiguration
commands are preliminary, and subject to
change.
Network Services
Phone Book Server
Provisioning
Serial Port
SIP Profile
Standby
System Unit
Time Zone
Video
Experimental
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xConfiguration Audio Input Microphone [1..8] Level: <0..18>
Defines the input level of each microphone in steps of 1dB from 0dB to 18 dB. Addresses the specific
microphone.
Description of the xConfiguration commands
In the following pages you will find a complete list of the xConfiguration commands. The examples shows
either the default value or an example of a value.
Please see the Audio Level tabels in the Codec C90 System Integrators Guide for a complete overview of
the menu values represented in dB.
We recommend you visit the TANDBERG web site regularly for updated versions of the manual.
Range: 0 to 18 dB
Example: xConfiguration Audio Input Microphone 1 Level: 14
NOTE: The description of the xConfiguration commands are preliminary, and subject to change.
xConfiguration Audio Input Microphone [1..8] EchoControl Mode: <On/Off>
The echo canceller continuously adjusts itself to the audio characteristics of the room and compensate for
any changes it detects in the audio environment. If the changes in the audio conditions are very significant
the echo canceller may take a second or two to re-adjust. Addresses the specific microphone.
The Audio settings
On: Echo Control is normally set to On to prevent the far end from hearing their own audio. Once selected,
echo cancellation is active at all times.
xConfiguration Audio Volume: <0..100>
Sets the volume level [0-100] on the loudspeaker output in steps of 0.5dB from -34.5dB to 15dB. Volume 0
= Off.
Off: Echo Control should be switched Off if external echo cancellation or playback equipment is used.
Example: xConfiguration Audio Input Microphone 1 EchoControl Mode: On
The volume level bar which is displayed on screen, when using the remote control, goes from 0 to 20.
Range: The volume level goes from 0 to 100
xConfiguration Audio Input Microphone [1..8] EchoControl NoiseReduction: <On/Off>
The system has a built-in noise reduction which reduces constant background noise (e.g. noise from air-
conditioning systems, cooling fans etc.). In addition, a high pass filter (Humfilter) reduces very low frequency
noise. Requires the Echo Control Mode to be enabled for the specified microphone. Addresses the specific
microphone.
Volum level equals Audio gain value
0 equals 0
1 equals -34.5 dB
70 equals 0.0 dB
On: The Noice Reduction should be set to On in the presence of low frequency noise.
Off: Turns Noise Reduction Off for the specified microphone input.
100 equals 15.0 dB
Example: xConfiguration Audio Volume: 70
Example: xConfiguration Audio Input Microphone 1 EchoControl NoiseReduction: On
xConfiguration Audio Input Microphone [1..8] Type: <Microphone/Line>
xConfiguration Audio Input HDMI [3, 4] Mode: <On/Off>
The microphone inputs are intended for electret type microphones. The microphone inputs are balanced
with 48 V phantom power. The microphone input can be set to line or microphone mode. Addresses the
specific microphone.
Determines whether or not the audio channel on the HDMI input should be active. The HDMI 3 and HDMI 4
has audio channels. Addresses the specific Audio HDMI input.
On: Set to On to enable the audio channel on the HDMI input 3 or 4.
Off: Set to On to disable the audio channel on the HDMI input.
Microphone: Phantom voltage and pre-amplification is On
Line: Select Line when you have a standard balanced line input. The phantom voltage and pre-amplification
is Off.
Example: xConfiguration Audio Input HDMI 3 Mode: On
Example: xConfiguration Audio Input Microphone 1 Type: Line
xConfiguration Audio Input Line [1..4] Mode: <On/Off>
Determines whether or not an Audio Line input is active. Addresses the specific Audio Line input.
On: Set to On to enable the Audio Line input.
xConfiguration Audio Input Microphone [1..8] Mode: <On/Off>
By default, all inputs are enabled. Just plug in an audio source and it is active. Audio inputs that are On
will automatically be mixed. Unconnected inputs will automatically be muted. Addresses the specific
microphone.
Off: Set to Off to disable the Audio Line input.
Example: xConfiguration Audio Input Line 1 Mode: On
On: Turns the microphone On.
Off: Connected but unused inputs should be set to Off to prevent audio/noise from the inputs.
Example: xConfiguration Audio Input Microphone 1 Mode: On
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xConfiguration Audio Input Line [1..4] Level: <0..18>
xConfiguration Audio Output Line [2, 4..6] Type: <Analog>
Defines the input level of each Line input in steps of 1dB from 0dB to 18 dB. Addresses the specific Audio
Line input.
Line output 2, 4, 5, 6 are dedicated analog outputs, hence type can be set to analog only.
Example: xConfiguration Audio Output line 2 type: analog
Please see the Audio Level tabels in the Codec C90 System Integrators Guide for a complete overview of
the menu values represented in dB.
xConfiguration Audio Output Line [1..6] Level: <-18..0>
Range: 0 to 18 dB
Defines the output level of the specified Audio Output Line in steps of 1dB from -18dB to 0dB. Addresses
the specific Audio Line output connector.
Example: xConfiguration Audio Input Line 1 Level: 10
Please see the Audio Level tabels in the Codec C90 System Integrators Guide for a complete overview of
the menu values represented in dB.
xConfiguration Audio Input Line [1..4] Channel: <Left/Right/Mono>
Defines whether the Audio Line input is a mono signal or part of a multichannel signal.
Left: The Audio Line input signal is the left channel of a stereo signal.
Right: The Audio Line input signal is the right channel of a stereo signal.
Mono: The Audio Line input signal is a mono signal.
Range: -18 to 0 dB
Example: xConfiguration Audio Output Line 1 Level: -10
xConfiguration Audio Output Line [1..6] Channel: <Left/Right/Mono>
Defines whether the Audio Line output is a mono signal or part of a multichannel signal.
Left: The Audio Line output signal is the left channel of a stereo signal.
Right: The Audio Line output signal is the right channel of a stereo signal.
Mono: The Audio Line output signal is a mono signal.
Example: xConfiguration Audio Input 3 Channel: Left
xConfiguration Audio Input Line [3..4] LoopSuppression: <On/Off>
Loop suppression detects whether a delayed signal loop is present from an audio Line output to an audio
Line input on the codec. If a loop is detected this unwanted feedback is suppressed. This function may be
useful if a DVD player is connected to both an input and an output of the codec. If the DVD player is in stop
or record mode it will loop the output signal from the codec directly back to the codec’s input.
Example: xConfiguration Audio Output Line 1 Channel: left
On: Set to On to activate Loop Suppression. When Loop Suppression is activated the codec will detect
delayed signal loops from line output 3 to line input 3 and from line output 4 to line input 4. (Only line input 3
and 4, and line output 3 and 4 are intended connected to a DVD player in the current setup.)
xConfiguration Audio Output HDMI [1, 3] Mode: <On/Off>
Determines whether or not the audio channel on the HDMI output should be active. Addresses the specific
Audio HDMI output.
Off: Set to Off to deactivate Loop Suppression. Note! Line input 1 and 2 do not support Loop Suppression,
hence Loop Suppression can be set to Off only for these outputs.
On: Set to On to enable the audio channel on the HDMI 1 or HDMI 3 output.
Off: Set to On to disable the audio channel on the HDMI 1 or HDMI 3 output.
Example: xConfiguration Audio Input Line 3 LoopSuppression: On
Example: xConfiguration Audio Output HDMI 1 mode: On
xConfiguration Audio Output Line [1..6] Mode: <On/Off>
Determines whether or not an Audio Line output is active. Addresses the specific Audio Line output.
On: Set to On to enable the Audio Line output.
xConfiguration Audio SoundsAndAlerts KeyTones Mode: <On/Off>
Determines whether or not the system should produce a sound every time a key on the remote control is
pressed.
Off: Set to Off to disable the Audio Line output.
On: There will be a sound indicator when pressing keys on the remote control.
Off: The remote control Key Tones is switched off.
Example: xConfiguration Audio Output Line 1 Mode: On
Example: xConfiguration Audio SoundsAndAlerts KeyTones Mode: Off
xConfiguration Audio Output Line [1, 3] Type: <Auto/SPDIF>
Determines if the Audio Line output is an analog or digital type output. Addresses the specified Audio Line
output (1 or 3).
Auto: The system will select analog or digital (SPDIF) mode depending on the detected Audio Module. If
a TANDBERG Digital NAM is detected then SPDIF mode will be selected, otherwise analog mode will be
selected.
SPDIF: Set to SPDIF when you want the Audio Line 1 or 3 output to be in digital mode. This will disable
Output Line 2 and 4.
Example: xConfiguration Audio Output Line 1 Type: Auto
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xConfiguration Audio SoundsAndAlerts RingVolume: <0..100>
xConfiguration Cameras Camera [1..7] Flip: <On/Off>
Defines the volume of the ring tone for an incoming call.
Applies to cameras which supports Flip mode. Enables the video on screen to be flipped upside down.
Addresses the specific camera. TANDBERG PrecisionHD 1080p camera auto detects if the camera is
mounted upside down, hence flip mode is not necessary.
The ring tone volume level bar which is displayed on screen, when using the remote control, goes from 0 to
20.
On: When set to On the video on screen is flipped. This setting is used with cameras that can be mounted
upside down, but cannot auto detect that the camera is mounted upside down.
Range: The ring tone volume goes from 0 to 100
Off: Set to Off to display the video on screen the normal way.
Volum level equals Audio gain value
0 equals 0
Example: xConfiguration Cameras Camera 1 Flip: Off
1 equals -34.5 dB
xConfiguration Cameras Camera [1..7] IrSensor: <On/Off>
70 equals 0.0 dB
The Camera IR setting determines whether the infrared receiver at the camera should be enabled or not.
The IR sensor LED is located in the front of the camera and flickers when the IR sensor is activated from the
remote control. Addresses the specific camera.
100 equals 15.0 dB
Example: xConfiguration Audio SoundsAndAlerts RingVolume: 50
On: Set to On to enable the IR sensor on the camera.
Off: Set to Off to disable the IR sensor on the camera.
xConfiguration Audio SoundsAndAlerts RingTone: <Marbles/IceCrystals/Polaris/Alert/
Discrete/Fantasy/Jazz/Nordic/Echo/Rhythmic>
Example: xConfiguration Cameras Camera 1 IrSensor: On
Defines the ringtone for incoming calls.
Range: Select a tone from the list of ringtones.
xConfiguration Cameras Camera [1..7] Brightness Mode: <Auto/Manual>
Define whether to control the camera brightness manually or to have it automatically adjusted by the system.
Addresses the specific camera.
Example: xConfiguration Audio SoundsAndAlerts RingTone: Jazz
Auto: When set to Auto, the camera brightness is automatically set by the system.
Manual: Set to Manual to enable manual control of the camera brightness, e.g. the level of the brightness
level setting will be used for the camera.
The Camera settings
Example: xConfiguration Cameras Camera 1 Brightness Mode: auto
xConfiguration Cameras Camera [1..7] Backlight: <On/Off>
Backlight is used to compensate for lights shining directly at the camera (usually the sun entering the
window) to avoid a too dark image from the room. Addresses the specific camera.
xConfiguration Cameras Camera [1..7] Brightness Level: <1..31>
Define the Brightness Level for the camera. Requires the Brightness Mode to be set to manual. Addresses
the specific camera.
On: Set to On to turn on the backlight compensation.
Off: Set to Off to turn the backlight compensation off.
Range: 1-31
Example: xConfiguration Cameras Camera 1 Brightness Level: 1
Example: xConfiguration Cameras Camera 1 Backlight: Off
xConfiguration Cameras Camera [1..7] Whitebalance Mode: <Auto/Manual>
Define whether to control the camera whitebalance manually or to have it automatically adjusted by the
system. Addresses the specific camera.
xConfiguration Cameras Camera [1..7] Mirror: <On/Off>
The Mirror mode makes it possible to reverse the the video on screen. Normally you will see yourself in the
same view as other people sees you. With mirror enabled the experience will be like looking at yourself in a
mirror. Addresses the specific camera.
Auto: When set to Auto, the camera will continuously adjust the whitebalance depending on the camera
view.
On: Set to On to see the selfview in mirror mode, e.g. the selfview is reversed and the experience of selfview
is as seeing yourself in a mirror.
Manual: Set to Manual to enable manual control of the camera whitebalance, e.g. the level of the
whitebalance level setting will be used for the camera.
Off: Set to Off to see the selfview in normal mode, e.g. the experience of selfview is as seeing yourself as
other people see you.
Example: xConfiguration Cameras Camera 1 Whitebalance Mode: auto
Example: xConfiguration Cameras Camera 1 Mirror: Off
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xConfiguration Cameras Camera [1..7] Whitebalance Level: <1..16>
The Conference settings
Specify which camera to control. Define the Whitebalance Level for the camera. Requires the Whitebalance
Mode to be set to manual. Addresses the specific camera.
xConfiguration Conference [1..1] AutoAnswer Mode: <On/Off>
The Autoanswer setting determines whether an incoming call is put through automatically or manually.
Range: 1-16
Example: xConfiguration Cameras Camera 1 Whitebalance Level: 1
On: The system will automatically answer all incoming calls.
Off: All incoming call must be answered manually by pressing the OK key or the green Call key on the
remote control.
xConfiguration Cameras Camera [1..7] Focus Mode: <Auto/Manual>
Determines whether the camera should be in auto focus or manual focus mode. Addresses the specific
camera.
Example: xConfiguration Conference 1 AutoAnswer Mode: Off
Auto: When set to Auto the focus will be updated throughout the call. When moving the camera, the system
will use auto focus for a few seconds to set the right focus of the new camera position. After a few seconds
auto focus is turned off to prevent continuous focus adjustments of the camera.
xConfiguration Conference [1..1] AutoAnswer Delay: <0..50>
Defines how long (in seconds) an incoming call has to wait before it is answered automatically by the
system. Requires the Autoanswer Mode to be enabled.
Manual: If set to Manual the focus is adjusted manually.
Range: 0-50 seconds
Example: xConfiguration Cameras Camera 1 Focus Mode: auto
Example: xConfiguration Conference 1 AutoAnswer Delay: 0
xConfiguration Cameras Camera [1..7] Gamma Mode: <Auto/Manual>
xConfiguration Conference [1..1] IncomingMultisiteCall Mode: <Allow/Deny>
The Incoming Multisite Call setting determines whether or not the system should accept incoming calls to an
already active conference.
Applies to cameras which supports Gamma mode. The Gamma Mode setting enables for gamma
corrections. Gamma describes the nonlinear relationship between image pixels and monitor brightness.
Addresses the specific camera. The TANDBERG PrecisionHD 1080p camera do not need Gamma Mode.
The TANDBERG PrecisionHD camera do support Gamma Mode.
Allow: When set to Allow, and with an ongoing MCU call/conference, the user can accept another incoming
call. This will result in the incoming call being added to the MCU conference.
Auto: Auto is the default and the recommended setting.
Manual: In severe light conditions, you may switch mode to manual and specify explicitly which gamma
table to use by setting the Gamma Level.
Deny: The system will not accept incoming calls when you are in a call. The calling side will receive a busy
signal.
Example: xConfiguration Cameras Camera 1 Gamma Mode: auto
Example: xConfiguration Conference 1 IncomingMultisiteCall Mode: Allow
xConfiguration Cameras Camera [1..7] Gamma Level: <0..7>
xConfiguration Conference [1..1] FarEndControl Mode: <On/Off>
By setting the Gamma Level you can select which gamma correction table to use. This setting may be useful
in difficult lighting conditions, where changes to the the brightness setting does not provide satisfactory
results. Requires the Gamma Mode to be set to Manual. Addresses the specific camera.
Lets you control if the remote side (far end) should be allowed to select your video sources and control your
local camera (pan, tilt, zoom).
On: Set to On when you want the the far end to be able to select your video sources and control your
local camera (pan, tilt, zoom). You will still be able to control your camera and select your video sources as
normal.
Range: 0-7
Example: xConfiguration Cameras Camera 1 Gamma Level: 0
Off: When set to Off the far end can not access any of the features above on your system.
Example: xConfiguration Conference 1 FarEndControl Mode: On
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xConfiguration Conference [1..1] Encryption Mode: <Off/BestEffort>
BestEffort: The system will use encryption whenever possible.
The H323 Profile settings
In Point to point calls: If the far end system supports encryption (AES-128), the call will be encrypted. If not,
the call will proceed without encryption.
xConfiguration H323 Profile [1..1] PortAllocation: <Dynamic/Static>
The H.323 Port Allocation setting affects the H.245 port numbers used for H.323 call signalling.
In MultiSite calls: In order to have encrypted MultiSite conferences, all sites must support encryption. If not,
the conference will be unencrypted.
Dynamic: The system will allocate which ports to use when opening a TCP connection. The reason for doing
this is to avoid using the same ports for subsequent calls, as some firewalls consider this as a sign of attack.
When Dynamic is selected, the H.323 ports used are from 11000 to 20999. Once 20999 is reached they
restart again at 11000. For RTP and RTCP media data, the system is using UDP ports in the range 2326 to
2487. Each media channel is using two adjacent ports, ie 2330 and 2331 for RTP and RTCP respectively.
The ports are automatically selected by the system within the given range. Firewall administrators should not
try to deduce which ports are used when, as the allocation schema within the mentioned range may change
without any further notice.
Icons on screen: A padlock with the text “Encryption On” displays on screen, for a few seconds, when the
conference starts.
Off: The system will not use encryption.
Example: xConfiguration Conference 1 Encryption Mode: BestEffort
xConfiguration Conference [1..1] DefaultCall Protocol: <H323/SIP>
Static: When set to Static the ports are given within a static predefined range [5555–6555].
Specify the Default Call Protocol to be used when placing calls from the system. The call protocol can also
be defined directly for each call when setting up a call.
Example: xConfiguration H323 Profile 1 PortAllocation: Dynamic
H.323: Select H.323 to ensure that calls are set up as a H.323 calls.
SIP: Select SIP to ensure that calls are set up as a SIP calls.
xConfiguration H323 Profile [1..1] H323Alias ID: <S: 0, 49>
Lets you specify the H.323 Alias ID which is used to address the system on a H.323 Gatekeeper and will be
displayed in the call lists. Example: “[email protected]”, “My H.323 Alias ID”
Example: xConfiguration Conference 1 DefaultCall Protocol: H323
Format: String with a maximum of 49 characters
xConfiguration Conference [1..1] DefaultCall Rate: <64..6000>
Example: xConfiguration H323 Profile 1 H323Alias ID: “”
Specify the Default Call Rate to be used when placing calls from the system. The call rate can also be
defined directly for each call when setting up a call.
xConfiguration H323 Profile [1..1] H323Alias E164: <S: 0, 30>
Range: 64-6000 kbps
The H.323 Alias E.164 defines the address of the system, according to the numbering plan implemented
in the H.323 Gatekeeper. The E.164 alias is equivalent to a telephone number, sometimes combined with
access codes. Example: “9047615901”, “”550092”
Example: xConfiguration Conference 1 DefaultCall Rate: 766
Format: Compact string with a maximum of 30 characters. Valid characters are 0–9, * and #.
Example: xConfiguration H323 Profile 1 H323Alias E164: “”
The Do not disturb setting
xConfiguration H323 Profile [1..1] CallSetup Mode: <Direct/Gatekeeper>
The H.323 Call Setup Mode defines whether to use a Gatekeeper or Direct calling when establishing H323
calls.
xConfiguration DoNotDisturb Mode: <On/Off>
The Do Not Disturb setting determines whether or not there should be an alert on incoming calls.
Direct: An IP-address must be used when dialling in order to make the H323 call.
On: Set to On when you want no alert to incoming calls. The calling side will receive a busy signal when
trying to call the codec.
Gatekeeper: The system will use a Gatekeeper to make a H.323 call. When selecting this option the H323
Profile Gatekeeper Address and H323 Profile Gatekeeper Discovery settings must also be configured.
Off: This is the default setting. The DoNotDisturb is automatically turned Off if the codec receives any IR
signal from the handheld remote control.
NOTE! Direct H.323 calls can be made even though the H.323 Call Setup Mode is set to Gatekeeper.
Example: xConfiguration H323 Profile 1 CallSetup Mode: Gatekeeper
Example: xConfiguration DoNotDisturb Mode: Off
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xConfiguration H323 Profile [1..1] Gatekeeper Address: <S: 0, 64>
The Network settings
Specifies the IP address of the Gatekeeper. Requires the H.323 Call Setup Mode to be set to Gatekeeper
and the Gatekeeper Discovery to be set to Manual.
xConfiguration Network [1..1] Assignment: <Static/DHCP>
Defines whether to use DHCP or Static IP assignment.
Format: String with a maximum of 64 characters.
Example: xConfiguration H323 Profile 1 Gatekeeper Address: “10.47.1.58”
Static: The IP Address, Subnet Mask and Default Gateway for the system must be specified in the
respective address fields.
xConfiguration H323 Profile [1..1] Gatekeeper Discovery: <Manual/Auto>
Determines how the system shall register to a H.323 Gatekeeper.
DHCP: The system adresses are automatically assigend by the DHCP server.
Changes to this setting requires a restart of the codec.
Manual: The system will use a specific Gatekeeper identified by the Gatekeeper’s IP-address.
Example: xConfiguration Network 1 Assignment: DHCP
Auto: The system will automatically try to register to any available Gatekeeper. If a Gatekeeper responds
to the request sent from the codec within 30 seconds this specific Gatekeeper will be used. This requires
that the Gatekeeper is in auto discovery mode as well. If no Gatekeeper responds, the system will not use a
Gatekeeper for making H.323 calls and hence an IP-address must be specified manually.
xConfiguration Network [1..1] IPv4 Address: <S: 0, 64>
Defines the Static IP address for the system. Only applicable if Static IP assignment is chosen.
Format: Compact string with a maximum of 64 characters.
Example: xConfiguration H323 Profile 1 Gatekeeper Discovery: Manual
Example: xConfiguration Network 1 IPv4 Address: “10.47.5.100”
xConfiguration H323 Profile [1..1] Authentication LoginName: <S: 0, 50>
The system sends the Authentication Login Name and the Authentication Password to a H.323 Gatekeeper
for authentication. The authentication is a one way authentication from the codec to the H.323 Gatekeeper,
i.e. the system is authenticated to the gatekeeper. If the H.323 Gatekeeper indicates that no authentication
is required, the system will still try to register. Requires the H.323 Gatekeeper Authentication Mode to be
enabled.
xConfiguration Network [1..1] IPv4 SubnetMask: <S: 0, 64>
Defines the IP subnet mask. Only applicable if Static IP assignment is chosen.
Format: Compact string with a maximum of 64 characters.
Example: xConfiguration Network 1 IPv4 SubnetMask: “255.255.255.0”
Format: String with a maximum of 50 characters.
Example: xConfiguration H323 Profile 1 Authentication Loginname: “”
xConfiguration Network [1..1] IPv4 Gateway: <S: 0, 64>
Defines the IP default gateway. Only applicable if Static IP assignment is chosen.
Format: Compact string with a maximum of 64 characters.
xConfiguration H323 Profile [1..1] Authentication Password: <S: 0, 50>
The system sends the Authentication Login Name and the Authentication Password to a H.323 Gatekeeper
for authentication. The authentication is a one way authentication from the codec to the H.323 Gatekeeper,
i.e. the system is authenticated to the gatekeeper. If the H.323 Gatekeeper indicates that no authentication
is required, the system will still try to register. Requires the H.323 Gatekeeper Authentication Mode to be
enabled.
Example: xConfiguration Network 1 IPv4 Gateway: “10.47.5.100”
xConfiguration Network [1..1] IPv4 QoS Mode: <Off/Diffserv>
Defines whether IP Diffserv QoS should be used. The QoS (Quality of Service) is a method which
handles the priority of audio, video and data in the network. The QoS settings must be supported by the
infrastructure. DiffServ (Differentiated Services) is a computer networking architecture that specifies a
simple, scalable and coarse-grained mechanism for classifying, managing network traffic and providing
QoS priorities on modern IP networks.
Format: String with a maximum of 50 characters.
Example: xConfiguration H323 Profile 1 Authentication Password:
xConfiguration H323 Profile [1..1] Authentication Mode: <On/Off>
Off: When set to Off no QoS method is used.
On: If the H.323 Gatekeeper Authentication Mode is set to On and a H.323 Gatekeeper indicates
that it requires authentication, the system will try to authenticate itself to the gatekeeper. Requires the
Authentication ID and Authentication Password to be defined on both the codec and the Gatekeeper.
Diffserv: Select Diffserv and then go to the Diffserv sub-menus (Audio, Data, Signalling and Video) to
configure these settings.
Example: xConfiguration Network 1 IPv4 QoS Mode: diffserv
Off: If the H.323 Gatekeeper Authentication Mode is set to Off the system will not try to authenticate itself to
a H.323 Gatekeeper, but will still try a normal registration.
Example: xConfiguration H323 Profile 1 Authentication Mode: Off
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xConfiguration Network [1..1] IPv4 QoS Diffserv Audio: <0..63>
xConfiguration Network [1..1] DNS Server [1..5] Address: <S: 0, 64>
The DiffServ Audio setting is used to define which priority Audio packets should have in an IP network.
Enter a priority, which ranges from 0 to 63 for the packets. The higher the number, the higher the priority.
These priorities might be overridden when packets are leaving the network controlled by the local network
administrator.
Defines the network addresses for DNS servers. Up to 5 addresses may be specified. If the network
addresses are unknown, please contact your administrator or Internet Service Provider.
Format: String with a maximum of 64 characters.
Example: xConfiguration Network 1 DNS Server [1..5] Address: “”
Audio: A recommended value is DiffServ Code Point (DSCP) is AF41, which equals the value 34. If in doubt,
contact your network administrator.
Range: 0-63
xConfiguration Network [1..1] DNS Domain Name: <S: 0, 64>
DNS Domain Name is the default domain name suffix which is added to unqualified names.
Example: xConfiguration Network 1 IPv4 QoS Diffserv Audio: 0
Example: If the DNS Domain Name is “company.com” and the name to lookup is “MyVideoSystem”, this will
result in the DNS lookup “MyVideoSystem.company.com”.
xConfiguration Network [1..1] IPv4 QoS Diffserv Data: <0..63>
Format: String with a maximum of 64 characters.
The DiffServ Data setting is used to define which priority Data packets should have in an IP network.
Enter a priority, which ranges from 0 to 63 for the packets. The higher the number, the higher the priority.
These priorities might be overridden when packets are leaving the network controlled by the local network
administrator.
Example: xConfiguration Network 1 DNS Domain Name: “company.com”
Data: A recommended value is DiffServ Code Point (DSCP) AF23, which equals the value 22. If in doubt,
contact your network administrator.
Range: 0-63
Example: xConfiguration Network 1 IPv4 QoS Diffserv Data: 0
The Network services settings
xConfiguration Network [1..1] IPv4 QoS Diffserv Signalling: <0..63>
xConfiguration NetworkServices Telnet Mode: <On/Off>
Telnet is a network protocol used on the Internet or local area network (LAN) connections.
On: The Telnet protocol is enabled.
The DiffServ Signalling setting is used to define which priority Signalling packets should have in an IP
network. Enter a priority, which ranges from 0 to 63 for the packets. The higher the number, the higher the
priority. These priorities might be overridden when packets are leaving the network controlled by the local
network administrator.
Off: The Telnet protocol is disabled. This is the default factory setting.
Signalling: A recommended value is DiffServ Code Point (DSCP) AF31 which equals the value 26. If in doubt,
contact your network administrator.
Example: xConfiguration NetworkServices Telnet Mode: Off
Range: 0-63
xConfiguration NetworkServices HTTP Mode: <On/Off>
HTTP is a web-interface for system management, call management such as call transfer, diagnostics and
software uploads.
Example: xConfiguration Network 1 IPv4 QoS Diffserv Signalling: 0
xConfiguration Network [1..1] IPv4 QoS Diffserv Video: <0..63>
On: The HTTP protocol is enabled.
Off: The HTTP protocol is disabled.
The DiffServ Video setting is used to define which priority Video packets should have in an IP network.
Enter a priority, which ranges from 0 to 63 for the packets. The higher the number, the higher the priority.
These priorities might be overridden when packets are leaving the network controlled by the local network
administrator.
Example: xConfiguration NetworkServices HTTP Mode: On
Video: A recommended value is DiffServ Code Point (DSCP) AF41, which equals the value 34. If in doubt,
contact your network administrator.
xConfiguration NetworkServices HTTPS Mode: <On/Off>
HTTPS is a Web protocol that encrypts and decrypts user page requests as well as the pages that are
returned by the Web server.
Range: 0-63
On: The HTTPS protocol is enabled.
Off: The HTTPS protocol is disabled.
Example: xConfiguration Network 1 IPv4 QoS Diffserv Video: 0
Example: xConfiguration NetworkServices HTTPS Mode: On
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xConfiguration NetworkServices SNMP Mode: <Off/ReadOnly/ReadWrite>
xConfiguration NetworkServices H323 Mode: <On/Off>
SNMP (Simple Network Management Protocol) is used in network management systems to monitor
network-attached devices (routers, servers, switches, projectors, etc) for conditions that warrant
administrative attention. SNMP exposes management data in the form of variables on the managed
systems, which describe the system configuration. These variables can then be queried (set to ReadOnly)
and sometimes set (set to ReadWrite) by managing applications.
Determines whether the system should be able to place and receive H.323 calls.
On: Set to On to enable the possibility to place and receive H.323 calls.This is the default setting.
Off: Set to Off to disable the possibility to place and receive H.323 calls.
NOTE! Changes in this setting requires the codec to be restarted.
Off: Set to Off when you want to disable the SNMP network service.
Example: xConfiguration NetworkServices H323 Mode: On
ReadOnly: Set to ReadOnly when you want to enable the SNMP network service for queries only.
ReadWrite: Set to ReadOnly when you want to enable the SNMP network service for both queries and
commands.
xConfiguration NetworkServices SIP Mode: <On/Off>
Determines whether the system should be able to place and receive SIP calls.
On: Set to On to enable the possibility to place and receive SIP calls.This is the default setting.
Off: Set to Off to disable the possibility to place and receive SIP calls.
NOTE! Changes in this setting requires the codec to be restarted.
Example: xConfiguration NetworkServices SNMP Mode: ReadWrite
xConfiguration NetworkServices SNMP CommunityName: <S: 0, 50>
Enter the name of the Network Services SNMP Community. SNMP Community names are used to
authenticate SNMP requests. SNMP requests must have a ‘password’ (case sensitive) in order to receive a
response from the SNMP Agent in the codec. The default password is “public”. If you have the TANDBERG
Management Suite (TMS) you must make sure the same SNMP Community is configured there too. Note!
The SNMP Community password is case sensitive.
Example: xConfiguration NetworkServices SIP Mode: On
xConfiguration NetworkServices NTP Mode: <Auto/Manual>
The Network Time Protocol (NTP) is used to synchronize the time of the system to a reference time server.
The time server will subsequently be queried every 24th hour for time updates. The time will be displayed
on the top of the screen. The system will use the time to timestamp messages transmitted to Gatekeepers
or Border Controllers requiring H.235 authentication. The system will use the time to timestamp messages
transmitted to Gatekeepers or Border Controllers that requires H.235 authentication. It is also used for
timestamping Placed Calls, Missed Calls and Received Calls.
Format: String with a maximum of 50 characters.
Example: xConfiguration NetworkServices SNMP CommunityName: “public”
xConfiguration NetworkServices SNMP SystemContact: <S: 0, 50>
Enter the name of the Network Services SNMP System Contact.
Format: String with a maximum of 50 characters.
Auto: The system will use the NTP server, by which address is supplied from the DHCP server in the
network. If no DHCP server is used, or the DHCP server does not provide the system with a NTP server
address, the system will use the static defined NTP server address specified by the user.
Example: xConfiguration NetworkServices SNMP SystemContact: “”
Manual: The system will always use the static defined NTP server address specified by the user.
Example: xConfiguration NetworkServices NTP Mode: Manual
xConfiguration NetworkServices SNMP SystemLocation: <S: 0, 50>
Enter the name of the Network Services SNMP System Location.
Format: String with a maximum of 50 characters.
xConfiguration NetworkServices NTP Address: <S: 0, 64>
Enter the NTP Address to define the network time protocol server address. This address will be used if NTP
Mode is set to Manual, or if set to Auto and no address is supplied by a DHCP server.
Example: xConfiguration NetworkServices SNMP SystemLocation: “”
Format: String with a maximum of 64 characters.
xConfiguration NetworkServices SNMP HostIpAddress [1..3]: <S: 0, 64>
Example: xConfiguration NetworkServices NTP Address: “1.tandberg.pool.ntp.org”
Enter the IP address of up to three SNMP Managers. All traps will then be sent to the hosts listed.
The system’s SNMP Agent (in the codec) responds to requests from SNMP Managers (a PC program etc.).
SNMP Traps are generated by the SNMP Agent to inform the SNMP Manager about important events. Can
be used to send event created messages to the SNMP agent about different events like: system reboot,
system dialing, system disconnecting, MCU call, packet loss etc. Traps can be sent to multiple SNMP Trap
Hosts.
Format: String with a maximum of 64 characters.
Example: xConfiguration NetworkServices SNMP HostIpAddress 1: “”
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xConfiguration Provisioning ExternalManager Protocol: <HTTP/HTTPS>
Determines whether or not to use secure management.
The Phone book settings
HTTP: Set to HTTP to disable secure management. Requires HTTP to be enabled in the Network Services
HTTP Mode setting.
xConfiguration Phonebook Server [1..5] ID: <S: 0, 64>
Enter a name for the external phonebook. Addresses the specific phonebook.
HTTPS: Set to HTTPS to enable secure management. Requires HTTPS to be enabled in the Network
Services HTTPS Mode setting.
Format: String with a maximum of 64 characters.
Example: xConfiguration Phonebook Server 1 ID: “”
Example: xConfiguration Provisioning ExternalManager Protocol: http
xConfiguration Phonebook Server [1..5] URL: <S: 0, 255>
xConfiguration Provisioning ExternalManager Path: <S: 0, 255>
Enter the address (URL) to the external phonebook server. Addresses the specific phonebook server.
If an External Manager address and a path is configured, the system will post an HTTP message to this
address when starting up. When receiving this HTTP posting the External Manager (typically a management
system) can return configurations/commands to the unit as a result. If the DHCP Option 242 is returned in
the DHCP response from the DHCP server the system will interpret this as the External Manager address to
use. Specifies the path to the External Manager/Management system.
Format: String with a maximum of 255 characters.
Example: xConfiguration Phonebook Server 1 URL: “http://tms.company.com/tms/
public/external/phonebook/phonebook.asmx”
Example: tms/public/external/management/SystemManagementService.asmx
Format: String with a maximum of 255 characters.
Example: xConfiguration Provisioning ExternalManager Path: “”
The Provisioning settings
xConfiguration Provisioning Mode: <Off/TMS>
The Serial port settings
Provides the possibility of managing the codec (endpoint) by using an external manager/management
system.
xConfiguration SerialPort BaudRate: <9600/19200/38400/115200>
Specify the baud rate (bps) on the COM port (data port). The default value is 38400.
Other default parameters for the COM port are: Parity: None Databits: 8 Stopbits: 1 Flow control: None.
Valid inputs for baud rate: 9600, 19200, 38400, 115200
Off: The system will not try to register to any management system.
TMS: If set to TMS the system will try to register with a TMS server as described in Provisioning
ExternalManager settings. TMS is short for TANDBERG Management System. Please contact your
TANDBERG representative for more information.
Example: xConfiguration Provisioning Mode: TMS
Example: xConfiguration SerialPort BaudRate: 38400
xConfiguration Provisioning ExternalManager Address: <S: 0, 64>
xConfiguration SerialPort LoginRequired: <On/Off>
If an External Manager address and a path is configured, the system will post an HTTP message to this
address when starting up. When receiving this HTTP posting the External Manager (typically a management
system) can return configurations/commands to the unit as a result. If the DHCP Option 242 is returned in the
DHCP response from the DHCP server the system will interpret this as the External Manager address to use.
The Serial Login setting determines whether or not there should be a login when connecting to the COM
port (data port).
On: Login is required when connecting to the COM port (data port).
Off: The user can access the COM port (data port) without any login.
Specifies the IP Address to the External Manager/Management system.
Format: String with a maximum of 64 characters.
Example: xConfiguration SerialPort LoginRequired: Off
Example: xConfiguration Provisioning ExternalManager Address: “”
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xConfiguration SIP Profile [1..1] Proxy [1..1] Discovery: <Auto/Manual>
Manual: When Manual is selected, the manually configured SIP Proxy address will be used
The SIP Profile settings
Auto: When Auto is selected, the SIP Proxy address is obtained using Dynamic Host Configuration Protocol
(DHCP).
xConfiguration SIP Profile [1..1] URI [1..1]: <S: 0, 255>
The SIP URI or number is used to address the system. This is the URI that is registered and used by the
SIP services to route inbound calls to the system. A Uniform Resource Identifier (URI) is a compact string of
characters used to identify or name a resource.
Example: xConfiguration SIP Profile 1 Proxy 1 Discovery: Manual
Example: “sip:[email protected]”, “1234”, “[email protected]”
Format: Compact string with a maximum of 255 characters.
xConfiguration SIP Profile [1..1] Proxy [1..1] Address: <S: 0, 255>
The Proxy Address is the manually configured address for the outbound proxy. It is possible to use a fully
qualified domain name, or an IP address. The default port is 5060 for TCP and UDP but another one can be
provided.
Format: Compact string with a maximum of 255 characters.
xConfiguration SIP Profile [1..1] DefaultTransport: <UDP/TCP/TLS/Auto>
Select the transport protocol to be used over the LAN.
Example: xConfiguration SIP Profile 1 Proxy 1 Address: “”
UDP: The system will always use UDP as the default transport method.
TCP: The system will always use TCP as the default transport method.
xConfiguration SIP Profile [1..1] Authentication [1..1] LoginName: <S: 0, 50>
This is the user name part of the credentials used to authenticate towards the SIP proxy.
Format: String with a maximum of 50 characters.
TLS: The system will always use TLS as the default transport method. For TLS connections a SIP CA-list
can be uploaded using the web interface. If no such CA-list is available on the system then anonymous Diffie
Hellman will be used.
Example: xConfiguration SIP Profile 1 Authentication 1 LoginName: “”
Auto: The system will try to connect using transport protocols in the following order: TLS, TCP, UDP.
Example: xConfiguration SIP Profile 1 DefaultTransport: Auto
xConfiguration SIP Profile [1..1] Authentication [1..1] Password: <S: 0, 50>
This is the password part of the credentials used to authenticate towards the SIP proxy.
Format: String with a maximum of 50 characters.
xConfiguration SIP Profile [1..1] TlsVerify: <On/Off>
For TLS connections a CA-list can be uploaded from the web interface.
Example: xConfiguration SIP Profile 1 Authentication 1 Password:
On: Set to On to verify TLS connections. Only TLS connections to servers, whom x.509 certificate is
validated against the CA-list, will be allowed.
Off: Set to Off to allow TLS connections without verifying them. The TLS connections are allowed to be
set up without verifying the x.509 certificate received from the server against the local CA-list. This should
typically be selected if no SIP CA-list has been uploaded.
The Standby settings
Example: xConfiguration SIP Profile 1 TlsVerify: Off
xConfiguration Standby Control: <On/Off>
The Standby Control setting determines whether the system should go into standby mode or not.
xConfiguration SIP Profile [1..1] Type: <Auto/Nortel/Microsoft/Cisco/Alcatel/
Experimental/Avaya/Siemens>
On: The system will go into standby mode when the Standby Delay has timed out. Requires the Standby
Delay to be set to an appropriate value.
Enables SIP extensions and special behaviour for a vendor or provider
Auto: Should be used when registering to standard SIP proxy like OpenSer.
Nortel: Must be used when registering to a Nortel MCS 5100 or MCS 5200 PBX.
Microsoft: Must be used when registering to a Microsoft LCS or OCS server.
Cisco: Must be used when registering to a Cisco CallManager version 5 or later.
Alcatel: Must be used when registering to a Alcatel-Lucent OmniPCX Enterprise R7 or later.
Siemens: Must be used when registering to a Siemens HiPath 8000.
Off: The system will not go into standby.
Example: xConfiguration Standby Control: On
xConfiguration Standby Delay: <1..480>
Defines how long (in seconds) the system will wait before it goes into standby mode. Requires the Standby
Control to be enabled.
Telio: Must be used in combination with a Telio subscription (www.telio.no).
Experimental: Can be used if auto is not working Note! This mode is for testing purposes only.
Range: 1-480 seconds
Example: xConfiguration Standby Delay: 10
Example: xConfiguration SIP Profile 1 Type: Auto
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The System unit settings
The Video settings
xConfiguration SystemUnit Name: <S: 0, 50>
xConfiguration Video Selfview: <On/Off>
Enter a System Name to define a name of the system unit. If the H.323 Alias ID is configured on the system
then this ID will be used instead of the system name. The system name will be displayed:
The Video Selfview setting determines whether or not the main video source (selfview) should be displayed
on screen.
* When the codec is acting as an SNMP Agent
* Towards a DHCP server
On: Set to On when you want selfview to be displayed on screen.
Off: Set to Off when you do not want selfview to be displayed on screen.
Format: String with a maximum of 50 characters.
Example: xConfiguration Video Selfview: On
Example: xConfiguration SystemUnit Name: “Meeting Room Name”
xConfiguration Video WallPaper: <Summersky/Growing/None>
xConfiguration SystemUnit IrSensor Mode: <On/Off/Auto>
The Video Wallpaper setting determines whether or not a background picture should be displayed on
screen.
The System Unit IR Sensor setting determines whether the infrared receiver on the codec should be enabled
or not. The IR sensor LED is located in the front of the codec and flickers when an ir signal is received from
the remote control.
Summersky, Growing: Select the wallpaper to be displayed on screen.
None: Set to None when you do not want a wallpaper to be displayed on screen.
On: Set to On to enable the IR sensor on the codec.
Off: Set to Off to disable the IR sensor on the codec.
Example: xConfiguration Video Selfview: None
Auto: The system will automatically disable the IR sensor on the codec if the IR sensor at camera is enabled.
Otherwise the IR sensor on the codec will be enabled.
xConfiguration Video MainVideoSource: <1..5>
Define which video input source shall be used as the main video source. The input source is configured to a
video input connector. See the Video Input Matrix table at the back of the codec and the description of the
Video Input Matrix in the Interfaces section.
Example: xConfiguration SystemUnit IrSensor Mode: On
Range: 1-5 video sources
Example: xConfiguration Video MainVideoSource: 1
The Time zone setting
xConfiguration Video DefaultPresentationSource: <1..5>
Define which video input source shall be used as the default presentation source (e.g. when you press the
Presentation key on the remote control). The input source is configured to a video input connector. See
the Video Input Matrix table at the back of the codec and the description of the Video Input Matrix in the
Interfaces section.
xConfiguration Time Zone: <S: 0, 100>
Specifies the NTP time zone where the system is located. See a list of the valid NTP Time Zone expressions
in the Appendices section.
Format: String with a maximum of 100 characters.
Range: 1-5 presentation sources
Example: xConfiguration Time Zone: “Etc./UTC”
Example: xConfiguration Video DefaultPresentationSource: 3
xConfiguration Video Monitors: <Single/Dual>
The codec can be used with more than one monitor and this setting lets you set the codec’s monitor layout
mode to Single or Dual. The dual output is provided on HDMI output 3.
Single: The same layout is shown on all monitors.
Dual: The layout is distributed on two monitors.
Example: xConfiguration Video Monitors: Single
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xConfiguration Video OSD Mode: <On/Off>
The Video OSD (On Screen Display) Mode lets you define whether or not information and icons on screen
should be displayed.
xConfiguration Video Input Source 2 Connector: <HDMI/HDSDI/YPbPr>
Select which video input connector to be active on connector group 2
HDMI: Select HDMI when you want to use the HDMI 2 connector as input
HDSDI: Select HD-SDI when you want to use the HD-SDI 2 connector as input
YPbPr: Select YPbPr when you want to use the Y-Pb-Pr (Component) 2 connectors as input
On: Set to On to display the on screen menus, icons and indicators (microphone on/off, encryption on/off).
Off: Set to Off to hide the on screen menus, icons and indicators (microphone on/off, encryption on/off).
Example: xConfiguration Video OSD Mode: On
Example: xConfiguration Video Input Source 2 Connector: HDMI
xConfiguration Video OSD Output: <1..4>
The Video OSD (On Screen Display) Output lets you define which monitor should display the on screen
menus, information and icons.
xConfiguration Video Input Source 3 Connector: <HDMI/HDSDI/DVI>
Select which video input connector to be active on connector group 3
HDMI: Select HDMI when you want to use the HDMI 3 connector as input
HDSDI: Select HD-SDI when you want to use the HD-SDI 3 connector as input
DVI: Select DVI-I when you want to use the DVI-I 3 connector as input
Range: Monitor 1-4
Example: xConfiguration Video OSD Output: 1
Example: xConfiguration Video Input Source 3 Connector: DVI
xConfiguration Video Input Source [1..5] CameraControl Mode: <On/Off>
Determines whether or not the camera control should be enabled for the specific video input source.
Addresses the specific video input source.
xConfiguration Video Input Source 4 Connector: <HDMI/HDSDI>
Select which video input connector to be active on connector group 4
HDMI: Select HDMI when you want to use the HDMI 4 connector as input
HDSDI: Select HD-SDI when you want to use the HD-SDI 4 connector as input
On: Set to On to enable camera control for the camera connected to the selected video input connector.
Off: Set to Off to disable camera control for the camera connected to the selected video input connector.
Example: xConfiguration Video Input Source 1 CameraControl Mode: On
Example: xConfiguration Video Input Source 4 Connector: HDMI
xConfiguration Video Input Source [1..5] CameraControl CameraId: <1..5>
Select the ID of the camera in the Visca chain that is connected to this camera source. The CameraId
setting represents the camera’s position in the Visca chain. Addresses the specific video input source.
xConfiguration Video Input Source 5 Connector: <YC/Composite/DVI>
Select which video input connector to be active on connector group 5
YC: Select YC when you want to use the S-Video (YC) input. Connect the S-Video input to the connector
marked as Y/Comp and C. NOTE! This configuration is not supported in version 1.
Cascaded cameras and Visca commands are described in the PrecisionHD 1080p User Guide. The user
guide is found at www.tandberg.com/docs
Composite: Select Comp when you want to use the Composite input. Connect the Composite input to the
connector marked as Y/Comp NOTE! This configuration is not supported in version 1.
Example: xConfiguration Video Input Source 1 CameraControl CameraId: 1
DVI: Select DVI-I when you want to use the DVI-I 5 connector as input.
xConfiguration Video Input Source [1..5] Name: <S: 0, 50>
Customizable name of the connector group. Enter the name of the video input source 1-5.
Format: String with a maximum of 50 characters.
Example: xConfiguration Video Input Source 5 Connector: DVI
xConfiguration Video Input Source [1..5] Quality: <Motion/Sharpness>
Example: xConfiguration Video Input Source 1 Name: “”
When encoding and transmitting video there will be a tradeoff between high resolution and high framerate.
For some video sources it is more important to transmit high framerate than high resolution and vice versa.
The Quality setting specifies whether to give priority to high frame rate or to high resolution for a given
source. Addresses the selected video input connector.
xConfiguration Video Input Source 1 Connector: <HDMI/HDSDI/YPbPr>
Select which video input connector to be active on connector group 1
Motion: Gives the highest possible framerate. Used when there is a need for higher frame rates, typically
when a large number of participants are present or when there is a lot of motion in the picture.
HDMI: Select HDMI when you want to use the HDMI 1 connector as input
HDSDI: Select HD-SDI when you want to use the HD-SDI 1 connector as input
YPbPr: Select YPbPr when you want to use the Y-Pb-Pr (Component) 1 connectors as input
Sharpness: Gives the highest possible resolution. Used when you want the highest quality of detailed
images and graphics.
Example: xConfiguration Video Input Source 1 Connector: HDMI
Example: xConfiguration Video Input Source 1 HDMI 1 Quality: Motion
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xConfiguration
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xConfiguration Video Output HDMI [1, 3] Resolution: <640_480_60/800_600_60/1024_7
68_60/1280_1024_60/1280_720_60/1920_1080_60/1280_768_60/1360_768_60/1366_768_60>
The Experimental menu
The Advanced configurations menu has an option called Experimental. The settings within this menu can be
used ‘as is’ and will not be documented.
Select the preferred resolution for the monitor connected to video output HDMI 1 or 3. This will force the
selected resolution on the monitor.
NOTE! The Experimenal menu WILL change.
Range: 640x480@60p, 800x600@60p, 1024x768@60p, 1280x1024@60p, 1280x720@60p,
1920x1080@60p, 1280x768@60p, 1360x768@60p, 1366x768@60p
We recommend you visit the TANDBERG web site regularly for updated versions of the manual.
Example: xConfiguration Video Output HDMI 1 Resolution: 1920_1080_60
xConfiguration Video Output DVI [2, 4] Resolution: <640_480_60/800_600_60/1024_768
_60/1280_1024_60/1280_720_60/1920_1080_60/1280_768_60/1360_768_60/1366_768_60>
Select the preferred resolution for the monitor connected to video output DVI-I 2 or 4. This will force the
selected resolution on the monitor.
Range: 640x480@60p, 800x600@60p, 1024x768@60p, 1280x1024@60p, 1280x720@60p,
1920x1080@60p, 1280x768@60p, 1360x768@60p, 1366x768@60p
Example: xConfiguration Video Output DVI 2 Resolution: 1920_1080_60
xConfiguration Video Output Composite [5] Resolution: <PAL/NTSC>
Select the preferred resolution for the monitor connected to video output composite 1. This will force the
selected resolution on the monitor.
Range: PAL, NTSC
Example: xConfiguration Video Output Composite 5 Resolution: NTSC
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xCommand
Contents
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xConfiguration
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Chapter 6
xCommand type commands
Command type commands are used to
instruct the system to perform a given
action. Examples: place a call, mute
microphones, disconnect a call and more.
In this chapter...
Audio commands
Boot command
Call commands
The command type is followed by a set of
parameters to specify how the given action
is to be executed.
CallLog commands
Camera commands
Dial command
NOTE: The description of the xCommand
commands are preliminary, and subject to
change.
DTMF command
FarEndControl commands
HTTPFeedback commands
Key commands
Presentation commands
Preset commands
TStringSend, SStringSend
Standby commands
Video commands
CamCtrlPip commands
SystemUnit commands
Phonebook commands
Experimental commands
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xCommand
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The Audio commands
xCommands with parameters
In the following pages you will find a complete list of all xCommand type commands with parameters.
We recommend you visit the TANDBERG web site regularly for updated versions of the manual.
xCommand Audio Microphones Mute
Mute all microphones.
Example:
xCommand Audio Microphones Mute
NOTE: The description of the xCommand commands are preliminary, and subject to change.
*r AudioMicrophonesMuteResult (status=OK):
*r/end
xCommand Audio Microphones Unmute
Unmute microphones.
Example:
xCommand Audio Microphones Unmute
*r AudioMicrophonesUnmuteResult (status=OK):
*r/end
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xCommand Audio LocalInput Update
xCommand Audio Sound Play
Update local input settings.
Play specified audio sound.
Required parameters with (r):
InputId(r): <0..65534>
MixerMode: <Auto/Fixed>
AGC: <On/Off>
Required parameters with (r):
Sound(r): <Busy/CallWaiting/KeyTone/Ringing/SpecialInfo/TelephoneCall/
VideoCall>
Loop: <On/Off>
Mute: <On/Off>
Example:
Channels: <1..2>
xCommand Audio Sound Play Sound:Ringing
*r AudioSoundPlayResult (status=OK):
*r/end
Example:
xCommand Audio LocalInput Update InputId:1 AGC:off
OK
xCommand Audio Sound Stop
Stop playing audio sound.
*r AudioInputGroupUpdateResult (status=OK):
*r/end
Example:
xCommand Audio Sound Stop
*r AudioSoundStopResult (status=OK):
*r/end
xCommand Audio RemoteInput Update
Update remote input settings.
Required parameters with (r):
InputId(r): <0..65534>
AGC(r): <On/Off>
Example:
xCommand Audio RemoteInput Update InputId:37 AGC:off
OK
*r AudioRemoteInputUpdateResult (status=OK):
*r/end
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xCommand
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xCommand Call DisconnectAll
Disconnect all calls.
The Boot command
xCommand Boot
Boot system.
Example:
xCommand Call DisconnectAll
Example:
xCommand Boot
*r BootResult (status=OK):
*r/end
OK
*r DisconnectAllResult (status=OK):
*r/end
OK
CUIL reboot request, restarting
Connection closed by foreign host.
xCommand Call Accept
Accept incoming call. If no call id is specified, all incoming calls will be accepted.
Required parameters with (r):
CallId: <0..65534>
Example:
xCommand Call Accept CallId:19
The Call commands
OK
*r CallAcceptResult (status=OK):
*r/end
xCommand Call Disconnect
Disconnect specified call.
Required parameters with (r):
CallId(r): <0..65534>
Example:
xCommand Call Disconnect CallId:17
OK
*r DisconnectCallResult (status=OK):
*r/end
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xCommand Call Reject
xCommand CallLog Outgoing Delete
Reject incoming call. If no call id is specified, all incoming calls will be rejected.
Delete log of outgoing calls.
Required parameters with (r):
Required parameters with (r):
LogTag: <0..2147483647>
CallId: <0..65534>
Example:
Example:
xCommand Call Reject CallId:20
xCommand CallLog Outgoing Delete LogTag:202
*r DeleteResult (status=OK):
*r/end
OK
*r CallRejectResult (status=OK):
*r/end
xCommand CallLog Received Delete
Delete log of received calls.
Required parameters with (r):
LogTag: <0..2147483647>
The Call Log commands
Example:
xCommand CallLog Clear
Clear all call logs.
xCommand CallLog Received Delete LogTag:126
*r DeleteResult (status=OK):
*r/end
Example:
xCommand CallLog Clear
*r ClearResult (status=OK):
*r/end
xCommand CallLog Missed Delete
Delete log of missed calls.
Required parameters with (r):
LogTag: <0..2147483647>
xCommand CallLog Recent Delete
Delete log of recent calls.
Example:
Required parameters with (r):
LogTag: <0..2147483647>
xCommand CallLog Missed Delete LogTag:119
*r DeleteResult (status=OK):
*r/end
Example:
xCommand CallLog Recent Delete
*r DeleteResult (status=OK):
*r/end
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xCommand Camera DirectIRControl
The Camera commands
Camera is controlled directly from remote control. Camera does not receive control signals from codec.
Required parameters with (r):
CameraId(r): <1..7>
xCommand Camera BestView
Activate the best view function.
Required parameters with (r):
CameraId(r): <1..7>
OnOff(r): <On/Off>
Example:
Duration: <0..65534>
xCommand Camera DirectIRControl CameraId:1 OnOff:on
Example:
xCommand Camera BestView CameraId:1 Duration:7
OK
*r DirectIRControlResult (status=OK):
*r/end
OK
*r BestViewResult (status=OK):
*r/end
xCommand Camera PanTiltReset
Camera pan/tilt values is positioned to predefined value.
Required parameters with (r):
xCommand Camera CameraUpgrade
Upgrade camera software.
CameraId(r): <1..7>
Required parameters with (r):
CameraId(r): <1..7>
Example:
xCommand Camera PanTiltReset CameraId:1
Filename(r): <S: 0, 128>
Example:
OK
To be described.
*r PanTiltResetResult (status=OK):
*r/end
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xCommand Camera PositionSet
xCommand Camera Ramp
Set camera position to specified values.
Move camera in specified direction. Camera will move at specified speed until stop command is issued.
Required parameters with (r):
CameraId(r): <1..7>
Pan: <-65535..65535>
Tilt: <-65535..65535>
Zoom: <0..65535>
Required parameters with (r):
CameraId(r): <1..7>
Pan: <Left/Right/Stop>
PanSpeed: <1..15>
Tilt: <Down/Stop/Up>
TiltSpeed: <1..15>
Focus: <0..65535>
Zoom: <In/Out/Stop>
ZoomSpeed: <1..15>
Focus: <Far/Near/Stop>
Example:
xCommand Camera PositionSet CameraId:1 Pan:200 Tilt:300
OK
Example:
*r CameraPositionSetResult (status=OK):
*r/end
xCommand Camera Ramp CameraId:1 Pan:left PanSpeed:1
OK
*r RampResult (status=OK):
*r/end
xCommand Camera Ramp CameraId:1 Pan:stop
OK
*r RampResult (status=OK):
*r/end
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xCommand Camera ReconfigureCameraChain
Reinitialize camera chain. Get info about what camera is sitting in what position in the camera chain.
The Dial command
xCommand Dial
Dial out from the system.
Example:
xCommand Camera ReconfigureCameraChain
*r ReconfigureCameraChainResult (status=OK):
*r/end
Required parameters with (r):
Number(r): <S: 0, 255>
Protocol: <H323/Sip>
CallRate: <64..6000>
OK
Example:
xCommand Dial Number:543210 Protocol:h323
xCommand Camera TriggerAutofocus
Trigger auto focus.
OK
Required parameters with (r):
*r DialResult (status=OK):
CallId: 2
CameraId(r): <1..7>
ConferenceId: 1
*r/end
Example:
xCommand Camera TriggerAutofocus CameraId:1
OK
*r TriggerAutofocusResult (status=OK):
*r/end
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The DTMF Send command
The TString Send command
xCommand DTMFSend
xCommand TStringSend
Send DTMF tones to the far end.
Used to send data to far end, e.g. for Telepresence control systems. Uses the H.245 control channel (TCP).
Only works with H.323 calls.
Required parameters with (r):
CallId(r): <0..65534>
Required parameters with (r):
CallId(r): <0..65534>
DTMFString(r): <S: 0, 32>
Message(r): <S: 1, 1450>
Example:
Example:
xCommand DTMFSend CallId:2 DTMFString:1234
*r DTMFSendResult (status=OK):
*r/end
xCommand TStringSend CallId:1 Message:”This is an example”
*r TStringSendResult (status=OK):
*r/end
OK
OK
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xCommand FarEndControl Preset Activate
Activate move of far end camera to preset position.
The Far End Control commands
Required parameters with (r):
CallId(r): <0..65534>
PresetId(r): <1..15>
xCommand FarEndControl Camera Move
Move far end camera.
Required parameters with (r):
CallId(r): <0..65534>
Example:
Value(r): <Left/Right/Up/Down/ZoomIn/ZoomOut>
xCommand FarEndControl Preset Activate CallId:3 PresetId:1
*r FECCPresetActivateResult (status=OK):
*r/end
Example:
xCommand FarEndControl Camera Move CallId:3 Value:left
*r FECCMoveResult (status=OK):
*r/end
OK
xCommand FarEndControl Camera Stop
xCommand FarEndControl Preset Store
Stop far end control move.
Store position of far end camera.
Required parameters with (r):
Required parameters with (r):
CallId(r): <0..65534>
PresetId(r): <0..15>
CallId(r): <0..65534>
Example:
xCommand FarEndControl Camera Stop CallId:3
*r FECCMoveResult (status=OK):
*r/end
Example:
xCommand FarEndControl Preset Store CallId:3 PresetId:1
*r FECCPresetStoreResult (status=OK):
*r/end
OK
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xCommand FarEndControl Source Select
To be described.
The HTTP Feedback commands
Required parameters with (r):
CallId(r): <0..65534>
PresetId(r): <0..15>
xCommand HttpFeedback Register
Command used to instruct the system to return XML feedback over HTTP(S) to specific URLs. What parts
of the Status and Configuration XML documents to monitor are specified by XPath expressions.
Required parameters with (r):
FeedbackSlot: <1..3>
Example:
ServerUrl(r): <S: 1, 256>
Expression: <S: 1, 256>
Expression: <S: 1, 256>
Expression: <S: 1, 256>
Expression: <S: 1, 256>
Expression: <S: 1, 256>
Expression: <S: 1, 256>
Expression: <S: 1, 256>
Expression: <S: 1, 256>
Expression: <S: 1, 256>
Expression: <S: 1, 256>
Expression: <S: 1, 256>
Expression: <S: 1, 256>
Expression: <S: 1, 256>
Expression: <S: 1, 256>
Expression: <S: 1, 256>
xCommand FarEndControl Source Select CallId:3 PresetId:1
*r FECCSelectSourceResult (status=OK):
*r/end
OK
Example:
xCommand HttpFeedback Register FeedbackSlot:1 ServerUrl:10.47.19.41
Expression[1]:Status/Video Expression[2]:Status/Audio Expression[3]:Status/
Call Expression[4]:Status/Conference
OK
*r FeedbackRegisterResult (status=OK):
FeedbackSlot: 1
*r/end
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xCommand HttpFeedback Deregister
Command used to deregister XML eedback over HTTP(S).
The Key commands
Required parameters with (r):
FeedbackSlot: <1..3>
xCommand Key Click
Command used to emulate pressing a key on the remote control for a short while. This command needs no
release command.
Example:
Required parameters with (r):
xCommand HttpFeedback Deregister FeedbackSlot:1
Key(r): <0/1/2/3/4/5/6/7/8/9/C/Call/Disconnect/Down/F1/F2/F3/F4/F5/Grab/Home/
Layout/Left/Mute/MuteMic/Ok/PhoneBook/Presentation/Right/Selfview/
Square/SrcAux/SrcCamera/SrcDocCam/SrcPc/SrcVcr/Star/Up/VolumeDown/
VolumeUp/ZoomIn/ZoomOut>
OK
*r FeedbackDeregisterResult (status=OK):
Duration: <0..65534>
FeedbackSlot: 1
*r/end
Example:
To be described.
xCommand Key Press
Command used to emulate pressing a key on the remote control without releasing it. The Key Press
command should be followed by a Key Release command to emulate releasing the key.
Required parameters with (r):
Key(r): <0/1/2/3/4/5/6/7/8/9/C/Call/Disconnect/Down/F1/F2/F3/F4/F5/Grab/Home/
Layout/Left/Mute/MuteMic/Ok/PhoneBook/Presentation/Right/Selfview/
Square/SrcAux/SrcCamera/SrcDocCam/SrcPc/SrcVcr/Star/Up/VolumeDown/
VolumeUp/ZoomIn/ZoomOut>
Example:
xCommand Key Click Key:Home
*r KeyClickResult (status=OK):
*r/end
OK
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xCommand Key Release
The Presentation commands
Command used to emulate release an already pressed key on the remote control. The Key Release
command should be preceded by a Key Press command to emulate pressing the key.
xCommand Presentation Start
Will open dual presentation stream using selected presentation source when in call (if presenter option is
installed). When not in call, the selected presentation source will be displayed.
Required parameters with (r):
Key(r): <0/1/2/3/4/5/6/7/8/9/C/Call/Disconnect/Down/F1/F2/F3/F4/F5/Grab/Home/
Layout/Left/Mute/MuteMic/Ok/PhoneBook/Presentation/Right/Selfview/
Square/SrcAux/SrcCamera/SrcDocCam/SrcPc/SrcVcr/Star/Up/VolumeDown/
VolumeUp/ZoomIn/ZoomOut>\nExample:
Required parameters with (r):
PresentationSource: <1..5>
xCommand Key Release Key:Home
*r KeyReleaseResult (status=OK):
*r/end
Example:
xCommand Presentation Start PresentationSource:2
OK
OK
*r PresentationStartResult (status=OK):
*r/end
xCommand Presentation Stop
Will stop dual presentation stream when in call. Will stop displaying presentation source locally when not in
call.
Example:
xCommand Presentation Stop
OK
*r PresentationStopResult (status=OK):
*r/end
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The Preset commands
xCommand Preset Activate
xCommand Preset Store
Activate local preset. Will move camera to predefined position.
Store current camera position. System may hold 15 predefined camera positions (presets).
Required parameters with (r):
Required parameters with (r):
PresetId(r): <1..15>
PresetId(r): <1..15>
Type(r): <All/Camera>
Description(r): <S: 0, 255>
Example:
xCommand Preset Activate PresetId:3
Example:
OK
xCommand Preset Store PresetId:3 Type:Camera Description:”Left view”
*r PresetActivateResult (status=OK):
*r/end
OK
*r PresetStoreResult (status=OK):
*r/end
xCommand Preset Clear
Delete a preset storing a camera position.
Required parameters with (r):
PresetId(r): <1..15>
Example:
xCommand Preset Clear PresetId:3
OK
*r PresetClearResult (status=OK):
*r/end
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The SString Send command
The Standby commands
xCommand SStringSend
xCommand Standby Activate
Used to send data to far end, e.g. for control systems. Uses the H.224 data channel (UDP).
Set system in standby mode.
Required parameters with (r):
Message(r): <S: 1, 256>
CallId: <0..65534>
Example:
xCommand Standby Activate
*r ActivateResult (status=OK):
*r/end
Example:
xCommand SStringSend CallId:4 Message:”This is a test”
*r SStringSendResult (status=OK):
*r/end
OK
OK
xCommand Standby Deactivate
Bring system out of standby mode.
Example:
xCommand Standby Deactivate
*r DeactivateResult (status=OK):
*r/end
OK
xCommand Standby ResetTimer
System will enter standby mode after time specified by Delay parameter.
Required parameters with (r):
Delay: <1..480>
Example:
xCommand Standby ResetTimer Delay:10
*r ResetResult (status=OK):
*r/end
OK
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The Video command
The CamCtrlPip command
xCommand Video PictureLayoutSet
xCommand CamCtrlPip
Select screen layout mode.
To be described.
Required parameters with (r):
Required parameters with (r):
LayoutFamily(r): <auto/equal/fullscreen/presentationlargespeaker/
Mode(r): <On/Off>
presentationsmallspeaker>
Example:
Example:
To be described.
xCommand Video PictureLayoutSet LayoutFamily:equal
*r SetPictureLayoutResult (status=OK):
*r/end
OK
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xCommand SystemUnit AdminPassword Set
Set administrator password.
The System Unit commands
Required parameters with (r):
xCommand SystemUnit OptionKey Add
Add option key to add extra system capabilities, e.g. Multisite.
Password(r): <S: 0, 255>
Required parameters with (r):
Example:
Key(r): <S: 16, 24>
xCommand SystemUnit AdminPassword Set Password:***********
*r AdminPasswordSetResult (status=OK):
*r/end
Example:
xCommand SystemUnit OptionKey Add Key:******************
*r OptionKeyResult (status=OK):
*r/end
OK
OK
xCommand SystemUnit MenuPassword Set
Set password needed to access advanced menu settings.
Required parameters with (r):
xCommand SystemUnit ReleaseKey Add
Add software release key. Used to enable new software (applicable for main sw releases).
Password(r): <S: 0, 255>
Required parameters with (r):
Example:
Key(r): <S: 16, 24>
xCommand SystemUnit MenuPassword Set Password:***********
*r MenuPasswordSetResult (status=OK):
*r/end
Example:
xCommand SystemUnit ReleaseKey Add Key:******************
*r ReleaseKeyResult (status=OK):
*r/end
OK
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xCommand SystemUnit MenuPassword Validate
Validate that supplied password is correct.
The Phone book commands
Required parameters with (r):
xCommand Phonebook Contact Add
Add new contact to local phonebook. Stored internally in system.
Password(r): <S: 0, 255>
Required parameters with (r):
Example:
ContactType(r): <Group/Person/System/Room/Other>
DisplayName(r): <S: 0, 255>
xCommand SystemUnit MenuPassword Validate Password:***********
*r MenuPasswordValidateResult (status=OK):
*r/end
ImageUrl: <S: 0, 255>
ParentGroupId: <S: 0, 255>
Example:
OK
xCommand Phonebook Contact Add ContactType:Person DisplayName:John.Smith
OK
*r LpbAddContactResult (status=OK):
Name: localContactId-1
*r/end
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xCommand Phonebook Contact Modify
xCommand Phonebook ContactMethod Add
Modify existing contact in local phonebook.
Specify details about how to set up call to local phonebook contact.
Required parameters with (r):
ContactId(r): <S: 0, 255>
ContactType: <Group/Person/System/Room/Other>
DisplayName: <S: 0, 255>
Required parameters with (r):
ContactId(r): <S: 0, 255>
GroupType: <S: 0, 255>
Type: <S: 0, 255>
ImageUrl: <S: 0, 255>
Number(r): <S: 0, 255>
Protocol(r): <S: 0, 255>
CallRate: <0..65534>
ParentGroupId: <S: 0, 255>
Example:
xCommand Phonebook Contact Modify ContactId:localContactId-1
DisplayName:john.smith.office
Example:
xCommand Phonebook ContactMethod Add ContactId:localContactId-2 Number:54321
Protocol:H323
OK
*r LpbModContactResult (status=OK):
*r/end
OK
*r LpbAddContactMethodResult (status=OK):
Name: 1
*r/end
xCommand Phonebook Contact Delete
Delete contact from local phonebook.
Required parameters with (r):
xCommand Phonebook ContactMethod Delete
ContactId(r): <S: 0, 255>
Delete call setup details for local phonebook contact.
Required parameters with (r):
ContactId(r): <S: 0, 255>
ID(r): <S: 0, 255>
Example:
xCommand Phonebook Contact Delete ContactId:localContactId-1
OK
Example:
*r LpbDelContactResult (status=OK):
*r/end
xCommand Phonebook ContactMethod Delete ContactId:localContactId-2 ID:1
OK
*r LpbDelContactMethodResult (status=OK):
*r/end
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xCommand Phonebook Group Add
xCommand Phonebook Group Modify
Add a local phonebook group (used to group phonebook contacts).
Modify details about local phonebook group.
Required parameters with (r):
Required parameters with (r):
GroupId(r): <S: 0, 255>
DisplayName: <S: 0, 255>
Number: <S: 0, 255>
DisplayName(r): <S: 0, 255>
Number: <S: 0, 255>
Description: <S: 0, 255>
ParentGroupId: <S: 0, 255>
Description: <S: 0, 255>
ParentGroupId: <S: 0, 255>
Example:
xCommand Phonebook Group Add GroupId:TestDept DisplayName:TestDept
Description:Test
Example:
xCommand Phonebook Group Modify GroupId:localGroupId-3 DisplayName:QaDept
OK
OK
*r LpbAddGroupResult (status=OK):
Name: localGroupId-3
*r/end
*r LpbModGroupResult (status=OK):
*r/end
xCommand Phonebook Group Delete
Delete local phonebook group.
Required parameters with (r):
GroupId(r): <S: 0, 255>
Example:
xCommand Phonebook Group Delete GroupId:localGroupId-3
OK
*r LpbDelGroupResult (status=OK):
*r/end
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xCommand Phonebook Search
To be described.
Required parameters with (r):
PhonebookId: <S: 0, 255>
SearchString(r): <S: 0, 255>
SearchType: <Default/T9/WordStart>
SearchFields: <S: 0, 255>
ContactTypes: <S: 0, 255>
OrderBy: <S: 0, 255>
SortOrder: <Ascending/Descending>
Offset: <0..65534>
GroupId: <S: 0, 255>
Limit: <0..65534>
Recursive: <False/True>
Example:
To be described.
xCommand Phonebook SearchDetails
To be described.
Required parameters with (r):
PhonebookId: <S: 0, 255>
ContactId(r): <S: 0, 255>
Example:
To be described.
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xCommand Experimental Audio LocalOutput Add
Required parameters with (r):
The Experimental menu
The Experimental commands can be used ‘as is’ and will not be further documented.
NOTE! The Experimental commands WILL change.
Name: <S: 0, 255>
Loudspeaker: <False/True>
Channels: <1..2>
We recommend you visit the TANDBERG web site regularly for updated versions of the manual.
xCommand Experimental Audio LocalInput Add
Required parameters with (r):
xCommand Experimental Audio LocalOutput Update
Name: <S: 0, 255>
MixerMode: <Auto/Fixed>
AGC: <On/Off>
Required parameters with (r):
OutputId(r): <0..65534>
Loudspeaker(r): <False/True>
Channels: <1..2>
Mute: <On/Off>
Channels: <1..2>
xCommand Experimental Audio LocalOutput Remove
Required parameters with (r):
xCommand Experimental Audio LocalInput Remove
Required parameters with (r):
OutputId(r): <0..65534>
InputId(r): <0..65534>
xCommand Experimental Audio LocalOutput AddConnector
Required parameters with (r):
xCommand Experimental Audio LocalInput AddConnector
Required parameters with (r):
OutputId(r): <0..65534>
InputId(r): <0..65534>
ConnectorType(r): <HDMI/Line>
ConnectorId(r): <1..8>
ConnectorType(r): <HDMI/Line/Microphone>
ConnectorId(r): <1..8>
xCommand Experimental Audio LocalOutput RemoveConnector
Required parameters with (r):
xCommand Experimental Audio LocalInput RemoveConnector
Required parameters with (r):
OutputId(r): <0..65534>
InputId(r): <0..65534>
ConnectorType(r): <HDMI/Line>
ConnectorId(r): <1..8>
ConnectorType(r): <HDMI/Line/Microphone>
ConnectorId(r): <1..8>
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NOTE! The Experimental commands can be used ‘as is’ and WILL change.
xCommand Experimental Video Layout Remove
Required parameters with (r):
LayoutId(r): <1..2147483647>
xCommand Experimental Audio LocalOutput ConnectInput
Required parameters with (r):
OutputId(r): <0..65534>
InputId(r): <0..65534>
xCommand Experimental Video Layout RemoveAll
xCommand Experimental Video Layout Frame Add
Required parameters with (r):
xCommand Experimental Audio LocalOutput DisconnectInput
Required parameters with (r):
LayoutId(r): <1..2147483647>
PositionX(r): <0..10000>
PositionY(r): <0..10000>
Width(r): <1..10000>
Height(r): <1..10000>
Layer(r): <1..5>
OutputId(r): <0..65534>
InputId(r): <0..65534>
xCommand Experimental Audio RemoteOutput Update
Required parameters with (r):
VideoSourceType(r): <graphic/localInput/localMain/localPresentation/
mostSpeaking/otherMain/ownMain/presentation/remoteMain/
remotePresentation/videoFile>
OutputId(r): <0..65534>
VideoSourceId: <0..256>
xCommand Experimental Audio RemoteOutput ConnectInput
Required parameters with (r):
OutputId(r): <0..65534>
xCommand Experimental Video Layout Frame Remove
Required parameters with (r):
InputId(r): <0..65534>
LayoutId(r): <1..2147483647>
FrameId(r): <1..65535>
xCommand Experimental Audio RemoteOutput DisconnectInput
Required parameters with (r):
OutputId(r): <0..65534>
InputId(r): <0..65534>
xCommand Experimental Video Layout Add
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NOTE! The Experimental commands can be used ‘as is’ and WILL change.
xCommand Experimental Camera DirectIRControl
Required parameters with (r):
CameraId(r): <1..7>
xCommand Experimental Video Layout Frame Update
Required parameters with (r):
OnOff(r): <On/Off>
LayoutId(r): <1..2147483647>
FrameId(r): <1..65535>
PositionX(r): <0..10000>
PositionY(r): <0..10000>
Width(r): <1..10000>
Height(r): <1..10000>
Layer(r): <1..5>
xCommand Experimental SetLowLevel
Required parameters with (r):
Mode(r): <On/Off>
VideoSourceType(r): <graphic/localInput/localMain/localPresentation/
mostSpeaking/otherMain/ownMain/presentation/remoteMain/
remotePresentation/videoFile>
xCommand Experimental SetExperiaMode
Required parameters with (r):
Mode(r): <On/Off>
VideoSourceId: <0..256>
xCommand Experimental Video Layout Assign
Required parameters with (r):
SiteId(r): <0..65534>
OutputId(r): <0..65534>
LayoutId(r): <1..2147483647>
xCommand Experimental Video Layout UnAssign
Required parameters with (r):
SiteId(r): <0..65534>
OutputId(r): <0..65534>
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Chapter 7
xStatus type commands
Status type commands returns information
about the system and system processes.
The information is generated by the
system and gives status about ongoing
calls, network status, conference status
and more.
In this chapter...
Audio status
Call status
Camera status
Conference status
The status information is structured
in a hierarchy, making up a database
constantly being updated by the system to
reflect system and process changes.
Diagnostics Call status
H323 Gatekeeper status
HTTPFeedback status
MediaChannels Call status
Network status
NOTE: The description of the xStatus
commands are preliminary, and subject to
change.
SIP Proxy status
SIP Registration status
SystemUnit status
Standby status
Video input status
Video output status
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The Audio status
xStatus commands
Status type commands returns information about the system and system processes. The following pages
will list an example of the xStatus commands and the response.
xStatus Audio Microphones Mute
States whether all microphones are muted or unmuted
We recommend you visit the TANDBERG web site regularly for updated versions of the manual.
Value space: On, Off
Default value: Off
NOTE: The description of the xStatus commands are preliminary, and subject to change.
Example: *s Audio Microphones Mute: On
xStatus Audio Volume
States the volume level of the loudspeaker output
Examples of returned status information
Status type commands returns information about the system and system processes. You can query all
information or just some of it.
Value space: 0..100
In this section the examples shows the returned information when running the full xStatus command.
Default value: 70
Example: *s Audio Volume: 0
Example 1: Query only the microphone 1 activity status
xStatus Audio Input Connectors Microphone 1 Activity
*s Audio Input Connectors Microphone 1 Activity: False
OK
xStatus Audio Input Connectors Microphone [1..8] Activity
States whether there is a signal on the connector
Value space: True/False
Default value: False
Example 2: Query all connectors status
xStatus Audio Input Connectors
Example: *s Audio Input Connectors Microphone 3 Activity: False
*s Audio Input Connectors Microphone 1 Activity: True
*s Audio Input Connectors Microphone 2 Activity: False
*s Audio Input Connectors Microphone 3 Activity: False
*s Audio Input Connectors Microphone 4 Activity: False
*s Audio Input Connectors Microphone 5 Activity: False
*s Audio Input Connectors Microphone 6 Activity: False
*s Audio Input Connectors Microphone 7 Activity: False
*s Audio Input Connectors Microphone 8 Activity: False
*s Audio Input Connectors Line 1 Activity: True
*s Audio Input Connectors Line 2 Activity: False
*s Audio Input Connectors Line 3 Activity: False
*s Audio Input Connectors Line 4 Activity: False
*s Audio Input Connectors HDMI 3 Activity: False
*s Audio Input Connectors HDMI 4 Activity: False
OK
xStatus Audio Input Connectors Line [1..4] Activity
States whether there is a signal on the connector
Value space: True/False
Default value: False
Example: *s Audio Input Connectors Line 1 Activity: False
xStatus Audio Input Connectors HDMI [3, 4] Activity
States whether there is a signal on the connector
Value space: True/False
Default value: False
Example: *s Audio Input Connectors HDMI 3 Activity: False
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xStatus Audio Input LocalInput [1..n] Name
xStatus Audio Input RemoteInput [1..n] CallId
States the name of the LocalInput with InputId n
The remote audio input belongs to call with this id
Value space: S: 0..100
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s Audio Input LocalInput 1 Name: “Microphone”
Example: *s Audio Input RemoteInput 23 CallId: 11
xStatus Audio Input LocalInput [1..n] MixerMode
xStatus Audio Input RemoteInput [1..n] AGC
A LocalInput is a group of connectors mixed together by the stated mixermode
States whether Automatic Gain Control is enabled on the RemoteInput
Value space: Auto/Fixed
Value space: On/Off
Default value: N/A
Default value: N/A
Example: *s Audio Input LocalInput 1 MixerMode: “Auto”
Example: *s Audio Input RemoteInput 23 AGC: “Off
xStatus Audio Input LocalInput [1..n] Mute
States whether the LocalInput is muted
Value space: On/Off
The Call status
Default value: N/A
Example: *s Audio Input LocalInput 1 Mute: “Off”
xStatus Call [1..n] Status
Status of call.
xStatus Audio Input LocalInput [1..n] Channels
Value space: Dialling/Connecting/Ringing/Connected/Idle
Default value: N/A
States whether the LocalInput is a mono or multichannel signal
Value space: 1..2
Example: *s Call 11 Status: Connected
Default value: N/A
Example: *s Audio Input LocalInput 1 Channels: 1
xStatus Call [1..n] Direction
Direction of call initiation.
xStatus Audio Input LocalInput [1..n] AGC
Value space: Incoming/Outgoing
Default value: N/A
States whether Automatic Gain Control is enabled on the LocalInput
Value space: On/Off
Example: *s Call 11 Direction: Outgoing
Default value: N/A
Example: *s Audio Input LocalInput 1 AGC: “On”
xStatus Call [1..n] Protocol
Call protocol. H323 or SIP.
xStatus Audio Input LocalInput [1..n] Connector
Value space: H323/SIP
States the connectors mixed together in the LocalInput
Default value: N/A
Value space: Microphone/Line/HDMI.1..8
Default value: N/A
Example: *s Call 11 Protocol: “h323”
Example: *s Audio Input LocalInput 1 Connector: “Microphone.1”
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xStatus Call [1..n] RemoteNumber
Far end site dial number.
The Camera status
Value space: S: 0..100
xStatus Camera [1..7] Connected
Indicates whether the given camera is connected or not.
Default value: N/A
Value space: True/False
Example: *s Call 11 RemoteNumber: “5585232”
Default value: False
xStatus Call [1..n] CallbackNumber
Example: *s Camera 1 Connected: True
Far end site dial number. Includes call protocol.
Value space: S: 0..100
xStatus Camera [1..7] HardwareID
States the hardware id of the camera.
Default value: N/A
Value space: S: 0..100
Default value: N/A
xStatus Call [1..n] DisplayName
Example: *s Camera 1 HardwareID: “50000000”
Name to display for far end site.
Value space: S: 0..100
xStatus Camera [1..7] Manufacturer
States the manufacturer of the camera.
Default value: N/A
Value space: S: 0..100
Example: *s Call 11 DisplayName: “john.offi[email protected]”
Default value: N/A
xStatus Call [1..n] CallRate
Example: *s Camera 1 Manufacturer: “Tandberg”
Call bandwidth in kilobits per second.
Value space: Integer value
Default value: N/A
xStatus Camera [1..7] Model
States the camera model.
Value space: S: 0..100
Example: *s Call 11 CallRate: 768
Default value: N/A
xStatus Call [1..n] Encryption Type
Example: *s Camera 1 Model: “Rover”
Encryption standard.
Value space: None/Aes-128
xStatus Camera [1..7] SoftwareID
States the software id of the camera.
Default value: N/A
Value space: S: 0..100
Example: *s Call 11 Encryption Type: “None”
Default value: N/A
Example: *s Camera 1 SoftwareID: “S01718-4.0FINAL [ID:40020] 2008-11-10
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xStatus Camera [1..7] Position Pan
xStatus Conference Presentation Resolution Height
Current pan position. Value range depends on camera type.
Current resolution height for presentation.
Value space: -65535..65535
Value space: 0..3000
Default value: N/A
Default value: N/A
Example: *s Camera 1 Position Pan: 514
Example: *s Conference Presentation Resolution Height: 0
xStatus Camera [1..7] Position Tilt
xStatus Conference Presentation Resolution Width
Current tilt position. Value range depends on camera type.
Current resolution width for presentation.
Value space: -65535..65535
Value space: 0..4000
Default value: N/A
Default value: N/A
Example: *s Camera 1 Position Tilt: 142
Example: *s Conference Presentation Resolution Width: 0
xStatus Camera [1..7] Position Zoom
xStatus Conference Presentation SiteId
Current zoom position. Value range depends on camera type.
Id of site currently sending presentation.
Value space: 0..65535
Value space: 0..65535
Default value: N/A
Default value: N/A
Example: *s Camera 1 Position Zoom: 1636
Example: *s Conference Presentation SiteId: 0
xStatus Camera [1..7] Position Focus
xStatus Conference Presentation LocalSource
Current focus position. Value range will depend on camera type.
Local video source that will be used when presentation is sent from local site.
Value space: 0..65535
Value space: 1..5
Default value: N/A
Default value: N/A
Example: *s Camera 1 Position Focus: 4474
Example: *s Conference Presentation LocalSource: 0
xStatus Conference Site [1..n] MicrophonesMuted
Lists audio mute status for other sites participating in conference.
The Conference status
Value space: True/False
Default value: N/A
xStatus Conference Presentation Mode
Example: *s Conference Site 12 MicrophonesMuted: True
Secondary video stream status.
Value space: Off, Sending, Receiving
Default value: N/A
Example: *s Conference Presentation Mode: Off
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xStatus Diagnostics Call [1..n] Channels IncomingAudioChannel [1..n] Netstat 1
ChannelRate
The Diagnostics Call status
Current bandwidth for this media channel.
xStatus Diagnostics Call [1..n] Channels IncomingAudioChannel [1..n] Netstat 1 Jitter
Current jitter as specified by RFC3550.
Value space: Integer value
Default value: N/A
Value space: Integer value
Example: *s Diagnostics Call 11 Channels IncomingAudioChannel 168 Netstat 1
ChannelRate: 128000
Default value: N/A
Example: *s Diagnostics Call 11 Channels IncomingAudioChannel 168 Netstat 1
Jitter: 0
xStatus Diagnostics Call [1..n] Channels IncomingAudioChannel [1..n] Netstat 1
MaxJitter
Max jitter measured during last time interval (5 seconds).
xStatus Diagnostics Call [1..n] Channels IncomingAudioChannel [1..n] Netstat 1
Packets
Number of packets received in this media channel.
Value space: Integer value
Default value: N/A
Value space: Integer value
Example: *s Diagnostics Call 11 Channels IncomingAudioChannel 168 Netstat 1
MaxJitter: 0
Default value: N/A
Example: *s Diagnostics Call 11 Channels IncomingAudioChannel 168 Netstat 1
Packets: 405
xStatus Diagnostics Call [1..n] Channels IncomingVideoChannel [1..n] Netstat 1 Jitter
Current jitter as specified by RFC3550.
xStatus Diagnostics Call [1..n] Channels IncomingAudioChannel [1..n] Netstat 1 Loss
Packets lost in this media channel.
Value space: Integer value
Default value: N/A
Value space: Integer value
Example: *s Diagnostics Call 11 Channels IncomingVideoChannel 171 Netstat 1
Jitter: 6
Default value: N/A
Example: *s Diagnostics Call 11 Channels IncomingAudioChannel 168 Netstat 1 Loss:
96
xStatus Diagnostics Call [1..n] Channels IncomingVideoChannel [1..n] Netstat 1
Packets
xStatus Diagnostics Call [1..n] Channels IncomingAudioChannel [1..n] Netstat 1 Drop
Packets dropped in this media channel.
Number of packets received in this media channel.
Value space: Integer value
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s Diagnostics Call 11 Channels IncomingVideoChannel 171 Netstat 1
Packets: 38699
Example: *s Diagnostics Call 11 Channels IncomingAudioChannel 168 Netstat 1 Drop:
0
xStatus Diagnostics Call [1..n] Channels IncomingVideoChannel [1..n] Netstat 1 Loss
Packets lost in this media channel.
xStatus Diagnostics Call [1..n] Channels IncomingAudioChannel [1..n] Netstat 1 Bytes
Number of bytes received in this media channel.
Value space: Integer value
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s Diagnostics Call 11 Channels IncomingVideoChannel 171 Netstat 1 Loss:
0
Example: *s Diagnostics Call 11 Channels IncomingAudioChannel 168 Netstat 1
Bytes: 129920
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xStatus Diagnostics Call [1..n] Channels IncomingVideoChannel [1..n] Netstat 1 Drop
xStatus Diagnostics Call [1..n] Channels IncomingDataChannel [1..n] Netstat 1
Packets
Packets dropped in this media channel.
Number of packets received in this media channel.
Value space: Integer value
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s Diagnostics Call 11 Channels IncomingVideoChannel 174 Netstat 1 Drop:
0
Example: *s Diagnostics Call 11 Channels IncomingDataChannel 176 Netstat 1
Packets: 10
xStatus Diagnostics Call [1..n] Channels IncomingVideoChannel [1..n] Netstat 1 Bytes
xStatus Diagnostics Call [1..n] Channels IncomingDataChannel [1..n] Netstat 1 Loss
Number of bytes received in this media channel.
Packets lost in this media channel.
Value space: Integer value
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s Diagnostics Call 11 Channels IncomingVideoChannel 174 Netstat 1
Bytes: 0
Example: *s Diagnostics Call 11 Channels IncomingDataChannel 176 Netstat 1 Loss:
0
xStatus Diagnostics Call [1..n] Channels IncomingVideoChannel [1..n] Netstat 1
ChannelRate
xStatus Diagnostics Call [1..n] Channels IncomingDataChannel [1..n] Netstat 1 Drop
Current bandwidth for this media channel.
Packets dropped in this media channel.
Value space: Integer value
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s Diagnostics Call 11 Channels IncomingVideoChannel 174 Netstat 1
Example: *s Diagnostics Call 11 Channels IncomingDataChannel 176 Netstat 1 Drop:
ChannelRate: 0
0
xStatus Diagnostics Call [1..n] Channels IncomingVideoChannel [1..n] Netstat 1
MaxJitter
xStatus Diagnostics Call [1..n] Channels IncomingDataChannel [1..n] Netstat 1 Bytes
Number of bytes received in this media channel.
Max jitter measured during last time interval (5 seconds).
Value space: Integer value
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s Diagnostics Call 11 Channels IncomingDataChannel 176 Netstat 1 Bytes:
263
Example: *s Diagnostics Call 11 Channels IncomingVideoChannel 174 Netstat 1
MaxJitter: 0
xStatus Diagnostics Call [1..n] Channels IncomingDataChannel [1..n] Netstat 1
xStatus Diagnostics Call [1..n] Channels IncomingDataChannel [1..n] Netstat 1 Jitter
ChannelRate
Current jitter as specified by RFC3550.
Current bandwidth for this media channel.
Value space: Integer value
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s Diagnostics Call 11 Channels IncomingDataChannel 176 Netstat 1
Example: *s Diagnostics Call 11 Channels IncomingDataChannel 176 Netstat 1
Jitter: 0
ChannelRate: 0
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xStatus Diagnostics Call [1..n] Channels IncomingDataChannel [1..n] Netstat 1
MaxJitter
xStatus Diagnostics Call [1..n] Channels OutgoingAudioChannel [1..n] Netstat 1 Bytes
Number of bytes sent in this media channel.
Max jitter measured during last time interval (5 seconds).
Value space: Integer value
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s Diagnostics Call 11 Channels OutgoingAudioChannel 169 Netstat 1
Bytes: 7653930
Example: *s Diagnostics Call 11 Channels IncomingDataChannel 176 Netstat 1
MaxJitter: 0
xStatus Diagnostics Call [1..n] Channels OutgoingAudioChannel [1..n] Netstat 1
ChannelRate
xStatus Diagnostics Call [1..n] Channels OutgoingAudioChannel [1..n] Netstat 1 Jitter
Current bandwidth for this media channel.
Current jitter as specified by RFC3550.
Value space: Integer value
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s Diagnostics Call 11 Channels OutgoingAudioChannel 169 Netstat 1
ChannelRate: 127000
Example: *s Diagnostics Call 11 Channels OutgoingAudioChannel 169 Netstat 1
Jitter: 0
xStatus Diagnostics Call [1..n] Channels OutgoingAudioChannel [1..n] Netstat 1
MaxJitter
xStatus Diagnostics Call [1..n] Channels OutgoingAudioChannel [1..n] Netstat 1
Packets
Max jitter measured during last time interval (5 seconds).
Number of packets received in this media channel.
Value space: Integer value
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s Diagnostics Call 11 Channels OutgoingAudioChannel 169 Netstat 1
MaxJitter: 0
Example: *s Diagnostics Call 11 Channels OutgoingAudioChannel 169 Netstat 1
Packets: 24000
xStatus Diagnostics Call [1..n] Channels OutgoingVideoChannel [1..n] Netstat 1 Jitter
xStatus Diagnostics Call [1..n] Channels OutgoingAudioChannel [1..n] Netstat 1 Loss
Current jitter as specified by RFC3550.
Packets lost in this media channel.
Value space: Integer value
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s Diagnostics Call 11 Channels OutgoingVideoChannel 172 Netstat 1
Jitter: 1
Example: *s Diagnostics Call 11 Channels OutgoingAudioChannel 169 Netstat 1 Loss:
0
xStatus Diagnostics Call [1..n] Channels OutgoingVideoChannel [1..n] Netstat 1
Packets
xStatus Diagnostics Call [1..n] Channels OutgoingAudioChannel [1..n] Netstat 1 Drop
Packets dropped in this media channel.
Number of packets received in this media channel.
Value space: Integer value
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s Diagnostics Call 11 Channels OutgoingAudioChannel 169 Netstat 1 Drop:
Example: *s Diagnostics Call 11 Channels OutgoingVideoChannel 172 Netstat 1
0
Packets: 43096
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xStatus Diagnostics Call [1..n] Channels OutgoingVideoChannel [1..n] Netstat 1 Loss
xStatus Diagnostics Call [1..n] Channels OutgoingDataChannel [1..n] Netstat 1 Jitter
Packets lost in this media channel.
Current jitter as specified by RFC3550.
Value space: Integer value
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s Diagnostics Call 11 Channels OutgoingVideoChannel 172 Netstat 1 Loss:
Example: *s Diagnostics Call 11 Channels OutgoingDataChannel 177 Netstat 1
0
Jitter: 0
xStatus Diagnostics Call [1..n] Channels OutgoingVideoChannel [1..n] Netstat 1 Drop
xStatus Diagnostics Call [1..n] Channels OutgoingDataChannel [1..n] Netstat 1
Packets
Packets dropped in this media channel.
Number of packets received in this media channel.
Value space: Integer value
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s Diagnostics Call 11 Channels OutgoingVideoChannel 172 Netstat 1 Drop:
0
Example: *s Diagnostics Call 11 Channels OutgoingDataChannel 177 Netstat 1
Packets: 2
xStatus Diagnostics Call [1..n] Channels OutgoingVideoChannel [1..n] Netstat 1 Bytes
xStatus Diagnostics Call [1..n] Channels OutgoingDataChannel [1..n] Netstat 1 Loss
Number of bytes sent in this media channel.
Packets lost in this media channel.
Value space: Integer value
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s Diagnostics Call 11 Channels OutgoingVideoChannel 172 Netstat 1
Bytes: 39111160
Example: *s Diagnostics Call 11 Channels OutgoingDataChannel 177 Netstat 1 Loss:
0
xStatus Diagnostics Call [1..n] Channels OutgoingVideoChannel [1..n] Netstat 1
ChannelRate
xStatus Diagnostics Call [1..n] Channels OutgoingDataChannel [1..n] Netstat 1 Drop
Current bandwidth for this media channel.
Packets dropped in this media channel.
Value space: Integer value
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s Diagnostics Call 11 Channels OutgoingVideoChannel 172 Netstat 1
Example: *s Diagnostics Call 11 Channels OutgoingDataChannel 177 Netstat 1 Drop:
ChannelRate: 652000
0
xStatus Diagnostics Call [1..n] Channels OutgoingVideoChannel [1..n] Netstat 1
MaxJitter
xStatus Diagnostics Call [1..n] Channels OutgoingDataChannel [1..n] Netstat 1 Bytes
Number of bytes sent in this media channel.
Max jitter measured during last time interval (5 seconds).
Value space: Integer value
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s Diagnostics Call 11 Channels OutgoingDataChannel 177 Netstat 1 Bytes:
107
Example: *s Diagnostics Call 11 Channels OutgoingVideoChannel 172 Netstat 1
MaxJitter: 1
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xStatus Diagnostics Call [1..n] Channels OutgoingDataChannel [1..n] Netstat 1
xStatus H323 Gatekeeper Reason
ChannelRate
Reason for rejected registration.
Current bandwidth for this media channel.
Value space: S: 0..100
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s H323 Gatekeeper Reason: “”
Example: *s Diagnostics Call 11 Channels OutgoingDataChannel 177 Netstat 1
ChannelRate: 0
xStatus Diagnostics Call [1..n] Channels OutgoingDataChannel [1..n] Netstat 1
MaxJitter
Max jitter measured during last time interval (5 seconds).
The HTTPFeedback status
Value space: Integer value
xStatus HttpFeedback [1..3] URL
Default value: N/A
Three different servers, specified by URL, can register feedback expressions on this system.
Example: *s Diagnostics Call 11 Channels OutgoingDataChannel 177 Netstat 1
MaxJitter: 0
Value space: S: 0..100
Default value: N/A
Example: URL: “http://tms.acme.com/tms/public/feedback/code.aspx”
xStatus H323 Gatekeeper Status
Gatekeeper registration status.
xStatus HttpFeedback [1..3] Expression
A set of 15 feedback expressions can be registered for each URL.
Value space: Registered/Inactive/Rejected
Default value: N/A
Value space: S: 0..256
Example: *s H323 Gatekeeper Status: Registered
Default value: N/A
Example: Expression 1: “/History/Call”
The H323 Gatekeeper status
xStatus H323 Gatekeeper Address
Address of gatekeeper this system is registered against.
The Media channels call status
Value space: S: 0..100
xStatus MediaChannels Call [1..n] IncomingAudioChannel [1..n] Encryption Status
Encryption status on media channel.
Default value: N/A
Example: *s H323 Gatekeeper Address: “10.47.1.83”
Value space: On/off
Default value: N/A
xStatus H323 Gatekeeper Port
Example: *s MediaChannels Call 11 IncomingAudioChannel 181 Encryption Status:
Off
The port to connect to on gatekeeper.
Value space: Interger value
Default value: N/A
Example: *s H323 Gatekeeper Port: 1719
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xStatus MediaChannels Call [1..n] IncomingAudioChannel [1..n] Audio Protocol
xStatus MediaChannels Call [1..n] IncomingVideoChannel [1..n] Video ResolutionX
Audio algorithm.
Resolution width for incoming video.
Value space: AACLD, G722, G7221, G711Mu
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s MediaChannels Call 11 IncomingAudioChannel 181 Audio Protocol: AACLD
Example: *s MediaChannels Call 11 IncomingVideoChannel 184 Video ResolutionX: 768
xStatus MediaChannels Call [1..n] IncomingAudioChannel [1..n] Audio Mute
xStatus MediaChannels Call [1..n] IncomingVideoChannel [1..n] Video ResolutionY
Audio mute status of incoming audio.
Resolution height for incoming video.
Value space: True/False
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s MediaChannels Call 11 IncomingAudioChannel 181 Audio Mute: True
Example: *s MediaChannels Call 11 IncomingVideoChannel 184 Video ResolutionY: 448
xStatus MediaChannels Call [1..n] IncomingAudioChannel [1..n] Audio Channels
xStatus MediaChannels Call [1..n] OutgoingAudioChannel [1..n] Encryption Status
Number of audio channels.
Encryption status on media channel.
Value space: Integer value
Value space: On/Off
Default value: N/A
Default value: N/A
Example: *s MediaChannels Call 11 IncomingAudioChannel 181 Audio Channels: 1
Example: *s MediaChannels Call 11 OutgoingAudioChannel 182 Encryption Status: Off
xStatus MediaChannels Call [1..n] IncomingVideoChannel [1..n] Encryption Status
xStatus MediaChannels Call [1..n] OutgoingAudioChannel [1..n] Audio Protocol
Encryption status on media channel.
Audio algorithm.
Value space: On/Off
Value space: AACLD, G722, G7221, G711Mu
Default value: N/A
Default value: N/A
Example: *s MediaChannels Call 11 IncomingVideoChannel 184 Encryption Status:
Example: *s MediaChannels Call 11 OutgoingAudioChannel 182 Audio Protocol: AACLD
Off
xStatus MediaChannels Call [1..n] OutgoingAudioChannel [1..n] Audio Channels
Number of audio channels.
xStatus MediaChannels Call [1..n] IncomingVideoChannel [1..n] ChannelRole
Main video channel or presentation video channel.
Value space: Integer value
Value space: Main/Presentation
Default value: N/A
Default value: N/A
Example: *s MediaChannels Call 11 OutgoingAudioChannel 182 Audio Channels: 1
Example: *s MediaChannels Call 11 IncomingVideoChannel 184 ChannelRole: Main
xStatus MediaChannels Call [1..n] OutgoingVideoChannel [1..n] Encryption Status
Encryption status on media channel.
xStatus MediaChannels Call [1..n] IncomingVideoChannel [1..n] Video Protocol
Video algorithm.
Value space: On/Off
Value space: H264, H263pp, H263, H261
Default value: N/A
Default value: N/A
Example: *s MediaChannels Call 11 OutgoingVideoChannel 185 Encryption Status: Off
Example: *s MediaChannels Call 11 IncomingVideoChannel 184 Video Protocol: H264
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xStatus MediaChannels Call [1..n] OutgoingVideoChannel [1..n] ChannelRole
Main video channel or presentation video channel.
The Network status
Value space: Main/Presentation
xStatus Network 1 Ethernet MacAddress
Mac address for ethernet interface.
Default value: N/A
Value space: S: 0..100
Example: *s MediaChannels Call 11 OutgoingVideoChannel 185 ChannelRole: Main
Default value: N/A
xStatus MediaChannels Call [1..n] OutgoingVideoChannel [1..n] Video Protocol
Example: *s Network 1 Ethernet MacAddress: “00:50:60:02:FD:C7”
Video algorithm.
Value space: H264, H263pp, H263, H261
xStatus Network 1 Ethernet Speed
Speed in Mbps. Full or half duplex.
Default value: N/A
Value space: Integer value
Example: *s MediaChannels Call 11 OutgoingVideoChannel 185 Video Protocol: “H264”
Default value: N/A
xStatus MediaChannels Call [1..n] OutgoingVideoChannel [1..n] Video PictureMode
Example: *s Network 1 Ethernet Speed: “100full”
Do not use. Will be removed in next sw release.
Value space: N/A
xStatus Network 1 IPv4 Address
Ip address of this system.
Default value: N/A
Value space: S: 0..100
Example: *s MediaChannels Call 11 OutgoingVideoChannel 185 Video PictureMode:
AUTO
Default value: N/A
Example: *s Network 1 IPv4 Address: “10.47.21.62”
xStatus MediaChannels Call [1..n] OutgoingVideoChannel [1..n] Video ResolutionX
Resolution width for incoming video.
xStatus Network 1 IPv4 SubnetMask
A mask used to determine what subnet the IPv4 address belongs to.
Value space: Integer value.
Default value: N/A
Value space: S: 0..100
Example: *s MediaChannels Call 11 OutgoingVideoChannel 185 Video ResolutionX: 768
Default value: N/A
Example: *s Network 1 IPv4 SubnetMask: “255.255.255.0”
xStatus MediaChannels Call [1..n] OutgoingVideoChannel [1..n] Video ResolutionY
Resolution height for incoming video.>
xStatus Network 1 IPv4 Gateway
To be described
Value space: Integer value.
Default value: N/A
Value space: S: 0..100
Example: *s MediaChannels Call 11 OutgoingVideoChannel 185 Video ResolutionY: 448
Default value: N/A
Example: *s Network 1 IPv4 Gateway: “10.47.21.1”
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xStatus Network 1 IPv4 DNS Domain Name
xStatus SIP Proxy 1 Verified
To be described
To be described.
Value space: S: 0..100
Value space: True, False
Default value: N/A
Default value: False
Example: *s Network 1 IPv4 DNS Domain Name: “sales.acme.com emea.acme.int”
Example: *s SIP Proxy 1 Verified: False
xStatus Network 1 IPv4 DNS Server [1..5] Address
xStatus SIP Registration [1..n] Status
To be described
Registration status of SIP Registration URI.
Value space: S: 0..100
Value space: Deregister, Failed, Inactive, Registered, Registering
Default value: Inactive
Default value: N/A
Example: *s Network 1 IPv4 DNS Server 1 Address: “10.47.1.92”
Example: *s SIP Registration 1 Status: Registered
xStatus SIP Registration [1..n] URI
The URI used for registration vs SIP registrar.
Value space: S: 0..100
The SIP status
Default value: N/A
Example: *s SIP Registration 1 URI: “[email protected]”
xStatus SIP Proxy 1 Status
Status of communication between this endpoint and SIP proxy.
xStatus SIP Registration [1..n] Authentication
Value space: Active, DNSFailed, Off, Timeout, UnableTCP, UnableTLS, Unknown
Default value: Off
States what Authentication mechanism is used.
Value space: Digest, NTLM, Off
Default value: Off
Example: *s SIP Proxy 1 Status: Active
Example: *s SIP Registration 1 Authentication: Off
xStatus SIP Proxy 1 Address
The active proxy this system communicates with.
Value space: S: 0..255
The System unit status
Default value: N/A
Example: *s SIP Proxy 1 Address: “10.47.1.63”
xStatus SystemUnit ProductType
Product type.
xStatus SIP Proxy 1 Secure
Encryption status of signalling with proxy.
Value space: S: 0..100
Value space: True, False
Default value: N/A
Default value: False
Example: *s SystemUnit ProductType: “TANDBERG Codec”
Example: *s SIP Proxy 1 Secure: True
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xStatus SystemUnit ProductId
xStatus SystemUnit Software MaxVideoCalls
Product id.
Max number of simultaneous video calls from this system.
Value space: S: 0..100
Value space: Integer value
Default value: N/A
Default value: N/A
Example: *s SystemUnit ProductId: “TANDBERG Codec C90”
Example: *s SystemUnit Software MaxVideoCalls: 3
xStatus SystemUnit Uptime
xStatus SystemUnit Software OptionKeys NaturalPresenter
Seconds since last system reboot.
States whether system supports NaturalPresenter functionality.
Value space: Integer value
Default value: N/A
Value space: S: 0..100
Default value: N/A
Example: *s SystemUnit Uptime: 357708
Example: *s SystemUnit Software OptionKeys NaturalPresenter: “true”
xStatus SystemUnit Software Application
xStatus SystemUnit Software OptionKeys MultiSite
Software application.
States whether system supports MultiSite functionality.
Value space: S: 0..100
Value space: S: 0..100
Default value: N/A
Default value: N/A
Example: *s SystemUnit Software Application: “Endpoint”
Example: *s SystemUnit Software OptionKeys MultiSite: “true”
xStatus SystemUnit Software Version
xStatus SystemUnit Software OptionKeys PremiumResolution
Version of installed software.
States whether system supports PremiumResolution functionality.
Value space: S: 0..100
Value space: S: 0..100
Default value: N/A
Default value: N/A
Example: *s SystemUnit Software Version: “TC1.0.0”
Example: *s SystemUnit Software OptionKeys PremiumResolution: “true”
xStatus SystemUnit Software Name
xStatus SystemUnit Hardware Module SerialNumber
To be described.
Serial number of the full system (box).
Value space: S: 0..100
Value space: S: 0..100
Default value: N/A
Default value: N/A
Example: *s SystemUnit Software Name: “TBD”
Example: *s SystemUnit Hardware Module SerialNumber: “B1AC36A00002”
xStatus SystemUnit Software ReleaseDate
xStatus SystemUnit Hardware Module Identifier
Date of software release.
States hardware revision of full system.
Value space: S: 0..100
Value space: S: 0..100
Default value: N/A
Default value: N/A
Example: *s SystemUnit Software ReleaseDate: “2008-11-13”
Example: *s SystemUnit Hardware Module Identifier: “1”
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xStatus SystemUnit Hardware MainBoard SerialNumber
xStatus SystemUnit Hardware BootSoftware
Serial number of main board.
Boot software id.
Value space: S: 0..100
Value space: S: 0..100
Default value: N/A
Default value: N/A
Example: *s SystemUnit Hardware MainBoard SerialNumber: “PH0528833”
Example: *s SystemUnit Hardware BootSoftware: “U-Boot 1.3.0-20”
xStatus SystemUnit Hardware MainBoard Identifier
xStatus SystemUnit State System
States hardware revision of MainBoard.
System state.
Value space: S: 0..100
Value space: InCall, Initialized, Initializing, Multisite, Sleeping
Default value: N/A
Default value: N/A
Example: *s SystemUnit Hardware MainBoard Identifier: “101400-5 [06]”
Example: *s SystemUnit State System: Initialized
xStatus SystemUnit Hardware VideoBoard SerialNumber
xStatus SystemUnit State MaxNumberOfCalls
Serial number of VideoBoard.
Max number of calls supported.
Value space: S: 0..100
Value space: 0..5
Default value: N/A
Default value: N/A
Example: *s SystemUnit Hardware VideoBoard SerialNumber: “PH0534914”
Example: *s SystemUnit State MaxNumberOfCalls: 3
xStatus SystemUnit Hardware VideoBoard Identifier
xStatus SystemUnit State MaxNumberOfActiveCalls
States hardware revision of VideoBoard.
Max number of active calls supported.
Value space: S: 0..100
Value space: 0..5
Default value: N/A
Default value: N/A
Example: *s SystemUnit Hardware VideoBoard Identifier: “101410-4 [07]”
Example: *s SystemUnit State MaxNumberOfActiveCalls: 3
xStatus SystemUnit Hardware AudioBoard SerialNumber
xStatus SystemUnit State NumberOfActiveCalls
Serial number of AudioBoard.
Number of active calls.
Value space: S: 0..100
Value space: 0..5
Default value: N/A
Default value: N/A
Example: *s SystemUnit Hardware AudioBoard SerialNumber: “TBD”
Example: *s SystemUnit State NumberOfActiveCalls: 0
xStatus SystemUnit Hardware AudioBoard Identifier
xStatus SystemUnit State NumberOfSuspendedCalls
States hardware revision of AudioBoard.
Number of suspended calls.
Value space: S: 0..100
Value space: 0..5
Default value: N/A
Default value: N/A
Example: *s SystemUnit Hardware AudioBoard Identifier: “101420-2 [No objl.]”
Example: *s SystemUnit State NumberOfSuspendedCalls: 0
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xStatus SystemUnit State NumberOfInProgressCalls
Number of calls in progress.
The Video status
Value space: 0..5
xStatus Video Input Source [1..5] Resolution Height
Last detected resolution height for source.
Default value: N/A
Value space: 0..3000
Example: *s SystemUnit State NumberOfInProgressCalls: 0
Default value: 0
xStatus SystemUnit State Subsystem Application
Example: *s Video Input Source 1 Resolution Height: 1080
State of system application.
Value space: Initialized, Initializing
xStatus Video Input Source [1..5] Resolution Width
Last detected resolution width for source.
Default value: N/AInitializing
Value space: 0..4000
Example: *s SystemUnit State Subsystem Application: Initialized
Default value: 0
xStatus SystemUnit ContactInfo
Example: *s Video Input Source 1 Resolution Width: 1920
To be described.
Value space: S: 0..100
xStatus Video Input Source [1..5] Resolution RefreshRate
Last detected resolution refresh rate for source.
Default value: N/A
Value space: 0..300
Example: *s SystemUnit ContactInfo: “[email protected]”
Default value: 0
Example: *s Video Input Source 1 Resolution RefreshRate: 50
The Standby status
xStatus Video Input HDMI [1..4] Connected
True if a connection on HDMI 1..4 is detected. Not all connections can be detected.
xStatus Standby Active
Value space: True/False
States whether standby mode is active.
Default value: N/A
Value space: On, Off
Example: *s Video Input HDMI 2 Connected: False
Default value: Off
Example: *s Standby Active: On
xStatus Video Input HDSDI [1..4] Connected
True if a connection on HD-SDI 1..4 is detected. Not all connections can be detected.
Value space: True/False
Default value: N/A
Example: *s Video Input HDSDI 3 Connected: False
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xStatus Video Input YPbPr [1..2] Connected
xStatus Video Output DVI [2, 4] Resolution Height
True if a connection on YPbPr 1 or YPbPr 2 is detected. Not all connections can be detected.
Last confirmed resolution height for output DVI 2 and 4.
Value space: True/False
Value space: 120..3000
Default value: N/A
Default value: 768
Example: *s Video Input YPbPr 2 Connected: False
Example: *s Video Output DVI 2 Resolution Height: 720
xStatus Video Input DVI [3, 5] Connected
xStatus Video Output DVI [2, 4] Resolution Width
True if a connection on DVI 3 or DVI 5 is detected. Not all connections can be detected.
Last confirmed resolution width for output DVI 2 and 4.
Value space: True/False
Value space: 176..4000
Default value: N/A
Default value: 1280
Example: *s Video Input DVI 3 Connected: False
Example: *s Video Output DVI 2 Resolution Width: 1280
xStatus Video Input Legacy 5 Connected
xStatus Video Output DVI [2, 4] Resolution RefreshRate
True if a connection on Legacy 5 is detected. Not all connections can be detected.
Last confirmed refresh rate for output DVI 2 and 4.
Value space: True/False
Value space: 1..300
Default value: N/A
Default value: 60
Example: *s Video Input Legacy 5 Connected: False
Example: *s Video Output DVI 2 Resolution RefreshRate: 60
xStatus Video Output HDMI [1, 3] Resolution Height
xStatus Video Output Legacy 5 Resolution Height
Last confirmed resolution height for output HDMI 1 and 3.
Last confirmed resolution height for output Legacy 5.
Value space: 120..3000
Value space: 120..3000
Default value: 768
Default value: 768
Example: *s Video Output HDMI 1 Resolution Height: 720
Example: *s Video Output Legacy 5 Resolution Height: 480
xStatus Video Output HDMI [1, 3] Resolution Width
xStatus Video Output Legacy 5 Resolution Width
Last confirmed resolution width for output HDMI 1 and 3.
Last confirmed resolution width for output Legacy 5.
Value space: 176..4000
Value space: 176..4000
Default value: 1280
Default value: 1280
Example: *s Video Output HDMI 1 Resolution Width: 1280
Example: *s Video Output Legacy 5 Resolution Width: 720
xStatus Video Output HDMI [1, 3] Resolution RefreshRate
xStatus Video Output Legacy 5 Resolution RefreshRate
Last confirmed refresh rate for output HDMI 1 and 3.
Last confirmed refresh rate for output Legacy 5.
Value space: 1..300
Value space: 1..300
Default value: 60
Default value: 60
Example: *s Video Output HDMI 1 Resolution RefreshRate: 60
Example: *s Video Output Legacy 5 Resolution RefreshRate: 60
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Chapter 8
Cameras
Your TANDBERG PrecisionHD 1080p
Camera has been designed to give you
many years of safe, reliable operation.
In this chapter...
The PrecisionHD 1080p camera
Connecting the camera
Best view—Face recognition
Video output formats
Additional information about the camera
is found in the TANDBERG PrecisionHD
1080p User Guide.
Cameras in daisy chain
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The PrecisionHD 1080p camera
Video out (HDMI, HD-SDI). For video signals, connect from the
video out on the camera to the video in on the codec.
The orange LED illuminates while in a
call and flickers when there is an
incoming call.
Power and camera control. For power in and camera control,
connect from the camera control & power on the camera to
the Camera port on the codec. When the camera is used with
TANDBERG codecs power will be supplied through Camera Control
cable. When used with non-TANDBERG Codecs, you may have to
connect power separately.
The lens hood is detachable.
We recommend that you
mount it to prevent stray light
from disturbing your video
experience.
HDMI and HD-SDI
Just snap it on gently.
•
•
•
HDMI is the main source for video out when connected to Codec
C90. Maximum resolution is 1080p60.
HD-SDI is the secondary source for video. Maximum resolution
is 1080p30.
The HDMI and HD-SDI can be used simultaneously. The
maximum resolution is then 1080p30 if you want both to run with
the same resolution.
Th
green
is continuo
Kensington lock
The Kensington lock may be used to prevent the camera to be
moved from its place or to prevent theft.
illuminated when
is On, but it flickers
receiving signals fr
the remote control.
Cascaded cameras
The sockets named Extra Camera Out and Power In are used when
connecting cameras in daisy chain.
•
The first camera in the chain is powered up by the camera
control cable. The next cameras must use the 12V DC Power in.
HDMI and HD-SDI can be
used simultaneously.
•
The daisy chained cameras are connected by using an extra
camera cable between the Extra Camera sockets.
Kensington lock
Not Used
Power Supply
Camera Control
HDMI Video Out
See the TANDBERG PrecisionHD 1080p User Guide for
comprehensive information about the camera.
Extra Camera Out and for Daisy Chaining
HD-SDI Out
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Connecting the camera
The HDMI and HD-SDI can be used
simultaneously.
HDMI cable
The HDMI cable delivered with the camera is
5 meters.
Maximum length is 15 meter with a category 2
certified good quality HDMI cable.
HD-SDI cable
HD-SDI socket
The HD-SDI cable must be purchased
separately. The maximum recommendable
length of HD SDI cable is 100m.
HDMI to DVI-D adapter
The HDMI to DVI-D adapter is used when
connecting to a TANDBERG MXP codec or
TANDBERG Video Switch
HDMI and HD-SDI
can be used simultaneously.
Power supply connection
is NOT needed when the
camera is used with a
TANDBERG Codec.
Connect the camera control cable, RJ45 to RS-232.
Visca™ protocol is supported.
Connecting HDMI HD Video out on camera to HDMI 1 In on the Codec.
If you need to connect the camera to a TANDBERG Video Switch or to a system with a DVI-D socket, use
the enclosed HDMI to DVI-D adapter.
VISCA™ is a trademark of Sony Corporation
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Best view—Face recognition
This camera is capable of face recognition when used with
TANDBERG C90 Codecs. Consequently, the functionality is subject
to change without further notice in order to take advantage of further
developments.
NOTE: Observe that the Best view feature is still a preview feature.
The face recognition system aims to search for faces in order to
optimize the picture frame, hence the name Best view. Once a face
or group of faces has been detected camera zoom and camera angle
will be changed accordingly to obtain an optimal presentation on the
screen.
Kindly observe the following:
•
•
The Best view optimization process may take up to 5 seconds.
The detection of faces works better when people look towards the
camera.
•
•
The area from the eyebrows down to just below the lips should be
uncovered.
Best view (beta)
Exit
Beard is normally not a problem.
Press the corresponding
Soft key to start the Best
view optimization process.
Using Best view
Note that Best view works with TANDBERG C90 Codecs only!
The Best view feature is found
in the Camera control menu.
1. Press the
Layout key on the remote control to display the
Layout menu. Select Selfview to be shown as required.
2. Press the
Home key on the remote control to display the
Home menu and select Camera control
3. In the Camera control menu, locate the Best view button at the
bottom of the screen.
4. Press the corresponding Soft key on the remote control to start
the Best view optimization process. Look towards the camera for
about five seconds.
1.@
4 ghi
2 abc
5 jkl
8 tuv
0
def 3
mno 6
wxyz 9
7 pqrs
5. The system will now look for human faces and adjust the zoom
and camera angle to obtain a best fit.
abc/123
#
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Video output formats
This section describes the video output formats for the TANDBERG
PrecisionHD 1080p camera.
DIP switch settings for video output formats
The video output format for the camera is set by DIP switches. The
DIP switches are found on the bottom side of the camera.
DIP Switch table for video formats
1
0
1
2
3
4
5
HDMI
HD-SDI
The default setting is Auto. When using HDMI, the video output format
is automatically detected. See the table to the right.
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Auto
Maximum resolution for HDMI is 1080p60.
Maximum resolution for HD-SDI is 1080p30.
The DIP switch
0
0
0
0
0
0
0
1
1
0
0
0
1
1
1
1
0
0
0
1
1
0
0
1
1
0
0
1
0
1
0
1
0
1
0
1
1920x1080p25
1920x1080p30
1920x1080p50
1920x1080p60
1280x720p25
1280x720p30
1280x720p50
1280x720p60
1920x1080p25
1920x1080p30
1280x720p50
1280x720p60
1280x720p25
1280x720p30
1280x720p50
1280x720p60
Line voltage frequency
The camera will automatically detect the line voltage frequency when it
is 50 or 60Hz. You may set the video output format to a specific value
(use the DIP switches) to override the auto frequency detection, if a
different line voltage frequency is an issue.
Software control
The table shows the different settings available for the HDMI and
the HD-SDI outputs.
Bottom side of the TANDBERG
PrecisionHD 1080p camera
Auto: Camera negotiates format over HDMI. HD-SDI tracks HDMI
and defaults to 1080p30 in absence of HDMI sync.
Software: For more on the Software control setting, read about
video mode selections in the TANDBERG PrecisionHD 1080p User
Guide.
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Cameras in daisy chain
Example. Four daisy chained TANDBERG PrecisionHD 1080p cameras.
A single daisy chain can have up to seven cameras.
Power in
12V DC
Power in
12V DC
Power in
12V DC
Cascaded cameras
The sockets named Extra Camera and Power In
are used when connecting cameras in daisy chain.
Main
camera
Second
camera
Third
camera
Fourth
camera
•
HDMI and HD-SDI. The HDMI and HD-SDI can
be used simultaneously on the same camera.
•
Power. The first camera in the chain is powered
up from the codec by the VISCA camera control
cable. Additional cameras must use the 12V DC
Power in.
•
Extra camera cable. The daisy chained
cameras are connected by using the VISCA
Extra Camera cable between the Extra Camera
In and Codec Control In sockets
RJ11–RJ45
RJ11–RJ45
RJ11–RJ45
Connect to the
Camera Control
socket on the
Connect to the
Video Input 1
on the codec
Connect to the
Video Input 2
on the codec
Connect to the
Video Input 3
on the codec
Connect to the
Video Input 4
on the codec
Codec. When used
with TANDBERG
Codecs, this first
camera will need
no power supply
connected.
VISCA™ is a trademark of Sony Corporation
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Chapter 9
Appendices
In this chapter...
Software upgrade
Upload certificates
XML files
Log files
NTP Time Zone expression
Supported RFCs in SIP
Remote Control TRC5
Remote Control key map
PrecisionHD camera
CE Declaration
China RoHS
Codec C90 dimensions
PrescisionHD 1080p dim.
PrescisionHD dimensions
License information
Technical specifications
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Software upgrade
The software upgrade procedure
Contact your TANDBERG representative to obtain the software upgrade file.
The Upgrade tab lets you select the software
upgrade file for TANDBERG Codec C90 and install
the new software.
Please follow the procedure described on this
page.
1. Open a web browser and enter the
IP address to connect to the Codec
C90 by HTTP
2. Select the Upgrade tab
3. Click Browse... and locate the
upgrade file (.PKG)
4. Click the Install software button to
start the installation.
5. Leave the system for a few minutes
to allow the installation process to
complete. The upgrade process
takes about 4–5 minutes.
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Upload certificates
The certificates upload procedure
Contact your system administrator to obtain the required files (.PEM format).
The Upload certificates tab lets you upload a CA list
(ROOT certificate) to authenticate TLS connections
on SIP and a HTTPS certificate to enable HTTPS.
The system administrator issues/obtains and installs
unique certificates to each system.
How to upload the certificate
For TLS connections a ROOT Certificate (CA-list) can
be uploaded from the web interface.
1. Open a web browser and enter the IP
address to connect to the Codec C90
by HTTP.
When the SIP setting TlsVerify is enabled, only TLS
connections to servers, whom x.509 certificate is
validated against the CA-list, will be allowed.
2. Select the Upload certificates tab
Go to: Settings > Administrator settings > Advanced
configuration > SIP > Profile > TlsVerify
3. Click Browse... and locate the
certificate files (.PEM)
To install a certificate, you need:
•
•
•
•
HTTPS certificate ( .PEM format)
ROOT certificate ( .PEM format)
Private key ( .PEM format)
Passphrase (optional)
4. Type in the Passphrase
5. Click the Upload button to start the
certificate installation.
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XML files
View XML files
The XML files tab gives a complete overview of the
status of the system and the commands available
on XML format.
Select the XML file to see a tree structure of all the configuration commands
Configuration
Configuration type commands defines the system
settings and are controlled from the Administrator
Settings menu or from the API. Configuration type
commands are either supplied or read by the user.
Example: Set IP addresses, default presentation
source, standby delay, and enabling/disabling of
various features etc.
The configuration commands are structured in
a hierarchy, making up a database of system
settings.
Status
Status type commands returns information about
the system and system processes and are issued
from the API. Status type commands are read by
the user.
Example: Information generated by the system
about ongoing calls, network status, conference
status etc.
All status information is structured in a hierarchy,
making up a database constantly being updated by
the system to reflect system and process changes.
Command
Command type commands instructs the system
to perform an action and are issued from the API.
Command type commands are supplied by the
user.
Example: instructing the system to place a call,
mute/unmute microphones, disconnect a call, etc.
A Command type command is usually followed by
a set of parameters to specify how the given action
is to be executed.
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Log files
Debug log files
Select a debug log file by clicking on the name of the file.
In the Logs tab you will find debug log files.
These are TANDBERG specific debug files which
may be required by TANDBERG in the need of
technical support.
Some of the log files can be opened or saved.
Some of the log files can be saved.
You will then see the following dialog
box:
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NTP Time Zone expressions
With reference to the setting xConfiguration Time Zone: <S: 0, 100> which is described in the xConfiguration section.
Specifies the NTP time zone where the system is located.
America/Cordoba
America/Inuvik
America/Costa_Rica
America/Cuiaba
America/Iqaluit
Example 1: xConfiguration Time Zone: “America/New_York”
Example 2: xConfiguration Time Zone: “Etc/UTC”
America/Jamaica
America/Jujuy
America/Curacao
America/Danmarkshavn
America/Dawson
America/Juneau
NOTE: Spelling correctly is important when entering the NTP Time Zone expression.
America/Kentucky
America/Kentucky/Louisville
America/Kentucky/Monticello
America/Knox_IN
America/La_Paz
America/Dawson_Creek
America/Denver
Africa
Africa/Libreville
America/Argentina/Cordoba
America/Argentina/Jujuy
America/Argentina/La_Rioja
America/Argentina/Mendoza
America/Argentina/Rio_Gallegos
America/Argentina/San_Juan
America/Argentina/San_Luis
America/Argentina/Tucuman
America/Argentina/Ushuaia
America/Aruba
Africa/Abidjan
Africa/Accra
Africa/Lome
America/Detroit
Africa/Luanda
America/Dominica
Africa/Addis_Ababa
Africa/Algiers
Africa/Lubumbashi
Africa/Lusaka
America/Edmonton
America/Eirunepe
America/Lima
America/Los_Angeles
America/Louisville
America/Maceio
Africa/Asmara
Africa/Asmera
Africa/Bamako
Africa/Bangui
Africa/Banjul
Africa/Malabo
America/El_Salvador
America/Ensenada
America/Fort_Wayne
America/Fortaleza
Africa/Maputo
Africa/Maseru
America/Managua
America/Manaus
Africa/Mbabane
Africa/Mogadishu
Africa/Monrovia
America/Glace_Bay
America/Godthab
America/Marigot
Africa/Bissau
America/Asuncion
America/Martinique
America/Mazatlan
America/Mendoza
America/Menominee
America/Merida
Africa/Blantyre
Africa/Brazzaville
Africa/Bujumbura
Africa/Cairo
Africa/Nairobi
America/Atikokan
America/Goose_Bay
America/Grand_Turk
America/Grenada
Africa/Ndjamena
Africa/Niamey
America/Atka
America/Bahia
Africa/Nouakchott
Africa/Ouagadougou
Africa/Porto-Novo
Africa/Sao_Tome
Africa/Timbuktu
Africa/Tripoli
America/Barbados
America/Guadeloupe
America/Guatemala
America/Guayaquil
America/Guyana
Africa/Casablanca
Africa/Ceuta
America/Belem
America/Mexico_City
America/Miquelon
America/Moncton
America/Monterrey
America/Montevideo
America/Montreal
America/Montserrat
America/Nassau
America/Belize
Africa/Conakry
Africa/Dakar
America/Blanc-Sablon
America/Boa_Vista
America/Halifax
Africa/Dar_es_Salaam
Africa/Djibouti
Africa/Douala
Africa/El_Aaiun
Africa/Freetown
Africa/Gaborone
Africa/Harare
America/Bogota
America/Havana
Africa/Tunis
America/Boise
America/Hermosillo
America/Indiana
Africa/Windhoek
America
America/Buenos_Aires
America/Cambridge_Bay
America/Campo_Grande
America/Cancun
America/Indiana/Indianapolis
America/Indiana/Knox
America/Indiana/Marengo
America/Indiana/Petersburg
America/Indiana/Tell_City
America/Indiana/Vevay
America/Indiana/Vincennes
America/Indiana/Winamac
America/Indianapolis
America/Adak
America/New_York
America/Nipigon
America/Anchorage
America/Anguilla
America/Antigua
America/Araguaina
America/Argentina
America/Argentina/Buenos_Aires
America/Argentina/Catamarca
America/Argentina/ComodRivadavia
America/Caracas
America/Nome
Africa/Johannesburg
Africa/Kampala
Africa/Khartoum
Africa/Kigali
America/Catamarca
America/Cayenne
America/Noronha
America/North_Dakota
America/North_Dakota/Center
America/Cayman
America/Chicago
America/North_Dakota/New_Salem
America/Panama
Africa/Kinshasa
Africa/Lagos
America/Chihuahua
America/Coral_Harbour
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NTP Time Zone expressions, cont...
America/Pangnirtung
America/Paramaribo
America/Phoenix
America/Yellowknife
Antarctica
Asia/Dili
Asia/Rangoon
Atlantic/South_Georgia
Atlantic/St_Helena
Atlantic/Stanley
Australia
Asia/Dubai
Asia/Riyadh
Antarctica/Casey
Antarctica/Davis
Antarctica/DumontDUrville
Antarctica/Mawson
Antarctica/McMurdo
Antarctica/Palmer
Antarctica/Rothera
Antarctica/South_Pole
Antarctica/Syowa
Antarctica/Vostok
Arctic
Asia/Dushanbe
Asia/Riyadh87
Asia/Riyadh88
Asia/Riyadh89
Asia/Saigon
America/Port_of_Spain
America/Port-au-Prince
America/Porto_Acre
America/Porto_Velho
America/Puerto_Rico
America/Rainy_River
America/Rankin_Inlet
America/Recife
Asia/Gaza
Asia/Harbin
Australia/ACT
Asia/Ho_Chi_Minh
Asia/Hong_Kong
Asia/Hovd
Australia/Adelaide
Australia/Brisbane
Australia/Broken_Hill
Australia/Canberra
Australia/Currie
Australia/Darwin
Australia/Eucla
Australia/Hobart
Australia/LHI
Asia/Sakhalin
Asia/Samarkand
Asia/Seoul
Asia/Irkutsk
Asia/Istanbul
Asia/Jakarta
Asia/Shanghai
Asia/Singapore
Asia/Taipei
America/Regina
Asia/Jayapura
Asia/Jerusalem
Asia/Kabul
America/Resolute
America/Rio_Branco
America/Rosario
Asia/Tashkent
Asia/Tbilisi
Arctic/Longyearbyen
Asia
Asia/Kamchatka
Asia/Karachi
Asia/Kashgar
Asia/Katmandu
Asia/Kolkata
Asia/Tehran
Australia/Lindeman
Australia/Lord_Howe
Australia/Melbourne
Australia/North
Australia/NSW
America/Santiago
America/Santo_Domingo
America/Sao_Paulo
America/Scoresbysund
America/Shiprock
America/St_Barthelemy
America/St_Johns
America/St_Kitts
Asia/Aden
Asia/Tel_Aviv
Asia/Almaty
Asia/Thimbu
Asia/Amman
Asia/Thimphu
Asia/Tokyo
Asia/Anadyr
Asia/Aqtau
Asia/Krasnoyarsk
Asia/Kuala_Lumpur
Asia/Kuching
Asia/Kuwait
Asia/Ujung_Pandang
Asia/Ulan_Bator
Asia/Ulaanbaatar
Asia/Urumqi
Australia/Perth
Asia/Aqtobe
Australia/Queensland
Australia/South
Australia/Sydney
Australia/Tasmania
Australia/Victoria
Australia/West
Asia/Ashgabat
Asia/Ashkhabad
Asia/Baghdad
Asia/Bahrain
America/St_Lucia
America/St_Thomas
America/St_Vincent
America/Swift_Current
America/Tegucigalpa
America/Thule
Asia/Macao
Asia/Vientiane
Asia/Vladivostok
Asia/Yakutsk
Asia/Macau
Asia/Baku
Asia/Magadan
Asia/Makassar
Asia/Manila
Asia/Bangkok
Asia/Beirut
Asia/Yekaterinburg
Asia/Yerevan
Australia/Yancowinna
Brazil
Asia/Bishkek
Asia/Muscat
Atlantic
Brazil/Acre
America/Thunder_Bay
America/Tijuana
Asia/Brunei
Asia/Nicosia
Atlantic/Azores
Atlantic/Bermuda
Atlantic/Canary
Atlantic/Cape_Verde
Atlantic/Faeroe
Atlantic/Faroe
Atlantic/Jan_Mayen
Atlantic/Madeira
Atlantic/Reykjavik
Brazil/DeNoronha
Brazil/East
Asia/Calcutta
Asia/Choibalsan
Asia/Chongqing
Asia/Chungking
Asia/Colombo
Asia/Dacca
Asia/Novosibirsk
Asia/Omsk
America/Toronto
Brazil/West
America/Tortola
Asia/Oral
Canada
America/Vancouver
America/Virgin
Asia/Phnom_Penh
Asia/Pontianak
Asia/Pyongyang
Asia/Qatar
Canada/Atlantic
Canada/Central
Canada/Eastern
Canada/East-Saskatchewan
Canada/Mountain
America/Whitehorse
America/Winnipeg
America/Yakutat
Asia/Damascus
Asia/Dhaka
Asia/Qyzylorda
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NTP Time Zone expressions, cont...
Canada/Newfoundland
Canada/Pacific
Canada/Saskatchewan
Canada/Yukon
CET
Etc/GMT-2
Europe/Luxembourg
Europe/Madrid
Europe/Malta
Europe/Mariehamn
Europe/Minsk
Europe/Monaco
Europe/Moscow
Europe/Nicosia
Europe/Oslo
GMT+0
Navajo
Pacific/Tarawa
Pacific/Tongatapu
Pacific/Truk
Pacific/Wake
Pacific/Wallis
Pacific/Yap
Poland
Etc/GMT-3
GMT0
NZ
Etc/GMT-4
GMT-0
Greenwich
Hongkong
HST
NZ-CHAT
Etc/GMT-5
Pacific
Etc/GMT-6
Pacific/Apia
Pacific/Auckland
Pacific/Chatham
Pacific/Easter
Pacific/Efate
Chile
Etc/GMT-7
Chile/Continental
Chile/EasterIsland
CST6CDT
Etc/GMT-8
Iceland
Indian
Etc/GMT-9
Portugal
Etc/Greenwich
Etc/UCT
Indian/Antananarivo
Indian/Chagos
Indian/Christmas
Indian/Cocos
Indian/Comoro
Indian/Kerguelen
Indian/Mahe
Indian/Maldives
Indian/Mauritius
Indian/Mayotte
Indian/Reunion
Iran
posixrules
PRC
Cuba
Europe/Paris
Pacific/Enderbury
Pacific/Fakaofo
Pacific/Fiji
EET
Etc/Universal
Etc/UTC
Europe/Podgorica
Europe/Prague
Europe/Riga
PST8PDT
ROC
Egypt
Eire
Etc/Zulu
Pacific/Funafuti
Pacific/Galapagos
Pacific/Gambier
Pacific/Guadalcanal
Pacific/Guam
ROK
EST
Europe
Europe/Rome
Europe/Samara
Europe/San_Marino
Europe/Sarajevo
Europe/Simferopol
Europe/Skopje
Europe/Sofia
Singapore
Turkey
EST5EDT
Europe/Amsterdam
Europe/Andorra
Europe/Athens
Europe/Belfast
Europe/Belgrade
Europe/Berlin
Europe/Bratislava
Europe/Brussels
Europe/Bucharest
Europe/Budapest
Europe/Chisinau
Europe/Copenhagen
Europe/Dublin
Europe/Gibraltar
Europe/Guernsey
Europe/Helsinki
Europe/Isle_of_Man
Europe/Istanbul
Europe/Jersey
Europe/Kaliningrad
Europe/Kiev
Etc
UCT
Etc/GMT
Universal
US
Etc/GMT+0
Etc/GMT+1
Etc/GMT+10
Etc/GMT+11
Etc/GMT+12
Etc/GMT+2
Etc/GMT+3
Etc/GMT+4
Etc/GMT+5
Etc/GMT+6
Etc/GMT+7
Etc/GMT+8
Etc/GMT+9
Etc/GMT0
Etc/GMT-0
Etc/GMT-1
Etc/GMT-10
Etc/GMT-11
Etc/GMT-12
Etc/GMT-13
Etc/GMT-14
Pacific/Honolulu
Pacific/Johnston
Pacific/Kiritimati
Pacific/Kosrae
Pacific/Kwajalein
Pacific/Majuro
Pacific/Marquesas
Pacific/Midway
Pacific/Nauru
US/Alaska
US/Aleutian
US/Arizona
US/Central
US/Eastern
US/East-Indiana
US/Hawaii
US/Indiana-Starke
US/Michigan
US/Mountain
US/Pacific
US/Pacific-New
US/Samoa
UTC
Europe/Stockholm
Europe/Tallinn
Europe/Tirane
Europe/Tiraspol
Europe/Uzhgorod
Europe/Vaduz
Europe/Vatican
Europe/Vienna
Europe/Vilnius
Europe/Volgograd
Europe/Warsaw
Europe/Zagreb
Europe/Zaporozhye
Europe/Zurich
Factory
iso3166.tab
Israel
Jamaica
Japan
Kwajalein
Libya
localtime
Pacific/Niue
MET
Pacific/Norfolk
Pacific/Noumea
Pacific/Pago_Pago
Pacific/Palau
Mexico
Mexico/BajaNorte
Mexico/BajaSur
Mexico/General
Mideast
Pacific/Pitcairn
Pacific/Ponape
Pacific/Port_Moresby
Pacific/Rarotonga
Pacific/Saipan
Pacific/Samoa
Pacific/Tahiti
WET
Mideast/Riyadh87
Mideast/Riyadh88
Mideast/Riyadh89
MST
W-SU
zone.tab
Europe/Lisbon
Europe/Ljubljana
Europe/London
GB
Zulu
GB-Eire
GMT
MST7MDT
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•
•
•
•
•
•
•
•
•
•
•
RFC 4574 The Session Description Protocol (SDP) Label Attribute
RFC 4582 The Binary Floor Control Protocol
RFC 4585 Extended RTP Profile for RTCP-Based Feedback
RFC 4587 RTP Payload Format for H.261 Video Streams
RFC 4629 RTP Payload Format for ITU-T Rec. H.263 Video
RFC 5168 XML Schema for Media Control
Current RFCs and drafts supported in SIP
Supported RFCs in SIP
•
•
•
•
•
RFC 1889 RTP: A Transport Protocol for Real-time Applications
RFC 2190 RTP Payload Format for H.263 Video Streams
RFC 2327 SDP: Session Description Protocol
The RFC (Request for Comments) series contains technical and
organizational documents about the Internet, including the technical
specifications and policy documents produced by the Internet
Engineering Task Force (IETF).
RFC 2396 Uniform Resource Identifiers (URI): Generic Syntax
RFC 2429 RTP Payload Format for the 1998 Version of ITU-T Rec.
H.263 Video (H.263+)
RFC 4796 The SDP Content Attribute
•
•
RFC 2617 Digest Authentication
RFC 4583 SDP Format for BFCP Streams
RFC 2782 DNS RR for specifying the location of services (DNS
SRV)
draft-ietf-sipping-cc-transfer-06.txt
draft-ietf-avt-rtp-h264-rcdo-01.txt
•
RFC 2833 RTP Payload for DTMF Digits, Telephony Tones and
Telephony Signals
draft-ietf-avt-rtp-h264-params-01.txt
•
•
•
RFC 2976 The SIP INFO Method
RFC 3016 RTP Payload Format for MPEG-4 Audio/Visual Streams
Media capabilities supported in SIP
The audio and video media capabilities supported in SIP are the same
as for H.323.
RFC 3047 RTP Payload Format for ITU-T Recommendation
G.722.1
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
RFC 3261 SIP: Session Initiation Protocol
RFC 3262 Reliability of Provisional Responses in SIP
RFC 3263 Locating SIP Servers
RFC 3264 An Offer/Answer Model with SDP
RFC 3311 UPDATE method
RFC 3361 DHCP Option for SIP Servers
RFC 3420 Internet Media Type message/sipfrag
RFC 3515 Refer method
RFC 3550 RTP: A Transport Protocol for Real-Time Applications
RFC 3581 Symmetric Response Routing
RFC 3605 RTCP attribute in SDP
RFC 3711 The Secure Real-time Transport Protocol (SRTP)
RFC 3840 Indicating User Agent Capabilities in SIP
RFC 3890 A Transport Independent Bandwidth Modifier for SDP
RFC 3891 The SIP “Replaces” Header
RFC 3892 Referred-By Mechanism
RFC 3960 Early Media
RFC 3984 RTP Payload Format for H.264 Video
RFC 4028 Session Timers in SIP
RFC 4145 TCP-Based Media Transport in the SDP
RFC 4568 SDP:Security Descriptions for Media Streams
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TANDBERG Remote Control TRC5
Function keys: Represents shortcuts and advanced
functions. Each key reflects a soft key on screen.
Presentation: Press the
key to show/hide a presentation.
key to zoom the camera in
Microphone: Press the
key to toggle the microphones on/off.
Zoom: Press the + or – on the
and out.
Volume: Press the + or – on the
key to adjust the codec
volume.
Arrows:
•
•
•
Up/Down: Use the and arrow keys to navigate in the
menu.
OK/Select: Press the
Phone book: Press the
Home: Press the
key to confirm your choice or selection.
key to display the local Phone book.
key to key to show the menu on screen.
Arrow Right: Press the arrow key to expand the selected
menu item or to move to the right in a text field.
Arrow Left: Press the arrow key to go one step back in
the menu or to move to the left in a text field.
Layout: Press the
key to display the Layout menu, then
select a view in the menu.
Call: Using the
key:
1.@
4 ghi
2 abc
5 jkl
8 tuv
0
def 3
mno 6
wxyz 9
INITIATE A CALL: Select a name from the Phone book or enter the
name, number or URI and press the Call key to initiate the call.
End call/Standby: Press the
idle, press and hold the key to go into standby mode.
key to end a call, or when
SHORTCUT TO RECENT CALLS: Use the Call key as a shortcut to
Recent Calls when the Call menu is not visible.
7 pqrs
Alphanumeric keypad: Use the keypad in the same way as you
would use a cellular phone.
Clear: Press the key to remove characters in a text field.
abc/123
#
•
0-9, a-z, period (.), @, space, *: Press a key repeatedly to
toggle between the options displayed on each key.
•
abc/123 #: Press the # key to toggle between touch tones
mode (long press), lower case characters and numbers.
Waking up the system
IR transmitter range (DIP switch setting)
Grab the remote control and make sure your hand
touches the rubber line sensors going along both
sides of the remote control.
The IR transmitter has a short and long range. Open the battery
cover and remove the batteries to set the DIP switch.
•
•
Short range (1 m): Move the DIP switch down.
Longer range: Move the DIP switch up.
or: Touch any key on the remote control.
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TANDBERG Remote
Button codes - Remote control TRC5
Button codes - Remote control TRC5
IR Signal parameters
Control TRC5 key map
Dec
0
Hex
0
Address
Button name
Dec
33
34
35
36
37
38
39
–
Hex
21
22
23
24
25
26
27
–
Address
Button name
Ok
Name
Description
The TANDBERG Remote control TRC5 has the
following button codes and IR signal parameters.
0
0
0
0
0
0
Protocol
1
1
0
Number 1
Call
Reference frequency
End call
Phone book
Layout
2
2
0
0
0
0
0
0
0
0
0
0
0
Number 2
Number 3
Number 4
Number 5
Number 6
Number 7
Number 8
Number 9
Number 0
*
Address
3
3
IR wavelength
IR carrier frequency
4
4
Clear
5
5
6
6
7
7
41
42
43
44
45
46
–
29
2A
2B
2C
2D
2E
–
8
8
0
0
0
0
0
Soft key 1
Soft key 2
Soft key 3
Soft key 4
Soft key 5
9
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
0A
0B
0C
0D
0E
0F
10
11
12
13
14
15
16
17
18
19
1A
1B
1C
1D
1E
1F
20
#
–
–
–
–
–
–
0
Presenter
51
33
0
Home
0
0
Zoom out
Zoom in
0
0
0
Volume down
Volume up
Microphone off
0
0
0
0
Arrow up
Arrow down
Arrow left
Arrow right
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The PrecisionHD camera
This page describes the TANDBERG PrecisionHD camera, which was
the first TANDBERG HD camera.
Connecting the camera
Video out. For video out signals, connect from the HDMI on the
camera to a HDMI video input on the codec.
Power and camera control. For power in and camera control,
connect from the camera control & power on the camera to the
Camera port on the codec.
HDMI
•
HDMI is the main source for video out when connected to a Codec
C90. Maximum resolution is 1280x720p30
•
This output does not support HDCP (High Bandwidth Digital
Content Protection).
Cascaded cameras
VISCA
Daisy
chain
Power in
12 V DC
HDMI
video
out
Camera
control &
Power
Kensington
lock
The sockets named Extra Camera and Power In are used when
connecting cameras in daisy chain.
•
The first camera in the chain is powered up by the camera control
cable. The next cameras must use the 12V DC Power in.
Pin-out—VISCA Daisy chain
•
The daisy chained cameras are connected by using an extra
camera cable (maximum length ## m) between the Extra Camera
sockets.
Pin-out—VISCA camera control
Pin-out—TANDBERG camera cable
RJ45 (8 pin) to D-SUB
RJ 6 pins modular jack
Signal name
RJ 8 pins shielded modular jack
Pin
Pin
Signal name
Signal
name
RJ45
pin
D-SUB
pin
6
GND
8
+12V (presence 2.8mA current
source when connected in daisy
chain)
Kensington lock
5
4
3
2
1
GND
+12V DC
GND
RX
1
2
3
6
4
5
7
8
Twisted
pair
4
5
2
3
1
6
5
4
The Kensington lock may be used to prevent the camera to be moved
from its place or to prevent theft.
RXD (in)
7
6
5
4
3
2
1
GND
TXD (out)
Twisted
pair
TXD (out)
NC (no connect)
NC (no connect)
RXD (in)
Presence (12V in daisy chain)
GND
TX
NC
Twisted
pair
NC
GND
+12V DC
Twisted
pair
GND
+12V
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CE Declaration for Codec C90
For an official, signed version of this document, or details regarding documentation from
the technical construction file, please contact TANDBERG.
EC Declaration of conformity
MANUFACTURER:
PRODUCT NAME:
TYPE NUMBER:
DESCRIPTION:
TANDBERG Telecom AS
TANDBERG Codec C90
TTC6-09
Video Conferencing Equipment
DIRECTIVES:
LVD 2006/95/EC
This equipment complies with.
EMC 2004/108/EC
HARMONIZED STANDARDS:
EN 60950-1:2001, A11:2004
EN 55022 (2006)
Applied in order to verify compliance with
directives.
EN 55024 (1998) + A1 (2001) + A2 (2003)
EN 61000-3-2 (2006)
EN 61000-3-3 (1995) + A1 (2001) + A2 (2005)
TEST REPORTS and
Reports:
Certificates No.:
106684
CERTIFICATES ISSUED BY:
LVD (Nemko AS)
EMC (Nemko AS)
E08517.00
TECHNICAL CONSTRUCTION FILE NO.:
X14347
2008
YEAR WHICH THE CE-MARK WAS AFFIXED:
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China RoHS table
This product complies with the Chineese RoHS.
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TANDBERG Codec C90 dimensions
Dimensions in mm.
Front view
Left side view
32,0
465,0
486,0
442,0
Top view
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PrecisionHD 1080p camera dimensions
142,0
4,4
105,0
148,1
105,9 (eye centre)
20,5
32,2
62,4
2,5
2,5
220,0
125,4
190,0
ø
79,6
63,0
14,0
114,6
34,5
106,3°
191,0
ø
82,0
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•
1280x720@30 fps (720p30)
1280x720@25 fps (720p25)
•
•
•
•
•
1280x768@60fps (WXGA)
1024x768@60fps (XGA)
1280x1024@60fps (SXGA)
640x480@60fps (VGA)
800x600@60fps (SVGA)
set for balanced line level
Technical specifications
•
•
•
2 x RCA/Phono, Line Level: Stereo PC input
2 x RCA/Phono, Line Level: Stereo auxiliary/
DVD input
2 x DVI-I inputs, supported formats:
UNIT DELIVERED COMPLETE WITH:
•
2 x HDMI, digital: Stereo PC/DVD inputs
Analog (VGA):
Video conferencing codec, remote control,
rack mounting rails, LAN cable, power cable
•
•
•
•
•
•
•
•
•
•
•
•
•
1024x768@60, 70, 75, 85 fps (XGA)
1280x1024@60, 75 fps (SXGA)
Digital (DVI-D):
AUDIO OUTPUTS (8 OUTPUTS)
1 x COMPOSITE OUTPUT (BNC CONNECTOR),
supported formats:
•
•
2 x XLR, balanced line level, stereo main audio
BANDWIDTH
2 x RCA/Phono, line level, stereo main audio,
configurable to S/PDIF
•
PAL/NTSC
•
•
H.323/SIP up to 6 Mbps point-to-point
Up to 10 Mbps total MultiSite bandwidth
1920x1080@60 fps (1080p60)
1920x1080@50 fps (1080p50)
1920x1080@30 fps (1080p30)
1920x1080@25 fps (1080p25)
1280x720@60 fps (720p60)
1280x720@50 fps (720p50)
640x480@60 fps (480p60)
800x600@60 fps (SVGA)
•
2 x RCA/Phono, line level, stereo to recording
device
VESA Monitor Power Management
FIREWALL TRAVERSAL
•
•
1 x HDMI, digital, stereo main audio
LIVE VIDEO RESOLUTIONS (ENCODE/DECODE)
•
•
TANDBERG Expressway™ Technology
H.460.18, H.460.19 Firewall Traversal
1 x HDMI, digital, stereo to recording device
•
•
•
•
•
•
•
•
•
•
•
•
•
176x144@30fps (QCIF)
352x288@30fps (CIF)
DUAL STREAM
VIDEO STANDARDS
H.261, H.263, H.263+, H.264
512x288@30fps (w288p)
576x448@30fps (448p)
768x448@30fps (w448p)
704x576@30fps (4CIF)
•
•
•
•
H.239 (H.323) dual stream
BFCP (SIP) dual stream
•
1024x768@60, 70, 75, 85 fps (XGA)
1280x1024@60, 75 fps (SXGA)
Available in MultiSite from any site
VIDEO FEATURES
Support for resolutions up to 1080p30 in both
main stream and dual stream simultaneously
•
•
•
•
Native 16:9 Widescreen
Advanced Screen Layouts
Intelligent Video Management
Local Auto Layout
1024x576@30fps (w576p)
640x480@30fps (VGA)
2 x YPbPr inputs, supported formats:
•
•
•
•
•
•
•
•
•
1920x1080@60fps (1080p60)
1920x1080@50fps (1080p50)
1920x1080@30fps (1080p30)
1920x1080@25fps (1080p25)
1280x720@60fps (720p60)
1280x720@50fps (720p50)
1280x720@30fps (720p30)
720x576@50fps (576p50)
720x480@60fps (w480p60)
MULTISITE FEATURES
800x600@30fps (SVGA)
1024x768@30fps (XGA)
1280x1024@30fps (SXGA)
1280x720@30fps (HD720p30)
1920x1080@30fps (HD1080p30)**
•
•
4-way High Definition SIP/H.323 MultiSite
Full Individual audio and video transcoding up
to 1080p30
VIDEO INPUTS (13 INPUTS)
4 x HDMI inputs, supported formats:
•
Individual layouts in MultiSite CP (Takes out
SelfView)
•
•
•
•
•
•
•
•
•
•
1920x1080@60 fps (1080p60)
1920x1080@50 fps (1080p50)
1920x1080@30 fps (1080p30)
1920x1080@25 fps (1080p25)
1280x720@60 fps (720p60)
1280x720@50 fps (720p50)
640x480@60 fps (480p60)
800x600@60 fps (SVGA)
•
•
•
•
•
•
H.323/SIP/VoIP in the same conference
Best Impression (Automatic CP Layouts)
H.264, Encryption, Dual Stream from any site
IP Downspeeding
AUDIO STANDARDS
•
G.711, G.722, G.722.1, 64 bit & 128 bit MPEG4
AAC-LD, AAC-LD Stereo
AUDIO FEATURES
Dial in/Dial out
1 x S-Video/Composite input (BNC connectors)*
PAL/NTSC
•
•
•
•
•
•
CD-Quality 20KHz Mono and Stereo
Eight separate acoustic echo cancellers
8-port Audio mixer
Conference rates up to 10 Mbps
•
PROTOCOLS
1024x768@60, 70, 75, 85 fps (XGA)
1280x1024@60, 75 fps (SXGA)
Extended Display Identification Data (EDID)
•
•
H.323
SIP
Automatic Gain Control (AGC)
Automatic Noise Reduction
Active lip synchronization
VIDEO OUTPUTS (5 OUTPUTS)
4 x HD-SDI inputs, supported formats:
2 x HDMI outputs, 2 x DVI-I outputs, supported
formats:
EMBEDDED ENCRYPTION
•
•
•
•
1920x1080@30 fps (1080p30)
1920x1080@25 fps (1080p25)
1280x720@60 fps (720p60)
1280x720@50 fps (720p50)
•
•
•
•
H.323/SIP point-to-point and multipoint calls
Standards-based: H.235 v2 & v3 and AES
Automatic key generation and exchange
Supported in Dual Stream & MultiSite
AUDIO INPUTS (14 INPUTS)
•
•
•
1920x1080@60fps (HD1080p60)
1280x720@60fps (HD720p60)
1366x768@60fps (WXGA)
•
8 x microphone, 48V phantom powered, XLR
connector each with separate echo cancellers
and noise reduction, all microphones can be
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IP NETWORK FEATURES
STORAGE AND TRANSPORT TEMPERATURE
MTBF PRODUCT RELIABILITY/MTBF
•
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1920x1080@25fps
1280x720@60fps
1280x720@50fps
1280x720@30fps
1280x720@25fps
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DNS lookup for service configuration
Differentiated Services (QoS)
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-20° C to 60° C (-4° F to 140° F) at RH 10–90%
(non-condensing)
The predicted reliability is expressed in the
expected random Mean Time Between Failures
(MTBF) for the electronic components based on
the Power On Hours:
IP adaptive bandwidth management (including
flow control)
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APPROVALS
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Power On Hours (POH) > 69 000 hours
Useful Life Cycle > 6 years
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Directive 2006/95/EC (Low Voltage Directive)
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Auto gatekeeper discovery
Dynamic playout and lip-sync buffering
H.245 DTMF tones in H.323
Date and Time support via NTP
Packet Loss based Downspeeding
URI Dialing
Automatic or manual focus/brightness/
whitebalance
— Standard EN 60950-1
Directive 2004/108/EC (EMC Directive)
— Standard EN 55022, Class B
— Standard EN 55024
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Far-end camera control
ISO 9001 certificate is available upon request
Daisy-chain support (Visca protocol camera)
Dual HDMI and HD-SDI output
— Standard EN 61000-3-2/-3-3
Upside-down mounting with automatic flipping
of picture
November 2008
Approved according to UL 60950-1 and CSA
60950-1-07
TCP/IP
DHCP
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Complies with FCC15B Class B
SYSTEM MANAGEMENT
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Support for the TANDBERG Management Suite
SECURITY FEATURES
DIMENSIONS
Total management via embedded SNMP,
Telnet, SSH, XML, SOAP
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Management via HTTPS and SSH
IP Administration Password
Menu Administration Password
Disable IP services
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Length: 17.36”/44.1cm
Height: 3.67”/9.3cm
Depth: 11.8”/30cm
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Remote software upload: via web server, SCP,
HTTP, HTTPS
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1 x RS-232 local control and diagnostics
Remote control and on-screen menu system
Weight: 11.22 lbs/5.1 kg
Network Settings protection
NETWORK INTERFACES
DIRECTORY SERVICES
*not supported in version 1
**requires option
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2*** x separate LAN/Ethernet (RJ-45)
10/100/1000 Mbit
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Support for Local directories (My Contacts)
Corporate Directory
***only one LAN/Ethernet interface supported in
version 1
Unlimited entries using Server directory
supporting LDAP and H.350
OTHER INTERFACES
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USB host for future usage
USB device for future usage
GPIO*
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Unlimited number for Corporate directory
(through TMS)
All specifications subject to change without notice,
system specifics may vary.
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200 number local directory
Received Calls
PRECISIONHD 1080p CAMERA
Placed Calls
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1/3” CMOS
All images in these materials are for
representational purposes only, actual products
may differ.
Missed Calls with Date and Time
12 x zoom
+15°/-25° tilt, +/- 90° pan
43.5° vertical field of view
72° horizontal field of view
Focus distance 0.3m–infinity
1920 x 1080 pixels progressive @ 60fps
POWER
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Auto-sensing power supply
TANDBERG and Expressway are registered
trademarks or trademarks of TANDBERG in the
U.S. and other countries.
100–240 VAC, 50/60 Hz
175 watts max. for codec and main camera
Other formats supported (configurable through
Dip-switch):
OPERATING TEMPERATURE AND HUMIDITY
All other trademarks are property of their respective
owners.
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0° C to 35° C (32° F to 95° F) ambient
temperature
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1920x1080@60fps (HDMI only)
1920x1080@50fps (HDMI only)
1920x1080@30fps
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10% to 90% Relative Humidity (RH)
D14128.02—NOVEMBER 2008
129
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Codec C90
System Integrator Guide
Contact us
Contents
Introduction
Getting Started
Interfaces
About the API
xConfiguration
xCommand
xStatus
Cameras
Appendices
U.S. HEADQUARTERS
TANDBERG
EUROPEAN HEADQUARTERS
TANDBERG
1212 Avenue of the Americas
24th Floor
Philip Pedersens vei 20
1366 Lysaker
New York, NY 10036
Telephone: +1 212 692 6500
Fax: +1 212 692 6501
Video: +1 212 692 6535
Norway
Telephone: +47 67 125 125
Fax: +47 67 125 234
Video: +47 67 126 126
E-mail: [email protected]
E-mail: [email protected]
D14128.02—NOVEMBER 2008
130
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