UBS Axcera LU3000ATD, LU500ATD Users Manual

INSTRUCTION MANUAL
Innovator
LX Series
Digital Power Amplifier
Assembly
103 FREEDOM DRIVE P.O. BOX 525 LAWRENCE, PA 15055-0525 USA
(724) 873-8100 FAX (724) 873-8105
www.axcera.com info@axcera.com
LX Series Digital Table of Contents
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Power Amplifier Assembly
TABLE OF CONTENTS
CHAPTER 1 INTRODUCTION SECTION PAGE
1.1 Manual Overview...................................................................................1-1
1.2 Assembly Designation Numbers ..............................................................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 AMPLIFIER ASSEMBLY DESCRIPTION, MAINTENANCE & REMOTE CONTROL CONNECTIONS
2.1 LX Series Power Amplifier Chassis Assembly Overview .............................2-1
2.1.1 Power Amplifier Chassis Configurations...........................................2-3
2.1.1.1 125 Watt Power Amplifier Chassis Configuration.....................2-3
2.1.1.2 250 Watt Power Amplifier Chassis Configuration.....................2-3
2.1.1.3 500W Power Amplifier Chassis Configuration..........................2-3
2.1.2 System Configurations..................................................................2-4
2.1.2.1 125W, 250W or 500W System Configurations ........................2-4
2.1.2.2 1 kW System Configuration..................................................2-4
2.1.2.3 1.5 kW System Configuration ...............................................2-4
2.1.2.4 2 kW System Configuration..................................................2-5
2.1.2.5 2.5 kW System Configuration ...............................................2-5
2.1.2.6 3 kW System Configuration..................................................2-6
2.1.3 Power Amplifier Module Assembly, 250W........................................2-8
2.1.4 Power Supply Module Assembly...................................................2-10
2.1.5 Front Panel LCD Display Screens..................................................2-10
2.2 External Assembly...............................................................................2-10
2.2.1 Visual/Aural Metering Board ........................................................2-10
2.3 System Operation................................................................................2-10
2.3.1 Principles of Operation................................................................2-11
2.4 Maintenance .......................................................................................2-12
2.5 Customer Remote Connections....................................................... 2-12
CHAPTER 3 SITE CONSIDERATIONS, INSTALLATION AND SETUP PROCEDURES
3.1 Site Considerations................................................................................3-1
3.2 Unpacking the Chassis w/Modules and bandpass filter...............................3-5
3.3 Installing the Chassis w/Modules and filters..............................................3-5
3.4 AC Input...............................................................................................3-6
3.5 Setup and Operation..............................................................................3-7
3.5.1 Input Connections........................................................................3-7
3.5.2 Initial Turn On .............................................................................3-8
3.5.2.1 DM8 Digital Modulator Module LEDs on Front Panel.................3-8
3.5.2.2 IF Processor Module LEDs on Front Panel...............................3-8
3.5.2.3 VHF/UHF Upconverter Module LEDs on Front Panel .................3-8
3.5.2.4 Controller Module LEDs on Front Panel ..................................3-9
3.5.2.5 Power or Driver Amplifier Module LEDs on Front Panel ............3-9
3.5.3 Front Panel Screens for the Exciter/Amplifier Chassis Assembly.........3-9
3.5.4 Operation Procedure.....................................................................3-9
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TABLE OF CONTENTS - (Continued)
SECTION PAGE
CHAPTER 4 CIRCUIT DESCRIPTIONS
Power Amplifier Chassis Assembly..........................................................4-1
4.1 Power Amplifier Module..........................................................................4-1
4.1.1 UHF Phase/Gain Board..................................................................4-1
4.1.2 150 Watt Driver Pallet Assembly....................................................4-2
4.1.3 150 Watt Driver, Dual Output Board...............................................4-2
4.1.4 UHF Module Assembly, RF Module Pallet, Philips ..............................4-2
4.1.5 2 Way UHF Combiner Assembly.....................................................4-3
4.1.6 Amplifier Control Board.................................................................4-3
4.2 Power Supply Assembly .........................................................................4-5
4.3 External Assembly.................................................................................4-5
4.3.1 Dual Peak Detector Board .............................................................4-5
APPENDICES
APPENDIX A INNOVATOR LX SERIES SPECIFICATIONS APPENDIX B DRAWINGS AND PARTS LISTS APPENDIX C TRANSMITTER LOG SHEET
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LIST OF FIGURES
FIGURE PAGE
1-1 Brady Marker Identification Drawing.................................................1-1
2-1 500W Digital Power Amplifier Assembly Racking Plan.........................2-3
3-1 1 kW Minimum Ventilation Configuration...........................................3-4
3-2 Front and Rear View Exciter/Driver...................................................3-5
3-3 Front and Rear View 76” Cabinet Typical 2kW Configuration ...............3-6
3-4 AC Input Box Assembly...................................................................3-6
3-5 Rear View of LX Series Transmitter ..................................................3-7
4-1 125 Watt Digital UHF Amplifier Module .............................................4-2
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LIST OF TABLES
TABLE PAGE
2-1 Typical LX Series Digital System Drawings and Parts Lists ..................2-4
2-2 LX Series Power Amplifier Chassis Assemblies ...................................2-8
2-3 Power Amplifier Status Indicators.....................................................2-9
2-4 Power Amplifier Control Adjustments................................................2-9
2-5 Power Amplifier Sample ..................................................................2-9
2-6 LX Series Customer Remote Connections................................. 2-13
2-7 (Optional) Exciter Switcher Customer Remote Connections.... 2-15
3-1 LX Series Digital Transmitters AC Input and Current Requirements......3-1
3-2 Rear Chassis Connections for LX Series Transmitter...........................3-7
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Chapter 1
Introduction
1.1 Manual Overvi ew
This manual ex plains the installat ion, setup, alignment, and maintenance procedures for the Power Amplifier Assembly for the Innovator LX Ser ies transmitter. Information and drawings on the exciter/d river assembly are contained in Volume 1. It is important that you read all of the instructions , especially the safety information in this chapter, before you begin to install or operate the unit.
This inst ruction man u al i s divided int o five chapters and supporting appendices. Chapter 1, Introduction, contains information on the assembly numbering system used in the manual, safety, maintenance, return procedures, and warranties. Chapter 2, Amp lifier Assembly Description, Maintenance & Remote Control Connections, describes the amplifier assembly and in c lu d e s discussions on control and status indicators and remote control connections. Chapter 3, Site Considera t io n s, Installation and Setup Procedures, explains how to unpack, install, setup, and operate the power amplifier assembly. Chapter 4, Circuit Descriptions, contains circuit level des criptions f or boards an d board lev el compone n ts in t he power amplifier. Appendix A contains system specific a t io n s . Appendix B contains drawings and parts lists. Appendix C contains a transmitter log sheet.
1.2 Asse mbl y Desig na to rs
Axcera has assigned assembly number s, Ax designations such as A1, where x=1,2,3…etc, to all assemb lie s, mo dule s, and boards in the system. These designations are referenced in the text of this man ua l a n d shown on the b lo c k diagrams and interconnect drawings provided in the a ppendices. The B lo ck Diagrams, Interconnects, Schematics, Assembly Drawings and Parts Lists are arrange d in increasing n um erical or de r 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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1.3 Safety
The UHF transmitter syste ms manufactured by Axcera are designed to be easy to use and rep a ir while pr ov id in g protection from electrical and mechanical hazards. Please review the following warnings and fa mil ia r iz e yo u rself with the operation and servicing procedures before working on the transmitter system.
Read All safet y Instructions – All o f the safety instructions should be read and unde rstood be fo r e ope r a t in g t his equipment.
Retain Manuals – The manuals for the transmitter should be retained at the transmitter site for future reference. Axcera provides 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 caut ions liste d in t his safety se c t io n and throughout the manual must be followed.
Follow Operating In stru cti ons – A ll o f the opera t ing a nd us e in s t r uc tions for the transmit t e r s ho uld b e 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.
Ventilation – Open in gs in the ca b in e t and module front pa nels are pro v ided for ventilat io n . To e nsu r e th e re lia b le operation of the driver/transmitter, and to protect the unit from overheating, these openings must not be blocked.
Servicing – Do not attempt to service this product yourself until becoming familiar with the equipment. If in doubt, refer all s e r v icing ques tions to qualified Axcera service personnel.
Replacemen t Pa r ts – When replacement parts are used, 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 contac t the Axce ra 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 a t (724) 873- 8100 or by fax at (724) 873-8105.
Before calling Axcera, please be pre pared to supply the Axcera te chn ician w it h 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 Return Material Procedure
To insure the efficient handling of equipment or components that have been returned for repair, Axcera requests that each returned item be a cc ompan ied by a Return Material Authorization Number (RMA#).
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The RMA# can be obtained from any Axcera Field Service Engineer by contacting the Axcera Field Service Department at (724) 873-8100 or by fax at (724) 873-8105. Th is pr oc e dure applies to all items sent to the Field Service Department regardless of whether the item was originally manufactured by Axcera.
When equipment is sent to the field on loan, an RM A# is i nc l ud e d w it h the un i t. The RMA# is intended to be used when the unit is returned to Axcera. In addition, all shipping mater ial shou ld be retained for the return of the unit to Axcera.
Replacement assemblies are also sent with an RMA# to allow for the proper routing of the exchanged hardware. Failure to close out this ty pe o f RMA# will normally result in the customer being invoiced for the value of the loaner item or the exchanged assembly.
When shipping an item to Axcera, please include the RMA# on the packing list and on the shipping container. The packing slip should also inc lude c ontac t information and a brief description of why the unit is being returned.
Please forward all RMA items to:
AXCERA, LLC 103 Freedom Drive P.O. Box 525 Lawrence, PA 15055-0525 USA
For more information concerning this procedure, call the Axcera Field Service Department @ (724) 873-810 0. Axcera can also be co ntac ted thr o ug h e­mail at info@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, bulbs or LEDs.
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 hour s­of-use or other warranties extended by or enforceable against the manufacturer at the time of delivery to the buyer.
NO WAR R ANTIE S, WHETHER STATUTORY, EXPRESSED, OR IMPLIED, AND NO WARRANTIES OF MERCHANTABIL IT Y, FIT NE SS FOR ANY PARTICULAR PURPOSE, OR FREEDOM FROM INFRINGEMENT, OR THE LIKE, OTHER THAN AS SPECIFIED IN PATENT LIABILITY ARTICLES, AND IN T H IS AR T ICLE, SHALL APPLY TO THE EQUIPMENT FURNISHED HEREUNDER.
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!
! WARNING!!!
!!
"""" HIGH VOLTAGE ####
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.
$$$$ RADIO FREQUE NCY RAD IAT ION HAZ ARD $$$$
MICROWAVE, RF AMPLIFIERS AND TUBES GENERATE HAZARDOUS RF RADIATION THAT CAN CAUSE SEVERE INJURY INCLUDING CATARACTS, WHICH CAN RESULT IN BLINDNESS. SOME CARDIA C 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 INTERVA LS.
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EMERGENCY FIRST AID INSTRUCTIONS
Personnel engaged in the installation, operation, or maintenance of this equipment are urged to become familiar with the follo wing rules both in theory and p ractice. It is the duty of all op erating 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 e ar close to his mouth and loo k at his chest. If he is breathing y ou 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.
BURNS
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 bur ned area to prevent burn fr om going deeper into skin tissue .
3. If he is still not breathing, begin rescue breath i n g.
-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.
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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dBm, dBw, dBmV, dBµµµµV, & 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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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
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
3 to 30 kHz VLF - Very Low 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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RETURN LOSS VS. VSWR
0
-10
-20
R E T U R N
L O S S
-30
dB
-40
-50
-60
-70
1.001 1.01 1.1 2.0
VSWR
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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 DTV Digital Television dB Decibel dBm Decibel referenced to 1 milliwatt dBmV Decibel referenced to 1 millivolt dBw Decibel referenced to 1 watt FEC Forward Er ror 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 Mot ion Pictures Expert Group O/P Output PLL Phase Locked Loop PCB Printed circuit board QAM Quadrat ure Amplitude Modulation SMPTE Society of Motion Picture and
Television Engineers VSB Vestigial Side Band
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Chapter 2
Amplifier Assembly Description, Maintenance
& Remote Control Connections
2.1 LX Series Power Amplifier Cha ssi s Assembly Overview
The power amplifier chassis assembly in the LX Series contains modular television amplifiers that slide into the assembly each producing approximately 125 Watts Digital output. There is also needed one external Power Supply Module Assembly for every two 125 Watt PA modules, which also slide into the Power Amplifier Chassis Assembly, under the PA Modules. One On/Off circuit breaker, mounted on the rear of the power amplifier assembly, supplies AC to each power supply assembly. Four PA modules and two Power Supply modules are the maximum number of modules in one Power Amplifier Chassis Assembly producing 500W Digital output power. Two Power Amplifier Chassis Assemblies are required for 1 kW digital output power, three Power Amplifier Chassis Assemblies for 1.5 kW digital, four Power Amplifier Chassis Assemblies for 2 kW digital, five Power Amplifier Chassis Assemblies for 2.5 kW digital, and six Power Amplifier Chassis Assemblies are required for 3 kW digital output power.
In a 125W digital system the RF output of the exciter/driver at the “N” connector J25 connects to the (A3) power amplifier chassis assembly at the “N” connector J201.
In a 250W or 500W digital system the RF output of the exciter/driver at the “N” connector J25 connects to the (A3) power amplifier chassis assembly at the “N” connector J200.
In a 1 kW digital system the RF output of the exciter/driver connects to (A5) a 2 Way Splitter Assembly. The two outputs of the splitter connect to the (A3) and (A6) power amplifier chassis assemblies at J200.
In a 1.5 kW digital system the RF output of the exciter/driver connects to (A5) a 4 Way Splitter Assembly. Three outputs of the splitter, the fourth at J5 is 5 Watt terminated, connect to the (A3), (A6) and (A13) power amplifier chassis assemblies at J200.
In a 2 kW digital system there are two cabinet assemblies (A1 and A2). The (A1) cabinet assembly contains the (A1­A27) exciter/driver assembly and the (A1-A6 and A1-A3) Power Amplifiers. The (A2) cabinet assembly contains the (A2-A6 and A2-A3) Power Amplifiers. The RF output of the exciter/driver connects to (A1-A5) a 4 Way Splitter Assembly. Three outputs of the splitter at J2, J4 and J5 connect to the (A1-A3), (A2-A6) and (A2-A3) power amplifier chassis assemblies at J200. The fourth output of the splitter at J1 is connected through A1-A5-A1, a phase matching line, before it is connected to the input of the (A1-A6) Power Amplifier.
In a 2.5 kW digital system there are two cabinet assemblies (A1 and A2). The (A1) cabinet assembly contains the (A1­A27) exciter/driver assembly and the (A1-A6 and A1-A3) Power Amplifiers. The (A2) cabinet assembly contains the (A2-A6, A2-A3 and A2-A13) Power Amplifiers. The RF output of the exciter/driver at J25 connects to (A1-A5­A1) a 2 Way Splitter Assembly. One output of the splitter connects to (A2-A5) a 4 way splitter in the (A2) cabinet and the other output connects to (A1-A5-A2) a 4 way splitter in the (A1) cabinet. Two of the outputs of the (A1-A5-A2) splitter at J1, and J5 connect to the (A1-A3) and (A1-A6) power amplifier chassis assemblies at J200. The third and fourth output of the (A1-A5-A2) splitter at J2 and J4 are terminated. The other output of the (A1-A5-A1) 2 Way Splitter at J2
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connects to the (A2) cabinet at J3 of (A2­A5) a 4 way splitter. Three of the outputs of the (A2-A5) splitter at J1, J2 and J4 connect to the (A1-A3), (A1-A6) and (A1­A13) power amplifier chassis assemblies at J200. The other output of the (A2-A5) splitter at J4 is terminated.
In a 3 kW digital system there are two cabinet assemblies (A1 and A2). The (A1) cabinet assembly contains the (A1-A27) exciter/driver assembly and the (A1-A6, A1-A3, and A1-A13) Power Amplifiers. The (A2) cabinet assembly contains the (A2-A6, A2-A3, and A2-A13) Power Amplifiers. The RF output of the exciter/driver at J25 connects to (A1-A5­A1) a 2 Way Splitter Assembly. One output of the splitter connects to (A2-A5) a 4 way splitter in the (A2) cabinet and the other output connects to (A1-A5-A2) a 4 way splitter in the (A1) cabinet. Three of the outputs of the (A1-A5-A2) splitter at J1, J2 and J4 connect to the (A1-A3), (A1-A6) and (A1-A13) power amplifier chassis assemblies at J200. The fourth output of the (A1-A5-A2) splitter at J5 is terminated. The other output of the (A1­A5-A1) splitter at J2 connects to the (A2) cabinet at J3 of (A2-A5) a 4 way splitter. Three of the outputs of the (A2-A5) splitter at J1, J2, and J4 connect to the (A2-A3), (A2-A6), and (A2-A13) power amplifier chassis assemblies at J200. The other output of the (A2-A5) splitter at J5 is terminated.
Data and control information for the system is fed through the system serial cable. In a 125W, 250W or 500W digital system, the system serial cable connects from J34 on the exciter/driver assembly to J232 on the (A3) Power Amplifier Assembly.
In a 1 kW digital system, the system serial cable connects from J34 on the exciter/driver assembly to J232 on the (A3) Power Amplifier Assembly. The serial cable then connects from J233 on the (A3) power amplifier to J232 on the (A6) power amplifier.
In a 1.5 kW digital system, the system serial cable connects from J34 on the exciter/driver assembly to J232 on the (A3) Power Amplifier Assembly. The serial cable then connects from J233 on the (A3) power amplifier to J232 on the (A6) power amplifier and from J233 on the (A6) power amplifier to J232 on the (A13) power amplifier.
In a 2 kW digital system, the system serial cable connects from J34 on the exciter/driver assembly to J232 on the (A1-A3) Power Amplifier Assembly. The serial cable then connects from J233 on the (A1-A3) power amplifier to J232 on the (A1-A6) power amplifier. The serial cable next connects from J233 on (A1­A6) to J233 on the (A2-A3) power amplifier and then from J233 on the (A2­A3) power amplifier to J232 on the (A2­A6) power amplifier.
In a 2.5 kW digital system, the system serial cable connects from J34 on the exciter/driver assembly to J232 on the (A1-A3) Power Amplifier Assembly. The serial cable then connects from J233 on the (A1-A3) power amplifier to J232 on the (A1-A6) power amplifier. The serial cable next connects from J233 on (A1­A6) to J232 on the (A2-A3) power amplifier. The serial cable next connects from J233 on (A2-A3) to J232 on the (A2-A6) power amplifier and then from J233 on the (A2-A6) power amplifier to J232 on the (A2-A13) power amplifier.
In a 3 kW digital system, the system serial cable connects from J34 on the exciter/driver assembly to J232 on the (A1-A3) Power Amplifier Assembly. The serial cable then connects from J233 on the (A1-A3) power amplifier to J232 on the (A1-A6) power amplifier. The serial cable next connects from J233 on (A1­A6) to J232 on the (A1-A13) power amplifier. The serial cable next connects from J233 on (A1-A13) to J232 on the (A2-A3) power amplifier and then from J233 on the (A2-A3) power amplifier to J232 on the (A2-A6) power amplifier. Finally the serial cable connects from
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LX Series Digital Chapter 2, Amplifier Assembly Description, Power Amplifier Assembly Maintenance & Remote Control Connections
J233 on (A2-A6) to J232 on (A2-A13) power amplifier.
2.1.1 Power Amplifier Chassis Configurations
In the 125W digital power amplifier chassis assembly the RF from J201 connects to the OSP Jack J111 in the power amplifier assembly. In the power amplifier chassis assemblies above 250W, the RF from J200 connects to the SMA Jack J100 on the 4 way splitter assembly. The 4 outputs, in a 1 kW amplifier power amplifier assembly, connect through the output SMA jacks to OSP input jacks of the four slide in power amplifier module assemblies. J101 connects to jack J111 on power amplifier #1. J102 connects to jack J121 on power amplifier #2. J103 connects to jack J131 on power amplifier #3. J104 connects to jack J141 on power amplifier #4.
2.1.1.1 125 Watt Digital Power Amplifier Chassis Configuration
In a 125 Watt digital power amplifier chassis assembly, the RF input at J201 is connected to J111 on the power amplifier module. The output of the power amplifier at J112 connects to the RF output jack J203 of the power amplifier chassis assembly.
2.1.1.2 250 Watt Digital Power Amplifier Chassis Configuration
In a 250 Watt digital power amplifier chassis assembly, Jacks J103 and J104, on the 4 way splitter assembly, are not used and are terminated with 50. Also,
the power amplifier modules #3 and #4 are not used. Finally a 2 way combiner is used in place of the 4 way combiner.
2.1.1.3 500W Digital Power Amplifier Chassis Configuration
In a 500W digital amplifier power amplifier assembly, the output OSP jacks connect to the OSP input jacks on the four way combiner assembly. J112 connects to J151 on the 4 way combiner. J122 connects to J152 on the 4 way combiner power amplifier #2. J132 connects to J153 on the 4 way combiner. J142 connects to J154 on the 4 way combiner.
Figure 2-1. 500W Digital Power Amplifier
Assembly Racking Plan
In a 500W digital amplifier power amplifier assembly, the (A5) power supply #1 provides voltages to the (A1) power amplifier #1 and the (A3) power amplifier #3 assemblies and the (A6) power supply #2 provides voltages to the (A2) power amplifier #2 and the (A4) power amplifier #4.
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2.1.2 System Configurations
Table 2-1: Typical LX Series Digital System Configuration Drawings and Parts Lists
DIGITAL SYSTEM
CONFIGURATIONS
125W 1303940 1303596 1303913 250W 1303940 1303596 1303893 500W 1303940 1303596 1303894
1 kW 1303941 1303596 1303895
NOTE: Refer to Table 2-1 f or the Interconnect, Racking Plan and Parts List Numbers for your sy ste m. The actual drawings and pa rts lis ts are located in Appendi x B of th is manua l. A Drawing List of the order the drawings appear in the Appendix is found at the beginning of the section.
2.1.2.1 125 Watt, 250 Watt or 500W Digital Output System Configurations
In a 125 Watt digital system, the output of the (A3) power amplifier chassis assembly at the 7/16” connector J203 is cabled to (A9) the bandpass filter for the system. In a 250 Watt or 500W digital system, the output of the (A3) power amplifier chassis assembly at the 7/16” connector J205 is also cabled to the (A9) bandpass filter. The filtered output connects either directly to (A11) the output coupler or first to the Optional 1 section or 2 section trap filter if more filtering is needed and then to the output coupler. The (A11) coupler assembly supplies a forward and a reflected power samples to the (A4) Dual Peak Detector Board. The Dual Peak Detector Board supplies reflected and forward output power samples to the exciter/driver for metering purposes. The reflected sample connects to TB31-13 and the forward sample at TB31-14. The RF output for the transmitter is at J2 the 7/8” EIA connector on the (A11) coupler assembly.
2.1.2.2 1 kW Digital Output System Configuration
In a 1 kW digital system, the output of the (A3) and the (A6) power amplifier chassis assemblies, at the “7/16” connectors
INTERCONNECT RACKING PLAN PARTS LIST
J205, are cabled to (A7) the hybrid combiner for the system, mounted to the input of the bandpass filter. A 500 Watt reject load (A9) connects to J4 on the hybrid combiner to dissipate reject power. A thermal switch (A9-A1) is mounted to the reject load and supplies an overtemperature fault, at 175º F., to the driver assembly, at TB30-7 & TB30­15, if a problem occurs in the output
lines. NOTE: If an overtemperature fault
occurs, it must be manually reset on the system controller after repairs are made. The combined output of the hybrid combiner at the “7/8” Jack J3 is connected to J1 on the digital bandpass filter. The filtered output of the bandpass filter is connected to (A14) the low pass filter assembly. The output of the filter is either cabled directly to the (A11) output coupler or first to an optional 1 or 2 section trap filter and then to the output coupler. The (A11) coupler assembly supplies a forward and a reflected power samples to the (A4) Dual Peak Detector Board. The Dual Peak Detector Board supplies reflected and forward output power samples to the exciter/driver for metering purposes. The reflected sample connects to TB31-13 and the forward sample at TB31-14. The RF output for the transmitter is at J2 the 7/8” EIA connector on the (A11) coupler assembly.
2.1.2.3 1.5 kW Digital Output System Configuration
In a 1.5 kW system, the outputs of A3, A6 and A13 power amplifier chassis assemblies, at the “N” connectors J205, are cabled to (A7) the hybrid combiner for the system mounting facing the rear
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