Selenio J2K Series JPEG 2000 Encoder/Decoder, Edition B

Transcription

Installation and Operation Manual
SelenioTM
SEL‐J2K Series
JPEG2000 Decoder/Encoder
Edition B
175‐100499‐00
Publication Information
© 2014 Imagine Communications Corp. Proprietary and Confidential.
Imagine Communications considers this document and its contents to be proprietary and confidential. Except for making a reasonable number of copies for your own internal use, you may not reproduce this publication, or any part thereof, in any form, by any method, for any purpose, or in any language other than English without the written consent of Imagine Communications. All others uses are illegal.
This publication is designed to assist in the use of the product as it exists on the date of publication of this manual, and may not reflect the product at the current time or an unknown time in the future. This publication does not in any way warrant description accuracy or guarantee the use for the product to which it refers. Imagine Communications reserves the right, without notice to make such changes in equipment, design, specifications, components, or documentation as progress may warrant to improve the performance of the product.
Trademarks
SelenioTM is a trademark of Imagine Communications or its subsidiaries. Microsoft® and Windows® are registered trademarks of Microsoft Corporation. HD‐BNC is a trademark of Amphenol Corporation. Manufactured under license from Dolby Laboratories. Dolby and the double‐D symbol are registered trademarks of Dolby Laboratories. All other trademarks and trade names are the property of their respective companies.
Contact Information
Imagine Communications has office locations around the world. For locations and contact information see: http://www.imaginecommunications.com/contact‐us/
Support Contact Information
For support contact information see: Support Contacts: http://www.imaginecommunications.com/services/technical‐support/
eCustomer Portal: http://support.imaginecommunications.com
iii
Contents
Preface ........................................................................................................................ vii
Manual Information ..................................................................................................... vii
Purpose .................................................................................................................... vii
Audience .................................................................................................................. vii
Revision History ........................................................................................................ vii
Writing Conventions ................................................................................................. vii
Obtaining Documents .............................................................................................. viii
Unpacking/Shipping Information .............................................................................. viii
Unpacking a Product ............................................................................................... viii
Product Servicing ..................................................................................................... viii
Returning a Product ................................................................................................... ix
Safety Standards and Compliances ............................................................................. ix
Restriction on Hazardous Substances (RoHS) Compliance ........................................... ix
Waste from Electrical and Electronic Equipment (WEEE) Compliance ...........................x
Safety Terms and Symbols in this Manual ...................................................................x
Installation, Operation, and Specifications ............................................. 1
Product Description ....................................................................................................... 1
Main Features ............................................................................................................ 1
Module, Softkey, and Hardware Options ................................................................... 3
3G Encoder Restrictions ................................................................................................ 5
Front Module ................................................................................................................. 5
Back Module .................................................................................................................. 6
Signal Flow .................................................................................................................... 6
Installing Selenio Modules in an MCP3 Frame ............................................................ 8
Installation in an MCP1 Frame ................................................................................... 9
Removing Selenio Modules From an MCP3 Frame ................................................... 10
Front Module .......................................................................................................... 10
Back Module ........................................................................................................... 10
Powering Up a Module ............................................................................................... 10
Expansion Module Functionality ............................................................................... 11
Upgrading Module Firmware ..................................................................................... 11
Upgrade Failure Instructions .................................................................................... 11
Accessing MIBs ............................................................................................................ 12
ENCODER PARAMETERS .............................................................................................. 14
iv
SEL-J2K Series
Encoding Control ..................................................................................................... 14
Encoder 1-4 ............................................................................................................. 14
Video ............................................................................................................................ 15
Video Input .............................................................................................................. 15
Video Compression .................................................................................................. 18
Audio ............................................................................................................................ 19
De-Embedded Audio ................................................................................................ 19
Control and Status ................................................................................................... 19
Data .............................................................................................................................. 21
Ancillary Data .......................................................................................................... 21
Status ...................................................................................................................... 23
VBI Data .................................................................................................................. 23
TS Mux .................................................................................................................... 24
TS Mux Status .......................................................................................................... 24
IP Encapsulation ....................................................................................................... 24
IP LAN ........................................................................................................................... 27
Primary and Secondary Data Eth MAC ..................................................................... 27
Data Ethernet Interface ............................................................................................ 27
LAN A to LAN D (LAN A to LAN B in Genlock Versions) ............................................ 27
Audio Expansion ......................................................................................................... 28
Exp 1 and Exp 2 Ch Select ........................................................................................ 28
Exp 1 and Exp 2 Input Level ..................................................................................... 28
Status ...................................................................................................................... 29
Module ......................................................................................................................... 29
Name ....................................................................................................................... 29
CTR SDI Out Select ................................................................................................... 29
Module Fault Alarm Priority ...................................................................................... 30
DECODER PARAMETERS
Decoder 1 to 4 (Decoder 1 to 2 in Genlock Versions) ............................................... 31
Control .................................................................................................................... 31
Video ....................................................................................................................... 31
Audio ...................................................................................................................... 32
TS Input ........................................................................................................................ 34
Primary Source, Alternate Source, and Current Source ............................................. 34
Source Selection and Restore ................................................................................... 34
IP Jitter Buffer Delay ................................................................................................. 34
Primary and Alternate Transport Stream Rate and Present ........................................ 34
Source Selection and Switching Delay ...................................................................... 34
Transport Stream Errors and Errored Seconds ........................................................... 35
Primary and Secondary IP ......................................................................................... 35
Status ASI ................................................................................................................ 35
Status IP ................................................................................................................... 36
TS Demux ..................................................................................................................... 37
Program Number ..................................................................................................... 37
Audio x Selector ....................................................................................................... 37
Audio x Stream (0-16) .............................................................................................. 37
Audio x PID .............................................................................................................. 37
Genlock (GL Versions Only) ...................................................................................... 37
SEL-J2K Series
IP LAN ........................................................................................................................... 38
Primary and Secondary Data Eth MAC ..................................................................... 38
Data Ethernet Interface ............................................................................................ 38
Seamless Protection Max Path Differential ............................................................... 39
LAN A to LAN D (LAN A to LAN B in Genlock Versions) ............................................ 39
Audio Expansion ......................................................................................................... 40
Exp 1 and Exp 2 Ch Select ....................................................................................... 40
Exp 1 and Exp 2 Output Level .................................................................................. 40
Status ...................................................................................................................... 40
Routing ................................................................................................................... 40
Module ......................................................................................................................... 41
Name ...................................................................................................................... 41
CTR SDI Out Select .................................................................................................. 41
Module Fault Alarm Priority ..................................................................................... 42
Status ...................................................................................................................... 42
Alarms .......................................................................................................................... 43
Encoder ................................................................................................................... 43
Decoder .................................................................................................................. 44
Laser Safety for Fiber Optic Back Modules ............................................................... 45
Precautions for Enclosed Systems ............................................................................. 45
Precautions for Unenclosed Systems ........................................................................ 45
Label ............................................................................................................................. 46
Inspecting and Cleaning Fiber Optic Connections .................................................... 46
Important Points ...................................................................................................... 47
Inspection and Cleaning Procedure .......................................................................... 47
Specifications .............................................................................................................. 49
SDI Input Specifications ........................................................................................... 49
SDI Output Specifications ........................................................................................ 50
SFP Specifications .................................................................................................... 52
Power Consumption ................................................................................................ 54
Index........................................................................................................................... 55
v
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SEL-J2K Series
vii
Preface
Manual Information
Purpose
This manual details the features, installation, operation, maintenance, and specifications for
the SEL-J2K Series JPEG2000 Decoder/Encoder.
Audience
This manual is written for engineers, technicians, and operators responsible for installation,
setup, maintenance, and/or operation of the SEL-J2K Series JPEG2000 Decoder/Encoder.
Revision History
Table 2-1 Revision History of Manual
Edition
Date
Comments
Edition A
June 2014
Initial release
Edition B
December 2014
Adds multi-channel thumbnail, internal data Ethernet,
and test pattern generation
Writing Conventions
To enhance your understanding, the authors of this manual have adhered to the following
text conventions:
Table 2-2 Writing Conventions
Term or
Convention
Description
Bold
Indicates dialog boxes, property sheets, fields, buttons, check boxes, list
boxes, combo boxes, menus, submenus, windows, lists, and selection
names
Italics
Indicates E-mail addresses, the names of books or publications, and the
first instances of new terms and specialized words that need emphasis
CAPS
Indicates a specific key on the keyboard, such as ENTER, TAB, CTRL, ALT,
or DELETE
viii
SEL-J2K Series
Table 2-2 Writing Conventions
Term or
Convention
Description
Code
Indicates variables or command-line entries, such as a DOS entry or
something you type into a field
>
Indicates the direction of navigation through a hierarchy of menus and
windows
hyperlink
Indicates a jump to another location within the electronic document or
elsewhere
Internet
address
Indicates a jump to a website or URL
Note
Indicates important information that helps to avoid and troubleshoot
problems
Obtaining Documents
Product support documents can be viewed or downloaded from our website. Alternatively,
contact your Customer Service representative to request a document.
Unpacking/Shipping Information
Unpacking a Product
This product was carefully inspected, tested, and calibrated before shipment to ensure years
of stable and trouble-free service.
1
Check equipment for any visible damage that may have occurred during transit.
2
Confirm that you have received all items listed on the packing list.
3
Contact your dealer if any item on the packing list is missing.
4
Contact the carrier if any item is damaged.
5
Remove all packaging material from the product and its associated components before you
install the unit.
Keep at least one set of original packaging, in the event that you need to return a product
for servicing.
Product Servicing
Except for firmware upgrades, SEL-J2K Series modules are not designed for field servicing.
All hardware upgrades, modifications, or repairs require you to return the modules to the
Customer Service center.
SEL-J2K Series
Returning a Product
In the unlikely event that your product fails to operate properly, please contact Customer
Service to obtain a Return Authorization (RA) number, and then send the unit back for
servicing.
Keep at least one set of original packaging in the event that a product needs to be returned
for service. If the original package is not available, you can supply your own packaging as
long as it meets the following criteria:

The packaging must be able to withstand the product’s weight.

The product must be held rigid within the packaging.

There must be at least 2 in. (5 cm) of space between the product and the container.

The corners of the product must be protected.
Ship products back to us for servicing prepaid and, if possible, in the original packaging
material. If the product is still within the warranty period, we will return the product prepaid
after servicing.
Safety Standards and Compliances
The Selenio series safety manual is shipped in the Imagine Manuals and Product Resources
DVD, and can be downloaded from our website.
Restriction on Hazardous Substances (RoHS) Compliance
Directive 2011/65/EU (ROHS 2)—sets limits on the use of certain substances found in
electrical and electronic equipment. The intent of this legislation is to reduce the amount of
hazardous chemicals that may leach out of landfill sites or otherwise contaminate the
environment during end-of-life recycling. The Directive, which took effect on July 1, 2006,
refers to the following hazardous substances:

Lead (Pb)

Mercury (Hg)

Cadmium (Cd)

Hexavalent Chromium (Cr-VI)

Polybrominated Biphenyls (PBB)

Polybrominated Diphenyl Ethers (PBDE)
According to this EU Directive, all products sold in the European Union will be fully
RoHS-compliant and “lead-free.” (See our website for more information on dates and
deadlines for compliance.) Spare parts supplied for the repair and upgrade of equipment
sold before July 1, 2006 are exempt from the legislation. Equipment that complies with the
EU directive will be marked with a RoHS-compliant emblem, as shown in Figure 2-1.
Figure 2-1 RoHS Compliance Emblem
ix
x
SEL-J2K Series
Waste from Electrical and Electronic Equipment (WEEE) Compliance
The European Union (EU) Directive 2002/96/EC on Waste from Electrical and Electronic
Equipment (WEEE) deals with the collection, treatment, recovery, and recycling of electrical
and electronic waste products. The objective of the WEEE Directive is to assign the
responsibility for the disposal of associated hazardous waste to either the producers or users
of these products. As of August 13, 2005, the producers or users of these products were
required to recycle electrical and electronic equipment at end of its useful life, and may not
dispose of the equipment in landfills or by using other unapproved methods. (Some EU
member states may have different deadlines.)
In accordance with this EU Directive, companies selling electric or electronic devices in the
EU will affix labels indicating that such products must be properly recycled. (See our website
for more information on dates and deadlines for compliance.) Contact your local Sales
representative for information on returning these products for recycling. Equipment that
complies with the EU directive will be marked with a WEEE-compliant emblem, as shown in
Figure 2-2.
Figure 2-2 WEEE Compliance Emblem
Safety Terms and Symbols in this Manual
This product manual uses the following safety terms and symbols to identify certain
conditions or practices. See page 45 and the Safety Instructions and Standards Manual for
more information.
Statements identifying conditions or practices that may result in personal injury or loss of
life. High voltage is present.
Statements identifying conditions or practices that can result in damage to the equipment
or other property.
1
Installation, Operation, and
Specifications
Product Description
The Selenio™ JPEG2000 modules are multichannel encoder/decoder solutions, offering
real-time, high-quality JPEG2000 compression over IP. A single module supports up to four
HD/SD-SDI channels or two 3G-SDI channels.
The SEL-J2K Series modules are inter-operable with many third-party JPEG2000 solution
vendors. This module harnesses the power of the Selenio media convergence platform,
which offers higher density, enhanced redundancy schemes, an easy-to-use interface and
low total cost of ownership.
The platform's flexible, expandable design enables customers to mix and match JPEG2000
and H.264/MPEG-2 functionality, as well as other Selenio processing capabilities, in the same
frame, for a future-proof solution. High-quality JPEG2000 compression and transport makes
it ideal for broadcast video contribution and distribution use.
SEL-J2K Series modules are designed for Selenio MCP1 and MCP3 frames.
Main Features

Multichannel, real-time JPEG2000 compression in a single-slot Selenio module

Support for 10 bits/4:2:2, standard/low/ultra-low latency, up to four HD/SD channels (up
to 1080p30 per channel) or two 3G channels (up to 1080p60 per channel), visually
lossless encoding and decoding *

Eight HD-BNC ports, plus internal SDI links to/from other Selenio products

Dual-network interfaces supporting 1GigE SFP (electrical/fiber)

Optional software key capability for alternating encoder/ decoder channel options

Multichannel 3G/HD/SD-SDI video encapsulation using SMPTE 2022-2

Standards-based FEC, supporting SMPTE 2022-1 for protection against packet losses
created by occasional network errors

Low latency (<40 ms end-to-end) and ultra-low latency (sub-frame latency)
contribution, JPEG2000 compression and encapsulation

Support for Near Mathematical Lossless compression for video signals

Configurable transport stream bit rates with automatic video rate optimization based on
audio and ancillary data to be carried

Support for DVB-ASI network interface for use in traditional video networks employing
ASI multiplexing

Support for unicast and multicast transmission
2
SEL-J2K Series

Support for SMPTE 2022-7 seamless protection specification

Support for VLAN tagging for segregation of traffic and quality of service differentiation
via Type of Service (TOS)

Audio transport for up to eight pairs (four groups) of embedded audio for HD/SD
signals, including Dolby® E and AC-3

Dolby® E-compatible frame skip and repeat on non-PCM signals

Transparent transport of VANC data for HD/SD-SDI signals

Supported by Service Manager, Reservation-Based Scheduling and Management
application

Support for Selenio standard software upgrade method

Support for pairing with Selenio audio expander module for additional AES I/O

Support for N+M, N+1, 1+1, and other Selenio frame full redundancy schemes
* When genlock is in use, the decoder will only operate one channel of 3G video
SEL-J2K Series
Module, Softkey, and Hardware Options
Softkey License Notes

The processing of 3G video requires two full channels. Therefore, a two-channel license
key is required to operate a single 3G video stream, and two 3G channels require the
purchase of a four channel license key.

The Ultra low latency license key (SELOPT-SK-J2K-ULL) may be applied to any model
type.

The Near Mathematical Lossless option (SELOPT-SK-J2K-MLS) is only available when
selecting the four channel encoder or decoder license key (the NMLS option uses all
four channels).

The Near Mathematical Lossless option is not available when you select a 3G source.

Also see 3G encoder restrictions on page 5.
Table 1. Module Options
Type
Part Number
Encoder
SEL-1J2KE1-EOS
(See the 3G
restrictions
on page 5)
SEL-2J2KE1-EOS
Decoder
Decoder +
Genlock
Reference
Description
1x HD/SD channel J2K encoding; includes a single back module with 8x
HD-BNC connectors for SDI/ASI signals and dual SFP electrical/optical
support for 1 GbE transport over IP (SFPs must be ordered separately)
2x HD/SD channels or 1x 3G channel J2K encoding; includes a single
back module with 8x HD-BNC connectors for SDI/ASI signals and dual
SFP electrical/optical support for 1 GbE transport over IP (SFPs must be
ordered separately)
SEL-4J2KE1-EOS
4x HD/SD channels or 2x 3G channels J2K encoding; includes a single
ordered separately)
SEL-1J2KD1-EOS
1x HD/SD channel J2K decoding; includes a single back module with 8x
HD-BNC connectors for SDI/ASI signals and dual SFP electrical/optical
support for 1 GbE transport over IP (SFPs must be ordered separately)
SEL-2J2KD1-EOS
2x HD/SD channels or 1x 3G channel J2K decoding; includes a single
ordered separately)
SEL-4J2KD1-EOS
4x HD/SD channels or 2x 3G channels J2K decoding; includes a single
ordered separately)
SEL-1J2GL1-EOS
1x HD/SD channel J2K decoding with genlock; includes a single back
module with 8x HD-BNC connectors for SDI/ASI signals and dual SFP
electrical/optical support for 1 GbE transport over IP (SFPs must be
ordered separately)
SEL-2J2GL1-EOS
2x HD/SD channels or 1x 3G channel J2K decoding with genlock;
includes a single back module with 8x HD-BNC connectors for SDI/ASI
signals and dual SFP electrical/optical support for 1 GbE transport over IP
(SFPs must be ordered separately)
3
4
SEL-J2K Series
Table 2. Softkey and Hardware Options
Type
Part Number
Description
Software Options
Encoder
(See the 3G
restrictions
on page 5)
SELOPT-SK-J2KE-1T2
SELOPT-SK-J2KE-1T4
SELOPT-SK-J2KE-2T4
Decoder
SELOPT-SK-J2KD-1T2
SELOPT-SK-J2KD-1T4
SELOPT-SK-J2KD-2T4
Decoder +
Genlock
Reference
SELOPT-SK-J2GL-1T2
Expansion from 1x HD/SD channel to:

2x HD/SD channels or

1x 3G channel


2x 3G channels
Expansion from 2x HD/SD channels or 1x 3G channel to:


2x 3G channels


1x 3G channel


2x 3G channels
Expansion from 2x HD/SD channels or 1x 3G channel to:


2x 3G channels
Expansion from 1x HD/SD channel decoding with Genlock to:


1x 3G channel decoding with Genlock
This softkey is only applicable to existing SEL-1J2GL1-EOS modules.
Other
Options
SELOPT-SK-J2K-ULL
Ultra Low Latency mode (can be used with any part number)
SELOPT-SK-J2K-MLS
Near/true mathematically lossless capability for 1x HD/SD channel.
(Only available when the module is enabled with 4x HD/SD channel
capability)
Hardware Options
SFPs
(for Data)
SFP+TRJ45+1G
1000BASE-T copper small form pluggable (SFP) transceiver for
category 5 cable; up to 1.25Gb/s bi-directional data links, to a
maximum of 100 m
OP+SFP+TRSM+1G
1000BASE-LX fiber small form factor pluggable (SFP) transceiver; up
to 1.25 Gb/s bi-directional data links, including compliant
long-wavelength 1310 nm FP laser transmitter, to a maximum of 10
km
OP+SFP+TRMM+1G
1000BASE-SX fiber small form factor pluggable (SFP) transceiver; up
to 1.25 Gb/s bi-directional data links, to a maximum of 500 m on 50/
125 µm MMF, or 220 m on 62.5/125 µm MMF
SEL-J2K Series
3G Encoder Restrictions
For the purposes of the SEL-J2K series modules, 3G video is considered to be either 1080p/
50, 59.94, or 60. All other 1080p video formats are not considered to be 3G and therefore
do not have restrictions on how many channels can be used simultaneously.
A two-channel license key is required to encode one 3G video format; a four-channel
license key is required to license two 3G formats. Each SEL-J2K encoder module can process
up to two channels of 3G video simultaneously. There is no restriction on what two
channels the user must use.
If you are encoding two channels of 3G video at the same time, no other channels are
available at that time for encoding other formats. If you are operating three channels,
including a single channel of 3G, the module will not accept a second channel of 3G until
you have disabled all of the non-3G channels first.
When using a genlock module, a dual-channel license is required to operate one 3G
channel. A single-channel JPEG2000 module cannot process a 3G signal.
Front Module
Figure 1. JPEG2000 Front Module
5
SEL-J2K Series
SFP DATA
AES IN 1-8
SFP 2
 Secondary Transceiver (Encoder and Decoder)
GND
4
5
AES
IN
6
7
8
CONFIGURABLE
ASI/SDI IN/OUT
1
2
3
AES
O UT
4
1A
5
SEL-J2K SERIES
HD-BNC CONNECTOR ASSIGNMENTS
1B
2A
6
7
1A, 2A, 3A, 4A
 Static SDI In (Encoder)
 Static SDI Out (Decoder)
2B
3A
4A
12
11
13
3B
4B
SEL-J2K-EOS SERIES
8
9 10
1B, 2B, 3B, 4B
 Fully Configurable SDI In, SDI Loopthrough, and
ASI Out (Encoder)
 Fully Configurable ASI In and SDI Out (Decoder)
15
14
16
AES OUT 1-16
SEL-BM-AESB
SEL-BM-AA
2
3
SEL-BM-AESC
Unbalanced AES
JPEG 2000 Decoder / Encoder
Balanced AES
J2K
DAEX
DAEX
X
A
B
GND
1A +
1A -
1B +
1B -
GND
GND
2A +
2A -
A N A LO G A U D IO OU T
2
1
2B +
2B -
GND
GND
3A +
3A -
3B +
3B -
GND
GND
4A +
4A -
4B +
4B -
GND
GND
1A +
1A -
1B +
1B -
GND
GND
2A +
2A -
2B +
2B -
A NA L OG A UD I O IN
SFP 1
 Primary Transceiver (Encoder and Decoder)
SEL-BM-AESB
1
SEL-J2K SERIES
SFP CONNECTOR ASSIGNMENTS
SEL-BM-AESC
Back Module
SEL-J2K-EOS SERIES
6
GND
GND
3A +
3A -
3B +
3B -
GND
GND
4A +
4A -
4B +
4B -
SEL-BM-AA
Analog Audio
AAEX
C
Figure 2. Selenio SEL-J2K Series Back Module Swatch and Audio Expansion Modules
Signal Flow
On the following pages, Figure 3, Figure 4, and Figure 5 show the signal flow diagrams
for the encoder mode, decoder mode, and genlocked decoder mode, respectively.
SEL-J2K Series
CH1 Processing
CTR SDI OUT
Video
Compression
CTR SDI IN
1A
Video
Input
EXT SDI In
De-Embed
Transport
Stream
Mux
Data Services
EXT SDI In/Loop Out
EXT ASI Out
1B
Audio Status , Delay, and
Routing
Control
2A
EXT SDI In
CH2 Processing
EXT SDI In/Loop Out
EXT ASI Out
2B
3A
CH3 Processing
EXT SDI In
EXT SDI In/Loop Out
EXT ASI Out
3B
CH4 Processing
4A
4B
EXT SDI In
EXT SDI In/Loop Out
EXT ASI Out
Primary
Audio Expander
Status and Sync
IP
ENCAPSULATE
Module
EXT IP
Secondary
CONNECTOR ASSIGNMENTS
EXT AES In
(8 Pairs)
or
EXT Analog In
(4 Pairs)
1A, 2A, 3A, 4A
Static SDI In
Selenio Audio Expander Module
1B, 2B, 3B, 4B
Fully Configurable:
 SDI In
 SDI Loop Through Out
 ASI Out
Figure 3. JPEG2000 Module in Encoder Mode
CH1 Processing
Video
Decompression
CTR SDI OUT
Transport
Stream
Input
Transport
Stream
Demux
Data Services
Embed
EXT SDI OUT
1A
EXT SDI OUT
2A
EXT SDI OUT
3A
EXT SDI OUT
4A
Audio Status , Delay,
and Routing
1B
EXT ASI In
EXT SDI Out
2B
EXT ASI In
EXT SDI Out
Control
CH2 Processing
CH3 Processing
3B
4B
EXT ASI In
EXT SDI Out
CH4 Processing
EXT ASI In
EXT SDI Out
EXT IP - Primary
IP
ENCAPSULATE
Module
Audio Expander
Routing
EXT IP - Secondary
1A, 2A, 3A, 4A
Static SDI Out
1B, 2B, 3B, 4B
Fully Configurable:
 ASI In
 SDI Out
Figure 4. JPEG2000 Module in Decoder Mode
EXT AES Out
(16 Pairs)
or
EXT Analog Out
(4 Pairs)
7
8
SEL-J2K Series
CH1 Processing
GL
Video
Decompression
Genlock
Transport
Stream
Input
Transport
Stream
Demux
Data Services
CTR SDI OUT
Embed
EXT SDI OUT
1A
EXT SDI OUT
2A
Audio Status , Delay,
and Routing
1B
EXT ASI In
EXT SDI Out
2B
EXT ASI In
EXT SDI Out
Control
CH2 Processing
GL
Frame Genlock
EXT IP - Primary
IP
ENCAPSULATE
Audio Expander
Routing
Module
EXT IP - Secondary
1A, 2A
Static SDI Out
1B, 2B
Fully Configurable:
 ASI In
 SDI Out
EXT AES Out
(16 Pairs )
or
EXT Analog Out
(4 Pairs)
Figure 5. JPEG2000 Module in Genlock Decoder Mode
Installing Selenio Modules in an MCP3 Frame
When using Selenio MCP3 frames, you can insert a SEL-J2K Series module into a frame with
the power supply turned on or off. Follow this procedure:
1
Remove a blank back module from the frame, saving the blank back modules and their
captive screws for future configurations.
2
Attach the new back module to the empty slot, using the mounting screws provided.
Align the back module’s pin into the guide hole, and ensure that the EMI gaskets
separating the back modules remain in place during the installation. The EMI gaskets fit
tightly. To ease the installation of back modules, gradually press each back module into
place from the left side to the right side.
SEL-J2K Series
Align pin into
guide hole
Figure 6. Installing a Typical Selenio Back Module
3
Apply labels to the back module, if these are supplied separately.
4
Print out this page and write down the placement of the back modules in the diagram
below (back modules appear on the reverse side when viewed from the front).
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
Figure 7. Writing Space for Identifying Back Modules
CAUTIONCAUTION:
Do not mix and match back and front modules. The front module must mate with a
back module of the same product.
5
Open the front panel and then slide the correct front modules into the slots that match the
back modules.
6
Push the module until it seats properly, ensuring the edge of the module is flush with the
edge of the module guides, and the square extractor handle clicks into its slot.
7
Install the remaining back and front modules, make all of the necessary rear connections,
and then close the front panel.
CAUTIONCAUTION:
To prevent overheating during frame operation, keep the front panel closed and all
back module slots covered.
Installation in an MCP1 Frame
For space reasons, SEL-J2K Series modules cannot be installed in the center slot of an MCP1
frame.
9
10
SEL-J2K Series
Removing Selenio Modules From an MCP3 Frame
Front Module
To remove a front module from a Selenio MCP3 frame, follow this procedure:
1
Open the front panel.
2
Grasp the extractor handle on the module, pulling down slightly.
3
Using the handle, slide the module out of its slot.
Extractor lock
Flat support post
rotates for module
insertion and removal
1. Pull down
to unlock the
extractor.
2. Slide the
module out of
the slot.
Figure 8. Removing a Front Module
4
Close the front panel to ensure proper frame ventilation.
Back Module
To remove a back module from a Selenio frame, you must first remove the front module.
Then unscrew the back module, and gently pull it out. Cover the opening with a blank back
module to ensure proper frame ventilation.
Powering Up a Module
SEL-J2K Series modules are ready for use when their parameters appear in the Selenio UI.
The maximum power consumption of a SEL-J2K Series module is 40 W. Selenio modules are
automatically powered up when they are inserted into a live (powered up) frame, and
whenever the frame is powered up.
SEL-J2K Series
Expansion Module Functionality
SELOPT-AAEX1-AABS, SELOPT-DAEX1-AESBS, and SELOPT-DAEX1-AESCS audio expansion
modules can be used to increase the audio capacity of SEL-J2K series decoders and
encoders. Up to two audio expanders can be used at a time, each associated with two
different encoder or decoder channels. The audio expanders must be installed directly next
to the SEL-J2K Series module as follows:

Expander 1 located in the next higher slot number next to the encoder or decoder J2K
module

Expander 2 located two slots over from the encoder or decoder module (for example, if
a J2K encoder is in slot 5, audio expanders must be installed in slots 6 & 7)
You must assign one expander to be used on one channel of a J2K encoder or decoder only.
(Expander 1, for example, could be associated with encoder channel 1 and Expander 2
could be associated with encoder ch 2). One audio expander can never feed more than one
channel of a J2K encoder or be fed from one channel of a decoder at the same time. Select
the associated encoder or decoder channel using the Exp 1 Ch Select and Exp 2 Ch Select
parameters, located at Audio > Expansion (see page 29).
Each audio expansion module can input eight stereo pairs or output sixteen stereo pairs of
AES3 (PCM or Pre-Compressed Dolby-E) audio.
Using the J2K encoder, expander inputs are functional, but not the outputs. Using a J2K
decoder, the expander outputs function, but not the inputs.
Upgrading Module Firmware
All module firmware upgrades are activated in the frame controller section of the Selenio
user interface. Follow this path to find the appropriate parameters: Configuration >
Frame Controller > Configuration tab > Upgrade Firmware.
See the Selenio frame manual for information on how to upgrade module firmware.
In the unlikely event of an upgrade failure, use the Upgrade Failure Instructions of this
manual.
Upgrade Failure Instructions
The JPEG2000 modules include one user-configurable DIP switch array (SW1), located at
the card edge next to the extractor. In normal operation, all four switches are in the Off
position. In the unlikely event of corrupted software, you may need to temporarily change
the setting of Switch 1 for the failsafe mode override. You would be alerted to this problem
if a System Recovery Upgrade Required fault was triggered after an upgrade, and the
module had finished rebooting.
11
12
SEL-J2K Series
If a System Recovery Upgrade Required fault is triggered, you should first try using the
alternate firmware (see Activating Alternate Firmware in the Selenio frame manual) and
then attempt the upgrade again. If this second attempt fails, follow these steps to activate
the failsafe mode:
1
Remove the module from the frame and then push Switch 1 to the On position (see
Figure 9 on page 12).
Move Switch 1
to the On
position for
failsafe
operation
Figure 9. DIP Switch Setting for Failsafe Mode
2
Reinsert the module.
3
Install the new module software using the Selenio user interface.
4
Remove the module, and then return Switch 1 to the Off position.
5
Reinsert the module.
The module is now running the new software.
Accessing MIBs
MIB files for all modules can be downloaded directly from any Selenio frame. MIBs are
generated on a per-device basis. For example, if there are seven JPEG200 modules in a
frame, only one of the seven MIBs is required, assuming all of the modules are using the
same version of software. If the frame includes multiple modules of the same type, but
different software versions, the module with the latest version should be used to generate
the MIB.
SEL-J2K Series
If an older MIB is used with newer firmware (for example, an older version of firmware was
used instead of the latest firmware), the new parameters added to the new version will not
be available on the MIB, and thus, will not be accessible via the MIB.
Note: Although the encoder, decoder and genlock functionality of the JPEG2000 is
controlled by license keys, its SNMP MIB contains all of the parameters for all of the
versions. However, the JPEG2000 user interface hides parameters that are not applicable.
Before downloading module MIBs, you must first download the InfrastructureNetwork.mib
file. Copy the following into a browser to access the InfrastructureNetwork.mib:
http://<IP address>/InfrastructureNetwork.mib
<IP address> is that of the primary controller in the frame
Once any MIB file is downloaded from the frame, you should rename it immediately to
prevent overwriting.
To download a specific module MIB file, copy this line into a browser:
http://<IP address>/mib/slot<slot#>/snmp.mib
<IP address> is that of the primary controller in the frame
<slot#> is the slot in the frame, as seen from the front
Examples:
http://137.237.173.15/mib/slot0/snmp.mib
Accesses the controller MIB from frame 137.237.173.15.
http://137.237.173.15/mib/slot7/snmp.mib
Accesses the MIB for slot 7 from 137.237.173.15
13
14
SEL-J2K Series
ENCODER PARAMETERS
Encoding Control
Latency Mode
ENCODER
This parameter sets the audio latency mode for the encoder. Options are Normal (default),
Low, and Ultra Low. (The Ultra Low option requires installation of the SELOPT-SK-J2K-ULL
license key.)
The settings used in the Latency Mode parameter affect all four channels of the encoder
and decoder (latency settings in the JPEG2000 decoder are automatic). If the decoder
detects the Ultra Low setting on any of the four channels, but does not have the proper
license key, the module will disable all channels and assert an alarm. Also, if different ASI or
IP streams enter the decoder with different latencies, the decoder will trigger an alarm and
will not decode any of the channels.
In Low and Ultra Low latencies, the decoder audio delay range is 0 to 120 ms. The range
of Normal Latency is -120 to + 120 ms.
Encoder 1-4
Control
Encoder Function
This parameter enables or disables the encoder.
Tag
Use this parameter to create the program tag.
EXT 1B-4B Function
This control sets the function of the 1B, 2B, 3B, and 4B external HD-BNC connectors on the
back module. On the JPEG2000 encoder, options are SDI In, SDI Loop Through, and ASI
Out.
The SDI Loop Through option only loops out the signal received at an EXT SDI input port.
The JPEG2000 encoder will not loop out signal associated with CTL SDI cross connections
from the controller.
SEL-J2K Series
15
Video
Video Input
Primary Source
In this parameter, select the following sources:

Internal CTR SDI

External EXT SDI-A

External EXT SDI-B (when the “B” connector is configured to SDI In)
ENCODER
When setting the encoder’s Primary Source to CTR SDI with EXT 1B-4B Function set to
SDI Loop Through, the actual video stream is sourced from the primary external SDI Port
(on the back module), not the configured CTR SDI input. The SDI Loop Through sources
are the back module “A” connectors, which are looped through to the same numbered
“B” connectors. For example, a Loop Through signal that originates on connector 2A is
looped through to connector 2B.
When producing transport stream data over IP, it may not be possible to simultaneously set
all channels to their theoretical maximum bit rates. There is always some overhead required,
and this will depend on many factors, including network jitter caused by switches, routers,
and other network elements, as well as sideband information such as VLAN tags, FEC, etc.
When evaluating your networks, choose a transport stream rate that does not exceed the
capacity of these diverse elements.
Alternate Source
This parameter selects a different source for the encoder if the primary Source signal fails.
Options are None, or any of the existing Source inputs (other than the current one).
If you select None as the Alternate Source, the primary source is always used. If you select
a value other than None, two additional parameters are enabled: Source Selection and
Switching Delay.
In the event of a loss of signal at the primary Source parameter, the encoder detects an
error. If this condition persists for the duration set in the Switching Delay parameter, the
encoder will switch to the value you have set in Alternate Source.
Source Selection
The Source Selection parameter controls the switching behavior of the encoder after the
primary source has been restored and has stabilized after an outage. (This parameter is only
visible when the Alternate Source is set to an input.) If you set Source Selection to
Revertive, the encoder switches back to the primary source as soon as the encoder detects
a clean primary signal (with no error condition) for the duration of the Switching Delay
value. If you selected Non-Revertive, the Alternate Source remains in effect until one of
these conditions occur:
16
SEL-J2K Series

The Restore button appears when the input source is failed over to Alternate Source,
and Non-revertive is selected.

There is a loss of signal on the Alternate Source, and a clean signal is detected on the
primary Source

The module is rebooted
The status parameter Current Video Source (Video > Input > Status) displays the
currently selected video input source.
Switching Delay
ENCODER
Use this parameter to set the length of the switching delay (the range is 0 to 10 seconds in
0.1 second increments). (This parameter is only visible when the Alternate Source is set to
an input.)
Source Format
This parameter sets the input video standard for encoding.
Note: When switching between SD-SDI, HD-SDI, and 3G formats, the transport stream rate
will automatically change and reflect the last saved state that the TS rate was set to, when
working in that mode. For example, if you switch from an SD format to 3G, and then return
later to an SD source, the module will “remember” the previous transport stream rate used
for that SD source format.
The following Source formats can be set as inputs:

3G: SMPTE 424M, SMPTE 425 Level A, Level B-DL (YCrCb, 4:2:2, 10-bit with 16
channels of embedded audio; 2.97, 2.97/1.001 Gb/s)

HD: SMPTE 292M (1.485, 1.485/1.001 Gb/s)

SD: SMPTE 259M-C (270 Mb/s, 525/625 component video)
Enable Test Pattern and Test Pattern Select
When the Enable Test Pattern control is set to On, the following Test Pattern Select
options are available:

Black

Color Bars 75%

Moving Color Bars

Switching Black White
Once selected, the test pattern is encoded and transmitted out as JPEG2000 video.
SEL-J2K Series
17
Video Input Status
EXT SDI 1A, EXT SDI 1B, and CTR SDI Status
These read-only parameters report their respective input standards.
Table 3. Reported EXT SDI 1A, SDI 1B, and CTR SDI Input Standards
1080i/50-295
720p/23.98
1080p/25
1080i/59.94
720p/24
720p/59.94
1080i/60
1080PsF/29.97
720p/60
525
1080PsF/30
1080p/23.98
625
1080PsF/25
1080p/24
720p/50
1080p/50
1080p/29.97
1080PsF/23.98
1080p/59.94
1080p/30
1080PsF/24
1080p/60
1080i/50
720p/29.97
1080p/50 DL
1035i/29.97
720p/30
1080p/59.94 DL
1035i/30
720p/25
1080p/60 DL
Current Video Source
This parameter reports the currently selected video input source. Possible values are:

EXT SDI A

EXT SDI B

CTR SDI
Loss of Signal
This parameter reports a loss of signal fault. Options are:

No Fault

Fault

Unknown
Configured Input Standard
This parameter reports the configured input video standard.
Table 4. Configured Input Standard
Auto
1080i/60
1080p/59.94
525
1080i/50
1080p/60
625
1080p/23.98
1080p/50
720p/59.94
1080p/24
1080p/59.94 DL
720p/60
1080p/25
1080p/60 DL
720p/50
1080p/29.97
1080p/50 DL
1080i/59.94
1080p/30
1080p/59.94
ENCODER
Not Present
18
SEL-J2K Series
Sync Errors, CRC Errors, and EDH Errors
These parameters reports the number of errors in their respective categories.
EDH Present
This read-only parameter indicates whether EDH check bytes are present. Possible values
are:

Not Present

Present

NA
ENCODER
Clear Status
Use the Apply button in this parameter to reset the status counters for the designated
encoder.
Video Compression
Quality Mode
Use this parameter to select either Visually Lossless (default setting) or Near
Mathematical Lossless as the module’s quality mode. The Near Mathematical Lossless
setting requires the installation of a SELOPT-SK-J2K-MLS softkey and provides near/true
mathematically lossless capability for 1x HD/SD channel. This feature is only available when
the module is enabled with 4x HD/SD channel capability)
If you select the Near Mathematical Lossless mode, one channel is enabled on the
encoder, in either SD-SDI or HD-SDI (3G is not supported in this mode). The module will
trigger an alarm when the threshold minimum or maximum transport stream Video Bitrate
values are not met. If the bitrate is too low, picture quality will be similar to the Visually
Lossless setting.
The encoder sets this mode into the transport stream; the decoder detects the received
Quality Mode and reports it as a Status parameter. If the decoder detects Near
Mathematical Lossless, but does not have the correct license, the module disables that
channel and asserts an alarm.
The default Visually Lossless mode is a global master control and applies to all video
formats across any channel, or all four encoder and decoder channels simultaneously.
The Near Mathematical Lossless option operates when only one SD- or HD-SDI channel is
enabled. However, 4 x HD/SD channel capability must be licensed in both the encoder and
the decoder. No other channels can be enabled if Near Mathematical Lossless is running
on a single enabled channel. The Near Mathematical Lossless feature should be operated
at bit rates above 200m (for optimal results the transport stream should be set to 800m). If
the bit rate is too low, an alarm is triggered.
The following are some other restrictions on the use of Near Mathematical Lossless
(under certain conditions, you may be able to drive the maximum transmitter rate above the
normal allowable outputs described below).
SEL-J2K Series

SD: 25 to 200 Mb/s (default is 100 Mb/s), VLS or NMLS

HD: 50 to 475 Mb/s (default: 200 Mb/s), VLS or NMLS

3G: 100 - 825 Mb/s (default: 400 Mb/s) VLS only (no NMLS)

In addition, a combined limit of 940 Mb/s is enforced; therefore, the module will not
allow two simultaneous 3G channels at 825 Mb/s each (instead, for example, they
could be set to 470 Mb/s each, making a total of 940 Mb/s.
19
Note: The minimum bit rates listed above assume very limited audio and/or ancillary data
usage. f you have configured a large number of audio/ancillary data channels, you will have
to raise the overall bit rate to achieve usable video. In extreme low-bit-rate/high-audio
cases, CC errors my appear. Raising the bit rate will eliminate these errors.
Audio
Emb Audio Format Fdbk
This read-only parameter displays the format of the embedded audio on the 16 mono
channels. Possible values are: D (for non-PCM data), P (for PCM), and = (for no signal
detected).
Emb Peak/Mute Status
ENCODER
De-Embedded Audio
This read-only parameter reports the status of the embedded audio peak or mute on the 16
mono channels. Possible values are: P (Peak), A (Present), S (Silent) and = (No Signal).
Emb Link Select
Use this parameter to set the A/B link source to the audio de-embedder. Options are Link A
(default) or Link B. This parameter is grayed out unless the module detects a dual link input.
Control and Status
Audio Pair 1-8
Enable Output
The Enable Output parameter identifies if the audio is active, and which program it is
associated with. The options are Off and On.
Delay
Use this parameter to set the amount of audio delay to apply to the designated pair.
20
SEL-J2K Series
Source
ENCODER
This parameter selects the source for the designated audio pair. Options are:

Emb 1A-1B (G1P1)

Emb 2A-2B (G1P2)

Emb 3A-3B (G2P1)

Emb 4A-4B (G2P2)

Emb 5A-5B (G3P1)

Emb 6A-6B (G3P2)

Emb 7A-7B (G4P1)

Emb 8A-8B (G4P2)

Exp 1 and 2, AES In 1 to AES In 8

Exp 1 and 2, Analog In 1 to Analog In 4

Test Tone 400Hz

Test Tone 1kHz

Test Tone 2kHz

Test Tone 4kHz

EBU R68

SMPTE RP155

Mute
Gain
Use this control to set the gain for the selected audio pair, with a value of -36 to 36 dB.
Language Code
This control specifies the ISO language code identifying the audio stream. In dual-mono
mode, the control specifies the code used for the first mono channel. You can type a
country code directly into this field. The default setting for this parameter is English (ENG).
Word Length
The Word Length parameter adjusts the sample resolution for the designated pair.
Available options are 24, 20, and 16 bit.
Status
PMT Channel and Loss of Signal
The PMT Channel read-only parameter indicates the relative position of this audio stream
in the PMT corresponding to the Enable Output setting. Loss of Signal is a read-only
parameter confirming the presence of all required sources (per the Mode setting).
SEL-J2K Series
21
Data
Ancillary Data
Allocated TS Rate
This parameter sets the maximum data bitrate to be encoded. When the data source
specifies a data input value other than 0, incoming data is added to the encoder's program
as a data stream. The encoder discards excess data to avoid overrunning the configured
bandwidth.
The associated transport stream bitrate can be computed as follows:
ENCODER
ts_rate = data_rate * 188 / 175
Every transport stream packet (188 bytes) carries a 4-byte header. Packets with data also
carry a 9-byte PES header, leaving 175 bytes for the data payload. The encoder deducts this
stream's bandwidth from the overall transport stream rate when computing the video rate.
Filter
This parameter enables or disables VANC service filtering by DID/SDID values.
The Enable option makes it possible to select explicit individual VANC services. Table entries
with valid DID/SDID combinations are extracted from the encoder's input and copied to the
transport stream output. VANC data with non-matching DID and SDID values are filtered
out and discarded. (The Enable option affects only the SMPTE 2038 / RDD 11 operation, not
any other VANC service.)
When Disabled is chosen, all VANC data is extracted from the encoder's input (instead of
being filtered) and data that is eligible for passthrough is copied to the MPEG output
stream. The encoder handles some VANC data input directly, such as embedded audio.
These VANC data might affect the generated transport stream, but they are not copied to
the stream as part of the unfiltered processing.
VANC Service 1 to 16
The following VANC Service options are offered when the Ancillary Filter is enabled:

None

Active Format Description

Ancillary Timecode

Closed Captions (EIA-608)

Closed Captions (EIA-708)

Film Codes

Payload Identification

Program Description

SCTE-104 Splicing

VBI Data
22
SEL-J2K Series
Table 5. DID/SDID Value Ranges and Passthrough Behavior When Filter is Off
SDID
Pass Through
with Filter OFF
0x00
any
No
any
0x00
Undefined value. Both the DID and SDID designate zero as undefined in
all contexts. A zero DID overrides the SDID and makes it irrelevant.
Similarly, a zero SDID should not occur with any DID.
0x01
0x02
0x03
n/a
No
These DID values are reserved (unused).
0x04
0x?0
0x?4
0x?8
0x?c
No
Reserved for 8-bit applications. The low-order 2 bits of the SDID must be
zero; the upper 4 bits of the SDID (represented as '?') are unrestricted.
The SDID value 0x00 is excluded.
0x05
0x06
0x07
n/a
No
0x08
0x?0
0x?4
0x?8
0x?c
No
0x09
0x0a
0x0b
n/a
No
0x0c
0x?0
0x?4
0x?8
0x?c
No
0x0d
0x0e
0x0f
n/a
No
0x10 to
0x3f
any
No
These DID/SDID values are reserved.
0x40 to
0x4f
0x01
Yes
to 0xff
These DID/SDID values are registered.
(0x41, 0x01): Payload identification.
(0x44, 0x04): KLV-Encoder metadata
(0x45, 0x01 through 0x09): Dolby audio metadata.
0x50 to
0x5f
0x01
Yes
to 0xff
These DID/SDID values are for user applications.
(0x51, 0x01): Film codes.
0x60 to
0x7f
0x01
Yes
to 0xff
These DID/SDID values are registered.
(0x60, 0x60): RP-188 ancillary time code.
(0x61, 0x01): EIA-708-B closed captions.
(0x61, 0x02): EIA-608 closed captions.
(0x62, 0x01): RP-207 program description.
(0x62, 0x03): RP-208 VBI data.
0x80 to
0x9f
n/a
These DID values are defined to ignore the SDID.
ENCODER
DID
No
Notes
SEL-J2K Series
23
Table 5. DID/SDID Value Ranges and Passthrough Behavior When Filter is Off (Continued)
n/a
Yes
0xe0 to
0xe7
n/a
No
(0xe0 to 0xe3): 299M, HDTV, control.
(0xe4 to 0xe7): 299M, HDTV, audio.
0xe8 to
0xeb
n/a
Yes
0xec to
0xef
n/a
No
(0xec to 0xef): AES control packet.
0xf0 to
0xf3
n/a
Yes
0xf4
n/a
Yes
(0xf4): Error detection (EDH).
0xf5 to
0xf7
n/a
Yes
(0xf5): Time code.
0xf8 to
0xff
n/a
No
The following items have registered meanings, are used internally by the
encoder, and should not be assigned to services:
(0xf8 to 0xff): AES audio.
Status
Drop
This read-only parameter reports the amount of ancillary data drop error in seconds.
TS Rate
This parameter indicates the peak transport stream bit rate for vertical ancillary data in
Mbits/sec.
ENCODER
0xa0 to
0xdf
Service 1 to Service 16 Rate
This read-only parameter reports the peak bit rate for the designated service, in Mbits/sec.
Service 1 Present
The status of Service 1 to 16 is reported here. Possible values are Not Present or Present.
VBI Data
These parameters are visible SD-SDI is the selected input. The Field 1 First Line parameter
sets the first VBI line to pass for the specified field. Options are None, and lines 7 to 23.
Field 1 Second Line selects the second VBI line to pass for the specified field. Options are
None, and lines 7 to 23.
Field 2 First and Second Line parameters have a range of 7 to 22 lines.
24
SEL-J2K Series
TS Mux
Name
Use the Name parameter to set the MPEG name of the module; default is Enc.
Total TS Rate
ENCODER
Use this parameter to set the total transport stream rate, which includes video, audio and
data services.
Transport Stream ID
Use this parameter to set the Transport Stream ID for the output transport stream.
Program Number
This parameter assigns a PID number to the program.
The following parameters set the PID values for their respective uses:

PMT PID

PCR PID

Video PID

Audio x PID

VBI PID

Ancillary PID
TS Mux Status
The following read-only status parameters are available:

Total TS Rate indicates the output TS bit rate in Mbits/sec

Video TS Rate indicates the output video bit rate in Mbits/sec

Audio TS Rate indicates the output audio bit rate in Mbits/sec

TS Packets displays the number of transport stream packets of the program

Video TS Packets displays the number of video transport stream packets of the
program

Audio TS Packets reports the number of audio transport stream packets

J2K Codestream Overflow reports the number of program codestream overflows
generated by the JPEG2000 module
IP Encapsulation
The JPEG2000 supports both unicast and multicast transmission.
SEL-J2K Series
25
Unicast traffic is delivered to a single primary or secondary IP destination address. The
primary and secondary IP Addresses are the addresses of the primary and secondary Data
Ethernet destinations. Each is either:

an IP address on the same subnet as the primary interface corresponding to the VLAN
ID of this source, or

an address that is reachable through the router configured as the gateway for the
interface.
In the Primary and Secondary Port fields, set the destination UDP port numbers for the IP
streams.
There are some restrictions on the destination UDP port numbers:

The port number must be non-zero. No data will be transmitted if the port number is
zero.

When FEC is being used, port numbers should be assigned in multiples of 8.
Column FEC packets are sent on the configured port + 2

Row FEC packets are sent on the configured port + 4
Multicast traffic is sent to a group of IP destinations, rather than a single destination.
ENCODER

For multicast use, set the Primary and Secondary IP Addresses to the Primary Data Ethernet
multicast group IP addresses to which the data should be sent. These IP addresses can be in
the range of 224.0.0.0 through 239.255.255.255.
Note: Some addresses in this range are reserved. The addresses between 224.0.0.0 and
224.0.0.255 (inclusive) are reserved for the use of routing protocols and other low-level
topology discovery or maintenance protocols—such as gateway discovery and group
membership reporting.
Primary and Secondary IP Address
Use this location to enter the primary and secondary addresses for the external destination.
The default value of 0.0.0.0 will disable the transmission of that particular link (primary or
secondary).
Primary and Secondary IP LAN
These parameters will select the source IP interface the encoder will be using to transmit
data out. Selection of this LAN will automatically populate the VLAN ID selected. The IP
Address, IP Mask, IP Gateway, and VLAN ID values must be obtained from your network
administrator. If both are active, the two ports must be connected to separate subnets.
Selected Primary and Secondary VLAN ID
These read-only parameters report the IP VLAN ID
Primary and Secondary Port
Use these parameters to set the UDP ports for the destinations. A value of 0 will disable the
transmission of that particular link (primary or secondary).
26
SEL-J2K Series
Time to Live
To avoid loops in network traffic, configure the Time to Live parameter (IP LANs >
General). The value in this field specifies the number of hops through network equipment
before packets are discarded. This is used to avoid packets being continuously passed
around in a loop due to a misconfiguration of the network.
The Time to Live for IP packets has a range of 1 to 255, with a default of 16.
FEC
ENCODER
This parameter sets the forward error correction to one of the following levels: None, Low,
Medium, High, and Custom (default is None). When FEC is enabled, the Row FEC, FEC
Order, FEC Period, and FEC Interleave parameters are activated.
Row FEC
Use this parameter to enable or disable Row FEC (the default setting is Enabled).
FEC Order and FEC Period
The FEC Order parameter sets a value of between 4 and 20 (default is 16). The FEC Period
parameter sets a value of between 1 and 20 (default is 1).
FEC Interleave
This parameter sets the mode for FEC interleaving as described in Annex A (Non Block
Aligned) and Annex B (Block Aligned) of the Pro-MPEG Code of Practice #3 release 2, July
2004.
TS Packets per IP
This parameter reports the number of TS packets per IP packet, with a range of 1 to 7.
Type of Service
The Type of Service parameter reports a value of 0 to 255. The value set in this field
determines the value sent in the Type of Service byte in the IP header of the Data Ethernet
packets. The handling of the Type of Service byte in the IP header is dependent on the
network equipment.
Some routers support differentiated services prioritization specified by the DSCP field (RFC
2474). This can be configured by setting the most significant six bits in the Type of Service
parameter.
Type of Service = DSCP x 4
Primary and Secondary IP Packets
These parameters report the number of transmitted IP packets on the designated program.
SEL-J2K Series
27
Primary and Secondary IP TX Rate
These parameters indicates the computed transmitted bitrate for the designated program in
Mbits/sec.
IP LAN
Primary and Secondary Data Eth MAC
These read-only parameters display the device’s factory-set MAC Address.
ENCODER
Data Ethernet Interface
This parameter makes it possible to select either Internal data Ethernet through the Selenio
frame's data Ethernet, or External data Ethernet through the J2K module's SFP ports.
With Internal selected, the module uses internal frame data Ethernet IP ports for both
primary and secondary data Ethernets. When you select External, the module uses both
primary and secondary SFPs for data Ethernet.
LAN A to LAN D (LAN A to LAN B in Genlock Versions)
The JPEG2000 uses the Primary and Secondary (1 and 2) Data IP SFP ports for data
transmission and receiving. The IP ports located on the frame itself are not used by the
JPEG2000.
Primary and Secondary Data Ethernet
The Primary Data IP LANs are associated with one physical Ethernet link of the SFP Data 1
connector on the back module. The Secondary Data IP LANs are associated with one
physical Ethernet link of the SFP Data 2 connector. Secondary Data IP provides seamless
redundancy protection for the primary link. The configuration for the secondary (virtual)
interfaces is similar to that for the primary interfaces. All LANs must be on different subnets.
The JPEG2000 modules provide four IP interfaces on both primary and secondary, named
LAN A, B, C, D, so that each encoder or decoder channel can pick one out of four IP LAN
interfaces. There can be no duplicate subnet or IP addresses on any of the eight IPs in the
transport stream packing.
When making settings in the IP LAN section to configure interfaces, ensure that you click
the Apply button to save your settings.
IP Address, IP Mask, and IP Gateway
These values provide the IP source address for data leaving the module (encoder) and the IP
destination address for data being sent to the module (decoder). These values should be
unique on the VLAN associated with this interface. The primary and secondary interface IP
addresses must be unique and on separate subnets.
28
SEL-J2K Series
VLAN ID
The range for this parameter is 1 to 4094. These values apply to LAN A, B, C, and D, and
must be unique in both the Primary and Secondary Data Ethernet.
No duplicate VLAN IDs are allowed on the four IP LANs. For example, the VLAN ID for
Primary LAN A, B, C, and D must be unique. The VLAN ID values for Secondary LAN A, B,
C, and D also must be unique.
ENCODER
On each physical link, IP LAN interfaces can be configured for untagged network traffic
(VLAN ID is set to 0) and tagged virtual LAN network traffic (VLAN ID is set from 1 to 4094).
Only one IP LAN interface can remain untagged; all others must be assigned a unique
number. The JPEG2000 module supports logical interfaces on up to four different primary
virtual networks (named LAN A, B, C, D). Hence, VLAN IDs of four primary IP LANs must be
unique. Similarly, VLAN IDs of four secondary IP LANs must be unique.
When configuring the interface, match the VLAN ID to the ID on the virtual network on
which data is to be received or transmitted. Set the VLAN ID to 0 to configure an interface
for sending or receiving untagged Ethernet traffic that is not on a virtual network. If VLANs
are not being used, configure LAN A to use VLAN ID 0 and the IP address, subnet and
gateway for the interface.
SFP Status
The following read-only parameters display information about the SFP modules that are
installed in the primary and secondary SFP ports:

Primary and Secondary SFP Transmit Signal (Unknown, None, Normal, Degraded, or
Fault)

Primary and Secondary SFP Received Power (value in dBm)

Primary and Secondary SFP Attributes (OP+SFP+TRSM+1G, OP+SFP+TRMM+1G,
SFP+TRJ45+1G, Unknown; and SM (single mode), MM (multi mode), COP (copper)]

Primary and Secondary SFP Link Status (Up or Down for copper; Received Power for
Optical)

Primary and Secondary SFP Speed (10, 100, or 1000; Full Duplex or Half Duplex)
Audio Expansion
Exp 1 and Exp 2 Ch Select
The encoder’s Exp 1 and Exp 2 Ch Select parameters sets each encoder’s associated
program. Options are: Encoder 1 (default), Encoder 2, Encoder 3, and Encoder 4.
Exp 1 and Exp 2 Input Level
Exp 1 and Exp 2 Input Level parameters set the input audio 0 dBFS operational level to a
value within the range of 12 and 28 dBu, with a default of 24.
SEL-J2K Series
29
Status
1st and 2nd Audio Expander Detect
These parameters report the detected modules in the first and second audio expander
position, respectively. Possible values are: None, Analog, AES Unbalanced, AES
Balanced, and Initializing.
Exp 1 and 2 Analog Input Status
When analog audio expander modules are installed, these parameters report their input
statuses. Possible values are: Peak, Silence, and Present.
ENCODER
Exp 1 and 2 AES Peak/Mute Status
When AES audio expansion modules are installed, these parameters report their Peak/Mute
statuses. Possible values are: Peak, Silence, Present, and Absent.
Exp 1 and 2 AES Format Fdbk
If AES expansion modules are installed, these status parameters report their formats.
Possible values are Alignment Tone, PCM, or Non-PCM.
Module
Name
Create the name for the module in this field.
CTR SDI Out Select
This parameter sets the module’s SDI output to the internal CTR SDI. The following options
are available (Enc All Programs is the default):

Enc All Programs (Automode)

Encoder 1

Encoder 2

Encoder 3

Encoder 4
When Enc All Programs (Automode) is selected (in a frame with controller firmware
version 5.0), the user interface displays all enabled channels on the Streaming thumbnail
page. The SEL-J2K Series module communicates with the frame’s controller to send video of
each enabled channel to CTR-SDI-Out. When a non- Automode option is selected (such
as Encoder 1 or Encoder 2), the controller only displays that channel's video on the
thumbnail page, just like other single channel modules.
30
SEL-J2K Series
ENCODER
In the user interface image shown, Slot 3 is a four-channel encoder, and Slot 7 is a
three-channel decoder with the fourth channel disabled.
Figure 10. Enc All Programs (Automode) Example
Module Fault Alarm Priority
Module Faults cause the frame to take recovery actions according to the Module Fail
Action on the controller Redundancy page. The Module Fault Alarm Priority sets the
priority of encoder module alarms on a scale of 1 to 10 (default is None).
Using this parameter, any enabled alarm (with a priority above or equal to the setting)
triggers a text string indicating the alarm source. The module also signals the controller that
the module has failed and a backup module is activated, if available.
See page 43 for a list of the encoder alarms.
SEL-J2K Series
31
DECODER PARAMETERS
Decoder 1 to 4 (Decoder 1 to 2 in Genlock Versions)
Control
Decoder Function
This parameter enables or disables the decoder.
This parameter sets the program tag.
EXT 1B to 4B Function
DECODER
Tag
Using this parameter in the decoder mode, the external 1B, 2B, 3B, and 4B connectors can
be assigned to any combination of SDI Out or ASI In.
Video
Control
No Input Action
Use this parameter to set the behavior of the displayed video in the event of a loss of
input. Options are Black, Still, and No Sync.
Status
Present
This read-only parameter reports whether the module detects an input video stream.
Output Format
One of the following output formats is displayed:

3G: SMPTE 424M, SMPTE 425 Level A, Level B-DL (YCrCb, 4:2:2, 10-bit with 16
channels of embedded audio; 2.97, 2.97/1.001 Gb/s)

HD: SMPTE 292M (1.485, 1.485/1.001 Gb/s)

Video Rate
This read-only parameter reports the video receive rate in Mb/s.
32
SEL-J2K Series
Decode Errors
The cumulative number of video decoding errors is reported.
Skips
This parameter reports the cumulative number of video skips.
Repeats
This parameter reports the cumulative number of video repeats.
CodeStream Blocked
This read-only parameter reports whether there is J2K codestream blocked due to
codestream corruption. Options are Present, Not Present, and NA (not applicable).
DECODER
Latency Mode
This parameter reports the detected latency mode in the signal. Possible values are Normal
(default), Low, and Ultra Low.
Quality Mode
This read-only parameter reports the detected Quality Mode as either Visually Lossless
or Near Mathematically Lossless.
Clear Status
Use this parameter to clear all of the status parameters on the module. Options are --- or
Apply.
Audio
Control and Status
Dolby E Start Line
Use one of the options in this parameter to select the starting video line of embedded Dolby
bitstreams. The default setting is shown in parentheses.

13 to 25 (SD-525 Out1) (14)

24 to 62 (720p/59.94 Out1) (27)

24 to 68 (720p/60 Out1) (47)

19 to 47 (1080i/59.94 Out1, 1080p/29.97 Out1) (24)

19 to 51 (1080i/60 Out1, 1080p/30 Out1) (24)

12 to 97 (1080p/23.98 Out1, 1080psf/23.98 Out1, 1080p/24 Out1, 1080psf/24 Out1)
(27)

36 to 94 (1080p/59.94 Out1, 1080p/59.94 DL Out1) (47)

36 to 103 (1080p/60 Out1, 1080p/60 DL Out1) (47)

9 to 29 (SD-625 Out1) (12)

18 to 69 (720p/50 Out1) (28)

14 to 52 (1080i/50 Out1, 1080p/25 Out1) (21)

27 to 104 (1080p/50 Out1, 1080p/50 DL Out1) (42)
SEL-J2K Series
33
Emb Link Select
This parameter sets the A/B link source for the audio embedder. Options are Link A
(default) and Link B. (This parameter is grayed out if the input format is not dual-link.)
EMB Pair 1 and EMB Pair 2
Delay
This control sets the amount of audio delay to apply to the designated pair. Values range
from -120 to 120 ms. for Normal Latency 1, and 0 to 120 ms for Low Latency 1 and
Ultra Low Latency 1.
EMB Ch 1A-1B (G1P1) and EMB Ch 2A-2B (G1P2)
These parameters set the audio source for pair 1 and par 2, respectively. Options are









Audio 1 (default)
Audio 2 to 8
Test Tone 400Hz
Test Tone 1kHz
Test Tone 2kHz
Test Tone 4kHz
EBU R68
SMPTE RP155
Mute
None
Gain
DECODER

Use this control to adjust the gain for audio pair 1 and audio par 2, respectively. The range
is -360 to 360 dB, with a default of 0.
Status Parameters
The Present read-only parameter detects the presence of the audio stream. The Decode
Errors parameter counts the number of audio decode errors. Rate displays the audio
receive rate in a range of 0 to 2800 Kb/s.
The Sampling Rate reports in a range of 0 to 480 Kbps. The Word Length is reported as 24
bits, 20 bits, or 16 bits.
Data Services
Use the VPID parameter to enable or disable the packet descriptor (default is Disable).
The SMPTE-2038 parameter enables the pass-through mode of ancillary data carried on a
SMPTE-2038 stream (default is Disable). SMPTE-2038 Present reports whether a
SMPTE-2038 stream data is detected. SMPTE-2038 Errors reports the number of ancillary
data errors.
Field 1 and 2, Line 5 to Line 23 Present report the presence of VBI in the designated fields
and lines. These parameters are visible when the source is SD-SDI.
34
SEL-J2K Series
TS Input
Primary Source, Alternate Source, and Current Source
Use the Primary Source and the Alternate Source parameters to set the transport stream
input sources for the decoder. Options are EXT ASI B (Alternate Source default), EXT IP
(Primary Source default), and None (Alternate Source only).
The Current Source parameter displays either Primary or Alternate.
Source Selection and Restore
DECODER
The Source Selection control options are Revertive (default) and Non-Revertive. Select
Apply in the Restore parameter to return to the original video source selection.
IP Jitter Buffer Delay
Use the IP Jitter Buffer Delay field to set the desired nominal delay in milliseconds when
the input is EXT IP. The setting of the delay affects the decoder’s ability to absorb IP packet
jitter. Setting the value lower than the jitter can degrade the service. Setting it too high can
cause higher delay than necessary.
Primary and Alternate Transport Stream Rate and Present
All of the Primary Source options are available in Alternate Source, in addition to the
default setting of None. However, EXT IP and CXN are disallowed as Alternate Sources
for each other. If Alternate Source is set to None, the Primary Source is always used—
even if the signal is bad or missing.
The Alternate Source is not triggered by an 8B/10B error, Program Lost alarm, or absence
of PMT. On IP inputs, the Alternate Source is triggered by the loss of a link, or a data rate
below 10kbps.
The read-only Primary and Alternate Input parameter indicates whether the sources are
available, while the Current Source indicates the source being used.
Source Selection and Switching Delay
In the event that the decoder has switched to the Alternate Source, but the Primary
Source has become stable again, this parameter determines whether the decoder should
stay with the Alternate Source. Options are the default Revertive (return to the Primary
Source) or Non-Revertive (remain with Alternate Source). The Source Selection and
Switching Delay parameters are only visible when Alternate Source is enabled.
The Switching Delay parameter controls how long the module waits before it returns to
the Primary Source. (You must first have enable the Alternate Source parameter and
select Revertive in Source Selection). The range is between 0 to 10 seconds in 0.1 second
increments.
SEL-J2K Series
35
The Restore button manually forces the decoder back to the Primary Source. This button
is only visible when the input has switched to Alternate Source and the Source Selection
is set to Non-Revertive. This condition also triggers the Alternate Input Running alarm.
Note: If the Alternate Source is enabled, and the Primary Source loses its signal, the
switch will occur even if the Alternate Source signal has failed. The second external ASI
source (EXT ASI 2) is only available on the DEC2 module.
If other TS protection is used (Data Ethernet Protection or CXN Redundancy), the
recommended value of Switching Delay is more than 1 sec.
Transport Stream Errors and Errored Seconds
Primary and Secondary IP
Primary LAN
DECODER
Transport Stream Errors counts the number of errors; Errored Seconds reports the
number of seconds in error. The transport stream errors detected and counted are
continuity count errors, PSI packet CRC errors, corrupted transport packet headers, and—
in some rare cases—overflows of processed packet queues.
Use this parameter to set the IP LAN. Options are LAN A (default) and LAN B, LAN C, and
LAN D.
Selected Primary VLAN ID
This read-only parameter reports the IP VLAN ID.
IP Receive Port Number
Use the IP Receive Port Number to set the IP receive port when the Source is set to
external IP.
Primary and Secondary Multicast Source 1 and 2 Parameters
Use the Multicast Group field to configure the multicast group address, along with the
addresses of the Primary Multicast Source and Secondary Multicast Source.
Status ASI
Read-only parameters report the ASI Loss of Signal (shown as Fault, No Fault, or Not
Applicable), number of ASI Errors, and ASI Format (shown as ASI-188, ASI-204, or
Unknown).
36
SEL-J2K Series
Status IP
Primary and Secondary IP Failure
The Primary and Secondary IP Failure parameter detects an error condition on the
primary or secondary input for this channel. When an error is detected, the parameter
reports LAN interface not configured, Invalid multicast address, or Unstable source.
Received IP Rate
The Received IP Rate indicates the received IP data rate from the selected IP interface for
this channel, in Mbits/sec.
DECODER
Received IP Packets
Received IP Packets report the number of IP packets received on the data IP interface for
this channel.
Corrected and Uncorrected Error
If FEC is detected, the Corrected and Uncorrected Error counters will indicate number of
packets corrected by FEC and the number of packets that could not be corrected.
Delay Variation
The Delay Variation parameter reports the variation in delay observed in a CBR IP stream,
in msec.
Packet Size
This read-only parameter reports the number of transport stream packets per IP packet.
Column FEC, Row FEC, FEC Order, and FEC Period
Column FEC detects the presence of column forward error correction packets in this input.
Row FEC detects the presence of row forward error correction packets in this input, in
association with FEC Order and FEC Period.
Active Interface
The Active Interface parameter indicates whether the Primary or Secondary data Ethernet
is active.
Primary and Secondary Received IP Rate
These parameters report the received IP data rate from the selected IP interface for this
channel in Mbits/sec.
SEL-J2K Series
37
Primary and Secondary IP Packets
These read-only parameters report the number of IP packets received on the secondary data
IP interface for this channel.
Seamless Protection Status
This parameter reports whether there is seamless protection. Possible values are: Not
Present or Present.
Seamless Current Path Differential
This read-only parameter indicates the seamless protection path differential. Range is 10 to
500 ms.
Program Number
Use this parameter to set the program number.
Audio x Selector
This control selects the Audio 1 demux input. Options are: Index (default), PID, Off.
Audio x Stream (0-16)
DECODER
TS Demux
Set the audio channel with this control.
Audio x PID
This control selects the audio PID when enabled by the Audi x Selector.
Genlock (GL Versions Only)
Genlock
Use this control to enable or disable the Genlock feature on a SEL-1J2GL1-EOS or
SEL-2J2GL1-EOS module. (This feature is not available on other SEL-J2K Series modules.)
The default setting is Enable.
A SEL-2J2GL1-EOS module can only decode one 3G video signal when it is set to Genlock
mode. Single-channel genlock modules cannot process a 3G signal.
38
SEL-J2K Series
V-Phase
This parameter controls the vertical phase of the frame sync. The following options are
available (default is 0 in all cases):

0 to 524 lines (SD-525 Out1)

0 to 624 lines (SD-625 Out1)

0 to 749 lines (720p/50 Out1, 720p/59.94 Out1, 720p/60 Out1)

0 to 1124 lines (1080i/50 Out1, 1080i/59.94 Out1, 1080i/60 Out1, 1080p/23.98 Out1,
1080p/24 Out1, 1080p/25 Out1, 1080p/29.97 Out1, 1080p/30 Out1, 1080p/50 DL
Out1, 1080p/50 Out1, 1080p/59.94 DL Out1, 1080p/59.94 Out1, 1080p/60 DL Out1,
1080p/60 Out1, 1080psf/23.98 Out1, 1080psf/24 Out1, 1080psf/25 Out1, 1080psf/
29.97 Out1, 1080psf/30 Out1)
H-Phase
DECODER
Use this parameter to control the horizontal phase of the frame sync. The following options
are available (default is 0 in all cases):

0 to 63481 µs (SD-525 Out1)

0 to 63926 µs (SD-625 Out1)

0 to 26653 µs (720p/50 Out1)

0 to 22231 µs(720p/59.94 Out1)

0 to 22209 µs (720p/60 Out1)

0 to 35542 µs (1080i/50 Out1, 1080p/25 Out1, 1080psf/25 Out1)

0 to 29646 µs (1080i/59.94 Out1, 1080p/29.97 Out1, 1080psf/29.97 Out1)

0 to 29616 µs (1080i/60 Out1, 1080p/30 Out1, 1080psf/30 Out1)

0 to 37061 µs (1080p/23.98 Out1, 1080psf/23.98 Out1)

0 to 37024 µs (1080p/24 Out1, 1080psf/24 Out1)

0 to 17771 µs (1080p/50 DL Out1, 1080p/50 Out1)

0 to 14823 µs (1080p/59.94 DL Out1, 1080p/59.94 Out1)

0 to 14808 µs (1080p/60 DL Out1, 1080p/60 Out1)
IP LAN
Primary and Secondary Data Eth MAC
These read-only parameters display the device’s factory-set MAC Address.
Data Ethernet Interface
This parameter makes it possible to select either Internal data Ethernet through the Selenio
frame's data Ethernet, or External data Ethernet through the J2K module's SFP ports.
With Internal selected, the module uses internal frame data Ethernet IP ports for both
primary and secondary data Ethernets. When you select External, the module uses both
primary and secondary SFPs for data Ethernet.
SEL-J2K Series
39
Seamless Protection Max Path Differential
Use this control to set the maximum path differential for seamless protection. Range is 10
to 500 ms.
LAN A to LAN D (LAN A to LAN B in Genlock Versions)
The JPEG2000 uses the Primary and Secondary (1 and 2) Data IP SFP ports for data
transmission and receiving. The IP ports located on the frame itself are not used by the
JPEG2000.
Primary and Secondary Data Ethernet
DECODER
The Primary Data IP LANs are associated with one physical Ethernet link of the SFP Data 1
connector on the back module. The Secondary Data IP LANs are associated with one
physical Ethernet link of the SFP Data 2 connector. Secondary Data IP provides seamless
redundancy protection for the primary link. The configuration for the secondary (virtual)
interfaces is similar to that for the primary interfaces. All LANs must be on different subnets.
The JPEG2000 modules provide four IP interfaces on both primary and secondary, named
LAN A, B, C, D, so that each encoder or decoder channel can pick one out of four IP LAN
interfaces. There can be no duplicate subnet or IP addresses on any of the eight IPs in the
transport stream packing.
When making settings in the IP LAN section to configure interfaces, ensure that you click
the Apply button to save your settings.
IP Address, IP Mask, and IP Gateway
These values provide the IP source address for data leaving the module (encoder) and the IP
destination address for data being sent to the module (decoder). These values should be
unique on the VLAN associated with this interface. The primary and secondary interface IP
addresses must be unique and on separate subnets.
VLAN ID
The range for this parameter is 1 to 4094. These values apply to LAN A, B, C, and D, and
must be unique in both the Primary and Secondary Data Ethernet.
No duplicate VLAN IDs are allowed on the four IP LANs. For example, the VLAN ID for
Primary LAN A, B, C, and D must be unique. The VLAN ID values for Secondary LAN A, B,
C, and D also must be unique.
On each physical link, IP LAN interfaces can be configured for untagged network traffic
(VLAN ID is set to 0) and tagged virtual LAN network traffic (VLAN ID is set from 1 to 4094).
Only one IP LAN interface can remain untagged; all others must be assigned a unique
number. The JPEG2000 module supports logical interfaces on up to four different primary
virtual networks (named LAN A, B, C, D). Hence, VLAN IDs of four primary IP LANs must be
unique. Similarly, VLAN IDs of four secondary IP LANs must be unique.
When configuring the interface, match the VLAN ID to the ID on the virtual network on
which data is to be received or transmitted. Set the VLAN ID to 0 to configure an interface
for sending or receiving untagged Ethernet traffic that is not on a virtual network. If VLANs
are not being used, configure LAN A to use VLAN ID 0 and the IP address, subnet and
gateway for the interface.
40
SEL-J2K Series
SFP Status
The following read-only parameters display information about the SFP modules that are
installed in the primary and secondary SFP ports:

Primary and Secondary SFP Transmit Signal (Unknown, None, Normal, Degraded, or
Fault)

Primary and Secondary SFP Received Power (value in dBm)

Primary and Secondary SFP Attributes (OP+SFP+TRSM+1G, OP+SFP+TRMM+1G,
SFP+TRJ45+1G, Unknown; and SM (single mode), MM (multi mode), COP (copper)]

Primary and Secondary SFP Link Status (Up or Down for copper; Received Power for
Optical)

Primary and Secondary SFP Speed (10, 100, or 1000; Full Duplex or Half Duplex)
DECODER
Audio Expansion
Exp 1 and Exp 2 Ch Select
The encoder’s Exp 1 and Exp 2 Ch Select parameters sets each encoder’s associated
program. Options are: Decoder 1 (default), Decoder 2, Decoder 3, and Decoder4.
Exp 1 and Exp 2 Output Level
Exp 1 and Exp 2 Output Level parameters set the input audio 0 dBFS operational level to
a value within the range of 12 and 28 dBu, with a default of 24.
Status
1st and 2nd Audio Expander Detect
These parameters report the detected modules in the first and second audio expander
position, respectively. Possible values are: None, Analog, AES Unbalanced, AES
Balanced, and Initializing.
Routing
Exp 1 AES/Analog 1 to 16 Output Source
Use these parameters to select the sources for the output audio channel pairs. The
following sources are available:

Decoder 1 Audio 1

Decoder 1 Audio 2

Decoder 1 Audio 3

Decoder 1 Audio 4
SEL-J2K Series

Decoder 1 Audio 5

Decoder 1 Audio 6

Decoder 1 Audio 7

Decoder 1 Audio 8

Decoder 2 Audio 1

Decoder 2 Audio 2

Decoder 2 Audio 3

Decoder 2 Audio 4

Decoder 2 Audio 5

Decoder 2 Audio 6

Decoder 2 Audio 7

Decoder 2 Audio 8

Mute
Use these parameters to select the sources for the output audio channel pairs. The
following sources are available:

Decoder 1 Audio 1

Decoder 1 Audio 2

Decoder 1 Audio 3

Decoder 1 Audio 4

Decoder 1 Audio 5

Decoder 1 Audio 6

Decoder 1 Audio 7

Decoder 1 Audio 8
DECODER
Exp 2 AES/Analog 1 to 16 Output Source
Module
Name
Create the name for the module in this field.
CTR SDI Out Select
This parameter sets the module’s SDI output to the internal CTR SDI. The following options
are available (Dec All Programs is the default):

Dec All Programs (Automode)

Decoder 1

Decoder 2

Decoder 3

Decoder 4
41
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SEL-J2K Series
When Dec All Programs (Automode) is selected (in a frame with controller firmware
version 5.0), the user interface displays all enabled channels on the streaming thumbnail
page. The SEL-J2K Series module communicates with the frame’s controller to send video of
each enabled channel to CTR-SDI-Out. When a non- Automode option is selected (such
as Decoder 1 or Decoder 2), the controller only displays that channel's video on the
thumbnail page just like other single channel modules.
In the user interface image shown, Slot 3 is a four-channel encoder, and Slot 7 is a
three-channel decoder with the fourth channel disabled.
Figure 11. Dec All Programs (Automode) Example
Module Fault Alarm Priority
Module Faults cause the frame to take recovery actions according to the Module Fail
Action on the controller Redundancy page. The Module Fault Alarm Priority sets the
priority of encoder module alarms on a scale of 1 to 10 (default is None).
Using this parameter, any enabled alarm (with a priority above or equal to the setting)
triggers a text string indicating the alarm source. The module also signals the controller that
the module has failed and a backup module is activated, if available.
See page 44 for a list of the decoder alarms.
Status
This area includes module status information for Serial Number, Software Version, ROM
Version, and FPGA ID. To refresh the information, press the Clear Status button.
SEL-J2K Series
Alarms
Encoder
Table 6. Encoder Alarms
Alarm Name
Default Priority
Default Trigger
Delay
Default Clear
Delay
Module Failure
10 (Major)
0.0 s
0.0 s
IP Configuration Error
10 (Major)
0.0 s
0.0 s
IP Transmit Overflow Error
10 (Major)
0.0 s
0.0 s
High Temperature Warning
10 (Major)
0.0 s
0.0 s
Module In Failsafe
10 (Major)
0.0 s
5.0 s
Module Configuration Error
10 (Major)
0.0 s
5.0 s
Primary SFP Fault
10 (Major)
0.0 s
5.0 s
Secondary SFP Fault
10 (Major)
0.0 s
5.0 s
Fan Fault
10 (Major)
0.0 s
5.0 s
Enc 1 to 4 Video Loss of Signal
8 (Major)
0.0 s
0.0 s
Enc 1 to 4 Incorrect input video format
9 (Major)
0.0 s
0.0 s
Enc 1 to 4 Errors in video input signal
6 (Major)
0.0 s
0.0 s
Enc 1 to 4 Audio Loss of Signal
10 (Major)
0.0 s
0.0 s
Enc 1 to 4 Audio/Video Sync Adjust
10 (Major)
0.0 s
0.0 s
Enc 1 to 4 VANC Data exceeds bandwidth
allocation
10 (Major)
0.0 s
0.0 s
Enc 1 to 4 VANC Data discarded due to packet
error
10 (Major)
0.0 s
0.0 s
Enc 1 to 4 VANC configuration: rate below
minimum
10 (Major)
0.0 s
0.0 s
43
44
SEL-J2K Series
Decoder
Table 7. Decoder Alarms
Alarm Name
Default
Priority
Default
Trigger Delay
Default Clear
Delay
Module Failure
10 (Major)
0.0 s
0.0 s
IP Configuration Error
10 (Major)
0.0 s
0.0 s
IP Receive Overflow Error
10 (Major)
0.0 s
0.0 s
IP Transmit Overflow Error
10 (Major)
0.0 s
0.0 s
IP Receive Configuration Error
10 (Major)
0.0 s
0.0 s
High Temperature Warning
10 (Major)
0.0 s
0.0 s
Module In Failsafe
10 (Major)
0.0 s
5.0 s
Internal IP Data Error
10 (Major)
0.0 s
5.0 s
Module Configuration Error
10 (Major)
0.0 s
5.0 s
Primary SFP Fault
10 (Major)
0.0 s
5.0 s
Secondary SFP Fault
10 (Major)
0.0 s
5.0 s
Fan Fault
10 (Major)
0.0 s
5.0 s
Latency mode is Ultra Low, but SELOPT-SK-ULL license
is missing
8 (Major)
0.0 s
2.0 s
Quality mode is Near Mathematical Lossless, but
SELOPT-SK-NMLS license is missing
8 (Major)
0.0 s
2.0 s
Insufficient Memory
8 (Major)
0.0 s
2.0 s
Module Resource Error
10 (Major)
0.0 s
5.0 s
Module Latency Error
10 (Major)
0.0 s
5.0 s
Dec 1 and 2 ASI Loss of Input
10 (Major)
0.0 s
5.0 s
Dec 1 and 2 ASI Input 8b10b Error
4 (Minor)
0.0 s
5.0 s
Dec 1 and 2 Transport Stream Lost
9 (Major)
0.0 s
5.0 s
Dec 1 and 2 Transport Stream CC Error or PSI CRC Error 4 (Minor)
0.0 s
5.0 s
Dec 1 and 2 Program Lost
8 (Major)
0.0 s
5.0 s
Dec 1 and 2 Video Decode Error
4 (Minor)
0.0 s
5.0 s
Dec 1 and 2 Audio Decode Error
4 (Minor)
0.0 s
5.0 s
Dec 1 and 2 Audio Stream Not Present
3 (Minor)
0.0 s
5.0 s
Dec 1 and 2 Clock Recovery Error
4 (Minor)
0.0 s
5.0 s
Dec 1 and 2 Audio Configuration Error
4 (Minor)
0.0 s
5.0 s
Dec 1 and 2 Video Skip/Repeat
10 (Major)
0.0 s
5.0 s
Dec 1 and 2 Invalid Genlock Standard
10 (Major)
0.0 s
5.0 s
Dec 1 and 2 Alternate Input Running
10 (Major)
0.0 s
5.0 s
SEL-J2K Series
Laser Safety for Fiber Optic Back Modules
WARNING!
Use of controls, adjustments, and procedures other than those specified in this
document may result in hazardous laser radiation exposure.
Optical fiber telecommunication systems use semiconductor laser transmitters that emit
infrared light that is normally not visible to the human eye. Although a conventional laser
produces a small beam of light, the power density is very high, and it can damage your
eyes.
If a beam of laser light enters the eye, the eye magnifies and focuses the energy on the
retina. The energy that reaches the retina can be as much as 100,000 times more than at
the cornea and, as a result, it can burn the retina.
Laser transmission products are classified in four major groups (Class 1, 2, 3, and 4),
according to their emissions and potential for causing injury. Fiber optic transmitter modules
in this series are designated Class 1.
Precautions for Enclosed Systems
In its normal operating mode, an optical fiber communication system is totally enclosed and
presents no risk of eye injury. However, if the fiber optic cables that interconnect various
components of an optical fiber disconnect or break, you may be exposed to laser emissions.
Also, technicians may be exposed to laser emissions during installation and servicing.
Unlike some other laser designs, semiconductor lasers have a highly divergent beam that
decreases rapidly with distance. The greater the distance, the less energy will enter the eye,
and the less potential risk for eye injury.
WARNING!
Eye damage may occur if an optical instrument such as a microscope, magnifying
glass, or eye loupe is used to stare at the energized fiber end.
Under normal operating conditions, optical fiber telecommunication systems are completely
enclosed; nonetheless, observe the following precautions:

Do not stare into optical connectors or broken fibers.

Ensure technicians have satisfactorily completed an approved training course before
performing installation or maintenance.

Ensure there are appropriate warning labels near the optical ports of the modules.
Precautions for Unenclosed Systems
During service, maintenance, or restoration, an optical fiber telecommunication system is
considered unenclosed. Under these conditions, follow the practices described below.
CAUTION!
Only authorized, trained personnel shall be permitted to do service, maintenance,
and restoration.
1
Avoid exposing the eye to emissions from unterminated, energized optical connectors at
close distances.
45
46
SEL-J2K Series
2
Ensure that only authorized, trained personnel use optical test equipment during
installation or servicing.
3
Turn off all laser sources before scanning a fiber with an optical test set.
4
Keep all unauthorized personnel away from the immediate area of the optical fiber systems
during installation and service.
For guidance on the safe use of optical fiber communication systems in the workplace,
consult ANSI Z136.2, American National Standard for Safe Use of Lasers in the U.S. or
outside the U.S., IEC-60825, Part 2.
Label
The label shown in Figure 12 is applicable to Class 1 laser products.
CLASS 1
LASER PRODUCT
Figure 12. Label for Class 1 Laser Products
Inspecting and Cleaning Fiber Optic Connections
When connecting fibers to a back module, ensure that you do not touch the end of the
fiber, or allow it to become dirty. Small amounts of microscopic dust or other contaminants
can seriously impair or disable a fiber optic network. If you touch the end of a fiber prior to
connecting it to the back module, or otherwise allow it to become dirty, you must carefully
inspect and clean the connection.
Table 8 lists some typical contaminants of a fiber optic connection.
Table 8. Typical Contaminants
Contaminant
Comments
Dust particle, 1 micron
Can block up to 1% of the light transmission,
creating a loss of 0.05 dB
Dust particle, 9
microns
Although microscopic, the particle can
completely block the fiber core
Human hair
Typically 50 to 75 microns in diameter
Oil
Frequently caused by touching
Film residues
Can accumulate from vapors or smoke
Powdery coatings
Can be left behind after water or other solvents
evaporate
SEL-J2K Series
Important Points

Before you begin cleaning, always inspect the fiber connections.

Inspect and clean both fiber ends every time you make a connection.

Keep a protective cap on unplugged fiber connectors.

Do not touch the end of a fiber.

Store unused protective caps in a clean resealable container, located nearby for easy
access.

Do not reuse cleaning tissues or swabs.

Do not allow alcohol or another wet cleaning agent to dry on a fiber end.

Never touch the dispenser tip of an alcohol bottle or any clean portion of a tissue or
swab.

Use care when handling the fiber; do not twist or pull.

Keep your cleaning fluids away from open flame or spark.
Figure 13 describes the acceptable limits of defects in a fiber connection.
Scratches and dust
Zone 1
(0 to 25 micron diameter)
No scratches or digs are allowed
Zone 2
Maximum of 3 scratches <3.0 micron width is acceptable;
Maximum of 1 light dig of <3.0 micron is acceptable
Zone 3
No scratches >3.0 microns are acceptable;
Maximum of 3 digs of <10 microns are acceptable
Maximum 10 micron diameter dig is acceptable
Figure 13. Fiber Optic Cross-Section
Inspection and Cleaning Procedure
Inspection
To inspect and clean the fibers, follow these steps:
1
Ensure the fiber is not “live.”
47
48
SEL-J2K Series
WARNING!
Eye damage may occur if an optical instrument such as a microscope, magnifying
glass, or eye loupe is used to stare at an energized fiber end.
2
Inspect the fiber endface with a fiberscope.
3
If the fiber endface is clean, return to the installation instructions; if the connector is dirty,
proceed to the dry cleaning instructions below.
Dry Cleaning
If you are using cartridge- or pocket-style dry cleaning tools, follow the manufacturer’s
directions. If you are using lint-free wipes, follow these steps:
1
Fold the lint-free wipe four to eight times into a square, taking care to avoid touching the
cleaning surface of the wipe.
2
Lightly wipe the fiber tip in the central portion of the lint-free wipe.
CAUTION
Do not scrub the fiber. Excessive rubbing will leave scratches.
3
Repeat the wiping action on another clean section of the wipe or a new wipe.
4
Inspect the connector again with the fiberscope.
5
If the connection is clean, return to the installation steps; if the connector is still dirty,
proceed to the wet cleaning instructions.
Wet Cleaning
Using 99.8% isopropyl alcohol and lint-free wipes, follow these steps to wet clean the fiber:
1
Fold the wipe into a square, about 4 to 8 layers thick.
2
Moisten one section of the lint-free wipe with one drop of 99.8% alcohol, ensuring that a
portion of the wipe remains dry.
3
Lightly wipe the fiber end in the alcohol-moistened portion of the lint-free wipe.
4
Immediately repeat the wiping action on the dry section of the wipe, removing any residual
alcohol.
5
Inspect the fiber endface again, and if necessary, repeat the wet cleaning with another
clean section of the lint-free wipe.
CAUTION!
Do not scrub the fiber. Excessive rubbing will leave scratches.
6
Dry clean any remaining residue, and then inspect the connector again.
7
If the contamination persists, repeat the dry and wet cleaning procedure until the endface is
clean.
If the fiber end still remains dirty after repeated cleaning attempts, call Customer
Service for further instructions; if the fiber end is clean, return to the installation
instructions.
SEL-J2K Series
Specifications
SDI Input Specifications
Table 9. SDI Input Specifications
Item
Specification
Number of Inputs
Up to 8 (bi-directional port shared with output)
Standard

3G: SMPTE 424M, SMPTE 425 Level A, Level B-DL (YCrCb, 4:2:2, 10-bit with
16 channels of embedded audio; 2.97, 2.97/1.001 Gb/s)

HD: SMPTE 292M (1.485, 1.485/1.001 Gb/s)


DVB-ASI
Connector
(High-Density) HD-BNC
Impedance
75
Signal Level
800 mV ± 10%
Return Loss

3G: >15 dB, typical, from 5 MHz to 2970 MHz, and >10dB, typical, to 2970
MHz

HD: >15 dB, typical, from 5 MHz to 1485 MHz

SD: >15 dB, typical, from 5 MHz to 270 MHz

3G: Adaptive cable equalization for >328 ft (100 m), typical, of Belden 1694A
coaxial cable

HD: Adaptive cable equalization for >492ft (150m) typical, of Belden 1694A
coaxial cable

SD: Adaptive cable equalization for >820 ft (250m) typical, of Belden 1694A
coaxial cable
Equalization
* Support for SMPTE 372M Level B
Note: All the unused output ports should be have 75. terminators.
49
50
SEL-J2K Series
SDI Output Specifications
Table 10. 3G/HD/SD-SDI Output Video Specifications
Item
Specification
Number of Outputs
Up to 4 (Encoder); Up to 8 (Decoder)
Standard

3G: SMPTE 424M, SMPTE 425 Level A, Level B-DL (YCrCb,
4:2:2, 10-bit with 16 channels of embedded audio; 2.97,
2.97/1.001 Gb/s)

HD: SMPTE 292M (1.485, 1.485/1.001 Gb/s)


DVB-ASI
Connector
(High-Density) HD-BNC
Impedance
75
Return Loss

3G: >15 dB, typical, from 5 MHz to 2970 MHz, and >10dB,
typical, to 2970 MHz

HD: >15 dB, typical, from 5 MHz to 1485 MHz

SD: >15 dB, typical, from 5 MHz to 270 MHz
Signal Level
800 mV ± 10%
DC Offset
0.0V ± 0.5 V
Rise and Fall Time

3G: <135 ps (20% to 80%)

HD: <270 ps (20% to 80%)

SD: 400 - 1500 ps (20% to 80%)
Overshoot
< 10% of amplitude (all outputs terminated)
Jitter


Timing jitter:

3G: <2 UI peak to peak

HD: <1 UI peak to peak

SD: <0.2 UI peak to peak
Alignment jitter:

3G: <0.3 UI peak to peak

HD: <0.2 UI peak to peak

SD: <0.2 UI peak to peak
SEL-J2K Series
Table 11. SDI Output Specifications to Video Expander Module
Item
Specification
Number of Inputs
3
Connector Type
Differential signal
Standards

3G: SMPTE 424M, SMPTE 425 Level A, Level B-DL
(YCrCb, 4:2:2, 10-bit with 16 channels of embedded
audio; 2.97, 2.97/1.001 Gb/s)

HD: SMPTE 292M (1.485, 1.485/1.001 Gb/s)

SD: SMPTE 259M-C (270 Mb/s, 525/625 component
video)

DVB-ASI
Impedance
100
Signal Level
800 mV ± 30%
DC Offset
PCML standard
Rise and Fall times
<155 ps
Overshoot/Undershoot
<25%
Jitter

<0.05UI peak-to-peak Random jitter

<0.2UI deterministic jitter
51
52
SEL-J2K Series
SFP Specifications
OP+SFP+TRSM+1G Single Mode Optical Transceiver
Table 12. Specifications for OP+SFP+TRSM+1G Single Mode Optical Transceiver
Transmitter
Parameter
Minimum
Typical
Maximum
Unit
Notes
Average Optical Output Power
-9.5
--
-3
dBm
1
Optical Extinction Ratio
9
--
--
dB
TX Optical Eye Mask Margin
0
30
--
%
Center Wavelength
1270
--
1355
nm
Optical Rise/Fall Time
--
--
260
ps
Relative Intensity Noise
--
--
-120
dB/Hz
Contributed Total Jitter (Transmitter)
1.25 Gb/s
---
---
0.284
227
UI
ps
POUT TX_DISABLE Asserted
-45
--
--
dBm
3
20-80%
2
1. Class 1 Laser Safety per FDA/CDRH
2. Contributed total jitter is calculated from DJ and RJ measurements using TJ = RJ + DJ. Contributed RJ is calculated for 1x10-12 BER by
multiplying the RMS jitter (measured on a single rise or fall edge) from the oscilloscope by 14. Per FC-PI (Table 9 - SM jitter output, note 1),
the actual contributed RJ is allowed to increase above its limit if the actual contributed DJ decreases below its limits, as long as the
component output DJ and TJ remain within their specified FC-PI maximum limits with the worst case specified component jitter input.
3. Eye shall be measured with respect to the mask of the eye using filter defined in IEEE 802.3 section 38.6.5
Receiver
Parameter
Minimum
Typical
Maximum
Unit
Input Optical Power
--
--
-3
dBm
Receiver Sensitivity
--
--
-19
dBm
Stressed Receiver Sensitivity (Optical
Average Input Power)
--
--
-14.4
dBm
Receiver Electrical 3 dB Upper Cutoff
Frequency
--
--
1500
MHz
Operating Center Wavelength
1270
--
1355
nm
Return Loss (minimum)
12
--
--
dB
Loss of Signal - Assert
-30
--
--
dBm
3
Loss of Signal - De-Assert
--
--
-20
dBm
3
Loss of Signal - Hysteresis
0.5
--
--
dB
-12
Notes
1, 2
1. BER = 10
2. An average power of -20 dBm with an Extinction Ratio of 9 dB is approximately equivalent to an OMA of 15 µW.
3. These average power values are specified with an Extinction Ratio of 9 dB. The loss-of-signal circuitry responds to valid 8B/10B-encoded
peak to peak input optical power, not average power.
SEL-J2K Series
OP+SFP+TRMM+1G Multi Mode Optical Transceiver
Table 13. Specifications for OP+SFP+TRSM+1G Multi Mode Optical Transceiver
Transmitter
Parameter
Minimum
Typical
Maximum
Unit
Notes
Average Optical Output Power
-9.5
-6.5
-3
dBm
1
Optical Extinction Ratio
9
12
--
dB
Center Wavelength
830
850
860
nm
Spectral Width - rms
--
--
0.85
nm
Optical Rise/Fall Time
--
150
260
ps
Relative Intensity Noise
--
--
-117
dB/Hz
Contributed Total Jitter
(TP1 to TP2 Contribution)
---
---
0.284
227
UI
ps
POUT TX_DISABLE Asserted
--
--
-35
dBm
1. 50/125 µm fiber with NA = 0.2, 62.5/125 µm fiber with NA = 0.275.
Receiver
Parameter
Minimum
Typical
Maximum
Unit
Input Optical Power
-17
--
0
dBm
Receiver Sensitivity
(Optical Input Power)
--
-21
-17
dBm
Stressed Receiver Sensitivity
--
--
-12.5
-13.5
dBm
dBm
Total Jitter
(TP3 to TP4 Contribution 1.25 Gb/s)
---
---
266
0.332
ps
UI
Return Loss
--
--
-12
dB
Loss of Signal - Asserted
-30
--
--
dBm
3
Loss of Signal - De-Assert
--
--
-17
dBm
3
Loss of Signal - Hysteresis
--
3
--
dB
1. 62.5/125 µm fiber
2. 50/125 µm fiber
Notes
1
2
53
54
SEL-J2K Series
OP+TRJ45+1G Electrical Transceiver
Table 14. Specifications for OP+TRJ45+1G Electrical Transceiver
Transceiver
Parameter
Minimum
Typical
Maximum
Unit
Notes
AC Power Supply Noise Rejection (peak-peak)
--
100
--
mV
4
DC Module Supply Current
(TC = -5 °C to +70 °C, VCCT,R = 3.3 V ± 5%)
(Tc = -40 °C to +85°C, VccT,R = 3.3 V +/- 5%)
350
370
mA
DC Power Dissipation
(TC = -5 °C to +70 °C, VCCT,R = 3.3 V ± 5%)
(Tc = -40 °C to +85°C, VccT,R = 3.3 V +/- 5%)
1100
1150
mW
Sense Outputs (MOD-DEF 2)
2.0 (VOH)
3.05
VCCT, R+ 0.3
V
5
Control Inputs
(Transmitter Disable, MOD-DEF1, 2)
2.0 (VIH)
0 (VIL)
---
VCC
0.8
V
V
6
1. Absolute Maximum Ratings are those values beyond which damage to the device may occur if these limits are exceeded for other than a
short period of time. See Reliability Data Sheet for specific reliability performance.
2. Between Absolute Maximum Ratings and the Recommended Operating Conditions, functional performance is not intended, device
reliability is not implied, and damage to the device may occur over an extended period of time.
3. Operating conditions will vary, depending on model. Recommended Operating Conditions are those values outside of which functional
performance is not intended, device reliability is not implied, and damage to the device may occur over an extended period of time. See
Reliability Data Sheet for specific reliability performance.
4. MSA-specified filter is required on the host board to achieve PSNR performance over the frequency range 10 Hz to 2 MHz.
5. LVTTL, external 4.7-10 KW pull-Up resistor required.
6. LVTTL, external 4.7-10 KW pull-Up resistor required for MOD-DEF 1 and MOD-DEF 2.
Transmitter and Receiver
Parameter
Minimum
Typical
Maximum
Unit
Notes
Data Input:
Transmitter Differential Input Voltage (TD +/-)
500
--
2400
mV
1
Data Output:
Receiver Differential Output Voltage (RD +/-)
370
735
2000
mV
2
Receive Data Rise & Fall Times (Receiver)
--
100
250
ps
3
1. Internally AC-coupled and terminated (100 Ohm differential). These levels are compatible with CML and LVPECL voltage swings.
2. Internally AC-coupled with an external 100 ohm differential load termination.
3. 20%-80% rise and fall times measured with a 500 MHz signal utilizing a 1010 pattern.
Power Consumption
Table 15. Power Consumption
Item
Specification
Module Power Consumption
40 W maximum
55
Index
Symbols
3G encoder restrictions 5
A
Alarms
decoder 44
encoder 43
Alignment tone 29
Allocated TS rate 21
Ancillary data 21–23
Ancillary data errors 33
Audio
control and status 19
expansion 6, 11, 28–29, 40–41
Automode 29, 41
B
Back module diagrams 6
Bitrate 21
C
Cleaning fiber optic connections 46–48
Clear Status button 42
Codestream blocked 32
Color bars 16
Control function 14, 31
Cross-section of optical fiber 47
CTR SDI output 29, 41
CTR SDI output selection 29
Current Source 34
CXN Redundancy 35
D
Data
errors 33
Ethernet 27
services 21–26, 33
Data Ethernet interface 27, 38
De-embedded audio 19
Default IP address 25
DID/SDID value ranges 22–23
DIP switch for failsafe 11, 12
Dolby E start line 32
Dry cleaning fiber connections 48
Dual-link 33
E
Embed pair link, delay and source 33
Error
reporting 32
transport stream 35
Expansion modules 6, 11, 40–41
Extractor, front module 10
F
Failsafe mode 11
Features of the product 1
FEC 26
Fiber optic connections, cleaning 46–48
Filter, VANC 21
Firmware upgrades 11–12
Front module photo 5
G
Genlock 3, 4, 5, 37
H
Hardware options 4
H-phase 38
I
Inspecting & cleaning fiber connections 46–48
Installing Selenio modules 8–9
IP
destination address 25
encapsulation 24–26
LAN 27–28, 38–40
packets 26
IP Jitter Buffer Delay 34
56
SEL-J2K Series
L
S
Language Code 20
Laser precautions 45–46
Latency mode 14, 32
Loop Through 14
Safety
precautions with lasers 45–46
standards and compliances ix
terms and symbols x
SDI Loop Through 14, 15
Seamless protection 37
SFP
data 39
data connectors 27
specifications 52–54
status 28, 40
Shipping information viii
Softkey license options 3, 4
Software upgrades 11–12
Source format 16
Source selection 15, 34
Specifications 49–54
Switching delay 16, 34
System Recovery Upgrade Required fault 12
M
Manual information vii
MCP1 restriction 9
MIB files 12
Module
faults 30, 42
installation 48
options 3
parameters 41–42
removal 10
Multicast transmission 24–25, 35
N
Name parameter 24, 29
Near Mathematically Lossless quality 18
No Input Action parameter 31
O
Options 3, 4
Output formats 31
P
Passthrough behavior 22–23
PMT channel and loss of signal 20
Power consumption 54
Powering up a module 10
Primary and alternate sources 15
Product servicing viii
Program number 24
Q
Quality mode 18, 32
Quality of Service 26
R
Rate, transport stream 21
Removing modules 10
Restore button 35
Restrictions on 3G use 5
Returning a product ix
Revision history of the manual vii
RoHS compliance ix
T
Tag 14, 31
Test pattern 16
Time to Live 26
Total TS Rate 24
Transport Stream
demux 37–38
Transport stream
input 34
mux 24
rate 21
rate and presence 34
Type of Service 26
U
Unicast transmission 24–25
Unpacking information viii
Upgrading module firmware 11–12
V
VANC filter and service 21
VBI data 23
Video
compression 18
input 15–16
Visually Lossless setting 18
VLAN ID 25, 28
V-phase 38
W
WEEE compliance x
Wet cleaning fiber connections 48

Selenio J2K Series JPEG 2000 Encoder/Decoder, Edition B

Transcription

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