Selenio 6800+TM OP+VTX - Imagine Communications · Imagine Communications considers this document...

Installation and Operation Manual

Selenio 6800+TM OP+VTXAnalog/SD/HD Audio and Video Transceiver

Edition C

175‐100498‐00

Publication Information© 2014 Imagine Communications Corp. Proprietary and Confidential.

Imagine Communications considers this document and its contents to be proprietary and

confidential. Except for making a reasonable number of copies for your own internal use, you

may not reproduce this publication, or any part thereof, in any form, by any method, for any

purpose, or in any language other than English without the written consent of Imagine

Communications. All others uses are illegal.

This publication is designed to assist in the use of the product as it exists on the date of

publication of this manual, and may not reflect the product at the current time or an unknown

time in the future. This publication does not in any way warrant description accuracy or

guarantee the use for the product to which it refers. Imagine Communications reserves the

right, without notice to make such changes in equipment, design, specifications, components,

or documentation as progress may warrant to improve the performance of the product.

Trademarks

SelenioTM and Selenio 6800+TM are trademarks 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 InformationImagine Communications has office locations around the world. For locations and contact

information see: http://www.imaginecommunications.com/contact‐us/

Support Contact InformationFor support contact information see:

Support Contacts: http://www.imaginecommunications.com/services/technical‐support/

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

http://support.imaginecommunications.com

http://www.imaginecommunications.com/services/technical-support/

iii

Contents

Preface ..........................................................................................................................v

Purpose ......................................................................................................................vAudience ....................................................................................................................vRevision History ..........................................................................................................v

References ................................................................................................................... viii

Chapter 1 Introduction.............................................................................................................. 1

Main Features ................................................................................................................ 1Typical Applications ...................................................................................................... 2

Chapter 2 Installation and Operation................................................................................ 3

Checking the Packing List .......................................................................................... 3Installation Overview ................................................................................................. 6Back Module Installation ............................................................................................ 6Front Module Installation ........................................................................................... 7Important Points ........................................................................................................ 8Back Module ........................................................................................................... 11Serial Pinouts ........................................................................................................... 12Weidmuller Pinouts ................................................................................................. 13

Activating OP+VTX Functions .................................................................................... 15Audio Source Selections .......................................................................................... 16Video Source Selections ........................................................................................... 17Ethernet Port Settings .............................................................................................. 17

Parameters ................................................................................................................... 18LEDs ........................................................................................................................ 24Alarms ..................................................................................................................... 26

Chapter 3 Specifications ........................................................................................................ 27

Laser Output ................................................................................................................ 27SD-SDI (270M) ......................................................................................................... 30HD-SDI Video (1.5G) ................................................................................................ 30Analog Composite Video ......................................................................................... 31

Contentsiv

Input ........................................................................................................................32Output .....................................................................................................................32Analog Audio to Analog Audio ................................................................................33EIA/TIA-232-E ..........................................................................................................34EIA/TIA-485 .............................................................................................................34

Ethernet .......................................................................................................................35

Appendix A Laser Safety Guidelines ....................................................................................37

Laser Safety .................................................................................................................37Precautions for Enclosed Systems .............................................................................38Precautions for Unenclosed Systems .........................................................................38

Label .............................................................................................................................39

Communication and Control Troubleshooting Tips .............................41

Index ...........................................................................................................................45

v

Preface

Manual Information

Purpose This manual details the features, installation procedures, operational procedures, and specifications of the OP+VTX Analog/SD/HD Audio and Video Transceiver.

Audience This manual is written for engineers, technicians, and operators responsible for the installation, setup, and operation of the OP+VTX Analog/SD/HD Audio and Video Transceiver.

RevisionHistory Table P-1 Manual Revision History

Edition Date Revision History

Edition A September 2010 Initial Release

Edition B March 2012 Update to signal flow diagram

Edition C November 2014 Update to pinouts diagram

Prefacevi

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

Obtaining DocumentsYou can obtain technical documents from our website, or from your Customer Service representative.

Table P-2 Manual Style and Writing Conventions

Term or Convention Description

Bold Indicates dialog boxes, property sheets, fields, buttons, check boxes, list boxes, combo boxes, menus, submenus, windows, lists, and selection names.

Italics Indicates email addresses, the names of books or publications, and the first instances of new terms and specialized words that need emphasis.

CAPS Indicates a specific key on the keyboard, such as ENTER, TAB, CTRL, ALT, or DELETE.

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

> Indicates the direction of navigation through a hierarchy of menus and windows.

hyperlink Indicates a jump to another location within the electronic document or elsewhere

Internet address

Indicates a jump to a website or URL

Indicates important information that helps to avoid and troubleshoot problems.

OP+VTXInstallation and Operation Manual

vii

Unpacking/Shipping InformationThis 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.

Prefaceviii

References 2.1.1 ANSI/SMPTE 259M-199710-Bit 4:2:2 Component and 4fsc NTSC Composite Digital Signals - Serial Digital Interface

2.1.2 ITU-R BT.601-5Studio Encoding Parameters of Digital Television for Standard 4:3 and Wide-Screen 16:9 Aspect Ratios

2.1.3 SMPTE 292M-1999Bit-Serial Digital Interface for High-Definition Television Systems

2.1.4 ITU-R BT.709-4Parameter Values for the HDTV Standards for Production and International Programme Exchange

2.1.5 SMPTE 291M-1998Ancillary Data Packet and Space Formatting

2.1.6 SMPTE RP 184-1996Specification of Jitter in Bit-Serial Digital Systems

2.1.7 TIA/EIA-232-E 1991Interface Between Data Terminal Equipment and Data Circuit-Terminating Equipment Employing Serial Binary Data Interchange

2.1.8 EIA/TIA-422-B 1994Electrical Characteristics of Balanced Voltage Digital Interface Circuits

2.1.9 EIA RS-485 1983Standard for Electrical Characteristics of Generators and Receivers for use in Balanced Digital Multipoint Systems

2.1.11 SMPTE 352-M 2002Video Payload Identification for Digital Interfaces

2.1.12 FCC Code of Federal Regulations(CFR) 47, part 15

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

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

2.1.15 Telcordia GR-253Synchronous Optical Network (SONET) Transport Systems Common Generic Criteria

2.1.16 ITU-T G.7041 / Y.1303Generic Framing Procedure

2.1.17 IEEE Standard 802.3z1000BASE-X Gb/s Ethernet over Fiber-Optic at 1 Gb/s (125 MB/s)

2.1.18 IEEE Standard 802.3ab1000BASE-T Gb/s Ethernet over twisted pair at 1 Gb/s (125 MB/s)


ix

Safety Standards and CompliancesSee page 37 to find the safety standards and compliances for this OPTO+ series product. A safety manual is shipped with every 6800+ series Frame Installation and Operation Manual and can be downloaded from our website. Alternatively, contact your Customer Service representative for a copy of this safety manual.

Restriction on Hazardous Substances (RoHS) DirectiveDirective 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 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 in Figure P-1.

Figure P-1 RoHS Compliance Emblem

Prefacex

Waste from Electrical and Electronic Equipment (WEEE) Directive

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.)

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 in Figure P-2.

Figure P-2 WEEE Compliance Emblem

Safety Terms and SymbolsThis product manual uses the following safety terms and symbols to identify certain conditions or practices. See page 37 and the 6800+ Series Safety Instructions and Standards Manual for more information.

WARNING

Identifies conditions or practices that can result in personal injury or loss of life. High voltage is present. Uninsulated dangerous voltage within the product’s enclosure may be sufficient to constitute a risk of electric shock to persons.

CAUTION

Identifies conditions or practices that can result in damage to the equipment or other property. Important operating and maintenance (servicing) instructions are included in the literature accompanying the product.

1

1 Introduction

General DescriptionOP+VTX provides professional broadcast quality transport of duplex video, audio, and ancillary data over a single fiber optic interface. Each card contains both transmitter and receiver blocks.

Occupying two slots within a 6800+ frame, OP+VTX supports one auto-sense mixed video channel and two analog audio channels. In addition, OP+VTX supports one 10/100 Base-T Ethernet and two RS232/RS422/RS485 serial data communication ports.

The OP+VTX fiber optic modules are available in both 1310nm and CWDM/DWDM wavelengths.

You can control OP+VTX modules using the following methods:

Card edge controls

CCS-enable hardware and software control products

SNMP controls system and HTTP (Internet) browsers when licenses are purchased

Main Features

Auto-sensing support for analog, SD-SDI, or HD-SDI video input

Support for black-burst or tri-level sync.

Four analog audio inputs

Four analog audio outputs

Dual bi-directional independent RS-232/RS-422/RS-485 (two- or four-wire)

10/100 Base-T Ethernet support

SFP transceiver adaptability

Optical power monitoring and alarm thresholds

Card-edge, remote, and full CCS control and monitoring

Chapter 1Introduction

2

Typical Applications

The OP+VTX can be used in any facility that requires fiber connectivity for analog composite or SDI video and analog audio signals. These cards will be used in any Broadcast, Post‐production, Satellite/Cable facility, or Telco facility where transport of analog video and/or analog audio is required over fiber optics lines.

Signal Flow

Figure 1-1 OP+VTX Signal Flow Pair

TDMmux

RS-232and

RS-485(2 ports)

Ethernet10/100

Analog/HD/SDvideo in

Analog/HD/SDvideo out

Analog audioout (4 ports)

Analog audioin (4 ports)

TelecomSFP

transceiver

TDMdemux

Serial data

Ethernet

2.5 GB/soptical link

2.5 GB/soptical link

3

2 Installation and Operation

CAUTION

Before installing this product, read the 6800+ Series Safety Instructions and Standards Manual. The safety manual contains important information about the safe installation and operation of OPTO+ series products.

Also see page 37 of this manual.

Unpacking the ModuleBefore 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. See Checking the Packing List for more information.

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 vii for information about returning a product for servicing.

Checking thePacking List

\

Table 2-1 Available Product Packages

Ordered Product Content Description

OP+VTX One OP+VTX front module

One OP+VTX double-slot back connector

One Weidmuller mating connector, part # 1795290000

One Samtec serial mating connector, part # ASP-142892-01

One OP+VTX Installation and Operation Manual

Chapter 2Installation and Operation

4

Maximum Frame Power RatingsOP+VTX modules operate only in fan-cooled frames, subject to the limitations shown in Table 2-2. These modules cannot be installed in FR6802+DM or 6800/7000 series frames.

NOTE: To maintain proper temperatures, ensure the front panel is closed at all times, and the fan module is fully operational.

Table 2-2 Frame Power Ratings

Frame Type Power Supply

Max. Frame Power Dissipation

Number of Usable Slots*

Max. Power Dissipation Per Slot

OP+VTX Power Requirements

FR6802+XF AC 120 W 20 6 W 12 W per module

FR6802+XF48 DC 105 W 20 5.25 W

FR6802+QXF AC or DC 120 W 20 6 W

FR6822+ and FR6822+QXFE

AC or DC 120 W 20 6 W

* Each front module requires two of these slots. Therefore, to calculate the maximum power dissipation available per module, triple the rating shown in the Max. Power Dissipation Per Slot column.


5

Setting JumpersOP+VTX modules use two sets of jumpers:

LOC/REM to select between local or remote control

Clock Mode to configure the module’s position as either Master or Slave within a pair of modules (the default position is Master)

The location of the jumpers is shown in Figure 2-1.

Figure 2-1 Location of Jumpers on OP+VTX Module

To set the Remote/Local jumper, place a jumper on pins 1 and 2 for Remote control, or on pins 2 and 3 for Local control. See Figure 2-2.

Figure 2-2 Remote/Local Control Settings

To set the Clock Mode jumper, place a jumper on pins 1 and 2 for Slave control, or on pins 2 and 3 for Master control. See Figure 2-3.

Figure 2-3 Master/Slave Control Settings

NOTE: You must configure modules for Master or Slave operation prior to power-up. The OP+VTX is usually used in pairs and requires one module to be Master and the other to be Slave.

LOC/REM Jumper

Clock Mode Jumper

1 2 3 1 2 3

Remote control Local control

3 2 1 3 2 1

Slave controlMaster control


6

Installing and Removing Modules

InstallationOverview

Front and back modules in the OPTO+ series have plastic caps that protect the fragile laser connections from damage. You must remove these protective covers before you install the back and front modules (see Figure 2-5).

In addition, all fiber optic connections must be inspected and cleaned before they are assembled. Carefully follow the inspection and cleaning steps described in the next pages. Additional safety information begins on page 37.

CAUTION

To prevent overload damage, ensure that you observe the following:

Do not install high-sensitivity (APD) optical receivers on multimode fiber. Due to its dispersion characteristics, multimode fiber is typically limited to shorter distance applications with very little signal attenuation. The resulting power levels may damage the receiver.

Before connecting any standard-sensitivity (PIN) or high-sensitivity (APD) optical receiver to a fiber network, ensure the power level is tested to fall within the published specifications of the receiver. Failure to verify optical power before connection will void the warranty.

The input power on the high-sensitivity receivers must not exceed 0 dBm. To ensure error-free operation, the input power must be less than -9 dBm.

Back ModuleInstallation

Follow these steps to install the back module into a frame:

1 Remove a blank back plate from the frame.

Do not discard the blank back plates. They may be needed for future configurations.

2 On the side of the back module that inserts into the front module, remove the inner protective cap from the fiber connection (see Figure 2-5 on page 11).

CAUTION

Microscopic dust or other contaminants can seriously impair or disable a fiber optic network. Observe strict cleaning procedures. Do not touch the end of the fiber.

3 Follow the inspection and cleaning procedure that begins on page 8.

4 If it is already installed, remove the front module from the slot.

5 Install the new back module by inserting the bottom lip into the required frame slot, and then screwing it into place.

Ensure that the EMI gaskets on the right side of the back module remains in place during the installation. The EMI gaskets fit tightly.

6 Apply the adhesive label to the back module if it is supplied separately.


7

Front ModuleInstallation

OP+VTX modules are hot-swappable and can be installed with the power supply either turned on, or turned off.

ProcedureFollow these steps to install the front modules:

1 Pull out the finger-release screws on the right and left side of the front panel of the frame, and then open it.

2 Locate the front module slot that corresponds with the matching back module.

3 Gently remove the outer and inner protective caps from the laser connections. (see Figure 2-5 on page 11).

CAUTION

Microscopic dust or other contaminants can seriously impair or disable a fiber optic network. Observe strict cleaning procedures. Do not touch the end of the fiber.

4 Follow the fiber cleaning instructions that begin on page 8.

5 Ensure that your front module matches with a corresponding back module of the same name, and then slide the module into the guides on the frame floor.

6 When the module edge is flush with the guide, close the extractor handle.

The module is properly seated when its edge is flush with the guide edge and the extractor handle closes.

7 Close the front panel to ensure proper frame ventilation.

To prevent overheating, keep the front panel closed and all back module plate slots covered during operation.

Removing Modules

NOTE: The removal steps provided here are similar to those outlined in your frame Installation and Operation Manual. Refer to that manual for detailed information about installing and operating the frame and its components.

Front ModuleFollow these steps to remove a front module from a frame:

1 Pull out the finger-release screws on the right and left side of the front panel of the frame, and then open it.

2 Grasp the extractor handle on the installed module, and then pull the module out of its slot; use the handle as a lever.

3 Close the front panel to ensure proper frame ventilation.

Back ModuleFollow these steps to remove a back module from a frame:

1 Turn off the frame.

2 Remove the front module, as described above.


8

3 Unscrew the top of the corresponding back module, and then tip it towards you.

4 Pull the bottom lip of the back module from its slot.

5 Reinstall a new or blank back plate in the empty slot to ensure proper frame ventilation.

6 Reinstall the front module, and then repower the frame.

Inspecting and Cleaning Fiber Optic ConnectionsSmall amounts of microscopic dust or other contaminants can seriously impair or disable a fiber optic network. To ensure that your network operates reliably, you must carefully inspect and clean each connection when installing OPTO+ products.

Table 2-3 lists some typical contaminants of a fiber optic connection. The inspection and cleaning procedure begins on page 9.

ImportantPoints

Before you begin cleaning, always inspect the fiber connections.

Inspect and clean both fiber ends every time you make a connection.

Keep a protective cap on unplugged fiber connectors.

Do not touch the end of a fiber.

Store unused protective caps in a clean resealable container, located nearby for easy access.

Do not reuse cleaning tissues or swabs.

Do not allow alcohol or another wet cleaning agent to dry on a fiber end.

Never touch the dispenser tip of an alcohol bottle or any clean portion of a tissue or swab.

Use care when handling the fiber; do not twist or pull.

Keep your cleaning fluids away from open flame or spark.

Table 2-3 Typical Contaminants

Contaminant Comments

Dust particle, 1 micron Can block up to 1% of the light transmission, creating a loss of 0.05 dB

Dust particle, 9 microns

Although microscopic, the particle can completely block the fiber core

Human hair Typically 50 to 75 microns in diameter

Oil Frequently caused by touching

Film residues Can accumulate from vapors or smoke

Powdery coatings Can be left behind after water or other solvents evaporate


9

Figure 2-4 describes the acceptable limits of defects in a fiber connection.

Figure 2-4 Fiber Optic Cross-Section

Inspection and Cleaning Procedure

InspectionTo inspect and clean the fibers, follow these steps:

1 Ensure the fiber is not “live.”

WARNING

Eye damage may occur if an optical instrument such as a microscope, magnifying glass, or eye loupe is used to stare at an energized fiber end.

2 Inspect the fiber endface with a fiberscope.

3 If the fiber endface is clean, return to the installation instructions on page 6 for back modules or page 7 for front modules.

If the connector is dirty, proceed to the dry cleaning instructions below.

Dry CleaningIf you are using cartridge- or pocket-style dry cleaning tools, follow the manufacturer’s directions. If you are using lint-free wipes, follow these steps:

1 Fold the lint-free wipe four to eight times into a square, taking care to avoid touching the cleaning surface of the wipe.

Zone 2(25 to 60 micron diameter)Maximum of 3 scratches <3.0 micron width is acceptable;Maximum of 1 light dig of <3.0 micron is acceptable

Zone 1(0 to 25 micron diameter)No scratches or digs are allowed

Zone 3(60 to 120 micron diameter)No scratches >3.0 microns are acceptable;Maximum of 3 digs of <10 microns are acceptable

Maximum 10 micron diameter dig is acceptable

Scratches and dust


10

2 Lightly wipe the fiber tip in the central portion of the lint-free wipe.

CAUTION

Do not scrub the fiber. Excessive rubbing will leave scratches.

3 Repeat the wiping action on another clean section of the wipe or a new wipe.

4 Inspect the connector again with the fiberscope.

5 If the connection is clean, return to the installation steps on page 6 for back modules, or page 7 for front modules.

If the connector is still dirty, proceed to the wet cleaning instructions.

Wet CleaningUsing 99.8% isopropyl alcohol and lint-free wipes, follow these steps to wet clean the fiber:

1 Fold the wipe into a square, about 4 to 8 layers thick.

2 Moisten one section of the lint-free wipe with one drop of 99.8% alcohol, ensuring that a portion of the wipe remains dry.

3 Lightly wipe the fiber end in the alcohol-moistened portion of the lint-free wipe.

4 Immediately repeat the wiping action on the dry section of the wipe, removing any residual alcohol.

5 Inspect the fiber endface again, and if necessary, repeat the wet cleaning with another clean section of the lint-free wipe.

CAUTION

Do not scrub the fiber. Excessive rubbing will leave scratches.

6 Dry clean any remaining residue, and then inspect the connector again.

7 If the contamination persists, repeat the dry and wet cleaning procedure until the endface is clean.

If the fiber end still remains dirty after repeated cleaning attempts, call Customer Service for further instructions.

If the fiber end is clean, return to the installation instructions on page 6 for back modules, or page 7 for front modules.

Making ConnectionsTo connect to the OP+VTX rear connector, you must make your own cable, depending on the purpose to which you will put the serial connector, using the Samtec serial mating connector, part # ASP-142892-01, that is provided. See Serial Pinouts on page 12.

For audio inputs and outputs, connect to the Weidmuller connector, using the instructions in Weidmuller Pinouts on page 13.


11

Back Module

Figure 2-5 OP+VTX Back Module

CM

PST

/ SDI

IN

OUT

Tx /

Rx

AUD

IO IN

& O

UT

ETHERNET

SERIAL

OP

+VTX

1

10

9

8

7

6

5

4

3

2


12

SerialPinouts

Using the Samtec serial mating connector, part # ASP-142892-01, you can create your own cable matching one of the pinouts in Figure 2-6.

Figure 2-6 Serial Pinouts As Seen on the Back Module

RS-485 2-Wire

RS-232

RS-422 and RS-485 4-Wire

SERIAL_RX2-

SERIAL_TX2-

GND

SERIAL_RX1-

SERIAL_TX1+

SERIAL_RX2+

SERIAL_TX2+

GND

SERIAL_RX1+

SERIAL_TX1-

Tx2-/Rx2-

Tx2-/Rx2-GND

Tx1-/Rx1-

Tx1+/Rx1+

Tx2+/Rx2+

Tx2+/Rx2+

GND

Tx1+/Rx1+

Tx1-/Rx1-

No Connection

SERIAL_TX2

GND

SERIAL_RX2

GND

SERIAL_RX1

SERIAL_TX1

1

10

9

8

7

6

5

4

3

2

1

10

9

8

7

6

5

4

3

2

1

10

9

8

7

6

5

4

3

2

No Connection

No Connection

No Connection

NOTE: The Serial (Samtec) male and female connectors will lock together only when aligned correctly. The center tab (near the Ground pins) must mate with the slot on the Serial wire connector.


13

WeidmullerPinouts

Figure 2-7 Audio Connector Pinouts

When making audio connections to the Weidmuller connector, follow these steps:

1 Insert a flathead screwdriver into a rectangular slot to open a corresponding round connection (to the left or right of the rectangular slot). See Terminal Connections on a Weidmuller Connector on page 13

Figure 2-8 Terminal Connections on a Weidmuller Connector

2 Insert a stripped audio cable into the round hole

3 Remove the flathead screwdriver from the rectangular slot to hold the cable.

1

23

2

24

In CH1A+

GND

GND

GND

GND

In CH1B+

In CH 2A+

In CH2B+

Out CH1A+

Out CH1B+

Out CH2B+

Out CH 2A+

GND

GND

GND

GND

Out CH

Out CH

Out CH1A-

Out CH1B-

In CH1B-

In CH 2A-

In CH1B-

In CH1A-

2B-

2A-

+ -+ -

Round hole Rectangular slot


14

Upgrading Module Firmware This module’s firmware can be updated using the Magellan CCS Navigator HTTP software upgrade tool. In order to perform these upgrades, your frame must be equipped with a 6800+ETH module. See your frame manual for more information.

Changing Parameter SettingsYou can change parameter settings for this product at the card-edge, or you can use CCS software and hardware controls.

Card-Edge Controls1 Rotate the hex switch (mode select rotary 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 four control LEDs next to the navigation toggle switch to see which bank is currently selected. (See Table 2-4.)

See Table 2-5 on page 18 to view the various banks, hex switch positions, and corresponding parameter options and values.

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.

Table 2-4 Selected Bank as Indicated by Control LEDs

Bank Select 2

Bank Select1

Bank Select 0

Bank Number

Off Off Off 0

Off Off On 1

Off On Off 2

Off On On 3

On Off Off 4

On Off On 5

On On Off 6

On On On 7

Off Off Off 8

Off Off On 9

Off On Off A (10)

Off On On B (11)

On Off Off C (12)

On Off On D (13)

On On Off E (14)

On On On F (15)


15

5 Do either of the following:

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

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

NOTE: For best results, use software control applications to aid in viewing, setting, and confirming parameter values.

Recalling Default Parameter SettingsTable 2-5 on page 18 describes all of the parameter settings for the OP+VTX, including the original factory defaults. To return this module to its factory 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.

Reading Software and Hardware VersionsThe current software and hardware versions of the module can only be viewed in CCS-enabled software and hardware control panels.

Activating OP+VTX Functions

The following sections provide information about the OP+VTX special functions:

Audio Source Selections on page 16

Video Source Selections on page 17

Ethernet Port Settings on page 17


16

Audio SourceSelections

Table 2-9 shows the audio path and options for one-way transmission.

Figure 2-9 Audio Path for a One-Way Transmission

The audio input Channel 1/2 Transmit Source parameter selects which audio channel coming from the audio connector on the back module to transmit. The audio output Channel 1/2 Output Source parameter selects which (of two) audio channels to apply to each output audio channel.

You can transmit the audio channels in the configuration they had when they entered the module, or switch the audio channels, or output the one or the other audio channel from both channels.

SFP

Audio

connector

Audio generator

Ch1

Ch2

Ch1

Ch2

Local Ch1

Local Ch2

TDM

Transmit Ch1

SFP

Audio

connector

Output Ch1

Output Ch2

TDM

Remote Ch2

Transmit Ch2

Remote Ch1

Fiber

Audio monitor

Audio output source

selection

Audio transmit source

selection

VTX Card I

VTX Card II


17

Video SourceSelections

Table 2-10 shows the video path and options for one-way transmission.

Figure 2-10 Video Path for a One-Way Transmission

The module automatically detects whether input video is SDI or analog, and then prepares that video for transmission. The video is output at the other end in the same format it entered the system.

Ethernet PortSettings

The Ethernet parameters (found under Common > Ethernet in the tree view) display the status of both the selected device (local) and another OP+VTX device that the local device is communicating with (remote).

The speed and duplex status are listed for the local device only.

SFP

Video generator

TDM

SFP

TDM

Fiber

Video monitor

VTX Card I

VTX Card II

SDI or analog video Video detection

Video format & standard

SDI

Analog

SEL

Video

SDI or analog video Video unpacket

SEL

Video format & standard

DataSDI

Analog


18

Parameters In these tables, read-only parameters are indicated by the symbol [RO] and a gray background. Options that are shown in bold fonts are defaults. Read-only parameters do not appear at the card edge and therefore are listed as -- (not applicable) in the parameter tables. Some parameters may appear in a different order when viewed in CCS software.

Table 2-5 OP+VTX Parameter List

Parameter Name

Ba

nk

,S

wit

chFunction Options

General

Product Information [RO] -- Identifies product type of the module

<String>

Serial Number [RO] -- Displays the serial number of the module

<String>

SFP Information [RO] -- Shows the type of SFP module in use or describes it as unsupported

<String>

Clock Mode [RO] -- Indicates clock setting of the module

Master

Slave

Soft Reboot 0, E Activates a soft reboot of the module

Off

On

Factory Recall 0, F Resets all parameters as default value

---

Recall

Input/Optical

Receiver Type [RO] -- Reports the optical receiver type

None

Input Optical Power [RO] -- Displays the power of the received input laser signal

<String>

Receiver Status [RO] -- Indicates the current status of receiver

OK

Failed

Input/Video

Input Video Mode [RO] -- Indicates mode for input video

Analog

SDI

None


19

Input Video Standard [RO] -- Indicates standard for input video

Unknown

1080p 25

720p 59.94

720p 60

1080p 23.98

1080p 24

1080p 29.97

1080p 30

1080i 50

1035i 59.94

1035i 60

1080i 50 (295M)

1080i 59.94

1080i 60

525i 59.94

625i 50

720p 50

1080sF 23.98

1080sF 24

720p 29.97

720p 30

720p 25

720p 23.98

720p 24

1080sF 29.97

1080sF 30

1080p 25 (TLS)

720p 59.94 (TLS)

720p 60 (TLS)

1080p 23.98 (TLS)

1080p 24 (TLS)

1080p 29.97 (TLS)

1080p 30 (TLS)

1080i 50 (TLS)

1035i 59.94 (TLS)

1035i 60 (TLS)

1080i 50 (295M) (TLS)

Input Video Standard [RO] (continued)

-- 1080i 59.94 (TLS)

1080i 60 (TLS)

NTSC/PAL-M

PAL-B

720p 50 (TLS)

1080sF 23.98 (TLS)

1080sF 24 (TLS)

720p 29.97 (TLS)

720p 30 (TLS)

720p 25 (TLS)

720p 23.98 (TLS)

720p 24 (TLS)

1080sF 29.97 (TLS)

1080sF 30 (TLS)

EDH Present [RO] -- Indicates the presence of EDH for SDI video

No

Yes

EDH Error Counter [RO] -- Indicates the counter of EDH for SDI video

0 to 65535

EDH Error Counter Clear 1, A Clears the counter of EDH for SDI video

No

Yes

CRC Error Counter [RO] -- Indicates the counter of CRC for SDI video

0 to 65535

CRC Error Counter Clear 1, B Clears the counter of CRC for SDI video

No

Yes

Table 2-5 OP+VTX Parameter List (Continued)

Parameter Name

Ba

nk

,S

wit

ch

Function Options


20

Input/Analog Audio/Channel 1

CH1 Transmit Source 1, 4 Selects audio source to transmit for CH1

Local CH1

Local CH2

CH1A Transmit Status [RO]

-- Indicates transmitted audio status for CH1A

Normal

Silence

Peak

CH1B Transmit Status [RO]

-- Indicates transmitted audio status for CH1B

Normal

Silence

Peak

CH1A Input Max Lvl 1, 5 Selects input audio level for CH1A

0 to 28 dBu

CH1B Input Max Lvl 1, 6 Selects input audio level for CH1B

0 to 28 dBu

Input/Analog Audio/ Channel 2

CH2 Transmit Source 1, 7 Selects audio source to transmit for CH2

Local CH1

Local CH2

CH2A Transmit Status [RO]

-- Indicates transmitted audio status for CH2A

Normal

Silence

Peak

CH2B Transmit Status [RO]

-- Indicates transmitted audio status for CH2B

Normal

Silence

Peak

CH2A Input Max Lvl 1, 8 Selects input audio level for CH2A

0 to 28 dBu

CH2B Input Max Lvl 1, 9 Selects input audio level for CH2B

0 to 28 dBu

Input/Analog Audio

Transmitted Audio Peak Threshold

1, 2 Sets the minimum threshold for peak audio reporting

-20 to 0 dBFS

Transmitted Audio Silence Threshold

1, 3 Sets the maximum threshold for low audio reporting

-100 to -30 dBFS

Output/Optical

Laser Wavelength [RO] -- Displays the signal wavelength of transmitter

Laser Status [RO] -- Indicates the current status of transmitter

OK

Failed

Disabled


Parameter Name

Ba

nk

,S

wit

ch

Function Options


21

Output/Video

Output Video Mode [RO] -- Indicates mode for output video

Analog

SDI

None

Output Video Standard [RO]

-- Indicates standard for output video

Unknown

1080p 25

720p 59.94

720p 60

1080p 23.98

1080p 24

1080p 29.97

1080p 30

1080i 50

1035i 59.94

1035i 60

1080i 50 (295M)

1080i 59.94

1080i 60

525i 59.94

625i 50

720p 50

1080sF 23.98

1080sF 24

720p 29.97

720p 30

720p 25

720p 23.98

720p 24

1080sF 29.97

1080sF 30

1080p 25 (TLS)

720p 59.94 (TLS)

720p 60 (TLS)

1080p 23.98 (TLS)

1080p 24 (TLS)

1080p 29.97 (TLS)

1080p 30 (TLS)

1080i 50 (TLS)

1035i 59.94 (TLS)

1035i 60 (TLS)

1080i 50 (295M) (TLS)

1080i 59.94 (TLS)

Output Video Standard [RO] (Continued)

-- 1080i 60 (TLS)

NTSC/PAL-M

PAL-B

720p 50 (TLS)

1080sF 23.98 (TLS)

1080sF 24 (TLS)

720p 29.97 (TLS)

720p 30 (TLS)

720p 25 (TLS)

720p 23.98 (TLS)

720p 24 TLS)

1080sF 29.97 (TLS)

1080sF 30 (TLS)

Output/Analog Audio/Channel 1

CH1 Output Source 2, 4 Selects audio source to output for CH1

Remote CH1

Remote CH2

CH1A Output Status [RO] -- Indicates output audio status for CH1A

Normal

Silence

Peak


Parameter Name

Ba

nk

,S

wit

ch

Function Options


22

CH1B Output Status [RO] -- Indicates output audio status for CH1B

Normal

Silence

Peak

CH1A Output Max Lvl 2, 5 Selects output audio level for CH1A

0 to 28 dBu

CH1B Output Max Lvl 2, 6 Selects output audio level for CH1B

0 to 28 dBu

Output/Analog Audio/Channel 2

CH2 Output Source 2, 7 Selects audio source to output for CH2

Remote CH1

Remote CH2

CH2A Output Status [RO] -- Indicates output audio status for CH2A

Normal

Silence

Peak

CH2B Output Status [RO] -- Indicates output audio status for CH2B

Normal

Silence

Peak

CH2A Output Max Lvl 2, 8 Selects output audio level for CH2A

0 to 28 dBu

CH2B Output Max Lvl 2, 9 Selects output audio level for CH2B

0 to 28 dBu

Output/Analog Audio

Output Audio Peak Threshold

2, 2 Sets the minimum threshold for peak audio alarm reporting, independently of the input audio

-20 to 0 dBFS

Output Audio Silence Threshold

2, 3 Sets the maximum threshold for low audio alarm reporting, independently of the input audio

-100 to -30 dBFS

Common/Ethernet

Remote Ethernet Status [RO]

-- Indicates link status of remote Ethernet

Disconnect

Connect

Local Ethernet Status [RO] -- Indicates link status of local Ethernet

Disconnect

Connect

Local Ethernet Speed [RO] -- Indicates link speed of local Ethernet

10M

100M

1000M

None


Parameter Name

Ba

nk

,S

wit

ch

Function Options


23

Local Ethernet Duplex [RO]

-- Indicates duplex status of local Ethernet

Half-Duplex

Full-Duplex

None

Common/Serial

Port A Setting 3, 1 Sets data type associated with current intercom for A port; this setting should match for both devices in a pair

RS232

RS485-4W

RS485-2W

RS422

Port A RS-485-2W Switch Rate

3, 2 Sets the switch rate of A port for RS-485-2W

110

300

1200

2400

4800

9600

19200

38400

57600

115200

230400

460800

Port A RS-422/485 Termination

3, 5 Sets the termination for the RS-422/485 channels

Unterminated

Terminated

Port A Type Mismatch [RO]

-- Indicates data type mismatched transmitter with receiver for A port

No

Yes

Port B Setting 3, 3 Sets data type associated with current intercom for B port; this setting should match for both devices in a pair

RS232

RS485-4W

RS485-2W

RS422

Port B RS-485-2W Switch Rate

3, 4 Sets rate of B port for RS-485-2W

110

300

1200

2400

4800

9600

19200

38400

57600

115200

230400

460800

Port B RS-422/485 Termination

3, 6 Sets the termination for the RS-422/485 channels

Unterminated

Terminated

Port B Type Mismatch [RO] -- Indicates data type mismatched transmitter with receiver for B port

No

Yes


Parameter Name

Ba

nk

,S

wit

ch

Function Options


24

LEDs and Alarms

LEDs The module LEDs are located on the card edge of the front module (see Figure 2-11). Table 2-6 on page 25 describes the meanings of the LEDs and their colors.

Figure 2-11 Card-Edge LEDs

LEDs

Module Status LED

Rotary switch

Navigation switch

Extractor handle


25

Table 2-6 LED Descriptions

LED Color Meaning When Lit

Module Status None (off) There is no power to the module; the module is not operational.

Green The module is receiving power and is operating properly.

Solid Red The module detects an alarm condition or the module’s initialization has failed.

Flashing Red The module has detected a significant hardware/firmware fault; contact your Customer Service representative.

Amber The module is undergoing configuration or detects a configuration mismatch.

Bank Select 0 Green Indicates that Bank 0 is the selected parameter bank.




Master Green The local optical clock is running independently in master mode.

None (off) The local optical clock is locked to remote optical clock.

OPTx Green The optical transmitter has been detected and is working normally.

OPRx Green The optical receiver has been detected and is working normally.

SDI In Pres Green The module detects an SDI signal at the video input connector.

Comp In Pres Green The module detects a composite video signal at the video input connector.

Tri-L In Pres Green The module detects tri-level sync at the video input connector.

SDI Out Press Green An SDI signal is available at the video output connector.

Comp Out Pres Green An NTSC or PAL-B signal is available at the video output connector

Tri-L Out Pres Green A Tri-Level Sync signal is available at the video output connector.

Serial A Mismatch Amber Local and remote serial ports A are not working in the same mode (RS-232/422/485).

Serial B Mismatch Amber Local and remote serial ports B are not working in the same mode (RS-232/422/485).

Eth Link Green The local Ethernet link is connected.

Eth Active Green Ethernet communication is active.


26

Alarms Table 2-7 list the alarms that are displayed in CCS-enabled control panels and software. The module Status LED also turns red when one of these alarms is activated.

Table 2-7 Alarms

Alarm Name Default Priority

Laser Failed Major

Handshaking Failed Major

Loss of Optical Input Major

Received Laser Power Low Major

Clock Mode Conflict Major

Loss of Input Video Major

Loss of Output Video Major

SDI EDH Error Minor

SDI CRC Error Minor

Audio CH1A, CH1B, CH2A, and CH2B Transmitter Silent

Minor

Audio CH1A, CH1B, CH2A, and CH2B Transmitter Peaked

Minor

Audio CH1A, CH1B, CH2A, and CH2B Output Silent

Minor

Audio CH1A, CH1B, CH2A, and CH2B Output Peaked

Minor

Loss of Local Ethernet Connection Minor

Loss of Remote Ethernet Connection Minor

Local and Remote Ethernet Mismatch Minor

Local and Remote Serial Port A Mismatch Minor

Local and Remote Serial Port B Mismatch Minor

27

3 Specifications

Laser Output

OP+VTX optical modules comply with laser product performance standards set by the Center for Devices and Radiological Health (except for deviations), pursuant to Laser Notice No. 50, dated July 26, 2001. Additionally, OP+VTX modules comply with the provisions of IEC 60825-1.

OP+VTX modules are classified as Laser Product Class 1; Laser Radiation Class I, using SFP LC optical connectors, and a continuous pulse duration.

Chapter 3Specifications

28

Table 3-1 Laser Output Specifications

Laser Module Model Wavelength (nm)/Frequency (GHz)[19xy00 GHz (xy is from 21 to 60)]

Output Optical Power

OP+SFP1+TRxx (standard sensitivity PIN)

OP+SFP1+HI+TRxx (high sensitivity APD)

1310 nm 0.2 mW (typical)

1270 nm 1290 nm 1310 nm 1330 nm 1350 nm 1370 nm 1430 nm 1450 nm

1470 nm 1490 nm 1510 nm 1530 nm 1550 nm 1570 nm 1590 nm 1610 nm

1 mW (typical)

OP+SFP1+TRDxy (standard sensitivity DWDM)

OP+SFP1+HI+TRDxy (high-sensitivity DWDM)

Ch21 1560.61 Ch41 1544.53 1.26 mW (typical)

Ch22 1559.79 Ch42 1543.73

Ch23 1558.98 Ch43 1542.94

Ch24 1558.17 Ch44 1542.14

Ch25 1557.36 Ch45 1541.35

Ch26 1556.55 Ch46 1540.56

Ch27 1555.75 Ch47 1539.77

Ch28 1554.94 Ch48 1538.98

Ch29 1554.13 Ch49 1538.19

Ch30 1553.33 Ch50 1537.40

Ch31 1552.52 Ch51 1536.61

Ch32 1551.72 Ch52 1535.82

Ch33 1550.92 Ch53 1535.04

Ch34 1550.12 Ch54 1534.25

Ch35 1549.32 Ch55 1533.47

Ch36 1548.51 Ch56 1532.68

Ch37 1547.72 Ch57 1531.90

Ch38 1546.92 Ch58 1531.12

Ch39 1546.12 Ch59 1530.33

Ch40 1545.32 Ch60 1529.55


29

Fiber Optic Input/Output

Table 3-2 Optical Port Performance Specifications - Inputs

Item Minimum Typical Maximum Note

Number of inputs 1 1

Input wavelength 1260 nm - 1620 nm

Optical power monitor accuracy

-3 dB - 3 dB

Sensitivity - -20 dBm -19 dBm OP+SFP1+TR13

- -20 dBm -19 dBm OP+SFP1+TR27 to OP+SFP1+TR61

- -29 dBm -28 dBm OP+SFP1+HI+TR27 to OP+SFP1+HI+TR61

Overload - - -3 dBm OP+SFP1+TR13

- - 0 dBm OP+SFP1+TR27 to OP+SFP1+TR61

- - -9 dBm OP+SFP1+HI+TR27 to OP+SFP1+HI+TR61

Table 3-3 Optical Port Performance Specifications - Outputs

Item Minimum Typical Maximum Note

Number of outputs 1 1

Peak wavelength (FP) 1300 nm 1310 nm 1320 nm OP+SFP1+TR13

n-3* n* n + 3* OP+SFP1+TR27 to OP+SFP1+TR61

OP+SFP1+HI+TR27 to OP+SFP1+HI+TR61

Spectrum width (RMS) (FP) - 2 nm 4 nm OP+SFP1+TR13

Average output power -9.5 dBm -5 dBm 0dBm OP+SFP1+TR13

-5 dBm 0 dBm 5 dBm OP+SFP1+TR27 to OP+SFP1+TR61

-5 dBm 0 dBm 3 dBm OP+SFP1+HI+TR27 to OP+SFP1+HI+TR61

Optical rise/fall time - -200 ps 270 ps No filter; 20% to 80%

Extinction ratio 7 dB 9 dB - 2.1 GHz filter(fourth order Bessel)

Jitter <0.2 UI pk-to-pk

* n=1270, 1290, 1310, 1330, 1350, 1370, 1430, 1450, 1470, 1490, 1510, 1530, 1550, 1570, 1590, 1610 nm


30

Video Input/Output

SD-SDI(270M)

HD-SDIVideo (1.5G)

Table 3-4 SD-SDI Video Input Specifications

Item Specification

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

Connector BNC (IEC 169-8)

Impedance 75

Return loss >15 dB from 5 MHz to 270 MHz

Equalization <=918 ft (280 m) for Belden 1694A

Table 3-5 SD-SDI Video Output Specifications

Item Specification

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

Quantization 10 bits


Impedance 75

Return loss >15 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 400 ps to 1500 ps (20% to 80%)

Overshoot <10% of amplitude

Jitter <0.2 UI (pk-to-pk)

Table 3-6 HD SDI Video Input Specification

Item Specification

Standards SMPTE274M: 1080i/60,1080i/59.94, 1080i/50, 1080p/30, 1080p/29.97, 1080p/25, 1080p/24, 1080p/23.98, 108psf/23.98, 1080psf/24

SMPTE296M: 720p/60, 720p/59.94, 720p/50

Connector BNC (IEC169-8)

Impedance 75

Return loss >15 dB (typical) from 5 MHz to 1485 MHz

Equalization <= 120 m (393 ft) for Belden 1694A


31

AnalogComposite

Video

Table 3-7 HD-SDI Video Output Specifications

Item Specification

Standard Same as supported input standard

Quantization 10 bits


Impedance 75

Return loss >15 dB, typical, from 5 MHz to 1485 MHz

Signal level 800 mV ± 10%

D.C. Offset 0.0 V ± 0.5 V

Rise and fall time <270 ps

Overshoot <10% of amplitude

Jitter Timing jitter: <1UI (673ps pk-to-pk)

Alignment jitter: <0.2 UI (135ps pk-to-pk)

Table 3-8 Analog Composite Video Input Specifications

Item Specification

Number of inputs 1 (75 terminated)


Standards NTSC (SMPTE170M), PAL-B (ITU624-2)

Level 1.0 V pk-to-pk; ±6 dB nominal for composite video

Impedance 75

Return loss >40 dB to 6 MHz

Common mode range 5 V pk-to-pk, typical

Common mode rejection ratio

>60dB at 60Hz

Table 3-9 Digital video conversion

Item Specification

Quantization 12-bit

Frequency response ±0.1 dB to 6 MHz

Signal-to-noise ratio >62 dB RMS typical


32

Analog Audio

Input

Output

Table 3-10 Analog Composite Video Output Specifications

Item Specification

Number of outputs 1 (75 terminated)


Standard NTSC (SMPTE170M), PAL-B (ITU624-2)

Signal level 1.0 V pk-to-pk nominal for composite video

Signal quantization 12-bit

Impedance 75

Return loss >40 dB to 6 MHz

DC offset <± 50 mV

SNR >54 dB RMS to 6 MHz

Table 3-11 Analog Audio Input Specifications

Item Specification

Number of Inputs 4 mono channels

Connector Weidmuller 24-pin locking header-socket pair

Input audio level 28 dBu to 16 dBu, (adjustable in 2 dB increments)

Input Impedance High Impedance

Table 3-12 Analog Audio Output Specifications

Item Specification

Number of Outputs 4 mono channels


Output audio level 28 dBu to 16 dBu into > 10kohms load (adjustable in 2 dB increments)

Output Impedance 66


33

Analog Audioto Analog

Audio

Serial Port

Table 3-13 Analog Audio Path Specifications

Item Specification

Number of channels 4 mono channels


Frequency response < ±0.1 dB @ 0 dBFS (+28dBu), 20 Hz to 20 kHz, typical

THD+R > 90dB @1kHz (-80 to +21dBu)

SNR > 100dB

Cross talk > 80 dB, 20 Hz to 20 kHz, typical

Linearity < ±1.0 dB (to -100 dBFS), typical

Table 3-14 Generic Serial Data Specifications

Item Specification

Number of channels 2

Standard EIA/TIA-232 or EIA/TIA -485, selectable

Connector IPL1-105-01-S-D, 2, 3 or 4 pins


34

EIA/TIA-232-E/485 Specifications

EIA/TIA-232-E

EIA/TIA-485

Table 3-15 EIA/TIA-232-E Specifications

Item Specification

Number of channels Up to 2 channels

Standard EIA/TIA-232-E

Connector IPL1-105-01-S-D, 3-pins

Baud Rate < 460 Kbps

Maximum Output Level (unloaded)

< ±25 V

Output Level (loaded) ±5 V to ±15 V

Driver Load Impedance 3 to 7

Slew Rate < 30 V/ms

Max Driver Current in High-Z

±6 mA @ ±2 V

Receiver Impedance 3 to 7

Receiver Sensitivity ±3 V

Receiver Input Voltage Range

±15 V

Table 3-16 EIA/TIA-485 Specifications

Item Specification

Number of channels Up to 2 channels

Standard EIA/TIA-485 (EIA/TIA-422 compatible)

Connector IPL1-105-01-S-D, 4-pins

Input Termination 120, jumper selectable

Baud Rate <460 Kbps

Maximum Output Level (unloaded)

< ±6 V

Output Level (loaded) > ±1.5 V

Driver Load Impedance 50 (422) or 27 (485)

Max Driver Current in High Z

±100 mA

Receiver Impedance 12 k

Receiver Sensitivity ±200 mV

Receiver Input Voltage Range

-7 V to +12 V


35

Ethernet

Transmission Distance in Single-Mode Fiber

Power ConsumptionThe power consumption for OP+VTX modules is <12W.

Start-Up TimeThe start-up time for OP+VTX modules is <10 seconds.

TemperatureThe operating temperature range for OP+VTX modules is 32° to 113°F (0° to 45°C).

Table 3-17 Ethernet Input/Output Specifications

Item Specification

Number of inputs 1 (balanced pair)

Number of outputs 1 (balanced pair)

Connector RJ-45 per IEC169-8

Standard 10/100 Base-T

Speeds supported 10/100 Mb/s

Impedance 100

Return loss 18 dB

Cable equalization 0 to 328 ft (0-100m), CAT-5 UTP

Table 3-18 Maximum Transmission Distance

Wavelength Type Specification

1310 nm FP 10 km (typical)

CWDM 40 km (typical)

DWDM 80 km


36

Propagation Delay

Table 3-19 Propagation Delay Specifications

Item Specification

HD-SDI 60 us

SD-SDI 343 us

Composite 28.1 us

Analog Audio 1.9 ms

37

A Laser Safety Guidelines

Laser Safety

WARNING

Use of controls, adjustments, and procedures other than those specified in this document may result in hazardous laser radiation exposure.

Optical fiber telecommunication systems use semiconductor laser transmitters that emit infrared light that is normally not visible to the human eye. Although a conventional laser produces a small beam of light, the power density is very high, and it can cause damage to your eyes.

If a beam of laser light enters the eye, the eye magnifies and focuses the energy on the retina. The energy that reaches the retina can be as much as 100,000 times more than at the cornea and, as a result, it can burn the retina.

Laser transmission products are classified in four major groups (Class 1, 2, 3, and 4), according to their emissions and potential for causing injury. Fiber optic transmitter modules in this series are designated Class 1.

Appendix A Laser Safety Guidelines

38

Precautionsfor Enclosed

Systems

In its normal operating mode, an optical fiber communication system is totally enclosed and presents no risk of eye injury. However, if the fiber optic cables that interconnect various components of an optical fiber disconnect or break, you may be exposed to laser emissions. Also, technicians may be exposed to laser emissions during installation and servicing.

Unlike some other laser designs, semiconductor lasers have a highly divergent beam that decreases rapidly with distance. The greater the distance, the less energy will enter the eye, and the less potential risk for eye injury.

WARNING

Eye damage may occur if an optical instrument such as a microscope, magnifying glass, or eye loupe is used to stare at the energized fiber end.

Under normal operating conditions, optical fiber telecommunication systems are completely enclosed; nonetheless, observe the following precautions:

1 Do not stare into optical connectors or broken fibers.

2 Ensure technicians have satisfactorily completed an approved training course before performing installation or maintenance.

3 Ensure there are appropriate warning labels near the optical ports of the modules.

Precautionsfor

UnenclosedSystems

During service, maintenance, or restoration, an optical fiber telecommunication system is considered unenclosed. Under these conditions, follow these practices:

CAUTION

Only authorized, trained personnel shall be permitted to do service, maintenance, and restoration.

1 Avoid exposing the eye to emissions from unterminated, energized optical connectors at close distances.

2 Ensure that only authorized, trained personnel use optical test equipment during installation or servicing.

3 Turn off all laser sources before scanning a fiber with an optical test set.

4 Keep all unauthorized personnel away from the immediate area of the optical fiber systems during installation and service.

For guidance on the safe use of optical fiber communication systems in the workplace, consult ANSI Z136.2, American National Standard for Safe Use of Lasers in the U.S. or outside the U.S., IEC-60825, Part 2.


39

Label The label shown in Figure A-1 is applicable to Class 1 laser products.

Figure A-1 Label for Class 1 Laser Products

CLASS 1LASER PRODUCT

Appendix A Laser Safety Guidelines

40

41

Communication and Control Troubleshooting Tips

Software Communication Problems

ProblemThe frame is powered up, but the module does not communicate with Magellan CCS Navigator or the web GUI interface.

Solutions

Ensure you have specified the proper module slot.

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

Confirm there is an 6800+ETH module (version 4.8 or later) 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 pressed pins.

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

Figure B-1 Typical Back Module Spring Connector

Appendix Communication and Control Troubleshooting Tips

42

ProblemThe IP address of the frame has been forgotten.

SolutionFollow 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 B-2 ETH6800+ DIP Switch

3 Use Magellan CCS Navigator or the web browser to interface with the ETH6800+ module and then set the desired IP address.

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

ProblemThere 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).

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.

Slide this DIP switch tab forward for default IP address


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ProblemMagellan 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.

ProblemMagellan CCS Software does not respond after it is launched.

SolutionsClose any Magellan CCS software that is already launched.

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


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.

Hardware Communication Problems

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


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.

Appendix Communication and Control Troubleshooting Tips

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ProblemThe 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 pins. If this is not possible, contact Customer Support.

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Index

AAlarms 26Analog composite video input specifications 31–32

BBack connector 3

CCleaning fiber optic connections 8–10Control LEDs 14Cross-section of optical fiber 9

DDry cleaning fiber connections 9

EEthernet input/output specifications 35

FFiber optic connections, cleaning 8–10FR6802+ and FR6822+ frames 4Frame power ratings 4Front module 7–10

HHardware, reading version 15

IInspecting and cleaning fiber connections 8–10Installing and removing modules 6–8

LLaser output specifications 27Laser precautions 6–10, 38–39LEDs 24–25Local/Remote jumper 5

MManual

revision history vwriting conventions vi

Module installation 6–10

NNavigation switch 14

OOptical output specifications 27–28

PPacking list 3Power

consumption 35ratings 4

Product description 1

RRemoving modules 7RoHS directive ixRotary switch 14

SSafety

precautions with lasers 38–39standards and compliances ixterms and symbols x

SD-SDI input and output specifications 30–31Shipping information viiSignal flow diagram 2Software, reading version 15Specifications 27–35

TTransmission distance specifications 35Troubleshooting 41–??

Index46

UUnpacking information 3

WWEEE directive xWet cleaning 10Writing conventions vi

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