dmdp6802+ dual metadata and data manual v1 0 20150729 · waste from electrical and ... ship...

DMDP6802+ Dual‐Channel Metadata and Data Processing Module

July, 2015

Version 1.0

Installation and Operation Manual

DMDP6802+ Dual‐Channel Metadata and Data Processing Module Installation and Operation Manual

© 2015 Imagine Communications Corp. Proprietary and Confidential. July, 2015 |

Publication Information © 2015 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

Product names and other appropriate trademarks, e.g. D‐Series™, Invenio®, PowerSmart®, Versio™ are trademarks or trade names of Imagine Communications or its subsidiaries.

Microsoft® and Windows® are registered trademarks of Microsoft Corporation. All other trademarks and trade names are the property of their respective companies.

Contact Information

Imagine Communications has office locations around the world. For domestic and international location and contact information, visit our Contact page (http://www.imaginecommunications.com/company/contact‐us.aspx).

Support Contact Information

For domestic and international support contact information see:

Support Contacts (http://www.imaginecommunications.com/services/customer‐care.aspx)

eCustomer Portal (http://support.imaginecommunications.com)

Academy Training (http://www.imaginecommunicationsacademy.com)

DMDP6802+

Installation and Operation Manual Contents


Contents

Preface ..................................................................................................................... 5 Manual Information ................................................................................................................................. 5

Purpose ................................................................................................................................................. 5

Audience ............................................................................................................................................... 5

Revision History .................................................................................................................................... 5

Writing Conventions ............................................................................................................................. 5

Obtaining Documents ........................................................................................................................... 6

Unpacking/Shipping Information ............................................................................................................. 6

Safety Standards and Compliances .......................................................................................................... 7

Restrictions on Hazardous Substances (RoHS) ..................................................................................... 7

Waste from Electrical and Electronic Equipment (WEEE) .................................................................... 7

Applicable Standards ............................................................................................................................ 8

Introduction ........................................................................................................... 10 Product Description ................................................................................................................................ 10

Ports ................................................................................................................................................... 10

Main Features .................................................................................................................................... 10

Packages and Options ........................................................................................................................ 12

Signal Flow .............................................................................................................................................. 13

Front Module .......................................................................................................................................... 14

Back Module ........................................................................................................................................... 14

Pinouts ................................................................................................................................................ 15

Installation and Operation ..................................................................................... 16 Unpacking the Module ........................................................................................................................... 16

Setting Jumpers ...................................................................................................................................... 16

RS‐232/RS‐422 Setup .............................................................................................................................. 18

RS‐232 Setup ...................................................................................................................................... 18

RS‐422 Setup ...................................................................................................................................... 19

Maximum Frame Power Ratings and System Requirements ................................................................. 20

Installing DMDP6802+ Modules ............................................................................................................. 20

Installing and Removing DMDP6802+ Modules ................................................................................. 20

Upgrading Module Firmware ................................................................................................................. 21

DMDP6802+

Installation and Operation Manual Contents


GPI Triggering Description ...................................................................................................................... 21

GPI Timing: Input Processing .............................................................................................................. 22

GPI Timing: Output Processing ........................................................................................................... 26

Operation ................................................................................................................................................ 29

Network Setup .................................................................................................................................... 29

GPI Input Setup .................................................................................................................................. 30

GPI Output Setup................................................................................................................................ 30

ISC Transmission ................................................................................................................................. 31

Timecode Transmission ...................................................................................................................... 32

Closed Caption Transmission ............................................................................................................. 32

WST/OP47 Transmission .................................................................................................................... 32

SCTE104 Transmission ........................................................................................................................ 32

VBI Swap Transmission ....................................................................................................................... 33

Operating Notes ..................................................................................................................................... 33

Changing Parameter Settings at the Card Edge ..................................................................................... 33

Recalling Default Parameter Settings ................................................................................................. 34

Changing Parameter Settings Using Magellan CCS Software ............................................................. 35

DMDP6802+ Control Parameters ........................................................................................................... 35

SCTE104 Parameter Descriptions ....................................................................................................... 36

Card‐Edge LED Descriptions ................................................................................................................... 42

Card‐Edge LED Locations ........................................................................................................................ 44

DMDP6802+ Alarms ............................................................................................................................... 45

Specifications ......................................................................................................... 46 Input Video ............................................................................................................................................. 46

Output Video .......................................................................................................................................... 47

GPI In and GPI Out .................................................................................................................................. 48

LTC Port .................................................................................................................................................. 48

Serial Port ............................................................................................................................................... 49

Video Propagation Delay ........................................................................................................................ 50

Power Consumption ............................................................................................................................... 50

Operating Temperature .......................................................................................................................... 50

Software Communication Problems ...................................................................... 51

Hardware Communication Problems ..................................................................... 54

Index ...................................................................................................................... 55

DMDP6802+

Installation and Operation Manual Preface


Preface This manual provides information about the Selenio 6800+ DMDP6802+.

Manual Information

Purpose

This manual provides information about DMDP6802+ Dual‐Channel Metadata and Data Processing Modules.

Audience

This manual is written for engineers, technicians, and operators responsible for installation, setup, maintenance, and operation of DMDP6802+ Dual‐Channel Metadata and Data Processing Modules.

Revision History Edition Date Revision History

Version 1.0

May, 2015 Initial Release

June, 2015 Corrections to signal flow diagram

July 2015 Minor corrections to SCTE104 transmission parameters

Writing Conventions

This manual adheres to the following writing conventions.

Table 1: Writing Conventions

Term or Convention

Description

Bold Indicates dialog box, property sheet, field, button, check box, list box, combo box, menu, submenu, window, list, and selection names

Italics Indicates email addresses, names of books and publications, and 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, DELETE

Code Indicates variables or command‐line entries, such as a DOS entry or something you type into a field.

DMDP6802+



Term or Convention

Description

> 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 Web site 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 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.

In the unlikely event that your product fails to operate properly, please contact Customer Service to obtain a Return Authorization (RA) number, 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.

DMDP6802+



Safety Standards and Compliances See the fiber optic section for information about the safe use of fiber optic products. Also see the Selenio 6800+Series safety manual, available on our website.

Restrictions on Hazardous Substances (RoHS)

Directive 2011/65/EU (ROHS2)—commonly known as the European Union (EU) Restriction on Hazardous Substances (RoHS)—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 took effect on July 1, 2006, and it refers to the following hazardous substances:

Lead (Pb) Mercury (Hg)

Cadmium (Cd)

Hexavalent Chromium (Cr‐V1)

Polybrominated Biphenyls (PBB)

Polybrominated Diphenyl Ethers (PBDE)

According to this EU Directive, all products sold in the European Union are fully RoHS‐compliant and "lead‐free." (See our website for more information.) 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 are marked with a RoHS‐compliant emblem, as shown.

Figure 1: ROHS Compliance Symbol

Waste from Electrical and Electronic Equipment (WEEE)

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. Effective August 13, 2005, producers or users are 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.)

DMDP6802+



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.) Contact your local sales representative for information on returning these products for recycling. Equipment that complies with the EU directive is marked with a WEEE‐compliant emblem, as shown.

Figure 2: WEEE Symbol

Applicable Standards ST 125M:1995 Component Video Signal 4:2:2 ‐ Bit‐Parallel Digital Interface

ST 259M:2008 SDTV Digital Signal/Data ‐ Serial Digital Interface

ST 266M:2002 4:2:2 Digital Component Systems ‐ Digital Vertical Interval Time Code

ST 274M:2008 1920×1080 Image Sample Structure, Digital Representation and Digital Timing Reference Sequences for Multiple Picture Rates

ST 276M:1995 Transmission of AES/EBU Digital Audio Signals Over Coaxial Cable

ST 291M:2006 Ancillary Data Packet and Space Formatting

ST 292‐1:2011 1.5 Gb/s Signal/Data Serial Interface

ST 296M:2001 1280×720 Progressive Image Sample Structure ‐ Analog and Digital Representation and Analog Interface

ST 299‐1:2009 24‐Bit Digital Audio Format for SMPTE 292 Bit‐Serial Interface

ST 334‐1:2007 Vertical Ancillary Data Mapping of Caption Data and Other Related Data

ST 334‐2:2007 Caption Distribution Packet (CDP) Definition

ST 352M:2002 Video Payload Identification for Digital Interfaces

ST 372M:2011 Dual Link 1.5 Gb/s Digital Interface for 1920×1080 and 2048×1080 Picture Formats

ST 424M:2006 3 Gb/s Signal/Data Serial Interface

ST 425‐1:2011 Source Image Format and Ancillary Data Mapping for the 3 Gb/s Serial Interface

ST 12M‐1:2008 Time and Control Code

ST 12M‐2:2008 Transmission of Time Code in the Ancillary Data Space

ST 2010M:2008 Vertical Ancillary Data Mapping of ANSI/SCTE 104 Messages

ST 2016‐3:2009 Vertical Ancillary Data Mapping of Active Format Description and Bar Data

ANSI/SCTE 104:2012 Automation System to Compression System Communications Applications Program Interface

ANSI/SCTE 35:2007 Digital Program Insertion Cueing Message for Cable

Rec. ITU‐R BT.1685 Structure of inter‐station control data conveyed by ancillary data packets

RP 184:2004 Specification of Jitter in Bit‐Serial Digital Systems

RP 186:2008 Video Index Information Coding for 525‐ and 625‐Line Television Systems

DMDP6802+



RP 207:2005 Transport of Program Description Data in Vertical Ancillary Data Packets

RP 208:2002 Transport of VBI Packet Data in Ancillary Data Packets

RP 2007:2007 Closed‐Caption CDP and “Grand Alliance” Serial Interfaces for DTV

EIA/CEA‐608‐B Line 21 Data Services

EIA‐708‐B Digital Television (DTV) Closed Captioning

EG43:2009 System Implementation of CEA‐708 and CEA‐608 Closed Captioning and Program‐Related Data

ETSI EN 300 706 v1.2.1 (2003‐04) Enhanced Teletext Specification

ITU‐R BT.653‐3 Teletext Systems

ITU‐R BT.1119‐2 Wide‐Screen Signaling for Broadcasting

TIA/EIA‐232‐E:1991 Interface Between DTE & DCE Employing Serial Binary Data Interchange

TIA/EIA‐422‐B:1994 Electrical Characteristics of Balanced Voltage Digital Interface Circuits

IEEE 802.3ab‐1999 1000BASE‐T Gbit/s Ethernet over twisted pair at 1 Gbit/s (125 MB/s)

EN55103‐1 EMC emission requirements applies to professional audio, video, audio‐visual and entertainment lighting control apparatus

EN55103‐2 EMC immunity requirements applies to professional audio, video, audio‐visual and entertainment lighting control apparatus

DMDP6802+ Chapter 1

Installation and Operation Manual Introduction


Introduction

Product Description The DMDP6802+ is a data and metadata processing module, supporting 3G, HD, and SD‐SDI signals. It converts GPI trigger bit inputs into VANC and/or GPI outputs from VANC, over the ancillary packets of the following standards:

Inter‐Station Control (ISC) as per ITU‐R BT.168

Ancillary Time Code (ATC) based on SMPTE 12M‐2

SCTE104 (2010) messaging

Additionally, the DMDP6802+ supports insertion and extraction of metadata in one card, and provides dual independent metadata processing channels.

The DMDP6802+ can simultaneously insert or extract the following metadata:

ISC (Inter‐Station Control)

Time Code (ATC_LTC, ATC_VITC, D‐VITC, LTC)

Closed Captioning (CC608, CC708)

Teletext (WST, OP47)

SCTE104

AFD (AFD, VI, WSS)

Ports

The DMDP6802+ module supports the following ports:

Two independent SDI inputs and outputs

One user‐configurable SDI auxiliary output (selectable as either SDI A or SDI B)

Up to 16 user‐configurable GPI inputs/outputs

Four independent user configurable serial ports.

Four serial ports for CC and SCTE104, separately configurable as single RS‐422 or RS‐232 transceivers

One channel LTC input and output

One Ethernet RJ‐45

Main Features

Input

Two independent serial digital SMPTE 259M/SMPTE 292M SDI inputs

Chapter 1

DMDP6802+ Chapter 1



Four RS‐232/422 serial inputs

Up to sixteen GPI input ports (shared with GPI outputs)

One linear time code input

One Ethernet input port (shared with output)

Output

Two independent serial digital SMPTE 259M / SMPTE 292M SDI outputs

Four RS‐232/422 serial port outputs

Up to sixteen GPI output ports (shared with GPI inputs)

One linear time code output

One Ethernet output port (shared with input)

Video

Auto‐detection of input video standard with 3G/HD/SD‐SDI auto sensing

Signal presence monitoring on each video input

SQM and thumbnail support

Metadata

AFD, WSS, and VI detection and insertion

Inter‐station control package detection and insertion

LTC, D‐VITC, ATC_LTC , and ATC_VITC detection and insertion

Time code payload insertion and extraction among LTC, D‐VITC, ATC_LTC, and ATC_VITC

Support CC608 and CC708 extract, insert and bridge

Support WST and OP47 extract, insert and bridge

Support SCTE104 extract, insert and bridge

Control

Shadowed/restored parameter settings when switching video standards

Card‐edge control and monitoring

Serial and Ethernet remote control and monitoring

support Field upgrading, License and options

Additional Features

Auto detects SDI input presence and format

Supports signal quality monitoring (SQM)

Supports Q‐SEE compliant thumbnail and alarms

Provides two independent RS‐232/RS‐422 serial ports with user‐selectable baud rates

DMDP6802+ Chapter 1



Packages and Options

The DMDP6802+ softkey options operate independently of each other, and any or all options can be used simultaneously.

Table 2: Packages and Options

Package/ Part Name

Description

DMDP6802+D Dual Channel Metadata and Data Processing Module (DMDP), GPI insertion / extraction base module. Provides 16 GPI (trigger bits) for inserting/extracting to/from VANC of SDI signal; includes dual back module.

DMDP68OPT‐CC Software license key option, enabling support on both channels for closed captioning over serial or Ethernet port, inserting/extracting to/from VANC CDP CC.

DMDP68OPT‐SCTE104 Software license key option, enabling support on both channels for SCTE104 over GPI, serial, or Ethernet ports, inserting/extracting to/from VANC SDI signal

DMDP68OPT‐TC Software license key option; enabling support on both channels for LTC over GPI or serial port, inserting/extracting to/from ATC/D‐VITC of the VANC SDI signal

DMDP68OPT‐VB Software license key option; enabling support for VANC Bridge functionality over GPI, serial and Ethernet port, inserting/extracting to/from VANC SDI signal

DMDP6802+ Chapter 1



Signal Flow

Figure 3: DMDP6802+ Signal Flow Diagram

DMDP6802+ Chapter 1



Front Module

Figure 4: DMDP6802+ Front Module

Back Module

Figure 5: DMDP6802+ Back Module

DMDP6802+ Chapter 1



Pinouts

Figure 6: Back Module Port

Table 3: Pinouts on Back Module for GPI In/Out / RS‐232/422/ Timecode In/Out

Connector 1

Pin Description Pin Description

Reserved for RS‐232/RS‐422. See RS‐232/RS‐422 Setup (on page 18) for details.

11 GPI 1 12 GPI 2

13 GPI 3 14 GPI 4

15 GPI 5 16 GPI 6

17 GPI 7 18 GPI 8

19 GPI 9 20 GPI 10

Connector 2

Pin Description Pin Description

Reserved for RS‐232/RS‐422. See RS‐232/RS‐422 Setup (on page 18) for details.

11 GPI 11 12 GPI 12

13 GPI 13 14 GPI 14

15 GPI 15 16 GPI 16

17 LTC Rx+ 18 LTC Rx‐

19 LTC Tx+ 20 LTC Tx‐

DMDP6802+ Chapter 2

Installation and Operation Manual Installation and Operation


Installation and Operation

Unpacking the Module Before you install modules, perform the following:

Check the equipment for any visible damage that may have occurred during transit.

Confirm receipt of all items on the packing list.

Note: Contact your Customer Service representative if parts are missing or damaged.

Remove the anti‐static shipping pouch, if present, and all other packaging material.

Retain the original packaging materials for possible re‐use.

See Unpacking/Shipping Information on page vi for information about returning a product for servicing.

Setting Jumpers The figures below indicate the location of the DMDP6802+ jumpers. See the tables for descriptions of the jumper settings.

Note: Where applicable, the white triangle near the jumper pins on the module indicates Pin 1.

Chapter 2

DMDP6802+ Chapter 2



Figure 7: Location of DMDP6802+ Jumpers

Table 4: DMDP6802+ Jumpers

Jumper Description Function

CJ3 Remote/local control Pins 1 and 2: (REM): remote control (default)

Pins 2 and 3 (LOC): local control; locks out remote control

J11A & J11B TC Output Impedance Selection

Pins 1 and 2 (Low): low impedance output (default)

Pin 2 and 3 (600Ω): 600Ω impedance output

J10 TC Input Impedance Selection

Pins 1 and 2 (High): high impedance input (default)

Pin 2 and 3 (600Ω): 600Ω impedance input

J16B Serial Port 1 (CC) Interface Type

Pin 1/2 open: RS‐232 (default) Pin 1/2 short: RS‐422

J16A Serial Port 2 (SCTE104) Interface Type


J17B Serial Port 3 (CC) Interface Type

Pin1/2 open: RS‐232 (default) Pin 1/2 short: RS‐422

J17A Serial Port 4 (SCTE104) Interface Type


J6/J7/J8/J9 Unused Always open

DMDP6802+ Chapter 2



RS‐232/RS‐422 Setup The DMDP6802+ back module provides four serial ports, supporting both RS‐232 and RS‐422 configurations.

Serial ports 1 and 3 are dedicated to closed captioning data, and serials port 2 and 4 are dedicated for SCTE104 data.

Serial port 1 and serial port 2 are bound to SDI channel A, and serial port 3 and serial port 4 are bound to SDI channel B.

Table 5: RS‐232/RS‐422 Serial Pinouts

Connector 1 Pin Number RS232 RS422

Connector 2 Pin Number RS232 RS422

1 SER_RX1+ 1 SER_RX3+

2 SER_RX1 SER_RX1‐ 2 SER_RX3 SER_RX3‐

3 SER_TX1+ 3 SER_TX3+

4 SER_TX1 SER_TX1‐ 4 SER_TX3 SER_TX3‐

5 D‐GND D‐GND 5 D‐GND D‐GND

6 D‐GND D‐GND 6 D‐GND D‐GND

7 SER_RX2+ 7 SER_RX4+

8 SER_RX2 SER_RX2‐ 8 SER_RX4 SER_RX4‐

9 SER_TX2+ 9 SER_TX4+

10 SER_TX2 SER_TX2‐ 10 SER_TX4 SER_TX4‐

Note the following:

Jumpers J6, J7, J8, and J9 must always be set to Open.

Serial /Network port activation depends on the related SDI channel presence. If an SDI channel is not present, the related serial or network port is deactivated.

RS‐232 Setup

Follow these steps to set up the serial jumpers and parameters for RS‐232:

Serial 1

1. Set jumper J16B to the Open position.

2. Set parameter Hardware I/O > Serial > Closed Caption > Ser 1 I/O Enable to Enabled.

3. Set parameter I/O > Serial > Closed Caption > Ser 1 Interface Type to RS‐232.

Serial 2

1. Set jumper J16A to the Open position.

DMDP6802+ Chapter 2



2. Set parameter Hardware I/O > Serial > SCTE104 > Ser 2 I/O Enable to Enabled.

3. Set parameter Hardware I/O > Serial > SCTE104 > Ser 2 Interface Type to RS‐232.

Serial 3

1. Set jumper J17B to the Open position.

2. Set parameter Hardware I/O > Serial > Closed Caption > Ser 3 I/O to Enabled.

3. Set parameter Hardware I/O > Serial > Closed Caption > Ser 3 Interface Type to RS‐232.

Serial 4

1. Set jumper J17A to the Open position.



RS‐422 Setup

Follow these steps to set up the serial jumpers and parameters for RS‐422:

Serial 1

1. Set jumper J16B to the Short position.



Serial 2

1. Set jumper J16A to the Short position.



Serial 3

1. Set jumper J17B the Short position.



Serial 4

1. Set J17A to the Short position.



DMDP6802+ Chapter 2



Maximum Frame Power Ratings and System Requirements DMDP6802+ modules operate only in fan‐cooled FR6822+QXFE frames, or FR6822+F frames containing a 6800+ETH module, subject to the limitations shown in the table. This product requires ETH version 4.8 or later. ICE6800+ modules are not supported by theDMDP6802+. The total power consumption for the DMDP6802+ is 6 W.

Table 6: Maximum Allowable Frame Power Ratings

Frame Type Max. Frame Power Dissipation

Number of Usable Slots*

Max. Power Dissipation Per Slot

FR6822+QXFE frame

FR6822+F frame containing a 6800+ETH module (version. 4.8 or later)

120W 20 6 W

*Each DMDP6802+ module requires two slots; a frame can include a maximum of ten DMDP6802+ modules.

CAUTION: To maintain proper temperatures, ensure that the front panel is closed at all times and that the fans are fully operational.

Installing DMDP6802+ Modules DMDP6802+ modules can be installed in an FR6822+QXFE frame, or an FR6822+F frame containing a 6800+ETH module (version 4.8 or later). The DMDP6802+ module cannot be installed in slots 6, 14, and 20 of the frame.

Rear support extension rails (option FR6802+RM) are recommended to support the weight of cabling. See your Frame Installation and Operation Manual for general information about installing back modules in a frame.

CAUTION: Before installing this product, read the 6800+ Series Safety Instructions and Standards Manual available on our website. This safety manual contains important information about the safe installation and operation of 6800+ series products.

Installing and Removing DMDP6802+ Modules

These modules require no specialized installation or removal procedures. However, when installing both front and rear modules, ensure that the back module is installed first before plugging in the front module.

During removal, ensure that the front module is unplugged from the frame first, before removing the rear module.

DMDP6802+ Chapter 2



Upgrading Module Firmware This module’s firmware can be updated using Navigator version 4.8 or higher, or the HTTP software upgrade tool. In order to perform these upgrades, the frame must be equipped with a 6800+ETH module, version 4.9 or later. Refer to your frame manual for more information.

GPI Triggering Description The DMDP6802+ can transmit three types of ANC packets to carry GPI information: ISC (Inter‐Station Control), ATC, or SCTE104 (license keys are required for enabling ATC and SCTE104 capability). The DMDP6802+ module converts GPI trigger bits in the SDI signal to GPI signals or it converts the GPI signals to trigger bits (refer to the table below).

Table 7: Transmission of GPI by Different Carriers

Item Characteristics of Different Carriers

ISC (Inter‐Station Control) ATC SCTE104

Packet Type The DID/SDID type is user‐selectable. The default value of 43H/01H has a data structure that exactly follows BT1685. Any DID from 52H to 5FH is not BT1685‐compliant. (See the ISC Transmission section for default BT1685 values generated by the DMDP6802+ module)

Follows SMPTE‐12M‐2

Adopts the operation type Splice Request Data (optional to append DTMF data) following SCTE 104 and ANSI SCTE 35.

Transmission Method

The active status of every GPIs is oversampled at every frame or field.

The active status of every GPI is oversampled at every frame or field.

Each activity of any GPI triggers an individual SCTE104 packet.

GPI Location in the packet

Trigger Bits Binary Group Not applicable

GPI Active Status Capturing Point

Captures the active status at the start point of the ISC embedding line.

Captures the active status at the start point of the GPI sampling line.

Scans the active status every frame within the scanning area.

GPI Active Status Triggering Point

Located at the end of the ISC de‐embedding line (Fixed mode) or at the end of the field blanking line (Auto mode)

Triggered immediately after an ATC packet is received

Triggered immediately after an SCTE104 packet is received

DMDP6802+ Chapter 2



Item Characteristics of Different Carriers

ISC (Inter‐Station Control) ATC SCTE104

Available GPI Input Trigger Mode

Active High / Active Low Active High / Active Low

Rising Edge / Falling Edge

Available GPI Output Processing

Bypass / Static Delay & Hold Processing

Bypass / Static Delay & Hold Processing

Dynamic Delay & Hold Processing / Static Delay & Hold Processing

GPI Timing: Input Processing

When GPI is inserted, the GPI inputs first enter the GPI Input Processing block. The following three diagrams indicate the intact signal flow and the function of the blocks of GPI Input Filter and GPI Input Extension separately.

Figure 8: GPI Input Processing

Glitch Filter

In some cases, there may be a spark, or small short pulse on the GPI wires, which can be considered "noise." The DMDP6802+ includes a Glitch Filter, which filters out this signal noise in a set window (or duration), and in so doing, adds extra delay.

Figure 9: Glitch Filter Window

DMDP6802+ Chapter 2



Extension of GPI State

An extension makes it possible to add four interlaced fields or four progressive frames to ensure the GPI active state is long enough for sampling downstream.

Figure 10: Extension of GPI State

DMDP6802+ Chapter 2



GPI Timing Using ISC

When GPI is extracted from the signal, the GPI output timing is slightly different, depending on the different carriers.

The following ISC, ATC and SCTE104 diagrams explain the basic principle of GPI transmission by comparing the GPI input processed signal to GPI output extracted signal. The GPI Input processing reflects the state of the internal signals in the module. The GPI Out signals are extracted directly from the ANC packet from the module. These also are the internal signals of DMDP6802+ module, and NOT the final output signals.

The video latency of the DMDP6802+ is extremely small; the video timings of the input and output signals can be considered identical in the same module.

Figure 11: GPI Timing Using ISC (Inter‐Station Control)

DMDP6802+ Chapter 2



GPI Timing Using ATC

Figure 12: GPI Timing Using ATC

The table shows the GPI Sampling Line using ATC.

Table 8: GPI Sampling Using ATC

ATC Type Control 525i 625i 1080i

1080p 720p Field 1 Field 2 Field 1 Field 2 Field 1 Field 2

ATC_VITC ATC Embedding Line

12‐19 275‐282 8‐22 321‐335 9‐20 572‐583 9‐41 9‐25

GPI Sampling Line

1 264 624 311 1124 561 1121 746

ATC_LTC ATC Embedding Line

12‐19 X 8‐22 X 9‐20 X 9‐41 9‐25

GPI Sampling Line

1 X 624 X 1124 X 1121 746

Note: The GPI Sampling Line in the table is intended to indicate the line for the field, rather than in the field. For example, in 525i, line 1 is the GPI sampling line for field 1, but it is actually part of field 2.

GPI Timing for SCTE104

The GPI Timing for SCTE104 is shown in the figure below. The blue lines (which indicate the boundaries of the GPI scanning area for SCTE104) are located at:

Line 1 on 525i

Line 624 on 625i

DMDP6802+ Chapter 2



Line 1124 on 1080i

Line 1121 on 1080p

Line 746 on 720p

Figure 13: GPI Timing for SCTE104

GPI Timing: Output Processing

As the figure shows, the GPI Out extracted signals are processed and then are sent to output ports.

Figure 14: GPI Output Processing

GPI Delay & Hold processing re‐builds the GPI output waveform. It is only capturing the Rising edge of the "GPI Out Extracted" signals.

The GPI Delay & Hold Processing Mode parameter has three options:

Bypass (for ISC and ATC) transparently transfers the waveform for each GPI.

The Static option (for ISC, ATC and SCTE104) re‐generates the waveform for each GPI, following the set parameter values of GPI Out Static Delay Duration and GPI Out Static Hold Duration.

DMDP6802+ Chapter 2



When the Dynamic option is selected, the values are taken from the received SCTE104 packet, which contains two parameters: Pre‐roll Time and Break Duration. The waveform for each GPI is re‐generated following the values in the last received and matched SCTE104 packet, with Pre‐roll Time as the Delay Duration and Break Duration as the Hold Duration (see the figure below).

Figure 15: Delay and Hold Processing

The table describes two important parameters of SCTE104 which result in different GPI transmission results.

Table 9: Select SCTE104 Parameters

GPI Extracting Mode Option*

GPI Delay & Hold Processing Mode Option**

Function

Trigger All Static All GPI outputs are triggered if any SCTE104 packet is detected. Each GPI output has a separate Static Delay Duration and Static Hold Duration parameter.

Dynamic Matching Static Each GPI output is only triggered if the matched SCTE104 packet is detected. Each GPI output has separate Static Delay Duration and Static Hold Duration parameters.

Trigger All Dynamic All GPI outputs are triggered if any SCTE104 packet is detected. All GPI outputs have the same Delay Duration and Hold Duration, obtained from the last received packet.

Dynamic Matching Dynamic Each GPI output is only triggered if the matched SCTE104 packet is detected. Each GPI has a separate Delay Duration and Hold Duration, obtained from the last received and matched packet.

*Found at Data Input > SCTE104 > GPI Extract Setup

**Found at Hardware I/O/ > General Purpose Interface > GPI Output Settings > GPI Out Processing

DMDP6802+ Chapter 2



Dynamic Matching

To transfer GPI with one‐to‐one mapping (GPI In 1 to GPI Out 1, GPI In 2 to GPI Out 2, etc.) over SCTE104, it’s possible to use the Dynamic Matching option in the GPI Inserting Mode parameter.

Certain parameters can be used as the Dynamic Matching source, such as AS Index, DPI PID Index, etc.

When the direction of the GPI is out, the related GPI Output is only triggered if the packet with the correct Dynamic Matching source value is received.

Note: The mapping of the GPI output for Dynamic Matching is defined by the system; it cannot be re‐defined. For example, if you use AS Index for dynamic matching, then if AS Index has a value of 1, it will trigger GPI Output 1; if AS Index has a value of 2, it will trigger GPI Output 2, etc. SCTE104 GPI transmission uses "packet triggering," rather than "over‐sampling" (as used by ISC and ATC). Only one GPI input can be transferred in one video frame. If several GPI inputs become active within one video frame, only the GPI with smallest index is recognized. In other words, GPI 1 has the highest priority.

Table 10: Mapping of GPI Output for Dynamic Matching

Dynamic Mode Source

GPO 1

GPO 2

GPO 3

GPO 4

GPO 5

GPO 6

GPO7

GPO8

GPO9

GPO10

GPO11

GPO12

GPO13

GPO14

GPO15

GPO16

AS Index 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

DPI PID Index 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

Unique Program ID

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

Avail Num 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

Avail Expected

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

Time Type none gpi X X X X X X X X X X X X X X

Splice Insert Type

Re‐ served

Start Normal

Start Imme‐diate

End Normal

End Imme‐diate

Cancel X X X X X X X X X X

DMDP6802+ Chapter 2



Operation

Network Setup

The DMDP6802+ back module provides one Ethernet connector, the physical gateway for all of the module's network traffic.

To enable network use, you must first enter the values for the IP Address, Subnet Mask and Default Gateway of the DMDP6802+ directly, located under the General category of the parameter list. With this accomplished, you can then configure the closed captioning and SCTE104 network options.

Configuring the CC Network

The closed captioning network has two independent UDP connections; each can work as a server/client. Follow these steps:

1. Set Hardware I/O > Network > Closed Caption > Net 1 Type to Local Server, Local Client, or Disabled.

2. Set Hardware I/O > Network > Closed Caption > Net 1 CC Format to the same value as the remote peer.

3. If Local Server is selected as the Net 1 Type, set Hardware I/O > Network > Closed Caption > Net 1 Local Srv Port to its correct value.

OR

If Net 1 Type is Local Client, set Hardware I/O > Network > Closed Caption > Net 1 Remote Srv IP Addr to the correct remote server IP Address, and Net 1 Remote Srv Port to the same value as the remote peer.

4. Follow the same instructions for Net 2 as described above for Net 1.

Configuring the SCTE104 Network

There are two independent TCP connections for SCTE104 Network; each can work as a server / client. The configuration is similar to the CC Network settings.

Automation Example

1. Set Hardware I/O > Network > SCTE104 > Net 1 Type to Local Server.

2. Set Hardware I/O > Network > SCTE104 Net 1 Local Srv IP Port to 5167.

3. Set Hardware I/O > Network > Net 1 Auto‐Resp to Enabled.

The automation system connects to the DMDP6802+ IP Address on Port 5167.

4. Set Data Output > SCTE104 > SDI A > SCTE104 Output Control to Insert.

5. Set Output > SCTE104 > SDI A > SCTE104 Output Source to SCTE104 Network 1.

When these settings are complete, the automation system sends an SCTE104 packet to the DMDP6802+, and the module inserts the packet into SDI A Output. For more information on configuring automation to work with the DMDP6802+, consult the manual provided with your automation equipment.

DMDP6802+ Chapter 2



GPI Input Setup

Follow these steps to set up the GPI input mode.

1. Select the proper carrier for GPI transmission (at General Purpose Interface > GPI Input Settings > GPI Binding Data Type).

Options are Inter‐Station Control, ATC, and SCTE104.

2. Set the GPI Binding Channel parameter; options are SDI Channel A and SDI Channel B.

3. Set GPI direction as Input.

4. Set the GPI In x Trigger Type parameter (General Purpose Interface > GPI Input Settings).

Options are Off, Rising Edge, Falling Edge, GPI In Trig Level, Active High, and Active Low.

5. If the carrier setting is Inter‐Station Control:

a. Set Data Output > Inter‐Station Control > SDI X > ISC Output Control to Insert.

b. Configure proper settings for the packet embedding, such as ISC Output DID, ISC Output SDID (hex), ISC Output Line, etc.

OR

If the carrier is ATC:

a. Set Data Output > Timecode > SDI X > ATC Output Control to Insert.

b. Configure proper settings for the packet embedding, such as ATC Output Format, ATC Output Line, etc.

OR

If the carrier is SCTE104:

a. Configure the message content for each GPI (in Data Output > SCTE104 > GPI Insert Setup > GPI x).

b. Configure proper settings for the packet embedding, such as SCTE104 Output Line.

Note: Because SCTE104 GPI transmission utilizes "packet triggering" (rather than the "over‐sampling" method used by Inter‐Station Control or ATC), only one GPI input can be transferred in one video frame. If several GPI inputs turn active within one video frame, only the GPI with smallest index is recognized (GPI 1 has the highest priority).

GPI Output Setup 1. Select the proper carrier for GPI transmission (General Purpose Interface > GPI Output Settings >

GPI Binding Data Type).

Options are Inter‐Station Control, ATC, and SCTE104.

2. Set GPI Direction as Output.

3. Configure the proper GPI Delay & Hold Processing Mode and static value parameters (General Purpose Interface > GPI Output Settings > GPI Out Processing).

4. Configure the proper GPI Out Trig Polarity (General Purpose Interface > GPI Output Settings).

Options are Normal and Invert.

5. If the carrier is SCTE104, set the proper GPI Extracting Mode and Extracting Dynamic Mode Source options in Data Input > Data Input > SCTE104 > GPI Extract Setup.

DMDP6802+ Chapter 2



ISC Transmission

The following table indicates the value of each word in the ISC packet for BT‐1685 compliant.

Note the following:

GPI selections are grouped.

You will need to select all GPIs as either input or output.

All GPIs must be bound to SDI channel A or SDI channel B.

All GPIs must be bound to one of the following data types: Inter‐Station Control, ATC,or SCTE104.

Table 11: Default BT1685 Values Generated by DMDP6802+

Word Name Words Word Number Values

Transmitting‐Station Code 8 1‐8 All words set to 20H

Transmitting‐Station Time 9 9‐17 All words set to FFH

Current Video Mode 4 18‐21 All words set to 00H

Next Video Mode 4 22‐25 All words set to 00H

Video Mode Countdown 1 26 FF h

Audio Mode 1 27 00 h

1 28 00 h

1 29 FF h

Trigger Bits 1 30 GPI 1‐8

1 31 GPI 9‐16

1 32 00 h

1 33 00 h

Q1 Counter 1 34 FF h




Q1 Countdown 1 38 FF h




Status Bits 1 42 00 h

1 43 00 h

RSV Area 64 44‐107 All words set to 00H

Private Area 141 108‐248 Word 108‐110: A freerun frame counter

Other Words: Set to 00H

DMDP6802+ Chapter 2



Timecode Transmission

The DMDP6802+ offers the following timecode transmission features:

Conversion of timecode payload among LTC, D‐VITC, ATC_LTC and ATC_VITC

Insertion of time code generator into LTC, D‐VITC, ATC_LTC and ATC_VITC

Insertion of up to 16 GPI inputs into VANC ATC LTC or ATC VITC

Extraction of up to 16 GPI outputs from VANC ATC LTC or ATC VITC input

Bridge time code payload of VITC, ATC_LTC or ATC_VITC between two SDI VANC signals if two SDI channel frame rates are the same

Closed Caption Transmission

The DMDP6802+ supports closed captioning insertion and extraction from/to VANC, serial, and Ethernet. Additional support includes:

Closed captioning transcoding from CC608 to CC708.

Closed captioning transcoding from CC708 to CC608.

Closed captioning bridge between two SDI channel.

The serial closed captioning input/outputs are compliant with RP2007‐2007 (CC CDP and Grand Alliance serial interface). The supported baud rate for serial CC is the following

Grand Alliance: fixed 19,200 bits/sec CDP: optional 38,400 bits/sec, 57,600 bits/sec, or 115,200 bits/sec

WST/OP47 Transmission

The DMDP6802+ supports the following WST/OP47 types of transmission:

WST/OP47 bridge between two SDI channels

Teletext transcoding from WST to OP47

Teletext transcoding from OP47 to WST.

SCTE104 Transmission

The DMDP6802+ inserts and extracts SCTE104 from/to VANC, serial and Ethernet. Additional support includes:

SCTE104 bridge between two SDI channels

Single and multiple operation

The following serial SCTE104 baud rates: 4,800, 9,600, 19,200, 38,400, 57,600, and 115,200

DMDP6802+ Chapter 2



VBI Swap Transmission

The DMDP6802+ is capable of moving one VBI line data in SDI channel B to a specified VBI line in SDI channel A, if the two SDI channels are locked and use the same video standard.

Likewise, the DMDP6802+ can move one VBI line data in SDI channel A to a specified VBI line in SDI channel B, if the two SDI channels are locked and have the same video standard.

Operating Notes When setting the control parameters on the DMDP6802+, note the following:

If you make changes to certain parameters, other related parameters may also be affected or become disabled.

When you change a parameter, the effect is immediate. However, the module requires up to 20 seconds to save the latest change. After 20 seconds, the new settings are saved and will be restored if the module loses power and must be restarted.

When you set the Factory Recall parameter to Yes, the module takes several seconds to reset all of the parameters to their default settings.

The softkey options for this module (SCTE104 over GPI, timecode, closed captioning, and VBI bridge) operate independently of each other, and any or all options can be used simultaneously

The DMDP6802+ parameter lists (available on our website), provide the module's various banks, hex switch positions, and parameter options and values.

Changing Parameter Settings at the Card Edge For best results, use the web browser or software controls (serial/local or Ethernet/remote) to aid in viewing, setting, and confirming parameter values. If you choose to operate the DMDP6802+ module using the card‐edge method, refer to the DMDP6802+ parameter lists (available on our website), where you can view the various banks, hex switch positions, and parameter options and values.

To change the parameter settings at the card edge, instead of using software or browser‐based controls, follow these steps:

1. Rotate the mode select rotary switch (hex switch) to 0.

2. Once the hex switch is set to 0, toggle the navigation switch up or down to select a bank.

View the two control LEDs next to the navigation toggle switch to see which bank is currently selected.

Table 12: Selected Bank as Indicated by Control LEDs

Bank Number LED 3 LED 2 LED 1 LED 0

0 Off Off Off Off

1 Off Off Off On

DMDP6802+ Chapter 2



Bank Number LED 3 LED 2 LED 1 LED 0

2 Off Off On Off

3 Off Off On On

4 Off On Off Off

5 Off On Off On

6 Off On On Off

7 Off On On On

8 On Off Off Off

9 On Off Off On

See the DMDP6802+ parameter lists (available on our website and on the Imagine Communication Manuals and Product Resources DVD to view the various banks, hex switch positions, and parameter options and values.

1. Rotate the hex switch to the parameter number (1 to 9) or letter (A to F) of the option you want to set.

2. Toggle the navigation switch to select and set the value of the chosen parameter.

3. Rotate the hex switch to another parameter number/letter in the current bank, and then repeat step 4.

or

Rotate the hex switch to the 0 position again to select a different parameter bank, and then repeat steps 3 and 4.

Recalling Default Parameter Settings

To view the original factory default settings, see the DMDP6802+ parameter lists (available on our website and on the Imagine Communications Manuals and Product Resources DVD). To return this module to its default settings at the card‐edge, you can either reset each parameter individually or do a global recall by following procedure:

1. Rotate the hex switch to 0.

2. Toggle the navigation switch to the bank number 0.

Use the control LEDs to verify which bank you have selected, or use an available 6800+ software control option (serial/local or Ethernet/remote) to aid in confirming your bank selection.

1. Rotate the hex switch to the global recall parameter F.

2. Toggle the navigation switch to On.

Use an available 6800+ software control option to aid in viewing, setting, and confirming the parameter value.

DMDP6802+ Chapter 2



Changing Parameter Settings Using Magellan CCS Software

Before using Magellan CCS Navigator to change your module’s parameter settings, you must discover the module. Discovery is the process by which Magellan CCS Navigator finds, and then connects to your module. Ensure that you have upgraded your 6800+ETH module to version 4.8 or higher.

Discovering the Module Using Magellan CCS Software

To discover your module, your Magellan Navigator software must be in Build mode.

1. If the Discovery window is not open, click Tools > Discovery in the main menu.

A Discovery window opens, most likely in the bottom left corner of the screen.

Click Options, and then click Add.

1. Enter the IP address of the frame that contains your module, or the frame that contains a 6800+ETH module that provides access to your module.

Note: ICE6800+ modules are not supported by the DMDP6802+.

2. Click OK to close the Add Host dialog box, and then click OK again to close the Discovery Options dialog box.

3. Click Start.

This triggers Navigator to run a discovery. When the discovery finishes, Discovery Completed is displayed in the Discovery pane.

4. Click Save to save the results of your discovery to the Discovery folder of the Navigation pane.

5. Switch to Control mode by selecting Operational Mode > Control from the main menu.

6. Double‐click DMDP6802+ in the Navigation pane.

The Control window opens, displaying the module’s controls.

You can now switch to Control mode by selecting Operational Mode > Control from the main menu. Double‐click DMDP6802+ in the Navigation pane. The Control dialog box opens, displaying the module’s controls.

DMDP6802+ Control Parameters The DMDP6802+ operates in either insertion or extraction mode, but not both at the same time. When switching between modes (via General > Working Mode), the module will automatically reboot.

Note: The sequence of options listed in the Options column mirrors the sequence achieved when you move the Navigation Toggle switch up.

The On/Off combinations of the control LEDs on the card edge indicate the active bank number. See Changing Parameter Settings at the Card Edge on page 22 (see "Changing Parameter Settings at the Card Edge" on page 33) for more information.

DMDP6802+ Chapter 2



To view the complete listing of available parameters, see the DMDP6802+ parameter list, available on our website.

Table 13: Main Parameter Categories

Category Options

General Licensing IP Setting Thumbnail Source

SDI Standard Setting Standards Detection Error Counters

Data Input ANC Packets Inter‐Station Control (ISC) Input settings and detection Timecode Input settings and detection

Closed Captioning Input settings and detection SCTE104 Input settings and monitoring

VBI deletion

Data Output ANC Packets Inter‐Station Control Output settings Timecode Output settings

Closed Captioning Output settings SCTE104 Processing and Output setting, including SCTE104 content definition by each GPI

VBI Swap

Hardware I/O Serial Port settings Network settings General Purpose Interface settings

SQM Status Setup

SCTE104 Parameter Descriptions

In the table below, the parameters with an asterisk (*) are not valid for controlling. These parameters are automatically inserted into the SCTE104 packet in Insert mode. Parameters with double asterisk(**) are not valid for controlling; they provide read‐only feedback in the Insert mode, and are automatically inserted into the SCTE104 packets. For complete details on the SCTE standards, visit http://www.scte.org.

DMDP6802+ Chapter 2



Table 14: SCTE104 Parameter Descriptions (Multiple Operation Messages)

DMDP6802+ Parameter Core Name

SCTE104 Standard Parameter Name

Function

(not applicable) Reserved * Reports a two‐byte field that is fixed to a value of 0xFFFF; it is automatically inserted as the first word in the SCTE104 packet.

Message Size * messageSize Displays the size of the entire Multiple Operation Messages [multiple_operation_message()] structure in bytes; it is automatically calculated.

Protocol Version *

protocol_version Reports a value in an 8‐bit unsigned integer field that makes it possible to allow this message type to carry parameters that may be structured differently than those defined in the current protocol. The value of zero (0x00) is fixed. (Non‐zero values of Protocol Version may be used by a future version of is this standard to indicate structurally different messages.)

AS Index AS_Index Sets or reports the source of a message (since it is possible to have several automation systems active at once). Values range from 0 to 255, or 0, if this index is not required. Non‐zero values create a unique AS Index within a single digital compression system.

Message Number**

message_number Reports an integer value in the range 0 to 255 that is used to identify an individual message. The Message Number [message_number] variable must be unique for the life of a message.

This parameter is automatically calculated and inserted. Each time a new message is injected, the message number increments. The feedback parameter under GPI 1‐16 Settings on the UI indicates the message_number for the next new message.

DPI PID Index DPI_PID_index Sets or reports the index number (from 0 to 65535) for the DPI PID that will carry the resulting Splice Info Sections [splice_info_sections]. A value of 0 is used when the system architecture is not required.

SCTE35 Protocol Version * (future implementation)

SCTE35_protocol_version Reports the SCTE35 Protocol Version that is in use. In future, this section type may be structured differently than those defined in the current protocol. At present, the only valid value defined by SCTE 35 is zero (0x00). Non‐zero values of SCTE35 Protocol Version may be used by a future version of this standard to indicate structurally different sections. The parameter is fixed at 0x00 and automatically inserted.

DMDP6802+ Chapter 2




SCTE104 Standard Parameter Name

Function

Time Type timestamp() Sets or reports the exact time to process all of the requests in this message. The Time Type value may be 0, indicating the messages are processed immediately. The Time Type may contain either the UTC time or the VITC time specifying when to process the requests. Alternatively, the Time Type may contain the number of the GPI to use for triggering the messages to be processed. Once the GPI is triggered, all requests associated with that edge of the GPI will be processed.

The DMDP6802+ only supports a Time Type value of either 0 (None) or 3 (GPI).

Num Ops * num_ops Reports an integer value that indicates the number of requests contained within the packet data. This parameter is automatically calculated and inserted. If DTMF data is enabled, a value of 2 indicates two data tables (Splice Request Data [splice_requeset_data] and Insert DTMF Descriptor Request Data [insert_DTMF_descriptor_request_data] are inserted. A value of 1 indicates only a Splice Request Data table is inserted.

Op ID * opID Reports an integer value that indicates what request is being sent. This parameter is fixed and automatically inserted. For Splice Request Data [splice_request_data], the Op ID value is 0x101. For Insert DTMF Descriptor Request Data [insert_DTMF_descriptor_request_data], the Op ID value is 0x109.

Data Length * Data_length Reports the size of the Data [data()] field being sent in bytes. This parameter is automatically calculated and inserted. For Splice Request Data [splice_request_data], the value is fixed at 14. For Insert DTMF Descriptor Request Data [insert_DTMF_descriptor_request_data], the value is variable and equals DTMF Length [dtmf_length] plus 2.

DMDP6802+ Chapter 2



Table 15: SCTE104 Parameter Descriptions (Splice Request Data)


SCTE104 Parameter Name

Description

Splice Insert Type

splice_insert_type Sets or reports the type of insertion operation, as follows:

The Splice Start Normal Sections [SpliceStart_normal section(s)] occur at least once before a splice point. This interval should match the requirements of SCTE 35 (Section 7.1) and serve to set up the actual insertion. It is recommended that if sufficient pre‐roll time is given by the AS, the Injector should send several succeeding SCTE 35 Splice Info Section [SCTE 35 splice_info_section()] sections (per SCTE35 and SCTE 67) in response to a Single Splice Request Message [single splice_request message] with a Splice Start Normal Splice Insert Type [spliceStart_normal splice_insert_type] value. (This parameter is shown as SpliceStart_normal section(s) in the SCTE104 standard.)

Splice Start Immediate [spliceStart_immediate] sections may come once at the splice point's exact location. In this instance, the Injector sets the Splice Immediate Flag [splice_immediate_flag] to 1, and the Out of Network Indicator [out_of_network_indicator] to 1 in the resulting SCTE 35 Splice Info Section [SCTE 35 splice_info_section()]. Immediate mode signaling is not recommended by SCTE 35 and may result in inaccurate splices. (This parameter is shown as spliceStart_immediate in the SCTE104 standard.)

Splice End Normal [spliceEnd_normal] sections terminate splices made without a duration specified. They may also be sent to ensure a splice has terminated on schedule. The Injector sets the Out of Network Indicator [out_of_network_indicator] to 0. To terminate a Splice Start Normal [spliceStart_normal] with no duration specified, the splice should be sent prior to the minimum interval before the return point and carry a value for Pre‐roll Time [pre_roll_time]—especially if terminating a long form insertion. (This parameter is shown as spliceEnd_normal in the SCTE104 standard.)

Splice End Immediate [spliceEnd_immediate] sections terminate a current splice before the splice point, or a splice in process earlier than expected. The Injector sets the Out of Network Indicator [out_of_network_indicator] to 0 and the Splice Immediate Flag [splice_immediate_flag] to 1. In this case, the value of Pre‐roll Time [pre_roll_time] is ignored. (This parameter is shown as spliceEnd_immediate in the SCTE104 standard.)

DMDP6802+ Chapter 2





Description

Splice Insert Type

splice_insert_type Splice Cancel [splice_cancel] sections will cancel a recently sent Splice Start Normal [spliceStart_normal] section. The AS must supply the correct value of Splice Event ID [splice_event_id] for the section to be cancelled; the Injector sets the Splice Event Cancel Indicator [splice_event_cancel_indicator] to 1. (This parameter is shown as splice_cancel in the SCTE104 standard.)

Splice Event Source

splice_event_source Reports or sets the source of a cue message to 0, 4, 6, or 12. A value of 0 indicates the cue source is embedded. A value of 4 indicates a cue created by automation system switching. A value of 6 defines a cue created by a live event trigger system, and a value of 12 indicates a cue created by a local content replacement system. The Splice Event Source [splice_event_source] and Splice Event Number [splice_event_number] together define the Splice Event ID [splice_event_id] parameter that is inserted into the SCTE104 message.

Splice Event Number **

splice_event_number Reports the event source to identify an instance of the cue message, making up the lower 28 bits of the Splice Event ID [splice_event_id]. This parameter is automatically calculated and inserted. The feedback parameter under GPI 1‐16 Settings on the UI indicates the Splice Event Number [splice_event_number] for the next new message.

Unique Program ID

unique_program_id Reports or sets the two‐byte program number (the use of this field by servers and splicers is not confirmed at this time.

Pre‐roll Time pre_roll_time Reports or sets the 16‐bit time before the insertion point (in milliseconds). This value is ignored for Splice Insert Type [splice_insert_type] values other than Splice Event Normal and Splice End Normal [spliceStart_normal and spliceEnd_normal]. If the value is 0 and Component Mode is not in use, the Injector sets the Splice Immediate Flag [splice_immediate_flag] to 1 in the resulting SCTE 35 Splice Info Section [splice_info_section]. In the DMDP6802+ module, this parameter is also used as Delay Duration if the GPI Delay & Hold Processing Mode is Dynamic.

DMDP6802+ Chapter 2





Description

Break Duration break_duration Reports or sets the duration of the insertion in tenths of seconds (a value of 0 prevents the injector from setting a duration). The Break Duration [break_duration] value is ignored for Splice Insert Type [splice_insert_type] values other than Splice Start Normal and Splice Start Immediate [spliceStart_normal and spliceStart_immediate]. In the DMDP6802+ module, this parameter is also used as Hold Duration if the GPI Delay & Hold Processing Mode is set to Dynamic.

Avail Num avail_num Reports or sets the identification for a specific avail within the current Unique Program ID [unique_program_id]. The value follows the definition specified in SCTE 35 for this field. A value of 0 indicates non‐usage.

Avails Expected avails_expected Reports or sets the expected number of individual avails within the current viewing event. A value of 0 indicates that Avail Num [avail_num] has no meaning.

Auto Return Flag *

auto_return_flag Provides status of, or sets the splicer to return to the network at the end of the break. If this field is non‐zero and a non‐zero value of Break Duration [break_duration] is present, the Auto Return [auto_return] field in the resulting SCTE 35 section will be set to 1. This field is ignored for Splice Insert Type [splice_insert_type] values other than Splice Start Normal and Splice Start Immediate [spliceStart_normal and spliceStart_immediate]. This parameter is fixed at 0x00 and automatically inserts.

DMDP6802+ Chapter 2



Table 16: SCTE104 Parameter Descriptions (Insert DTMF Descriptor Request Data)



Function

Pre‐roll * pre‐roll Reports or sets the number of tenths of seconds before the Splice Point [splice_point] . The Splice Point is signaled in the resulting SCTE 35 section that a DTMF tone sequence should finish. To allow for processing time, the Pre‐roll signaled in the SCTE 35 message should be greater than this value. The value in this parameter is automatically copied from the Pre‐roll Time [pre_roll_time] parameter and the related Splice Request Data [splice_request_data]. The module clips to 255 (25.5s) if pre_roll_time is longer than 25500 ms.

DTMF Length * dtmf_length Reports the length of the following DTMF_char (in bytes) that is inserted. This parameter is automatically calculated and inserted.

DTMF Char DTMF_char Sets or displays one character of a DTMF sequence to be output by an IRD. (the field contains one of the ASCII characters 0 through 9, *, #, or A through D. The DMDP6802+ inserts a maximum of 30 characters in one SCTE104 packet.

Card‐Edge LED Descriptions The DMDP6802+module does not have any card‐edge alarms. Instead, a module Status LED on the corner of the module lights up if an error is detected. Other information about the functioning of the module is provided by the Monitoring LEDs. The card‐edge LEDs are shown in the photograph at Card‐Edge LED Locations (on page 44).

Note: If the Status LED is flashing red, please contact your Customer Service representative.

Table 17: Module Status LED Descriptions

LED Color Meaning

Off There is no power to the module; the module is not operational.

Green There is power to the module; the module is operating properly.

Red There is an alarm condition.

Flashing red The module has detected a hardware/firmware fault.

Amber The module is undergoing configuration.

DMDP6802+ Chapter 2



Table 18: Monitoring LED Descriptions

Label Name Color Description

IN_A Input A Present Green On: SDI A input is present Off: SDI A input is absent

IN_B Input B Present Green On: SDI B input is present Off: SDI B input is absent

Timecode Timecode Green On: Timecode option is enabled

Off: Timecode option is not available

CC Closed Captioning Green On: Closed captioning option is enabled Off: Closed captioning option is not available

SCTE104 SCTE104 Green On: SCTE104 option is enabled Off: SCTE104 option is is not available

Bridge Bridge Green On: VANC bridge option is enabled Off: VANC bridge option is is not available

ETH LNK Ethernet Link Green On: Local Ethernet link is connected Off: Local Ethernet link is disconnected

ETH ACT Ethernet Active Green On: Ethernet communication is active

Off: Ethernet communication is inactive

DMDP6802+ Chapter 2



Card‐Edge LED Locations

Figure 16: Location of Module Status and Monitoring LEDs

DMDP6802+ Chapter 2



DMDP6802+ Alarms To identify specific alarms, use a Magellan CCS‐enabled control panel or software control system such as Magellan CCS Navigator.

Table 19: DMDP6802+ Alarms

Alarm Name Default Priority

Default Trigger Delay

Default Clear Delay

Network Cable Not Plugged In 6 (Major) 1.0 s 2.0 s

LTC Input Missing 6 (Major) 1.0 s 2.0 s

SDI A and B Loss of Video 9 (Major) 1.0 s 2.0 s

SDI A and B CC EIA/CEA‐608‐B Missing 1 (Minor) 240.0 s 2.0 s

SDI A and B CC EIA/CEA‐708‐B Missing 1 (Minor) 240.0 s 2.0 s

SDI A and B ISC Input Missing 6 (Major) 1.0 s 2.0 s

SDI A and B ISC Input CI Error 6 (Major) 1.0 s 2.0 s

SDI A and B ISC Input CS Error 6 (Major) 1.0 s 2.0 s

SDI A and B ATC LTC Input Missing 6 (Major) 1.0 s 2.0 s

SDI A and B ATC VITC Input Missing 6 (Major) 1.0 s 2.0 s

SDI A and B D‐VITC Input Missing 6 (Major) 1.0 s 2.0 s

SDI A and B ISC Insert Error 6 (Major) 1.0 s 2.0 s

SDI A and B EDH Error 1 (Minor) 2.0 s 2.0 s

SDI A and B CRC Error 1 (Minor) 2.0 s 2.0 s

SDI A and B Luma Peak 1 (Minor) 240.0 s 2.0 s

SDI A and B Luma Low 1 (Minor) 240.0 s 2.0 s

SDI A and B Chroma Peak 1 (Minor) 240.0 s 2.0 s

SDI A and B Chroma Low 1 (Minor) 240.0 s 2.0 s

SDI A and B Video Black 6 (Major) 30.0 s 2.0 s

SDI A and B Video Payload Missing 1 (Minor) 30.0 s 2.0 s

SDI A and B WSS Missing 1 (Minor) 30.0 s 2.0 s

SDI A and B VI Missing 1 (Minor) 30.0 s 2.0 s

SDI A and B AFD Missing 1 (Minor) 30.0 s 2.0 s

SDI A and B Video Standard Mismatch 6 (Major) 1.0 s 2.0 s

SDI A and B Embedded Ch 01 to Ch 16 Peak 1 (Minor) 30.0 s 2.0 s

SDI A and B Embedded Ch 01 to Ch 16 Low 1 (Minor) 30.0 s 2.0 s

SDI A and B Embedded Ch 01 to Ch 16 Loss Of Sound 1 (Minor) 30.0 s 2.0 s

SDI A and B Embedded Ch 01 to Ch 16 V‐bit Set 1 (Minor) 1.0 s 2.0 s

SDI A and B Embedded Ch 01 to Ch 16 Missing 1 (Minor) 1.0 s 2.0 s

SDI A and B Embedded Audio Groups 1 to 4 Missing 1 (Minor) 1.0 s 2.0 s

GPI 1 to GPI 16 Active State Triggered 6 (Major) 1.0 s 2.0 s

DMDP6802+ Chapter 3

Installation and Operation Manual Specifications


Specifications

Input Video Table 20: Input Video Specifications

Item Specification

Number of inputs 2

Standard

3G: SMPTE 424M (1080p/60, 1080p/59, 1080p/50, 1080p/60DL, 1080p/59DL, 1080p/50DL)

HD: SMPTE 292M (1080i/60, 1080i/59, 1080i/50,1080p/30, 1080p/29, 1080p/25, 1080p/24, 1080p/23, 1080psf/30, 1080psf/29, 1080psf/25, 1080psf/24, 1080psf/23, 720p/60, 720p/59, 720p/50, 720p/30, 720p/29, 720p/25, 720p/24, 720p/23)

SD: SMPTE 259M‐C (270Mb/s, 525/625 component video)

Connector BNC (IEC 169‐8)

Impedance 75Ω

Return Loss 3G: >15 dB from 5 MHz to 1485 MHz; >10 dB from1485 MHz to 2970 MHz

HD: >15 dB from 5 MHz to 1485 MHz

SD: >20 dB from 5 MHz to 270 MHz

Equalization 3G: 180 m (590 ft) typical for Belden 1694A

HD: 275 m (902 ft) for Belden 1694A

SD: 440 m (1443 ft) typical for Belden 8281B; 570m (1870 ft) typical for Belden 1694A

Chapter 3

DMDP6802+ Chapter 3



Output Video Table 21: Output Video Specifications

Item Specification

Number of outputs 3

Standard

3G: SMPTE 424M (1080p/60, 1080p/59, 1080p/50, 1080p/60DL, 1080p/59DL, 1080p/50DL)

HD: SMPTE 292M (1080i/60, 1080i/59, 1080i/50,1080p/30, 1080p/29, 1080p/25, 1080p/24, 1080p/23, 1080psf/30, 1080psf/29, 1080psf/25, 1080psf/24, 1080psf/23, 720p/60, 720p/59, 720p/50, 720p/30, 720p/29, 720p/25, 720p/24, 720p/23)

SD: SMPTE 259M‐C (270Mb/s, 525/625 component video)

Connector BNC (IEC 169‐8)

Impedance 75Ω

Return Loss

3G: >15 dB from 5 MHz to 1485 MHz; >10 dB from 1485 MHz to 2970 MHz

HD: >15 dB, typical, from 5 MHz to 1485 MHz

SD: >20 dB, typical, from 5 MHz to 270 MHz

Signal Level 800 mV ± 10%

D.C. Offset 0.0 V ± 0.5 V

Rise and Fall Time

3G: <135 ps HD: <270 ps (20% to 80%) SD: 400 to 1500 ps (20% to 80%)

Overshoot <10% of amplitude (all outputs terminated)

Jitter

Timing Jitter

3G: <2UI (pk‐to‐pk) HD: <1 UI (pk‐to‐pk) SD: <0.2 UI (pk‐to‐pk) Alignment Jitter

3G: <0.3 UI (pk‐to‐pk) HD: <0.2 UI (pk‐to‐pk) SD: <0.2 UI (pk‐to‐pk)

DMDP6802+ Chapter 3



GPI In and GPI Out Table 22: GPI In and GPI Out Specifications

Item Specification

Number of Inputs 16

Connector Samtec ASP‐154305‐1

Signal Standard TTL active, low or high

Internal Pull‐up +5 V

Baud Rate <10 Kbps

Number of Outputs 16

Signal Standard TTL active, low or high

Connector ASP‐154305‐1

Baud Rate <10 Kbps

LTC Port Table 23: LTC Port Specifications

Item Specification

Input Termination Hi‐Z (>20kΩ) or 600Ω, selectable with jumper

LTC Input (TCI) Electrical Differential balanced


LTC Input (TCI) Input Sensitivity

500 mV pk‐to‐pk

Output Termination Lo Z (< 50 Ω) or 600Ω, selectable with jumper

LTC Output (TCI) Electrical Differential balanced

Output level 3.9 V pk‐to‐pk nominal into 1kΩ (Low‐Z output)

2.5 V pk‐to‐pk nominal into 1kΩ (600Ω output)

DMDP6802+ Chapter 3



Serial Port Table 24: Serial Port Specifications

Item Specification

Number of Channels 4

Standard EIA/TIA‐232, EIA/TIA ‐422, selectable


EIA/TIA‐232‐E Specifications

Maximum Output Level (unloaded)

<±25 V

Output Level (loaded) ±5 V to ±15 V

Driver Load Impedance 3 kΩ to 7 kΩ

Slew Rate <30 µs

Max Driver Current in High‐Z ±6 mA @ ±2 V

Receiver Impedance 3 kΩ to 7 kΩ

Receiver Sensitivity ±3 V

Receiver Input Voltage Range ±15 V

EIA/TIA‐422 Specifications

Input Termination 120Ω, jumper selectable

Maximum Output Level (unloaded)

<±6 V

Output Level (loaded) >±2.0 V

Driver Load Impedance 50 Ω

Max Driver Current in High Z ±100 µA

Receiver Impedance kΩ

Receiver Sensitivity ±200 mV

Receiver Input Voltage Range ‐7 V to +7 V

DMDP6802+ Chapter 3



Video Propagation Delay The option that you select in the AFD Detect Mode (Data Input > AFD/WSS/VI > SDI x>AFD Detect Mode) makes it possible to allow for frame‐accurate AFD data handling. Note that when Custom is the selected option (instead of the default Auto option), the video propagation delay increases noticeably. See the table for details.

Table 25: Video Propagation Delay Specifications

AFD Detect Mode Setting

Signal I/O Path Signal Propagation Delay (µs)

SDI In SDI Out 525 /625 720p 1080i 1080p/ Level A

1080p/ Level B

Auto*

SDI IN A SDI OUT A 17.56 2.41 2.37 1.32 1.94

SDI IN B SDI OUT B 17.33 2.43 2.37 1.34 1.96

SDI IN A AUX OUT

19.78 2.83 2.62 1.43 2.10

SDI IN B 19.78 2.83 2.60 1.51 2.14

Custom

SDI IN A SDI OUT A 131.19 43.84 43.80 22.04 22.66

SDI IN B SDI OUT B 131.34 43.85 43.80 22.04 22.66

SDI IN A AUX OUT

133.56 44.26 44.05 22.14 22.81

SDI IN B 133.56 44.26 44.02 22.23 22.87

* The Auto selection provides factory default settings.

Power Consumption Total power consumption for the DMDP6802+ is approximately 6 W.

Operating Temperature The operating temperature for the DMDP6802+ is 41° to 113°F (5° to 45°C).

DMDP6802+ Appendix A

Installation and Operation Manual Software Communication Problems


Software Communication Problems PROBLEM

The frame is powered up, but the module does not communicate with Magellan CCS Navigator or the web GUI interface. Ensure you have specified the proper module slot.

SOLUTIONS

See your 6800+ Frame Installation and Operation Manual for more information about slot identification.

Confirm there is an 6800+ ETH module installed in the frame.

Remove any legacy 6800 series product that is in the frame.

Magellan CCS software cannot communicate with legacy 6800 series products, even if these modules may operate with card‐edge controls in the frame. Legacy 6800 products do not have the "+" symbol on their extractor handles.

Check for pressed pins on the back module by following this procedure:

i. Unplug the front module.

ii. Unscrew and remove the back module.

iii. Inspect the 20‐ or 30‐pin spring connector at the bottom of the back module, and verify that the connector does not have any slightly bent or depressed pins.

iv. Carefully reposition any bent pins. If this is not possible, contact Imagine Communications Customer Support.

Figure 17: Typical Back Module Spring Connector

Appendix A


Installation and Operation Manual Software Communication Problems


PROBLEM

The IP address of the frame has been forgotten.

SOLUTIONS

Follow this procedure:

1. Remove the ETH6800+ module from the frame.

2. Select DIP switch 2 on the ETH6800+ module and slide the tab to the forward position.

This sets the ETH6800+ module to its default IP address of 192.168.100.250.

Figure 18: ETH6800+ DIP Switch

3. Use Magellan CCS Navigator or the web browser to interface with the ETH 6800+ module and then set the desired IP address.

4. Set the DIP switch back to its normal position and then re‐insert the module.

PROBLEM

There is no Ethernet connectivity to the frame.

SOLUTIONS

Verify that the correct IP address is being used. If your are not certain, refer to the above procedure to set to default IP.

Verify that the ethernet cable is the correct type (a crossover cable is required for direct connection from a PC).


Installation and Operation Manual Hardware Communication Problems


Verify the Link and Activity (left and right) status LEDS are active on the RJ‐45 connector at the rear of the frame.

Verify the Status LED is lit and green on the ETH6800+ card, as viewed from the front of the frame with the door open.

Verify that the security settings on the PC allow for connection to a frame (TCP port 80 and UDP ports 4000/4050 must be open).

Verify that the PC is configured for and can communicate on the desired subnet.

Verify that the frame reference signal has not been mistakenly plugged into the Communications BNC connectors on the rear of the frame.

PROBLEM

Magellan CCS software sees the frame, but does not find all of the modules.

SOLUTIONS

Remove any legacy 6800 series products.

Plug your modules in before starting the discovery.

Start your discovery after the frame and all modules have fully powered up.

Refresh the Magellan CCS software and ensure that the installed modules are fully powered up first before discovery.

PROBLEM

Magellan CCS Software does not respond after it is launched.

SOLUTION

Close any Magellan CCS software that is already launched.

PROBLEM

Magellan CCS software shows a module in the Control window, but cannot control it.

SOLUTION


1. Set the module’s Local/Remote jumper to Remote.

2. Ensure the module name in the Control window matches the module type in the frame.

3. Gently push the module into its slot in the frame to ensure it is seated properly and powered up.

4. Verify that the Control window indicates the device is ready.


Installation and Operation Manual Hardware Communication Problems


Hardware Communication Problems PROBLEM

After a power failure, the frames and PC do not communicate.

SOLUTIONS


1. Wait four minutes for the frames to recover from the power failure.

2. Close the Magellan CCS software, and then restart the PC.

3. Restart the software application.

PROBLEM

The module does not seem to work.

SOLUTIONS

Ensure the correct frame is powered up.

Verify that all appropriate rear connections are secure.

Gently push the module into its slot in the frame to ensure it is seated properly. Then verify the Status LED on the module is lit and green.

Ensure the back module does not have bent pins by following this procedure:

i. Unplug the front module.

ii. Unscrew and remove the back module.

iii. Carefully reposition any bent or depressed pins. If this is not possible, contact Customer Support.

DMDP6802+

Installation and Operation Manual Index


Index A Additional Features • 11 Applicable Standards • 8 Audience • 5

B Back Module • 15

C Card‐Edge LED Descriptions • 43 Card‐Edge LED Locations • 45 Changing Parameter Settings at the Card Edge •

34 Changing Parameter Settings Using Magellan

CCS Software • 36 Closed Caption Transmission • 33 Contact Information • 2

D Discovering the Module Using Magellan CCS

Software • 36 DMDP6802+ Alarms • 46 DMDP6802+ Control Parameters • 36 Dynamic Matching • 29

E Extension of GPI State • 24

F Front Module • 15

G Glitch Filter • 24 GPI In and GPI Out • 49 GPI Input Setup • 31 GPI Output Setup • 31 GPI Timing

Input Processing • 23 Output Processing • 27

GPI Timing for SCTE104 • 26 GPI Timing Using ATC • 25 GPI Timing Using ISC • 24 GPI Triggering Description • 22

H Hardware Communication Problems • 56

I Input Video • 48 Installation and Operation • 17 Installing and Removing DMDP6802+ Modules •

21 Installing DMDP6802+ Modules • 21 Introduction • 10 ISC Transmission • 32

L LTC Port • 50

M Main Features • 10 Manual Information • 5 Maximum Frame Power Ratings and System

Requirements • 21

N Network Setup • 30

O Obtaining Documents • 6 Operating Notes • 34 Operating Temperature • 52 Operation • 30 Output Video • 48

P Packages and Options • 11 Pinouts • 16 Ports • 10 Power Consumption • 52 Preface • 5 Product Description • 10 Publication Information • 2 Purpose • 5

R Recalling Default Parameter Settings • 35 Restrictions on Hazardous Substances (RoHS) •

7 Revision History • 5 RS‐232 Setup • 19 RS‐232/RS‐422 Setup • 19 RS‐422 Setup • 20

S Safety Standards and Compliances • 7 SCTE104 Parameter Descriptions • 38

DMDP6802+

Installation and Operation Manual Index


SCTE104 Transmission • 34 Serial Port • 50 Setting Jumpers • 17 Signal Flow • 13 Software Communication Problems • 53 Specifications • 48 Support Contact Information • 2

T Timecode Transmission • 33 Trademarks • 2

U Unpacking the Module • 17 Unpacking/Shipping Information • 6 Upgrading Module Firmware • 22

V VBI Swap Transmission • 34 Video Propagation Delay • 51

W Waste from Electrical and Electronic Equipment

(WEEE) • 7 Writing Conventions • 5 WST/OP47 Transmission • 33