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1 | User Manual | Users Manual | 2.11 MiB |
R&STLx9 Transmitter System System Manual
(I62) 2506506002 l a u n a M m e t s y S 3 0 n o s r e V i This manual describes the following R&STLx9 models:
R&STLx9 (2506.5001.10), 1HU, 15/10/5 W R&STLx9 (2506.5001.20), 2HU, 200/100/50/25 W The software contained in this product uses several valuable open source software packages. For information, see the "Open Source Acknowledgment" on the user documentation CD-ROM (included in delivery). Rohde & Schwarz would like to thank the open source community for their valuable contribution to embedded computing. 2018 Rohde & Schwarz GmbH & Co. KG Mhldorfstr. 15, 81671 Mnchen, Germany Phone: +49 89 41 29 - 0 Fax: +49 89 41 29 12 164 Email: info@rohde-schwarz.com Internet: www.rohde-schwarz.com Subject to change Data without tolerance limits is not binding. R&S is a registered trademark of Rohde & Schwarz GmbH & Co. KG. Trade names are trademarks of the owners. 2506.5060.02 | Version 03 | R&STLx9 The following abbreviations are used throughout this manual: R&STLx9 is abbreviated as R&S TLx9. Quality management and environmental management Sehr geehrter Kunde, Sie haben sich fr den Kauf eines Rohde & Schwarz Produk-
tes entschieden. Sie erhalten damit ein nach modernsten Fer-
tigungsmethoden hergestelltes Produkt. Es wurde nach den Regeln unserer Qualitts- und Umweltmanagementsysteme entwickelt, gefertigt und geprft. Rohde & Schwarz ist unter ande-
rem nach den Managementsys-
temen ISO 9001 und ISO 14001 zertifiziert. Der Umwelt verpflichtet Energie-effiziente, RoHS-konforme Produkte Kontinuierliche Weiterentwicklung nachhaltiger Umweltkonzepte ISO 14001-zertifiziertes Umweltmanagementsystem Dear customer, You have decided to buy a Rohde & Schwarz product. This product has been manufactured using the most advanced meth-
ods. It was developed, manufac-
tured and tested in compliance with our quality management and environmental manage-
ment systems. Rohde & Schwarz has been certified, for exam-
ple, according to the ISO 9001 and ISO 14001 management systems. Environmental commitment Energy-efficient products Continuous improvement in environmental sustainability ISO 14001-certified environmental management system Certified Quality System ISO 9001 Certified Environmental System ISO 14001 Cher client, Vous avez choisi dacheter un produit Rohde & Schwarz. Vous disposez donc dun produit fabriqu daprs les mthodes les plus avances. Le dvelop-
pement, la fabrication et les tests de ce produit ont t effec-
tus selon nos systmes de management de qualit et de management environnemental. La socit Rohde & Schwarz a t homologue, entre autres, conformment aux systmes de management ISO 9001 et ISO 14001. Engagement cologique Produits efficience nergtique Amlioration continue de la durabilit environnementale Systme de management environnemental certifi selon ISO 14001 1 0
. 5 0 V 1 1
. 0 0 2 0
. 1 7 1 1 1 1 0 0 2 0 1 7 1 1 ISO-Qualitaets-Zertifikat_1171-0200-11_A4.indd 1 28.09.2012 10:25:08 Customer Support Technical support where and when you need it For quick, expert help with any Rohde & Schwarz equipment, contact one of our Customer Support Centers. A team of highly qualified engineers provides telephone support and will work with you to find a solution to your query on any aspect of the operation, programming or applications of Rohde & Schwarz equipment. Up-to-date information and upgrades To keep your instrument up-to-date and to be informed about new application notes related to your instrument, please send an e-mail to the Customer Support Center stating your instrument and your wish. We will take care that you will get the right information. Europe, Africa, Middle East Phone +49 89 4129 12345 customersupport@rohde-schwarz.com Phone 1-888-TEST-RSA (1-888-837-8772) customer.support@rsa.rohde-schwarz.com Phone +1-410-910-7988 customersupport.la@rohde-schwarz.com Phone +65 65 13 04 88 customersupport.asia@rohde-schwarz.com Phone +86-800-810-8228 /
+86-400-650-5896 customersupport.china@rohde-schwarz.com North America Latin America Asia/Pacific China 1171.0200.22-06.00 R&STLx9 Contents Contents 1 Information about this Manual..............................................................7 2 Safety Instructions.................................................................................9 2.1 Safety Instructions for Transmitter Systems and Equipment...................................9 2.2 General Safety Instructions....................................................................................... 10 2.2.1 Basic Safety Instructions...............................................................................................10 2.3 Special Hazard Information........................................................................................17 2.3.1 Hazards from AC Supply Voltage..................................................................................17 2.3.1.1 AC Power Supply.......................................................................................................... 17 2.3.1.2 Changing Fuses............................................................................................................ 17 2.3.2 Hazards from HighEnergy Electric Circuits..................................................................17 2.3.3 Hazards from RF Radiation...........................................................................................18 2.3.3.1 Obligation to Instruct Personnel.................................................................................... 18 2.3.3.2 RF Shielding..................................................................................................................18 2.3.3.3 Rules When Operating an Amplifier..............................................................................18 2.3.3.4 Rules When Working on an Open Amplifier..................................................................19 3 Transmitter System R&S TLx9............................................................21 3.1 Design and Function R&S TLx9..............................................................................21 3.1.1 Rack Design..................................................................................................................22 3.1.2 TLx9 system applications..............................................................................................23 3.1.3 TLx9 redundancy systems............................................................................................ 25 3.1.4 Modules and devices.................................................................................................... 29 3.1.4.1 Overview....................................................................................................................... 29 3.1.4.2 Inside View (1HU)......................................................................................................... 30 3.1.4.3 Replaceable Modules (1HU)......................................................................................... 30 3.1.4.4 Inside View (2HU)......................................................................................................... 32 3.1.4.5 Replaceable Modules (2HU)......................................................................................... 33 3.1.4.6 Option Keys...................................................................................................................34 3.1.4.7 Material Number Assignment........................................................................................35 3.1.4.8 Option Boards............................................................................................................... 36 3.1.4.9 Backplane..................................................................................................................... 36 3.1.4.10 Exciter Board.................................................................................................................37 System Manual 2506.5060.02 03 3 R&STLx9 Contents 3.1.4.11 GapFiller Board............................................................................................................. 38 3.1.4.12 TSP901 (Transmitter Status Panel) of 1HU device ......................................................39 3.1.4.13 TSP901 (Transmitter Status Panel) of 2HU device.......................................................40 3.1.4.14 TDU901 (Transmitter Display Unit)............................................................................... 41 3.1.4.15 Power Amplifier Module................................................................................................ 42 3.1.4.16 Power Supplies............................................................................................................. 43 3.1.4.17 Capacitor Backup Battery............................................................................................. 43 3.1.4.18 IPM2/4 Processor Board............................................................................................... 43 3.1.4.19 ASI Distribution Board...................................................................................................44 3.1.4.20 DVB-T/T2 Receiver....................................................................................................... 45 3.1.4.21 DVB-S/S2 Receiver.......................................................................................................45 3.1.4.22 Mini LAN Switch Board................................................................................................. 46 3.1.4.23 LAN Switch Board......................................................................................................... 47 3.1.4.24 Local LAN2 Board......................................................................................................... 47 3.1.4.25 RF Switch Board........................................................................................................... 48 GapFiller Redundancy 1+1 Antenna Redundancy........................................................48 GapFiller Redundancy in 1+1 Systems with Single Antenna........................................48 1+1 RF Switch for 15W Backup TX Systems ...............................................................49 3.1.4.26 GapFiller 1+1 15W Redundancy System with RF Switching........................................ 50 3.1.5 Specifications................................................................................................................ 51 3.1.5.1 General Data.................................................................................................................51 3.1.5.2 Inputs............................................................................................................................ 55 3.1.5.3 Quality........................................................................................................................... 56 Installation R&S TLx9................................................................................................. 56 3.2.1 Unpacking and Setting Up............................................................................................ 56 3.2.1.1 Equipment Supplied...................................................................................................... 56 3.2.1.2 Unpacking Instrument................................................................................................... 57 3.2.1.3 Setting Up Instrument................................................................................................... 57 3.2.2 Connecting Cables........................................................................................................57 3.2.2.1 Overview of Connectors................................................................................................58 3.2.2.2 Connecting Input Signals.............................................................................................. 60 3.2.2.3 Connecting External Reference Sources...................................................................... 60 3.2.2.4 Connecting Antenna System.........................................................................................61 3.2 System Manual 2506.5060.02 03 4 R&STLx9 Contents 3.2.2.5 Preparing RF Carrier Loop............................................................................................61 3.2.2.6 Connecting User Interface............................................................................................ 61 3.2.2.7 Connecting AC Power Supply.......................................................................................62 3.3 Commissioning R&S TLx9......................................................................................... 62 Annex.................................................................................................... 63 A R&S TLx9 Interface Description......................................................... 63 A.1 Base unit and Exciter / GapFiller Board Interfaces..................................................63 A.1.1 Overview....................................................................................................................... 63 A.1.2 Description.................................................................................................................... 64 A.2 Option Board Interfaces............................................................................................. 70 LAN Switch....................................................................................................................70 A.2.1 Local LAN2 Board......................................................................................................... 73 A.2.2 A.2.3 DVB-T/T2 RX................................................................................................................ 74 A.2.4 DVB-S/S2 RX................................................................................................................75 A.2.5 1+1 ASI Distribution Board............................................................................................80 A.2.6 RF Switch Board........................................................................................................... 82 System Manual 2506.5060.02 03 5 R&STLx9 Contents System Manual 2506.5060.02 03 6 R&STLx9 Information about this Manual 1 Information about this Manual This manual is part of the documentation for the R&S TLx9 transmitter family from Rohde & Schwarz. The individual manuals for the transmitter family have a modular structure and complement each other. Structure The system manual, which is the central and overarching part of the overall documen-
tation, describes all the steps involved in installing a transmitter. Operation of the transmitter system after installation and the steps required to put the system into operation are described in the Tx9 operating manual. The TLx9 service manual describes all maintenance, troubleshooting and service tasks that customers can carry out themselves. At certain points in the transmitter manual, the reader is referred to the appropriate operating manual or service manual. Contents The manuals for the transmitter family describe all activities required for installation, startup, operation, maintenance, troubleshooting and servicing of the transmitter and its component parts. The appendix contains the interface descriptions and the techni-
cal documentation. Safety All skilled personnel working with a transmitter or its components have a duty to read the associated manuals and to follow the safety measures described in the section
"Safety" and given at appropriate points in the manual. It must be ensured that the transmitter and the individual components of the transmitter are used only for their intended use. All activities connected with the transmitter or individual transmitter com-
ponents must be carried out by skilled personnel. If activities require additional skills and qualifications, this is indicated at the appropriate points in the manual. Symbols and notation The "warning triangle" symbol refers the reader to potential hazards. The degree of danger is indicated by different signal words next to the warning symbol. Instructions are given in numbered steps. All other formatting options are intended to improve clarity and are selfexplanatory. System Manual 2506.5060.02 03 7 R&STLx9 Information about this Manual System Manual 2506.5060.02 03 8 R&STLx9 Safety Instructions Safety Instructions for Transmitter Systems and Equipment 2 Safety Instructions 2.1 Safety Instructions for Transmitter Systems and Equipment Compliance with safety regulations The safety regulations specified in this manual must always be complied with. The following points require special attention:
Only qualified technicians are allowed to install and wire the electrical equipment. National and international safety rules and regulations must be observed when equipping operating facilities and during the assembly and operation of electrical systems. These include, for example:
Protective measures to prevent accidents Protection against overvoltage Isolation of electrical systems Grounding of electrical systems Physical properties and laying of electrical lines and cables Regulations that apply to factories, work areas and special systems When installing transmitter racks, it is important to observe national accident pre-
vention regulations, for example, with regard to:
Crushing hazard when working beneath suspended loads Fall hazards when working on ladders Risk of injury when lifting heavy loads Personal protective equipment (PPE) must be used when installation or repair work is being carried out. Depending on the type of work, it may be necessary to wear protective clothing such as hard hats, safety gloves, eye protection, etc. Instruments and systems must not be operated unless their cabinets are closed. Observe the appropriate safety instructions when opening cabinets for mainte-
nance or repair work. Isolate all poles when disconnecting instruments and systems from the AC supply. In addition, disconnect all external sources of power, i.e. all measuring cables, extension cables and multipoint connectors (except for special service connectors). Then wait approx. 5 minutes to ensure that the capacitors in the system are suffi-
ciently discharged. Additional information on liquidcooled transmitters: When installing the cooling system and filling it with coolant (pump and heat exchanger), the applicable regula-
System Manual 2506.5060.02 03 9 R&STLx9 Safety Instructions General Safety Instructions tions on working with hazardous products (coolant) must be observed; see the sec-
tion "Material Safety Data Sheets" under "EC Safety Data Sheet Antifrogen". 2.2 General Safety Instructions This section contains general safety instructions applying to all products manufactured or sold by Rohde & Schwarz. In line with IEC215 or EN60215, transmitter systems and their addon equipment must be operated under the responsibility of qualified technicians only. The minimum requirements for qualified electricians are also defined in the standard "Safety require-
ments for radio transmitting equipment". Compliance with all legal and regulatory requirements is a precondition for operating radio equipment and systems. The operator and/or the operator's authorized represen-
tative is responsible for ensuring compliance with these requirements. They must addi-
tionally ensure that the training of the operating personnel satisfies the specific require-
ments of the respective country. This includes any periodic training that is necessary. 2.2.1 Basic Safety Instructions It is essential to read and observe the following instructions and safety informa-
tion. All plants and locations of the Rohde & Schwarz group of companies make every effort to keep the safety standards of our products up to date and to offer our customers the highest possible degree of safety. Our products and the auxiliary equipment that they require are manufactured and tested in line with the applicable safety standards. Com-
pliance with these standards is continuously monitored by our Quality Assurance department. The product described here has been manufactured and tested in accord-
ance with the enclosed EC Certificate of Conformity and left the manufacturer's plant in a condition fully complying with the relevant safety standards. To maintain this condi-
tion and to ensure safe operation, you must observe all information, warnings and instructions provided in this manual. Please do not hesitate to contact the Rohde & Schwarz group of companies if you have any queries regarding these safety instructions. Furthermore, it is your responsibility to use the product in an appropriate manner. This product is designed for use solely in industrial and laboratory environments or, if expressly permitted, also in the field and must not be used in any way that may cause personal injury or property damage. You are responsible if the product is used for any purpose other than its designated purpose or in disregard of the manufacturer's instructions. The manufacturer shall not be liable for any consequences resulting from the product being used for purposes other than those for which it is intended. The product is used for its designated purpose if it is used in accordance with its prod-
uct documentation and within its performance limits (see data sheet, documentation and the following safety instructions). Using the product requires technical skills and a System Manual 2506.5060.02 03 10 R&STLx9 Safety Instructions General Safety Instructions basic knowledge of English. It must therefore be ensured that only skilled and special-
ized staff or thoroughly trained personnel with the required skills are allowed to use the product. If personal protective equipment is required for using Rohde & Schwarz prod-
ucts, this will be indicated at the appropriate place in the product documentation. Keep the basic safety instructions and the product documentation in a safe place and pass them on to other users of the product. Observance of the safety instructions is intended to prevent injury or damage resulting from hazards of all types. To this end, persons who are to use the product must care-
fully read and fully understand the following safety instructions prior to and during use of the product. It is also essential to observe all other safety instructions (e.g. relating to personnel protection) which are given at appropriate points in the product documen-
tation. In these safety instructions, the term "product" refers to all articles sold and dis-
tributed by the Rohde & Schwarz group of companies; these include instruments, sys-
tems and all accessory items. Signal words and their meaning The following signal words are used in the product documentation to warn of risks and hazards. indicates an immediate high-risk hazard which will result in death or serious injury if it is not avoided. indicates a potential medium-risk hazard which can result in death or (serious) injury if it is not avoided. indicates a low-risk hazard which could result in minor or moderate injury if it is not avoided. indicates possible incorrect operation which could result in damage to the product. These signal words correspond to the standard definitions for civil applications in the European Economic Area. Definitions that deviate from the standard definition may also exist in other economic areas or military applications. It is therefore essential to make sure that the signal words described here are always used only in connection with the related product documentation and the related product. The use of signal System Manual 2506.5060.02 03 11 R&STLx9 Safety Instructions General Safety Instructions words in connection with unrelated products or documentation can result in misinter-
pretation and in personal injury or material damage. Operating conditions, operating positions and operating locations The product may be operated only under the operating conditions, in the operation positions and at the operating locations specified by the manufacturer, without the pro-
duct's ventilation being obstructed. If the manufacturer's specifications are not observed, this can result in electric shock, fire and/or serious personal injury or death. Applicable local or national safety regulations and rules for the prevention of accidents must be observed in all work performed. 1. Unless otherwise specified, the following requirements apply to Rohde & Schwarz IP degree of protection: 2X products:
a) Operating position: housing base at bottom b) c) Degree of fouling: 2 d) Overvoltage category: 2 e) For indoor use only f) Operation up to 2000 m above sea level g) Transport up to 4500 m above sea level h) Tolerance for nominal voltage: 10 %
i) Tolerance for nominal frequency: 5 %
2. Do not place the product on surfaces, vehicles, shelves or tables that for reasons of weight or stability are unsuitable for this purpose. Always follow the manufactur-
er's installation instructions when installing the product and fastening it to objects or structures (e.g. walls and shelves). Installing the product in a manner that does not comply with the product documentation could result in personal injury or even death. 3. Do not place the product on heatgenerating devices (e.g. radiators or fan heaters). The ambient temperature must not exceed the maximum temperature specified in the product documentation or in the data sheet. Product overheating can cause electric shock, fire and/or serious personal injury or even death. Electrical safety If the information on electrical safety is not observed either at all or to the extent neces-
sary, electric shock, fire and/or serious personal injury or even death may occur. 1. Prior to switching on the product, always ensure that the nominal voltage set on the product matches the nominal voltage of the mains supply. If a different voltage is to be set, the mains fuse of the product may have to be changed accordingly. 2. In the case of products with degree of protection I with movable power feed line and connector, operation is permitted only at sockets with protective conductor contact and connected protective conductor. System Manual 2506.5060.02 03 12 R&STLx9 Safety Instructions General Safety Instructions 3. 4. Intentional interruption of the protective conductor either along the feed line or in the product itself is not permitted. Doing so can result in the danger of an electric shock from the product. If extension cables or multipoint connectors are used, they must be checked on a regular basis to ensure that they are safe to use. If the product does not have a mains switch for disconnecting the product from the power supply, the plug attached to the connecting cable must be used as a discon-
nect device. In such cases, it must be ensured that the power plug is within easy reach and accessible at all times (length of connecting cable approx. 2 m). Func-
tional switches or electronic switches are not suitable for disconnecting the product from the power supply. If products without mains switches are integrated in racks or systems, a disconnect device must be provided at the system level. 5. Never use the product if the power cable is damaged. Check the power cable on a regular basis to ensure that it is in proper operating condition. Take appropriate safety measures and lay the power cable carefully to ensure that the cable will not be damaged and that no one can be hurt by, for example, suffering an electric shock or tripping over the cable. 6. Operation is only permitted in TN/TT supply networks which are fuse-protected with max. 16 A (higher fuse ratings should only be used after consultation with the Rohde & Schwarz group of companies). 7. Do not insert the plug into sockets that are dusty or dirty. Insert the plug firmly and completely into the socket provided. Disregard of these points can lead to sparks, fire and/or injury. 8. Do not overload the sockets, extension cables or multipoint connectors as this can cause fire or electric shocks. 9. For measurements in electric circuits with voltages Vrms > 30 V, suitable measures
(e.g. appropriate measuring equipment, fusing, current limiting, electrical separa-
tion, insulation) must be taken to avoid any hazards. 10. In the case of connections to IT equipment (e.g. PCs or industrial computers), it must be ensured that such connections satisfy the IEC609501/EN609501 or IEC610101/EN610101 standards that apply in each case. 11. Unless expressly permitted, never remove the cover or any part of the housing while the product is in operation. Doing so would expose electrical lines and com-
ponents and could lead to injuries, fire or damage to the product. 12. If a product is to be permanently installed, the connection between the protective conductor terminal on site and the product's protective conductor must be made first before any other connection is made. The product may be installed and con-
nected only by a qualified electrician. 13. For permanently installed equipment without builtin fuses, circuit breakers or simi-
lar protective devices, the supply circuit must be fused in such a way that anyone who has access to the product, as well as the product itself, is adequately protec-
ted from injury or damage. System Manual 2506.5060.02 03 13 R&STLx9 Safety Instructions General Safety Instructions 14. Use suitable overvoltage protection to ensure that no overvoltage (such as that caused by a bolt of lightning) can reach the product. Otherwise the person operat-
ing the product will be exposed to the danger of an electric shock. 15. Do not insert foreign objects into the housing openings. Doing so can cause short circuits inside the product and/or electric shocks, fire or injuries. 16. Unless otherwise specified, products are not protected against the penetration of fluids; see also the section "Operating conditions, operating positions and operat-
ing locations", item 1. The instruments must therefore be protected against the penetration of fluids. Failure to observe this point may result in the user suffering an electric shock or the product being damaged, which in turn can endanger per-
sonnel. 17. Never use the product under conditions in which condensation has formed or can form in or on the product, e.g. if the product has been moved from a cold to a warm environment. Penetration by water increases the risk of electric shock. 18. Prior to cleaning the product, disconnect it completely from the power supply
(e.g. mains or battery). Clean instruments using a damp, soft, lint-free paper towel or cotton cloth. Warm water or a mild cleaner (good results have been achieved using glass cleaner (Mat. No. 0041.5336.00)) is recommended as a cleaning agent. If any other cleaning agent is to be used, it must be checked beforehand whether the cleaning agent is compatible with the surface to be cleaned. Operation 1. Operating the product requires special training and intense concentration. It must be ensured that persons who operate the product are fit to do so from a physical, intellectual and mental viewpoint, otherwise there is a risk of injury or damage. It is the responsibility of the employer/operator to select suitable personnel for operat-
ing the product. 2. Before moving or transporting the product, read and observe the information in the section "Transport" on page 16. 3. As with all industrially manufactured goods, it is not possible to completely rule out the use of materials which cause allergies, i.e. "allergens" (e.g. nickel). If, when using Rohde & Schwarz products, allergic reactions occur (e.g. skin rash, frequent sneezing, red eyes or respiratory problems), consult a doctor immediately in order to determine the cause and to prevent health problems. 4. Before mechanically and/or thermally processing or dismantling the product, it is essential to refer to the section "Disposal" on page 16, item 1. 5. Depending on the function, certain products such as RF radio systems can pro-
duce an elevated level of electromagnetic radiation. In order to protect unborn life, pregnant women must be protected by means of suitable measures. Electromag-
netic radiation also poses a risk to persons with pacemakers. The employer/opera-
tor is obliged to assess and identify workplaces where there is a particular risk of exposure to radiation, and to take precautions to prevent potential hazards. System Manual 2506.5060.02 03 14 R&STLx9 Safety Instructions General Safety Instructions 6. 7. In the event of fire, toxic substances (gases, fluids, etc.) can be discharged from the product and damage the health of personnel. If a fire occurs, appropriate meas-
ures must therefore be taken (e.g. breathing masks and protective clothing). If a laser product is integrated in a Rohde & Schwarz product (e.g. CD/DVD drive), no settings or functions other than those described in the product documentation should be used in order to prevent injury (e.g. from the laser beam). Repair and service 1. The product may be opened only by authorized, specially trained personnel. Before any work is performed on the product or before the product is opened, it must be disconnected from the supply voltage, otherwise there is a risk of electric shock. 2. Any adjustments, part replacements, maintenance or repairs may be performed only by authorized Rohde & Schwarz electricians. Only original parts may be used for replacing safety-relevant parts (e.g. mains switches, power transformers, fuses). A safety check must be performed after safetyrelevant parts have been replaced (visual inspection, protective conductor test, insulation resistance mea-
surement, leaking current measurement, functional test). This ensures that the product remains safe to use. Batteries and accumulators/cells If the instructions regarding batteries and accumulators/cells are not observed either at all or to the extent necessary, product users may be exposed to the risk of explosions, fire and/or serious personal injury and even death. Batteries and accumulators with alkaline electrolytes (e.g. lithium cells) must be handled in line with EN 62133. 1. Cells must not be disassembled, opened or crushed. 2. Cells and batteries must not be exposed to heat or fire. Storage in direct sunlight must be avoided. Keep cells and batteries clean and dry. Clean soiled terminals using a dry, clean cloth. 3. Cells and batteries must not be short-circuited. Cells or batteries must not be stored in a box or in a drawer where they can shortcircuit each other, or where they can be shortcircuited by other conductive materials. A cell or battery should only be taken out of its original packaging when it is to be used. 4. Keep cells and batteries out of the reach of children. If a cell or battery has been swallowed, seek medical assistance immediately. 5. Cells and batteries must not be subjected to severe mechanical jolts or impacts. 6. If a cell develops a leak, the fluid must not come into contact with the skin or eyes. If contact occurs, wash the affected area with plenty of water and seek medical assistance. 7. There is a risk of explosion if cells or batteries containing alkaline electrolyte
(e.g. lithium cells) are replaced or charged incorrectly. To ensure that the product System Manual 2506.5060.02 03 15 R&STLx9 Safety Instructions General Safety Instructions remains safe to use, always replace cells or batteries with the appropriate Rohde & Schwarz type (see the replacement parts list). 8. Cells and batteries must be recycled and kept separate from residual waste. Accu-
mulators and batteries that contain lead, mercury or cadmium must be disposed of as hazardous waste. Observe the national regulations regarding waste disposal and recycling. Transport 1. The product may be extremely heavy. Therefore, the product must be handled with care. In some cases, the user may require a suitable means of lifting or moving the product (e.g. with a lift truck) to avoid back or other physical injuries. 2. Handles on the products are designed exclusively to enable personnel to transport the product. The handles are not to be used for securing the product to or on trans-
port equipment (e.g. cranes, forklift trucks, carts, etc.). It is your responsibility to ensure that the products are attached securely to or on suitable transport or lifting equipment. Observe the safety regulations from the manufacturer of the used transport or lifting equipment in order prevent injury to personnel and damage to the product. 3. If you use the product in a vehicle, it is the responsibility of the driver to drive the vehicle in a safe and appropriate manner. The manufacturer shall not accept liabil-
ity for accidents or collisions. Never use the product in a moving vehicle if there is a risk that this could distract the vehicle driver. Make sure that the product is ade-
quately secured in order to prevent injury or other damage in the event of an acci-
dent. Disposal 1. 2. If products or their components are processed mechanically and/or thermally beyond the scope of the operating conditions for which they were intended, haz-
ardous materials (dust containing heavy metals such as lead, beryllium, nickel) can be released. For this reason, the product may only be disassembled by specially trained personnel. Improper disassembly may be hazardous to your health. National waste disposal regulations must be observed. If, when handling the product, hazardous materials or operating fluids are encoun-
tered which must be disposed of separately (e.g. coolant or engine oils that have to be changed at regular intervals), the safety instructions from the manufacturer of these hazardous materials and operating fluids, and the applicable local disposal regulations must be observed. Also observe any additional relevant safety instruc-
tions in the product documentation. Incorrect disposal of hazardous materials or operating fluids can result in damage to health and the environment. System Manual 2506.5060.02 03 16 R&STLx9 Safety Instructions Special Hazard Information 2.3 Special Hazard Information 2.3.1 Hazards from AC Supply Voltage All voltages of Urms > 30 V AC or U > 60 V DC must be regarded as constituting a shock hazard. When working with voltages that constitute a shock hazard, appropriate measures must be taken to prevent exposure to danger. Never work on live compo-
nents. Work on live parts should only be performed in exceptional cases and only if special safety precautions are taken. 2.3.1.1 AC Power Supply Before connecting the AC power supply, it is important to ensure that the power supply specifications given for the system or instruments match the nominal speci-
fications for the local power supply network. The power supply circuit must be pro-
tected by means of fuses in order to prevent overloads and short circuits. Miniature modules have neutral conductor fuses. As a result, the power supply may still be connected even after interruption of the circuit by a fuse. 2.3.1.2 Changing Fuses Fuses which are accessible to the operator should only be changed after the instruments have been disconnected from the power supply. They must always be replaced with fuses that have the same electrical rating, tripping characteristics and breaking capacity. Motor protection switches and automatic line fuses in those parts of a transmitter system that can be accessed by users must be tripped. If their response range is adjustable, the exfactory setting must not be altered. If settings are changed inad-
vertently, the correct values specified in this documentation must be set. 2.3.2 Hazards from HighEnergy Electric Circuits The instruments contain low-voltage circuits that can be fed from a voltage source with an extremely low impedance (e.g. amplifier operating voltage). These circuits carry dangerously high levels of energy. At Rohde & Schwarz, we treat these circuits in the same way as circuits with hazardous contact voltages. Normally, these circuits are pro-
tected by covers to prevent unintentional contact. The cover has a warning label. In practice it has been repeatedly shown that short circuits caused by small metallic tools result in severe burns. For safety reasons, any highenergy electric circuits in areas of the equipment that can be accessed by users are concealed by protective covers. Exercise the same amount of caution for measurements on lowimpedance vol-
tages (e.g. for repair purposes) that you would when performing measurements on operating voltages which constitute a shock hazard. System Manual 2506.5060.02 03 17 R&STLx9 Safety Instructions Special Hazard Information Wear suitable protective gear when necessary. Before opening any equipment or removing a particular cover, turn off the power supply and wait 5 minutes to ensure that capacitors have discharged sufficiently. Do not discharge capacitors by shortcircuiting them. 2.3.3 Hazards from RF Radiation 2.3.3.1 Obligation to Instruct Personnel The operator must train all personnel in the operation of this transmitter or instru-
ment in line with EN60215 and/or IEC215. It is essential that these regular training sessions emphasize the dangers related to high frequency that exist at the respec-
tive transmitter or instrument. Operating personnel are only authorized to adjust and operate the equipment after they have completed the respective training ses-
sions and their participation has been documented. Highenergy RF circuits inside the transmitter or instrument are routed via conventional removable RF connectors (e.g. type N). Depending on the output power, the output ports of the transmitter and instrument are equipped with screw-type or plug-in RF lines or ducts. If RF lines or modules carry high power, the connection point or the entire module is tagged with the general danger warning label (yellow triangle with a black exclamation mark). 2.3.3.2 RF Shielding Transmitters and instruments from Rohde & Schwarz are shielded so that even in the immediate vicinity there is no danger from RF radiation when all RF lines are connec-
ted. This applies to statutory provisions in Germany, i.e. the regulation concerning elec-
tromagnetic fields:
Limits for electrical and magnetic field strengths of highfrequency installations are defined in the 26th ordinance of the German Federal Government's Emission Control Act of December 16, 1996 (26. BImSchV). 2.3.3.3 Rules When Operating an Amplifier Disconnecting RF lines that are in operation can result in arcs. These can cause burns and eye injuries. Operation of the amplifier is only permitted if a main or dummy antenna is connec-
ted Never disconnect RF lines when the amplifier is in operation Never open the amplifier or modules when the amplifier is in operation Never operate the amplifier if RF lines are exposed System Manual 2506.5060.02 03 18 R&STLx9 Safety Instructions Special Hazard Information 2.3.3.4 Rules When Working on an Open Amplifier Operation with RF power is not permitted if the instrument has been opened or covers have been removed. System Manual 2506.5060.02 03 19 R&STLx9 Safety Instructions Special Hazard Information System Manual 2506.5060.02 03 20 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 3 Transmitter System R&S TLx9 3.1 Design and Function R&S TLx9 The TV transmitters of the TLx9 transmitter family cover the range between 470 MHz and 790 MHz (UHF band IV/V) and support the digital standards DVB-T, DVB-T2 and ISDB-T(B). With the retransmitter option it is going to support DVB-T/T2 only. Analog TV standards are not supported. The TLx9 series follows the concept of one product for all scenarios. The TLx9-plat-
form is able to address the applications digital TV transmitter, digital radio transmitter for band III and GapFiller for many digital standards. Regarding firmware and software, the TLx9 will apply the Tx9 platform which allows having a common software and firmware framework for all transmitter systems being part of the Tx9 generation. Product features:
Compliance with the digital modulation standards DVB-T, DVB-T2 (full R&S DVB-
T2 feature set), ISDB-T(B), ATSC and DTMB Output power level per transmitter 5 W up to 15 W in a 19 x 1 HU housing for UHF
(before Bandpass filter) Output power level per transmitter 25 W up to 200 W in a 19 x 2 HU housing for UHF (before Bandpass filter) Equipped with adaptive non-linear pre-distortion and automatic linear pre-distortion Fully integrated redundancy components (ASI distribution, LAN switch board) for B transmitter For standard configurations there is no need to do customer specific adaptations in the factory State of the art GUI Cooling optimized for rack mounting (front back) Highly flexible system configuration. One product for any application:
Transmitter Retransmitter Ready for GapFiller Optional fully integrated control for redundancy components (N+1, 1+1) Flexible configuration of redundancy systems:
Configuration as a N+1-system with N 8 Operation of redundant (B-)transmitter in mixed configurations, e.g. DVB-T and DVB-T2 Support of a Backup TX system (1+1, no external Redundancy Control Board necessary) System Manual 2506.5060.02 03 21 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 Common Remote Management over Web-Interface and SNMP. All transmitters of one redundancy system are:
visible over the management interfaces as one system able to be controlled, monitored and managed by the operator of the TLx9 as one system Optionally integrated GPS receiver (fitting variant of the Exciter / GapFiller board) Optionally integrated OCXO to provide hold over mode stability in SFN networks for 24 h in case GPS or external 1 PPS signal fails (fitting variant of the Exciter /
GapFiller board) For transmitter a transport stream feeding over ASI, IP over Gigabit Ethernet or satellite receiver is possible DVB-T/T2 receiver for retransmission or monitoring application to be optionally integrated into the TLx9 system DVB-S/S2 receiver module (with on-board CAM module and BTS recovery func-
tionality) to be optionally integrated into the TLx9 system 3.1.1 Rack Design The TLx9 is an all-in-one solution which means a complete transmitter system is inte-
grated in a 19 x 1 or 2 HU housing (depending on the type) and minimal depth of max-
imum 600 mm in the power class of 5 W to 200 W. Figure 3-1: TLx9 front view (1 HU) Figure 3-2: TLx9 front view without air filter (2 HU) System Manual 2506.5060.02 03 22 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 Figure 3-3: TLx9 front view with air filter (2 HU) It allows inserting up to two hardware option modules (Re-TX, Sat RX, 1+1 control option etc.) to adjust the configuration for several different scenarios. Figure 3-4: TLx9 back view, no options mounted (2 HU) 1 = Option slot A 2 = Option slot B Figure 3-5: TLx9 back view with mounted option (2 HU) 3.1.2 TLx9 system applications The logical units are arranged according to the following rules:
System Manual 2506.5060.02 03 23 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 System Manual 2506.5060.02 03 24 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 3.1.3 TLx9 redundancy systems The TLx9 will support a maximum of up to 8 active transmitters in an N+1 system
(8+1). For system configurations (e.g. N+1) no additional external control devices are necessary. The complete system control is placed inside the reserve B-Transmitter. Single TX configuration:
Backup TX with LAN feeding:
System Manual 2506.5060.02 03 25 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 Backup TX wit ASI feeding:
System Manual 2506.5060.02 03 26 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 N+1 with ASI feeding (max. 8+1):
System Manual 2506.5060.02 03 27 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 N+1 with LAN feeding (max. 8+1):
System Manual 2506.5060.02 03 28 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 3.1.4 Modules and devices 3.1.4.1 Overview Figure 3-6: Block diagram System Manual 2506.5060.02 03 29 R&STLx9 3.1.4.2 Inside View (1HU) Transmitter System R&S TLx9 Design and Function R&S TLx9 Figure 3-7: Inside View (1HU) 1 = Exciter / GapFiller board 2 = Backplane 3 = Capacitor backup battery 4 = System power supply 5 = Power Amplifier module 6 = Power Amplifier power supply 7 = Fan E1 8 = Fan E2 9 = Fan E3 3.1.4.3 Replaceable Modules (1HU) Module Comment EMI Filter D-SUB 9/15 Pole Filter Circuit Boards TDK Lambda HWS150A-12 12 V system power supply TDK Lambda HWS100A-24/A PSU 108 W power supply Ref. des. A4 A9 Part number 2507.2264.02 2506.7604.00 3592.0364.00 Capacitor Backup Battery TLx9-B69 A10 2506.8698.02 4GByte Micro SD card for initial installation of TLx9 Exciter /
GapFiller software a device test sys-
tem (2509.4812.10) is needed Chip Card via chip card service kit 1+1 ASI Distribution Board TLx9-B60 (Option slot A/B) DVB-T / T2 Receiver DVB-S / S2 Receiver TLx9-B61 (Option slot A/B) TCE900-M10 (Option slot A/B) 2507.3054.00 1201.5610.23 2506.8600.02 2506.8617.02 2109.3193.02 System Manual 2506.5060.02 03 30 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 Module Comment Mini LAN Switch Board TLx9-M6 (Option slot B) LAN Switch Board TCE900-M6 (Option slot B) 1+1 RF Switch Board TLx9-B59 (Option slot A/B) PA / System Fan Lithium battery Fuse Mains filter Air Filter Mat 1 HU DX 12 V Ext. Cable Fan 1 / 2 / 3 12 V 40X40X28 LC CR 2032 10 A 5/15 W Terminal Supply X60 RF Cable RF OUT RF output X61 RF Cable RF MON X66 GPS ANT Cable Insulation Film RF monitor output GPS antenna input Insulation film for cover power sup-
ply Cover Power Supply complet Cover with insulation film Ref. des. E1 E2 E3 Part number 2109.2380.03 2109.2897.02 2506.8598.02 3622.9805.00 0858.2049.00 F1, F2 0606.3136.00 X1 W17 W60 W13 W66 1201.8184.00 2506.4205.00 2506.7056.00 2506.7410.00 2506.7391.00 2506.7491.00 2509.4293.00 2509.4529.00 System Manual 2506.5060.02 03 31 R&STLx9 3.1.4.4 Inside View (2HU) Transmitter System R&S TLx9 Design and Function R&S TLx9 Figure 3-8: Inside View, example 200 W (2HU) 1 = Fan E2 2 = Fan E1 3 = Fan E3 4 = Capacitor backup battery 5 = System power supply 6 = Power Amplifier power supply 7 = Backplane 8 = Power Amplifier module 9 = Exciter / GapFiller board System Manual 2506.5060.02 03 32 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 3.1.4.5 Replaceable Modules (2HU) Module Comment EMI Filter D-SUB 9/15 Pole Filter Circuit Boards TDK Lambda HWS150A-12 12 V system power supply TSP901 Transmitter Status Panel TDK Lambda HFE1600-48 200 W PA related power supply TDK Lambda GWS500-36 100 W PA related power supply Emerson/Artesyn LCM300Q-T 24 V /
300 W 25 W and 50 W PA related power supply Ref. des. A4 A5 A6 A8 A9 Part number 2507.2264.02 2506.7604.00 2507.2935.02 3589.9506.00 2506.7804.00 2506.7704.00 Capacitor Backup Battery TLx9-B69 A10 2506.8698.02 4GByte Micro SD card for initial installation of TLx9 Exciter /
GappFiller software a device test system (2509.4812.10) is needed Chip Card via chip card service kit 1+1 ASI Distribution Board TLx9-B60 (Option slot A/B) DVB-T / T2 Receiver DVB-S / S2 Receiver TLx9-B61 (Option slot A/B) TCE900-M10 (Option slot A/B) Mini LAN Switch Board TLx9-M6 (Option slot A) LAN Switch Board 1+1 RF Switch Board LAN Local Backup TX PA Fan PA Fan PA Fan System Fan Lithium battery Fuse Mains Filter Mains Filter Air Filter Mat 2 HU Fan Sealing Pad TCE900-M6 (Option slot A) TLx9-B59 (Option slot A/B) TLx9-B58 (Option slot A) Fan 1 (25 W and 50 W) Fan 1 (100/200 W) Fan 2 (200 W) Fan 3 (25/50/100/200 W) CR 2032 10 A 25/50/100 W 200 W E1 E1 E2 E3 2507.3054.00 1201.5610.23 2506.8600.02 2506.8617.02 2109.3193.02 2109.2380.03 2109.2897.02 2506.8598.02 2506.8581.02 3593.0951.00 3593.0945.00 3593.0945.00 3593.0945.00 0858.2049.00 F1, F2 0606.3136.00 X1 X1 1201.8184.00 3622.7631.00 2506.6143.00 2506.6243.00 X66 GPS ANT Cable GPS antenna input W66 2506.7210.00 System Manual 2506.5060.02 03 33 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 3.1.4.6 Option Keys Option Service-K0 TLX9-FACTORY TIME-CONTROL K00 TLX9-K02 TLX9-K06 TLX9-K08 TLX9-K12 TLX9-K25 TLX9-K31 TLX9-K35 TLX9-K37 TLX9-K41 TLX9-K43 TLX9-K44 TLX9-K47 TLX9-K49 TLX9-K50 TLX9-K55 TLX9-K56 TLX9-K59 TLX9-K60 TLX9-K62 TLX9-K63 TLX9-K64 TLX9-K65 TLX9-K71 TLX9-K73 TLX9-K74 Part number 2506.9020.02 2506.9065.02 2506.9088.02 2506.9120.02 2506.9259.02 2506.9313.02 2506.9359.02 2506.9371.02 2506.9213.02 2506.9436.02 2506.9442.02 2506.9471.02 2506.9494.02 2506.9507.02 2506.9559.02 2506.9565.02 2506.9594.02 2506.9607.02 2506.9620.02 2506.9636.02 2506.9642.02 2506.9659.02 2506.9713.02 2506.9736.02 2506.9742.02 Comment Service Key TLx9-Factory Reset time monitoring data TLx9K0 Demo key Option key SNMP Option key DTMB (Transmitter only) Option key ISDB-T(B) (Transmitter only) Option key DVB-T (Transmitter only) Option key DVB-T2 RF MONITORING Option key TS OVER IP (Transmitter only) Option key MPLP (Transmitter only) Option key GPS (Transmitter only) Option key ATSC (Transmitter only) Option key SIGNAL ANALYSIS (Transmitter only) Option key DVB-T2 (Transmitter only) Option key DVB-T2 MISO (Transmitter only) Option key DVB-T2 LITE (Transmitter only) Option key DVB-T2 TONE RESERVATION (Trans-
mitter only) Option key DVB-S/S2 RX IP OUTPUT (Transmitter only) Option key DVB-S/S2 RX DECRYPTION (Transmit-
ter only) Option key NIT RESTAMPING (Transmitter only) Option key BTS DECOMPRESSION (Transmitter only) Option key WINDOW SIZE 14US (GapFiller only) Option key WINDOW SIZE 17US (GapFiller only) Option key R&S SMART EC (GapFiller only) Option key HTML5 GUI Option key REDUNDANT FEEDING (Transmitter only) Option key GLONASS (Transmitter only) Option key DVB-S/S2 Multistream (Transmitter only) System Manual 2506.5060.02 03 34 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 Option TLX9-K80 TLX9-K83 TLX9-K84 TLX9-K85 Part number 2506.9807.02 2506.9836.02 2506.9842.02 2506.9859.02 Comment Option key SYSTEM CONTROL Option key 10 W Option key 15 W Option key 50 W 3.1.4.7 Material Number Assignment Material No. of article Name Comment 2506.5001K02 TLX9 TLx9 System KMAT (Transmitter) 2506.5001K03 TLX9-GF TLx9 System KMAT (GapFiller) Keycard Corresponding Board Material No. in SW 2506.5001.02 2506.5001.02 2506.9907.02 2506.8023.02 TLX9-B02 Advanced Transmitter Exciter Board 2506.8023.02 2506.8023.02 TLX9-B02 Advanced Transmitter Exciter Board 2507.2229.05 2506.8030.06 TLX9-B03 GapFiller Board 6 MHz 2506.8030.08 TLX9-B03 GapFiller Board 8 MHz 2506.5001.10 In TLX9 1HE 5/10/15 W Amplifier 2506.5001.30 In TLX9-GF 1HE 5/10/15 W Amplifier 2506.8223.02 TLX9-B22 Air Filter 2 HU *
2506.8423.02 TLX9-B42 25 W Amplifier 2506.8430.02 TLX9-B43 50 W Amplifier 2506.8446.02 TLX9-B44 100 W Amplifier 2506.8452.02 TLX9-B45 200 W Amplifier 2109.2380.03 TLX9-M6 Mini LAN Switch, Variant for TLx9 with mechanical components 2109.2897.02 TCE900-M6 LAN Switch (big version) 2506.8581.02 TLX9-B58 Local LAN2 Board Backup TX (only 2HU devices) 2506.8598.02 TLX9-B59 1+1 RF Switch Board 2507.2006.03 2507.2006.02 2507.2629.02 2507.2629.02 2507.2729.02 2507.2729.02 2507.2829.02 2507.2829.02 2509.4735.02 2109.2900.02 No EEPROM 2507.2135.02 2109.3193.02 TCE900-M10 DVB-S/S2 Receiver (Transmitter only) 5303.7500.02 2506.8600.02 TLX9-B60 1+1 ASI Distribution card 2506.8617.02 TLX9-B61 DVB-T/T2 Receiver 2506.8698.02 TLX9-B69 Exciter Backup Battery 2506.5101.04 TLX9 CD-ROM Doku 2507.2429.02 2113.9986.02 System Manual 2506.5060.02 03 35 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9
* The air filter for 1 HU TLU9 is directly installed at the device frame. 3.1.4.8 Option Boards The following table shows all possible combinations for the plugin of option boards:
Device DVB-T/T2 RX DVB-S/S2 RX ASI Distribution 1+1 Antenna Switch LAN Switch (1HU) *
LAN Switch (2HU) *
Option A Option B Yes Yes Yes Yes No Yes Yes Yes Yes Yes Yes No
* Wide (200 x 150 mm) and small (200 x 90 mm) options can be mounted. Figure 3-9: Option board positions in 1 HU device Figure 3-10: Option board positions in 2 HU device 3.1.4.9 Backplane This module is the base for the inter-board communication. System Manual 2506.5060.02 03 36 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 Figure 3-11: Backplane, example 2HU 3.1.4.10 Exciter Board This board provides the TLx9 Exciter functions, depending on the HW fitting variant:
External (customer) interfaces Video input signal handling Channel coding Generation of modulated OFDM signal RF signal generation. Reference and sync input signal handling Regulation of PA output power Digital linear precorrection and non-linear PA precorrection Control of power supplies Control of redundancy switching Different HW fitting variants:
Advanced (2 x ASI input, 2 x TSoIP input, GPS and OCXO reference oscillator) GapFiller (1 x RF input and OCXO reference oscillator) TCE901 (GPS and OCXO, dual inputs, TS monitoring, local LAN2, measurement couplers, RF mon, PCIe SW, COFDM out, +13 dBm amp) System Manual 2506.5060.02 03 37 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 Figure 3-12: Exciter Board, example type Advanced 3.1.4.11 GapFiller Board The GapFiller board replaces the Exciter board for GapFiller functions. The GapFiller is integrated in the x9 transmitter family and supports all commercially available broadcast standards; such as DVB-T, DVB-T2 (full R&S DVB-T2 feature set), ISDB-T(B), ATSC and DTMB. System Manual 2506.5060.02 03 38 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 GapFiller Receiver:
High performance echo cancellation algorithm: at least -25 dB echo cancellation gain The echo cancellation settings are automatically adapted to the specific echo situa-
tion at the installation site The signal quality at the output is better compared to the R&S XLX8000 Figure 3-13: GapFiller Board 3.1.4.12 TSP901 (Transmitter Status Panel) of 1HU device The functionality is identical with the TSP901 of the 2HU device (see Chapter 3.1.4.13,
"TSP901 (Transmitter Status Panel) of 2HU device", on page 40) but the LEDs and buttons are arranged in a different way. System Manual 2506.5060.02 03 39 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 Figure 3-14: Local operation for 1HU device 3.1.4.13 TSP901 (Transmitter Status Panel) of 2HU device The TSP901 allows local operation of a transmitter and shows basic informations. Figure 3-15: TSP901 (Transmitter Status Panel) For N+1 and MultiTX transmitters, each individual transmitter has a separate TSP901, which allows local operation of the single transmitters. Meaning of LEDs LED Message OK (green) Transmitter, everything OK Warning (orange)[1]
Warning for transmitter Fault (red) Input Reference Fault for transmitter OK W F OK W F Sum input status of the Exciter / GapFiller is OK Sum input status of the Exciter / GapFiller has a Warning Sum input status of the Exciter / GapFiller has a Fail Sum reference of the Exciter / GapFiller is OK Sum reference of the Exciter / GapFiller has a Warning Sum reference of the Exciter / GapFiller has a Fail System Manual 2506.5060.02 03 40 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 Off OK W F Off RF Local On Reference signal (10 MHz/ PPS/GPS) is not present and is not required, since frequency regulation source is set to "Manual"
Transmitter RF OK Transmitter RF Warning Transmitter RF Fail [2]
Transmitter program off Transmitter Local/Remote LED shows the Local status (yellow) Transmitter On
(ON/OFF command accepted by the transmitter)
[1] During an update of the FPGA firmware (e.g. after installing a new software version) the Warning LED is flashing.
[2] Special case: Saved RF Fail for (switched over and) switched off transmitter. 3.1.4.14 TDU901 (Transmitter Display Unit) The R&S TDU901 is a display unit with a touchscreen function and a graphical user interface for configuring Tx9 transmitter systems. Figure 3-16: TDU901 (Transmitter display unit) The display has a touchscreen function for operating all of the transmitter functions. Using sharpedged objects can damage or destroy the surface. Therefore only use your finger to operate the touchscreen. 1. A light touch on a button is enough to trigger a user action. 2. A button lights up orange for as long as your finger remains there. The action is not carried out until you remove your finger from the button. System Manual 2506.5060.02 03 41 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 Tip: To cancel an inadvertently selected action, slide your finger to the side away from the button highlighted orange and then lift your finger off the touchscreen. The TDU901 Touch-Screen is existing in two variants. The Var. 02 is the standard con-
figuration with mechanical holder and coated front plate. The Var. 03 is extended with a front LOCAL LAN connection for more convenient LAN cabling (local operation with Laptop). If the USB Display Var. 03 is ordered together with a 2HU TLx9 Backup TX System it is mandatory to order also the option LOCAL LAN2 for the system control device, other-
wise the local LAN control at the front is not possible. 3.1.4.15 Power Amplifier Module The amplifier-pallet operates from 470 MHz to 790 MHz. The whole amplifier stage is designed as a fixed gain amplifier without any compensation of gain and temperature and frequency response. There is no internal power or gain control. The entire FPGA-
based power control is done on the Exciter / GapFiller board by a variable gain ampli-
fier (VGA) and a voltage variable attenuator (VVA). The detection of the output power is done on the TLx9 PA module. Fitting variants:
PA Pallet and 200 W heat sink and 2 fans PA Pallet and 100 W heat sink and 1 fan PA Pallet and 50 W heat sink and 1 fan Figure 3-17: Power Amplifier Module (example) System Manual 2506.5060.02 03 42 R&STLx9 3.1.4.16 Power Supplies Transmitter System R&S TLx9 Design and Function R&S TLx9 Fitting variants:
200 W PA: 12 V PS and 48 V PS and adapter card and EC11 AC connector 100 W PA: 12 V PS and 36 V PS and Euro AC connector 50 W PA: 12 V PS and 24 V PS and Euro AC connector Used Power Supplys:
Voltage 12 V 24 V 36 V 48 V Power 150 W 300 W 500 W Material Number Type 2506.7604.00 2506.7704.00 2506.7804.00 TDK Lambda HWS150A-12 Emerson LCM300Q-T 24V/300W TDK Lambda GWS500-36 1800 W 3589.9506.00 TDK Lambda HFE1600 - 48 3.1.4.17 Capacitor Backup Battery Delivers 12 V backup power to the Exciter / GapFiller Board to avoid reboots during power glitches. Figure 3-18: Capacitor Backup Battery 3.1.4.18 IPM2/4 Processor Board For inter-board and interface controlling. System Manual 2506.5060.02 03 43 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 Figure 3-19: IPM2/4 Processor Board 3.1.4.19 ASI Distribution Board For distribution of ASI inputs between active and reserve TLx9 transmitter. Installed in one of the TLx9 option slots for 1+1 or N+1 configuration. Figure 3-20: ASI Distribution Board System Manual 2506.5060.02 03 44 R&STLx9 3.1.4.20 DVB-T/T2 Receiver Transmitter System R&S TLx9 Design and Function R&S TLx9 This module is a complete receiver for DVB-T and DVB-T2. Output of the module is a MPEG transport stream (ASI) and a set of measurement values (RF power, MER, BER, packet error,). The control is done by USB. The receiver can handle the com-
plete VHF and UHF frequency range. To operate the board a reference frequency is mandatory. Figure 3-21: DVB-T/T2 Receiver 3.1.4.21 DVB-S/S2 Receiver This board is using two single tuners and dual demodulator chips. In addition there is one dual LNB supply and control chip which can control two independent LNBs. There are two slots available to incorporate CI modules. With this modules the demodulated transport streams can be encrypted if necessary. The processed transport streams are connected via the backplane with the Exciter / GapFiller board (for further processing). It is possible to emit the demodulated and encrypted transport streams via the Ethernet connector X35 and the ASI out connector X25. Features:
DVB-S; DVB-S2 Input frequency range 950 MHz to 2150 MHz Supports 1 to 45 Msymbol/s Continuously variable gain: 0 to 65 dB Programmable 5- to 36-MHz cut-off frequency RF input power for a single carrier: - 80 dBm up to - 10 dBm System Manual 2506.5060.02 03 45 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 Figure 3-22: DVB-S/S2 Receiver 3.1.4.22 Mini LAN Switch Board This board is offering 4 GBit Ethernet ports. Two LEDs per interface are for signaling Connectivity / activity (green LED) Valid Gigabit Ethernet connection (yellow LED) Figure 3-23: Mini LAN Switch Board System Manual 2506.5060.02 03 46 R&STLx9 3.1.4.23 LAN Switch Board Transmitter System R&S TLx9 Design and Function R&S TLx9 This board is offering 8 GBit Ethernet ports. Two LEDs per interface are for signaling Connectivity / activity (green LED) Valid Gigabit Ethernet connection (yellow LED) Figure 3-24: LAN Switch Board 3.1.4.24 Local LAN2 Board The Local LAN2 Board is a passive board to route the Local LAN network connection from the Exciter / GapFiller Board via the Backplante to the Option Slot A (2 HU hous-
ing). This board is only used in 2HU device. In 1HU devices a second local LAN is accessible at the front of the device. The 2HU device is missing the second local LAN connection. The board is only used in Backup TX systems. System Manual 2506.5060.02 03 47 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 Figure 3-25: Local LAN2 Board 3.1.4.25 RF Switch Board This board as a TLx9 option card is to be mounted in the redundancy device (i.e. TX B) and has no fitting variant in this module. GapFiller Redundancy 1+1 Antenna Redundancy The main feature in this configuration is that it supports cross switching between antenna A to device A or B and antenna B to device A or B Figure 3-26: GapFiller Redundancy 1+1 Antenna Redundancy GapFiller Redundancy in 1+1 Systems with Single Antenna The main feature in this configuration is that switching between device A and B is pos-
sible. In normal operation mode, the device B will have no input and hence, no valid output signal (i.e. passive standby). System Manual 2506.5060.02 03 48 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 Figure 3-27: GapFiller Redundancy in 1+1 Systems with Single Antenna 1+1 RF Switch for 15W Backup TX Systems In this configuration, the optional ASI board is required and has to be mounted in the redundancy device (i.e. TX B). With the prerequisite fulfilled, the RF Switch board can be used as a high power (15W OFDM max.) RF switch. In this configuration, the TX B, in the condition with no TX A connected, must be able to open up the RF loop to avoid hot switching. Figure 3-28: 1+1 RF Switch for 15W Backup TX Systems System Manual 2506.5060.02 03 49 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 Figure 3-29: RF Switch Board 3.1.4.26 GapFiller 1+1 15W Redundancy System with RF Switching In this configuration, 2 RF switch boards are required and has to be mounted in the redundancy device (i.e. TX B). With the prerequisite fulfilled, the RF Switch board at the input can be used to switch an input antenna or to support antenna redundancy with the second switch board as a high power (15W OFDM max) RF switch. In this configuration, the TX B, in the condition with no TX A connected, must be able to open up the RF loop to avoid hot switching. System Manual 2506.5060.02 03 50 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 Figure 3-30: GapFiller 1+1 15W Redundancy System with RF Switching 3.1.5 Specifications 3.1.5.1 General Data DVB-T DVB-T2 ISDB-T(B) Frequency range UHF band IV/V (step size 1 Hz): 470 MHz to 790 MHz Channel bandwidth 6, 7, or 8 MHz 5, 6, 7, 8 or 10 MHz 6, 7 or 8 MHz Standards ETSI EN 300 744 ETSI EN 302 755 SFN / DTx Funktion ETSI TS 101 191 EMC ETSI EN 302 296/ 302 297 Rec. 1999/519/EC ETSI EN 301 489-1 / -14 DTV average Power 5 to 200 W (before bandpass filter) ARIB STD-B31 (ISDB-T) ABNT NBR 15601 (ISDB-T) ARIB STD-B31 (ISDB-T) ABNT NBR 15601 (ISDB-TB) ETSI EN 302 296/ 302 297 Rec. 1999/519/EC ETSI EN 301 489-1 / -14 RF output power sta-
bility Directivity for VSWR measurement 0.253 dB ( 6 %) typical 25 to 30 dB MER with predistortion 34 dB Shoulder distance with predistortion 37 dB System Manual 2506.5060.02 03 51 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 DVB-T DVB-T2 ISDB-T(B) Harmonic distance Flatness with predis-
tortion VSWR at RF Output 470 to 530 MHz: 33 dBc 530 to 790 MHz: 50 dBc 0.5 dB 1.65
(for VSWR 1.65 the TLx9 will reduce output power)
(for VSWR 2 the TLx9 will be muted) Spurious emissions Non harmonics, > 10 kHz offset from carrier with max. gain, sin signal:
50 dBc Phase noise Frequency Carrier Off-
set 10 Hz 100 Hz 1 kHz 20 kHz 100 kHz 1 MHz
-65 dBc/Hz (OCXO), -50 dBc/Hz typical (TCXO)
-85 dBc/Hz
-100 dBc/Hz
-105 dBc/Hz
-113 dBc/Hz
-130 dBc/Hz Aging OCXO variant
(average value after 10 days of operation) Aging (after 24 hours operation) Aging (after 30 days operation)
< 110-9
< 210-8 Long term aging
< 110-7/year (0.1 ppm/year) Heat up time 10 minutes TCXO variant 1 ppm/year Redundancy Backup TX (1+1) and N+1 redundancy Environmental conditions Operation conditions For indoor use only System Manual 2506.5060.02 03 52 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 DVB-T DVB-T2 ISDB-T(B) Cooling system Air-cooled Max. installation alti-
tude 2000 m (above sea level) Operating temperature +1 C to +45 C (Technical data guaranteed) Permissible tempera-
ture Maximum relative humidity Dust conditions 0 C to +50 C (Technical data not guaranteed 95 % non-condensing Pollution degree 2 (IEC 60664-1)
(with air filter: pollution degree 3) Air Filter Compliant with DIN EN 779 G2 Environmental class ETSI EN 300-019-1-3 Interior, in acc. with 3.2, with limited temperature range, non-condensing Immunity to radiated interference Up to 10 V/m Power supply Voltage supply 100 to 240 V AC 10 %
AC supply frequency 50 Hz to 60 Hz 10 %, single phase Power consumption To fast transients and burst in line with IEC 61000-4-4 To surges in line with IEC 61000-4-5 200 W DTV average power: ~800 W 100 W DTV average power: ~465 W 50 W DTV average power: ~260 W 25 W DTV average power: ~180 W 15 W DTV average power: ~150 W 10 W DTV average power: ~135 W 5 W DTV average power: ~120 W Immunity 2 kV (AC mains) 1 kV (signal inputs) Symmetrical 1 kV (e. g. L-N) Asymmetrical 2 kV (e. g. L-PE, N-PE) Mechanical resistance System Manual 2506.5060.02 03 53 R&STLx9 Transmitter System R&S TLx9 Design and Function R&S TLx9 DVB-T DVB-T2 ISDB-T(B) Vibration (sinusoidal) 5 Hz to 150 Hz, max. 1.8 g at 55 Hz, max. 0.5 g from 55 Hz to 150 Hz Meets DIN EN 60068-2-6 Vibration (random) 8 Hz to 500 Hz, acceleration 1.2 g (rms) Meets DIN EN 60068-2-64 Shock Shock response spectrum ramp up 6 dB/octave up to 45 Hz; 45 to 2000 Hz, max. 40 g Meets MIL-STD-810E Safety standards ETSI EN60215 Safety requirements for radio transmission equipment (VDE0866 / IEC 215) ETSI EN60950 Safety of information technology equipment incl. electrical business equipment (VDE0805 / IEC 950) Interfaces Transport Signal Inputs Reference Signal Inputs Monitoring and control interfaces RF output TS Monitor output RF Monitor output Reference Monitor output Weight 1 (2) x ASI (75 ), 1 (2) x TSoIP (Ethernet) GPS antenna in (SMA, 50 ), 1 pps and 10 MHz (BNC, 50 ) 2 x Ethernet (Local and Remote) SMA, 50 , for 5/10/15 W N, 50 , for 25/50/100/200 W BNC, 75 SMA, 50 BNC, 50 Dimensions and weight 19", 1 HU, Depth 600 mm, for 5/10/15 W 19", 2 HU, Depth 450 mm, for 25/50/100/200 W
(with integrated GPS-receiver, 1+1 redundancy components, DVB-S/S2 RX, DVB-T/T2 RX, Ethernet switch, Capacitor pack) 5/10/15 W: ~7 kg 25/50 W: ~10 kg 100W: ~12.05 kg 200W: ~13.85 kg System Manual 2506.5060.02 03 54 R&STLx9 3.1.5.2 Inputs Transmitter System R&S TLx9 Design and Function R&S TLx9 Input signals Data rate Data inputs DVB-T ASI TS over IP DVB-T2 ASI TS over IP ISDB-T(B) ASI TS over IP 3 Mbps to 30 Mbps 3 Mbps to 50 Mbps 32.507937 Mbps 2 x ASI BNC 75 2 x ASI BNC 75 Data inputs IP 2 x GigaBit Ethernet; RJ-45 Modulator interface
- - -
T2-MI ETSI TS 102773 Reference frequency 10 MHz; 0.1 to 5 Vpp or TTL, BNC 50 Reference pulse 1 pps, TTL, BNC 50 2 x ASI BNC 75
- - -
Monitoring Packet length 204 byte / 188 byte Current data rate, input signal present, TS synchronization present Modulation modes QPSK, 16QAM, 64QAM FFT modes
(bandwidth specifications for 8 MHz channel) 2K, 8K opt. 4K for DVB-H bandwidth 7.61 MHz Extended carrier mode
- - -
Symbol period 224 s (2K) 448 s (4K) 896 s (8K) 204 byte / 188 byte DQPSK QPSK 16QAM 64QAM Mode 1: 2K Mode 2: 4K Mode 3: 8K
- - -
252 s (2K) 504 s (4K) 1008 s (8K) Fixed packet length 188 byte Generic cont. stream > 64 kbit Generic fixed packetized streams < 64 kbit Generic encapsulated streams (TS 102606) + high efficiency mode QPSK, 16QAM, 64QAM, 256QAM 1K, 2K, 4K, 8K, 16K, 32K bandwidth 7.61 MHz 8K, 16K, 32K bandwidth 7.77 MHz 112 s (1K) 224 s (2K) 448 s (4K) 896 s (8K) 1792 s (16K) 3584 s (32K) Guard interval 1/4, 1/8, 1/16, 1/32 1/4, 1/8, 1/16, 1/32, 19/128, 19/256, 1/128 1/4, 1/8, 1/16, 1/32 Code rate Trellis coding 1/2, 2/3, 3/4, 5/6, 7/8 1/2, 3/5, 2/3, 3/4, 4/5, 5/6 1/2, 2/3, 3/4, 5/6 ,7/8
- - -
- - -
- - -
System Manual 2506.5060.02 03 55 R&STLx9 Hierarchical coding PAPR Rot. constellation DVB-T2 modes Delay correction Precorrection Transmitter System R&S TLx9 Installation R&S TLx9 DVB-T included
- - -
- - -
- - -
DVB-T2 ISDB-T(B)
- - -
yes yes single PLP multi PLP
- - -
- - -
- - -
- - -
max. 1000 ms, automatic or manual setting Adaptive digital equalization
(ADE) Adaptive digital equalization
(ADE) Adaptive digital equalization (ADE) 3.1.5.3 Quality MER DVB-T 33 dB at Pnom Frequency response before bandpass filter
< 0.5 dB DVB-T2 33 dB at Pnom
< 0.5 dB ISDB-T(B) 33 dB at Pnom
< 0.5 dB Intermodulation suppression 37 dB 12 MHz BW 8 MHz at 4.2 MHz BW 7 MHz at 3.7 MHz BW 6 MHz at 3.2 MHz 37 dB 12 MHz BW 8 MHz at 4.2 MHz BW 7 MHz at 3.7 MHz BW 6 MHz at 3.2 MHz 37 dB 12 MHz BW 6 MHz at 3.15 MHz Spectrum mask in line with ETSI EN 302 296 with channel bandpass filter ABNT STD-B31 (ISDB-T) ABNT NBR 15601 Part 1 (ISDB-T(B)) with channel bandpass Spurious emissions Harmonics
-50 dBc without channel bandpass filter 470 to 530 MHz: 33 dBc 530 to 790 MHz: 50 dBc without channel bandpass and external harmonic filter 3.2 Installation R&S TLx9 3.2.1 Unpacking and Setting Up 3.2.1.1 Equipment Supplied The following items are supplied as standard:
System Manual 2506.5060.02 03 56 R&STLx9 Transmitter System R&S TLx9 Installation R&S TLx9 R&S TLx9 all-in-one transmitter system, integrated in a 19 x 1 or 2 HU housing
(depending on the type) Short-circuit connector for X6 Power cable (type depending on the target country) User documentation Delivery notes 3.2.1.2 Unpacking Instrument Carefully remove the instrument from the carton and check the delivery for complete-
ness against the delivery note. 3.2.1.3 Setting Up Instrument The instrument can be built into a 19 rack. Depending on the transmitter type, 1 or 2 height units are required for installation. Make sure the transmitter is firmly fixed in the rack and there is sufficient ventilation. Make sure in particular that the flow of air through the inlets and outlets is not obstruc-
ted. 3.2.2 Connecting Cables Always make sure that the power supply is disconnected before connecting any devi-
ces. This will prevent injuries and damage to the devices. The cables used to provide ASI, 10 MHz, PPS and GPS signals should be double shielded. IP and Ethernet connections should use double shielded class CAT6 cables. The optional R&S TDU900/901 display unit is connected to the USB Interface, using an USB 2.0 cable provided by Rohde & Schwarz. Any other cables are not allowed. The RF cable for the optional satellite receiver should have a minimum screening attenuation of 110 dB. System Manual 2506.5060.02 03 57 R&STLx9 Transmitter System R&S TLx9 Installation R&S TLx9 Please refer to the system circuit diagram for the system wiring applicable to your sys-
tem. 3.2.2.1 Overview of Connectors Dependig on the transmitter type, maybe not all of the shown connectors are available. Figure 3-31: Connectors on rear panel of R&S TLx9 (left side) Figure 3-32: Connectors on rear panel of R&S TLx9 (mid) Figure 3-33: Connectors on rear panel of R&S TLx9 (right side) System Manual 2506.5060.02 03 58 R&STLx9 Transmitter System R&S TLx9 Installation R&S TLx9 Figure 3-34: RF output and RF monitor connectors on rear panel of R&S TLx9 Figure 3-35: Terminal supply and Mains connectors on rear panel of R&S TLx9 Signal Name/Description MAINS LAN REMOTE TX IF LAN LOCAL TERMINAL SUPPLY USB TS1 IN TS2 IN TS MONITOR OUT Connection point Remarks X1 X2 X6 X7 X12 X14 X20 X21 X22 Power supply AC input Remote LAN connection TX connector (CAN bus, 12 V external, position detection) Local LAN connection 12 V, 1 A for external components (e.g. RCB) USB port (for e.g. backup restore configu-
ration via USB stick) ASI input feeding ASI input feeding Transport stream / ASI monitor output System Manual 2506.5060.02 03 59 R&STLx9 Transmitter System R&S TLx9 Installation R&S TLx9 Signal Name/Description 1PPS IN REF MONITOR TS LAN1 TS LAN2 RF_OUT RF_MON REF IN GPS ANT DEMOD2 RF Switch SD-CARD Connection point Remarks X23 X24 X30 X31 X60 X61 X64 X66 X68 X83 1 PPS input Reference monitor output (10 MHz or 1 PPS) Transport stream Input feeding Transport stream Input feeding RF output RF monitor output 10 MHz reference input GPS antenna input RF input for demodulator (linear predistor-
tion) Interface to control a mechanical RF switch Slot for SD-Card 3.2.2.2 Connecting Input Signals Inputs for digital TV The input signals can be fed in ASI, T2MI (DVB-T2) or SMPTE format. Connect the first transport stream to X20 (TS 1 IN). With hierarchical coding (DVB-
T only), X20 is the input for the HP stream If signal standby is required, connect a second transport stream to X21 (TS 2 IN). With hierarchical coding, X21 is the input for the LP stream Alternatively the input signals can be fed in via IP using X30 (TS LAN1) and X31
(TS LAN2) 3.2.2.3 Connecting External Reference Sources To increase frequency accuracy, connect an external reference source (10 MHz) to X64 (REF IN) Alternatively, the second pulse of an external 1 pps signal (at X23) or of the optional internal GPS receiver (GPS antenna at X66) can be used as the frequency reference For SFN operation, additionally feed a 1 pps signal to allow time synchronization:
1. If the optional internal GPS receiver is used, connect the GPS antenna to X66
(GPS ANT) System Manual 2506.5060.02 03 60 R&STLx9 Transmitter System R&S TLx9 Installation R&S TLx9 2. Alternatively, feed the 1 pps signal of an external reference source via X23 (1PPS IN) 3.2.2.4 Connecting Antenna System Risk of RF burns Before connecting the antenna cable, make sure that the instrument cannot output RF at the output. For EMC reasons, only cables with double shielding are to be used at the RF output. Connect the antenna system to X60 (RF Output). 3.2.2.5 Preparing RF Carrier Loop Risk of RF burns Before putting the instrument into operation, make sure that the available interlock loop systems are in use. Prepare the interlock loop system (if available) for connection to X6 (TX IF) If no interlock loop devices are available in the transmitter system (only permissible with low power), have the supplied short-circuit connector at the ready The interlock loop is only closed after (!) startup via X6 (TX IF), after which the instru-
ment can then produce RF 3.2.2.6 Connecting User Interface For operating the system, it is possible to connect the transmitter to a PC, using an Ethernet link via RJ-45 connector X7 (LAN LOCAL). For connection to a remote monitoring network use RJ-45 connector X2 (LAN REMOTE). System Manual 2506.5060.02 03 61 R&STLx9 Transmitter System R&S TLx9 Commissioning R&S TLx9 Rohde & Schwarz recommends the use of an double shielded RJ-45 cable which com-
plies with the CAT 6 specification 3.2.2.7 Connecting AC Power Supply The instrument can be damaged by overvoltage. Make sure that the AC supply voltage provided by your local power supply network complies with the specifications of the power supply unit installed in your instrument. Risk of electric shock Check the power cable for damage. Risk of fire Make sure that the power cable has the appropriate current carrying capacity neces-
sary for power consumption over the entire temperature range. Set the power switch on the rear of the instrument to 0 (OFF) Connect the instrument to the power supply using the power cable 3.3 Commissioning R&S TLx9 Commissioning and operation of the transmitter system is described in the following document. R&S Transmitter System Tx9 Operating Manual Mat. No. 2109.9110.02 System Manual 2506.5060.02 03 62 R&STLx9 R&S TLx9 Interface Description Base unit and Exciter / GapFiller Board Interfaces Annex A R&S TLx9 Interface Description A.1 Base unit and Exciter / GapFiller Board Interfaces A.1.1 Overview Signal Name/Description MAINS LAN REMOTE LAN LOCAL TX LAN LOCAL TERMINAL SUPPLY USB TS1 IN TS2 IN TS MONITOR OUT 1PPS IN REF MONITOR TS LAN1 TS LAN2 RF_OUT RF_MON REF IN GPS ANT DEMOD2 Connection point Remarks X1 X2 X3 X6 X7 X12 X14 X20 X21 X22 X23 X24 X30 X31 X60 X61 X64 X66 X68 Power supply AC input Remote LAN connection Front LAN local for 1HU or for 2HU with option card TX connector (CAN bus, 12 V external, position detection) Local LAN connection 12 V, 1 A for external components (e.g. RCB) USB port (for e.g. backup restore configu-
ration via USB stick) ASI input feeding ASI input feeding Transport stream / ASI monitor output 1 PPS input Reference monitor output (10 MHz or 1 PPS) Transport stream Input feeding Transport stream Input feeding RF output RF monitor output 10 MHz reference input GPS antenna input RF input for demodulator (linear predistor-
tion) System Manual 2506.5060.02 03 63 R&STLx9 R&S TLx9 Interface Description Base unit and Exciter / GapFiller Board Interfaces Signal Name/Description RECEIVER RF Switch Connection point Remarks X70 X83 Receiver input for Exciter / GapFiller Board Interface to control a mechanical RF switch A.1.2 Description Table A-1: X1 - Mains Signal Name/Description Direction Value range Connection point Remarks L1 N PE Input Input Input 100 to 240 V AC 10 % X1.L 0 V 0 V X1.N X1.PE Mains connection Mains connection Mains connection IEC (standard with integrated fuses 10 A) for RF output power 100W OFDM. EC11 (high current up to 16 A, no integrated fuse) for RF output power 200 W OFDM. Table A-2: X2 - LAN Remote: 8-pin RJ-45 socket Signal Name/Description Direction Value range Connection point Remarks BI_DA+
BI_DA-
BI_DB+
BI_DB-
BI_DC+
BI_DC-
BI_DD+
BI_DD-
Bidirec-
tional Bidirec-
tional Bidirec-
tional Bidirec-
tional Bidirec-
tional Bidirec-
tional Bidirec-
tional Bidirec-
tional Vodiff = 670 to 820 mVss X2.1 Vidiff = 750 mVss typ. X2.2 Vodiff = 670 to 820 mVss X2.3 Vidiff = 750 mVss typ. X2.4 Vodiff = 670 to 820 mVss X2.5 Vidiff = 750 mVss typ. X2.6 Vodiff = 670 to 820 mVss X2.7 Vidiff = 750 mVss typ. X2.8 System Manual 2506.5060.02 03 64 R&STLx9 R&S TLx9 Interface Description Base unit and Exciter / GapFiller Board Interfaces Table A-3: X6 - TX: 9-pin Sub-D socket Direction Value range Connection point Remarks Signal Name/Description SORT1 / Position1 CAN_L GND LOOP-
SORT2 / Position2
/AC_FAIL CAN_H LOOP+
Bidirec-
tional Bidirec-
tional Bidirec-
tional Bidirec-
tional Bidirec-
tional Input Bidirec-
tional Bidirec-
tional 0 to + 8,9 V 10 %
CAN-Level 0 V Open: protection loop open connection to LOOP+ : protec-
tion loop closed 0 to + 8,9 V 10 %
0 to + 11,2 V Input Pullup: 5 k Input Pulldown: 136 k Idle Level: 11,2 V 5 %
CAN-Level Open: protection loop open connection to LOOP+ : protec-
tion loop closed X6.1 X6.2 X6.3 X6.4 X6.5 X6.6 X6.7 X6.8 X6.9 Externally pulled down to GND by resistor > 5 k resp. 100 Supply for system components
+12V_RC Output
+ 12 V 1,5 %
Table A-4: X7 - LAN Local: 8-pin RJ-45 socket Signal Name/Description Direction Value range Connection point Remarks BI_DA+
BI_DA-
BI_DB+
BI_DB-
BI_DC+
BI_DC-
BI_DD+
BI_DD-
Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. X7.1 X7.2 X7.3 X7.4 X7.5 X7.6 X7.7 X7.8 System Manual 2506.5060.02 03 65 R&STLx9 R&S TLx9 Interface Description Base unit and Exciter / GapFiller Board Interfaces Table A-5: X12 - Terminal Supply: 4P connector Signal Name/Description Direction Value range TERMINAL SUPPLY Output 12 V DC 1,5 V GND Bidirec-
tional 0 V USB SUPPLY Output 5 V DC 0,5 V GND Bidirec-
tional 0 V Table A-6: X14 - USB: USB connector type A Connection point Remarks X12.1 X12.2 X12.3 X12.4 Imax. = 1.6 A Imax. = 1 A Signal Name/Description
+5V USB USB Data-
USB Data+
GND Direc-
tion Output Bidirec-
tional Bidirec-
tional Bidirec-
tional Value range Connection point Remarks X14.1 X14.2 X14.3 X14.2 GND / shield Table A-7: X20 TS1 IN: BNC jack 75 Signal Name/Description TS1 GND Direc-
tion Value range Connection point Remarks Input ASI / SMPTE310M Bidirec-
tional 0 V X20.1 X20.2 GND / shield Table A-8: X21 TS2 IN: BNC jack 75 Signal Name/Description TS2 GND Direc-
tion Value range Connection point Remarks Input ASI / SMPTE310M Bidirec-
tional 0 V X21.1 X22.2 GND / shield Table A-9: X22 TS Monitor: BNC jack 75 Signal Name/Description TS_MON GND Direc-
tion Value range Connection point Remarks Output ASI / SMPTE310M Bidirec-
tional 0 V X22.1 X22.2 GND / shield System Manual 2506.5060.02 03 66 R&STLx9 R&S TLx9 Interface Description Base unit and Exciter / GapFiller Board Interfaces Table A-10: X23 1PPS IN: BNC jack 50 Signal Name/Description 1PPS_EXTERN Direc-
tion Input Value range Connection point Remarks 3.3 V-LVTTL or TTL Ri = 50 for AC pos. edge X23.1 Seconds pulse from external GPS receiver GND Bidirec-
tional 0 V X23.2 to X23.5 GND / shield Table A-11: X24 REF MON: BNC jack 50 Signal Name/Description REF_MON GND Direc-
tion Value range Connection point Remarks Output 3.3 V-LVTTL Bidirec-
tional 0 V X24.1 X24.2 GND / shield Table A-12: X30 - TS LAN1: 8-pin RJ-45 socket Signal Name/Description Direction Value range Connection point Remarks BI_DA+
BI_DA-
BI_DB+
BI_DB-
BI_DC+
BI_DC-
BI_DD+
BI_DD-
Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. X30.1 X30.2 X30.3 X30.4 X30.5 X30.6 X30.7 X30.8 Table A-13: X31 - TS LAN2: 8-pin RJ-45 socket Signal Name/Description Direction Value range Connection point Remarks BI_DA+
BI_DA-
BI_DB+
BI_DB-
BI_DC+
BI_DC-
Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. X31.1 X31.2 X31.3 X31.4 X31.5 X31.6 System Manual 2506.5060.02 03 67 R&STLx9 R&S TLx9 Interface Description Base unit and Exciter / GapFiller Board Interfaces Signal Name/Description BI_DD+
BI_DD-
Direction Value range Connection point Remarks Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. X31.7 X31.8 Table A-14: X60 - RF output: N-connector 50 Signal Name/Description Direction Value range RF_OUT Output PAVG, max. = 200 W (DVB-T) 470 MHz to 790 MHz at 50 load, s 1.4 Connection point Remarks X60.1 GND Bidirectional X60.2 GND / shield Table A-15: X61 RF Monitor: SMA socket 50 Signal Name/Description RF_MON GND Direction Value range Output
-7 dBm 2 dB Bidirectional Table A-16: X64 REF IN: BNC jack 50 Connection point Remarks X61.1 X61.2 GND / shield Signal Name/Description Direction Value range Connection point Remarks EXT_REF_IN Input 5 MHz / 10 MHz
-5.0 dBm to 20 dBm or TTL X64.1 GND Bidirectional X64.2 GND / shield Table A-17: X66 GPS ANT: SMA socket 50 Signal Name/Description Direction Value range GPS ANTENNA Input
-144 dBm to -5 dBm GND Bidirectional 0 V Table A-18: X68 DEMOD2: QMA socket 50 Signal Name/Description Direction Value range Connection point Remarks X66.1 X66.2 GND / shield Connection point Remarks DEMOD2 Input
+7 dBm (-9 / +1 dB) DTV 160 to 790 MHz S11 -16 dB X68.1 RF Input for Demodulator
(linear predistor-
tion) GND Bidirectional 0 V X68.2 GND / shield System Manual 2506.5060.02 03 68 R&STLx9 R&S TLx9 Interface Description Base unit and Exciter / GapFiller Board Interfaces Table A-19: X83 - RF SWITCH: 15-pin Sub-D socket Signal Name/Descrip-
tion Direc-
tion Value range
+12V_RFSW Output LOOP+
Output
+12V 20 %
Loading current up to 120 mA Opened Loop:
Loop+ to Loop- voltage is 12 V 10 %
Closed Loop:
Current is 2.5 mA 10 %
Connec-
tion point Remarks X83.1 This pin is protected by a 0.14 A PTC@23 C X83.2 Loop control output Input 3 states: OPEN / 0 V / 12 V X83.3 STA-
TUS_POS1/2_ULI NK CON-
TROL_SWITCH_ POS2 EXT_DOOR_CO NTACT Output 0 V to 28 V Input 2 states: 0 V / 12 V COOLING_DL_1 Output
+12V Output
+12 V 10 %
Loading current up to 2 A (100 ms) 0V_RFSW Output 0 V LOOP-
Input Opened Loop:
Loop+ to Loop- voltage is 12 V 10 %
Closed Loop:
Current is 2.5 mA 10 %
STA-
TUS_POS1/2_SW ITCH Input 3 states: OPEN / 0 V / 12 V X83.10 X83.4 X83.5 X83.6 X83.7 X83.8 X83.9 ULINK position detec-
tion:
OPEN for position open 0 V for position 2 12 V for position 1 Open collector output:
1.25 W@25C maximum Connect to 0V_RFSW:
Door closed Connect to 12V_RFSW:
Door open Relay controlled pins to open/short dummy load for antenna cooling Maximum voltage applied on these pins is 30 V 10 %
This pin is protected by a 1.5 A PTC@20 C Loop control input RF Switch position detection:
OPEN for position open 0 V for position 2 12 V for position 1 CON-
TROL_SWITCH_ POS1 Output 0 V to 28 V X83.11 Open collector output:
1.25 W@25C maximum System Manual 2506.5060.02 03 69 R&STLx9 R&S TLx9 Interface Description Option Board Interfaces Signal Name/Descrip-
tion Direc-
tion Value range Connec-
tion point Remarks OVER_VOLTAGE Input 2 states: 0 V / 12 V X83.12 Connect to 0V_RFSW is OK Connect to 12V_RFSW is Over Voltage GND Bidirec-
tional 0 V X83.13 MAS COOLING_DL_2 Output Maximum short current is 1 A 10 %
X83.14 EXT_SWITCH-
OVER Input 2 states: 0 V / 12 V X83.15 Relay controlled pins to open / short dummy load for antenna cooling Maximum voltage applied on these pins is 30 V 10 %
Connect to 0V_RFSW is Switched Over Connect to 12V_RFSW is Not Switched Over. A.2 Option Board Interfaces A.2.1 LAN Switch Table A-20: X50 - LAN1: 8-pin RJ-45 socket Signal Name/Description Direction Value range Connection point Remarks BI_DA+
BI_DA-
BI_DB+
BI_DB-
BI_DC+
BI_DC-
BI_DD+
BI_DD-
Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. X50.1 X50.2 X50.3 X50.4 X50.5 X50.6 X50.7 X50.8 System Manual 2506.5060.02 03 70 R&STLx9 R&S TLx9 Interface Description Option Board Interfaces Table A-21: X51 - LAN2: 8-pin RJ-45 socket Signal Name/Description Direction Value range Connection point Remarks BI_DA+
BI_DA-
BI_DB+
BI_DB-
BI_DC+
BI_DC-
BI_DD+
BI_DD-
Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. X51.1 X51.2 X51.3 X51.4 X51.5 X51.6 X51.7 X51.8 Table A-22: X52 - LAN3: 8-pin RJ-45 socket Signal Name/Description Direction Value range Connection point Remarks BI_DA+
BI_DA-
BI_DB+
BI_DB-
BI_DC+
BI_DC-
BI_DD+
BI_DD-
Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. X52.1 X52.2 X52.3 X52.4 X52.5 X52.6 X52.7 X52.8 Table A-23: X53 - LAN4: 8-pin RJ-45 socket Signal Name/Description Direction Value range Connection point Remarks BI_DA+
BI_DA-
BI_DB+
BI_DB-
BI_DC+
BI_DC-
BI_DD+
BI_DD-
Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. X53.1 X53.2 X53.3 X53.4 X53.5 X53.6 X53.7 X53.8 System Manual 2506.5060.02 03 71 R&STLx9 R&S TLx9 Interface Description Option Board Interfaces Table A-24: X54 - LAN5: 8-pin RJ-45 socket Signal Name/Description Direction Value range Connection point Remarks BI_DA+
BI_DA-
BI_DB+
BI_DB-
BI_DC+
BI_DC-
BI_DD+
BI_DD-
Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. X54.1 X54.2 X54.3 X54.4 X54.5 X54.6 X54.7 X54.8 Table A-25: X55 - LAN6: 8-pin RJ-45 socket Signal Name/Description Direction Value range Connection point Remarks BI_DA+
BI_DA-
BI_DB+
BI_DB-
BI_DC+
BI_DC-
BI_DD+
BI_DD-
Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. X55.1 X55.2 X55.3 X55.4 X55.5 X55.6 X55.7 X55.8 Table A-26: X56 - LAN7: 8-pin RJ-45 socket Signal Name/Description Direction Value range Connection point Remarks BI_DA+
BI_DA-
BI_DB+
BI_DB-
BI_DC+
BI_DC-
BI_DD+
BI_DD-
Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. X56.1 X56.2 X56.3 X56.4 X56.5 X56.6 X56.7 X56.8 System Manual 2506.5060.02 03 72 R&STLx9 R&S TLx9 Interface Description Option Board Interfaces Table A-27: X57 - LAN8: 8-pin RJ-45 socket Signal Name/Description Direction Value range Connection point Remarks BI_DA+
BI_DA-
BI_DB+
BI_DB-
BI_DC+
BI_DC-
BI_DD+
BI_DD-
Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. X57.1 X57.2 X57.3 X57.4 X57.5 X57.6 X57.7 X57.8 A.2.2 Local LAN2 Board Table A-28: X3 - Network Port: 8-pin RJ-45 socket Signal Name/Description Direction Value range Connection point Remarks TX+ (D1+) Bidirectional TX- (D1-) Bidirectional RX+ (D2+) Bidirectional D3+
D3-
Bidirectional Bidirectional RX- (D2-) Bidirectional
-1 V to +1 V Differential to TX-
Impedance: 100
-1 V to +1 V Differential to TX+
Impedance: 100
-1 V to +1 V Differential to RX-
Impedance: 100
-1 V to +1 V Differential to D3-
Impedance: 100
-1 V to +1 V Differential to D3+
Impedance: 100
-1 V to +1 V Differential to RX+
Impedance: 100 X3.J1 X3.J2 X3.J3 X3.J4 X3.J5 X3.J6 System Manual 2506.5060.02 03 73 R&STLx9 R&S TLx9 Interface Description Option Board Interfaces Signal Name/Description Direction Value range Connection point Remarks D4+
D4-
Bidirectional Bidirectional
-1 V to +1 V Differential to D4-
Impedance: 100
-1 V to +1 V Differential to D4+
Impedance: 100 X3.J7 X3.J8 A.2.3 DVB-T/T2 RX Table A-29: X69 RF IN: BNC jack 50 Signal Name/Description RF IN GND Direc-
tion Input Value range 30 MHz to 1 GHz
-92 dBm to 0 dBm 75 Bidirec-
tional 0 V Connection point Remarks X69.1 RF input X69.2 GND / shield Table A-30: X28 ASI IN: BNC jack 75 Signal Name/Description ASI IN GND Direc-
tion Input Value range 270 Mbit/s Uss = 800 mV, 75 Bidirec-
tional 0 V Connection point Remarks X28.1 ASI input X28.2 GND / shield Table A-31: X29 ASI OUT: BNC jack 75 Signal Name/Description Direction Value range ASI OUT Output 270 Mbit/s Uss = 800 mV, 75 Connection point Remarks X29.1 ASI output GND Bidirectional 0 V X29.2 GND / shield System Manual 2506.5060.02 03 74 R&STLx9 R&S TLx9 Interface Description Option Board Interfaces A.2.4 DVB-S/S2 RX Table A-32: X75 RF IN 1: F jack 75 Signal Name/Description Direction Value range Connection point Remarks RF IN 1 Bidirectional X75.1 RF input, LNB output Input:
950 MHz to 2150 MHz
-80 dBm to -10 dBm, 75 Output:
DC 13 to 19 V, max. 500 mA GND Bidirectional 0 V X75.2/.3 GND / shield Table A-33: X76 RF IN 2: F jack 75 Signal Name/Description Direction Value range Connection point Remarks RF IN 2 Bidirectional X76.1 RF input, LNB output Input:
950 MHz to 2150 MHz
-80 dBm to -10 dBm, 75 Output:
DC 13 to 19 V, max. 500 mA GND Bidirectional 0 V X76.2/.3 GND / shield Table A-34: X35 - LAN OUT SAT RX: 8-pin RJ-45 socket Signal Name/Description Direction Value range Connection point Remarks BI_DA+
BI_DA-
BI_DB+
BI_DB-
BI_DC+
BI_DC-
BI_DD+
BI_DD-
Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. Bidirectional Vodiff = 670 to 820 mVss Bidirectional Vidiff = 750 mVss typ. X35.J1 X35.J2 X35.J3 X35.J4 X35.J5 X35.J6 X35.J7 X35.J8 System Manual 2506.5060.02 03 75 R&STLx9 R&S TLx9 Interface Description Option Board Interfaces Table A-35: X25 TS OUT: BNC jack 75 Signal Name/Description ASI OUT 1 GND Direc-
tion Output Value range Uss = 400 mVss to 800 mV 75 Bidirec-
tional 0 V Connection point Remarks X25.1 ASI output X25.2 to 5 GND / shield Table A-36: X36.1 CI SAT RX: Slot 1 for CAM Module Signal Name/Description Direction Value range Connection point GND D1[3]
D1[4]
D1[5]
D1[6]
D1[7]
CE1[1]
A1[10]
OE1 A1[11]
A1[9]
A1[8]
A1[13]
A1[14]
WE1 IREQ1
+5 V (VCC)
+5 V (VCC) MIVAL1 MCLKI1 A1[12]
A1[7]
A1[6]
A1[5]
A1[4]
Output Bidirectional Bidirectional Bidirectional Bidirectional Bidirectional Output Output Output Output Output Output Output Output Output Input Output Output Output Output Output Output Output Output Output X36.1.A1 X36.1.A2 X36.1.A3 X36.1.A4 X36.1.A5 X36.1.A6 X36.1.A7 X36.1.A8 X36.1.A9 X36.1.A10 X36.1.A11 X36.1.A12 X36.1.A13 X36.1.A14 X36.1.A15 X36.1.A16 X36.1.A17 X36.1.A18 X36.1.A19 X36.1.A20 X36.1.A21 X36.1.A22 X36.1.A23 X36.1.A24 X36.1.A25 Remarks CI1 data 3 CI1 data 4 CI1 data 5 CI1 data 6 CI1 data 7 CI1 addr 10 CI1 addr 11 CI1 addr 9 CI1 addr 8 CI1 addr 13 CI1 addr 14 CAM data in CAM data in CI1 addr 12 CI1 addr 7 CI1 addr 6 CI1 addr 5 CI1 addr 4 System Manual 2506.5060.02 03 76 R&STLx9 R&S TLx9 Interface Description Option Board Interfaces Signal Name/Description Direction Value range Connection point A1[3]
A1[2]
A1[1]
A1[0]
D1[0]
D1[1]
D1[2]
+5 V (10k Pullup) GND GND CD1[1]
MDO1[3]
MDO1[4]
MDO1[5]
MDO1[6]
MDO1[7]
CE1[2]
+5 V (100k Pullup) IORD1 IOWR1 MISTRT1 MDI1[0]
MDI1[1]
MDI1[2]
MDI1[3]
+5 V (VCC)
+5 V (VCC) MDI1[4]
MDI1[5]
MDI1[6]
MDI1[7]
MCLKO1 RESET1 Output Output Output Output Bidirectional Bidirectional Bidirectional Output Output Output Output Input Input Input Input Input Output Output Output Output Output Output Output Output Output Output Output Output Output Output Output Input Output X36.1.A26 X36.1.A27 X36.1.A28 X36.1.A29 X36.1.A30 X36.1.A31 X36.1.A32 X36.1.A33 X36.1.A34 X36.1.A35 X36.1.A36 X36.1.A37 X36.1.A38 X36.1.A39 X36.1.A40 X36.1.A41 X36.1.A42 X36.1.A43 X36.1.A44 X36.1.A45 X36.1.A46 X36.1.A47 X36.1.A48 X36.1.A49 X36.1.A50 X36.1.A51 X36.1.A52 X36.1.A53 X36.1.A54 X36.1.A55 X36.1.A56 X36.1.A57 X36.1.A58 Remarks CI1 addr 3 CI1 addr 2 CI1 addr 1 CI1 addr 0 CI1 data 0 CI1 data 1 CI1 data 2 CAM data out CAM data out CAM data out CAM data out CAM data out CAM data in CAM data in CAM data in CAM data in CAM data in CAM data in CAM data in CAM data in CAM data in CAM data out System Manual 2506.5060.02 03 77 R&STLx9 R&S TLx9 Interface Description Option Board Interfaces Signal Name/Description Direction Value range Connection point Remarks WAIT1 INPACK1 REG1 MOVAL1 MOSTRT1 MDO1[0]
MDO1[1]
MDO1[2]
CD1[2]
GND Output Output Output Input Input Input Input Input Output Output X36.1.A59 X36.1.A60 X36.1.A61 X36.1.A62 X36.1.A63 X36.1.A64 X36.1.A65 X36.1.A66 X36.1.A67 X36.1.A68 Table A-37: X36.2 CI SAT RX: Slot 2 for CAM Module Signal Name/Description Direction Value range Connection point GND D2[3]
D2[4]
D2[5]
D2[6]
D2[7]
CE2[1]
A2[10]
OE2 A2[11]
A2[9]
A2[8]
A2[13]
A2[14]
WE2 IREQ2
+5 V (VCC)
+5 V (VCC) MIVAL2 Output Bidirectional Bidirectional Bidirectional Bidirectional Bidirectional Output Output Output Output Output Output Output Output Output Input Output Output Output X36.2.A1 X36.2.A2 X36.2.A3 X36.2.A4 X36.2.A5 X36.2.A6 X36.2.A7 X36.2.A8 X36.2.A9 X36.2.A10 X36.2.A11 X36.2.A12 X36.2.A13 X36.2.A14 X36.2.A15 X36.2.A16 X36.2.A17 X36.2.A18 X36.2.A19 CAM data out CAM data out CAM data out CAM data out CAM data out Remarks CI1 data 3 CI1 data 4 CI1 data 5 CI1 data 6 CI1 data 7 CI1 addr 10 CI1 addr 11 CI1 addr 9 CI1 addr 8 CI1 addr 13 CI1 addr 14 CAM data in System Manual 2506.5060.02 03 78 R&STLx9 R&S TLx9 Interface Description Option Board Interfaces Signal Name/Description MCLKI2 A2[12]
A2[7]
A2[6]
A2[5]
A2[4]
A2[3]
A2[2]
A2[1]
A2[0]
D2[0]
D2[1]
D2[2]
+5 V (10k Pullup) GND GND CD2[1]
MDO2[3]
MDO2[4]
MDO2[5]
MDO2[6]
MDO2[7]
CE2[2]
+5 V (100k Pullup) IORD2 IOWR2 MISTRT2 MDI2[0]
MDI2[1]
MDI2[2]
MDI2[3]
+5 V (VCC)
+5 V (VCC) Direction Value range Connection point Remarks Output Output Output Output Output Output Output Output Output Output Bidirectional Bidirectional Bidirectional Output Output Output Output Input Input Input Input Input Output Output Output Output Output Output Output Output Output Output Output X36.2.A20 X36.2.A21 X36.2.A22 X36.2.A23 X36.2.A24 X36.2.A25 X36.2.A26 X36.2.A27 X36.2.A28 X36.2.A29 X36.2.A30 X36.2.A31 X36.2.A32 X36.2.A33 X36.2.A34 X36.2.A35 X36.2.A36 X36.2.A37 X36.2.A38 X36.2.A39 X36.2.A40 X36.2.A41 X36.2.A42 X36.2.A43 X36.2.A44 X36.2.A45 X36.2.A46 X36.2.A47 X36.2.A48 X36.2.A49 X36.2.A50 X36.2.A51 X36.2.A52 CAM data in CI1 addr 12 CI1 addr 7 CI1 addr 6 CI1 addr 5 CI1 addr 4 CI1 addr 3 CI1 addr 2 CI1 addr 1 CI1 addr 0 CI1 data 0 CI1 data 1 CI1 data 2 CAM data out CAM data out CAM data out CAM data out CAM data out CAM data in CAM data in CAM data in CAM data in CAM data in System Manual 2506.5060.02 03 79 R&STLx9 R&S TLx9 Interface Description Option Board Interfaces Signal Name/Description Direction Value range Connection point Remarks MDI2[4]
MDI2[5]
MDI2[6]
MDI2[7]
MCLKO2 RESET2 WAIT2 INPACK2 REG2 MOVAL2 MOSTRT2 MDO2[0]
MDO2[1]
MDO2[2]
CD2[2]
GND Output Output Output Output Input Output Output Output Output Input Input Input Input Input Output Output X36.2.A53 X36.2.A54 X36.2.A55 X36.2.A56 X36.2.A57 X36.2.A58 X36.2.A59 X36.2.A60 X36.2.A61 X36.2.A62 X36.2.A63 X36.2.A64 X36.2.A65 X36.2.A66 X36.2.A67 X36.2.A68 CAM data in CAM data in CAM data in CAM data in CAM data out CAM data out CAM data out CAM data out CAM data out CAM data out A.2.5 1+1 ASI Distribution Board Table A-38: X20 IN: BNC jack 75 Signal Name/Description ASI_IN1 GND Direc-
tion Input Value range Uss = 400 mVss to 800 mV 19.39 to 270 Mb/s Bidirec-
tional 0 V Connection point Remarks X20.1 ASI input 1 X20.2 GND / shield Table A-39: X21 IN: BNC jack 75 Signal Name/Description ASI_IN2 GND Direc-
tion Input Value range Uss = 400 mVss to 800 mV 19.39 to 270 Mb/s Bidirec-
tional 0 V Connection point Remarks X21.1 ASI input 2 X21.2 GND / shield System Manual 2506.5060.02 03 80 R&STLx9 R&S TLx9 Interface Description Option Board Interfaces Table A-40: X20A OUT: BNC jack 75 Signal Name/Description Direction Value range Connection point Remarks ASI_OUT1_ACTIV Output Uss = 400 mVss to 800 mV 19.39 to 270 Mb/s X20A.1 ASI output 1 Active (to TX A) GND Bidirectional 0 V X20A.2 GND / shield Table A-41: X20C OUT: BNC jack 75 Signal Name/Description Direction Value range Connection point Remarks ASI_OUT1_PASSIV Output Uss = 400 mVss to 800 mV 19.39 to 270 Mb/s X20C.1 ASI output 1 Passiv (to TX B) GND Bidirectional 0 V X20C.2 GND / shield Table A-42: X21A OUT: BNC jack 75 Signal Name/Description Direction Value range Connection point Remarks ASI_OUT2_ACTIV Output Uss = 400 mVss to 800 mV 19.39 to 270 Mb/s X21A.1 ASI output 2 Active (to TX A) GND Bidirectional 0 V X21A.2 GND / shield Table A-43: X21C OUT: BNC jack 75 Signal Name/Description Direction Value range Connection point Remarks ASI_OUT2_PASSIV Output Uss = 400 mVss to 800 mV 19.39 to 270 Mb/s X21C.1 ASI output 2 Passiv (to TX B) GND Bidirectional 0 V X21C.2 GND / shield System Manual 2506.5060.02 03 81 R&STLx9 A.2.6 RF Switch Board R&S TLx9 Interface Description Option Board Interfaces Table A-44: X60A - RF IN/OUT: SMA socket 50 Signal Name/Description Direction Value range Connection point Remarks X60A Bidirectional PAVG, max. < 20 W X60A.1 174 MHz to 790 MHz at 50 load, s < 1.4 This port can be used as input from TX_A in a TX 1+1 system or as an output to TX_A in a single or antenna 1+1 system. GND Bidirectional X60A.2 GND / shield Table A-45: X60B - RF IN/OUT: SMA socket 50 Signal Name/Description Direction Value range Connection point Remarks X60B Bidirectional PAVG, max. < 20 W X60B.1 174 MHz to 790 MHz at 50 load, s < 1.4 This port can be used as output to Antenna_A in a TX 1+1 system or as an input from Antenna_A in a single or antenna 1+1 sys-
tem. GND Bidirectional X60B.2 GND / shield Table A-46: X60C - RF IN/OUT: SMA socket 50 Signal Name/Description Direction Value range Connection point Remarks X60C Bidirectional PAVG, max. < 20 W X60C.1 174 MHz to 790 MHz at 50 load, s < 1.4 This port can be used as input from TX_B in a TX 1+1 system or as an output to TX_B in a single or antenna 1+1 system. GND Bidirectional X60C.2 GND / shield System Manual 2506.5060.02 03 82 R&STLx9 R&S TLx9 Interface Description Option Board Interfaces Table A-47: X60D - RF IN/OUT: SMA socket 50 Signal Name/Description Direction Value range Connection point Remarks X60D Bidirectional PAVG, max. < 20 W X60D.1 174 MHz to 790 MHz at 50 load, s < 1.4 This port can be used as output to a dummy load in a TX 1+1 system or as an input from Antenna_B in a single or antenna 1+1 sys-
tem. GND Bidirectional X60D.2 GND / shield Table A-48: X86 - Control: 9-pin Sub-D socket Signal Name/Description Direction Value range
+12V_RFSW Input 12 V 0.5 V, 0.2 A LOOP+
GND Output LVDS Bidirec-
tional 0 V ControlPos1 Input LV-CMOS (2.5 V) 0V_RFSW Bidirec-
tional 0 V LOOP-
Input LVDS STATUS_POS1/2_SW Output LV-CMOS (2.5 V) Connection point Remarks X86.1 X86.2 X86.3 X86.4 X86.5 X86.6 X86.7
+12 V DC for message relay GND Commands the RF relays to posi-
tion 1 when con-
nected to GND
(default: high resistance) GND for mes-
sage relay Position info of the RF relays
(from message relay) Commands the RF relays to posi-
tion 2 when con-
nected to GND
(default: high resistance) ControlPos2 Input LV-CMOS (2.5 V) X86.8
+12VIN GND Input Bidirec-
tional 12 V 0.5 V, 2 A X86.9
+12 V DC backup 0 V X86.10.11 Shielding (GND) System Manual 2506.5060.02 03 83 R&STLx9 R&S TLx9 Interface Description Option Board Interfaces System Manual 2506.5060.02 03 84
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2019-07-17 | 470 ~ 608 | TBC - Licensed Broadcast Station Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2019-07-17
|
||||
1 | Applicant's complete, legal business name |
Rohde & Schwarz Inc
|
||||
1 | FCC Registration Number (FRN) |
0018674531
|
||||
1 | Physical Address |
2255 N. Ontario St., Suite 150
|
||||
1 |
Burbank, California 91504
|
|||||
1 |
United States
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
t******@timcoengr.com
|
||||
1 | TCB Scope |
B4: Microwave, Millimeter Wave Band and Citizens Broadband Radio Services equipment in 47 CFR Parts 25, 30, 74, 90, 95, 96, 97, 101 (all above 3 GHz)
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
HFL
|
||||
1 | Equipment Product Code |
TLU9T
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
E******** B******
|
||||
1 | Telephone Number |
818-8******** Extension:
|
||||
1 | Fax Number |
818-8********
|
||||
1 |
e******@rsa.rohde-schwarz
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | TBC - Licensed Broadcast Station Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Licensed Broadcast Station Transmitter | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Output Power is conducted. Professional installation is required. The antenna(s) used for this transmitter must be fixed-mounted on the outdoor permanent structures. RF exposure compliance is addressed at the time of licensing, as required by the responsible FCC Bureau(s), including antenna co-location requirements of §1.1307(b)(3). | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
Rogers Labs, Inc.
|
||||
1 | Name |
S**** R********
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||||
1 | Telephone Number |
913-8********
|
||||
1 | Fax Number |
913-8********
|
||||
1 |
r******@pixius.net
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Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 74 | BF | 470.00000000 | 608.00000000 | 180.0000000 | 1000.0000000000 Hz | 6M00D7W |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC