Acrodyne NW8201E DIGITAL TELEVISION BROADCAST TRANSMITTER User Manual 32 NV8202 26 04 06 01 00
Acrodyne Industries, Inc. DIGITAL TELEVISION BROADCAST TRANSMITTER 32 NV8202 26 04 06 01 00
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Contents
- 1. Users Manual Part 1
- 2. Users Manual Part 2
- 3. Users Manual Part 3
- 4. Users Manual Part 4
- 5. Users Manual Part 5
- 6. Users Manual Part 6
- 7. Users Manual Part 7
- 8. Users Manual Part 8
- 9. Users Manual Part 9
- 10. Users Manual Part 10
- 11. Users Manual Part 11
- 12. USers Manual Part 12
- 13. Users Manual Part 13
- 14. Users Manual Part 14
- 15. Users Manual Part 15
- 16. Users Manual Part 16
- 17. Users Manual Part 17
- 18. Users Manual Part 18
- 19. Users Manual Part 19
- 20. Users Manual Part 20
Users Manual Part 1
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| Document ID | 864553 |
| Application ID | vnwefxrVtvE1edbLlVsrmQ== |
| Document Description | Users Manual Part 1 |
| Short Term Confidential | No |
| Permanent Confidential | No |
| Supercede | No |
| Document Type | User Manual |
| Display Format | Adobe Acrobat PDF - pdf |
| Filesize | 56.3kB (703723 bits) |
| Date Submitted | 2007-11-06 00:00:00 |
| Date Available | 2008-01-18 00:00:00 |
| Creation Date | 2007-11-02 11:27:44 |
| Producing Software | Acrobat Distiller 5.0.5 (Windows) |
| Document Lastmod | 2007-11-02 11:28:34 |
| Document Title | 32 NV8202-26.04.06-01.00.book |
| Document Creator | FrameMaker 7.0 |
| Document Author: | HUPFAUER |
Broadcasting Division
System Manual
NW8202E/V DTV Transmitter
Transmitter Series Nx8000
Only skilled personnel may perform the operations of the described instrument that
are necessary for installing and putting it into operation as well as maintaining, troubleshooting and servicing it.
Printed in Germany
2099.9595.72 -01
- 0.1 -
System Manual
Transmitter Series Nx8000
Edition:
Oktober 2007
Version:
E 01.00
This document may be duplicated or otherwise used or its contents made known to third parties only with
permission of the originator or other authorized persons.
Infringements constitute an offence and are subject to claim for damages (UrhG, UWG, BGB).
All rights reserved for patenting or utility model registration.
ROHDE & SCHWARZ GmbH & Co.KG
D-81671 München - Mühldorfstraße 15
Telefon: (089) 4129-0 ^ Int. +49894129-0
Telefax: (089) 4129-12164
Internet: www.rohde-schwarz.com
Printed in Federal Republic of Germany ^ Subject to change ^ Data without tolerances: typical values
2099.9595.72 -01
- 0.2 -
Für Betrieb im Europäischen Wirtschaftsraum (EWR)
und zivilem Einsatz.
Hinweis gemäß dem Gesetz über "Funkanlagen und Telekommunikationsendeinrichtungen" (FTEG) und der Europäischen Richtlinie 1999/5/EG:
Dieses Produkt darf innerhalb des EWR nicht uneingeschränkt betrieben werden, da
der verwendete Frequenzbereich auf nicht harmonisierten Bändern erfolgt. Nationale
Vorschriften / Genehmigungen sind zu beachten.
Das Gerät ist 4 Wochen vor Inverkehrbringen bei der jeweils zuständigen nationalen
Behörde für die Frequenzhoheit zu notifizieren. Informationen hierzu im Internet unter
folgender Adresse: http://europa.eu.int/comm/enterprise/rtte/spectr.htm
For operation in the European Economic Area (EEA)
and civil use.
Note pursuant to the German Radio and Telecommunications Terminal Equipment Directive (FTEG) and the European R&TTE Directive 1999/5/EC:
Operation of this product within the EEA is subject to restrictions since the frequency
bands used are not harmonised. National provisions / authorizations shall be complied with.
The product shall be notified to the competent national frequency management
authority four weeks before the product is put on the market.
For more information refer to: http://europa.eu.int/comm/enterprise/rtte/spectr.htm
Printed in Germany
2090.6870.54
- EU -
D/E-2
NW8202E/V
2099.9595.72
CONTENTS
SAFETY INSTRUCTIONS
DESIGN AND CHARACTERISTICS
INSTALLATION
COMMISSIONING
OPERATING
MAINTENANCE
TROUBLESHOOTING
SERVICE
ANNEX
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E-1
Broadcasting Division
CHAPTER 1
SAFETY INSTRUCTIONS
Printed in Germany
2095.7346.32
- 1.0 -
E-1
Chapter 1
Safety Instructions
CONTENTS
1 About this Manual ............................................................................ 1
2 Safety Instructions for Transmitter Systems and Instruments ... 2
3 General Safety Instructions ............................................................ 3
4 Special Danger Warnings ............................................................... 4
4.1 Hazards due to AC Supply Voltage ...............................................................4
4.1.1 AC Power Supply .........................................................................................4
4.1.2 Replacing Fuses ...........................................................................................5
4.1.3 Emergency-Off Equipment ...........................................................................5
4.1.4 Opening the Transmitter ...............................................................................5
4.2 Hazards due to High-Energy Circuits ...........................................................6
4.3 RF Hazards ......................................................................................................6
4.3.1 Mandatory Training ......................................................................................6
4.3.2 RF Shielding .................................................................................................7
4.3.3 Rules for Operating the Transmitter .............................................................7
4.3.4 Rules for Working with an Open Transmitter ...............................................7
4.4 Fire Hazards ....................................................................................................8
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Chapter 1
Safety Instructions
About this Manual
This manual is part of the documentation for the NX8000 family of transmitters from Rohde
& Schwarz. Each transmitter and each transmitter component is described in a separate
manual. The individual manuals of the family of transmitters are modular in structure and
complement each other.
Structure
Each transmitter component is described in a separate manual and can thus be used as an
individual component (where practical). The transmitter manual is the main document for
the entire set of documentation. It describes all steps that are necessary to install a transmitter, put it into operation, operate and maintain it. Where applicable, the transmitter manual refers to the individual manuals for the various components. The component manuals,
in turn, also refer to the transmitter manual whenever the component is to be used as a
transmitter module.
Contents
The manuals for the family of transmitters describe all steps required to install the transmitter or one of its components, put them into operation, operate and maintain them, troubleshoot and service them. The Annex includes interface descriptions plus technical
documents.
For convenience, all manuals are structured identically. Sections that are not relevant to the
manual at hand are also included but are left blank.
Safety
All skilled personnel working with a transmitter or its components must read all relevant
manuals and comply with the safety measures that are detailed in the chapter about safety
and in the applicable sections in the manual. The transmitter and the individual transmitter
components must be used only for their intended purpose. All operations involving the
transmitter or individual transmitter components must be performed by skilled personnel.
The manual will point out specifically if additional qualifications are required.
Symbols and Layout
The triangular warning symbol indicates danger. In addition to the triangular warning symbol, different key words indicate the level of potential danger.
Instructions are given in numbered steps or indicated by an "index finger" symbol to the left
of the instruction text. The results of the performed instructions are indented.
The key word "Note" precedes notes. Notes contain additional information and tips to help
facilitate the work at hand.
All other formatting options add structure to the text and are self-explanatory.
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Chapter 1
Safety Instructions
Safety Instructions for Transmitter Systems
and Instruments
ATTENTION!
The safety instructions provided in this manual must be complied with!
Pay special attention to the following points:
Only skilled personnel may perform electrical installation and electrical connection
tasks.
Always follow the relevant national and international safety rules and regulations when
equipping operating areas and when setting up and operating electrical equipment.
These rules and regulations include for example:
– Protective measures to prevent accidents
– Protective measures to prevent overvoltage
– Insulation status of electrical equipment
– Grounding of electrical equipment
– Physical properties and laying of electric lines and cables
– Regulations applying to industrial premises and areas as well as to special facilities.
When setting up the rack, observe the country-specific rules for accident prevention, for
example with regard to:
– Risk of getting crushed when working with loads suspended in the air
– Risk of falling off ladders
– Risk of injury when lifting heavy objects.
Use your personal protective equipment for installation and repair work, i.e. wear pro-
tective clothing such as helmets, safety gloves and eye protection, depending on the
task at hand.
Operate the equipment and systems only when the cabinet is closed. If you have to open
the cabinet for maintenance and repair work, comply with the applicable safety instructions.
If the equipment and systems are removed from the AC power supply, all poles must be
disconnected. Check for and remove any external power supply, i.e. all measuring cables, extension cables, multiple socket outlets (except for special service sockets). Wait
for five minutes to ensure that any and all capacitors are sufficiently discharged.
Additionally with liquid-cooled transmitters:When filling and installing the cooling system
(pump unit and heat-exchanger unit), observe the rules for handling hazardous substances (cooling agents); see section "safety data sheets about hazardous substances"
under "EU safety data sheet in accordance with 2001/58/EC Antifrogen".
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Chapter 1
Safety Instructions
General Safety Instructions
This section contains general safety instructions that apply to all products manufactured or
distributed by Rohde & Schwarz.
In accordance with IEC 215 and EN 60215, transmitters and their auxiliary equipment must
be operated only under the responsibility of skilled personnel. The EN 60215 standard
("Safety requirements for radio transmitting equipment") defines the minimum requirements
for skilled electrical personnel.
Complying with all statutory provisions is a precondition for operating radiocommunications
systems and equipment. The operator or the operator's authorized representative is responsible for ensuring compliance with these guidelines. They must also ensure that the
operating personnel meets the applicable country-specific training requirements. These requirements also include any periodic training that is necessary.
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Chapter 1
Special Danger Warnings
4.1
Hazards due to AC Supply Voltage
Safety Instructions
There is a risk of electric shock with any Vrms > 30 V AC or V > 60 V DC voltage. Appropriate measures must be taken to prevent exposure to any danger when working with voltages
that bear the risk of electric shock. Never work on live parts unless specifically required and
only if the special safety precautions are complied with.
4.1.1
AC Power Supply
Before connecting the equipment to the AC power supply, make sure that the AC supply
data specified on the system or equipment matches the rated data of the local AC supply. The supply circuit must be protected by fuses against overloading and short circuits
at all times.
It is possible that a transmitter has completely separate circuits. For each of these circuits,
the following requirements apply:
When connecting all circuits of the transmitter to the AC power supply make sure that
the following requirements are met:
– The transmitter can be disconnected at any time.
– The transmitter can be secured against reactivation.
– The transmitter is terminated with a power line that is correctly fused and also suitable for power consumption.1
– Apply the rotating field as intended (rotating direction of the fans!).
Service sockets
To allow measuring equipment or a soldering iron to be operated, it is customary to equip
transmitters with a service socket that carries voltage even when the transmitter is switched
off. Such service sockets are identified as such, for example with an LED, and may only be
used for the above mentioned purposes.
Since the socket is intended solely for service purposes, it has only a limited power output.
Never use the socket to operate heating appliances or large test systems.
The transmitter operator is responsible for the correct fusing (the socket is labeled with
the maximum value).
With accessories that are not controlled with the entire transmitter, the transmitter oper-
ator is responsible for taking the appropriate measures to ensure safety in each circuit
state.
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Apply the specifications of this documentation and observe also the limited deactivation capabilities of the fuses and circuit breakers in the transmitter.
- 1.4 -
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Chapter 1
4.1.2
Safety Instructions
Replacing Fuses
Replace the safety fuses accessible in the operator area only if no voltage is being ap-
plied to the instruments. The safety fuses may be replaced only by fuses with identical
electric data, identical switching characteristics and identical switch-off capacity.
Motor and line circuit breakers accessible in the transmitter's operator area may be op-
erated. If their response range is selectable, do not change the settings made by the
manufacturer. If the settings are accidentally changed, reset them by using the correct
values specified in this documentation.
4.1.3
Emergency-Off Equipment
If the customer requests, the transmitters are equipped with emergency keys. When the
transmitters are supplied, these keys have basically no function. The transmitter operator is responsible for ensuring that these emergency keys function safely and to integrate them into the emergency-off system of the operator area in accordance with the
regulations. If you subsequently decide not to use the emergency keys as an emergency-off system, you must remove them.
Extremely important! A transmitter normally has several AC supply circuits that are
independent from each other, such as main AC supply circuit, AC current supply for accessory equipment (main control unit, antenna switch, etc) or AC current supply for a
disabled socket.
The transmitter operator is responsible for making sure that all these circuits are integrated correctly into the emergency-off system. Circuits not integrated have to be labeled accordingly.
Never set up a transmitter that is equipped with disabled emergency-off equipment.
4.1.4
Opening the Transmitter
When you open the transmitter to carry out mechanical/electrical tasks (e.g. cleaning,
repair, etc) always follow the five basic rules for working with electrical systems:
– Disconnect the transmitter from the power supply
– Secure it against inadvertent switch-on
– Verify safe isolation from any power
– Ground or short-circuit it2
– Cover adjacent active circuits.
Extremely important! A transmitter normally has several AC supply circuits that are in-
dependent from each other, such as main AC supply circuit, AC current supply for accessory equipment (main control unit, antenna switch, etc) or AC current supply for a
disabled socket.
Prior to performing any work, check the current status of the circuits. Also disconnect
adjacent circuits to prevent inadvertent contact.
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Not all transmitter types can be grounded or short-circuited by using a grounding or short-circuit switch. If a
suitable device for grounding or short-circuiting is not available, the skilled personnel must take appropriate
measures as deemed necessary.
- 1.5 -
E-2
Chapter 1
Safety Instructions
If you have to perform any work on the RF circuit, isolate the antenna connector as well.
Caution! If other transmitters, etc, are in operation that are coupled to the same antenna
via RF filters, energy from them can be fed back via the antenna cable.
Never open a disconnected transmitter without taking protective measures against
touching voltage-carrying parts.
Due to the risk of electric shock from the AC supply voltage, never perform any electrical
operations when doors are open, front panels are unscrewed, plug-ins are withdrawn,
etc.
When electrical operations of the transmitter are performed for the purpose of internal
measurements or repair, label the workplace accordingly and provide warning about the
potential hazards in accordance with the basic rules of electrical engineering.
Appropriate measures have to be taken to prevent unauthorized persons from accessing this area.
After completing your work, close the transmitter and restore all safety measures for preventing electric shock that have been provided by the manufacturer. Immediately make
sure that protective equipment (e.g. locks) is effective.
4.2
Hazards due to High-Energy Circuits
The instruments include low-voltage circuits which can be fed from an extremely low-impedance voltage source(e.g. amplifier operating voltage). These circuits conduct dangerously
large amounts of energy. We handle these circuits in the same manner as circuits with voltages that bear the risk of electric shock. They are usually covered and thus protected
against accidental contact. The cover comes with a warning label.
If you remove the cover of a transmitter that is in operation, there is the risk of both voltage
poles being short-circuited. Short circuits create an electric arc and thus can cause burns,
damage to the eyes as well as further injuries due to the state of shock response.
Practical experience has repeatedly shown that a short circuit caused by metal tools can
cause severe burns. For safety reasons, high-energy circuits are protected by covers and
are thus not accessible within the operator area of the instruments.
If you need to measure low-impedance voltages, during repair work or to optimize the
power consumption of the transmitter for example, exercise the same caution as when
measuring operating voltages that bear the risk of electric shock.
Wear protective clothing if necessary.
Before you open an instrument or remove its cover, switch off the operating voltage and
wait for five minutes to ensure that any and all capacitors are sufficiently discharged.
Do not short-ciruit capacitors to discharge them.
4.3
RF Hazards
4.3.1
Mandatory Training
Operators must instruct their personnel on how to use this transmitter or instrument in
accordance with EN 60215 and IEC 215. This periodic training must cover the radio-fre-
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Chapter 1
Safety Instructions
quency hazards of the individual transmitter or instrument. Only after such training has
been provided and documented may the operating personnel handle switching and operating tasks.
High-energy RF circuits within the transmitter or the instrument are routed via conventional
detachable RF connectors (e.g. N). Depending on the output power, the transmitter or instrument outputs come with screw-in or pluggable RF lines or ducts.
If RF lines or modules conduct high power, the connection point or the entire module is
marked with the standard warning symbol (yellow triangle with black exclamation mark).
4.3.2
RF Shielding
Transmitters and instruments from Rohde & Schwarz are shielded in such a manner that
RF radiation does not pose any danger even in the immediate vicinity if all RF lines are
closed. This statement is based on the ordinance for electromagnetic fields as defined in
German law:
The 26th ordinance for the Federal Emission Protection Law dated December 16, 1996 defines limit values for radio-frequency equipment for electric and magnetic field strengths.
4.3.3
Rules for Operating the Transmitter
Opening RF lines during operation may cause electric arcs. This can cause burns and eye
injuries.
Operate the transmitter system only if an antenna or dummy antenna is connected.
Never undo RF lines during transmitter operation.
Never open modules during transmitter operation.
Never put transmitters into operation if RF lines are open. 3
When disconnecting a transmitter, always disconnect the antenna connector as well. If
other transmitters, etc, are in operation that are coupled to the same antenna via RF filters, energy from them can be fed back via the antenna cable.
4.3.4
Rules for Working with an Open Transmitter
If you switch on an open transmitter and remove covers and shielding that carry the general
warning symbol of RF modules, dangerous RF levels will be radiated .
The transmitter operator is responsible for strict compliance with the necessary safety precautions when someone is working with or located near an open transmitter that is switched
on.
Necessary safety regulations include:
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If you try to put the transmitter into operation, RF power is transmitted. If RF lines are open, the transmitter
switches off the RF again. This attempt to transmit RF can lead to the above mentioned risks of injury even if
- as is the case with Rohde & Schwarz transmitters - the RF flow is limited and transient due to technical measures.
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Chapter 1
Safety Instructions
Labeling the workplace as subject to RF hazards
Wearing RF protective cloth
Taking special safety precautions for persons with implants such as metal parts, pace-
makers, etc, since they are particularly susceptible to injury.
4.4
Fire Hazards
Every electric circuit containing sufficient energy and to which voltage is applied poses fire
hazards. This also applies to radio transmitters. For transmitter radio systems, it is therefore
necessary to create a safety plan for the event of fire.
Operating personnel must be trained on how to proceed in the case of fire in areas containing electrical systems; training must be repeated at regular intervals. Personnel should be
trained on the basis of the VDE 0132 standard and in agreement with the local fire department.
The following statement applies in Germany. Preventive measures at the site in question
can largely eliminate the risk of fire or prevent its spread as far as possible.
Prevention and fire-fighting
When setting up the transmitter, the operator must ensure that no inflammable materials
are located below or above the cable entry nor attached to it.
Make sure that openings to adjacent spaces are closed in a flame-retardant manner.
Fire-fighting is only allowed with special equipment even if the flames are insignificant
or have no effect at all (e.g. breathing mask with air bottle).
For fire-fighting, only suitable fire extinguishers (e.g. CO2 extinguishers) may be used.
One reason for requiring special equipment is the fact that extremely poisonous and imperceptible carbon monoxide is released during every fire. Another reason is that the materials
contained in the instruments and systems emit poisonous vapors, gases and dust such as
sulfuric acid and hydrogen sulfide, hydrochloric acid, dioxin, hydrofluoric acid and beryllium
oxide dust when they are exposed to external flame and heat.
The following materials can be affected:
– Rubber in cables, cable bushings, vibration absorbers and instrument feet
– PVC in cables and lines
– PUR (foam) in insulators, molded parts, sealing mats and insulating strips
– Teflon in cables, lines, insulation material and printed boards
– Beryllium oxide ceramics in power transistors
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