Network Technologies Network Card ASI IP GTW User Manual

Flashlink User Manual  
ASI-IP-GTW  
DVB-ASI to IP  
Gateway  
Rev. 2.10.0  
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ASI-IP-GTW User's Manual  
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ASI-IP-GTW User's Manual  
Important notice:  
Network Electronics ASA reserve the right to make corrections,  
modifications, enhancements, improvements and other changes to its  
products or services at any time and to discontinue any product or  
service without notice.  
About this manual  
This manual explains how to operate the ASI-IP-GTW IP to ASI Video  
Gateway. It is shown how to install and maintain the unit. In addition,  
the functionality of the unit is described in detail.  
This manual should be kept in a safe place for reference for the life time  
of the equipment. Further copies of this manual can be ordered from  
Network. If passing the equipment to a third party, please ensure to  
pass all relevant documentation including this manual.  
Issues of this manual are listed below:  
Rev.  
1.1  
Date  
SW ver. Comment  
July 2005  
0.11.4  
1.1.0  
1.1.5  
Initial release  
2.0  
September 2005  
November 2005  
Release with FEC, VLAN and SFP interface  
2.1  
Intermediate release with implementations on  
iterative FEC, more on alarms and other general  
improvements.  
2.2  
January 2006  
April 2006  
May 2006  
July 2006  
1.2.2  
1.3.x  
1.3.x  
1.3.11  
Release with SNMP support as optional feature  
and support for UDP transmission mode  
2.3  
Release with bi-directional operation, and IGMPv3  
support.  
2.3b  
2.4  
Small patch on description of RTP sequence  
errors.  
Ping option (3.5.5), New clock options (3.5.2),  
Advanced tab on IPRX (3.7.4),  
Speed-/ duplex mode for management port (3.5.1)  
2.5  
2.6  
2.7  
Sept. 2006  
Oct. 2006  
1.3.18  
1.3.22  
1.3.33  
Added support for GPS module.  
Added support for User Security and RIPv2.  
March 2007  
SNMP tab, Burst/Spread mode, No lock mode,  
updated features list.  
2.8  
April 2007  
1.4.0  
Dual ASI, Increased FEC matrixes, VBR mode,  
new FEC alarm, password resetting.  
2.9  
November 2007  
January 2008  
2.20.4  
2.22.0  
Data channel ping, ASI bitrate limiter, Static MAC  
204 byte MPEG-2 transport stream support  
2.10  
How to use this manual  
Novice users unfamiliar with the Video Gateways from Network should  
read this manual starting with Chapter 1. Users familiar with the  
Network Video Gateways and operation of video over IP equipment may  
start with Chapter 2. Users which are more interested in the  
functionality offered by the ASI-IP-GTW may directly go to Chapter 3.  
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ASI-IP-GTW User's Manual  
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ASI-IP-GTW User's Manual  
Table of Contents  
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ASI-IP-GTW User's Manual  
1 Introduction  
1.1 Purpose of this Manual  
This manual describes how to operate the ASI to IP Gateway, hereafter  
referred to as the ASI-IP-GTW. It also describes how to install and  
maintain the unit. A detailed technical description of the functionality  
of the unit is given as part of this document.  
The following topics are covered in this manual:  
o General introduction to the ASI-IP-GTW  
o Installation of the Unit  
o Functional description of the Unit  
o Fault finding and maintenance  
1.1.1 Who Should Use this Manual  
This manual is written for operators and users of the ASI-IP-GTW and  
is meant to provide necessary information for installation, operation  
and day-to-day maintenance of the unit.  
Note: This manual does not include any maintenance information or  
procedures which require the removal of covers.  
1.1.2 Warnings, Cautions and Notes  
1.1.1.1 Heed Warnings  
All warnings on the product and in the operating instructions should  
be adhered to. The manufacturer can not be held responsible for  
injuries or damages where warnings and cautions have been ignored or  
taken lightly.  
1.1.1.2 Read Instructions  
All the safety and operating instructions should be read before this  
product is operated.  
1.1.1.3 Follow Instructions  
All operating and use instructions should be followed.  
1.1.1.4 Retain Information  
The safety and operating instructions should be retained for future  
reference.  
Warning: Warnings give information, if strictly observed, will prevent  
personal injury and death, or damage to personal property or the  
environment.  
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ASI-IP-GTW User's Manual  
Caution: Cautions give information, if strictly followed, will prevent  
damage to equipment or other goods.  
Note: Notes provides supplementary information. They are highlighted  
for emphasis, as in this example, and are placed immediately after the  
relevant text.  
1.2 Contact Information  
Our primary is to provide first class customer care that is tailored to  
your specific business and operational requirements.  
Telephone: +47 33 48 99 99  
Fax:  
+47 33 48 99 98  
Email:  
Web:  
Service:  
+47 90 60 99 99  
Mailing and visiting address:  
Network Electronics ASA  
Thorøya, P.O. Box 1020  
N-3204 Sandefjord  
Norway  
This manual does not include any maintenance information or  
procedures which require the removal of covers.  
1.2.1 What Equipment is Covered by this Manual  
This manual covers the ASI to IP Gateway. Figure 1 shows the physical  
unit.  
Figure 1. The product  
The ASI-IP-GTW consists of a 1RU high rack-mounted enclosure with a  
DSP module (Master Module) and 1 or 2 ASI I/O boards. Optical  
Gigabit or a second electrical Gigabit port is provided by an optional  
SFP (Small Form-Factor Pluggable) slot.  
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ASI-IP-GTW User's Manual  
1.2.2 Software versions  
This manual covers the functionality of the software version 1.4.0 or  
later of the ASI-IP-GTW. This manual continues to be relevant to  
subsequent software versions where the functionality of the equipment  
has not changed. When a new software version changes the  
functionality of the product, a new version of this manual will be  
provided.  
1.3 Role of the ASI-IP-GTW in a Typical System  
The ASI-IP-GTW provides a bridge between the MPEG-2 world and the  
IP world. The unit provides an interface between MPEG-2 transport  
streams, via DVB-ASI interface, to the IP based Network. It provides the  
ability to carry up to 8 individual MPEG-2 transport streams over an IP  
network. Each individual MPEG-2 transport stream is carried on an  
individual UDP port. At the reception site, the unit de-concentrates the  
MPEG-2 transport streams from the IP network, back to individual  
MPEG-2 transport streams and out through the DVB-ASI connections.  
Figure 2 provides an overview of the ASI-IP-GTW in transmit and  
receive mode.  
Figure 2. ASI-IP-GTW in a system  
1.4 Summary of Features  
Features of the ASI-IP-GTW include:  
o Transmission of MPEG-2 Transport Streams over Gigabit  
Ethernet.  
o MPTS/SPTS  
o Up to 8 DVB-ASI inputs/outputs  
o User configurable as transmitter or receiver  
o Flexible Forward Error Correction  
o Increased robustness against network packet losses  
o End to end Quality of Service  
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ASI-IP-GTW User's Manual  
o Type of Service (TOS) field support for reliable end-to-end  
transmissions  
o User-friendly configuration and control  
o WEB/XML based remote control  
o Easy access to unit from any WEB browser  
o Easy integration to Network Management System (NMS) with  
SNMP Trap support  
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ASI-IP-GTW User's Manual  
1.5 Guided Tour  
1.5.1 The User Interface  
All connectors are provided at the rear panel. Configuration and  
monitoring of the unit is performed via a FLASH-based WEB interface  
using a standard WEB browser such as Internet Explorer. The unit also  
supports configuration via file transfer of XML files. Once configured,  
the unit runs without the need for further intervention unless system  
configuration requirement change.  
1.5.2 Front Panel Description  
The front panel provides four LEDs per ASI-IP-GTW. Table 1 describes  
the meaning of the different LED indicators.  
Table 1. Front panel LEDs  
Indicator  
Colour  
Description  
Power  
Green  
This LED is lit when power is being received by the  
unit.  
Alarm  
IP TX  
Red  
Blue  
This LED is lit when a failure is detected by the unit.  
This LED is lit when the unit is configured to transmit  
data to the IP Network.  
IP RX  
Yellow  
This LED is lit when the unit is configured to receive  
data from the IP Network  
1.5.3 Rear Panel Description  
All connectors to the ASI-IP-GTW are provided at the rear panel. Figure  
3 shows the rear panel of a ASI-IP-GTW equipped with 4 DVB-ASI  
connectors.  
1. ASI. In IP TX mode, the connector provides a DVB-ASI input. In IP  
Rx mode, the connector provides a DVB-ASI output.  
2. Management port. The ASI-IP-GTW provide one Ethernet port for  
control and management of the unit.  
3. Ethernet data port. The ASI-IP-GTW provides one Ethernet data  
port for high speed signal transmission and reception.  
4. Alarm/RS232 Connector. This 9-pin male D-SUB connector  
provides RS232 access and alarm information.  
5. Technical Earth. The ASI-IP-GTW provide a Technical Earth.  
6. Mains Power Connection. This is the Power Supply Connection.  
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Note: Some units are delivered to use 48 VDC power. These units have  
a 3-pin power D-SUB connector instead of the mains connector.  
7. LEDs. The ASI-IP-GTW provides on the rear four LEDs related to the  
operation of the equipment. In addition, there are LEDs related to the  
ASI ports, the management port and the data port.  
1.5.4 Construction  
The ASI to IP Gateway consists of a main board and one or two ASI  
boards mounted horizontally in a screened, self-ventilated cabinet. The  
unit is 1RU high and two units can be mounted side-by-side in a 19  
inch rack. All inputs and outputs are available at rear panel and there  
are no front panel keypads or display. Figure 3 shows the rear panel of  
the unit.  
Figure 3. Rear view  
1.5.5 Hardware Options  
1.1.1.5 4 additional ASI ports  
The ASI-IP-GTW is at least fitted with 4 ASI ports from factory. 1 to 4 of  
these inputs are enabled from factory. As an option, the unit can be  
fitted with an additional ASI module, providing 4 additional ASI ports,  
which gives a total of 8 ASI ports.  
1.1.1.6 SFP Module  
As a factory option, the ASI-IP-GTW can be equipped with an SFP slot  
to feature optical Gigabit or a second, redundant electrical Gigabit port.  
The SFP module itself is not provided.  
1.1.1.7 GPS Module  
As a factory option, the ASI-IP-GTW can be equipped with a sync signal  
input module. This module gives the ASI-IP-GTW the option to sync to  
either a 1pps or 10MHz signal.  
1.1.1.8 SFP/GPS Module  
As a factory option, the ASI-IP-GTW can be equipped with an SFP slot  
to feature optical Gigabit or a second, redundant electrical Gigabit port.  
The SFP module itself is not provided. This module also includes a  
1pps input for use as a sync signal.  
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1.5.6 Software Options  
The following table describes the features available as software option.  
Please refer to  
Table 2. Functionality enabled through software licenses  
Functionality  
Max value  
Description  
Number of enabled ports  
8
The number of ASI ports enabled. This  
can be different from the number of ports  
physically mounted.  
Data port max. speed:  
Connect Control  
1000Mbit/s  
The speed of the data port can be  
100Mbit/s or 1000Mbit/s.  
NA  
NA  
NA  
Enabled supervision of the unit through the  
Connect software.  
Forward Error Correction  
Bi-directional operation  
Pro-MPEG Forward Error Correction  
enabled for use on all streams.  
Enables simultaneous transmission and  
reception of MPEG2 data on the Ethernet  
data interface.  
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ASI-IP-GTW User's Manual  
2 Installing the Equipment  
2.1 Introduction  
2.1.1 Read this first!  
The ASI-IP-GTW must be handled carefully and thoughtfully to prevent  
safety hazards and damage. Ensure that the personnel designated to  
install the unit have the appropriate skills and knowledge.  
Follow the instructions for installation and only use installation  
accessories recommended by the manufacturer.  
2.1.2 To inspect package content  
o Inspect the shipping container for damage. If your shipping  
container is damaged, keep the shipping container or cushioning  
material until you have inspected the contents of the shipment for  
completeness and have checked that the ASI-IP-GTW  
mechanically and electrically.  
o Verify that you received the following items and any optional  
accessories you may have ordered:  
o ASI to IP Gateway  
o Power cord  
o User’s manual  
Note: 48V DC versions do not ship with a power cord, but a male  
Power D-SUB connector for soldering to the supply leads.  
2.2 Installing the Equipment  
2.2.1 Selecting a site for the equipment  
The ASI-IP-GTW should not be placed where it will be a subject to  
extreme temperatures, humidity, or electromagnetic interference.  
Specifically, the site you select should meet the following requirements:  
o The ambient temperature should be between 0 to 50 degrees  
Celsius (32 and 122 degrees Fahrenheit).  
o The relative humidity should be less than 90 percent, non-  
condensing. Do not install the unit in areas of high humidity or  
where there is danger of water ingress.  
o Surrounding electrical devices should not exceed the  
electromagnetic field (RFC) standards for IEC 801-3, Level 2  
(3V/M) field strength.  
o Make sure that the equipment receives adequate ventilation. Do  
not block the ventilation holes on each side of the ASI-IP-GTW.  
o The power outlet should be within 1.8 meters (6 feet) of the ASI-IP-  
GTW.  
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o Where appropriate ensure that this product has an adequate level  
of lightning protection. Alternatively, during a lightning storm or  
whenever it is left unattended and unused for long periods of time,  
unplug it from the supply outlet and disconnect the output  
equipment. This prevents damage to the product due to lightning  
and power-line surges.  
Warning: If the Video Gateway has been subject to a lightning strike or  
the power surge which has stopped it working, disconnect the power  
immediately. Do not reapply power until it has been checked for safety.  
If in doubt, contact Network.  
2.2.2 To fix the equipment  
The ASI-IP-GTW is designed for stationary use. The ASI-IP-GTW is  
designed for installation in standard 19" racks. When installed in a  
rack, ensure that the unit is surely and safely installed and that the  
equipment has adequate through-flow of air.  
2.2.3 To cable the equipment  
Ensure that power supply cables are routed in such a way that they are  
not likely to be walked on or pinched by items placed upon or against  
them.  
Do not run ac power cables and signal cables in the same duct.  
2.2.4 Equipment access  
The ASI-IP-GTW has connectors at the rear. When installing the unit,  
ensure that the unit is installed to allow easy access to the rear of the  
unit.  
2.2.5 Ventilation  
Warning: Never push objects of any kind into this equipment through  
openings as they may touch dangerous voltage points or short-out  
parts that could result in a fire or electric shock. Never spill liquid of  
any kind on or into the product.  
Please observe the following:  
1. Openings in the cabinet are provided for ventilation and to ensure  
reliable operation of the product and to protect it from overheating.  
These openings must not be blocked or covered. This product  
should never be placed near or over a radiator or heat register. This  
product should not be placed in a built-in installation such as a  
rack unless proper ventilation is provided or the instructions have  
been adhered to.  
2. The fans contained in this unit are not fitted with dust/insect filter.  
Play particular attention to the environment in which it is to be  
used.  
The ASI-IP-GTW should be installed to allow adequate flow of free-  
air. Ensure that the ventilation holes on each side of the ASI-IP-  
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GTW are no not blocked and allow at least 50 mm free air-space at  
each side of the unit. The ASI-IP-GTW is designed to be stacked in  
19"racks without ventilation panels between. In systems with  
stacked units, it may be required to use forced-air cooling to reduce  
the operating ambient temperature.  
Figure 4 shows the air path through the unit.  
Figure 4. Air Path through the unit  
2.2.6 To connect the equipment  
Once the ASI-IP-GTW is installed in its intended operating position, it is  
ready to be connected to the rest of the system. The following figure  
shows the different equipment connections.  
Figure 5. Signal connections  
Remove mains supply previous to move or install the equipment.  
Ensure ESD precautions are observed whilst interconnecting  
equipment.  
1.1.1.9 ASI port  
The ASI-IP-GTW can be operated in three modes: IP Transmit, IP  
Receive, and IP bi-directional mode.  
In IP transmit mode, the equipment receives up to 8 DVB-ASI streams  
and sends them to the IP network. In this mode, connect the individual  
DVB-ASI input signals to the connectors marked with ASI. If you have  
ordered the unit with less than 4 ASI ports, the enabled ports starts at  
number 1 up to the number of ports ordered.  
In IP receive mode, the equipment receives an IP stream and sends the  
individual MPEG-2 transport streams out on the DVB-ASI connectors.  
In this mode, connect the DVB-ASI output to the input of the  
equipment to receive MEG-2 transport stream from the unit. If you  
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have ordered the unit with less than 4 ASI ports, the enabled ports  
starts at number 1 up to the number of ports ordered.  
In IP bi-directional mode, half the DVB-ASI connectors are used as  
inputs, and the other half as DVB-ASI outputs. ASI connectors 1, 2, 5  
and 6 are used as inputs, while ASI connectors 3, 4, 7 and 8 are used  
as outputs.  
1.1.1.10 Ethernet data port  
Connect the Ethernet data port to the network. In IP transmit mode,  
the ASI-IP-GTW will send an IP stream to the network. In IP receive  
mode, the ASI-IP-GTW will receive an IP stream from the network.  
1.1.1.11 Power supply  
Section 2.3 provides details of the power supply, protective earth and  
security. Read all these instructions, prior to connecting the unit to  
power mains.  
1.1.1.12 Management port  
The ASI-IP-GTW provides one Ethernet port for control and  
management. Connect the management port to the management  
network.  
1.1.1.13 Technical Earth  
Connect the Technical earth to a suitable earth point.  
1.1.1.14 Alarm  
The ASI-IP-GTW provides an alarm relay for connection to external  
alarm system.  
2.3 Power  
2.3.1 AC Power Supply  
The ASI-IP-GTW provides a wide-ranging power supply covering a rate  
voltage range 100-240Vac, 50/60Hz. Please refer to  
Appendix B: Technical Specification for a detailed specification of the  
AC power supply.  
2.3.2 Power Cable and Protective Earth  
Warning: This product should be operated only from the type of power  
source indicated on the marking label. Please consult a qualified  
electrical engineer or your local power company if you are not sure of  
the power supply to your business.  
1.1.1.15 General  
Ensure that the AC power cable is suitable for the country in which the  
unit is to be operated.  
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Warning: If the moulded plug fitted to the mains cable supplied with  
this unit is not required, please dispose of it safely. Failure to do this  
may endanger life as live ends may be exposed if the removed plug is  
inserted into a mains outlet.  
Caution: Power supply cords should be routed so that they are not  
likely to be walked on or pinched by items placed upon or against  
them, paying particular attention to cords at plugs, convenience  
receptacles, and the point where they exit from the appliance.  
The unit is supplied with a two meter detachable power supply cable  
equipped with the moulded plug suitable for Europe, UK or US.  
The wires in the mains cable are coloured in accordance with the wire  
colour code shown in Table 3.  
Table 3. Supply Cable wiring colours  
UK (BS 1363)  
Green-and yellow  
Blue  
EUROPE (CEE 7/7)  
Green-and yellow  
Blue  
USA (NEMA 5-15P)  
Earth:  
Neutral:  
Live:  
Green  
White  
Black  
Brown  
Brown  
1.1.1.16 Protective Earth /Technical Earth  
To achieve protection against earth faults in the installation, connected  
to the equipment by signal cables etc., the equipment should always be  
connected to protective earth. If the mains appliance coupler is  
disconnected while signal cables are connected to the equipment, earth  
connection should be achieved by connecting earth to the additional  
technical earth connection on the rear panel of the unit.  
Warning: This unit must be correctly earthed through the moulded  
plug supplied. If the local mains supply does not have an earth  
conductor do not connect the unit.  
Caution: Consult the supply requirements in  
Appendix B: Technical Specification prior to connecting the unit to the  
supply.  
The unit has a Technical Earth terminal located at the rear panel. Its  
use is recommended. This is not a Protective earth for electrical shock  
protection. The terminal is provided to:  
1. Ensure all equipment chassis fixed in the rack are at the same  
Technical earth potential. To achieve this, connect a wire between  
the Technical earth terminal and a suitable point on the rack.  
2. Eliminate the migration of stray charges when connecting between  
equipment.  
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Warning: If the terminal screw has to be replaced, use an M4x12mm  
long pozidrive panhead. Using a longer screw may cause a safety  
hazard.  
1.1.1.17 Connecting the Video Gateway to the AC Power Supply  
Warning: Do not overload wall outlets and extension cords as this can  
result in a risk of fire or electrical shock. As no power switch is fitted in  
this unit, ensure that the local ac power supply is switch off before  
connecting the supply cord. The unit is not fitted with an on/off switch.  
Ensure that the socket-outlet is installed near the equipment so that is  
easily accessible. Failure to isolate the equipment properly may cause a  
safety hazard.  
To connect the unit to the local AC power supply:  
1. Ensure that the local ac power supply is switch OFF.  
2. Connect the ac power lead to the Video Gateway mains input  
connector and then the local mains supply.  
2.3.3 Optional DC Power Supply  
The ASI-IP-GTW can be delivered with a 48 VDC power supply for use  
in environments where this is required. The DC power can tolerate a  
voltage range of 36 – 72 VDC. Please refer to  
Appendix B: Technical Specification for a detailed specification of the  
power supply.  
Units delivered with DC power supply, has a 3–pin male power D-SUB  
connector in stead of the standard Mains Power Connector. Also a  
female 3-pin D-SUB connector is supplied.  
The pin assignment is shown in Table 4.  
Table 4 DC power connector pin assignment  
Pin (placement)  
Specification  
1 (top)  
+ (positive terminal)  
2 (middle)  
3 (bottom)  
- (negative terminal)  
Chassis Ground  
To connect the unit to the local DC power supply:  
1. Use a soldering tool to attach the supplied loose female power D-  
SUB connector to your power leads (not supplied).  
2. Connect the power leads to your local power supply.  
3. Connect the DC power connector, with attached power leads, to the  
Video Gateway power input connector.  
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2.4 Signal Connections  
2.4.1 Introduction  
All signal connectors are located at the rear of the ASI-IP-GTW. For  
detailed specifications of the different interfaces, please refer to Chapter  
0. Please ensure that specified cables are used in order to ensure signal  
integrity and compliance with EMC requirements.  
The following figure shows the back panel of the ASI-IP-GTW.  
Figure 6. Rear panel connectors  
2.4.2 ASI ports  
The ASI-IP-GTW provides up to 8 DVB ASI ports. The unit can be  
delivered with 4 or 8 DVB ASI connectors. For the 4 ASI port version, 1,  
2, 3 or all 4 ports can be enabled.  
The operator can configure the unit as an IP transmitter, an IP receiver,  
or to IP bi-directional operation. In the IP transmitter mode, all enabled  
ASI ports are configured as DVB ASI inputs. In the IP receive mode, the  
ASI ports are configured as DVB ASI outputs. In IP bi-directional mode,  
half the DVB ASI ports are used as inputs, the other half as outputs  
Table 5. ASI ports  
Item  
Specification  
Safety status  
Type  
SELV  
Analogue  
Connector name  
Connector type  
Signal  
ASI 1,2,3,..., 8  
BNC 75 ohm socket  
Compliant with EN50083-9: 1998 Table B.1  
270Mbit/s  
Line rate  
Data rate  
0,1-213Mbit/s  
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1.1.1.18 DVB ASI input  
Inputs connected to the DVB ASI ports should be on DVB compliant  
transport streams in asynchronous serial format.  
Each DVB ASI connector has two LEDs associated with it; ASI Rx and  
Active. Both LEDs are lit when the ASI input is enabled and a DVB ASI  
stream is connected to the port. If the input is enabled, but no valid  
stream is connected to the port, only the ASI Rx LED is lit. If the ASI  
input is disabled none of the LEDs are lit.  
1.1.1.19 DVB ASI output  
When in IP receive mode, the ASI port will provide a DVB compliant  
transport stream. When no stream is received over the IP network, the  
output will be idle characters. If a stream is received, the output will be  
a combination of MPEG-2 transport stream data bytes and idle  
characters.  
The ASI Rx is always unlit when the ASI port is configured as an ASI  
output. The LED, designated Active, is lit when the output is enabled  
and unlit when the output is disabled.  
2.4.3 Ethernet data port  
The Ethernet port provides an electrical Ethernet data port. The default  
interface is 100Base-T. As an option, the port can be operated as  
1000Base-T. In this case the port can auto sense between 100 and  
1000 Mbits/s. The operator is able to force the interface speed to fixed  
100Mbit/s or fixed 1000Mbit/s. This is useful to minimize the  
synchronization time when reconnecting signal cables.  
Table 6. Ethernet data port  
Item  
Specification  
10/100/1000Base-T  
RJ45  
Type  
Connector type  
Two LEDs are associated with the Ethernet data port.  
For flexibility, the ASI-IP-GTW provides an optional Small Form-Factor  
Pluggable (SFP) slot to carry a copper or optical SFP, allowing  
customers to use different SFPs for special distance, cost, existing  
infrastructure, and future expansion requirements. The ASI-IP-GTW is  
prepared for electrical (1000Base-T) or optical 1000BASE-SX and  
1000BASE-LX SFP transceivers.  
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Table 7. Optional SFP Ethernet data port  
Item  
Specification  
Type  
Gigabit Ethernet, Small Form-Factor Pluggable  
(SFP) slot to carry copper or optical SFP,  
compatible with approved modules conforming to  
the Small Form-factor Pluggable Transceiver  
MultiSource agreements (Sept.14, 2000).  
Optical interface must comply with safety  
requirements IEC 60825 (Class 1) and 21 CFR  
1040.10 & 1040.11 (Class 1).  
Note: Please note that the optional SFP slot always provide Gigabit  
Ethernet. Other bitrates are not supported by the SFP slot.  
Note: Please note that data will not be available simultaneously on the  
electrical Ethernet port and the SFP slot. Through the user interface  
the user selects on which port the data should be available.  
2.4.4 Ethernet management port  
The ASI-IP-GTW is provided with an Ethernet management port for  
configuration and control. The interface is 100Base-T. Please connect  
the management port to the appropriate LAN for configuration and  
control.  
Table 8. Ethernet management port  
Item  
Specification  
SELV  
Safety status  
Type  
10/100Base-T  
RJ45  
Connector type  
Two LEDs are associated with the Ethernet management port.  
2.5 LEDs  
The ASI-IP-GTW is equipped with 4 LEDs at the front. The following  
table describes the meaning of the front LEDs.  
Table 9. Front panel LEDs  
Indicator  
Colour  
Description  
Power  
Green  
This LED is lit when power is being received by the  
unit.  
Alarm  
IP TX  
Red  
Blue  
This LED is lit when a failure is detected by the unit.  
This LED is lit when the unit is configured to transmit  
data to the IP Network.  
IP RX  
Yellow  
This LED is lit when the unit is configured to receive  
data from the IP Network  
The front LEDs are replicated at the rear panel.  
Each ASI port has two LEDs associated with it.  
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Table 10. ASI port LEDs  
Mode  
ASI Rx  
Unlit  
Lit  
Active  
Unlit  
Description  
IP Tx  
Input disabled (ASI input)  
Unlit  
Input enabled, no ASI stream detected (not in  
sync)  
Lit  
Lit  
Input enabled, ASI stream detected (in sync)  
Output disabled (ASI output)  
Output enabled  
IP Rx  
Unlit  
Unlit  
Unlit  
Lit  
Each Ethernet port (data and management) has two LEDs associated  
with it.  
Table 11. Ethernet port LEDs  
Traffic and link indicator  
Description  
Green  
Lit when link  
Blinks when data is transmitted or received.  
Speed indicator  
Unlit  
Description  
10Mbit/s  
Green  
100Mbit/s  
1000Mbit/s  
Yellow  
2.6 Powering Up/Down  
2.6.1 Before Powering up  
Before powering-up the unit, please check the following:  
o The unit is installed in a suitable location  
o The unit has been connected to external equipment as required  
2.6.2 Powering Up  
Power up the unit by inserting the power cable connected to a power  
source.  
The cooling fans will start up in a full-speed mode. When the unit has  
finished the start-up procedure, the fans will run at normal speed.  
Please check that the all cooling fans are rotating. If they are not,  
switch of the unit immediately.  
2.6.3 Powering Down  
To power down the unit, remove the power supply connection at the  
rear of the unit.  
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3 Operating the Equipment  
3.1 Introduction  
The ASI-IP-GTW is configured and controlled locally and remotely  
through a flash-based WEB interface. The only application required on  
the computer to use this interface is a WEB browser (Internet Explorer,  
Mozilla or Opera) and FLASH player 7.0. In order to connect to the user  
interface of the ASI-IP-GTW only enter the IP address of the  
management data port. The default IP address of the management port  
is 10.0.0.10. Please refer to Section 3.2 for information about how to  
change the IP address of the management port using the RS232  
connection.  
Note: FLASH player 7.0 or newer is required to use the WEB interface  
of the ASI-IP-GTW.  
If you don’t have FLASH player 7.0 or newer installed on your  
computer, this will be detected and you will be informed to install this  
prior to configuring the ASI-IP-GTW.  
Note: It is recommended to use Internet Explorer 6.0 or newer.  
The ASI-IP-GTW can be configured to transmit MPEG2 transport  
stream data over an Ethernet link or receive data from an Ethernet  
interface. In IP transmit mode (IP TX), up to 8 DVB ASI inputs are  
provided. In IP receive mode (IP RX), up to 8 DVB ASI output streams  
are provided. An optional mode for bi-directional operation (IP-TXRX) is  
available, where half the DVB ASI ports are used as inputs, and the  
other half as outputs.  
3.2 Changing the IP address of the unit  
The ASI-IP-GTW is configured with IP address 10.0.0.10 for the  
management port. There are two ways to change the IP address of the  
management port:  
1. Connect from a WEB browser and use WEB-interface to set IP  
address of management port (See section 3.5.1).  
2. Connect via RS232 via HyperTerminal (115200kb/s, 8, N, 1, no flow  
control). Type the following command:  
net ipconfig --ip (ip address) --mask (subnet mask) -  
-gw (gateway).  
Example:  
net ipconfig --ip 10.40.80.100 --mask 255.255.255.0 -  
-gw 10.40.80.1  
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This will result in the IP address 10.40.80.100. The subnet mask is set  
to 255.255.255.0 and the default gateway to 10.40.80.1.  
3.3 Looking at the WEB interface  
Figure 7 shows the Status page of the WEB-based user interface to the  
equipment.  
Figure 7. The overall status page  
Overall status: The top part of the page is the same for all pages. The  
type name of the product is given. In the upper left corner two bars are  
presented. The first is the progress bar which will show the progress of  
an action started, e.g. the download of a new parameter set. The  
activity bar will light every time the computer is requesting or sending  
data to the ASI-IP-GTW. Under normal operation, the activity bar shall  
twinkle regularly.  
Main menus: The WEB-based user interface of the ASI-IP-GTW consists  
of the following main pages: Status, Device Info, IP TX/IP RX, Network  
and Save/Load. Some of the main pages have a number of sub-pages.  
The following table gives an overview of the different pages.  
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Main tab (page)  
Sub-tab  
Description  
Status  
Current alarms  
Alarm log  
The current status of the unit is shown. The page  
shows pending alarms together with information  
about when the alarm appeared and the severity level  
of the alarm.  
The alarm log shows past alarms. Current alarms are  
not shown on alarm log.  
Device Info  
This gives information about the serial number and  
software version of the unit. In addition, the user can  
assign a name to the unit. The user can also change  
the operation mode (IP Transmit , IP Receive or both)  
or manually reset the device from this page.  
Network  
This is where IP address, subnet mask and default  
gateway is defined for management interface and  
data interface. In addition, for the data interfaces, the  
Advanced tab provides configuration of in-band  
management. The SFP tab provides information  
about the SFP.  
Time settings  
Alarms  
Set SNTP server address. Current time is shown if  
valid SNTP server is already defined.  
Provides a list of all alarms and configuration of  
severity level for the alarm events.  
SNMP  
Ping  
Set Trap Destination Servers.  
A page offering an interface to check for connectivity  
by pinging a remote host.  
Security  
RIP-2  
Enable or disable password protection, and change  
password.  
Show status, and change parameters for the Routing  
Information Protocol  
IP TX  
This is where each input is configured  
Main  
This is where the main parameters of each input are  
configured. In addition, status of each stream is  
shown.  
FEC  
This is where the FEC parameters are configured.  
Ethernet  
This is where VLAN tagging, and Static MAC is  
configured.  
Ping  
Main  
This is where Ping parameters for the IP channel is  
configured.  
IP RX  
This is where the outputs are configured.  
This is where the main parameters of the outputs are  
configured.  
FEC  
This is where the FEC parameters are configured.  
Ethernet  
This is where VLAN tagging, and Static MAC is  
configured.  
Ping  
This is where Ping parameters for the IP channel is  
configured.  
Advanced  
Advanced parameters related to buffer regulator.  
Overview of IP addresses UDP ports and bitrates.  
Save and load of configurations.  
Network  
Save/Load  
To select a page, just click on the tab of the page you want to view.  
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In order to activate a change in a parameter, you need to click the  
Apply button. The refresh button, will read back all parameters on the  
page from the unit.  
3.4 Status  
Figure 7 shows the overall status of the unit. This view shows a unit in  
IP receive mode. In this view a block diagram of the unit with ASI  
outputs and IP port is shown. The unit name and the mode are  
illustrated.  
Only licensed ASI ports are shown in the diagram. Each port is  
represented by an arrow indicating its direction, and the arrow is  
coloured depending on the status of the port: red on alarm, yellow on  
warning, green when OK and grey when the input is disabled from  
software. Each ASI port arrow is clickable, linking to the parameter sets  
for that port. The IP port arrow links to the Network page.  
The small circle in the body of the diagram shows the highest alarm  
level for internal alarms, i.e. alarms that are not associated with an  
input or an output port.  
The lower part of the page shows a current alarm table. Each line is  
associated with a current alarm condition. The line is coloured with the  
severity of the alarm; red when critical alarm and yellow for warning.  
The current alarm table contains the following information:  
Time: The time when the alarm appeared.  
Severity: The severity level of the alarm event. This can be Critical or  
Warning.  
Text: This gives a description of the alarm condition.  
Source: This parameter describes which module as created the alarm.  
Alarm ID: Each alarm condition has an alarm ID associated. This is a  
number. A detailed overview of the alarm conditions is given in section  
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3.5 Device Info  
Figure 8 shows the Device Info page.  
Figure 8. The device info page  
The upper part of the Device Info page contains product information.  
This includes the following parameters:  
Name: The name of the unit configured by the user.  
Product type: ASI-IP-GTW  
Serial number: A number which uniquely identifies the unit.  
Software version: The version number of the software running on the  
unit.  
Software build time: The time and date when the software was  
compiled.  
Internal temperature: The internal temperature of the unit shown in  
degrees Celsius and Fahrenheit.  
Flash Power LED: When this button is pressed, the power LEDs on rear  
and front of unit will flash for a short period. This functionality can be  
used to identify a unit in a rack.  
Mode of Operation: Select ‘ASI --> IP’ for IP transmit mode. In this  
mode the ASI connectors operate as inputs, and the MPEG2 transport  
streams on these can be transmitted on the Ethernet port.  
Select ‘ASI <-- IP’ for IP receive mode. In this mode, the ASI connectors  
operate as outputs, and transport streams can be mapped from the  
Ethernet port to the ASI outputs.  
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When the bi-directional feature is enabled, a third option ‘ASI <--> IP’ is  
available to operate half of the ASI connectors as inputs and the other  
half as outputs.  
Note that a mode switch requires a device re-boot, this is done  
automatically when pressing OK in the confirmation window that is  
displayed when a new mode is selected.  
Reset device: Press this button to perform a soft reset of the device. An  
alert is displayed, with an option to cancel, before the reset message is  
sent to the box.  
On the lower part of the Device info page, three sub-pages are available:  
Network, Time settings and Alarms.  
3.5.1 Network  
On Network sub-page the management interface and the Ethernet data  
interface is configured. For each of the interfaces the following  
information is configured:  
1.1.1.20 Main  
IP address: The IP address entered as four decimal triplets separated  
by decimal points (full stop/period) e.g. 10.40.81.120.  
Sub mask: The subnet mask entered as four decimal triplets separated  
by decimal points (full stop/period) e.g. 255.255.255.0.  
Default gateway: The IP address of the default gateway entered as four  
decimal triplets separated by decimal points (full stop/period) e.g.  
255.255.255.0.  
Speed/duplex mode: The speed and mode of the management  
interface: Auto 10/100Mbps, Auto 10Mbps, Fixed 100Mbps-full duplex,  
Fixed 10Mbps-full duplex, Fixed 100Mbps-half duplex and Fixed  
10Mbps-half duplex.  
Remark that switching to a mode that is not compatible with the peer  
side may cause you to loose connection with the device. Remark also  
that in the fixed modes, the auto straight-through or crossover cable  
detection is disabled, so you have to use the right type of cable.  
MAC address: The MAC address is displayed.  
For the Data interface the following is also possible to configure the  
following on the main tab:  
Media select: This field is only shown if the unit is equipped with an  
optional SFP slot. Select "Built-in RJ-45" to use the data port marked  
Data for data traffic. Select "SFP" to use the SFP module for data traffic.  
Speed/duplex mode: The speed of the data interface: Auto  
10/100/1000Mbps, Auto 10/100Mbps, Auto 10Mbps, Fixed 1000Mbps  
-full duplex, Fixed 100Mbps-full duplex, Fixed 10Mbps-full duplex,  
Fixed 100Mbps-half duplex and Fixed 10Mbps-half duplex.  
Furthermore the same remarks apply as for the management port.  
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1.1.1.21 Advanced  
The advanced sub-tab of the Data interface allows configuration of in-  
band management.  
Figure 9. The device info, network and advanced sub-page  
Allow ping response: Tick this box to filter incoming ICMP messages. If  
this option is not enabled, the device will not answer to ping requests  
on the data port.  
Allow in-band management: Tick this box to allow management traffic  
on the data port.  
Use as default management interface: Tick this box to use the data  
port as the default management interface. Enabling this option will  
force management traffic to IP addresses not matching either of the  
sub-nets of the two interfaces, to the data interface. Note that this  
means you will only be able to reach the device through the  
management interface if you are located at its sub-net.  
Multicast router: The IP address of the multicast router. The address  
here is used in conjunction with the “use multicast router” option on  
the IP TX page. (see chapter 3.6.1). This parameter is only showed on  
units configured for IP transmission.  
IGMP version: The default IGMP version to use. This parameter is only  
showed on units configured for IP reception. There is limited support  
for IGMP version 2 and 3. IGMP version 3 is limited to INCLUDE mode,  
one source only per channel, with no automatic fallback to IGMP  
version 2.  
1.1.1.22 SFP  
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Figure 10. The device info page, Network and SFP sub-page  
This sub-page is only shown if the unit is equipped with an SFP slot.  
The page displays information provided by the SFP module installed.  
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3.5.2 Time settings  
Figure 11 shows the sub-page for time setting used for alarm reports.  
Figure 11. Time setting sub-page  
Current time: This shows the current time used by the unit. The time  
is displayed in local time with an indication of the local time zone  
relative to UTC.  
Time zone: Here it is possible to configure the local time zone to  
operate in. The time zone is specified in hours offset to UTC. All time  
stamps in the GUI are displayed in local time. If you switch time zone  
during operation, the alarm log entries will also be updated to reflect  
the new time zone. The alarm log export option prints the time zone at  
the time of the export at the top of the log.  
Clock source: Select the synchronizing source for the device real time  
clock. The options are SNTP and Internal. In SNTP mode the clock is  
retrieved from a specified server, in Internal mode the clock is  
maintained locally by the device. Remark that the clock value is not  
kept after a reboot when running in Internal mode. To synchronize the  
alarm logs on several devices it is recommended to use a SNTP server.  
SNTP server address: The IP address of the SNTP server entered as  
four decimal triplets separated by decimal points (full stop/period) e.g.  
10.40.81.10. An example on a SNTP server is the Windows Time Service  
built into the MS Windows operating system. The SNTP protocol runs  
on UDP port 123, which must be let through in eventual firewalls.  
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Manual Update: Enter the wanted date and time and press this button  
to set the clock manually. Remark that if you are running in SNTP  
mode and the device receives answers from the time server, the time  
value will be overwritten. The manual update button only updates the  
clock value, to configure time zone, clock source and SNTP server  
address you have to press the Apply button at the main tool bar.  
3.5.3 Alarms  
The alarm page contains a list of all alarm events that can be displayed  
by the unit.  
Figure 12. Alarm sub-page  
In order to change the severity level of an alarm event, select the alarm  
event in the left table and the selected event will appear in the "Filter  
Settings" frame. Select the severity level (Filtered, Warning or Critical)  
from the list and press "Apply Filter Change" to change the severity  
level. The severity level is reflected in the user interface and in the  
SNMP traps sent by the unit.  
The default severity level is shown in the "Default sev." column and the  
current severity level if different from default is shown in the  
"Overridden sev." column.  
3.5.4 SNMP  
The SNMP page allows configuration of the SNMP Trap Servers that the  
unit should send SNMP traps to.  
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Figure 13 SNMP tab  
Trap Destination Servers: A list containing the IP-addresses of all the  
current receivers of SNMP trap messages.  
Add Trap Server: Clicking this button adds the IP-address from the  
neighbouring IP input field to the list of trap servers. If you haven’t  
entered an address or if the IP-address is already in the list you will get  
an error message.  
Delete Trap Server: This button is only enabled if you have selected a  
trap server in the “Trap Destination Servers” list. Clicking the button  
deletes the currently selected server from the list. A confirmation dialog  
will appear to make sure you really want to delete it. Clicking ok will  
confirm the deletion.  
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3.5.5 Ping  
The ping page can be used to check for connectivity between devices. It  
is especially useful to ping the receiving data port from the IP  
transmitter to see if the receiver can be reached. Figure 14 shows the  
Ping page with its parameters.  
Figure 14 Ping tab  
IP destination: Enter the IP address to check for contact here. The ping  
messages will be routed to the matching Ethernet port, either data or  
management, or to the port configured as default management  
interface if the specified IP address does not match either of the two  
sub-nets. Remark that if you are pinging between data interfaces, the  
‘allow ping response’ option on the network page advanced tab (see ch  
3.5.1) must be enabled on both the transmitter and the receiver.  
TTL (Time to live): Enter the Time to Live value for the ping messages  
here. The time to live value is a field in the IP protocol header that is  
decremented once for each router that the diagram passes. When the  
count reaches 0, the diagram is discarded. You can use this to check  
the number of routers from the transmitter to the receiver by starting  
with a low value and increment it until answers are received. TTL is  
also specified for each data channel on the IP transmitter, and must be  
high enough to reach the receiver. Values range from 1 to 255.  
Ping count: The number of messages to send. The messages are  
transmitted with an interval of about 1 second.  
Start: Press this button to start the ping sequence configured above.  
The status of the ping sequence is displayed in the status frame at the  
right side. Status values are reset on pressing the start button. After  
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pressing the start button the label switches to Stop, and the button can  
be pressed again to cancel the ping sequence.  
OK responses: The number of successful answers received.  
Timeouts: The number of ping requests that were not answered. If the  
timeout counter is incrementing while the OK responses counter is  
zero, there is no contact with the specified IP address.  
Last: The round trip time measured for the last request in units of  
milliseconds.  
Average: The average round trip time measured for the ping requests  
in this session. Value is reset every time the start button is pressed.  
Min: The fastest round trip time registered for the ping requests in this  
session.  
Max: The slowest round trip time measured for the ping requests in  
this session.  
Remaining: The number of remaining ping requests in this session.  
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3.5.6 Security  
Figure 11 shows the sub-page for user security (password protection).  
Figure 15. Time setting sub-page  
Enable Password Protection: Mark this to enable password protection.  
If password is not set, it will use the factory default password.  
Factory default:  
Administrator login: admin  
Password:  
salvador  
Old Password: To be able to set a new password, the user must know  
the old password.  
New Password: Type the new password. Allowed length is 0 to 20  
characters.  
Retype New Password: Retype the new password as a security  
measure.  
Change Password: Click this button to activate the new password.  
Note: If you forget the password that has been configured, you will  
need to log on to the unit through the RS232 port. When you are logged  
on, type “userdb factory_defaults”. This will reset the password to the  
factory defaults detailed above.  
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3.6 IP TX  
Figure 16 shows the IP TX page. The purpose of this page is to provide  
an interface for configuring the different streams to be sent through the  
unit.  
Figure 16. IP TX page  
The left part of screen shows a three containing all the DVB ASI input  
ports. To select a port, click that port. The information to the right of  
the page shows the IP transmission parameters for the selected port.  
3.6.1 Main  
The IP TX main sub-page is where you configure most of the  
parameters related to a stream to transmit over the IP network.  
1.1.1.23 Input Configuration  
Enable input: Tick this box to enable an input. If this is not ticked, you  
will not receive any MPEG-2 transport stream on this ASI input. The  
input port will be grey in the status view (See Section 3.4.)  
Input name: Enter a name reference to an ASI input stream.  
Max bitrate: Enter the maximum bitrate the ASI input stream is  
allowed to use. If the ASI input stream exceeds this bitrate, some data  
in this stream is discarded to keep its bitrate lower than the maximum  
bitrate setting. This prevents, when set correctly, one ASI stream from  
maxing out the IP channel, and thus disrupting all streams present on  
the IP channel. The sum of ‘Max bitrate’ for all active channels should  
not exceed the IP channel bandwidth.  
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Keep 204 bytes: Tick this box to transparently transmit all 204 bytes  
of the incoming ASI transport stream, if present. When only 188 byte  
packets are received or the box is unchecked, only 188 bytes of each  
transport stream packet is transmitted.  
1.1.1.24 Input Status  
Sync detected: Yes if the unit is receiving a valid DVB ASI stream on  
the ASI input interface. No if no DVB ASI stream is received.  
Packet length: Shows the packet length of the MPEG2 transport  
stream packets received (188 or 204 bytes).  
ASI total rate: Shows the bitrate of the MPEG2 transport stream on the  
input including NULL packets.  
ASI effective rate: Shows the effective bitrate of the MPEG2 transport  
stream on the input i.e. bitrate excluding NULL packets.  
1.1.1.25 IP TX Parameters  
Enable IP transmission: Click this box to enable the MPEG-2 transport  
stream on the DVB ASI input to be sent through the IP network.  
Protocol: Select UDP or RTP transmission mode. See 5.3.1 for more  
information on this  
IP destination addr: Enter the destination IP address to use when  
transmitting data on the stream. The address may be either a unicast  
address or a multicast address.  
UDP dest. port: Enter the UDP destination port to use when  
transmitting data on the stream. The UDP destination port is used by  
the receiver to separate one stream from another. UDP port numbers  
are in the range 1-65535.  
Warning: Please ensure that there is no conflict in UDP ports in use.  
Pay special attention to the fact that FEC data are always sent on UDP  
port two higher than the media port and four higher than the media  
port, e.g., if UDP destination port is 5510, column FEC UDP port is  
5512 and row FEC UDP port is 5514.  
UDP source port: Enter the UDP source port to be used in the outgoing  
UDP frames for the current stream. UDP port numbers are in the range  
1-65535. (Note that the ASI-IP-GTW receiver unit does not check this  
parameter when receiving streams)  
FEC streams are transmitted with the same UDP source port as the  
media frames.  
TS packets per frame: Enter the number of 188 byte MPEG-2 transport  
stream packets to map into each UDP frame. Valid values are between  
1 and 7. We generally recommend using 7 when ASI-IP-GTW is used  
both at the sender and the receiver to reduce overhead. For very low  
bitrate streams, less than 7 packets per frame may be used to reduce  
the delay through the unit.  
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Type of service (TOS): Enter Type of Service parameter as a byte value  
to be set in the Type-of-Service (TOS) field in the IP header as specified  
in RFC-791. This parameter is used for Class-of-Service prioritization.  
It depends on the Routers honouring this field. Please refer to  
details.  
Time to Live (TTL): Enter Time to Live parameter as a byte value to be  
set in the Time to Live (TTL) field in the IP header as specified in RFC-  
791.  
Use multicast router: Click this box, to enable use of multicast router.  
The address of the multicast router is the same for the entire unit and  
is configured in the Network sub-page of the Device Info page. When  
this option is enabled, the MAC address used when configuring a  
multicast destination IP address, will be resolved to the IP address of  
the multicast router. If not using the multicast router option, multicast  
addresses automatically resolve to dedicated multicast MAC addresses.  
1.1.1.26 IP TX Status  
Resolved: Yes, when the MAC address of the configured IP destination  
address is resolved. The parameter is always yes, when multicast is  
used without using multicast router. No, when the MAC address is not  
yet resolved by ARP lookup.  
Destination MAC address: Shows the destination MAC address used for  
the stream. This may be the MAC address of the receiving unit or the  
gateway if the receiving unit is on another network).  
If using a multicast destination IP address without enabling multicast  
router, the field shows the multicast MAC address corresponding to the  
configured IP address. In the case of multicast router, the MAC  
address resolved for the multicast router is shown.  
When the address is still not resolved this field displays the value  
00:00:00:00:00:00.  
Total bitrate: The bitrate of the IP frames containing this MPEG-2  
transport stream and any FEC data related to this stream.  
Data bitrate: The bitrate of the IP frames containing this MPEG-2  
transport stream, excluding FEC information.  
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3.6.2 FEC Settings  
Figure 17. IP TX FEC page  
This sub-page will only appear if the unit is enabled with FEC.  
FEC Mode: Select "No FEC" to not calculate and send any FEC data.  
Select "Column only" to calculate and send one-dimensional FEC data.  
Select "Column and Row" to calculate and send two-dimensional FEC  
data.  
Number of columns (L): Enter number of columns.  
Number of rows (D): Enter number of rows.  
Note: Please note that the maximum matrix size is 256 (L*D) and  
that D is in the range 4 D 32. In column only mode L is in the  
range 1 L 32, while in column and row mode 4 L 32. L+D can  
not exceed 32.  
Note: Please note that FEC column packets are transmitted on UDP  
port n+2 and FEC row packets are transmitted on UDP port n+4  
where n is the UDP port of the media data. This is in accordance  
with Pro-MPEG CoP 3.  
Skew: Controls whether to organize the column FEC with or without  
skew. When enabling skew, the delay required on the receiver is less  
than when transmitting straight columns.  
FEC overhead: This number is the overhead in percent caused by the  
current FEC configuration.  
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Resulting total rate: This is the resulting total IP bitrate including FEC  
overhead for this channel. The Status frame contains status  
parameters related to the FEC setting.  
Column UDP port: This parameter is the UDP port used for the column  
FEC data. The value is always Media UDP port + 2 which is in  
accordance with Pro-MPEG CoP 3.  
Row UDP port: This parameter is the UDP port used for the row FEC  
data. The value is always Media UDP port + 4 which is in accordance  
with Pro-MPEG CoP 3.  
Data rate: This parameter shows the IP data rate for this channel  
excluding FEC data.  
Column FEC rate: This parameter shows the IP data rate for the column  
FEC data of this channel.  
Row FEC rate: This parameter shows the IP data rate for the row FEC  
data of this channel.  
In order to make it possible to demonstrate the function of the FEC  
engine, ASI-IP-GTW provides a mode to drop IP packets on the  
transmitter.  
Frame drop: Enter the percentage of packets to be dropped from this  
channel. This value is not stored in the unit and must be entered after  
each power on.  
Frames dropped: This counter shows the number of frames discarded  
at the output of the unit.  
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3.6.3 Ethernet Settings  
Figure 18. The Ethernet page of an IP transmitter  
3.6.3.1 VLAN settings  
By enabling VLAN tagging, IEEE802.1Q VLAN tags will be added to the  
outgoing streams. In effect, the video data Ethernet port will act as an  
802.1Q VLAN trunk.  
Enable VLAN tagging: Check this box to enable VLAN tagging.  
VLAN ID: Enter VLAN ID in this field. This value shall be between 1 and  
4094.  
VLAN Priority: Enter VLAN priority in this field. This value shall be  
between 0 and 7.  
3.6.3.2 Static MAC setting  
Static MAC destinations address is used to specify a fixed MAC  
destination address in outgoing streams. This makes it possible to  
transmit to a destination host over a one-way link. The static MAC  
address setting then replaces the normal ARP lookup.  
Enable static MAC: Check this box to enable insertion of the static MAC  
address.  
Static MAC: Enter the destination MAC address.  
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3.6.4 Ping Settings  
Figure 19. The Ping page of an IP transmitter  
To resolve network problems, avoiding flooding, were the receiver or  
specific network components on the way to the receiver time out on  
there MAC address lookup. This feature solves this by pushing through  
a ping message regularly. This feature makes it also possible for the  
sender to know if there is an active recipient, or if it is down at the  
moment.  
Enable Unicast Peer Ping: Check this box to enable regular pinging of  
the peer, e.g. the receiver of the stream. This will only have effect in  
unicast mode.  
Interval: Set the interval in seconds between each Ping.  
Active: Indicates if the channel is actively sending Ping.  
OK responses: Indicates how many valid Ping responses have bean  
received.  
Timeouts: Indicates how many of the sent Ping messages timed out,  
without receiving a valid response.  
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3.7 IP RX  
3.7.1 Main  
Figure 20 shows the IP RX page. The purpose of this page is to provide  
an interface for configuring the different streams to be received by the  
unit.  
Figure 20. IP RX page  
The left part of screen shows a three containing all the DVB ASI  
outputs port. To select a port, click that port. The information to the  
right of the page is related to the selected port.  
1.1.1.27 Output Configuration  
Enable output: Tick this box to enable an output. If this is not ticked,  
you will not send any MPEG-2 transport stream on this ASI output.  
The output port will be grey in the status view.  
Packet length: This lets you configure the ASI output to transmit 188  
or 204 byte transport stream packets. If incoming IP frames contain  
204 byte MPEG-2 transport stream packets and the packet length is set  
to 188, the last 16 bytes of the 204 byte packets will be discarded. If  
incoming IP frames contain 188 byte MPEG-2 transport stream packets  
and the packet length is set to 204, the last 16 bytes of the 204 byte  
packets will contain the hexadecimal value FF.  
Output name: Enter a name reference to an ASI output stream.  
Copy of previous port: Every even numbered output includes this  
option. Selecting this option makes the port output exactly the same as  
the previous port, and no other IP RX options are used.  
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1.1.1.28 Output Status  
ASI total rate: This shows the bitrate of the MPEG-2 transport stream  
on the output including NULL packets.  
ASI effective rate: This shows the effective bitrate of the MPEG-2  
transport stream on the output i.e. bitrate excluding NULL packets.  
1.1.1.29 IP RX Parameters  
Receive port: Enter the UDP port of this output. The UDP port together  
with the IP address uniquely identifies the stream to receive. UDP port  
numbers are in the range 1-65535. This field corresponds to the UDP  
destination port field of the transmitter.  
Preferred latency: Enter the latency in units of milliseconds. This  
parameter is used together with the detected bitrate to set the size of  
the receive buffer. The receive buffer is used to remove network jitter,  
and to perform forward error correction.  
Enable multicast: Click this box to use multicast.  
Multicast group addr: This setting is only used when enable multicast  
is selected. Enter the multicast IP address of the incoming stream.  
When enabling multicast mode, the IGMP sub-module will be activated  
to join the multicast group and respond to membership queries.  
Multicast source addr: This setting is applicable when using IGMP  
version 3 (see ch 3.5.1). The device will join a source specific multicast  
group, informing the router that it is interested in receiving data from a  
specific transmitter only.  
1.1.1.30 IP RX Status  
Lock: Yes, when the unit has locked to the input stream and has  
correctly estimated the bitrate of the input stream. No, when the unit  
has not been able to receive the input stream correctly.  
Total rate: The total IP rate received on this channel.  
Current buffer fill: Shows the number of megabytes currently in the  
buffer.  
Latency: This parameter reflects the network jitter the unit can handle  
at the moment.  
Min/Max Latency: This shows the minimum and maximum measured  
latency since the last statistics reset.  
TS packets per frame: The number of transport stream packets per IP  
frame in the incoming stream.  
RTP sequence errors: A counter showing the number of RTP sequence  
errors caused by lost packets or out-of-order packets. A value of zero  
indicates that all packets are received in order.  
Lost IP frames: A counter showing the number of IP frames that is lost,  
i.e. lost and not corrected by the unit.  
Corrected IP frames: A counter showing the number of IP frames  
corrected by the FEC engine.  
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IGMP version: Shows the IGMP version currently selected in the  
”Device Info” page under “Network”, “Advanced” Settings.  
Reset statistics: Press this button to reset the counters: RTP sequence  
errors, Lost IP frames and Corrected IP frames.  
3.7.2 FEC Settings  
Figure 21. The FEC sub-page of an IP receiver  
This sub-page will only appear if the unit is enabled with FEC.  
Enable FEC: Tick this box to enable use of FEC.  
Alarm threshold: This parameter controls the frequency of lost frames  
that should cause activation of the ‘FEC Threshold Exceeded’ alarm.  
The threshold is configured in the unit of frames between losses,  
causing the alarm to be activated if the number of frames received  
between two losses falls below the configured number.  
In the Status frame the following parameters are shown:  
Lost IP frames: This counter shows the number of lost IP frames. This  
means packets which remain uncorrected.  
Corrected IP frames: This counter shows the number of IP frames  
corrected by the FEC engine.  
Duplicated IP frames: This counter shows the number of duplicated IP  
frames received.  
Columns (L): This shows the number of columns in the incoming FEC  
stream.  
Rows (D): This shows the number of rows in the incoming FEC stream.  
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Max frames delay: This field shows the maximum number of frames  
delay measured for the FEC streams.  
Latency required: This field is calculated from the ‘Max frames delay’  
field and the current total bitrate to show the minimum delay needed  
by the FEC engine to fully utilize the incoming FEC streams.  
When the delay displayed in the ‘Latency’ field of the ‘IP RX Status’  
sub-page falls below the value of ‘Latency required’ field, the FEC  
engine may not be able to recover all lost frames that could have been  
corrected with a larger buffer.  
For Column and Row the following status parameters are shown:  
UDP port: The UDP port of the stream.  
Bitrate: The bitrate of the incoming FEC stream.  
RTP sequence error: This counter shows the RTP sequence errors in  
the incoming stream caused by lost IP frames or out-of-order packets.  
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3.7.3 Ethernet Settings  
Figure 22. The Ethernet sub-page of an IP receiver  
3.7.3.1 VLAN settings  
Enable VLAN tagging: Check this box to enable VLAN tagging.  
VLAN ID: Enter VLAN ID in this field. This value shall be between 1 and  
4094.  
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3.7.4 Ping Settings  
Figure 23. The Ping page of an IP receiver  
To resolve network problems, avoiding flooding, were the transmitter or  
specific network components on the way to the receiver time out on  
there MAC address lookup. This feature solves this by pushing through  
a ping message regularly. This feature makes it also possible for the  
receiver to know if there is an active sender, or if it is down at the  
moment.  
Enable Unicast Peer Ping: Check this box to enable Unicast Peer Ping.  
This enables regular pinging of the transmitting device.  
Interval: Set the interval in seconds between each Ping.  
Active: Indicates if the channel is actively sending Ping requests.  
OK responses: Indicates how many valid Ping responses have bean  
received.  
Timeouts: Indicates how many of the sent Ping messages timed out,  
without receiving a valid response.  
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3.7.5 Advanced Tab  
Figure 24 Advanced Tab  
On the advanced tab it is possible to control and inspect the status of  
the buffer regulator for a port.  
Pref. Init. Rate Mode: This parameter is used to select the preferred  
algorithm to use to find an initial bitrate for a received data stream.  
o PCR: The default mode is ‘PCR’, in which a number of consecutive  
TS packets on the first PCR PID encountered are used to calculate  
the bitrate. If no PCR PID is found, COARSE mode is  
automatically used.  
o MIP: This mode may be used for signals that do not contain any  
PCR PIDs, but do have a DVB MIP PID (PID 21) used in Single  
Frequency Networks. In MIP mode, two consecutive MIP packets  
are used to estimate the bitrate. If no MIP PID is found, COARSE  
mode is automatically used.  
o COARSE: In this mode, a simple 2 second measurement is used to  
estimate the bitrate. This method is sensitive to network jitter and  
does not give as good results as PCR and MIP mode.  
o VBR: In this mode, the unit attempts to transmit data at the rate  
entered in the Max bitrate input. If the incoming rate is lower than  
this, the unit will either pad with idle bytes (resulting in a VBR  
output stream) or with NULL packets, depending on whether the  
“Pad with NULL packets” checkbox is checked. In this mode, no  
PCR adjustment is performed.  
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Max bitrate: : If VBR rate mode is chosen, this tells the unit what  
bitrate it should attempt to transmit at.  
Pad with NULL packets: Checking this means that the unit, when in  
VBR rate mode, will pad the output stream with NULL packets up to  
the entered max bitrate.  
Monitor bitrate: Checking this box will make the unit resync faster in  
the case of small bitrate changes.  
Init. Rate Mode: This parameter shows the initial bitrate mode that  
was used at last re-sync. If you have selected PCR mode, and this  
parameter shows COARSE mode, the device has not been able to find a  
valid PCR PID on the signal.  
Regulator state: This parameter shows the current state of the buffer  
regulator.  
The possible states are Stopped, Rate Estimation, Coarse and Finetune.  
When data is received and an initial bitrate estimate is found, the  
regulator enters the “Rate Estimation” state, where the signal is  
analyzed to check if a better estimation of the bitrate can be found.  
When a better estimate is found, the regulator switches to coarse mode,  
where the output bitrate is coarsely moved closer to the new rate. From  
Coarse mode, the regulator enters Finetune mode.  
Initial bitrate: Here the exact initial bitrate found is displayed.  
Current bitrate: This parameter shows the exact bitrate played out on  
the ASI port at the moment.  
Measured bitrate: This parameter is an input to the regulator in the  
Rate Estimation and Coarse phase, and shows the bitrate measured for  
the datastream since last re-synch. In the first minutes after a re-  
synch, this measurement is highly inaccurate and dependent on IP  
network jitter. After a few minutes of operation the value gets more and  
more accurate, and can be compared to the current bitrate to see how  
far off the bitrate target the regulator is operating.  
Mode: Here you can configure the unit to transmit ASI data using burst  
or spread mode. Note that spread mode only works with bitrates up to  
72Mbit/s. If you choose spread mode and a transmit a higher bitrate,  
the signal will become a burst/spread hybrid.  
No lock mode: This parameter lets you choose what the unit should  
transmit on the ASI port when it has no lock. You can choose to send  
idle bytes or turn the port completely off.  
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3.8 Network  
Figure 25 shows the Network page for a unit configured to bi-  
directional operation of the Ethernet interface. The purpose of this page  
is to provide network related information.  
Figure 25. Network page for unit in IP TX mode  
1.1.1.31 Data Network Interface Status  
Interface speed: Shows the rate in Mbit/s of the data network  
interface.  
Duplex mode: Full duplex or half duplex dependent of the  
configuration of the port.  
Total RX bitrate: The total bitrate of IP frames received over the  
network data interface.  
RX load: The percentage of the total interface speed used by the IP  
frames received over the network data interface.  
Total TX bitrate: The total bitrate of IP frames sent over the network  
data interface.  
TX load: The percentage of the total interface speed used by the IP  
frames sent over the network data interface.  
1.1.1.32 Transmitted Network streams  
The transmitted network streams table shows a list of all ASI inputs.  
For each individual ASI input, the tables shows the name of the input,  
if input is enabled (Yes/No), the IP destination address of the stream,  
the UDP destination port, the total bitrate of the interface (in Mbit/s).  
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Figure 26 shows the Network page for a unit configured to IP-RX mode.  
Figure 26. Network page for unit in IP RX mode  
We see that only received network streams is visible. The Data Network  
Interface Status is the same for an IP transmitter and an IP receiver.  
1.1.1.33 Received Network streams  
The network streams table of a unit configured for IP reception shows a  
list of all ASI outputs.  
For each individual ASI output, the table shows the name of the  
output, if the output is enabled (Yes/No), the IP source address, the  
UDP port, the total bitrate of the interface (in Mbit/s) and a counter  
showing RTP sequence errors.  
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3.9 Save/Load  
Figure 27 shows the Save and Load configuration page. This is where  
you save the current configuration or restores a configuration from file.  
Figure 27. Save/load configuration page  
The configuration in effect while the unit is operating is called the  
current configuration.  
3.9.1 Saving a Configuration  
In order to save the current configuration of the unit to a file, please  
right-click the link labelled "XML Configuration file" and select "Save  
target as". Enter the file name of the configuration file. Figure 28 shows  
the user interface.  
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Figure 28. Save/Load page when saving configuration  
3.9.2 Loading a Configuration  
In order to upload a new configuration file to the unit, browse to find  
the file and select the file or enter the file including path directly. When  
the file name including path is entered, select "Upload configuration".  
Note: The configuration file will be activated once it is uploaded!  
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4
Options  
This chapter describes functionality and operating instructions for  
various additional product options.  
4.1 1PPS/10MHz interface modules  
In order to achieve exact bitrate control for use in SFN networks, the  
ASI-IP-GTW may be equipped with 1PPS/10MHz interface modules.  
The purpose is to lock the internal system clock of the ASI-IP-GTW to  
external 1PPS/10MHz signals to obtain exact bitrate control. The  
typical application is to receive a stream over IP network and send it  
out on ASI connectors at a fixed, accurate rate. The transmitter needs  
to transmit at the same rate.  
Two options exist to lock the product to external time reference: A  
separate 10MHz/1PPS module which occupies an ASI slot, or a  
separate 1PPS input module that allows 8 ASI ports.  
4.1.1 Separate 10MHz/1PPS module  
Figure 29 shows a picture of the back panel when this module is  
mounted.  
Figure 29. ASI-IP-GTW with 1PPS/10MHz interface module equipped  
The signals are:  
o 10MHz. 50 ohm terminated input for a sinusoidal 10MHz signal.  
o 1PPS. 50 ohm TTL input for a 1 pulse-per-second signal.  
For physical parameters of these ports, see appendix B.  
Both signals may be connected. However, the ASI-IP-GTW only uses  
one of them at a time. The active input is selected from the “GPS” tab in  
the ASI-IP-GTW WEB user interface.  
4.1.2  
1PPS interface  
When 8 ASI outputs are required together with SFN operation, an  
alternative to the 1PPS/10MHz module is to use a separate 1PPS  
interface as described in the following figure.  
Figure 30. ASI-IP-GTW with separate 1PPS interface module  
The signals are:  
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o 1PPS. 50 ohm TTL input for a 1 pulse-per-second signal.  
For physical parameters of the 1PPS port, see appendix B.  
4.1.3 Operating the 1PPS/10MHz interface module  
A new top-level tab named “GPS” appears in the user interface of the  
ASI-IP-GTW units with the interface mounted. The control part of this  
tab only consists of a ComboBox where the lock mode is selected.  
Figure 31 shows the layout of the page.  
Figure 31. GPS tab  
The control parameter simply consists of a combobox:  
27MHz lock mode: Select the lock mode for the internal 27MHz. Set  
this parameter to “Disabled” if you don’t want to use the GPS board.  
Set to “Lock to external 1PPS” or “Lock to external 10MHz” if you want  
to lock the system clock to the reference signal.  
The status parameters show the current state of the lock mechanism.  
The parameters are as follows:  
Regulator state: Shows “Idle”, “Waiting” or “Fine tune” dependent on  
the selected mode. In the “Waiting” state, the ASI-IP-GTW waits for a  
valid input signal to lock to. After some seconds with valid input signal,  
the regulator enters the “Fine tune” state which indicates that the  
system clock is locked OK. The “Idle” state indicates that the regulator  
is disabled.  
Current phase offset: This is an integer number that gives an  
indication of the current phase offset between the internal and external  
clock sources. It’s absolute value should be below 100 in the stable  
phase.  
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Current freq. offset: This shows the offset between the internal clock  
(in idle state) and the external clock reference.  
4.1.4 LED descriptions  
(Separate 1PPS/10MHz module only)  
Each input connector has two LEDs associated with it; one yellow and  
one green LED. The yellow LED is lit when the input is enabled. The  
green LED is lit when the unit has locked correctly to the signal, as  
shown in the following figure.  
Figure 32. LED description for separate 1PPS/10MHz interface module  
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4.2 RIPv2 functionality  
The ASI-IP-GTW is equipped with RIPv2 functionality. The ASI-IP-GTW  
will then transmit RIPv2 messages regularly. The content of the RIPv2  
messages is set as specified in this chapter.  
RIP2 messages are sent with one entry each. The metric of this entry  
can be set either manually or automatically based on the current alarm  
level of the unit. This information may be used by network routers to  
select the source with the lowest metric; i.e. in effect automatic  
redundancy switchover.  
4.2.1 User interface  
Figure 33 shows the layout of the RIP-2 screen.  
Figure 33. RIP-2 screen  
The configuration parameters are as follows:  
Mode: Controls the mode of the RIP-2 engine. The valid choices are:  
o Off: No RIP-2 messages are sent.  
o Auto: RIP-2 messages are sent. The metric in the RIP entry is set  
dependent on the current unit alarm state. If the alarm state is  
critical, the “Metric on critical” value is used. If the alarm state is  
“OK”, the “Metric on clear” value is used.  
o Alarm: RIP-2 messages are sent. The “Metric on critical” value is  
used, independently on the current alarm state.  
o Clear: RIP-2 messages are sent. The “Metric on clear” value is  
used, independently on the current alarm state.  
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Metric on clear: The metric number to be used in the RIP messages  
when there are no active alarms in the unit.  
Metric on critical: The metric number to be used in the RIP messages  
when there are at least one critical alarm present.  
Destination: The IP destination address to use for the RIP messages.  
Enable manual next hop: If set, the RIPv2 messages will specify the  
next hop as defined in the “Next hop address” field.  
Next hop address: The address to be used for the next hop.  
Route tag: Corresponds to the route tag field in the outgoing RIP  
messages.  
Update interval: Specifies the average update interval for the RIPv2  
messages. Note that the ASI-IP-GTW adds some random delay to avoid  
sending messages too regularly.  
The status parameters are:  
RIP-2 message count: Shows the number of RIP-2 messages  
transmitted.  
Current metric: Shows the current metric used in the outgoing RIP-2  
messages. Will be either the “Metric on clear” or the “Metric on critical”  
value.  
Next hop: Shows the next hop value.  
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5 Equipment Description  
5.1 Introduction  
This chapter provides an overview of transmission of MPEG-2 data over  
IP networks and a high-level functional description of the ASI-IP-GTW.  
5.2 Functional Description  
5.2.1 Introduction  
The ASI-IP-GTW consists of a main module and 1 or 2 ASI boards each  
handling up to 4 ASI ports. Optical Gigabit is provided as a hardware  
option.  
The ASI-IP-GTW can be configured by the operator to be IP transmitter  
or an IP receiver. A SW option is also available to enable bi-directional  
operation of the IP data interface. In the IP transmitter mode, the ASI-  
IP-GTW encapsulates MEG-2 transport streams received on the ASI  
ports into IP streams. These streams are sent on an Ethernet interface  
onto the IP network.  
In IP receive mode, the ASI-IP-GTW receives and de-capsulates up to 8  
transport streams from the IP network and outputs the MPEG-2  
transport streams on the DVB ASI ports.  
In bi-directional mode, half the ports are used as ASI outputs, while the  
other half operate as ASI inputs.  
5.2.2 IP Transmit Mode  
In the IP transmit mode, the MPEG-2 transport streams are sourced  
from the ASI ports on the ASI boards.  
The ASI-IP-GTW is able to handle source transport streams on ASI on  
the following formats:  
o Packet format of 188 bytes  
o Packet format of 204 bytes, including padding  
o Packet format of 204 bytes, including RS bytes (no RS checking  
performed)  
The sourced transport stream is then processed by the Main board. The  
ASI-IP-GTW will always send 188 bytes packets over the IP network.  
The MPEG-2 transport stream packets are encapsulated as described  
in section 5.3.1. The user configures the IP address of the Ethernet  
data port. For each transport stream to be sent over the IP network, the  
IP destination address and UDP port are configured. The ASI-IP-GTW  
handles both unicast and multicast transmissions.  
The IP packets from one ASI input port are then merged with the IP  
packets from the other ASI inputs. The combined IP stream is then  
passed onto the physical Ethernet connector.  
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5.2.3 IP Receive Mode  
In IP receive mode, the ASI-IP-GTW receives IP packets from the data  
Ethernet interface. The ASI-IP-GTW will receive streams from different  
sources. In the case of unicast, the ASI-IP-GTW will parse the IP stream  
and send the transport stream to the ASI output which is configured  
with the matching UDP port. In case of multicast, the ASI-IP-GTW will  
send a join message to join the configured multicast. When reception is  
disabled, the ASI-IP-GTW will send a leave message to the network.  
For each transport stream, the reassembled MPEG-2 transport packets  
are held in a buffer. The function of this buffer is to handle re-ordering  
of packets, eliminate network jitter and support the adaptive rate  
recovery.  
After clock recovery, the MPEG-2 transport stream is passed to the  
DVB ASI output port.  
In the current version of the product, the ASI output will always output  
188 byte packets. If you require 204 byte packets, please contact  
Network support as this is likely to be available in a future software  
version.  
5.2.4 IP Bi-directional Mode  
In IP bi-directional mode, half the ASI ports are operate as described in  
IP transmit mode, while the other half are operated as described in IP  
receive mode.  
5.2.5 Management  
The ASI-IP-GTW provides an Ethernet management port for  
configuration and control of the unit. The management port has its own  
IP address. This interface provides the following features:  
o WEB interface for remote control  
o SNMP for alarm and status monitoring (optional).  
o FTP for software and firmware updates  
o Telnet for engineering and debug purposes  
In addition, the IP address of the management port can be set though  
the RS232 connector.  
The WEB interface is described in detail in Chapter 1. SNMP is an  
option to the product. The unit will send SNMP traps to report alarm  
conditions; in addition it is possible to read from the unit all active  
alarms and trap history. The MIB is available on request.  
5.2.6 Alarms  
The ASI-IP-GTW indicates alarm or fail status to the user in four ways:  
o WEB interface  
o Alarm LED on the front and on the rear  
o SNMP traps to Network Management System  
o Alarm relay  
The user can define the severity level of the different alarm events. The  
three levels are No alarm, Warning and Critical.  
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The WEB interface gives the most detail alarm information as all active  
alarms and warning are listed with time when the alarm condition  
occurred.  
The unit sends an SNMP trap message when an alarm condition rises.  
A critical alarm will have severity level 6 and a warning will have  
severity level 3. When the alarm is cleared, a new message is sent to  
indicate that the alarm condition is cleared.  
Finally, the red alarm LED will illuminate when an unmasked alarm  
condition rises. At the same time the alarm relay will be in an alarm  
state.  
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Table 12. Alarms  
Alarm  
id  
Alarm  
Severity level  
Description  
100  
101  
No sync  
Critical  
No valid ASI input stream detected.  
ASI bitrate too high Critical  
The ASI input bitrate has exceeded the  
configured maximum value.  
121  
Bitrate regulation in Filtered  
progress  
The regulation algorithm is estimating the  
incoming bitrate to compensate for the  
difference in PCR clocks on the source  
encoder and the IP receiver. While this  
alarm is active, the output bitrate may be  
tuned beyond the limits of the ASI  
specifications.  
130  
131  
Ethernet link down  
Critical  
No link on Ethernet layer  
Output buffer  
overflow  
Warning  
The total bitrate of the ASI input streams is  
too high.  
140  
150  
ARP unresolved  
Warning  
Warning  
IP address is not resolved into physical  
MAC address.  
Sequence error  
Analysis of the sequence number of the  
RTP layer indicates that IP frames have  
been lost or that they have been received  
out of order.  
151  
152  
No data received  
Warning  
Warning  
No data received on Ethernet input for  
stream  
FEC threshold  
exceeded  
The frequency of lost frames is higher than  
the configured value. Threshold values are  
configured per stream.  
153  
154  
Input buffer  
overflow  
Warning  
Critical  
The total bitrate of the IP input streams is  
too high.  
Data lost  
The data stream received for a channel is  
incomplete, and if running FEC, the FEC  
engine is not able to recover all the lost  
frames.  
155  
No lock  
Critical  
The IP receive channel is not able to find  
an initial bitrate for the data received.  
156  
157  
MIP not present  
Warning  
Warning  
No MIP frames are received.  
Too low latency for  
FEC  
The preferred latency is set lower than the  
latency required by the incoming stream.  
160  
161  
SNTP server  
unreachable  
Warning  
Warning  
Unit is not receiving answers from the  
SNTP server.  
Too high  
Internal temperature of unit is too high.  
temperature  
162  
200  
Defective fan  
Warning  
Warning  
One or both of the fans are not spinning.  
No GPS 1PPS  
reference signal  
The 1PPS reference signal is lost. (The  
regulator has however not lost  
synchronization)  
201  
Lost GPS 1PPS  
synchronization  
Critical  
The clock synchronization mechanism has  
been resynchronized due to too large  
phase error.  
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5.3 Overview of Video over IP  
5.3.1 Protocol mapping  
One of the core functions in the ASI-IP-GTW is the IP encapsulation of  
the MPEG-2 transport streams. The task is basically to encapsulate  
video packets into IP frames, using the right headers.  
Figure 34 shows how the transport can be separated into various  
layers.  
Figure 34. Protocol mapping  
The MPEG-2/DVB layer is specified in ISO/IEC 13818-1.  
The ASI-IP-GTW is able to handle both Multi-Program Transport  
Streams (MPTS) and Single-Program Transport Streams (SPTS). In the  
current version, the ASI-IP-GTW operates in a transparent mode. The  
unit will encapsulate and de-capsulate complete transport streams  
without changing the streams. This means that no insertion or removal  
of NULL packets is performed and PCR is sent transparently through  
the unit.  
Control data are handled differently from transport stream data on the  
next layer. RTP as defined in RFC1889 is applied for the MPEG-2  
transport stream data. Three types of protocols are used for control  
data. HTTP is used when the unit is configured and monitored via the  
internal WEB server. SNMP is used for alarm traps and simple status  
polling. Telnet is used for development purposes.  
The transport stream data are handled according to RFC768 on the  
UDP layer. The operator can configure destination port for the MPEG-2  
transports stream. The MTU for Ethernet is usually 1500 bytes. This  
limits the number of transport stream packets to embed into the  
outgoing Ethernet/IP frames to be between 1 and 7.  
TCP is used for control data.  
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1.1.1.34 UDP Mode  
To allow interoperability with legacy equipment, the ASI-IP-GTW can  
stream video over IP without using the RTP protocol encapsulation.  
This is also called UDP mode or UDP only. UDP mode is manually  
configured on the transmitting ASI-IP-GTW unit, and automatically  
detected on the receiving ASI-IP-GTW.  
Note: FEC relies on information in the RTP protocol, and will not be  
available in UDP mode. FEC is explained in 5.4.1.  
5.4 Data Flow Block Diagrams  
The following figure shows the data flow between two ASI-IP-GTW over  
an IP network.  
Figure 35. Data flow between two units  
5.4.1 Forward Error Correction (FEC)  
Unfortunately, real networks are not perfect and packet losses occur. In  
order to cope with packet losses, the ASI-IP-GTW has implemented Pro-  
MPEG FEC according to Pro-MPEG Code of Practice #3 rev. 2. Pro-  
MPEG FEC is carried out on RTP packets. The mechanism is based on  
the insertion of additional data containing the result of an XOR  
(exclusive OR)-operation of packets over a time window.  
The generation of FEC packets is based on the use of a matrix. The  
matrix size is defined by the number of columns (L) and the number of  
rows (D). The FEC packets are calculated as an XOR operation over the  
packets in a column and the packets in a row. Figure 36 shows an  
example of the FEC scheme. Three packets are lost and corrected.  
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1
Media packets  
1
FEC packets  
1
2
3
4
5
6
7
8
9
10  
20  
30  
40  
50  
60  
70  
1
2
3
4
5
6
7
1
1
Missing media packets  
11  
21  
31  
41  
51  
61  
12  
22  
32  
42  
52  
62  
13  
23  
33  
43  
53  
63  
14  
24  
34  
44  
54  
64  
15  
25  
35  
45  
55  
65  
16  
26  
36  
46  
56  
66  
17  
27  
37  
47  
57  
67  
18  
28  
38  
48  
58  
68  
19  
29  
39  
49  
59  
69  
2
3
1
2
3
4
5
6
7
8
9
10  
Column FEC packets  
Figure 36. Illustration of two-dimensional FEC, where packet 7, 35 and 56 are lost and corrected.  
One missing packet per row or column can be calculated by XOR'ing  
the FEC packet with the other packets in that row or column. By  
iterative operations it is possible to correct more than one missing  
packet per column or row. Please note that 4 L 32, 4 D 32 and  
L+D 32 and that the maximum matrix size is 256(L*D). When using  
column FEC only, L is allowed to be in the range 1 L 32. The size of  
the matrix is a trade between latency, transmission overhead and error  
protection.  
Column FEC provides correction for consecutive burst packets loss of  
up to L packets. The FEC packets are generated per a column within  
the matrix allowing loss of any single media packet within a column or  
a burst of packets of errors within a row to be corrected through the  
FEC packet. Column FEC is used to correct burst errors and random  
errors.  
Row FEC provides correction of non-consecutive packet loss and can  
correct any single packet loss within a row of media packets. The FEC  
packets are generated per a row allowing loss of any single packet to be  
recovered. Row FEC is ideal for correcting random packet errors.  
Once the FEC packets have been computed they are transmitted with  
the media packets to the receiver site. FEC column packets are  
transmitted on UDP port n+2 and FEC row packets are transmitted on  
UDP port n+4 where n is the UDP port of the media data. This is in  
accordance with Pro-MPEG CoP 3.  
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6 Preventive Maintenance and Fault-finding  
6.1 Introduction  
This chapter provides the schedules and instructions, where applicable,  
for routine inspection, cleaning and maintenance of the ASI-IP-GTW to  
be carried out by the operator of the unit.  
6.2 Preventive Maintenance  
6.2.1 Routine Inspection  
1.1.1.35 Cooling fans  
This equipment must never be used unless all the cooling fans are  
working. They should be checked when the unit is switched on and  
periodically thereafter.  
6.2.2 Cleaning  
o Remove power from the unit.  
o Clean the external surfaces of the ASI-IP-GTW with a soft cloth  
dampened with a mixture of mild detergent and water.  
o Make sure that the unit is completely dry before reconnecting it to  
a power source.  
6.2.3 Servicing  
Warning: Do not attempt to service this product as opening or  
removing covers may expose dangerous voltages or other hazards. Refer  
all servicing to service personnel who have been authorised by Network.  
1.1.1.36 Damage requiring service  
Unplug the unit from the power and refer servicing to qualified  
personnel under the following conditions:  
o The power supply cord or plug is damaged  
o Liquid has been spilled or objects have fallen into the product  
o Product has been exposed to rain or water  
o Product does not operate normally by following the operating  
instructions  
o Product has been dropped or has been damaged  
o Product exhibits a distinct change in performance  
6.3 Maintenance  
6.3.1 Warranty  
The ASI-IP-GTW is covered by standard Network warranty service for a  
period of 12 months from delivery.  
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The warranty covers the following:  
o All material defects in the equipment for a period of 12 months  
o All parts and labour charges  
o Return of the repaired item to the customer, postage paid.  
o Customer assistance through Network Customer Service Help Line  
The warranty does not cover any engineering visit(s) to the customer  
premises.  
6.4 Fault-finding  
6.4.1 Fault finding Philosophy  
The objective of this chapter is to provide sufficient information to  
enable the operator to rectify apparent faults or else to identify where  
the suspect fault might be. It is assumed that fault-finding has already  
been performed at a system level.  
Warning: Do not remove the covers of this equipment. Hazardous  
voltages are present within this equipment and may be exposed if the  
covers are removed. Only Network trained and approved service  
engineers are permitted to service this equipment.  
Caution: Unauthorised maintenance or the use of non-approved  
replacements may effect the equipment specification and invalidate any  
warranties.  
This manual does not provide any maintenance information or  
procedures which would require to removal of covers.  
If the following information fails to clear the abnormal condition, please  
contact your local reseller or Network customer care.  
6.4.2 Preliminary Checks  
Always investigate the failure symptoms fully, prior to taking remedial  
action. The operator should not remove the cover of the equipment to  
carry out the fault diagnosis. The following fault-finding tasks can be  
carried out:  
o Check that the PSU LED is lit. If this is not lit, replace external  
equipment, power source and cables by substitution to check that  
they are not defect.  
o Confirm that the equipment hardware configuration is suitable for  
the purpose and has been correctly connected.  
o Confirm that inappropriate operator action is not causing the  
problem, and that the equipment software set-up is capable of  
performing the required functionality.  
o Check that the fans are unobstructed and working correctly.  
When the fault condition has been fully investigated, and the symptoms  
are identified, proceed to fault-finding according to the observed  
symptoms. If the fault persists, and can not be rectified using the  
instructions given in this manual, contact Network Customer Support.  
Switch off the equipment if it becomes unusable, or to protect it from  
further damage.  
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6.4.3 PSU LED Unlit / Power Supply Problem  
If the ASI-IP-GTW PSU LED is unlit, fault-finding the problem is  
detailed in the following table.  
Table 13. Power fault-finding  
Step  
Action  
If the result of action is Yes...  
If the result of action is  
No...  
1
Check the  
If the Video Gateway is working  
Proceed to next step  
Power LED. Is  
normally then the Power LED  
the LED unlit, but itself is probably at fault - Call a  
the Video  
Gateway still  
working  
Service Engineer.  
properly?  
2
3
Check the  
Power Source.  
Connect a  
known-working  
equipment to the  
power source  
outlet. Does it  
work?  
The problem lies within the ASI-  
IP-GTW or the power cable.  
Proceed to next step.  
The problem lies with the  
power source. Check  
building circuit breaks, fuse  
boxes source outlet. Does it  
work? If problem persists,  
contact the electricity  
supplier.  
Check Power  
Cable. Unplug  
power connector  
and try it in  
The problem lies within the ASI-  
IP-GTW. Call a Service  
Engineer.  
The problem lies with the  
cable. Replace the cable.  
another piece of  
equipment. Does  
it work?  
The PSU does not have any user changeable fuses.  
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6.4.4 Fan(s) Not Working / Overheating  
This equipment has forced air cooling and must not be operated unless  
all cooling fans are working. In the event of overheating problems, refer  
to table.  
Note: Failure to ensure a free air flow around the unit may cause  
overheating.  
Step  
Action  
If the result of action is Yes...  
If the result of action is  
No...  
1
Check Fan  
Check that the Video Gateway  
Possible break in the dc  
Rotation.  
has been installed with sufficient supply from the PSU module  
Inspect the fans  
located at the  
sides of the unit.  
Are the fans  
rotating?  
space allowed enclosure for air  
flow. If the air is too hot,  
additional cooling may be  
required.  
to the suspect fan(s). Call a  
Service Engineer.  
6.4.5 Alarm LED lit / Alarm condition  
The alarm LED on front and rear will light when a critical alarm occurs.  
The following table describes the different alarm conditions and what  
might be the cause of these alarms.  
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Table 14. Alarm condition description.  
Alarm  
Description  
Error source  
Bitrate regulation in The regulation algorithm is working with This alarm may stay on the first minutes  
progress  
bitrate estimation.  
after tuning to a new IP stream. If the  
alarm does not clear, the input stream  
may be a variable bitrate stream.  
SNTP server  
unreachable  
Unit is unable to connect to SNTP  
server.  
There is no SNTP server on the  
configured IP address or there is no  
contact with the SNTP server due to  
network problems.  
No sync  
No valid ASI input stream detected.  
Internal temperature of unit is too high.  
The problem can be related to a  
problem with the sending device or the  
cable.  
Too high  
temperature  
The fans are not working or forced  
cooling is required.  
Sequence error  
Analysis of the sequence number of the Typically this error is generated by  
RTP layer indicates that IP frames have packets being dropped by some  
been lost or that they have been  
received out of order  
equipment in the network, f.ex when a  
link is overloaded.  
Defective fan  
There is an error with fan of the unit  
Hardware problem.  
No data received  
No data received on Ethernet input for  
stream  
The most likely error is that there is a  
set-up problem where IP address and  
UDP port are not correctly configured.  
The error can result from an error with  
the transmitting unit or an error on the  
network.  
No lock  
The IP receive channel is not able to  
find an initial bitrate for the data  
received.  
The stream contains a PCR PID with an  
invalid clock reference.  
Data lost  
Stream received is incomplete and a  
valid ASI output can not be expected  
See ‘Sequence errors’. If you have  
‘Sequence errors’ but not ‘Data lost’, all  
frames are received but they are out of  
sequence, or enough data is received  
for the FEC engine to correct all lost  
frames.  
ARP unresolved  
IP address not resolved into physical  
MAC address.  
This error may be caused by wrong  
default gateway configured, wrong  
unicast IP address on same subnet or  
unit on same subnet does not respond.  
Ethernet link down  
No link on Ethernet layer  
No connection on physical layer.  
Input buffer  
overflow  
The total bitrate of the IP input streams  
is too high.  
There is a configuration error or one of  
the sources is generating a too high  
bitrate.  
Output buffer  
overflow  
The total bitrate of the ASI input  
streams is too high.  
There is a configuration error or one of  
the sources is generating a too high  
bitrate.  
The description of the severity levels of the different alarms are given in  
Section 5.2.6.  
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6.5 Disposing of this Equipment  
6.5.1 General  
Dispose this equipment safely at the end of its life time, Local codes  
and/or environmental restrictions may affect its disposal. Regulations,  
policies and/or environmental restrictions differ throughout the world  
and they might have changed since you acquired this equipment.  
Please contact your local jurisdiction or local authority for specific  
advice on disposal.  
6.6 To return the unit  
Before shipping the ASI-IP-GTW to Network, contact your local Network  
reseller or Network directly for additional details.  
o Write the following information on a tag and attach it to the ASI-  
IP-GTW.  
o Name and address of the owner  
o Model number  
o Serial number  
o Description of service required or failure indication  
o Package the ASI-IP-GTW.  
o You can use the original shipping containers or adequate other  
packing containers  
o Seal the shipping container securely, and mark it FRAGILE.  
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7 Appendix A: Glossary  
1000Base-T: The term for the Electrical Gigabit Ethernet interface. This  
is the most common interface for Gigabit Ethernet. Most Gigabit-  
enabled PCs and equipment use this interface.  
ARP: Address Resolution Protocol. A protocol used to "resolve" IP  
addresses into underlying Ethernet MAC addresses.  
ATSC: Advanced Television Systems Committee. An American  
organisation working with standardisation of digital television  
broadcasts, primarily in the US but also in Asia and other parts of the  
world.  
DiffServ: Differentiated Services. A mechanism used on layer 3 - e.g.  
the IP layer - to differentiate between traffic of various types. DiffServ is  
based on the ToS field and provides a mechanism for the network to  
give e.g. video traffic higher priority than other traffic (for example  
Internet traffic).  
DVB: Digital Video Broadcasting. The European consortium defining  
standards for transmission of digital TV broadcasts, primarily in  
Europe.  
DVB ASI: Digital Video Broadcasting Asynchronous Serial Interface. A  
common physical interface for transmission of MPEG2 Transport  
Streams (i.e. MPEG2-compressed video) over a serial interface, typically  
coaxial cables.  
DWDM: Dense Wavelength Division Multiplexing. A mechanism to  
utilize existing fiber with even more bandwidth by adding extra signals  
using other wavelengths/colors.  
Ethernet: Originally a 10Mbit/s shared medium network type  
developed by Xerox. Later transformed into an official standard.  
Nowadays, most Ethernet networks are based on full duplex  
connections over twisted pair cables. Ethernet switches in the network  
take care of routing Ethernet frames between nodes. The speeds now  
supported are 10Mbit/s, 100Mbit/s and 1000Mbit/s. 10Gigabit/s  
Ethernet networks are now emerging.  
FEC: Forward Error Correction. A mechanism to add extra data to a  
transmission in order to protect it. Dependent on the amount of extra  
data added, the receiver will be able to correct errors (i.e. regenerate  
lost packets) in case of network packet loss.  
HDTV: High Definition Television. The new, coming television  
standard(s) that gives clearer and more detailed TV pictures. Many TV  
sets sold today (especially flat-screen TVs) are prepared for high  
definition TV.  
HTTP: HyperText Transfer Protocol. The fundamental protocol used on  
the Internet for transmission of WEB pages and other data between  
servers and PCs.  
ICMP: Internet Control Message Protocol. ICMP messages, delivered in  
IP packets, are used for out-of-band messages related to network  
operation or mis-operation.  
IGMP: Internet Group Management Protocol. IGMP is a protocol used to  
manage multicasts on the Internet. For a host (receiver unit) to receive  
a multicast, it needs to transmit IGMP "join" messages on the right  
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format. Three versions exist. IGMPv2 is common today but IGMPv3 is  
the next step.  
Meta-data: Meta-data is descriptive data that is "tagged" to a movie or  
audio clip. Meta-data is essential for the broadcaster.  
MPEG2: Moving Picture Experts Group 2. The compression standard  
used today on most satellite and cable TV digital broadcasts.  
MPLS: Multi-protocol Label Switching. A Quality of Service mechanism  
for IP networks that allow IP packets to flow along a predefined path in  
a network, improving the reliability and robustness of the transmission.  
MPTS: Multi Program Transport Streams. Transport Streams that carry  
multiple TV/Radio services.  
Multicast: An IP mechanism that allows transmission of data to  
multiple receivers. A multicast can also have several transmit sources  
simultaneously. In video applications, multicast is typically used to  
distribute a video signal from a central source to multiple destinations.  
NMS: Network Management System. A system used to supervise  
elements in an IP network. When a device reports an alarm, the alarm  
will be collected by the NMS and reported to the operator. NMS systems  
typically collect valuable statistics information about the network  
performance and can warn the operator early.  
PCR: Program Clock Reference. A sampled 27MHz video clock used in  
MPEG2 Transport Streams. The primary purpose of the PCR is timing  
synchronization between transmitter and receiver.  
PSI/SI: Program Specific Information / Service Information. This is  
information tables (meta-data) that is carried in MPEG2 transport  
streams in addition to video and audio. The information carried is  
typically service/program IDs, program names, conditional access  
information etc.  
QAM: Quadrature Amplitude Modulation. A digital modulation type  
that is used for transmission of digital TV signals over cable TV  
networks. Often referred to as DVB-C.  
QoS: Quality of Service. A common term for a set of parameters  
describing the quality you get from an IP network: Throughput,  
availability, delay, jitter and packet loss.  
QPSK: Quadrature Phase-Shift Keying. The digital modulation type  
typically used for transmission of digital TV signals over satellite. Often  
referred to as DVB-S.  
RIP2: Routing Information Protocol v2. A protocol used between  
network routers to exchange routing tables and information.  
RSVP: ReSerVation Protocol. A Quality-of-service oriented protocol used  
by network elements to reserve capacity in an IP network before a  
transmission takes place.  
RTP: Real-time Transfer Protocol. A protocol designed for transmission  
of real-time data like video and audio over IP networks. RTP is used for  
most video over IP transmissions.  
SDI: Serial Digital Interface. Also known as ITU-R BT.656. A  
specification describing how to digitize and transmit uncompressed  
video signals. The typical bit rate of an SDI signal is 270Mbit/s.  
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SDP: Session Description Protocol. A protocol to signal multicasts in a  
network. SDP is used as a mechanism to describe an ongoing  
multicast; for example the type of compression used, IP addresses etc.  
SDTI: Serial Data Transport Interface. A mechanism that allows  
transmission of various types of data over an SDI signal. This may be  
one or more compressed video signals or other proprietary data types.  
The advantage of SDTI is that existing SDI transmission infrastructure  
can be used to transport other types of data.  
SDTV: Standard Definition Television. The normal television  
standard/resolution in use today.  
SFP: Small Form-factor Pluggable module. A standardized mechanism  
to allow usage of various optical interfaces for Gigabit Ethernet. Several  
types of SFP modules exist: Single mode fiber modules for long-distance  
transmission and multi mode fiber modules for shorter distances. SFP  
is also known as "mini-GBIC".  
SIP: Session Initiation Protocol. A common acronym for the ongoing  
effort to standardize signalling over IP networks, i.e. connection setup  
and tear-down. SIP makes it possible to "dial" a remote receiver of data  
and set up the connection in this way.  
SNMP: Simple Network Management Protocol. A fundamental and  
simple protocol for management of network elements. Very common in  
use today by most Network Management Systems and other  
applications.  
SNTP: Simple Network Time Protocol is an Internet protocol used to  
synchronize the clocks of computers to some time reference. It is a  
simplified version of the protocol NTP protocol which is too complicated  
for many systems.  
SPTS: Single Program Transport Streams. A Transport Stream that  
contains a single program/ service.  
TCP: Transmission Control Protocol. A protocol above the IP layer that  
provides automatic retransmission of datagrams in case of packet loss,  
making it very robust and tolerant against network errors. TCP is the  
fundamental protocol used in the Internet for WEB traffic (HTTP  
protocol). TCP is indented for point-to-point protocol; you cannot use  
TCP for communication from one node to many others.  
TCP/IP: A common term used for the Internet protocol suite, i.e. the set  
of protocols needed to get fundamental IP network access: TCP, IP,  
UDP, ARP etc.  
ToS: Type of Service. This is a field in the header of IP datagrams to  
provide various service types. It has now been "taken over" and reused  
by DiffServ.  
Transport Streams: The common name for MPEG2 Transport Streams.  
A bit stream used to carry packets with MPEG-2 compressed video. A  
transport stream typically carries approximately 10 compressed TV  
channels, but can consist of an arbitrary number of TV and Radio  
services.  
UDP: User Datagram Protocol. A protocol above the IP layer that  
provides port multiplexing in addition. In essence, you can transmit IP  
data packets to several receiving processes in the same unit/device.  
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Unicast: Point-to-point connection, i.e. the "opposite" of multicast  
which is one to many (or many to many). In this mode, a transmit unit  
sends video data direct to a unique destination address.  
VLAN: Virtual LAN, a network of units that behave as if they are  
connected to the same wire even though they may actually be  
physically located on different segments of a LAN.  
Watermarking: A mechanism to "stamp" video content with unique  
marks, making it possible to trace the origins of illegaly distributed  
content. The marks are invisible for the viewer.  
XML: eXtensible Markup Language. A very common self-describing  
text-based data format. Used for many purposes: Meta-data,  
configuration files, documents, etc. The readability of the format has  
made it very popular and is now the fundament for many types of WEB  
services.  
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8 Appendix B: Technical Specification  
8.1 DVB ASI port  
Table 15. DVB ASI Port Specification  
Item  
Specification  
Type  
ASI-C, Coaxial cable  
BNC 75 ohm socket  
Connector type  
Signal  
Compliant with ETSI TR 101891v 1.1.1  
(DVB A010 rev.1)  
Line rate  
270Mbit/s ± 100ppm  
0,1-213Mbit/s  
Data rate  
Packet length  
Input: 188 or 204 bytes  
Output: 188 bytes  
Maximum cable length  
(Belden 8281 type)  
300m typical  
Safety status (UK)  
SELV  
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8.2 Ethernet data port  
Table 16. Ethernet Data Port Specification  
Item  
Specification  
680 Mbit/s  
Maximum ASI data rate  
Maximum IP data rate  
700 Mbit/s  
Protocols :  
Link layer:  
VLAN:  
IEEE Std 802.3-2002  
IEEE Std 802.1q  
Transport layer:  
UDP:  
RFC 760  
RFC 768  
RTP:  
RFC 1889, RFC 3550, RFC 2250,  
Pro-MPEG CoP3, rev.2  
RFC2733, Pro-MPEG CoP3, rev.2  
ISO/IEC 13818-1:2000  
FEC:  
DVB/MPEG-2:  
Table 17. Electrical Ethernet Data Port Specification  
Item  
Specification  
Type  
IEEE Std 802.3-2002, 10/100/1000Base-T  
Connector type  
Safety status (UK)  
RJ45  
SELV  
Table 18. Optional SFP Ethernet Data Port Specification  
Item  
Specification  
Type  
Gigabit Ethernet, Small Form-Factor Pluggable  
(SFP) slot to carry copper or optical SFP,  
compatible with approved modules conforming to  
the Small Form-factor Pluggable Transceiver  
MultiSource agreements (Sept.14, 2000).  
8.3 Ethernet management port  
Table 19. Ethernet Management Port Specification  
Item  
Specification  
Type  
10/100Base-T  
RJ45  
Connector type  
Safety status (UK)  
SELV  
8.4 Alarm relay and maintenance port specification  
Table 20. Alarm Relay and Maintenance Port Specification  
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Item  
Specification  
Connector type  
RS232 baudrate  
RS232 framing  
RS232 handshake  
Relay rating  
9-pin DSUB Male  
115,2 kbaud  
8 bit, no parity, 1 stop bit  
None  
0.1 A max, 50 Vdc max  
10 µA at 10 mVdc  
Relay minimum load  
Pins  
1. NC  
2. RS232 Receive Data (input)  
3. RS232 Transmit Data (output)  
4. NC  
5. Ground  
6. Alarm on  
7. Alarm relay common  
8. Alarm off  
9. NC  
Safety status (UK)  
SELV  
8.5 AC Mains Input  
Table 21. AC Power Supply Specification  
Item  
Specification  
100-240 VAC  
85-264 VAC  
50/60 Hz  
Rated voltage  
Voltage tolerance limits  
Rated frequency  
Rated current  
0.7 A  
Power consumption  
< 50 W  
8.6 DC Mains input  
Table 22. DC Power Supply Specification  
Item  
Specification  
48 VDC  
Rated voltage  
Voltage tolerance limits  
Power consumption  
36-72 VDC  
< 60 W  
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8.7 Physical Details  
Table 23. Physical details  
Item  
Specification  
Height  
43 mm, 1U  
Width  
222 mm excluding fixing brackets  
485 mm including fixing brackets  
320 mm excluding connectors  
340 mm including connectors  
3 kg  
Overall width  
Depth  
Overall depth  
Approximate weight  
Rack-mount case  
19 inch width, 1 U height  
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8.8 Environmental Conditions  
Table 24. Environmental specification  
Specification  
Item  
Operational temperature  
Storage temperature  
Relative humidity  
Handling/movement  
0˚C to +50˚C  
-20˚C to +70˚C  
5% to 95% (non-condensing)  
Designed for fixed use when in operation  
8.9 Compliance1  
8.9.1 Safety  
The equipment has been designed and tested to meet the requirements  
of the following:  
EN60950  
European  
Safety of information technology  
equipment including business  
equipment.  
IEC 60950  
International  
Safety of information technology  
equipment including business  
equipment.  
In addition, the equipment is designed to meet the following:  
UL 1950  
USA  
Safety of information technology  
equipment including business  
equipment.  
8.9.2 Electromagnetic Compatibility - EMC  
The equipment has been designed and tested to meet the requirements  
of the following:  
EN 55022 and  
AS/NZS 3548  
European  
Australian and  
New Zealand  
Emission Standards  
Limits and methods of  
measurement of radio frequency  
interference characteristics of  
information technology equipment  
– Class A  
EN 61000-3-2  
European  
Electronic Compatibility (EMC),  
Part 3 Limits, Section 2.  
1 The version of the standards shown is that available at the time of  
manufacture.  
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Limits for the harmonic current  
emission.  
EN 50082-1  
FCC  
European  
Generic Immunity Standard Part 1:  
Domestic, commercial and light  
industry environment.  
US  
Conducted and radiated emission  
limits for a Class A digital device,  
pursuant to the Code of Federal  
Regulations (CFR) Title 47-  
Telecommunications, Part 15: radio  
frequency devices, subpart B –  
Unintentional Radiators.  
8.9.3 CE Marking  
The CE mark is affixed to indicate compliance with the following  
directives:  
o 89/336/EEC of 3 May 1989 on the approximation of the laws of  
the Member States relating to electromagnetic compatibility.  
o 73/23/EEC of 19 February 1973 on the harmonisation of the laws  
of the Member States relating to electrical equipment designed for  
the use within certain voltage limits.  
o 1999/5/EC of March 1999 on radio equipment and  
telecommunication terminal equipment and the mutual  
recognition of their conformity.  
o
8.9.4 Interface to “public telecommunication system”  
The equipment is not constructed for electrical connection directly to a  
"public telecommunication system". None of the signals shall be  
connected directly from the unit to a "public telecommunication  
system" leaving the building without using some kind of interface in  
between such as a telecom terminal, switch or similar unit. Such kind  
of buffer is required to achieve a protective electrical barrier between  
the "public telecommunication system" and the unit. This electrical  
barrier is required to achieve protection against lightening or faults in  
nearby electrical installations.  
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9 Appendix C: References  
o ISO13818-1,2 and 3: MPEG-2 Video and Audio and Systems  
o EN 300 468: Digital Video Broadcasting (DVB); Specification for  
Service Information (SI) in DVB systems  
o RFC 1889 - RTP: A Transport Protocol for Real-Time Applications.  
o RFC 3550 - RTP: A Transport Protocol for Real-Time Applications.  
o RFC 2733 - RTP: An RTP Payload Format for Generic Forward  
Error Correction.  
o RFC 2250 - RTP: RTP Payload Format for MPEG1/MPEG2 Video  
o RFC 3497 - RTP: Payload Format for Society of Motion Picture and  
Television Engineers (SMPTE) 292M Video  
o RFC 3376 - IGMP: Internet Group Management Protocol, Version  
3
o RFC 2236 - IGMP: Internet Group Management Protocol, Version  
2
o RFC 0791 - IPv4: Internet Protocol  
o RFC 3261 - SIP : Session Initiation Protocol  
o RFC 0793 - TCP : Transmission Control Protocol  
o RFC 0792 - ICMP: Internet Control Message Protocol  
o RFC 0768 - UDP : User Datagram Protocol  
o RFC 0959 - FTP: File Transfer Protocol  
o RFC 2068 - HTTP: Hypertext Transfer Protocol -- HTTP/1.1  
o RFC 0764 - Telnet: Telnet Protocol specification  
o RFC 1157 - SNMP: Simple Network Management Protocol (SNMP)  
o RFC 2030 - SNTP: Simple Network Time Protocol (SNTP) Version 4  
for IPv4, IPv6 and OSI  
o RFC 3497 - RTP Payload Format for Society of Motion Picture and  
Television Engineers (SMPTE) 292M Video  
o RFC 3550 - RTP: A Transport Protocol for Real-Time Applications  
o Pro MPEG Forum Code of Practice 3 version 2: Transmission of  
Professional MPEG-2 Transport Streams over IP Networks  
o Pro-MPEG Code of Practice \#4 release 1 July 2004 Transmission  
of High Bit Rate Studio Streams over IP Networks  
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10 Appendix D: Upgrade of Features  
The ASI-IP-GTW ASI to IP Video Gateway encompasses software  
licensing of functionality. This appendix describes how to upgrade the  
product features with the software feature system.  
Customers who purchase "base" software licenses may wish to increase  
their software functionality or feature set at some point. A feature  
license conveys the right to use a feature, but cannot add a feature to a  
software release that does not support it.  
The following table describes which functionality is currently available  
through software licenses:  
Table 25. Functionality enabled through software licenses  
Functionality  
Max value  
Description  
Number of enabled ports  
8
The number of ASI ports enabled. This  
can be different from the number of ports  
physically mounted.  
Data port max. speed:  
Connect Control  
1000Mbit/s  
The speed of the data port can be  
100Mbit/s or 1000Mbit/s.  
NA  
NA  
NA  
Enabled control of the unit through the  
Connect software.  
Forward Error Correction  
Bi-directional operation  
Pro-MPEG Forward Error Correction  
enabled for use on all streams.  
Enables simultaneous transmission and  
reception of MPEG2 data on the Ethernet  
data interface.  
When you order upgrade of functionality on your ASI-IP-GTW, you will  
receive a license key on email. Figure 37 shows the format of the  
license key. The license key is an encrypted code linked to the serial  
number of the unit to be upgraded.  
----------------------------------------  
6ysyqeGI/3vcJVAWmxv6oJ9EJZQLEE0NzEBkjUZa  
/rTozK6ZqTH0g70XBFow7pmDq0yVdtnwSleHrcGM  
LgewY1PXwWOlwHc7fLvDq6wsGnv6ZiNHYmeljiEP  
0mk5K5D7lEKlCxxsR9BP4ab90V08xBy8hk2OVSeq  
DHx7iTLSnryP9IXydyM01J3I3yMGzoKSvkSd9ZyV  
7w8xNF+q1KLjYMRKc1p5QE3TVUdjM+PjV3lPOkjI  
36uWViPKQjybdBD372DSyGXoudiwP+YZlhuLNcmD  
JmgOc12yctrfGwzXum72McNUM/oKtURptnupiuFX  
kWHljxHKomJRkPv9OIIMQLNIbE41Gp6YwC/cQYpD  
vIvQJX5fmVvfwPNL6hIXuF9yORfZpN7PJ6883nye  
IM2pdMgo3kLzMTwXTNTbdzK56Ngxfc5wKEL7HsDQ  
7JN2BytuctrfGwzXum7dOaxAmr5lVERptnupiuFX  
4en1cXPkGnRRkPv9OIIMQHZHsI2bHY5DitH3nha8  
Jd7QJX5fmVvfwPNL6hIXuF9y+8Qe8v1I2fYQ/plC  
2KRICsgo3kLzMTwXTNTbdzK56NjoFEBEDiCcW8DQ  
7JN2BytuKelcSUunCXjKx4O1PRpXpw==  
----------------------------------------  
Figure 37. Format of feature key  
In order to upgrade the unit, open the web page  
"http://<ip_address_of_unit>/upgrade"  
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Figure 38 shows the feature upgrade page. Please paste in the license  
key in the "Activate feature key" field and press the button "Activate  
feature key" to load a new feature key for the unit.  
Figure 38. Feature upgrade page  
Note: Remember to include the dashed line before and after the  
encrypted contents.  
downloaded to the unit.  
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Figure 39. Feature upgrade dialogue  
Note: Please observe that you have to switch off and on the unit to  
active the new keys.  
In addition to the feature upgrade field, the Upgrade-page contains  
information about the unit and currently enabled features.  
The license files already entered to the unit are listed under current  
license files. A license key can contain license to one or more features.  
The feature set of the unit is always the sum of the features from all the  
license keys entered.  
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11 Appendix E: Upgrading Software  
SW loading can be performed from the bottom of the /upgrade page, as  
shown in Figure 40.  
This option is available on SW versions 1.3.0 and above. To load SW on  
older SW versions, please refer to documentation on how to load SW by  
FTP.  
Press the ‘Browse’ button and select the file to load to the device. The  
file must have the filename extension ‘.out’. Then press the ‘Upload  
Software’ button to start the SW loading.  
Figure 40 Upgrade SW  
File loading from this page uses HTTP port 80, making it useful to pass  
through firewalls. If you have not blocked pop-ups in your browser, a  
progress meter (Figure 41) is displayed during file transfer. By pressing  
the ‘cancel’ button the transmission can be cancelled. If you do not see  
the progress meter, the SW loading can still be interrupted by pressing  
the stop button in your browser.  
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Figure 41 SW load progress  
When the file is transferred, a status message is printed in the main  
browser window. If the loading was successful, the device is  
automatically rebooted to start the new SW.  
Figure 42 SW load status  
Please remember to verify the new SW version on the ‘Device Info’ page  
after the device has re-booted.  
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12 Appendix F: Quality of service – Setting  
Packet priority  
Normal IP routing is by best effort. This does not work well for  
broadcast television as the video and audio components needs to be  
transport as a continuous flow of packets without inference caused by  
other traffic over the internet. There are different techniques to secure a  
high quality of service. The main ones are:  
o MPLS (Multi Protocol Label Switching)  
o Layer 3 routing priority  
o Layer 2 routing priority  
12.1 MPLS  
In networks running MPLS, the packets are forwarded along a  
predefined path from an ingress router to an egress router. Packet  
switching is then done according to the label and packets will be  
switched expediently. The MPLS label is added to the IP packet by the  
ingress router and removed on the egress router. The labelling is done  
on the basis of packet classification.  
12.2 Layer 3 Routing  
An alternative technique to get QoS is to use layer 3 routing and give  
video content packets higher priority than other data. IP packets are  
put into queues according to their priority. Packets with high priority  
are forwarded expediently and have a lower probability to being  
discarded due to buffer overflow.  
There are two ways prioritize IP packets called Differentiated services  
(Diff-serve) or by the precedence bits (TOS). Both these method use  
the same bits in the IP header and both of them are in common use.  
IP precedence values range from 0 to 7.  
DSCP values range from 0 to 63.  
Figure 43 Differentiated services (Diff-serve) or by the precedence bits (TOS )  
Layer 3 prioritisation may also be combined with MPLS where layer 3  
routing is used in the aggregation network and MPLS in the core  
network. The DSCP priority setting may be used for MPLS tagging.  
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1.1.1.37 ASI-IP-GTW Configuration  
The number entered into the Type of service (TOS) field on  
ASI-IP-GTW IP TX configuration menu defines all 8 bits. The value used  
should be in accordance with traffic engineering policy of network and  
should be in the range from 0 to 255.  
12.3 Layer 2 priority  
Prioritisation can also be supported at layer 2 for the case when VLAN  
tags. The 802.1q VLAN tag has 3 bits for setting the Class of Service  
(COS). The operation is further defined in 802.1p. The COS bits will be  
handled in the same ways as diff-serve or precedence bits with regard  
to packet classification in the network  
1.1.1.38 ASI-IP-GTW Configuration  
The COS priority is entered on the VLAN configuration tab on the  
ASI-IP-GTW IP TX configuration menu, in the field named VLAN  
Priority. A value in the range from 0 to 7 should be inserted. This  
value will be directly transferred to 3 user priority bits in the VLAN  
header.  
More information on quality of service issues and configuration can be  
found in the literature e.g. router configuration guides.  
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