UBS Axcera LHV100AT Users Manual

Instruction Manual

Innovator® HX Series

Analog VHF High Band

Transmitter

AXCERA

103 FREEDOM DRIVE • P.O. BOX 525 • LAWRENCE, PA 15055-0525 USA

(724) 873-8100 • FAX (724) 873-8105

www.axcera.com • service@axcera.com

Innovator® HX Series Analog VHF Transmitter Table of Contents

TABLE OF CONTENTS

CHAPTER 1 INTRODUCTION

SECTION PAGE

1.1 Manual Overview...................................................................................1-1

1.2 Assembly Designators............................................................................1-1

1.3 Safety..................................................................................................1-2

1.4 Contact Information...............................................................................1-2

1.5 Material Return Procedure ......................................................................1-2

1.6 Limited One-Year Warranty for Axcera Products........................................1-3

CHAPTER 2 SYSTEM DESCRIPTION AND REMOTE CONTROL CONNECTIONS

2.0 System Overview..................................................................................2-1

2.1 Exciter/Amplifier Chassis Assembly.........................................................2-1

2.1.1 Modulator Module.........................................................................2-2

2.1.2 IF Processor Module .....................................................................2-3

2.1.3 Upconverter Module......................................................................2-4

2.1.4 Control & Monitoring/Power Supply Module.....................................2-6

2.1.5 VHF Power Amplifier Module..........................................................2-7

2.1.6 RF Output....................................................................................2-8

2.2 Control and Status.................................................................................2-8

2.2.1 Front Panel LCD Display Screens....................................................2-8

2.3 System Operation..................................................................................2-8

2.3.1 Principles of Operation..................................................................2-9

2.4 Maintenance .......................................................................................2-10

2.5 Customer Remote Connections....................................................... 2-11

CHAPTER 3 SITE CONSIDERATIONS, INSTALLATION AND SETUP PROCEDURES

3.1 Site Considerations................................................................................3-1

3.2 Unpacking & Installing the Transmitter ....................................................3-4

3.2.1 AC Input .....................................................................................3-5

3.3 Setup and Operation..............................................................................3-5

3.3.1 Input Connections........................................................................3-5

3.4 Initial Turn On.......................................................................................3-6

3.4.1 Exciter/Driver Front Panel LED Indicators........................................3-6

3.4.1.1 Modulator Module LEDs on Front Panel ..................................3-6

3.4.1.2 IF Processor Module LEDs on Front Panel...............................3-7

3.4.1.3 Upconverter Module LEDs on Front Panel...............................3-7

3.4.1.4 Controller Module LEDs on Front Panel ..................................3-7

3.4.1.5 Power Amplifier Module LEDs on Front Panel..........................3-7

3.4.2 Front Panel Screens for the Exciter/Amplifier Chassis Assembly.........3-7

3.4.3 Operation Procedure...................................................................3-15

CHAPTER 4 CIRCUIT DESCRIPTIONS

4.0 Exciter/Driver Chassis Assembly .............................................................4-1

4.1 Modulator Module..................................................................................4-1

4.1.1 Analog Modulator Board................................................................4-1

4.1.1.1 Mono, Balanced Audio Input.................................................4-1

4.1.1.2 Stereo, Composite Audio Input.............................................4-1

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Innovator® HX Series Analog VHF Transmitter Table of Contents

TABLE OF CONTENTS (continued)

SECTION PAGE

4.1.1.3 SAP/PRO, Subcarrier Audio Input..........................................4-2

4.1.1.4 Audio Modulation of the 4.5 MHz VCO ..................................4-2

4.1.1.5 Phase Lock Loop (PLL) Circuit...............................................4-2

4.1.1.6 Main Video Signal Path (Part 1 of 2)......................................4-3

4.1.1.7 Delay Equalizer Circuits .......................................................4-3

4.1.1.8 Sync Tip Clamp Circuit.........................................................4-4

4.1.1.9 Main Video Signal Path (Part 2 of 2)......................................4-5

4.1.1.10 45.75 MHz Oven Oscillator Circuit .......................................4-5

4.1.1.11 Visual Modulator Circuit .....................................................4-6

4.1.1.12 Aural Modulator Circuit ......................................................4-6

4.1.1.13 Visual IF loop thru path......................................................4-6

4.1.1.14 Voltage Requirements........................................................4-7

4.2 IF Processor Module...............................................................................4-7

4.2.1 IF Processor Board .......................................................................4-7

4.2.1.1 Modulator Selected..............................................................4-7

4.2.1.2 External Modulated IF Selected.............................................4-7

4.2.1.3 Main IF Signal Path (Part 1 of 3)...........................................4-7

4.2.1.4 Input Level Detector Circuit..................................................4-8

4.2.1.5 Pin-Diode Attenuator Circuit.................................................4-9

4.2.1.6 Main IF Signal Path (Part 2 of 3).........................................4-10

4.2.1.7 Amplitude and Phase Pre-Correction Circuits........................4-10

4.2.1.8 Main IF Signal Path (Part 3 of 3).........................................4-11

4.2.1.9 ALC Circuit .......................................................................4-11

4.2.1.10 Fault Command...............................................................4-12

4.2.1.11 ±12 VDC needed to operate Board....................................4-13

4.3 Upconverter Module.............................................................................4-13

4.3.1 Downconverter Board .................................................................4-13

4.3.2 L-Band PLL Board.......................................................................4-13

4.3.3 First Conversion Board................................................................4-14

4.3.4 Upconverter Control Board ..........................................................4-14

4.4 Control Monitoring/Power Supply Module ...............................................4-15

4.4.1 Power Protection Board...............................................................4-15

4.4.1.1 +12 VDC Circuits ..............................................................4-15

4.4.1.2 -12 VDC Circuits ...............................................................4-16

4.4.2 Control Board ............................................................................4-16

4.4.2.1 Schematic Page 1..............................................................4-16

4.4.2.2 Schematic Page 2..............................................................4-17

4.4.2.3 Schematic Page 3..............................................................4-17

4.4.2.4 Schematic Page 4..............................................................4-17

4.4.2.5 Schematic Page 5..............................................................4-18

4.4.3 Switch Board .............................................................................4-18

4.4.4 Switching Power Supply Assembly................................................4-19

4.5 Power Amplifier Module .......................................................................4-19

4.5.1 25 Watt VHF Driver Pallet Assembly.............................................4-19

4.5.2 200 Watt VHF Amplifier Pallet Assembly .......................................4-19

4.5.3 Coupler Board Assembly .............................................................4-19

4.5.4 Amplifier Control Board...............................................................4-20

4.5.4.1 Schematic Page 1..............................................................4-20

4.5.4.2 Schematic Page 2..............................................................4-20

4.5.4.3 Current Monitoring Sections of the Board.............................4-21

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Innovator® HX Series Analog VHF Transmitter Table of Contents

TABLE OF CONTENTS (continued)

SECTION PAGE

4.6.4.4 Schematic Page 3 Aural, Visual. Aural Power Detectors .........4-21

4.6 Output Assemblies...............................................................................4-23

CHAPTER 5 DETAILED ALIGNMENT PROCEDURES

5.1 Module Replacement..............................................................................5-1

5.1.1 Initial Test Setup..........................................................................5-1

5.2 Innovator HX Series Exciter/Driver Chassis Assembly................................5-1

5.2.1 Modulator Module Assembly ..........................................................5-2

5.2.2 IF Processor Module Assembly.......................................................5-3

5.2.3 Upconverter Assembly..................................................................5-3

5.2.4 Setting up the Drive Level of the Transmitter Procedure...................5-3

5.3 Linearity Correction Adjustment..............................................................5-4

5.4 Differential Phase and ICPM Corrector Adjustment ....................................5-6

APPENDICES

APPENDIX A HX SERIES VHF HIGH BAND TRANSMITTER DRAWINGS

APPENDIX B SYSTEM SPECIFICATIONS

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Innovator® HX Series Analog VHF Transmitter Table of Contents

LIST OF FIGURES

FIGURE PAGE

1-1 Brady Marker Identification Drawing.................................................1-1

2-1 Exciter/Driver Chassis Assembly Front View ......................................2-1

2-2 Exciter/Driver Chassis Assembly Rear View .....................................2-11

3-1 1 kW Minimum Ventilation Configuration...........................................3-4

3-2 Rear View exciter/driver chassis.......................................................3-5

5-1 Adjustments accessed through top of HX Exciter Chassis....................5-5

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Innovator® HX Series Analog VHF Transmitter Table of Contents

LIST OF TABLES

TABLE PAGE

2-1 HX Series Trays and Assemblies.......................................................2-1

2-2 Modulator Front Panel Switch...........................................................2-2

2-3 Modulator Front Panel Status Indicators............................................2-2

2-4 Modulator Front Panel Control Adjustments.......................................2-3

2-5 Modulator Front Panel Sample .........................................................2-3

2-6 IF Processor Front Panel Switch .......................................................2-4

2-7 IF Processor Front Panel Status Indicators ........................................2-4

2-8 IF Processor Front Panel Control Adjustments....................................2-4

2-9 IF Processor Front Panel Sample......................................................2-4

2-10 Upconverter Front Panel Switch .......................................................2-5

2-11 Upconverter Front Panel Status Indicators ........................................2-5

2-12 Upconverter Front Panel Control Adjustments....................................2-5

2-13 Upconverter Front Panel Samples.....................................................2-5

2-14 Controller/Power Supply Front Panel Display .....................................2-6

2-15 Controller/Power Supply Front Panel Status Indicators .......................2-6

2-16 Controller/Power Supply Front Panel Control Adjustments...................2-6

2-17 Power Amplifier Front Panel Status Indicators....................................2-8

2-18 Power Amplifier Front Panel Control Adjustments...............................2-8

2-19 Power Amplifier Front Panel Samples................................................2-8

2-20 HX Series Chassis Customer Remote Connections................... 2-12

3-1 Rear Chassis Connections for HX Series Analog Transmitters ..............3-5

HX System Controller Menu Screens...................................................................3-8

3-2 Menu 01 Splash Screen #1..............................................................3-8

3-3 Menu 02 Splash Screen #2..............................................................3-8

3-4 Menu 10 Main Screen ..................................................................3-8

3-5 Menu 11 Error List Access Screen..................................................3-8

3-6 Menu 12 Transmitter Device Data Access Screen.............................3-9

3-7 Menu 13 Transmitter Configuration Access Screen...........................3-9

3-8 Menu 20 Error List Display Screen.................................................3-9

3-9 Menu 30 Transmitter Device Details Screen....................................3-9

3-10 Menu 30-1 System Details Screens..............................................3-10

3-11 Transmitter Device Parameters Detail Screens..............................3-10

3-12 Menu 40 Authorized Personnel Screen .........................................3-11

3-13 Menu 40-1 Transmitter Set Up: Power Control Screen ...................3-12

3-14 Menu 40-3 Transmitter Set Up: Model Select Screen .....................3-12

3-15 Menu 40-4 Transmitter Set Up: Upconverter Channel Select Screen 3-12

3-16 Menu 40-5 Transmitter Set Up: Serial Address Screen...................3-12

3-17 Menu 40-6 Transmitter Set Up: Station ID Screen ...........................3-12

3-18 Menu 40-7 Transmitter Set Up: System Forward Power Cal. Screen...3-13

3-19 Menu 40-9 Transmitter Set Up: System Rfltd. Power Cal. Screen ......3-13

3-20 Menu 40-11 Transmitter Set Up: Modulated Output Cal. Screen........3-13

3-21 Menu 40-12 Transmitter Set Up: Aural Deviation Screen ..................3-13

3-22 Menu 40-13 Transmitter Set Up: Min Fw Pwr Fault Threshold Screen.3-14

3-23 Menu 40-14 Transmitter Set Up: Refl Power Fault Threshold Screen 3-14

3-24 Menu 40-17 Transmitter Set Up: Auto Standby Control Screen .......3-14

3-25 Menu 40-18 Transmitter Set Up: Inner Loop Gain Control Screen....3-14

3-26 Menu 40-19 Transmitter Set Up: Remote Command Control Screen 3-57

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Innovator® HX Series Analog VHF Transmitter Chapter 1, Introduction

Chapter 1

Introduction

This manual provides information about and documentation on the Innovator® HX Series Analog VHF High Band Transmitter.

It is important that any user of this equipment read all of the instructions, especially the safety information in this chapter, before operating the transmitter.

1.1 Manual Overview This instruction manual is divided into

five chapters and the supporting appendix. Chapter 1, Introduction, contains information on safety, return procedures, and warranties. Chapter 2 contains the system and assembly descriptions. Chapter 3 describes the installation and set up procedures and the operation of the overall transmitter. Chapter 4 contains the detailed circuit descriptions of the boards and subassemblies that are contained in the transmitter. Chapter 5 describes the alignment of the overall transmitter. Appendix A contains the interconnects, schematics and assembly drawings of the system, trays, assemblies, subassemblies and boards that make up the transmitter.

1.2 Assembly Designators

Axcera has assigned assembly numbers,

Ax designations such as A1, where x=1,2,3…etc, to all assemblies, modules, and boards in the system. These designations are referenced in the text of this manual and shown on the block diagrams and interconnect drawings provided in the appendices. The Block Diagrams, Interconnects, Schematics, Assembly Drawings and Parts Lists are arranged in increasing numerical order in the appendices. Section titles in the text for assembly or module descriptions or alignment procedures contain the associated part number(s) and the relevant appendix that contains the drawings for that item.

The cables that connect between the boards within a tray or assembly and that connect between the trays, racks and cabinets are labeled using Brady markers.

Figure 1-1 is an example of a Brady marked cable. There may be as few as two or as many as four Markers on any one cable. These Brady markers are read starting furthest from the connector. If there are four Brady Markers, this marker is the transmitter number such as transmitter 1 or Transmitter 2. The next or the furthest Brady Marker is the rack or cabinet number on an interconnect cable or the board number within a tray. The next number on an interconnect cable is the Tray location or number. The Brady marker closest to the connector is the Jack or Connector number on an interconnect cable or the jack or connector number on the board within a tray.

Figure 1-1 Brady Marker Identification Drawing

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Innovator® HX Series Analog VHF Transmitter Chapter 1, Introduction

1.3 Safety

Products manufactured by Axcera are designed to be easy to use and repair while providing protection from electrical and mechanical hazards. Listed throughout the manual are notes, cautions, and warnings concerning possible safety hazards that may be encountered while operating or servicing the product. Please review these warnings and familiarize yourself with the operation and servicing procedures before working on the product.

Read All Instructions – All of the operating and safety instructions should be read and understood before operating this equipment.

Retain Manuals – The manuals for the equipment should be retained at the site in which the equipment is operating for future reference. We provide two sets of manuals for this purpose; one set can be left at the office while one set can be kept at the site.

Heed all Notes, Warnings, and Cautions – All of the notes, warnings,

and cautions listed in this safety section and throughout the manual must be followed.

Follow Instructions – All of the operating and use instructions for the product should be followed.

Cleaning – Unplug or otherwise disconnect all power from the equipment before cleaning. Do not use liquid or aerosol cleaners. Use a damp cloth for cleaning.

Servicing – Do not attempt to service this product yourself until becoming familiar with the equipment. If in doubt, refer all servicing questions to qualified Axcera service personnel.

Replacement Parts – When replacement parts are needed, be sure that the parts have the same functional and performance characteristics as the

original part. Unauthorized substitutions may result in fire, electric shock, or other hazards. Please contact the Axcera Technical Service Department if you have any questions regarding service or replacement parts.

1.4 Contact Information

The Axcera Field Service Department can be contacted by phone at (724) 873- 8100 or by fax at (724) 873-8105.

Before calling Axcera, please be prepared to supply the Axcera technician with answers to the following questions. This will save time and help ensure the most direct resolution to the problem.

1. What are the Customers’ Name and call letters?

2. What are the model number and type of transmitter?

3. Is the transmitter digital or analog?

4. How long has the transmitter been on the air? (Approximately when was the transmitter installed.)

5. What are the symptoms being exhibited by the transmitter? Include the current control/power supply LCD readings and the status of LEDs on the front panels of the modules. If possible, include the control/power supply LCD readings before the problem occurred.

1.5 Material Return Procedure

To insure the efficient handling of equipment or components that have been returned for repair, Axcera requests that each returned item be accompanied by a Material Return Authorization Number (MRA#).

An MRA# can be obtained from any Axcera Service Engineer by contacting the Axcera Technical Service Department at (724) 873-8100 or by fax at (724) 873-8105. This procedure applies to all

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Innovator® HX Series Analog VHF Transmitter Chapter 1, Introduction

items sent to the Technical Service Department regardless of whether the item was originally manufactured by Axcera.

When equipment is sent to the field on loan, an MRA# is included with the unit. The MRA# is intended to be used when the unit is returned to Axcera. In addition, all shipping material should be retained for the return of the unit to Axcera.

Replacement assemblies are also sent with an MRA# to allow for the proper routing of the exchanged hardware. Failure to close out this type of MRA# will normally result in the customer being invoiced for the value of the loaner item or the exchange assembly.

When shipping an item to Axcera, please include the MRA# on the packing list and on the Axcera-provided shipping container. The packing slip should also include contact information and a brief description of why the unit is being returned.

Please forward all MRA items to:

Axcera Customer Service Department 103 Freedom Drive P.O. Box 525 Lawrence, PA 15055-0525 USA

For more information, concerning this procedure, call the Axcera Technical Service Department.

Axcera can also be contacted through email at service@axcera.com and on the Web at www.axcera.com.

1.6 Limited One-Year Warranty for Axcera Products

Axcera warrants each new product that it has manufactured and sold against defects in material and workmanship under normal use and service for a

period of one (1) year from the date of shipment from Axcera's plant, when operated in accordance with Axcera's operating instructions. This warranty shall not apply to tubes, fuses, batteries, or bulbs.

Warranties are valid only when and if (a) Axcera receives prompt written notice of breach within the period of warranty, (b) the defective product is properly packed and returned by the buyer (transportation and insurance prepaid), and (c) Axcera determines, in its sole judgment, that the product is defective and not subject to any misuse, neglect, improper installation, negligence, accident, or (unless authorized in writing by Axcera) repair or alteration. Axcera's exclusive liability for any personal and/or property damage (including direct, consequential, or incidental) caused by the breach of any or all warranties, shall be limited to the following: (a) repairing or replacing (in Axcera's sole discretion) any defective parts free of charge (F.O.B. Axcera’s plant) and/or (b) crediting (in Axcera's sole discretion) all or a portion of the purchase price to the buyer.

Equipment furnished by Axcera, but not bearing its trade name, shall bear no warranties other than the special hoursof-use or other warranties extended by or enforceable against the manufacturer at the time of delivery to the buyer.

NO WARRANTIES, WHETHER STATUTORY, EXPRESSED, OR IMPLIED, AND NO WARRANTIES OF MERCHANTABILITY, FITNESS FOR ANY PARTICULAR PURPOSE, OR FREEDOM FROM INFRINGEMENT, OR THE LIKE, OTHER THAN AS SPECIFIED IN PATENT LIABILITY ARTICLES, AND IN THIS ARTICLE, SHALL APPLY TO THE EQUIPMENT FURNISHED HEREUNDER.

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Innovator® HX Series Analog VHF Transmitter Chapter 1, Introduction

F WARNING!!!

× HIGH VOLTAGE Ø

DO NOT ATTEMPT TO REPAIR OR TROUBLESHOOT THIS EQUIPMENT UNLESS YOU ARE FAMILIAR WITH ITS OPERATION AND EXPERIENCED IN SERVICING HIGH VOLTAGE EQUIPMENT. LETHAL VOLTAGES ARE PRESENT WHEN POWER IS APPLIED TO THIS SYSTEM. IF POSSIBLE, TURN OFF POWER BEFORE MAKING ADJUSTMENTS TO THE SYSTEM.

« RADIO FREQUENCY RADIATION HAZARD «

MICROWAVE, RF AMPLIFIERS AND TUBES GENERATE HAZARDOUS RF RADIATION THAT CAN CAUSE SEVERE INJURY INCLUDING CATARACTS, WHICH CAN RESULT IN BLINDNESS. SOME CARDIAC PACEMAKERS MAY BE AFFECTED BY THE RF ENERGY EMITTED BY RF AND MICROWAVE AMPLIFIERS. NEVER OPERATE THE TRANSMITTER SYSTEM WITHOUT A PROPERLY MATCHED RF ENERGY ABSORBING LOAD ATTACHED. KEEP PERSONNEL AWAY FROM OPEN WAVEGUIDES AND ANTENNAS. NEVER LOOK INTO AN OPEN WAVEGUIDE OR ANTENNA. MONITOR ALL PARTS OF THE RF SYSTEM FOR RADIATION LEAKAGE AT REGULAR INTERVALS.

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Innovator® HX Series Analog VHF Transmitter Chapter 1, Introduction

EMERGENCY FIRST AID INSTRUCTIONS

Personnel engaged in the installation, operation, or maintenance of this equipment are urged to become familiar with the following rules both in theory and practice. It is the duty of all operating personnel to be prepared to give adequate Emergency First Aid and thereby prevent avoidable loss of life.

RESCUE BREATHING

1. Find out if the person is breathing.

You must find out if the person has stopped breathing. If you think he is not breathing, place him flat on his back. Put your ear close to his mouth and look at his chest. If he is breathing you can feel the air on your cheek. You can see his chest move up and down. If you do not feel the air or see the chest move, he is not breathing.

2. If he is not breathing, open the airway by tilting his head backwards.

Lift up his neck with one hand and push down on his forehead with the other. This opens the airway. Sometimes doing this will let the person breathe again by himself.

SKIN REDDENED: Apply ice cold water to burned area to prevent burn from going deeper into skin tissue. Cover area with a clean sheet or cloth to keep away air. Consult a physician.

SKIN BLISTERED OR FLESH CHARRED: Apply ice cold water to burned area to prevent burn from going deeper into skin tissue.

3. If he is still not breathing, begin rescue breathing.

-Keep his head tilted backward. Pinch nose shut.

-Put your mouth tightly over his mouth.

-Blow into his mouth once every five seconds

-DO NOT STOP rescue breathing until help arrives.

LOOSEN CLOTHING - KEEP WARM

Do this when the victim is breathing by himself or help is available. Keep him as quiet as possible and from becoming chilled. Otherwise treat him for shock.

BURNS

Cover area with clean sheet or cloth to keep away air. Treat victim for shock and take to hospital.

EXTENSIVE BURN - SKIN BROKEN: Cover area with clean sheet or cloth to keep away air. Treat victim for shock and take to hospital.

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Innovator® HX Series Analog VHF Transmitter Chapter 1, Introduction

VHF TELEVISION CHANNEL FREQUENCIES

FREQ

CHANNEL

2 54.00 60.00 55.25 58.83 59.75 101 3 60.00 66.00 61.25 64.83 65.75 107 4 66.00 72.00 67.25 70.83 71.75 113 5 76.00 82.00 77.25 80.83 81.75 123 6 82.00 88.00 83.25 86.83 87.75 129 7 174.00 180.00 175.25 178.83 179.75 221

LIMIT

LOW

(MHz)

FREQ

LIMIT

HIGH

(MHz)

VISUAL

CARRIER

(Vc)

(MHz)

COLOR

CARRIER

(MHz)

AURAL

CARRIER

(MHz)

L.O. FREQ

45.75 + Vc (MHz)

8 180.00 186.00 181.25 184.83 185.75 227

9 186.00 192.00 187.25 190.83 191.75 233 10 192.00 198.00 193.25 196.83 197.75 239 11 198.00 204.00 199.25 202.83 203.75 245 12 204.00 210.00 205.25 208.83 209.75 251 13 210.00 216.00 211.25 214.83 215.75 257

NOTE: Because of a possible FCC assigned offset, the carrier frequency may vary

from those given in the above table. Please check for the assigned carrier frequency as written on the license.

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Innovator® HX Series Analog VHF Transmitter Chapter 1, Introduction

dBm, dBw, dBmV, dBµV, & VOLTAGE

EXPRESSED IN WATTS

50 Ohm System

WATTS PREFIX dBm dBw dBmV dBµV VOLTAGE 1,000,000,000,000 1 TERAWATT +150 +120 100,000,000,000 100 GIGAWATTS +140 +110 10,000,000,000 10 GIGAWATTS +130 +100 1,000,000,000 1 GIGAWATT +120 + 99 100,000,000 100 MEGAWATTS +110 + 80 10,000,000 10 MEGAWATTS +100 + 70 1,000,000 1 MEGAWATT + 90 + 60 100,000 100 KILOWATTS + 80 + 50 10,000 10 KILOWATTS + 70 + 40 1,000 1 KILOWATT + 60 + 30 100 1 HECTROWATT + 50 + 20 50 + 47 + 17 20 + 43 + 13 10 1 DECAWATT + 40 + 10 1 1 WATT + 30 0 + 77 +137 7.07V

0.1 1 DECIWATT + 20 - 10 + 67 +127 2.24V

0.01 1 CENTIWATT + 10 - 20 + 57 +117 0.707V

0.001 1 MILLIWATT 0 - 30 + 47 +107 224mV

0.0001 100 MICROWATTS - 10 - 40

0.00001 10 MICROWATTS - 20 - 50

0.000001 1 MICROWATT - 30 - 60

0.0000001 100 NANOWATTS - 40 - 70

0.00000001 10 NANOWATTS - 50 - 80

0.000000001 1 NANOWATT - 60 - 90

0.0000000001 100 PICOWATTS - 70 -100

0.00000000001 10 PICOWATTS - 80 -110

0.000000000001 1 PICOWATT - 90 -120

TEMPERATURE CONVERSION

°F = 32 + [(9/5) °C]

°C = [(5/9) (°F - 32)]

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Innovator® HX Series Analog VHF Transmitter Chapter 1, Introduction

USEFUL CONVERSION FACTORS

TO CONVERT FROM TO MULTIPLY BY

mile (US statute) kilometer (km) 1.609347 inch (in) millimeter (mm) 25.4 inch (in) centimeter (cm) 2.54 inch (in) meter (m) 0.0254 foot (ft) meter (m) 0.3048 yard (yd) meter (m) 0.9144 mile per hour (mph) kilometer per hour(km/hr) 1.60934 mile per hour (mph) meter per second (m/s) 0.44704 pound (lb) kilogram (kg) 0.4535924 gallon (gal) liter 3.7854118 U.S. liquid (One U.S. gallon equals 0.8327 Canadian gallon) fluid ounce (fl oz) milliliters (ml) 29.57353 British Thermal Unit watt (W) 0.2930711 per hour (Btu/hr) horsepower (hp) watt (W) 746

NOMENCLATURE OF FREQUENCY BANDS

FREQUENCY RANGE DESIGNATION 3 to 30 kHz VLF - Very Low Frequency

30 to 300 kHz LF - Low Frequency 300 to 3000 kHz MF - Medium Frequency 3 to 30 MHz HF - High Frequency 30 to 300 MHz VHF - Very High Frequency 300 to 3000 MHz UHF - Ultrahigh Frequency 3 to 30 GHz SHF - Superhigh Frequency 30 to 300 GHz EHF - Extremely High Frequency

LETTER DESIGNATIONS FOR UPPER FREQUENCY

BANDS

LETTER FREQ. BAND

L 1000 - 2000 MHz S 2000 - 4000 MHz C 4000 - 8000 MHz X 8000 - 12000 MHz Ku 12 - 18 GHz K 18 - 27 GHz Ka 27 - 40 GHz V 40 - 75 GHz W 75 - 110 GHz

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Innovator® HX Series Analog VHF Transmitter Chapter 1, Introduction

0 -10 -20 -30 -40 -50 -60

-70

RETURN LOSS VS. VSWR

R E T U R

L O S S

1.001 1.01 1.1 2.0

VSWR

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Innovator® HX Series Analog VHF Transmitter Chapter 1, Introduction

ABBREVIATIONS/ACRONYMS

AC Alternating Current AFC Automatic Frequency Control ALC Automatic Level Control AM Amplitude modulation AGC Automatic Gain Control AWG American wire gauge BER Bit Error Rate BW Bandwidth DC Direct Current D/A Digital to analog dB Decibel dBm Decibel referenced to

1 milliwatt dBmV Decibel referenced to

1 millivolt

dBw Decibel referenced to 1 watt FEC Forward Error Correction FM Frequency modulation Hz Hertz ICPM Incidental Carrier Phase

Modulation I/P Input IF Intermediate Frequency

LED Light emitting diode LSB Lower Sideband MPEG Motion Pictures Expert Group O/P Output PLL Phase Locked Loop PCB Printed circuit board QAM Quadrature Amplitude

Modulation

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Innovator® HX Series Analog VHF Chapter 2, System Description

A2 A3 A5 A4 A6

Transmitter and Remote Control Connections

Chapter 2

System Description and Remote Control Connections

2.0 System Overview

The Innovator® HX Series VHF Transmitter is a complete internally diplexed modular television transmitter. It operates at a nominal output power of 100 watts analog.

The HX Series transmitter is made up of the modules and assemblies as shown in Figure 2-1 and listed in Table 2-1.

Figure 2-1: Transmitter Front View

Table 2-1: HX Series Trays and Assemblies

ASSEMBLY DESIGNATOR

A11 Backplane Board, Axciter 1307307

A2 Modulator Module 1305420 A3 IF Processor Module 1305421 A5 VHF/UHF Upconverter Module 1303829 A4 Control/Power Supply Module 1301936 (110 VAC) A6 Power Amplifier Module 1305822

2.1 Exciter Amplifier Chassis Assembly, (1307715/110VAC; Appendix A)

All of the modules, except the power amplifier module and the power supply section of the Control & Monitoring/Power Supply Module plug directly into the Backplane Board, Axciter (1307307). The backplane board provides module to

TRAY/ASSEMBLY NAME PART NUMBER

Exciter Driver Chassis Assembly, HX Series

1307715 (110 VAC)

module interconnection as well as interconnection to remote command and control connectors. Refer to the backplane board schematic drawing (1307308), located in Appendix A, for the exciter driver chassis assembly connections.

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2.1.1 (A2) Modulator Module Assembly (1305420; Appendix A)

modulator is broadcast quality and provides front panel access to control and monitoring points. The video level is controlled through a sync tip clamp and sync and white clipping circuitry. The IF oscillator is oven controlled and locked to a 10 MHz reference for stability. The IF signal is fed through a SAW filter for precise sideband shaping. The Modulator operates using the baseband audio and video inputs to produce a diplexed, modulated, and on-channel frequency visual + aural IF output that is cabled to the IF Processing Module.

The (A2) Modulator Assembly contains the Modulator Board (1304704). The

Table 2-2. Modulator Front Panel Switch

SWITCH FUNCTION

When Manual Clamp is selected, the video level is set by the Manual Bias Pot R67 located on the board. (NOTE: The pot is

MAN/AUTO CLAMP

SW1

factory set and needs no adjustment by the customer). When Auto Clamp is selected, the video level control circuit

will automatically increase or decrease the video to maintain the desired video level.

Table 2-3. Modulator Front Panel Status Indicators

LED FUNCTION

AUR UNLOCK

DS5 (Red)

VIS UNLOCK

DS6 (Red)

AUDIO DEV

DS4 (Red)

VIDEO LOSS

DS1 (Red)

OVER MOD

DS3 (Red)

ALT IF

DS7 (Green)

10 MHz PRES

DS2 (Green)

When lit it indicates that the 4.5 MHz VCO and the 10 MHz reference are not PLL locked. When lit it indicates that the 45.75 MHz VCXO and the 10 MHz reference signal are not PLL locked.

When lit it indicates the deviation level is more than ±80kHz

When lit it indicates the Video Input to the transmitter is lost.

When lit it indicates the Video input level is too high.

When lit it indicates that external or alternate 4.5MHz is present. When lit it indicates that a 10MHz reference is present to the

transmitter.

Table 2-4. Modulator Front Panel Control Adjustments

POTENTIOMETERS

DESCRIPTION

Video Gain (R42) Adjusts the level of the output video.

Visual Level (R214) Adjusts the Visual IF level that combines with the Aural IF.

Aural Level (R243) Adjusts the Aural IF level that combines with the Visual IF.

MONO (R110) Adjusts the deviation level of the balanced audio input.

STEREO (R132) Adjusts the deviation level of the composite audio input.

SAP/PRO (R150) Adjusts the deviation level of the subcarrier audio input.

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Table 2-5. Modulator Front Panel Sample

SMA CONNECTOR DESCRIPTION

MOD IF SAMPLE (J10) Sample of the combined Aural IF and Visual IF signals.

2.1.2 (A3) IF Processor Module Assembly (1305421; Appendix A)

system's Control Monitoring board compares the RF Power Monitoring module RF power level with the desired level and uses the IF Power Control PWM line to correct for errors.

The IF Processor module provides a reference ALC voltage to the system's Upconverter. When the ALC voltage decreases, the Upconverter automatically lowers the system output power through the AGC circuits.

The IF Processor module has a front

The (A3) IF Processor Assembly contains the IF Processor Board (1304687). The IF Processor provides pre-correction to ensure broadcast quality output signal. The pre-correction consists of amplitude linearity correction, Incidental Carrier Phase Modulation (ICPM) correction and frequency response correction.

The IF Processor module is configured either for an analog or digital system. Pin 13C of the IF Processor module is grounded in analog systems and left not connected in digital systems. An IF Processor Interlock signal is used to report the presence of the IF Processor module to the Control Monitoring board. If the IF Processor interlock signal is not present, the HX Series Exciter Driver RF output is Muted (turned off).

The Control & Monitoring/Power Supply module uses the IF Processor module for System output power control. Through the front panel display or a remote interface, an operator can set the RF output power level of the transmitter. The range of RF power adjustment is between 0% (full off) and 105% (full power plus). A front panel IF Processor module potentiometer sets the upper

panel switch to select Auto or Manual ALC. When Manual ALC is selected, the reference ALC voltage is set by a front panel potentiometer. In this condition, the RF power level control circuit is removed from use. When the ALC select switch is changed to Auto, the RF power level control circuit will start at low power and increase the RF output until the desired output power is attained.

The IF Processor module Modulation Present signal is monitored by the Control Monitoring board. If the modulation level is too low or nonexistent, a Modulation Present Fault is reported to the Control Monitoring board. When the controller detects this fault, it can be set to Automatically Mute the transmitter or if it is set to Manual mode the transmitter will continue to operate at 25% output.

The IF Processor module Input Signal level is monitored by the Control Monitoring board. If the signal level is too low or non-existent, an Input Fault is reported on the Control Monitoring board. When the IF Processor board detects an Input Signal Fault it automatically Mutes the transmitter. The system controller does not Mute on an IF Processor Input Fault.

limit of RF power at 120%. The

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Table 2-6. IF Processor Front Panel Switch

SWITCH FUNCTION

When Manual ALC is selected, the reference ALC voltage is set by the ALC Gain front panel potentiometer.

MAN/AUTO ALC

Table 2-7. IF Processor Front Panel Status Indicators

LED FUNCTION

INPUT FAULT (Red)

ALC Fault (Red)

MUTE (Red)

Table 2-8. IF Processor Front Panel Control Adjustments

POTENTIOMETERS

ALC GAIN

MAN GAIN

Table 2-9. IF Processor Front Panel Sample

SMA CONNECTOR DESCRIPTION

IF SAMPLE Sample of the pre-corrected IF output of the IF Processor

2.1.3 (A5) VHF/UHF Upconverter Module Assembly (1303829; Appendix A)

The VHF/UHF Upconverter Module Assembly contains (A1) a Downconverter Board Assembly (1303834), (A3) a First

When Auto ALC is selected, the IF level control circuit will automatically increase the IF output until the desired output power is attained.

When lit it indicates that there is a loss of the IF Input signal to the IF Processor. Transmitter can be set to Mute on an IF Input Fault. When lit it indicates that the required gain to produce the desired output power level has exceeded the operational range of the ALC circuit. The LED will also be lit when ALC is in Manual. When lit it indicates that the IF input signal is cut back but the enable to the Power Supply is present and the +32 VDC remains on.

DESCRIPTION

Adjusts the gain of the transmitter when the transmitter is in the Auto ALC position. Adjusts the gain of the transmitter when the transmitter is in the Manual ALC position.

Conversion Board (1303838), (A2) a LBand PLL Board (1303846) and (A4) an Upconverter Control Board (1304760).

A 44 MHz IF input @ 0 dBm level connects to the upconverter through the backplane board and is applied to a mixer mounted on the first conversion board. Also applied to the mixer is a nominal 1 GHz LO1. The mixer converts it to a nominal frequency centered at 1044 MHz. A filter selects the appropriate conversion product, which is then amplified to a level of approximately –4 dBm. The frequency of the first conversion LO1 can be shifted by ± 10 kHz to generate channel offsets of 10kHz. For +offsets the frequency is 999.99 MHz and for – offsets the frequency is 1000.01 MHz.

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This signal is applied to a second mixer mounted on the downconverter board that converts it back to a broadcast channel (2-69) by an LO2 that operates in 100kHz steps between 1.1-1.9 GHz depending on the channel selected. The LO2 frequency equals the Channel center frequency plus the LO1 frequency plus 44 MHz. (As an example CH9: Center Frequency is 189.00 MHz and LO1 is 1000.00 MHz therefore, LO2 is 189 + 1000 + 44, which equals 1233.00 MHz.)

Table 2-10. VHF/UHF Upconverter Front Panel Switch

SWITCH FUNCTION

When Manual AGC is selected, the reference AGC voltage is set by

MAN/AUTO AGC

(Left Manual, Right

AGC)

Table 2-11. VHF/UHF Upconverter Front Panel Status Indicators

LED FUNCTION

PLL 1 Fault

(Red)

PLL 2 Fault

(Red)

AGC Fault

(Red)

AGC Override

(Red)

Man Gain

(Amber)

Table 2-12. VHF/UHF Upconverter Front Panel Control Adjustments

POTENTIOMETERS

MAN GAIN ADJ

AGC ADJ

AGC CUTBACK ADJ

(AGC OVERRIDE)

Table 2-13. VHF/UHF Upconverter Front Panel Samples

SMA CONNECTOR DESCRIPTION

LO1 SAMPLE

LO2 SAMPLE

RF SAMPLE Sample of the On Channel RF Output of the Upconverter

the AGC Manual Gain front panel potentiometer. When Auto AGC is selected, the RF power level control circuit will

automatically increase the RF output until the desired output power is attained.

When lit it indicates that the 1 GHz PLL is unlocked

When lit it indicates that the 1.1 –1.9 GHz PLL is unlocked

When lit it indicates that the AGC is out of range. When lit it indicates that the AGC is cutting back due to too much

drive to the driver module. When lit it indicates that the AGC is bypassed in Manual.

Adjusts the gain of the upconverter and transmitter when in the Manual AGC position. Adjusts the gain of the upconverter and transmitter when in the Auto AGC position. Adjusts the point at which the transmitter will cut back in power, due to too much drive, when the Transmitter is in Auto AGC.

Sample of the 1 GHz nominal LO1 signal in the Upconverter as generated on the L-Band PLL Board. Sample of the 1.1-1.9 GHz LO2 signal in the Upconverter as generated on the First Conversion Board.

The output of the mixer is applied to a 900 MHz Low pass filter to remove unwanted conversion products. The resulting signal is amplified and applied to a Pin diode attenuator before it is connected to the output of the upconverter. This pin diode attenuator adjusts the gain of the module and is controlled by an Automatic Gain Control circuit, which maintains a constant power out of the upconverter, and also the transmitter, that connects to the power amplifier module.

DESCRIPTION

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2.1.4 (A4) Control/Power Supply Module Assembly (1301936/110 VAC; Appendix A)

Table 2-14. Controller/Power Supply Display

DISPLAY FUNCTION

A 4 x 20 display providing a four-line readout of the internal

LCD

Table 2-15. Controller/Power Supply Status Indicator

LED FUNCTION

OPERATE

(green)

FAULT

(red or green)

DC OK

( red or green )

Table 2-16. Controller/Power Supply Control Adjustments

POTENTIOMETERS

DISPLAY CONTRAST Adjusts the contrast of the display for desired viewing of screen.

functions, external inputs, and status. See Chapter 3, Controller/Power Supply Display Screens, for a listing of displays.

When lit it indicates that the transmitter is in the Operate Mode. If transmitter is Muted the Operate LED will stay lit, the transmitter will remain in Operate, until the input signal is returned. Red indicates that a problem has occurred in the transmitter. The transmitter will be Muted or placed in Standby until the problem is corrected. Green indicates that the switchable fuse protected DC outputs that connect to the modules in the transmitter are OK.

The (A4) Control & Monitoring/Power Supply Assembly is made up of a Control Board (1302021), a Power Protection Board (1302837) and a Switch Board (1527-1406). The Assembly also contains a switching power supply that provides ±12 VDC to the rest of the modules in the chassis and +32 VDC to the Power Amplifier module.

The Assembly provides all transmitter control and monitoring functions. The Front panel LCD screens allow monitoring of system parameters, including forward and reflected power, transistor currents, module temperatures and power supply voltages. The LCD screens are detailed in Chapter 3.

DESCRIPTION

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2.1.5 (A6) VHF Power Amplifier Module (1305822; Appendix A)

The (A6) Power Amplifier Module Assembly is made up of a Coupler Board Assembly (1211-1004), an Amplifier Control Board (1303682), a Delta RF 25 Watt VHF Driver Assembly (1305820) and a Delta RF 200 Watt VHF Amplifier Assembly (1300167).

The Power Amplifier Module contains Broadband LDMOS amplifiers that cover the VHF High Band with no tuning required. They amplify the RF to the output power of the transmitter.

The Power Amplifier is used to amplify the RF output of the Upconverter module. A jumper cable, located on the rear chassis, connects the RF output from the LO/Upconverter at J23 to J24 the RF input to the PA Assembly.

The Power Amplifier module contains an amplifier control and monitoring board. This board monitors the RF output power, RF reflected power, the current draw of amplifier sections, the supply voltage, and the temperature of the PA heat sink. The Control and monitoring lines to the Power Amplifier module are routed through the floating blind-mate connector of the Control & Monitoring/Power Supply module.

The RF power detector circuit outputs vary with operating frequency. These circuits must be calibrated at their intended operating frequency. Front panel adjustment potentiometers, R201 for Reflected Power and R202 for Forward Power, are used for calibration.

The Aural power of the Power Amplifier assembly is not reported by the system Control Monitoring module. Additionally the Visual power of the amplifier is reported as Forward Power.

The Forward Power of the Power Amplifier module is routed to the Upconverter module as AGC #1. A system over-drive condition is detected when this value rises above 0.9 VDC. When an over-drive condition is detected, the Upconverter module reduces its RF output level. For values less than 0.9 VDC, the Upconverter uses this voltage for automatic gain.

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Table 2-17. Power Amplifier Status Indicator

LED FUNCTION

ENABLED

(Green)

DC OK

(Green)

TEMP

(Green)

MOD OK

(Green)

When lit Green, it indicates that the PA is in the Operate Mode. If a Mute occurs, the PA will remain Enabled, until the input signal is returned. When lit Green, it indicates that the fuse protected DC inputs to the PA module are OK. When lit Green, it indicates that the temperature of the heatsink assembly in the module is below 78°C. When lit Green, it indicates that the PA Module is operating and has no faults. If the Module OK LED is Red and blinking a fault is present. 1 Blink indicates Amplifier Current Fault.

MOD OK

(Red)

2 Blinks indicate Temperature Fault. 3 Blinks indicate +32V Power Supply Over Voltage Fault. 4 Blinks indicate +32V Power Supply Under Voltage Fault. 5 Blinks indicate Reflected Power Fault. 6 Blinks indicate +12V or –12V Power Supply Fault.

Table 2-18. Power Amplifier Control Adjustments

POTENTIOMETERS

DESCRIPTION

FWD CAL Adjusts the gain of the Forward Power monitoring circuit

RFL CAL Adjusts the gain of the Reflected Power monitoring circuit

Table 2-19. Power Amplifier Sample

DISPLAY FUNCTION

VISUAL SAMPLE RF sample of the amplified signal being sent out the module on J25.

2.1.6 RF Output

The RF output from the power amplifier is at the RF output jack, an “N” connector J25, PA RF Output, of the chassis assembly. This is the 100 Watt VHF output of the transmitter that connects to the bandpass filter for your system..

2.2 Control and Status The control and status readings of the

chassis assembly are found by operating the front panel display screen located on the front of the control assembly. Detailed information on the use of the screens is found in chapter 3.

2.2.1 Front Panel Display Screens

A 4 x 20 display located on the front of the Control & Monitoring/Power Supply Module is used in the HX Series transmitter for control of the operation and display of the operating parameters

of the transmitter. Refer to Chapter 3 for descriptions of the screens.

2.3 System Operation

When the transmitter is in operate, as set by the menu screen located on the Control & Monitoring Module, the following occurs. The IF Processor will be enabled and the mute indicator on the front panel will be extinguished. The +32 VDC stage of the Power Supply in the Control & Monitoring Module is enabled, the operate indicator on the front panel is lit and the DC OK on the front panel will also be green. The enable and DC OK indicators on the PA Module will also be green.

When the transmitter is in standby, the following occurs. The IF Processor will be disabled; the mute indicator on the front panel will be red. The +32 VDC stage of the Power Supply in the Control & Monitoring Module is disabled. The operate indicator on the front panel will

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