Harris ENC6800+, ENS6800+ Installation And Operation Manual

ENC6800+ Composite Encoder and
ENS6800+ Composite Encoder Synchronizer

Installation and Operation Manual

Edition D
175-000147-00

ENC6800+

Composite Encoder

ENS6800+

Composite Encoder Synchronizer

Installation and Operation Manual

Edition D
December 2005

Trademarks and Copyrights

CCS, CCS CoPilot, CCS Navigator, CCS Pilot, Command Control System,
CineTone, CinePhase, CineSound, DigiBus, DigiPeek, Digital Glue,
DigiWorks, DTV Glue, EventWORKS, EZ HD, Genesis, HDTV Glue,
Image Q, Icon, IconLogo, IconMaster, IconMaster Nav, IconSet, Icon
Station, Inca, Inca Station, InfoCaster, Inscriber, Inscriber CG—FX,
Integrator, LeFont, Leitch, LogoMotion, MediaFile, MIX BOX, NEO, the
NEO design, NEOSCOPE, NewsFlash, Nexio, Opus, Panacea,
PanelMAPPER, Platinum, Portal, PROM-Slide, RouterMAPPER,
RouterWORKS, Signal Quality Manager, SpyderWeb, SuiteView,
TitleMotion, UNIFRAME, Velocity, VelocityHD, VideoCarte, Videotek,
and X75 are trademarks of the Harris Corporation, which may be registered
in the United States, Canada, and/or other countries. All other trademarks
are the property of their respective owners.

Copyright 2006, Harris Corporation. All rights reserved. This publication
supersedes all previous releases. Printed in Canada.

Warranty Information

The Limited Warranty Policy provides a complete description of your
warranty coverage, limitations, and exclusions, as well as procedures
for obtaining warranty service. To view the complete warranty, visit

www.broadcast.harris.com/leitch

.

Contents

Preface

Manual Information .............................................................................. vii

Purpose ........................................................................................... vii

Audience ........................................................................................ vii

Revision History ............................................................................ vii

Writing Conventions ..................................................................... viii

Obtaining Documents ................................................................... viii

Unpacking/Shipping Information .......................................................... ix

Unpacking a Product ....................................................................... ix

Product Servicing ............................................................................ ix

Returning a Product ........................................................................ ix

Restriction on Hazardous Substances (RoHS) Compliance ....................x

Waste from Electrical and Electronic Equipment (WEEE) Compliance xi

Safety .................................................................................................... xii

Safety Terms and Symbols in this Manual .................................... xii

ENC/ENS6800+ Installation and Operation Manual iii

Chapter 1: Introduction

Overview ..................................................................................................1

Product Description ..................................................................................2

Module Descriptions ................................................................................4

Front Module ....................................................................................4

Back Connector .................................................................................6

Signal Flow ..............................................................................................8

Contents

Chapter 2: Installation

Overview ................................................................................................. 9

Maximum 6800+ Frame Power Ratings ............................................... 10

Unpacking the Module .......................................................................... 11

Preparing the Product for Installation ............................................ 11

Checking the Packing List ............................................................. 11

Setting Jumpers ..................................................................................... 12

Jumper J3 for Local or Remote Control ......................................... 12

Setting Jumper J1 for Genlock Source ........................................... 13

Setting Jumper P1 for Reclocking and IO_DELAY Output .......... 14

Installing 6800+ Modules ..................................................................... 15

Making Connections ............................................................................. 15

Removing 6800+ Modules .................................................................... 15

Chapter 3: Operation

Overview ............................................................................................... 17

Operating Notes ..................................................................................... 18

Cross-Functional Parameter Changes ............................................ 19

Changing Parameter Settings ................................................................ 20

Recalling Default Parameter Settings ............................................ 21

Reading Software and Hardware Versions .................................... 21

Setting ENC/ENS6800+ Control Parameters ....................................... 22

LEDs and Alarms .................................................................................. 30

Monitoring LEDs ........................................................................... 30

Module Status LEDs ...................................................................... 32

Alarms ............................................................................................ 33

Chapter 4: Specifications

iv ENC/ENS6800+ Installation and Operation Manual

Overview ............................................................................................... 35

Video Input ............................................................................................ 36

Serial Digital Video ....................................................................... 36

Reference Input .............................................................................. 36

Video Output ......................................................................................... 37

Composite Analog .......................................................................... 37

Serial Digital Video ....................................................................... 38

Data I/O Output .............................................................................. 38

Power Consumption .............................................................................. 38

Operating Temperature ......................................................................... 39

Appendix A: Filters

Composite Encoder Filter ......................................................................41

NTSC/PAL-M Pass Filter ...............................................................41

PAL-B Pass Filter ...........................................................................42

Cross-Color Reduction Filter .................................................................43

Filter Summary ...............................................................................43

Vertical High Pass Filter Frequency Response ...............................44

Horizontal High Pass Filters ...........................................................44

Appendix B: ENC/ENS6800+ Troubleshooting

Overview ................................................................................................47

Genlock Issues .......................................................................................48

Output Issues ..........................................................................................51

Appendix C: Communication and Control
Troubleshooting Tips

Overview ................................................................................................53

General Troubleshooting Steps ..............................................................54

Software Communication and Control Issues ........................................55

+ Pilot Lite Fails to Communicate with Installed Modules ...........55

+ Pilot Lite Does Not Find All Modules in Frame ........................56

+ Pilot Lite or CCS Software Application Not Responding ..........57

+ Pilot Lite Cannot Control a Module Showing

in the Control Window ...................................................................57

+ Pilot Lite Status Bar Reports ‘Not Ready’ ..................................57

CCS Software Application or Remote Control Panel Does Not

Communicate with Module ............................................................58

Alarm Query Fails When a Device Reboots ...................................58

Hardware Communication and Control Issues ......................................59

Frames Fail to Communicate with the PC after a Power Failure ...59

Module Does Not Seem to Work ....................................................59

Contacting Customer Service .................................................................59

Contents

ENC/ENS6800+ Installation and Operation Manual v

Index

Keywords ...............................................................................................61

Contents

vi ENC/ENS6800+ Installation and Operation Manual

Manual Information

Preface

Purpose

This manual details the features, installation, operation, maintenance,
and specifications for the ENC/ENS6800+ Composite Video Encoder
Modules.

Audience

This manual is written for engineers, technicians, and operators
responsible for installation, setup, maintenance, and/or operation of the
ENC/ENS6800+ Composite Video Encoder Modules.

Revision History

Table P-1. Revision History of Manual

Edition Date Comments

A May 2003 Initial Release

B February 2004 Updated information, including:

• Parameter options

• Jumper information

• Alarm information

C August 2005 Minor corrections to content; addition of communications troubleshooting

D December 2005 Additional module-specific troubleshooting information

ENC/ENS6800+ Installation and Operation Manual vii

information

Preface

Writing Conventions

To enhance your understanding, the authors of this manual have
adhered to the following text conventions:

Table P-2. Writing Conventions

Term or
Convention

Bold Indicates dialog boxes, property sheets, fields, buttons,

Italics Indicates E-mail addresses, the names of books or

CAPS Indicates a specific key on the keyboard, such as

Code Indicates variables or command-line entries, such as a

> Indicates the direction of navigation through a hierarchy

hyperlink Indicates a jump to another location within the

Internet address

Note

Description

check boxes, list boxes, combo boxes, menus,
submenus, windows, lists, and selection names

publications, and the first instances of new terms and
specialized words that need emphasis

ENTER, TAB, CTRL, ALT, or DELETE

DOS entry or something you type into a field

of menus and windows

electronic document or elsewhere

Indicates a jump to a Web site or URL

Indicates important information that helps to avoid and
troubleshoot problems

Obtaining Documents

Product support documents can be viewed or downloaded from our
Web site at www.broadcast.harris.com/leitch
Documentation). Alternatively, contact your customer service
representative to request a document.

viii ENC/ENS6800+ Installation and Operation Manual

(go to Support >

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.

Preface

Product Servicing

Except for firmware upgrades, ENC/ENS6800+ modules are not
designed for field servicing. All hardware upgrades, modifications, or
repairs require you to return the modules to the Customer Service
center.

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, 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.

ENC/ENS6800+ Installation and Operation Manual ix

• The corners of the product must be protected.

Preface

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.

Restriction on Hazardous Substances (RoHS)
Compliance

Directive 2002/95/EC—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 takes 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
will be fully RoHS-compliant and “lead-free.” (See our Web site,

www.broadcast.harris.com/leitch

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 P-1.

Figure P-1. RoHS Compliance Emblem

, for more information on dates and

x ENC/ENS6800+ Installation and Operation Manual

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. Effective August 13, 2005,
producers or users will be 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 Web site,

www.broadcast.harris.com/leitch

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 P-2.

, for more information on dates and

Preface

ENC/ENS6800+ Installation and Operation Manual xi

Figure P-2. WEEE Compliance Emblem

Preface

Safety

Carefully review all safety precautions to avoid injury and prevent
damage to this product or any products connected to it. If this product is
rack-mountable, it should be mounted in an appropriate rack using the
rack-mounting positions and rear support guides provided. It is
recommended that each frame be connected to a separate electrical
circuit for protection against circuit overloading. If this product relies
on forced air cooling, it is recommended that all obstructions to the air
flow be removed prior to mounting the frame in the rack.

If this product has a provision for external earth grounding, it is
recommended that the frame be grounded to earth via the protective
earth ground on the rear panel.

IMPORTANT! Only qualified personnel should perform service
procedures.

Safety Terms and Symbols in this Manual

WARNING

Statements identifying conditions or
practices that may result in personal injury
or loss of life. High voltage is present.

CAUTION

Statements identifying conditions or
practices that can result in damage to the
equipment or other property.

xii ENC/ENS6800+ Installation and Operation Manual

Overview

Chapter 1

Introduction

The ENC/ENS6800+ SDI-to-NTSC/PAL-B encoders are compact
modules for NTSC, PAL-B, and PAL-M encoding. Supporting 4:2:2
serial digital inputs, they may be used as either quality broadcast
encoders or as monitoring encoders.

The ENS6800+ also allows frame synchronization
reduction.

The following topics are described in this chapter:

• “Product Description” on page 2

• “Module Descriptions” on page 4

• “Signal Flow” on page 8

and cross-color

ENC/ENS6800+ Installation and Operation Manual 1

Chapter 1: Introduction

Product Description

The ENC/ENS6800+ encoders and synchronizers are part of the 6800+
Series of processing and conversion modules that have the following
features:

ENC6800+

• Encoding of 4:2:2 digital video into a composite analog signal

• 12-bit digital internal processing; output over-sampled at 54 MHz

• Four composite outputs and two SDI reclocked outputs

• Automatic selection between NTSC, PAL-M and PAL-B standards,
with settings shadowed and restored

• Genlock input on module, or frame genlock to be used for reference

• Color-frame locking if used with external genlock

• Jitter removal

• EDH detection

• Vertical blanking field/line/mode control: lines 10 to 21
(NTSC/PAL-M), lines 6 to 23 (PAL-B)

• Adjustable level controls for luminance, chrominance, and black

• Adjustments for ±180 degrees chrominance phase

• SCH offset (0/180 for NTSC, 0/90/180/270 for PAL)

• Pedestal on/off selection (with starting line selection)

• Full control support via +Pilot Lite

TM

CCS Pilot

and CCS Navigator

TM

(included) or optional

TM

(requires ICE6800+)

ENS6800+

• Encoding of 4:2:2 digital video into a composite analog signal

• 12-bit digital internal processing; output over-sampled at 54 MHz

• Four composite outputs

• Two SDI reclocked outputs: one dedicated, one jumper-selectable
(for audio tracking signal with compatible audio synchronizers)

• Frame sync or delay modes

• Bypassable cross-color reduction with one-line delay

2 ENC/ENS6800+ Installation and Operation Manual

Chapter 1: Introduction

• Automatic selection between NTSC, PAL-M and PAL-B standards,

with settings shadowed and restored

• Genlock input on module, or frame genlock to be used for reference

• Selection between black, pass, or freeze when input signal is lost

• Jitter removal

• EDH detection

• Vertical blanking field/line/mode control: lines 10 to 21

(NTSC/PAL-M), lines 6 to 23 (PAL-B)

• Adjustable level controls for luminance, chrominance, and black

• Adjustment for ±180 degrees chrominance phase

• SCH offset (0/180 for NTSC, 0/90/180/270 for PAL)

• Adjustment for ±45 degrees fine phase

• Various test signals: color bars, modulated ramp, multiburst,

pulse/bars

• Pedestal on/off selection (with starting line selection)

• Full control support via +Pilot Lite

CCS Pilot

TM

and CCS Navigator

TM

(included) or optional

TM

(requires ICE6800+)

ENC/ENS6800+ Installation and Operation Manual 3

Chapter 1: Introduction

Module Descriptions

Front Module

Figure 1-1 is a generic top-front view of a typical 6800+ module and

shows the general location of standard LEDs, controls, and jumpers.

Remote/local
control
jumper

Note

Before connecting the
ENC6800+ connector to
primary power, check and, if
necessary, set the input
voltage selector switch on
the rear panel to match the
local line voltage.

Module
status
LEDs

Mode select
rotary
switch

Navigation
toggle
switch

Control
LEDs

Monitoring
LEDs

Extractor
handle

Figure 1-1. Typical 6800+ Module

Table 1-1 on page 5 briefly describes generic 6800+ LEDs, switches,

and jumpers. See “Chapter 3: Operation” for more information on
specific ENC/ENS6800+ module controls, LEDs, and jumpers.

4 ENC/ENS6800+ Installation and Operation Manual

Table 1-1. Generic 6800+ Module Features

Feature Description

Chapter 1: Introduction

Module status
LEDs

Mode select
rotary switch

Navigation
toggle switch

Control LEDs Various lighting combinations of these control LEDs

Monitoring
LEDs

Local/Remote
control jumper

Various color and lighting combinations of these LEDs
indicate the module state.
Chapter 3 for more information.

This switch selects between various control parameters.

This switch navigates up and down through the available
control parameters:

• Up: Decrease

• Down: Increase

(sometimes referred to as “Bank Select LEDs”) indicate
the currently selected bank.
Bank as Indicated by Control LEDs” for more
information.

Each 6800+ module has a number of LEDs assigned to
indicate varying states/functions.
LEDs” in Chapter 3 for a description of these LEDs.

• Local: Locks out external control panels and allows
card-edge control only; limits the functionality of
remote software applications to monitoring

See “Monitoring LEDs” in

See Table 3-1 “Selected

See “Monitoring

• Remote: Allows remote or local (card-edge)
configuration, operation, and monitoring of the
ENC/ENS6800+

ENC/ENS6800+ Installation and Operation Manual 5

Chapter 1: Introduction

Back Connector

ENC/ENS6800+ Back Connector for FR6802+ Frame

Figure 1-2 shows the double-slot back connector used by the ENC/

ENS6800+ when installed in an FR6802+ frame.

SDI IN

GENLOCK

Genlock 1 Genlock 2

The RECLK SDI 1
can also serve as a
DATA I/O output. The
function assignment
is jumper selectable.

525 625

RECLK

SDI

12

CMPST

3

1

4

2

Figure 1-2. ENC/ENS6800+ Back Connector

6 ENC/ENS6800+ Installation and Operation Manual

6800/7000 Series Frame Back Connector (Overlay)

Figure 1-3 shows the double-slot back connector overlay used by the

ENC/ENS6800+ when installed in a 6800/7000 series frame.

Chapter 1: Introduction

SDI IN

Genlock 525
(Genlock 1)

SDI RCLK or
IO_DELAY

Genlock 625
(Genlock 2)

SDI RLCK

COMPST VIDEO
(PAL- B/PAL-M/NTSC)

Figure 1-3. Back Connector Overlay for the 6800 Series Frame

ENC/ENS6800+ Installation and Operation Manual 7

Chapter 1: Introduction

Signal Flow

Figure 1-4 shows the signal flow for the ENC6800+ module, and
Figure 1-5 shows the signal flow for the ENS6800+ module:

SDI

outputs

SDI input

NTSC reference

input

PAL reference

input

Frame reference

Equalizer and

deserializer

Genlock

Figure 1-4. ENC6800+ Signal Flow Diagram

Composite

encoder DAC

Front-edge

user interface

Composite

outputs

CCS control/
monitor port

SDI reclocked
output 1

SDI reclocked
output 2

SDI video

Input

Reference

video

input

Equalizer

and

deserializer

Genlock

Figure 1-5. ENS6800+ Signal Flow Diagram

8 ENC/ENS6800+ Installation and Operation Manual

Card-edge

control

Composite

encoder

DAC /

LPF

CCS control /

monitor port

Composite
video outputs

Overview

Caution

Chapter 2

Installation

This chapter describes the ENC/ENS6800+ installation process,
including the following topics:

Before installing this product,
read the 6800+ Series Safety

Instructions and Standards
Manual shipped with every
FR6802+ Frame Installation
and Operation Manual or

downloadable from

www.broadcast.harris.com/
leitch. This safety manual

contains important information
about the safe installation and
operation of 6800+ series
products.

• “Maximum 6800+ Frame Power Ratings” on page 10

• “Unpacking the Module” on page 11

• “Setting Jumpers” on page 12

• “Installing 6800+ Modules” on page 15

• “Making Connections” on page 15

• “Removing 6800+ Modules” on page 15

See the FR6802+ Frame Installation and Operation Manual for
information about installing and operating an FR6802+ frame and its
components.

See the 6800/7000 Series Frames and Power Supply Installation and
Operation Manual for information about installing and operating a
6800/7000 series frame.

ENC/ENS6800+ Installation and Operation Manual 9

Chapter 2: Installation

Maximum 6800+ Frame Power Ratings

The power consumption for the ENC6800+ module is 6.7 W and for the
ENS6800+ is 7.5 W.

Table 2-1 and Table 2-2 describe the maximum allowable power

ratings for 6800+ frames. Note the given maximums before installing
any 6800+ modules in your frame.

Table 2-1. Maximum Power Ratings for 6800+ Frames When
Using an AC Power Supply

6800+ Frame
Type

FR6802+DM
(frame without fans)

FR6802+DMF
(frame with fans)

FR6802+X
(frame without fans)

FR6802+XF
(frame with fans)

Max. Frame
Power
Dissipation

50 W 10 5 W

120 W 10 12 W

50 W 20 2.5 W

120 W 20 6 W

Number
of Usable
Slots

Max. Power
Dissipation
Per Slot

Table 2-2. Maximum Power Ratings for 6800+ Frames When

Using a DC Power Supply

6800+ Frame
Type

FR6802+DM48
(frame without fans)

Max. Frame
Power
Dissipation

50 W 10 5.0 W

Number
of Usable
Slots

Max. Power
Dissipation
Per Slot

FR6802+DMF48
(frame with fans)

FR6802+X48
(frame without fans)

FR6802+XF48
(frame with fans)

10 ENC/ENS6800+ Installation and Operation Manual

105 W 10 10.5 W

50 W 20 2.5 W

105 W 20 5.25 W

Unpacking the Module

Preparing the Product for Installation

Before you install the ENC/ENS6800+, perform the following:

• Check the equipment for any visible damage that may have

Note

occurred during transit.

Chapter 2: Installation

Contact your customer service
representative if parts are
missing or damaged.

• Confirm receipt of all items on the packing list. See “Checking the

Packing List” for more information.

• 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 v for information
about returning a product for servicing.

Checking the Packing List

Table 2-3. Available Product Packages

Ordered Product Content Description

ENC/ENS6800+

ENC/ENS6800+D

• One ENC/ENS6800+ front module

• One ENC/ENS6800+ Installation and Operation

Manual

• One ENC/ENS6800+ front module

• One standard, double-slot, 10 BNC back
connector

ENC/ENS6800+ Installation and Operation Manual 11

• One ENC/ENS6800+ Installation and Operation
Manual

ENC/ENS6800+DR One standard, double-slot, 10 BNC back connector

153-00092-00
(Optional item)

ENC/ENS6800+ back connector overlay
(for use in 6800/7000 series frames)

Chapter 2: Installation

Setting Jumpers

The ENC/ENS6800+ module has three jumpers that you need to set:

•J3 (See “Jumper J3 for Local or Remote Control” on page 12)

•J1 (See “Setting Jumper J1 for Genlock Source” on page 13)

• P1 (See “Setting Jumper P1 for Reclocking and IO_DELAY

Output” on page 14)

Figure 2-1. Location of the J3, J1 and P1Jumpers

Jumper J3 for Local or Remote Control

Follow this procedure to set the J3 jumper for either local or remote

Note

You need to configure modules
for local or remote operation
prior to power-up. To change
the configuration, first remove
power from the module, reset
the jumper, and then reapply
power.

The white triangle near the
jumper pins on the module
indicates pin 1.

control:

1. Locate jumper J3 on the module (beside the extractor handle).

Figure 2-1 shows the standard location of the J3 jumper.

12 ENC/ENS6800+ Installation and Operation Manual

Chapter 2: Installation

2. Place a jumper on pins 1 and 2 to set the module for Remote

control or pins 2 and 3 to set the module for Local control. See

Figure 2-2.

3 2 1 3 2 1

Remote control setting

Local control setting

Figure 2-2. Jumper J3 Settings for Local and Remote Control

Setting Jumper J1 for Genlock Source

Follow this procedure to select the Genlock source by setting the
J1 jumper to either Local or Frame mode:

1. Locate jumper J1 on the module. See Figure 2-1 on page 12.

2. Place a jumper on pins 1 and 2 if the genlock source is from the

local back connector (“L”) or pins 2 and 3 if the genlock source is
from the frame (“F”). The frame genlock is available only with the
FR6802+ frame.

1 2 3

Local mode

1 2 3

Frame mode

ENC/ENS6800+ Installation and Operation Manual 13

Figure 2-3. Jumper J1 Settings for Local or Frame Mode

The genlock source is not only selected by the J1 jumper setting
described above, but by the Reference Input Select parameter setting
you make in Bank 0, rotary switch setting D (see Table 3-3: “Card-Edge
Parameter Options— ENC/ENS6800+ Modules” on page 22).
Parameter setting options include the following:

• Genlock 1 (labeled 525 on the rear module)/ Frame Genlock: If

this setting is chosen, then the genlock source must come from
either the Genlock 1 input of the rear module (labeled 525) or from

Chapter 2: Installation

Note

Even though the rear module is
labeled 525 for Genlock 1 and
625 for Genlock 2 either type of
standard can be applied to either
of the inputs. They are not 525
or 625 dependent. However the
same type of genlock format
(NTSC or PAL-B) should never
be applied to both genlock input
sources at the same time.

the FR6802+ frame genlock input. This is determined by the
position of jumper J1 on the ENC6800+ or ENS6800+ module as
shown in Figure 2-3.

• Genlock 2 (labeled 625 on the rear module): If this setting is
chosen, the genlock source will be taken from the Genlock 2 input
of the rear module and is independent of the jumper J1 setting.

• Auto: Varies between Genlock 1/Frame and Genlock 2 genlock.
This is used if the card is expected to auto-switch between an NTSC
or PAL-M reference and a PAL-B reference based on the video
input. In this case one reference input would be applied to the
Genlock 2 input, and the other reference input would be applied to
either Genlock 1 or Frame. Then when the input signal changes
between SD 525 and SD 625, the genlock will automatically switch
to the appropriate genlock source. Remember that jumper J1
determines whether Genlock 1 or Frame is the source of the first
genlock input (see Figure 2-3).

When the genlock source input is valid, the Genlock LED will turn
green. If you are using an ENS6800+ and the Genlock LED never turns
green, ensure that the Frame Sync Mode parameter is not set to Delay.

Setting Jumper P1 for Reclocking and IO_DELAY Output

Follow this procedure to set the P1 jumper to select Reclocked SDI or
IO_DELAY output to a BNC output connector on the back module:

1. Locate jumper P1 on the module. See Figure 2-1 on page 12.

2. Place a jumper on pins 2 and 3 to set the module for SDI RCLK, or

Note

The ENC6800+ does not
have IO_DELAY.

place a jumper on pins 1 and 2 and another jumper on pins 3 and 4
to set the module to output IO_DELAY.

1

234

Reclocked SDI output IO_Delay output

1

234

Figure 2-4. Jumper P1 Settings for Reclocked SDI or

IO_Delay Output

14 ENC/ENS6800+ Installation and Operation Manual

Installing 6800+ Modules

There are two types of modules:

Caution

Before installing your modules,
see the Maximum 6800+ Frame
Power Ratings chart at the
beginning of this chapter.

• Double-slot back connectors

• Front modules

Back connectors for this module come in the double-slot size. Up to ten
front modules can fit in an FR6802+ frame if they are connected to
double-slot back connectors (two spaces are required to accommodate
the extra width of the back connector).

You can install most 6800+ modules in any unused slot without
interfering with other frame functions.

Making Connections

Once you have installed the ENC/ENS6800+ module, you can connect
it to the appropriate input and outputs. See Figure 1-2 on page 6 and

Figure 1-3 on page 7.

Chapter 2: Installation

Removing 6800+ Modules

To remove a module from an FR6802+ or 6800/7000 series frame,

Note

Modules are hot-swappable and
can be removed or replaced
without powering down the
frame.

follow these steps:

1. Pull out the finger-release screws on the right and left side of the

front panel, and then open it.

2. Grasp the extractor handle on the installed module, and then pull

the module out of its slot using the handle as a lever.

3. Close the front panel to ensure proper frame ventilation.

4. Remove the back connector from an FR6800+ frame in this way:

a. Unscrew the top of the corresponding back connector, and tip it

towards you.

ENC/ENS6800+ Installation and Operation Manual 15

Chapter 2: Installation

Caution

b. Pull the bottom lip of the back connector from its slot.

c. Reinstall a new or blank back connector in the empty slot to

ensure proper frame ventilation.

To prevent overheating during
general frame operation and
maintain proper airflow, keep
the front panel closed and all
back connector slots covered
during operation.

5. Remove the back connector overlay from the back panel of a
6800/7000 series frame. Replace with a new back connector
overlay, if required.

16 ENC/ENS6800+ Installation and Operation Manual

Overview

Chapter 3

Operation

This chapter describes how to operate the ENC/ENS6800+ using
card-edge controls only. See the following documents for information
on how to operate this product remotely:

• +Pilot Lite User Manual for serial interface

• CCS Pilot, CoPilot, Navigator, or RCP-CCS-1U Remote Control

Panel manual for Ethernet interface

The following topics are discussed in this chapter:

• “Operating Notes” on page 18

• “LEDs and Alarms” on page 30

• “Changing Parameter Settings” on page 20

• “Setting ENC/ENS6800+ Control Parameters” on page 22

• “LEDs and Alarms” on page 30

ENC/ENS6800+ Installation and Operation Manual 17

Chapter 3: Operation

Operating Notes

When setting the control parameters on the ENC/ENS6800+, observe
the following:

• If you make changes to certain parameters, other related parameters

• When you change a parameter, the effect is immediate. However,

may also be affected. See “Cross-Functional Parameter Changes”

on page 19 for more information.

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.

18 ENC/ENS6800+ Installation and Operation Manual

Chapter 3: Operation

Cross-Functional Parameter Changes

When you configure certain parameters, you force a change in other
associated parameters. The following table lists the secondary changes
that occur when you make these parameter selections.

Table 3-1. Cross-Functional Parameter Changes

Parameter Option Affected Parameter Change

SDI Video Standard 525 H Phase (ENS6800+ only) Range is 0-63.518 µs

V Phase (ENS6800+ only) Range is 0-524 Ln

Black Level Enabled

Setup Enabled

Setup Starting Line Enabled

VBI Lines 6, 7, 8, 9, 22, and 23Disabled

625 H Phase (ENS6800+ only) Range is 0-63.963 µs

V Phase (ENS6800+ only) Range is 0-624 Ln

Black Level Disabled

Setup Disabled

Setup Starting Line Disabled

VBI Lines 6, 7, 8, 9, 22, and 23Enabled

Frame Sync Mode (ENS6800+
only)

XCR Block (ENS6800+ only) Remove XCR Enable, XCR Filter Disabled

VBI Field Field 1 VBI Filter (All Lines) Affects Field 1

Delay Fine Phase Disabled

Sync Fine Phase Enabled

Insert XCR Enable, XCR Filter Enabled

Field 2 VBI Filter (All Lines) Affects Field 2

ENC/ENS6800+ Installation and Operation Manual 19

Chapter 3: Operation

Changing Parameter Settings

Follow these steps to change the ENC/ENS6800+ parameter settings:

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.

See Table 3-2 “Parameter Options” to view the various banks, hex
switch positions, and corresponding parameter options and values.

Table 3-2. Selected Bank as Indicated by Control LEDs

LED D2 LED D1 Bank Number

Off Off 0

Note

For best results, use the
available 6800+ software
control options (serial/local or
Ethernet/remote) to aid in
viewing, setting, and confirming
parameter values.

Off On 1

On Off 2

On On 3

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

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

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

or

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

20 ENC/ENS6800+ Installation and Operation Manual

Recalling Default Parameter Settings

Table 3-2 “Parameter Options” describes all of the parameter settings

for the ENC/ENS6800+, including the original factory defaults. To
return this module to its default settings, you can either reset each
parameter individually or do a global recall following this 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.

3. Rotate the hex switch to the global recall parameter “F.”

4. Toggle the navigation switch to “On.”

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

Chapter 3: Operation

Reading Software and Hardware Versions

The current software version of your ENC/ENS6800+ module can only
be viewed using a CCS-enabled control panel or a CCS software
application, such as Pilot or +Pilot Lite. See your RCP-CCS-1U
Installation and Operation Manual, CCS software application user
manual, or CCS software application online help for information on
viewing software and hardware version numbers.

ENC/ENS6800+ Installation and Operation Manual 21

Chapter 3: Operation

Setting ENC/ENS6800+ Control Parameters

The following table lists all of the available parameters and options for

Note

the ENC/ENS6800+. All parameters clip unless otherwise indicated.

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” on page 20
for more information.

Legend

Bold option=Indicates that this is the default setting for the parameter

[RO]=Indicates that parameters are read-only/feedback, and cannot be

Note

Bank 1 parameter options
are available for selection on
ENS6800+ modules only.

used to select controls

All parameters clip unless otherwise noted.

Table 3-3. Card-Edge Parameter Options— ENC/ENS6800+ Modules

Bank,
Rotary

Parameter Name Function Parameter Option

Switch

0, 0 Bank Select Selects a bank

• Bank 0

• Bank 1

• Bank 2

• Bank 3

(These parameters wrap)

0, 1 SDI Video Standard Selects the video standard input

0, 2 For Future Use

0, 3 Black Level Adjusts the picture brightness ±7.5 IRE

0, 4 Luma Gain Adjust the luminous intensity of the

video signal

0, 5 Chroma Gain Adjusts the picture color saturation ±3.0 dB

22 ENC/ENS6800+ Installation and Operation Manual

•625

•525

•Auto

(0 IRE)

±3.0 dB

(0 dB)

(0 dB)

Chapter 3: Operation

Table 3-3. Card-Edge Parameter Options— ENC/ENS6800+ Modules(Continued)

Bank,
Rotary

Parameter Name Function Parameter Option

Switch

0, 6 Chroma Phase Adjust the chroma phase with respect to

burst

0, 7 Video Output Standard

Set

0, 8 Active Video Setup Controls the addition of the SETUP (7.5

0, 9 Setup Starting Line Selects the start of the active video line

Sets the video standard for the
Composite output

IRE) pedestal signal to the active video
lines in 525 line standard for the analog
video output

where the SETUP (7.5 IRE) pedestal is
being applied in 525 line standard for
the analog video output

±180°

(0°)

•NTSC
(525 LED is
green)

(525: NTSC)

•PAL-M
(525 LED is
orange)

•PAL-B

(625: PAL-B)

•Off

•On

10-22 Ln

(22 Ln)

0, A For Future Use

0, B Fine Phase (ENS6800+

only)

0, C SCH Offset Controls the SCH offset for the

0, D Reference Input Select Selects the reference input source

ENC/ENS6800+ Installation and Operation Manual 23

Adjusts the output timing in fine
increments

composite video output to properly
construct the color framing sequence

This parameter works in conjunction
with the J1 Local/Frame jumper setting.

See “Setting Jumper J1 for Genlock

Source” on page 13 for more

information.

±45°

(0°)

• PAL-M/B: 0°, 90°,
180°, 270°

•NTSC:
0°, 180°

(0°)

•Genlock 2
(625 on overlay)

•Genlock
1/Frame
(525 on overlay)

•Auto

Chapter 3: Operation

Table 3-3. Card-Edge Parameter Options— ENC/ENS6800+ Modules(Continued)

Bank,
Rotary

Parameter Name Function Parameter Option

Switch

0, E Genlock Mode Selects the Genlock mode

0, F Factory Recall Recalls the factory settings

Note: Bank 1 parameter options are available for selection on ENS6800+.

1, 0 Bank Select Selects a bank

1, 1 Vertical Phase

(ENS6800+ only)

Adjusts the vertical timing

• Free Run

• Mono Lock

•Burst

•Auto

• Bank 0

• Bank 1

• Bank 2

• Bank 3

(These parameters wrap)

• 0 to 524 Ln
D1-525

• 0 to 624 Ln
D1-625

(0 ln)

(These parameters wrap)

1, 2 Horizontal Phase

(ENS6800+ only)

1, 3 - 4 For Future Use

1, 5 Frame Sync Mode

(ENS6800+ only)

1, 6 Freeze Type

(ENS6800+ only)

1, 7 Freeze Enable

(ENS6800+ only)

24 ENC/ENS6800+ Installation and Operation Manual

Adjusts the horizontal timing

Selects the operational mode for the
Frame Synchronizer

Selects the output video mode when the
input video is disrupted

Forces the output video to freeze

• 0 to 63.518µs D1-525

• 0 to 63.963µs D1-625

0 µs

(These parameters wrap)

• Delay Mode

• Sync Mode

•Field 1

•Field 2

• Frame

• Disabled

•Enabled

Chapter 3: Operation

Table 3-3. Card-Edge Parameter Options— ENC/ENS6800+ Modules(Continued)

Bank,
Rotary

Parameter Name Function Parameter Option

Switch

1, 8 Loss of Video Output

(ENS6800+ only)

1, 9 Test Signal Select

(ENS6800+ only)

1, A Test Signal Enable

(ENS6800+ only)

1, B For Future Use

1, C XCR Function Block

(ENS6800+ only)

1, D XCR Function Enable

(ENS6800+ only)

1, E XCR Filter Select

(ENS6800+ only)

Selects the output video mode when the
input video is disrupted

Selects the type of internal test signal

Controls the activation of the internal
test signal generator

Controls the insertion of the cross-color
reduction circuit in the signal
processing path (not applicable to
PAL-B)

Controls the activation of cross-color
reduction (not applicable to PAL-B)

Selects the type of cross-color reduction
(not applicable to PAL-B)

•Pass

• Black

• Freeze

•Color Bars

• Mod Ramp

• MultiBurst

•Pulse & Bars

•Off

•On

• Remove

• Insert

• Disabled

•Enabled

• Filter 1

• Filter 2

• Filter 3

1, F For future Use

Table 3-4. Card Edge Parameter Options—Groups 2 and 3 (D1-525)

Bank,
Rotary

Parameter Name Function Parameter Option

Switch

2, 0 Bank Select Selects a bank

2, 1 Field Select Selects a field for parameters in groups

2 and 3

ENC/ENS6800+ Installation and Operation Manual 25

• Bank 0

• Bank 1

• Bank 2

• Bank 3

(These parameters wrap)

• Field 1

•Field 2

Chapter 3: Operation

Table 3-3. Card-Edge Parameter Options— ENC/ENS6800+ Modules(Continued)

Bank,
Rotary

Parameter Name Function Parameter Option

Switch

2, 2 Line 10 VBI Selects the processing mode for this

VBI line

2, 3 Line 11 VBI Selects the processing mode for this

VBI line

2, 4 Line 12 VBI Selects the processing mode for this

VBI line

2, 5 Line 13 VBI Selects the processing mode for this

VBI line

2, 6 Line 14 VBI Selects the processing mode for this

VBI line

2, 7 Line 15 VBI Selects the processing mode for this

VBI line

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

2, 8 Line 16 VBI Selects the processing mode for this

VBI line

2, 9 Line 17 VBI Selects the processing mode for this

VBI line

2, A Line 18 VBI Selects the processing mode for this

VBI line

2, B Line 19 VBI Selects the processing mode for this

VBI line

26 ENC/ENS6800+ Installation and Operation Manual

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

Chapter 3: Operation

Table 3-3. Card-Edge Parameter Options— ENC/ENS6800+ Modules(Continued)

Bank,
Rotary

Parameter Name Function Parameter Option

Switch

2, C Line 20 VBI Selects the processing mode for this

VBI line

2, D Line 21 VBI Selects the processing mode for this

VBI line

2, E-F For Future Use

3, 0 Bank Select Selects a bank

3, 1-F For Future Use

Table 3-5. Card-Edge Parameter Options—Groups 2 and 3 (D1-625)

2, 0 Bank Select Selects a bank

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

• Bank 0

• Bank 1

• Bank 2

• Bank 3

(These parameters wrap)

• Bank 0

• Bank 1

• Bank 2

• Bank 3

(These parameters wrap)

2, 1 Field Select Selects a field for parameters in groups

2 and 3

2, 2 Line 6 VBI Selects the processing mode for this

VBI line

2, 3 Line 7 VBI Selects the processing mode for this

VBI line

2, 4 Line 8 VBI Selects the processing mode for this

VBI line

ENC/ENS6800+ Installation and Operation Manual 27

• Field 1

•Field 2

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

Chapter 3: Operation

Table 3-3. Card-Edge Parameter Options— ENC/ENS6800+ Modules(Continued)

Bank,
Rotary

Parameter Name Function Parameter Option

Switch

2, 5 Line 9 VBI Selects the processing mode for this

VBI line

2, 6 Line 10 VBI Selects the processing mode for this

VBI line

2, 7 Line 11 VBI Selects the processing mode for this

VBI line

2, 8 Line 12 VBI Selects the processing mode for this

VBI line

2, 9 Line 13 VBI Selects the processing mode for this

VBI line

2, A Line 14 VBI Selects the processing mode for this

VBI line

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

2, B Line 15 VBI Selects the processing mode for this

VBI line

2, C Line 16 VBI Selects the processing mode for this

VBI line

2, D Line 17 VBI Selects the processing mode for this

VBI line

2, E Line 18 VBI Selects the processing mode for this

VBI line

28 ENC/ENS6800+ Installation and Operation Manual

• Pass

• Luma only

•Blank

• Pass

• Luma Oonly

•Blank

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

Chapter 3: Operation

Table 3-3. Card-Edge Parameter Options— ENC/ENS6800+ Modules(Continued)

Bank,
Rotary

Parameter Name Function Parameter Option

Switch

2, F For Future Use

3, 0 Bank Select Selects a bank

3, 1 Line 19 VBI Selects the processing mode for this

VBI line

3, 2 Line 20 VBI Selects the processing mode for this

VBI line

3, 3 Line 21 VBI Selects the processing mode for this

VBI line

3, 4 Line 22 VBI Selects the processing mode for this

VBI line

• Bank 0

• Bank 1

• Bank 2

• Bank 3

(These parameters wrap)

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

• Pass

• Luma only

•Blank

3, 5 Line 23 VBI Selects the processing mode for this

For Future Use

ENC/ENS6800+ Installation and Operation Manual 29

VBI line

• Pass

• Luma only

•Blank

Chapter 3: Operation

LEDs and Alarms

Monitoring LEDs

The ENC6800+ has five monitoring LEDs and ENS6800+ has seven
monitoring LEDs that serve as a quick monitoring reference. Figure 3-1
shows the general location of the monitoring LEDs on a generic 6800+
module. Table 3-6 describes each LED in more detail.

Figure 3-1. Location of ENC/ENS6800+ LEDs

30 ENC/ENS6800+ Installation and Operation Manual

Chapter 3: Operation

Table 3-6. Monitoring LEDs

LED Color Indications Meaning

525 Off Selected input standard is

not D1-525

Flashing Green Selected input standard is

NTSC; valid D1-525 video
is not detected

Green Selected input standard is

NTSC; valid D1-525 video
is present

Flashing Orange Selected output standard is

PAL-M; valid D1-525 video
is not detected

Orange Selected output standard is

PAL-M; valid D1-525 video
is present

Auto Off Auto detection of the SDI

input standard is not active

Green Auto detection of the SDI

input standard is active

625 Off Selected input standard is

not D1-625

Flashing Green Selected output standard is

PAL-B; valid D1-625 video
is not present

Green Selected output standard is

PAL-B; valid D1-625 video
is present

EDH Off EDH is not present

Green EDH is present

ENC/ENS6800+ Installation and Operation Manual 31

Chapter 3: Operation

Table 3-6. Monitoring LEDs (Continued)

LED Color Indications Meaning

Genlock Off Either the Genlock Mode

parameter is set to Free Run
or the Frame Sync Mode
parameter is set to Delay

Mode

Flashing Green Frame Sync Mode is set to

Sync Mode and Genlock
Mode is not set to Free
Run, but the module’s

output is not locked to
reference video

Green The module’s output is

locked to reference video

Freeze
(ENS6800+ only)

TSG
(ENS6800+ only)

Module Status LEDs

The ENC/ENS6800+ modules do not have any card-edge alarms.
Instead, module status LEDs on the corner of the module light up if an
error is detected. See Figure 3-1 for the location of these LEDs, and

Table 3-7 for a definition of the LED colors.

Off The module’s output is not

frozen

Green The module’s output is

frozen

Off The module’s test signal

generator is not active

Green The module’s test signal

generator is active

32 ENC/ENS6800+ Installation and Operation Manual

Note

If the LED is flashing red,
please contact your customer
service representative.

Chapter 3: Operation

Alarms are usually logged and monitored within available software
control applications (for example, +Pilot Lite or Pilot). See the
appropriate software control user manual or online help for more
information.

Table 3-7. Module Status LED Descriptions

LED Color Sequence 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.

Alarms

Amber The module is undergoing configuration.

Table 3-8 describes the specific alarms for the ENC/ENS6800+. You
can only identify specific alarms using a software control application.

Table 3-8. Alarm Definitions

Alarm Name Alarm Description

Loss of SDI Indicates SDI video input is missing Major

Loss of
Reference_Locked

Indicates that Frame Sync Mode is
set to Sync Mode and Genlock mode
is not set to Free Run, but the
module’s output is not locked to
reference video

Alarm
Level

Major

ENC/ENS6800+ Installation and Operation Manual 33

Chapter 3: Operation

34 ENC/ENS6800+ Installation and Operation Manual

Overview

Chapter 4

Specifications

The following specification tables appear in this chapter:

• “Video Input” on page 36

• “Video Output” on page 37

• “Power Consumption” on page 38

Specifications and designs are subject to change without notice.

ENC/ENS6800+ Installation and Operation Manual 35

Chapter 4: Specifications

Video Input

Serial Digital Video

Table 4-1. Serial Digital Video Input

Item Specifications

Standard SMPTE 259M-C, 270 Mbps, 525/625 component

Connector BNC per IEC 169-8

Impedance 75Ω

Return loss >18 dB to clock frequency

Signal level 800 mV ±10%

CMR voltage 30 V p-p, up to 60 Hz

Equalization Automatic up to: >23 dB, 259M-C (typical)

Reference Input

Table 4-2. Reference Video Input

Item Specifications

Level 1 V pk-to-pk

Signal type Analog composite NTSC/PAL-B

Connector BNC

Impedance 75Ω

Return loss >40 dB (typical) to 6 MHz

36 ENC/ENS6800+ Installation and Operation Manual

Video Output

Composite Analog

Chapter 4: Specifications

Table 4-3. Composite Analog Video Output

Item Specifications

Standards NTSC, PAL-B, PAL-M

Impedance 75Ω

Return loss >40 dB to 5.75 MHz

Quantizing 12 bits

Frequency response ±0.15 dB to 5.5 MHz

Differential gain <1% (typically <0.5%)

Differential phase <1° (typically <0.5°)

DC offset ±50 mV

Chroma/luma delay <1.5 ns

Chroma/luma gain ±1.5%

Transient response <0.5% K factor

Line time distribution 0.1%

Signal to noise >60 dB rms with bandwidth 10 kHz to full

Adjustable vertical
blanking

• 10 to 21 lines for NTSC for both fields
(Field 2: 272 to 283)

• 6 to 23 lines for PAL for both fields
(Field 2: 318 to 335)

ENC/ENS6800+ Installation and Operation Manual 37

Chapter 4: Specifications

Serial Digital Video

Table 4-4. Serial Digital Video Output

Data I/O Output

Item Specifications

Standard SMPTE 259M-C, 270 Mbps, 525/625 component

Connector BNC per IEC 169-8

Impedance 75Ω

Return loss >18 dB to clock frequency

Signal level 800 mV ±10%

DC offset 0 V ±0.5 V

Rise and fall times 0.75 ns to 1.5 ns

Table 4-5. Data I/O Output

Item Specification

Output ports 1

Connector BNC per IEC 169-8

Impedance 75Ω

Power Consumption

Table 4-6. Power Consumption

Module Power Consumption

ENC6800+ 6.7 W

ENS6800+ 7.5 W

38 ENC/ENS6800+ Installation and Operation Manual

Operating Temperature

The operating temperature for ENC/ENS6800+ modules is 41° to
113°F (5° to 45°C).

Chapter 4: Specifications

ENC/ENS6800+ Installation and Operation Manual 39

Chapter 4: Specifications

40 ENC/ENS6800+ Installation and Operation Manual

)

Composite Encoder Filter

Appendix A

Filters

NTSC/PAL-M Pass Filter

Luminance

This filter is an “all pass” filter. No digital filtering is done on the
composite encoder. It is up to the user to supply a suitable signal that
corresponds to the user’s encoder application. This is very important
when the signal is being fed to a bandwidth-limited channel.

Chrominance

These filters are designed to the original RS-170A “I” specifications.

Filter specifications:

• <2 dB down at 1.3 MHz

• >20 dB down after 3 MHz

0

-5

-10

Level (dB)

-15

-20

-25

-30

00.511.5 22.53

Freq (MHz

ENC/ENS6800+ Installation and Operation Manual 41

Figure A-1. NTSC/PAL-M Studio Cr/Cb Filter

Appendix A: Filters

PAL-B Pass Filter

Luminance

Chrominance

0

-5

This filter is an “all pass” filter. No digital filtering is done on the
composite encoder. It is up to the user to supply a suitable signal that
corresponds to the user’s encoder application. This is important when
the signal is being fed to a bandwidth-limited channel.

Filter specifications (same as Tx filter):

• <3 dB down before 1.3 MHz

• >20 dB down after 4 MHz

Level (dB)

-10

-15

-20

0 0.5 1 1.5 2 2.5 3

Fr e q ( M Hz)

Figure A-2. PAL-B Studio Cr/Cb Filter

42 ENC/ENS6800+ Installation and Operation Manual

Cross-Color Reduction Filter

This section describes the cross-color reduction filters that are available
for the ENS-6804 board. The filter responses and characteristics are
limited to the structure of the custom FIR filter ASIC. These are 12-bit
coefficients with 15-tap folded FIR.

Filter Summary

The implementation of each Cross-Color Reduction filter consists of two
filters: a vertical high pass filter and a horizontal high pass filter. The
frequency response of the vertical HPF is fixed and is
non-programmable, while the horizontal HPF is programmable.

Table A-1 summarizes the selectable horizontal high pass filters. The
values are the approximate bandwidths for the application. Examine the
filter plots for greater detail.

Appendix A: Filters

Table A-1. Bandwidth of Cross-Color Reduction Filters

Horizontal Pass Filters Cutoff Frequency

Filter 1 6.0 MHz

Filter 2 5.8 MHz

Filter 3 5.0 MHz

ENC/ENS6800+ Installation and Operation Manual 43

Appendix A: Filters

Vertical High Pass Filter Frequency Response

Figure A-3. XCR Vertical High Pass Filter Frequency Response

Horizontal High Pass Filters

Filter 1

Figure A-4. XCR Filter 1 High Pass Filter Frequency Response

44 ENC/ENS6800+ Installation and Operation Manual

Filter 2

Appendix A: Filters

Filter 3

Figure A-5. XCR Filter 2 High Pass Filter Frequency Response

ENC/ENS6800+ Installation and Operation Manual 45

Figure A-6. XCR Filter 3 High Pass Filter Frequency Response

Appendix A: Filters

46 ENC/ENS6800+ Installation and Operation Manual

ENC/ENS6800+ Troubleshooting

Overview

Appendix B

The following checklists will help you solve some of the most
commonly seen issues.

It is split into the following two sections:

• “Genlock Issues” on page 48

• “Output Issues” on page 51

For best results, use + Pilot Lite software to check settings and
parameters if housed inside an FR6802+ frame. + Pilot Lite software is
installed on a PC that connects to the 6800+ frame via the serial port
connector at the rear of the frame, and can be downloaded from

www.broadcast.harris.com/leitch

connect between the PC and the 6800+ frame.

. Use a null modem RS-232 cable to

ENC/ENS6800+ Installation and Operation Manual 47

Appendix B: ENC/ENS6800+ Troubleshooting

Genlock Issues

If the ENC/ENS6800+ cannot lock to genlock, proceed through the
following checklist:

1. Check that the Reference Input Select parameter is properly set.

Note

There are three choices:

Although the ENC6800+ does
not have a frame synchronizer,
it still uses the Genlock input for
correct color framing on the
composite outputs.
The ENC6800+ cannot be
upgraded to an ENS6800+ in
the field.

• Genlock 1/Frame Genlock - When this setting is chosen, the
genlock source must come from either the Genlock 1 input
(labelled 525) of the back module or from the FR6802+ frame
genlock input. This is determined by the position of jumper J1
on the ENC/ENS6800+ module.

Set to pins 1 and 2 for Genlock 1 input and pins 2 and 3 for
FRAME input, as shown below.

Figure B-1. Genlock Mode Jumper Locations and
Settings

Note

The back module has Genlock 1
labeled 525 and Genlock 2
labeled 625. Despite this
inaccurate labeling, Genlock 1
can accept an NTSC, PAL-M or
PAL-B reference and is not
limited to NTSC only as the
labeling implies. The same is
true for the Genlock 2 input.

48 ENC/ENS6800+ Installation and Operation Manual

• Genlock 2 - If this setting is chosen the genlock source will be
taken from the Genlock 2 input (labelled 625) of the back
module and is independent of the jumper‘ setting.

• Auto - If this setting is chosen, the genlock source will vary
between Genlock 1/Frame and Genlock 2 genlock. Use this
setting if the card is expected to auto-switch between an NTSC
or PAL-M reference and a PAL-B reference based on the video
input. In this case an NTSC reference would be applied one
Genlock input and a PAL-B reference applied to the other. Then
when the input signal changes between NTSC and PAL-B, the
genlock will automatically switch to the appropriate genlock

Note

Appendix B: ENC/ENS6800+ Troubleshooting

source. Remember that the jumper determines whether
Genlock 1 or the Frame is the source of the second genlock
input (see Figure B-1 on page 48).

When the genlock input is valid, the D7 Genlock LED on the card
edge will turn green.

The same type of genlock
format (NTSC, PAL-M, or
PAL-B) should never be applied
to both genlock input sources at
the same time.

Note

Bent pins may also cause
communications issues with
Pilot Lite, Pilot or Navigator.

2. (ENS6800+ only) Check that the Frame Sync Mode parameter is
set to Sync mode. If this parameter is set to Delay, it will not
synchronize the video to the genlock reference.

3. Check that the Genlock Mode parameter is not set to Free Run
mode. If this parameter is set to Free Run, the video will not
synchronize to the genlock reference.

4. Check that the SDI Video Standard parameter is set to the correct
standard for the current video input. This parameter is normally left
in Auto mode where it will automatically switch between 525 and
625 SDI video standards as the input changes. However if this is
forced into 525 or 625, then the genlock input must match the
chosen standard. For example, if 625 mode is selected but an NTSC
reference is present on the genlock input, the unit will not genlock
or synchronize.

5. If the first four items are correct on your module, the next thing to
check is the back module. Follow these steps:

a. Unplug the front module.

b. Unscrew and remove the back module.

ENC/ENS6800+ Installation and Operation Manual 49

Appendix B: ENC/ENS6800+ Troubleshooting

c. Check that the 20 pin spring connector at the bottom of the

back module does not have any bent or pressed in pins. (See

Figure B-2.) Even a slightly depressed or bent pin may cause

genlock issues.

20-pin connector

Figure B-2. Back Module to Front Module Connector

d. If there are bent pins carefully re-position them to their correct

positions.

If this is not possible then the back module can be exchanged
for a new one. Use part number ENC/ENS6800+DR.

6. If the ENC/ENS6800+ can still not be genlocked, attempt doing a

Factory Recall on the module.

50 ENC/ENS6800+ Installation and Operation Manual

Output Issues

Appendix B: ENC/ENS6800+ Troubleshooting

If the SDI output has issues such as no output, unstable output or frozen
output, proceed with the following checklist.

1. Check that the Video Output Standard Set parameter is set
correctly. If a 525 SDI input is present, then the valid output
standard choices are NTSC or PAL -M. If PA L-B is c hos en b ut
NTSC is desired, the module will not pass good video.

2. (ENS6800+ only) - If the video output appears to be frozen, check
that the Freeze Enable parameter is not set to Enable. When this
parameter is set to Enable, the ENS6800+ will freeze the last video
frame or field that was received.

3. (ENS6800+ only) - If the video output appears to be stuck on a test
pattern, check that the Test Signal Enable parameter is not
enabled.

4. If Closed Captioning on Line 21 does not appear to be picked up by
CC decoders or is intermittent, ensure that the Line 21 VBI
parameters are set to Luma only. This bypasses any cross color
artifacts that may occur.

a. First go to the Field Select parameter and select Field 1.

b. Go to the Line 21 VBI parameter and select Luma only.

c. If there is Closed Caption 2 (CC 2) on Field 2 then go back to

the Field Select parameter and choose Field 2 and repeat step b.

If the CC decoder still has problems decoding the closed
captioning, check that there is no setup on Line 21. Go to the Setup
Starting Line parameter and set it to 22 so that setup is not added
to Line 21.

5. If the output is still not valid, try doing a Factory Recall.

6. Check the Module Status LED on the card edge. If it is flashing red,
there is a likely hardware or firmware fault. Contact Customer
Service.

If after going through this checklist the ENC6800+ or ENS6800+
module still does not operate as expected, contact customer service for
further assistance. Send an email to service@leitch.com

.

ENC/ENS6800+ Installation and Operation Manual 51

Appendix B: ENC/ENS6800+ Troubleshooting

52 ENC/ENS6800+ Installation and Operation Manual

Appendix C

Communication and Control

Troubleshooting Tips

Overview

Find the following troubleshooting information in this appendix:

• “General Troubleshooting Steps” on page 54

• “Software Communication and Control Issues” on page 55

• “Hardware Communication and Control Issues” on page 59

• “Contacting Customer Service” on page 59

ENC/ENS6800+ Installation and Operation Manual 53

Appendix C: Communication and Control Troubleshooting Tips

General Troubleshooting Steps

Follow these steps in troubleshooting 6800+ product problems:

1. Review the “Software Communication and Control Issues” on

page 55 outlined in this chapter.

2. Search this product manual and other associated documentation for

Note

answers to your question.

Associated documentation for
6800+ series products can
generally be found in the
product-specific manual that
accompanies every module, in
the FR6802+ Frame

Installation and Operation
Manual, and in the 6800+
Safety Instructions and
Standards Manual.

Product documentation (including manuals, online help, application
notes, erratas, product release notes, and more) can be found on our
Web site at www.broadcast.harris.com/leitch

(Support section),
along with technical support information, training information,
product downloads, and the product knowledge base.

3. Contact your customer service representative if, after following
these initial steps, you cannot resolve the issue.

To contact customer service, see “Contacting Customer Service” on

page 59.

54 ENC/ENS6800+ Installation and Operation Manual

Appendix C: Communication and Control Troubleshooting Tips

Software Communication and Control Issues

• “+ Pilot Lite Fails to Communicate with Installed Modules” on

page 55

• “+ Pilot Lite Does Not Find All Modules in Frame” on page 56

• “+ Pilot Lite or CCS Software Application Not Responding” on

page 57

• “+ Pilot Lite Cannot Control a Module Showing

in the Control Window” on page 57

• “+ Pilot Lite Status Bar Reports ‘Not Ready’” on page 57

• “CCS Software Application or Remote Control Panel Does Not

Communicate with Module” on page 58

• “Alarm Query Fails When a Device Reboots” on page 58

+

Pilot Lite Fails to Communicate with Installed Modules

Confirm that the following items are not the reason for the
communication failure:

• Proper module slot has not been specified (+ Pilot Lite is not

communicating with the appropriate slot). See your FR6802+
Frame Installation and Operation Manual for more information on
slot identification.

• COM port is used elsewhere (Check that the correct COM port is

configured in + Pilot Lite and that another application is not using
that COM port).

• Actual frame ID does not match with the two DIP switch settings in

the back of the frame (+ Pilot Lite is not communicating with the
proper frame). See your FR6802+ Frame Installation and
Operation Manual for more information on frame ID switch
settings.

• A null modem cable is not being used. Between the PC running

+ Pilot Lite and the FR6802+ frame, there should be a null RS-232
modem cable. At minimum, this requires that pins 2 and 3 are
crossed and 5 to 5 for ground.

ENC/ENS6800+ Installation and Operation Manual 55

• ICE6800+ module is installed in the frame (+ Pilot Lite control is

disabled if an ICE6800+ module is installed in the frame;
ICE6800+ modules are used for CCS control).

Appendix C: Communication and Control Troubleshooting Tips

• A legacy 6800 series product is in the frame. + Pilot Lite cannot
communicate with legacy 6800 series products. They will not be
discovered or controlled by + Pilot Lite, although they can be
installed in the FR6802+ frame and work using card edge controls.
The module must be from the 6800+ product family.

• Check that the back module does not have any bent pinsFollow this
procedure:

a. Unplug the front module.

b. Unscrew and remove the back module.

c. View the 20-pin spring connector at the bottom of the back

module. See Figure C-1.

Figure C-1. Back Module to Front Module Connector

This connector should not have any bent or pressed pins. Even
a slightly depresssed or bent pin may cause genlock issues.

d. If there are bent pins, carefully re-position them to their correct

positions.

If this is not possible, then a back module can be exchanged for
a new one.

+

Pilot Lite Does Not Find All Modules in Frame

If a discovery is started too soon after frame power-up, + Pilot Lite will
not find all the installed modules. Refresh + Pilot Lite (File >
Refresh), and ensure that installed modules are fully powered-up
before discovery.

20-pin connector

56 ENC/ENS6800+ Installation and Operation Manual

Appendix C: Communication and Control Troubleshooting Tips

If a module is plugged into the frame after a discovery, + Pilot Lite
does not automatically detect the module. Refresh + Pilot Lite (File >
Refresh) to discover the newly installed module.

If a Legacy 6800 series product is in the frame, + Pilot Lite will not
detect it. + Pilot Lite cannot communicate with legacy 6800 series
products. Although they can be installed in the FR6802+ frame and
work using card edge controls, they will not be discovered or controlled
by + Pilot Lite. For + Pilot Lite to find a module, it must be from the
6800+ product family.

+

Pilot Lite or CCS Software Application Not Responding

+ Pilot Lite and CCS applications such as Navigator or Pilot cannot run
on the same PC at the same time. Both applications can be installed, but
only one can be opened at a time.

+

Pilot Lite Cannot Control a Module Showing

in the Control Window

Consider these questions:

• Did you physically set the jumper for local control? If so, set this

jumper to the REM position for remote control.

• Is the module properly seated in the frame, and in the right slot?

Check the positioning of the module in its slot in the frame.

• Does the Control window indicate the device is “ready”? The

device may be powered off or disconnected from the network. See

“+ Pilot Lite Status Bar Reports ‘Not Ready’” on page 57.

+

Pilot Lite Status Bar Reports ‘Not Ready’

+ Pilot Lite reports each device’s connection status in the status bar. If
the connection status message reads “Not Ready,” check the following:

• Is the module properly seated in the frame? Check the position of

the module in the frame.

• Is the frame connected to the network? Check the device’s network

connection. For + Pilot Lite, an RS-232 null modem cable is
required between the PC and the FR6802+ frame.

ENC/ENS6800+ Installation and Operation Manual 57

If the status bar still reports no status or “Not Ready” for the frame or
device, try restarting + Pilot Lite.

Appendix C: Communication and Control Troubleshooting Tips

CCS Software Application or Remote Control Panel Does
Not Communicate with Module

CCS software applications (such as Pilot, CoPilot, and Navigator) and
remote control panels require the purchase and installation of an
ICE6800+ module in an FR6802+XF frame in order to communicate
remotely via Ethernet.

Alarm Query Fails When a Device Reboots

When you reboot a device connected to your PC, the alarm traffic and
status update messages may cause an alarm query request to time out
and fail. While the query does not automatically retry, it will post an
“Alarm query failed” message to the Diagnostics window.

To clear an “Alarm query failed” message, right-click inside
the Diagnostics window, and then select Refresh from the resulting
context menu.

58 ENC/ENS6800+ Installation and Operation Manual

Appendix C: Communication and Control Troubleshooting Tips

Hardware Communication and Control Issues

• “Frames Fail to Communicate with the PC after a Power Failure”

on page 59

• “Module Does Not Seem to Work” on page 59

Frames Fail to Communicate with the PC after a Power
Failure

Have you exited the software and restarted since the frame recovered
from its power failure? To restore communications between the PC and
the frames, ensure that the frames have three or more minutes to recover
from the power failure before you exit the application and restart the
PC.

Module Does Not Seem to Work

Although the following troubleshooting tips may seem obvious, please
take the time to ensure the following:

• All appropriate rear connections are securely made

• The board is securely installed (with no bent pins)

• The frame is turned on

Contacting Customer Service

We are committed to providing round-the-clock, 24-hour service to our
customers around the world. Visit our Web site at

www.broadcast.harris.com/leitch

customer service team in your geographical region.

for information on how to contact the

ENC/ENS6800+ Installation and Operation Manual 59

Appendix C: Communication and Control Troubleshooting Tips

60 ENC/ENS6800+ Installation and Operation Manual

Index

Symbols

Keywords

525 input 48
625 input 48
6800/7000 series frames 11

A

active bank number 22
active video setup 23
Adjustable vertical blanking 37
alarm query 58
alarms 30
analog composite 36
analog signal 2
application not responding 57
associated parameters 19
audio synchronizers, compatible 2
audio tracking signal 2
auto genlock select 48
available parameters 22

, 33, 58

B

back connector 6, 7, 11, 50
Bank Select 22
black 2
BNC connector 36

, 3, 22

C

chroma gain 22
chroma phase 23
Chroma/luma delay 37
Chroma/luma gain 37
chrominance 2
CJ1 jumper 12
clip 22
Closed Captioning 51
CMR voltage 36
color bars 3
compatibility 57
compatible audio synchronizers 2
composite analog signal 2
Composite Analog video output 37
Composite Encoder Filter 41
composite outputs 2
connections 15
Connector 36
contacting customer service 59
control LEDs 5
control problems 57
controls 4
Cr/Cb Filter 42
cross color artifacts 51
cross-color reduction 2

circuit 25

filter 43
cross-functional parameter changes 19
customer service, contacting 59

, 3, 41

, 38

, 20

card edge operation 17
CCS application 57
changing parameters 20

ENC/ENS6800+ Installation and Operation Manual 61

Index

D

Data I/O Output 38
DC offset 37
default parameter settings 21
Delay Mode 32
description, product 2
Differential gain 37
Differential phase 37
digital filtering 42
digital internal processing, over-sample rate 2
discovery failure 56
disrupted video 25

, 38

E

EDH 31
EDH detection 2
Encoder Filter 41
encoding 2
Equalization 36
external genlock 2

, 3

F

Factory Recall 24, 51
fail to communicate 59
Field Select 51
filters 43
Fine Phase 19
FIR filter 43
FR6802+ frames 9
Frame Genlock 48
frame genlock 2
Frame Sync Mode 19
Free Run 32
freeze 3
Freeze Enable 51
Frequency response 37
front module 11

, 23

, 3

, 32, 49

, 24

G

Genlock 48

input 2
mode 24
source 13

, 3

, 32

H

H Phase 19
hardware version 21
horizontal high pass filter 43
Horizontal Phase 24

I

ICE6800+ 2
Impedance 36
input level 36
input signal loss 3
input signal type 36
input standard 31
installation 9
installed modules 56
internal processing 2
internal processing rate 2
internal test signal 25
IO_delay output 14

, 38

, 15

J

JA jumper 13
JB jumper 14
jitter 2
jumper CJ1 12
jumper JA 13
jumper JB 14
jumpers 4

, 3

, 12

, 44

62 ENC/ENS6800+ Installation and Operation Manual

Index

L

LED locations 4
LEDs 30
Line 21 51
Line time distribution 37
local control 12
local mode 13
local/Remote control jumper 5
lock reference video 32
loss of input signal 3
Loss of Video Output 25
Luma Gain 22
Luma only 51
luminance 2

, 57

, 3, 41

M

making connections 15
Manual information vii
maximum allowable power ratings 10
mode select rotary switch 5
modulated ramp 3
module not found 56
module state 5
module status LEDs 5
modules, removing 15
monitoring LEDs 5
multiburst 3

–??, vii, ??–viii

, 32, 51

, 30

ports 38
standard 31
timing 23

video mode 25
outputs 2
over-sample rate 2

P

packing list 11
PAL-B Pass Filter 42
parameter

changes 19

settings 20
pass 3
Pass Filter 41
pedestal 2
Pilot Lite 2
pin spring connector 50
power

Precautions, safety xii
product description 2
Product servicing ix
pulse/bars 3

, 3

consumption 10

dissipation 10

failure 59

frame ratings 10

, 38

N

navigation toggle switch 5, 20
network connection 57
not ready status 57
NTSC/PAL-M pass filter 41

O

operating notes 18
operating temperature 39
operation 17
output

ENC/ENS6800+ Installation and Operation Manual 63

R

reboot device 58
recalling default parameter settings 21
reclocked outputs 2
reclocking SDI 14
reference 2
Reference Input Select 23
remote control 12
remote mode 13
removing modules 15
Return loss 36
Returning a product ix

, 3

, 48

, 57

, 38

Index

Revision history of the manual vii
Rise and fall times 38
RoHS-compliance x
rotary switch 20

S

Safety precautions xii
SCH offset 2
SDI outputs 2
SDI video standard 19
serial digital video 36

output 38

setup 19

pedestal signal 23

starting line 19
Shipping and unpacking a product ix
Shipping information ix
signal flow 8
Signal level 36
Signal to noise 37
software version 21
Specifications 35
Standards

RoHS compliance x

video 36

WEEE compliance xi
status not ready 57
Support documents viii
sync mode 19

, 3, 23

, 22

, 23

, 38

Transient response 37
troubleshooting 47
Tx filter 42
types of modules 15

–59

U

Unpacking and shipping a product ix
Unpacking information ix
unpacking modules 11
usable slots 10

V

V Phase 19
VBI lines 19
vertical blanking 3

control 2
vertical high pass filter frequency response 44
video input 36
video output 37

standard set 23
Video Output Standard Set 51
video reference lock 32
video standard 36

W

Warranty information ii
WEEE compliance xi
Writing conventions viii

T

temperature 39
test signal 3

select 25
Test Signal Enable 51
Trademarks and copyrights ii

64 ENC/ENS6800+ Installation and Operation Manual

X

XCR Block 19
XCR filter 25
XCR function 25

, 45

Broadcast Communications Division

4393 Digital Way | Mason, OH USA 45040 | Tel: 1 (513) 459 3400

www.broadcast.harris.com

Copyright © 2006 Harris Corporation

Harris and Leitch are registered trademarks of Harris Corporation. Trademarks and tradenames are the property of their respective companies.