Transamerica Broadcasting EM100DIG 100 Watt FM Broadcast Transmitter User Manual EM 100 DIG ingV1 2
Transamerica International Broadcasting Inc 100 Watt FM Broadcast Transmitter EM 100 DIG ingV1 2
User Manual
TECHNICAL MANUAL v1.2 November 2005 SISTEMAS ELECTRONICOS S.A. FM BAND II BROADCAST TRANSMITTER EM 100 DIG OMB EUROPE: Factory: Camino de los Albares,14 -Tlf. 976.50.35.80, Fax: 976.50.38.55 – 50410 CUARTE DE HUERVA (Zaragoza) ESPAÑA Sales Dpt.: Avda. San Antonio,41– Tlf. 976.50.46.96, Fax: 976.46.31.70 – 50410 CUARTE DE HUERVA (Zaragoza) ESPAÑA E-mail: europa@omb.com Web: www.omb.es OMB USA: 3100 NW 72nd. Avenue Unit 112 – MIAMI, Florida 33122 – Ph.: 305 477-0973, 305 477-0974, Fax: 305 477-0611 E-mail: usa@omb.com Web: www.omb.com LIMITED WARRANTY About Installation_____________________________________________________________ 1. - Mains Voltage must be kept between ±10% about its nominal value, unless otherwise specified. If were variations exceeding this tolerance, it will be indispensable to install a voltage stabilizer system within station. If transient overvoltages, due to electric motors, or other devices of this sort connected to the distribution line, were present, or if the distribution line is exposed to atmospheric electrical discharges, it must be indispensable the installation of isolation transformers and gaseous dischargers before connecting any equipment within station. 2. - All equipments must be connected to station ground system in order to avoid damage both to equipments and maintenance personnel too. It is necessary to connect a differential automatic switch (lifesaver) at station. 3. - Some equipments does not include interlock protection for open doors, covers or connectors. In that case, these equipments must be kept in key –locked places, with access only to conveniently qualified personnel that is previously noticed about not to open doors, covers or connectors without disconnecting station mains switch before performing this job. 4. - Transmitter equipments NEVER will be operated with output powers over its nominal values, or with signals or input informations others than those specified in its individual characteristics. 5. - Ambient temperature inside equipments' room, will accomplish technical specifications of equipments installed at station lodge. In absence of such specifications, maximum allowable temperatures will be from -5 to + 45ºC for Television equipments, and from 0 to + 40ºC for Sound Broadcast equipments. 6. - In case of operation at abnormally high or extremely high temperatures (over 30 to 40 º C), it is obligatory to install a forced cooling system that will keep temperature below its upper limit. In case of operation at abnormally or extremely low temperatures, it will be obligatory to install a thermostatic controlled heating system for equipment's room. 7. - Both equipment's surroundings and room must be free of dust and dirt. Ambient relative humidity will be kept below equipment's extreme specifications. In case of absence of this specification, allowable maximum will be 90 % of relative humidity, non-condensing. Average relative humidity will be kept under 70%, non-condensing. 8. - Every transmission equipment that can radiate some quantity of RF power, must be connected to a load or antenna system, suited to its individual specifications , before being energized. 9. - Maximum allowable VSWR in antenna systems both for Television or FM Radio Broadcast operation of a given transmitter, will be 1.25:1, unless otherwise specified. 10.- For those transmitter equipments having power valve amplifiers, and that doesn't has an automatic shutoff cycle, and must be manually turned off, as a first step high voltage, or anode voltage, will be disconnected, keeping forced cooling system working during at least 5 minutes after high voltage disconnection, and only after this time, cooling system & filament voltage can be shutted off. O.M.B. Sistemas Electrónicos, S.A., is not responsible of damages to those power valves caused by sudden AC mains failures at station where our equipments are installed. 11.- Periodically, monthly as a maximum, technical personnel must visit station in order to perform a general equipment maintenance, unless otherwise specified. This maintenance will include output power check, VSWR of antenna systems, forced cooling or heating systems checks, both for equipments and station itself, including air filters cleaning, measuring of transmission frequency with eventual correction if necessary, and will perform a general check of fundamental parameters of equipments. In the event of any important change in some operation parameter, that will require replacement or readjustment of any unit, Customer MUST CONTACT FIRST WITH O.M.B. SISTEMAS ELECTRONICOS, S.A. BEFORE ANY ATTEMPT TO READJUST OR REPLACE ANY COMPONENT OR UNIT INSIDE EQUIPMENTS, IN ORDER TO KEEP VALID THIS WARRANTY. 12.- For equipments who are located in fixed racks or cabinets, those equipments must be effectively connected, according to International Installations Standards, to station ground system, whose total impedance measured to ground can't be higher than 5 ohms. Equipments must be connected to ground system so that they can be kept out of main discharge path between tower and ground. About Transportation___________________________________________________________ 1. - O.M.B. Sistemas Electrónicos, S.A. is not responsible of damages and/or detriments derived from mishandling, steal, robbery, theft or vandalism during the act of transportation of equipments to final or intermediate destination. About Storage________________________________________________________________ 1. - O.M.B. Sistemas Electrónicos, S.A. is not responsible of damages and/or detriments derived from unappropiate storage of equipments, within inadequate warehouses or outdoors, once equipments are delivered to transportist agency. About Projects________________________________________________________________ 1.- O.M.B. Sistemas Electronicos, S.A. is not responsible of inadequate use of equipments made or registered by our Company, accomplishing propagation projects that are not performed by our Specialists. About Systems________________________________________________________________ 1.- O.M.B. Sistemas Electrónicos, S.A. is not responsible for performance of those equipments or systems that are not made, certified or registered by our Company. About Operation______________________________________________________________ 1.- O.M.B. Sistemas Electrónicos, S.A. is not responsible of damages and/or detriments derived from inadequate or negligent operation of equipments made, certified or registered by our Company, once those equipments are operated by personnel hired and/or employed by Customer. General______________________________________________________________________ This Warranty covers and protects, during a period of 18 months after start of operations, all equipments made , certified or registered by O.M.B. Sistemas Electrónicos, S.A., including its components and units, against failures in workmanship that may occur during operation of those equipments, with the exception of power valves or semiconductor devices that are covered by its particular Factory's Guarantee. In this case, O.M.B. Sistemas Electrónicos, S.A. only can act as intermediary for negotiation with such Factory, about accomplishment of individual Guarantees. For Validity of this Warranty, it is indispensable that all Paragraphs be respected by the Customer. Otherwise, this Warranty will be automatically voided. This Warranty is self-activated with the reception by OMB Sistemas Electrónicos, S.A. of the "Guarantee Activation Manual" returned to OMB by Customer. If such Document is not received, this Warranty will be voided. All repairings or adjustments covered by this Warranty are free of workmanship & materials costs and expenses, but postage and transportation expenses of equipments and O.M.B. technical personnel & specialists, if required, will be carried out by the Customer. O.M.B. Sistemas Electrónicos, S.A. FM Transmitter Sistemas Electrónicos S.A EM 100 DIG LIST OF CONTENTS SECTION 0. GENERAL RECOMMENDATIONS Gives information on safety procedures and good practices to use the equipment. SECTION 1. GENERAL DESCRIPTION Introduction to the manual, technical specifications and description of the equipment’s features. SECTION 2. INSTALLATION, OPERATION AND MAINTENANCE 13 Basic instructions for a correct installation, maintenance and equipment’s operation. SECTION 3. TECHNICAL INFORMATION 32 Technical information about the modules including schematics and layouts. Technical Manual - v1.2 - November 2005 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG Section 0 GENERAL RECOMMENDATIONS Technical Manual - v1.2 - November 2005 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG GENERAL SAFETY RECOMMENDATIONS When connecting the equipment to the Mains power, please follow these important recommendations: This product is intended to operate from a power source that will not apply more than 10% of the voltage specified on the rear panel between the supply conductors or between either supply conductor and ground. A protective-ground connection by means of the grounding conductor in the power cord is essential for a safe operation. This equipment is also grounded through the grounding conductor of the power cord. To avoid electrical shock, plug the power cord into a properly wired socket before connecting to the product input or output terminals. Upon loss of the protective-ground connection, all accessible conductive parts (including parts that may appear to be insulated) can render an electric shock. Equipment must be connected to station's ground system before any attempt to connect it to Mains electrical supply. To avoid fire hazard, use only fuses of the type, voltage rating, and current rating specified in this manual. For fuse replacement, always refer to User’s Manual. To avoid explosion, do not operate this equipment in an explosive atmosphere. To avoid personal injury, do not remove the product covers or panels. Do not operate the product without the covers and panels properly installed. GOOD PRACTICES During the maintenance of the equipment covered in this Manual, please keep in mind the following standard good practices: When connecting any instrument (wattmeter, spectrum analyzer, etc.) to a high frequency output, use the appropriate attenuator or dummy load to protect the final amplifiers and the instrument input. When inserting or removing printed circuit boards (PCBs), cable connectors, or fuses, always turn off power from the affected part of the equipment. After power is removed, allow sufficient time for the capacitors to bleed down before reinserting PCBs. Always use discharge stick when available. When troubleshooting, remember that FETs and other metal-oxide-semiconductor (MOS) devices may appear defective because of leakage between traces or component leads on the printed circuit board. Clean the printed circuit board and recheck the MOS device before assuming it is defective. When replacing MOS devices, follow standard practices to avoid damage caused by static charges and soldering. When removing components from PCBs (particularly ICs), use care to avoid damaging PCB traces. Technical Manual - v1.2 - November 2005 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG FIRST AID IN CASE OF ELECTRICAL SHOCK If someone seems unable to free himself while receiving an electric shock, turn power off before rendering aid. A muscular spasm or unconsciousness can make a victim unable to free himself from the electrical power. DO NOT TOUCH VICTIM OR HIS CLOTHING BEFORE POWER IS DISCONNECTED OR YOU CAN ALSO BECOME A SHOCK VICTIM If power cannot be turned off immediately, very carefully loop a length of dry non-conducting material (such as a rope, insulating material, or clothing) around the victim and pull him free of the power. Carefully avoid touching him or his clothing until free of power. EMERGENCY RESUSCITATION TECHNIQUE Step 1 Check the victim for unresponsiveness. If there is no response, immediately call for medical assistance, and then return to the person. Step 2 Position the person flat on their back. Kneel by their side and place one hand on the forehead and the other under the chin. Tilt the head back and lift the chin until teeth almost touch. Look and listen for breathing. Step 3 If not breathing normally, pinch the nose and cover the mouth with yours. Give two full breaths. The person's chest will rise if you are giving enough air. Technical Manual - v1.2 - November 2005 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG Step 4 Put the fingertips of your hand on the Adam's apple, slide them into the groove next to the windpipe. Feel for a pulse. If you can not feel a pulse or are unsure, move on to the next step. Step 5 Position your hands in the center of the chest between the nipples. Place one hand on top of the other. Step 6 Push down firmly two inches. Push on chest 15 times. CONTINUE WITH 2 BREATHS AND 15 PUMPS UNTIL HELP ARRIVES. TREATMENT FOR BURNS Continue treating victim for electrical shock. Check for points of entry and exit of current. Cover burned surface with a clean dressing. Remove all clothing from the injured area, but cut around any clothing that adheres to the skin and leave it in place. Keep the patient covered, except the injured part, since there is a tendency to chill. Splint all fractures. (Violent muscle contractions caused by the electricity may result in fractures.) Never allow burned surfaces to be in contact with each other, such as: areas between the fingers or toes, the ears and the side of the head, the undersurface of the arm and the chest wall, the folds of the groin, and similar places. Transport the victim as soon as possible to a medical facility. Technical Manual - v1.2 - November 2005 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG Section 1 GENERAL DESCRIPTION CONTENTS : 1.1 Introduction . . . . . . . . . . . . . . . . . 7 1.2 General description . . . . . . . . . . . . 7 1.3 Description of panels . . . . . . . . . . . . 9 1.4 Technical specifications . . . . . . . . . . 12 Technical Manual - v1.2 - November 2005 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG 1.1 Introduction. The OMB EM-100 DIG series transmitters are the result of experience adquired by OMB during years of producing FM broadcast equipment, transmitters, STL and stereo encoders. These transmitters were specifically designed to comply with the latest international standards and the requirements of advanced broadcasters, meeting tighter specifications than usually required,at an affordable cost. Great care went into producing a HI-FI-quality modulated signal, with low residual noise and distortion.The RF signal is also free from spurious and harmonic components to a higher degree than required by CCIR, European, USA and most other national standards.To obtain this outstanding performance, OMB strongly recommend to rely on qualified personnel to install and verify the equipment which makes up the radio station, i.e.the transmitter, the possible STL and power amplifier, the corresponding antennas,cables and connectors.This will assure to achieve the best performance and stability in time. To this aim, OMB especially recommend that their equipment should not be tampered with by unskilled personnel and its after-sale service is available to customers for any technical problem. Before proceeding to installation, please carefully read at least the general installation part of this manual, to gain confidence with the equipment. The EM-100 DIG transmitters are very stable and changes to the internal pre-setting other than frequency and few other options are not usually required but, if they are, once again they must be done by skilled personnel, fitted with proper instrumentation and service documentation. Improperly tampering with the settings may harm the apparatus or jeopardize the guaranteed performance. THIS EQUIPMENT COMPLIES WITH ALL RELEVANT EMI /EMC AND SAFETY REQUIREMENTS, ETSI EN300384, ETS300447 AND EN60215 STANDARDS. NO INTERNAL ADJUSTMENT OR PRESETTING IS REQUIRED DURING NORMAL OPERATION.EQUIPMENT SHALL BE PROPERLY GROUNDED AND BE OPERATED WITH ALL THE COVERS CLOSED TO PREVENT ELECTRICAL HAZARDS AND COMPLY WITH EMC STANDARDS. A good installation,made by skilled and trained personnel will avoid many future troubles during station's exploitation process. All the operations described in the Certification of Limited Warranty must be accomplished to have the right of make any claim concerning this Warranty,having free equipment service by OMB's technical personnel during this first exploitaition phase of Equipment. 1.2 General description. The EM-100 DIG is a 100W rated, direct-synthesis, FM-modulated transmitter. Being digitally controlled, it is extensively put on the air on field by front panel or remotely in additional aspects: frequency, power, channel sensitivity, preemphasis, functioning mode (mono, stereo, external mpx), clock and date and many other parameters without adjusting or substituting any part. A powerful 3-level password management permits a very high degree of security and privacy as may be required in different situations. Equipment requires little o no maintenance and its simple modular layout facilitates stage testing and servicing. Technical Manual - v1.2 - November 2005 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG Figure 1-1: EM-100 DIG DIGITALLY-CONTROLLED F.M. TRANSMITTER. As imposed by various national standards, these transmitters incorporate sophisticated low-pass audio filters on mono and stereo channels,and a sharp acting modulation limiter, which is usually set at a peak deviation slightly higher than 75kHz. Its intervention may nevertheless be avoided,if required,pre-setting its threshold at a deviation higher than 150kHz. Output frequency is phase-locked to a temperature-compensated crystal oscillator,which ensures superior precision and stability. A very low noise,low distortion VCO produces a harmonic-free,spurious-free signal. A lock control circuit inhibits the presence of power on the output until the apparatus is on the right frequency,when turning on. To reach a further lowering of noise threshold, the low-frequency inputs are fitted with balanced input circuitry.The input level is precisely adjustable over a broad range,by means of a 0.5dB stepwise variable attenuators.The transmitter has an auxiliary input,specifically designed for RDS and SCA encoders. A modulation sample output permits to control other transmitters or STL's with the same internally processed high-quality mpx signal. The alphanumeric display permits easy and accurate metering,adjustment and continuous monitoring of modulation levels,power,operation and internal parameters.All these information may be externally available on the same RS-232 I/O bus that may be used to remotely control the transmitter. Above Figure 1-1 shows us the external view of Transmitter's cabinet,whose control panel has been simplified to a maximum, being Microcontroller in charge of practically to select and make all tests and adjustments of all parameters that are relevant to the normal Equipment's performance. Due to this fact, Front Panel has only a few control elements, since with only the four push buttons pertaining to Microcontroller (like those used to control movement of cursor in a Computer) and two keys, these virtually controlling all processes & parameters having place within Equipment. Microcontroller uses a Liquid-Crystal dot matrix as Alphanumeric Display unit in order to watch parameter's values, as it's asked for it, as can be seen in the corresponding Chapter in this Manual. In addition to the serial I/O port, some signals (RF power, ON THE AIR status, Disable line) are available on a parallel I/O remote socket for easy interfacing with others analog controllers or supervisory systems. A top-quality stereo encoder may be factory installed as option and even retrofitted in the field in a second time, requiring minimum technical skill. The powerful internal software and monitoring functions recognizes its presence and enables its functions. The RF power amplifier employs a broadband design and has a lot of of reserve: the output power is feedback-controlled for increased stability still higher than nominal level. High reflected power is limited to prevent output stage degradation;direct power is accordingly continuously reduced so as not to exceed the reflected power safety level. A sturdy telecom-grade high efficiency switch-mode power supply allows operation in a very wide and noisy mains environment. Technical Manual - v1.2 - November 2005 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG 1.3 Description of panels. The EM-100 DIG Front Panel is very clean and easy to control. The wide alphanumeric display and the control keyboard allows a simple self-explanatory menu-driven navigation through the various options. A great care was taken in the design of the software to allow natural feeling with the controls to allow operation and programming in every respect of the Equipment without needing to extensively read this manual. The password management hides some functions and prevents tampering with the most critical options and data to unauthorized people. Figure 1-2 shows the simple Equipment's Front Panel, indicating all supervision & control elements: Figure 1- 2: Transmitter Front Panel. These supervision &control elements are numbered in Figure 1-2 as follows: 1 - STANDBY condition indicator LED. 2 - Twin-row Alphanumeric dot-matrix LCD display, working directly with Microcontroller unit. 3 - Programming & parameter selection keyboard: White keyboard to scroll and navigate through the different menus and options. OK key (blue). Enter key to confirm some order or command. CANCEL key (orange). Escape key to cancel menu or command. 4 - ON/STBY switch. This ON/STANDBY key do not power off equipment, which is still locked on frequency and ready to transmit as soon the key is pushed or a remote command is sent. 5 - ALARM LEDs PANEL: Alarm red LED lights on in event of any equipment's alarm condition. VSWR red LED lights on showing that RF output circuit is overloaded by a severe high VSWR condition. Limiter red LED lights on showing too high audio signal level at equipment's input,and subsequent operation of baseband peak clipper. 6 - DISPLAY CONTRAST potentiometer, to adjust LCD screen backlighting to a comfortable contrast level in order to get easy readings. Technical Manual - v1.2 - November 2005 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG 7 - OPERATION LEDs PANEL: Remote amber LED shows remote-controlled operation is being carried on. Lock green LED shows when Channel Oscillator's PLL is properly locked,some tenths of second after equipment is turned on. On the air green LED works together with STANDBY (2) yellow LED. It lights on when equipment is in normal operating condition, whereas STANDBY (2) LED is turned off, and vice versa. All transmitter inputs and outputs are allocated on the rear panel.They are: The audio channels input sockets on balanced female XLR - type connectors ( Left & Right). The wide-band externally processed / stereo composite unbalanced BNC female connector. The low - frequency limited (20kHz ~100kHz) auxiliary unbalanced BNC female connector. signal input on grounded channel input on grounded, The LF MONITOR output for monitoring, RDS external synchronization or re-broadcasting purpose, BNC-type female connector. The inverted wired RS-232, DB9 female remote serial control port. The parallel REMOTE control port, DB9 male type. The RF antenna output, N-type, female connector. The RF sample output for frequency measuring or RF connector (-50 dBc level). signal monitoring, BNC female type Figure 1-3 below shows Equipment's Rear Panel indicating all connectors and elements. Technical Manual - v1.2 - November 2005 10 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG Figure 1- 3: EM-100 DIG Back panel. 1 - Mains IEC ON/OFF switch,mains voltage selector,socket & fuses block (depending on Power Supply used). Please note that, in case of using Power Transformers' Supplies having taps, the transmitter is normally factory pre-set for 220-240VAC nominal Mains voltage as a security factor. 2 - Main Power Supply's hot air exhaust from internal cooling blower (depending on Power Supply used). 3 - RF Power Module's hot air exhaust from cooling fan. 4 -Output RF connector. Type "N" female. 5 - Remote operation DB-9 male connector, whose connections are the following: 6 - RS-232 serial interface connector. This RS-232 port manages only Tx,Rx and Return data signals, with no handshake.Being the two former wired signals inverted to the port,it needs a simple straight wired serial cable with appropriate connectors: usually a female DB-9 or DB-25 to the PC port and a male DB-9 connector at the transmitter end. Appropriate OMB software is required for communication. WARNING: Do not connect the serial cable with neither transmitter nor PC turned on. 7 - RF sample output for frequency measuring or RF signal monitoring, BNC female type connector ( -50dBc). 8 - Right & left channels audio input XLR balanced female connector.For using internal stereo coder. (See equipment's rear panel for pin connections). 9 - MPX input connector.Type BNC female.For use in pre-coded stereo multiplex signal input. Flat response from 10Hz to 100KHz to feed stereo multiplex signal. Hi - Z unbalanced input (10K:). 10 - AUX connector. Unbalanced Hi-Z BNC female connector,to feed a RDS or SCA coder output signal. 11 - LF MONITOR output connector. Baseband modulation output for monitoring, re-broadcasting or RDS external synchronization. BNC female type, unbalanced Hi-Z (10K:). Technical Manual - v1.2 - November 2005 11 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG 1.4 Technical specifications. SIGNAL TO NOISE RATIO CCIR WEIGHTED S/N HARMONIC DISTORTION1 STEREO CROSSTALK PROGRAM AUDIO CHANNEL FREQUENCY RESPONSE FROM 30 TO 15000 HZ ATTENUATION AT AUDIO FILTER REJECTION BAND (F =19KHZ) DEVIATION LIMITER THRESHOLD STEREO MULTIPLEX INPUT FREQUENCY RESPONSE. FROM 10HZ TO 100KHZ AUXILIARY INPUT FREQUENCY RESPONSE . FROM 10 TO 100KHZ MAINS SUPPLY REQUIREMENTS POWER CONSUMPTION AT 250 WATTS RF OUTPUT LEVEL OPERATING TEMPERATURES RANGE MOUNTING DIMENSIONS (W/O HANDLES) DIMENSIONS MODULATION MODULATION CLASS OSCILLATOR'S SYNTHESIS STEPS FREQUENCY ERROR FREQUENCY DRIFT RF OUTPUT POWER MAXIMUM ALLOWABLE REFLECTED RF POWER RF HARMONIC PRODUCTS RF SPURIOUS PRODUCTS RF OUTPUT IMPEDANCE AUDIO /MULTIPLEX INPUT LEVEL AUDIO /MULTIPLEX INPUT IMPEDANCE COMMON MODE INPUT REJECTION FROM 20 TO 15000HZ AUDIO INPUT CONNECTORS SCA/RDS CHANNEL INPUT LEVEL SCA/RDS CHANNEL INPUT IMPEDANCE MODULATION OUTPUT LEVEL PRE-EMPHASIS TIME CONSTANT Monaural >78dB. typical 86dB from 30 to 20,000Hz. Stereophonic >72dB. typical 77dB from 30 to 20,000Hz. Monaural >75dB. typical 81dB Stereophonic >68dB. typical 77dB For ± 75KHz dev: <0.05%. typical 0.02% For ±150KHz dev: <0.2%. typical 0.05% w/External Encoder: <-50dB w/Internal Encoder.From 100 to 5000Hz: <-60dB w/Internal Encoder.From 30 to 15000Hz: <-50dB ± 0.1dB >50dB Adjust.between 0 and +7dBm ±0.1dB ±0.2dB 115 /230VAC ± 15%.50/60Hz 250VA / 200W 0 ~+35ºC recomm. -10 ~ +45º C max. Width:19" height: 5 1/8".Standard 19" Rack. 483 mm width x 125 mm height x 334 mm depth. Frequency, ± 75KHz. peak dev. F3E, F8E. 10 /100KHz <±200Hz <250Hz over temperature <100Hz/year. adjustable between 2 and 100Wrms. nominal. 10W < -70dBc <-80dBc. typical -95 dBc. 50: unbalanced.N Female connector. Adjustable between -3.5 and +12.5dBm for ±75KHz peak dev. Select. 10K: /600:,bal./unbal. >50 dB.typical >60dB XLR Female balanced ±7.5KHz dev. Adjust. between -12.5 and +3.5dBm ±2.0KHz dev. adjustable between -24 and -8dBm 10 K: unbal.BNC Female conn. 0 to +10dBm at ±75KHz peak dev. Variable 0 /50 /75µsec.± 2%. : Limiter set to 150KHz deviation threshold. Technical Manual - v1.2 - November 2005 12 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG Section 2 INSTALLATION, OPERATION AND MAINTENANCE CONTENTS : 2.1 Introduction. . . . . . . . . . . . . . . . . . . 14 2.2 System connection . . . . . . . . . . . . . . . 14 2.3 Audio Base band connections and presets. . . 15 2.4 Operation. . . . . . . . . . . . . . . . . . . . 19 2.5 Commands and programming. . . . . . . . . 21 2.6 Service and maintenance. . . . . . . . . . . . 31 Technical Manual - v1.2 - November 2005 13 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG 2.1 Introduction. Before proceeding further, make sure that mains voltage corresponds to the factory-set value (usually 220/240VAC). In case it differs, change to the proper value. Install the transmitter in a dry, ventilated and possibly dust-free environment, so that it will operate in the +10 ~+35°C temperature range. Connect the Transmitter to the load and audio source using suitable cables and connectors, which should be periodically inspected. The EM-100 DIG has many features of a hi-fi Transmitter and should be installed and audio-wired with the same care, avoiding earth loops as much as possible. When these conditions are met,the transmitter performs superbly. This Transmitter is adequately shielded and can be installed close to the program Studios without fear that it will affect the audio equipment.This arrangement has the advantage that the audio level,deviation and power parameters can be continually monitored. EM-100 DIG can also be installed away from the studio and connected with several meters of LF coaxial cables with no adverse effect on modulation quality. A remote installation usually requires a STL (Studio to Transmitter Link). As the final modulation performance is dependent on the whole system arrangement, carefully consider the whole system planning. 2.2 System connection. 1 - Connect the N-type output connector, marked “RF OUT ” to the antenna or RF Power Amplifier with low-loss 50:coaxial cable, tested to 500W of peak-power rating in the frequency range used. Andrew LDF4 or 1/2" Cellflex line can be used in some short hops. 2 - Connect the audio inputs as required for operation and detailed in the following chapters for various situations. If needed, connect the serial and / or parallel remote control I/O ports as required, or jump this step to a subse-quent moment. 3 - Switch-off the mains rear switch and connect the transmitter to mains and ground system. 4 - Before turning on Transmitter in the system, pre-set if possible frequency and power separately on a dummy load, to avoid system problems at the first turn-on of the equipment. If this cannot be done, check that the transmitter's maximum output power (100W)) does not harm any external supplementary amplifier stage (if any). 5 - Turn-on the rear panel mains switch, then push-on the front panel on/stand-by switch to operate the transmitter and check that: -All LEDs and the display briefly lights on and off for the initial check. -The yellowLED turns off. -The green “ LED must light up after a very short time,when frequency is locked at PLL. Once locked, the RF power will rapidly increase to the pre-set level in a mild increasing mode. Once preset power is reached, the LED will light completely, if the power is set >5W (at least 5.1W). Till that moment it will turn off and on, signalling the RF power is present but not correct. Equipment is now functioning in the pre-set mode, delivers power and can be accessed to be programmed or simply to monitor its functions with the front panel display. Technical Manual - v1.2 - November 2005 14 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG The first request it will do will be entering the password for the required level of authorization/security.The equipment is factory pre-set with the first 2 passwords levels disabled: this will allow to set most of the operating parameters, including power, frequency, input levels, clock and date. Some more critical parameters it will require the upper 3rd level: be sure to know it if you need this access. EM-100 DIG WILL ALWAYS TURN-ON IN THE SAME STATE AS IT WAS IN THE LAST TIME IT WAS TURNED OFF FROM MAINS,I.E.POWER,FREQUENCY AND EVEN ON OR STAND-BY CONDITION. AS SOON YOU TURN ON THE REAR PANEL MAINS SWITCH BE PROMPT TO THAT, EVEN WHEN JUST FACTORY DELIVERED. 6 - The first task to manage when turning on the equipment as factory delivered is to set-up the passwords. At least the 3rd (the highest) level must be immediately changed: because, if any unauthorized people change it or you lose it, there is no way to change it for security reasons and the equipment may become unmanageable. Gaining again access to the equipment will require factory reprogramming or changing of the internal Microcontroller unit. For this reason be sure to write down and keep it immediately in a secure place:there is no way to read it after you have programmed down and confirmed. For practically any parameters that may require some setting in the field, the 2nd level password is enough and may be used for any standard service requirement . The main purpose of the existence of the 3rd level is a security assurance for the user if he loses control on the lower password levels. 7 - If not already done,adjust frequency and RF power as required and check reflected power on the transmitter's display. To this aim search for RF power menu and read the corresponding value of direct and reflected output power. For proper operation, the reflected power reading should typically be less than 10% of the direct power value, (<10W max). Any higher reading may indicate that the antenna is not properly connected or the following amplifier input needs to be tuned. 8 - Check and/or set clock and data and all transmission parameters as required, i.e.channel sensitivity and deviation, mono/stereo, preemphasis etc. Refer to the appropriate section of the Manual. 2.3 Audio Base band connections and presets. 2.3.1 Baseband Connection & Wiring and Impedance Selection. EM-100 DIG supports balanced or unbalanced signals with selectable input impedance. The audio inputs are basically balanced and have selectable 600/10k: resistive impedance, factory pre-set at 10k:.They can be connected to the balanced output of a professional mixer console or to the unbalanced one of a cheaper unit without appreciable degradation. Audio mono or stereo channels inputs are XLR female connectors.They should be connected to the output of the mixer console, or of any audio processor that drives it, by a balanced coaxial cable Technical Manual - v1.2 - November 2005 15 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG connected to pin 3 (+) and pin 2 (-). The cable shield, connected to the ground of the driving equipment,has to be connected to pin 1. In case of unbalanced drive, input pin 2 shall be short-circuited with ground and shield on pin 1, while the signal shall be available on pin 3. Higher impedance selection, in this case, will be 5k: instead of 10k:. With balanced driving signals,the connecting cables to the audio source may be well more than 100-m long. MPX or an externally processed signal, usually an unbalanced signal, can be fed to the female BNC connector, marked , which is internally parallel-wired with the channel connector:for this reason it is not possible to connect signals to these two connectors at the same time. Higher impedance position is 5k: in this case too. Connect this input with a 50-: (RG58) cable for a short distance; if the distance exceeds several tens of meters, use 75-: (RG59) or 92-: (RG62) coaxial cables. The auxiliary-channel connector is also of the grounded BNC female type. Use 50: (RG58)or 75: (RG59) cables to connect to the driver. The same applies to the monitor "MODULATION" output, if needed. 2.3.2 Pre-emphasis setting. Non-precoded low frequency mono and stereo channel signals have to be adequately preemphasized. Standard preemphasis time constant is 50 and 75 µs, the former being usually factory pre-set for Europe countries. Check whether this is correct for your country (it is usually correct for any European country and part of the Pacific areas). It is not correct for USA and Center & South America standards,which require 75 µs. If above correction is needed,simply set it on the frame of the transmitter menu, which also includes mono/stereo operation and frequency. See appropriate section further on in this Manual. 2.3.3 Audio Baseband Input Level Range, Setting and Requirements. In the following paragraph we will refer to 0dBm as the audio signal which produce 1mW on 600:, i.e. a 775mVrms / 2200mVpp sinusoidal. Irrespective of the impedance, we will continue to assume 0 dBm as an audio signal whose peak is + (or -) 1100mV. In the same way, when talking of the modulation, we will assume as 0dB the signal which produces 100% maximum allowed modulation, i.e . 75kHz deviation. There is no absolute worldwide standard regarding audio peak level as modulation signal for a transmitter, nor for the mean deviation. Many Broadcasters use 0 or +6dBm as LF peak level for 100%modulation, USA often uses +4 or +10dBm. Many European countries specify +6dBm for 40kHz deviation (which is assumed to be a "mean" modulation). This allows for 5.5dB headroom to max. 75kHz deviation, i.e.+11.5dBm for 100%modulation. Technical Manual - v1.2 - November 2005 16 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG A higher level minimize system and ambient noise. A level too high may over-stress the input circuitry of the transmitter, reducing the dynamic distortion-free range over the nominal level (headroom). It may also be costly to produce with high quality. For this reason OMB recommends,whenever possible,to adopt +6 ~ +11.5dBm as nominal peak level for audio modulation purposes. EM-100 DIG transmitters allows an input audio level on the main channel/s ranging -3.5 ~ +12.5dBm to be set for 100% modulation, with almost no difference in modulation performances, if high quality signal is provided. Even at the higher level,at least +6dB headroom is additionally allowed: i.e.up to 150kHz deviation, with no distortion. Obviously this deviation is not currently allowed by the broadcast standards and the limiter threshold must be set at its maximum to permit undistorted performance. The auxiliary channel ’s level ranges -12 ~+4dBm to produce 10% modulation,i.e.7.5kHz deviation. Consequently typical input levels for an SCA-type signal (10%max. admissible deviation) are 0.2 ~ 1.0Vrms // 696 ~ 2200mVpp, when the input is set between -11.5 and +2.5dB. All the same, an RDS-type signal could be accommodated in the 0.052 ~ 0.33Vrms //150 ~ 930mVpp level range, to produce the standard peak deviation of 2kHz, as above. Regulating the nominal input level for 0dB modulation on the transmitter is an easy task. From the proper menu screen it may be seen varying the modulation in real-time with the level adjustment,in 0,5dB steps. The modulation is reported as deviation in kHz and in dB, referred to 75kHz. In this screen, the reported deviation includes any other auxiliary signal as pilot tone, when in stereo, and RDS or SCA signals applied at the same time. To measure only the audio channel signal, go to the Left / Right level menu screen. The auxiliary channel level is slightly less immediate to set, being measured in dB only. Remember that 0dB corresponds to 7.5kHz deviation,i.e. 10%max allowed total modulation. The typical level for RDS so being 11.5 for 2kHz deviation. This menu screen accounts only for deviation due to auxiliary signal. To see the added effect on the total deviation, go to the MPX menu. The exciter’s internal limiter is of the peak-clipping type; this means that as soon at it cuts in, modulation distortion increases sharply. For this reason, the modulation signal should be kept under control to prevent intervention of the limiter. The cut-in limiter threshold, when enabled, is factory pre-set to +2.5dB (100kHz peak value). It may be set from 0dB (75kHz) up to +7.1dB (170kHz). This threshold value is mostly specified in the various national standards, and tolerance to short over-modulating peaks varies from country to country. Some countries do not permit the user to disable the limiter or change the level. Note that the limiter action begins slightly after the pre-set level, with no action at all till that. The difference between the threshold level and hard clipping is some 0.5dB. In any case,the modulation peak value that is internationally admitted for FM is 75kHz for peaks that are not extremely short. For this reason , the limiter’s cut-in threshold should never be too high. It is highly recommended to use an external multi-band limiter to optimize modulation, with higher tolerance for any audio-signal peaks. Such devices momentarily reduce the amplifier circuits’ gain if the threshold is exceeded and prevent severe, significant distortion. Any external compressor, limiter, audio or modulation meter must be frequency-compensated with the same time constant of the pre-emphasis to modulate or monitor deviation properly. Technical Manual - v1.2 - November 2005 17 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG Therefore, the audio level shall be constantly and correctly monitored and adjusted, to prevents as much as possible, the internal limiter from cutting in. On the other hand, the audio level should be as high as possible, to achieve the best signal/noise ratio on reception. The tendency to over-process audio signals is common in many local broadcasting stations:some sort of processing is advisable and we recommend using a top grade multiband compressor, but not to compress the signal too much as this impairs the original dynamics. The audio response of the EM-100 DIG transmitter is extremely flat, without perceivable loss on low and high audio frequency: for this reason large frequency alterations of the audio signal supplied by using a so-called “frequency equalizer,” are not advisable. An increase of the low and high frequency contents of the audio signal by more than a few dB can cause general degradation of modulation dynamics and improper functioning of the limiter. 2.3.4 RS232 Serial Port. The RS-232 port manages only Tx, Rx and Return data signals, with no handshake. Being the two former signals wired inverted to the port, it need a simple straight wired serial cable with appropriate connectors:usually a female DB-9 or DB-25 female to the PC port and a male DB-9 connector at the transmitter end. Appropriate software is needed for communication. OMB can provide this software and also Telemetry Equipment at request. Do not connect the cable with neither transmitter or PC energized. 2.3.5 Parallel REMOTE Port. Remember that this port accommodates some lines for simple direct control / monitor on a DB-9 male connector. They are: PIN DESCRIPTION GND ON THE AIR A +12V/10k: signals that the transmitter is delivering substantial RF power FORWARD POWER A signal proportional to transmitted power is present, with a pseudo square law. Range is 0-5VDC /10K: impedance.On EM-100 DIG, 5V stands for 100W. GND RF ENABLE A shorted circuit to ground disables RF. Signal level +10VDC/1mA max. FAIL URE Logic low signal means alarm. Correct functioning is signalled by +12V/10K: Maximum current sinking capability <10mA. GND Technical Manual - v1.2 - November 2005 18 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG 2.4 Operation 2.4.1 Monaural Broadcasting,from a Monophonic Audio Source through Main Monaural Channel. 1) Connect the “right ”(or mono) input connector to the corresponding audio source as described in the "system connection" section. No connection to the "left" channel input is needed. The signal runs through the channel processor and is 15kHz filtered and pre-emphasized. 2) Select the command menu screen (cf relevant section on the manual) and select operating mode. Confirm or change also 50 or 75µs preemphasis as required. 2.4.2 Monaural Broadcasting, from a Stereophonic Audio Source through the Optional Internal Stereo Encoder. 1) Connect both the and input connector to the corresponding audio source as required for stereo transmission as described above. The audio signals will run through the channel processors and will be 15kHz filtered and pre-emphasized. The internal stereo-encoder will blend the stereo input source to transmit in monaural mode. In this case the transmitter is already preset for stereo operation if needed, simply reversing transmission mode to . 2) Select the command menu screen and select operating mode.Confirm or change also 50 or 75µs preemphasis as required. 2.4.3 Mono or Stereo Broadcasting from a Radio-Link Receiver or an External Encoder. 1) In this case, the signal is already multiplexed and pre-emphasized. Use the BNC input connector. The signal skips the coding and filtering stage and therefore is not pre-emphasized. 2) Select the command menu screen and select operating mode. While it is anyway advisable to select the proper preemphasis time-constant as required for your country, in this position this selection is not influent. 2.4.4 Stereo Broadcasting from a Stereophonic Audio Source through the Optional Internal Stereo Encoder. 1) Connect the XLR-type modulation input connectors, marked (channel) and (channel), to the output of the two channels from the mixer console or stereo source. They will be internally 15kHz filtered and pre-emphasized. 2) Select the command menu screen and select operating mode. Confirm or change 50 or 75µs preemphasis as required. Technical Manual - v1.2 - November 2005 19 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG 2.4.5 Operation with a RDS or SCA Encoder. 1) Connect the BNC-type connector to the output of the RDS or SCA Encoder. If the internal optional stereo coder is used, connect the BNC output to the pilot tone synchronization input of the RDS coder, if present. 2) Select the command menu screen and push to vary the channel sensitivity. Adjust both transmitter sensitivity and/or the level of the external generator for the deviation required, as explained in the previous Manual sections. Consider that 0dB modulation reading (not the input level) in this field means 10% total modulation or 7.5kHz deviation, i.e.the standard setting for a SCA auxiliary channel. In the case of RDS,a reading of -11.5 dB or 2kHz is the correct value of modulation. 3) Total modulation and deviation may be read in the display screen, with the addition of any other composite signal simultaneously present. If only the final modulation due to the auxiliary signal requires to be measured, momentarily disconnect every other baseband signals present on the inputs and change mode to or mode, for the measuring operation only. This is not required when you display only the auxiliary signal. 4) If you have changed transmission mode selection or removed any input signal for check purpose, reverse to the original setting and reconnect any previously disconnected signal. 2.4.6 Modulation Adjustment with Broadcast SignaL. Check the overall modulation level for adequacy, as follows: 1) Select the display menu screen : The total modulation will be displayed, both in dB and as deviation in kHz. An analog moving bar and a digital peak reading are shown at the same time. 2) Send a sufficiently constant-level music signal to modulator input, and check that the measure hovers around 0dBm and moves into the upper range during signal peak only and by no more than 1 or 2dB. For any other reading,adjust the mixer console’s "MASTER" or output attenuator until the above conditions are obtained. The red alarm LED should never or rarely light up, as this would indicate distortion. If the limiter is set just above 75kHz, the red LED will light up above 0dB and the modulation measured will never show a much greater value. Factory pre-set is 100kHz (+2.5dB). 2.4.7 Check of Pilot Tone on Stereophonic Broadcast. In case of internal stereo coder, no allowance is externally provided to change the pilot tone level, which is usually internally pre-set for 9-10 %of modulation, i.e. -21 ~ -20dB or 7 ~ 7.5kHz deviation. In case it is externally provided by a separate stereo coder, it must be measured in absence of audio modulationand any other auxiliary signal as below described: 1) Disconnect any signal from the external stereo-encoder input and any RDS or SCA signal. 2) Select the display menu screen and check the pilot tone, which must be now the only signal present. The standard level is that previously stated ,i.e.: 9~10% or -21 ~ -20dB, and may be adjusted accordingly on the external stereo encoder to suit the request. 3) Connect again any previously disconnected signals as done. Technical Manual - v1.2 - November 2005 20 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG 2.5 Commands and programming EM-100 DIG allows an exhaustive control of all transmission parameters and a complete programmability and monitoring through the various software controls via the front panel keyboard and display.The same functions are remotely addressable with proper software, which is not included as a standard option other than some simple demo programs. For a description of remote capability see the proper section on the manual. In this section we will examine the front panel menu-driven operational capability. 2.5.1 Passwords Organization. The passwords organization is set in 3 security levels, each with its own password. A higher level permits to change the lower levels authorizations and passwords. The password is composed by 4 alphanumeric characters, including extended capital and lowercase ones and several special symbols. We suggest using a wide range of characters as the security level raises, to increase the possible combinations. No password is ever shown: it is always masked by dummy characters as "...." or "****". Nevertheless it may be always changed with the higher level authorization. Here is the purpose of each level: LEVEL 1: Lower security level. It is needed to access to most of the monitoring and control menu screens, not permitting to alter or programming any operating parameter. It is set to "off" state as default, allowing anybody to navigate freely through exciter's monitoring menu information. OMB suggests leaving it in this state if a high "privacy" level is not required. If set to ON, it will show the default menu screen #00, requiring password for any other information or pre-set. Failure to insert a correct password of any level will impede any other access to the commands for the time-out length (usually 3 minutes). No change to the operational mode is done in case of incorrect password input. No information is available on the display regarding the transmitter functioning status. LEVEL 2: Service level.This password is needed for any functioning set-up as frequency and power, sensitivities, clock and date etc. Its use is reserved only to service technicians who need wide access to the transmitter presets and functions. Although the default factory state is "off", OMB suggests changing the default state and password immediately at the first power on, to prevent to unauthorized people to tamper with transmitter commands, if the default word is known or the status is set to "off". LEVEL 3:Highest security level. It is always "on" by default and reset anyway to "on" after the display time-out, for security purposes. Its knowledge is deserved only to very few people and must be immediately registered after setup and kept in a secure place: there is no way to read it after you have setup and confirmed on the exciter. This password must be immediately changed at the first pre-set of the equipment: if any unauthorized people tampers with it or you lose it, there is no way to change it if you do not know the correct word for security reasons and the apparatus may become unmanageable. Technical Manual - v1.2 - November 2005 21 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG WARNING Gaining again access to the equipment will require Factory reprogramming or changing the internal Control Unit . For practically any parameters that may require some setting in the field, the 2nd level password is enough and may be used for any standard service requirement. The main purpose of the existence of the 3rd level is a security assurance for the user if he loses control on the lower password levels. Only very few critical parameters, like limiter permission or frequency step control requires this password, as in some countries this functions are not allowed to be freely chosen. 2.5.2 Factory Default Passwords. These are the factory default passwords: Level 1: P001 Level 2: P002 Level 3: ABCD For what previously said, be sure to change at least the 3rd and possibly the 2nd level as soon as you receive and turn on the equipment. For security purpose the 3rd level password may be factory changed from the default value before the transmitter is shipped, in consequence of a specific final customer request. 2.5.3 Menu & Commands Description. The hierarchical tree of the menu is depicted in the following Figure 2-1 , with a small number near the left side of each field for easy reference. In the following pages we will examine each menu field and option. All of the first column fields require the first level password authorization to be navigated. In a similar way, practically all the second column fields require the second level authorization, as some in the third column.The third level is required only by some functions in this last column. Navigation through the menu screens is quite straightforward and natural, with the direction keyboard. "Up"and "Down"keys vertically scrolling the screens, while the "Left"and "Right" keys horizontally scrolls the menu. Moving to the right may be impeded by the password permission, while returning to left is always possible. The key changes from scrolling to programming mode, if allowed in the field. Another push on the key will confirm the input data. When in program mode, the up and down keys will change the character, while the left and right keys will move the cursor on the field. Pushing on the key will abort the input while repeated escape commands will reset the menu screen to the default one (# 00). A local input time-out will automatically cancel the command mode resetting input data if this is not confirmed in 60 seconds after the last variation. Technical Manual - v1.2 - November 2005 22 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG Few minutes of tests will enable most users to gain confidence with control keys and menu and to be able to access to all main feature of the transmitter,without any previous training. Anyway it is impossible to discover hidden functions without the proper password permission. START MENU. The start menu screen is the unnumbered one on the top of the menu tree.It is shown only when the equipment is turned on from mains or software reset. It will show the software version and the initialization step, when all the LEDs and the display will be turned on and off for testing purpose. Any subsequent key input will turn this menu field on the next, requesting a password code. MENU #11:INITIAL PASSWORD ENTER PASSWORD CODE This screen requests to input a valid password code. When the input is confirmed by the key, the word will be compared with the memorized passwords and, if recognized,the corresponding security level will be allowed. If the password is incorrect or the input is terminated by a , the password will be signalized as invalid and the security level allowed will be as actually in memory,i.e. 0 (no permission at all),1 or 2. If the security level is already pre-set to "off" for the 1st level and "on" for the 2nd one, as usual, there is no need to input any password to freely navigate in the menu tree without altering any parameter. When the password is recognized as valid and the corresponding level is displayed, press on key will turn on the default menu field #00. Technical Manual - v1.2 - November 2005 23 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG Figure 2-1: SEQUENCE OF MENUS DISPLAYED BY SCREEN. HYERARCHICAL TREE. Technical Manual - v1.2 - November 2005 24 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG MENU #00:DEFAULT MESSAGE. OMB EM-100 DIG VER 1.0 This screen shows the default message and the software release.It is the field that will be initially set, or to which it will return back after repeated CANCEL commands. If authorized by the 3rd level permission, going in the command mode (inputting ) will permit to edit the first row of this field with a custom message e.g.your organization name. MENU # 01:DIRECT & REFLECTED POWER. dir. power ; 100 W REF. POWER: 0.0 W This screen shows the direct and reflected power actually delivered.Going in the command mode, with the 2nd level password authorization, will permit to set a new direct RF output power. See menu # 21. MENU # 02:MULTIPLEX SIGNAL LEVEL (OUTPUT MODULATION) MPX 75KHz +7.1 DB ŰŰŰŰŰŰŰŰŰŰŰŰ This screen shows the actual peak modulation in dB referred to 75kHz and as deviation in kHz. A pseudo-analog moving bar simultaneously fast changes with the modulation, leaving a peak mark at its end for 1 or 2 seconds. A vertical bar ( | ) on this line marks the 0dB position. Command mode, with the 2nd level password authorization, permits to set LF input channel sensitivity, or modulation depth. See Menu # 22. Right key,with the 3rd level password authorization,permits to access to limiter setup and threshold.See Menu # 32. MENU # 03:LEFT & RIGHT SIGNAL LEVEL IN DB LEFT level -3.0 db right level -4.0 db This screen shows the actual left and right peak modulation in dB referred to 75kHz.The reading is adequately accurate with real audio signals. Some steady state test tone especially at very low audio frequency may beat with the discrete A/D conversion sometimes producing some reading Technical Manual - v1.2 - November 2005 25 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG uncertainty. In this case the MPX level reading will anyway produce correct overall modulation measure. MENU # 04:LEFT &RIGHT SIGNAL LEVELS SEEN AS ANALOG MOVING BAR This screen shows the actual left and right peak modulation as two moving bars.A vertical line marks 0dB position and the same considerations as the previous menu are still valid. MENU # 05:AUXILIARY SIGNAL MODULATION LEVEL (SCA,RDS) aux -11.0 db This screen shows the actual modulation due to an auxiliary (SCA,RDS) signal in dB referred to 7.5kHz or 10% of max peak modulation.Usual level for SCA signal is 0dB (7.5kHz) while a standard RDS modulation is set at -11.5dB (2kHz). Command mode,with the 2nd level password authorization, permits to set auxiliary input channel sensitivity. See menu #25. MENU # 06:AUX, LEFT, RIGHT AND MPX LEVEL IN DB aux 00.0 mpx 0.0 0.0 0.0 This screen simultaneously summarizes the actual modulation in dB due to auxiliary, left, right and multiplex signal as seen in their own menu screens. MENU # 07:TRANSMISSION MODES AND FREQUENCY. m=mono pr=off fm 101.10 mhz This screen shows the transmission mode,i.e."MONO R", "STEREO", "MONO L+R", "EXT MPX". It also displays the preemphasis constant time and the transmission frequency. Technical Manual - v1.2 - November 2005 26 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG Entering in command mode, with the 2nd level password authorization,permits to set every of this transmission parameters.See menu #27. Only 3rd level authorization permits,pressing "Right" key, to change the frequency variation between 10 and 100kHz /step. See menu #37. MENU # 08:INTERNAL VOLTAGES vs 2 vs + vs 27.0v +12.5v --12.6v This screen shows the internal regulated voltages.In the EM-250 DIG they are +27 ±0.8V,+12.5 ±0.3V,-13.0 ±1.0V. A marked difference from these values, especially regarding VS2, may indicate misfunctioning or very low mains voltage. MENU # 09:TEMPERATURE, DATA AND CLOCK t= +25°c 01 jan 02 17 : 00 This screen shows the internal temperature, the actual data and clock. To set data and clock it is required to go in command mode, with the 2nd level password authorization. See Menu #29. The temperature sensor is optional and, when present,in the case of EM-100 DIG reads the internal temperature slightly behind the front panel. It is usual it reads some 20 °C higher than external ambient temperature at full output power: i.e. some +65 °C assuming an external temperature of +45 °C (the maximum allowed). MENU # 12: ELAPSED TIME. elapsed time This screen shows the elapsed time whether the exciter is on the air or in stand-by with the mains applied. There is no way to change the reading. MENU #13:PASSWORD MANAGEMENT set password lev. 1 This screen shows the password status and permits to change the code and/or the status in command mode, when in possession of the necessary level authorization. No code is ever shown and no access is permitted to a level higher than the current authorization. Technical Manual - v1.2 - November 2005 27 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG If the code or the status is changed, it is always required to confirm the correct password for that level. If the password is unknown, lost or tamperers changed it, it is possible to change status and code when in possession of the higher password. In this case the lower level password code must be changed and confirmed: no possibility still being to know what was the old password. In case a lower password permission is actually set in regard to the needed action, it is possible to input the higher level password either performing a software reset, if permitted, or turning off and on the mains voltage through the rear mains switch or an external switch. The 3rd level authorization, when set, will stay valid only till a display time-out is performed,i.e.usually 3 minutes after the last command. Simply navigating through the menu or performing some action will prolong the time-out. If the password status is set to on for the level 1, a hung-up may follow after the time-out.This may be intentional to prevent unauthorized people from browsing the exciter parameters. Exciter performance will be unaffected by this condition. Any attempt to access the exciter will cause the password request:if an invalid password in entered,it needs to wait for the time-out to permit a new attempt or to remove the mains power to the equipment,causing a hardware reset. Even in this case, the first request will be a valid password input. MENU # 14: SOFTWARE RESET exec. sw reset ? yes/no This screen permits to execute a software reset if in possession at least of level 1 password authorization. The main purpose of this reset is permitting to input a new password level; its action is similar to turning off and on the mains to the equipment. A software reset will lead to a small interruption of the RF output power which will be re-established in few seconds, while lock on frequency will not be lost.No transmission or sensitivity parameter is lost in consequence of software or hardware reset. MENU # 21:OUTPUT POWER SET. set dir power This screen derives from #01, in command mode. The direct power value blinks and acting on up and down keys the numeric value varies. The output power will vary in real time.Confirming the final value with an "OK" will write the new setting in the non-volatile memory of the equipment. Escaping ( ) will abort the change. A local time-out will automatically escape the input if not confirmed in 30 seconds from the last change performed. MENU # 22:MULTIPLEX, LEFT & RIGHT INPUT LEVEL SET. set mpx gain Technical Manual - v1.2 - November 2005 28 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG This screen in command mode, with the 2nd level password authorization, permits to set LF input channels sensitivity, i.e.multiplex, left and right channel. Take present that multiplex and left signals share the same channel and the sensitivity is set to the same value for both left (or multiplex)and right channel,with a differential error <0.2dB at any level. Allowed range is -3.5 ~ +12.5dBm. The first line of the display shows the actual modulation,while the bottom line shows the input level for 100% modulation.Increasing the input level will accordingly decrease the modulation. MENU #23:PASSWORD CONFIRMATION conf. password **** This screen is displayed when password code or mode is changed on menu # 13. It requires entering the same password code as in the current level which is to be changed. Failure to do so will show the message:ERROR PASSWORD. This display stops input mode for 5 second and than permits to exit (and possibly to try again) with the key. MENU # 25: AUXILIARY CHANNEL INPUT LEVEL SET. set aux. gain This screen in command mode, with the 2nd level password authorization, permits to set the auxiliary channels input sensitivity. Allowed range is -12 ~ +4 dBm to produce 10%modulation, i.e. 7.5kHz deviation or 0dB in the upper line of the display. MENU #27:OPERATION MODE,PREEMPHASIS AND FREQUENCY SET set mode, preenf. & freq. In this screen it is possible to set the transmission "modes" (MONO R, STEREO, MONO L+R, EXT MPX), the preemphasis time constant (0, 25, 50 & 75µs) and the frequency in step of 10 or 100kHz as preset on the menu # 37. To access to this last menu, the 3rd authorization level is required, from the main frequency menu # 07. Left and right keys change the input fields whilst the up and down keys change the various options or increase/decrease the frequency. Technical Manual - v1.2 - November 2005 29 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG MENU # 29:DATA AND TIME SET. set data & time This screen is the command mode display of menu #09,with the 2nd level password authorization and permits to set correct data and time. As in the last menu,the left and right keys change the input fields while the up and down keys increase/decrease the date and time. MENU # 31: MAXIMUM REFLECTED POWER SET. max. refl. power autocontrol This screen permits to set the maximum reflected power level. Default value is 10.0W and in any case this power is hardware limited to 15W for security reason. Auto Control on the lower line is not operative and could be absent in other software releases. MENU # 32: LIMITER SET. mpx limit level autocontrol This screen, with the 3rd level authorization, permits to set the limiter action. The right/left keys toggles limiter on and off. The up/down keys vary the threshold level. Auto Control on the lower line is not operative in some software releases. When it is, it will dynamically reduce the input sensitivity to allow distorsionless limiting if pre-set to ON. Even in this case it will be wise not to exceed the limiter threshold to avoid "pumping" effect on the modulation. MENU # 37: FREQUENCY CHANGE MODE. frequency mode This screen, with the 3rd level authorization, permits to set the frequency step variation between 100 and 10kHz. Technical Manual - v1.2 - November 2005 30 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG MENU # 39:POWER-DOWN SETUP. auto power down ? 23:00 - 06:00 p=50% This screen, with the 2nd level authorization, allows to preset the "power-down" mode. If this mode is on, the output power will be automatically decreased to the pre-set percentage in the time period set on the bottom line. The scaled power is approximate and must be tested and/or adjusted before final setup, if critical. 2.6 Service and maintenance Since the EM-100 DIG is cooled by forced air, it is subject to clogging by dust. It is very important to keep clean and dust-free both heat sink fins and cooling fan, to assure a good cooling of RF Power Module. Install the equipment on a stable stand/rack, in such a way to permit good air circulation and hot air exhaust. If needed, cabinet may be externally cleaned with a soft brush and a wet cloth, with the Equipment turned off. Other than this, because of the high-quality materials used in their manufacture, if it is installed as set forth under “INSTALLATION, OPERATION & MAINTENANCE” it will not require special maintenance for quite some time. Only periodical cooling fan & heat sink inspection, and fan replacement after 2 years of continuous service, even if it's yet in good conditions. Minimum maintenance inspection is set monthly, containing the following aspects: 1.- Throughly clean environment. Check allowable limits. Equipment externally. Clean Equipment's room and Transmitter's that internal humidity and room's temperature not to exceed the 2.- Check by visual inspection the operational conditions of Antennas system and external environmental conditions of Station site & building. 3.- Take all possible readings from LCD Display and log it in the Station's log book. If any trouble is detected, it must be solved before leaving the site. 4.- Each six months, or when an anomaly is externally detected, perform a througly check of Antenna system and transmission line, including VSWR check, frequency response curve, Return Losses, etc. Log all checks in Station's log book. After a few years of continuous service, it is recommended that the equipment be overhauled in the factory or in a OMB specialized laboratory. It is especially important that the Main Power Supply be overhauled when the Transmitter have been working at high temperatures, over 30 /35°C. WARNING Never change the internal calibrations to avoid altering Transmitter Specifications. Technical Manual - v1.2 - November 2005 31 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG Section 3 TECHNICAL INFORMATION CONTENTS : 3.1 Introduction. . . . . . . . . . . . . . . . . . . .33 3.2 Main board . . . . . . . . . . . . . . . . . . . 33 3.3 Stereo encoder (optional). . . . . . . . . . . . 38 3.4 FM Exciter . . . . . . . . . . . . . . . . . . . . 41 3.5 R.F. Power Amplifier module . . . . . . . . . . . 44 3.6 Control unit and display board. . . . . . . . . . 50 3.7 Power Supply . . . . . . . . . . . . . . . . . . .56 Technical Manual - v1.2 - November 2005 32 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG 3.1 Introduction. The EM-100 DIG transmitter comprises 5 or 6 internal modules. Main units are the following: Main Board. Microcontroller Unit & Display Board. Stereo Coder Module (optional) RF Exciter Board. RF Power Amplifier Module. Switching Regulated Power Supply For the detailed description of some of these modules on the following pages, always refer to the corresponding electrical diagram. THIS SECTION IS ONLY AIMED TO GENERAL EXPLANATION,REFERENCE AND SERVICE PURPOSE BY SKILLED PERSONNEL. AS EXPLAINED IN THE PREVIOUS SECTIONS, INTERNAL ADJUSTMENTS ARE NOT REQUIRED DURING NORMAL OPERATION. TAMPERING WITH INTERNAL SETTINGS VOIDS THE WARRANTY, MAY HARM THE APPARATUS AND JEOPARDIZE THE GUARANTEED PERFORMANCE. COMPONENT VALUES SHOWN MAY VARY FOR PRODUCTION REQUIREMENTS. DUE TO THE TECHNOLOGY USED, MOST MODULES AND ESPECIALLY THOSE IN SMT ARE NOT INTENDED TO BE REPAIRED IN CASE OF FAILURE AND MUST BE REPLACED WITH NEW ONES. 3.2 Main board. This is the most complex board in the transmitter and supports the Audio input processing, its level adjustment, audio-pass filtering and limiting, the RF control section and the I/O interfaces. It also interconnects the various transmitter modules with ribbon-type cables. Its electrical diagram is splitted in two sheets for clarity purpose: they will be examined in sequence. In the first Schematics sheet are situated the I/O interfaces both audio and digital ports and the analog RF control. Let's start to briefly consider each block diagram. In the upper left side of the diagram are located the audio channels amplifier/buffers made with 6 op-amp sections of IC1 and IC2.Two impedance selector jumpers for the audio channels leads the pack and a protection network made by resistors and diodes protects the inputs from occasional static discharges,as required for CE compliance. Four unity-gain active buffers follow and than two balanced to unbalanced signal converters,which drive the electronic attenuator in the 2nd sheet. The last op-amp in IC2 (d),amplify the auxiliary channel input with a -0.1dB upper corner band >>200kHz and drives the third channel of the electronic attenuator. On the lower left of the diagram are the RS232 interface (IC5)and the parallel remote I/O active interface with its protection network, built around TR1, TR2 and TR3. A wired OR pull-up makes the logic levels <1V as 0 and 10~15V for 1. Technical Manual - v1.2 - November 2005 33 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG Figure 3-1: Main board. On the lower right section of the diagram it is located the RF power controller.The RF forward and reflected power signals coming from the output directional coupler (this located at RF Power Module) are amplified by IC3 in a symmetrical circuit. The forward-power control circuit, built around IC4a continuously drives the RF output stage gain, varying the bias supply voltage to the RF output MOSFET transistor package. The reflected-power limiting circuit IC4b only acts on the same loop when the IC3b output voltage is greater than the threshold set by the voltage on the R49/R50 network. A third and fourth section of IC4 filters and buffers the signal coming from the Microcontroller and set the reference level for the output power loop. TR4 disables the RF output when the synthesizer is not locked on the correct frequency. In the upper right section of the sheet it is shown the control bus connector to the Microcontroller Unit, which carries the digital control lines on the lower pins and the analog lines on the upper ones. From this connector comes the power supply too: only +12.5V and -12.5V are used in the board. Let's now go to the second sheet of this diagram. Beginning from the lower left side ,we find IC8, which makes a 3-channel digitally controlled attenuator. It separately manages left, right and auxiliary channel, while the external multiplex signal is processed in the same channel as the right one. Three buffer/amplifiers follows each channel:IC7a, IC8a and IC12a. The output of the first two amplifiers drive the pre-emphasis stages, whose time constants can be digitally set at 0, 50 and 75µs, through the analog gates of IC9. A limiter stage follows this arrangement, built around D8 and D9 diodes acting as clippers. By acting on the limiter’s reference voltage driven by the Microcontroller through IC13a, the limiter threshold level +Vl &-Vl can be adjusted. RT4,if present, impose a top limit to the limiter. The signal is then sent to the stereo-encoder circuit ’s input sections if present. At the same time, the signal on the monaural right channel path is sent to a low-pass filter, consisting of the section built around IC10 and IC11, which attenuates the frequencies above 15kHz. The switch IC14 selects the signal issuing from the non-pre-emphasized input section through R124 or from the pre-emphasis-and-filter section through R128 or from the stereo-encoder through R131. IC12b buffers the chosen signal and mixes it with that issuing from the auxiliary channel. When required, the diode D17 further limits the resulting total signal. The latter is then sent to the FM modulating/exciting circuit via IC12c buffer circuit and adjusted in level by RT6 as required. A separate section of IC12 separately buffers the modulation signal for monitoring purpose,and sends it to the modulation output connector. IC15 deserialize the digital signal sent by the Microcontroller, to control the transmission channels with IC14 and preemphasis action with IC9. Two output lines from IC15 are used to latch the remote output lines "FAIL"and "ON THE AIR". Technical Manual - v1.2 - November 2005 34 EM 100 DIG MAINBOARD - I/O & R.F. Control Section Date Name Signature: Drawn 01/11/04 OMB Eng. Dpt. Checked Standards Scale : Title: Replace: Replaced with: Drawing nr: Sistemas Electrónicos S.A. EM 100 DIG MAINBOARD - LF Process Section Date Name Signature: Drawn 101/11/04 OMB Eng. Dpt. Checked Standards Scale : Title: Replace: Replaced with: Drawing nr: Sistemas Electrónicos S.A. Date Signature: Name Drawn 01/11/04 OMB Eng. Dpt. Checked Standards Scale: Title: EM 100 DIG Mainboard Sistemas Electrónicos S.A. Drawing nr: Replace: Replaced with: FM Transmitter Sistemas Electrónicos S.A EM 100 DIG 3.3 Stereo Encoder (optional). The encoding circuit uses an 8-step switching technique,which ensures excellent performance with a relatively simple circuit.In addition,by this technique,the first harmonics that are associated with the switching devices are the 7th and 9th (266 and 342kHz); this simplifies the design of the low-pass filter on the multiplex signal. The signal is filtered beyond 15kHz by the two precision active low-pass filters built around IC1 ~ IC4.It is then buffered by IC3d and IC4c and applied to the encoding circuit comprised in IC8. Another higher frequency low-pass filter follows to remove higher order harmonic products. This filter is also made with highly precise active circuitry built around IC5 and IC6a,b. The latter section (c)of IC6 performs phase equalization.The four analog switches comprised in IC7 permits to select the mono or the stereo-encoded signal and to slightly vary the encoder gain to adjust for the 90% audio modulation in stereo vs.100% in mono.Two jumpers on BD1 permit to select either Left or Right or Left+Right channel for mono operation, with no output level change. As factory configured,both jumpers are installed, to mix Left and Right channel for MONO L+R operation. Circuits IC10,IC11 makes the encoder’s time base; IC9 synthesizes the 19kHz pilot frequency, which is filtered and buffered by IC5a. A separate 1Vpp output is provided on J2 to drive carrier synchronization on a possible external RDS generator. Technical Manual - v1.2 - November 2005 38 EM 100 DIG Stereo encoder Date Name Signature: Drawn 01/11/04 OMB Eng. Dpt. Checked Standards Scale : Title: Replace: Replaced with: Drawing nr: Sistemas Electrónicos S.A. Date Signature: Name 01/11/04 OMB Eng. Dpt. Drawn Checked Standards Scale: Title: Sistemas Electrónicos S.A. EM 100 DIG Stereo encoder Drawing nr: Replace: Replaced with: FM Transmitter Sistemas Electrónicos S.A EM 100 DIG 3.4 FM Exciter. This unit includes a classical phase-locked-loop circuit with 10kHz step synthesis across the entire FM band. The very low-noise, fundamental-frequency VCO (Voltage-Controlled Oscillator) consists of a FEToscillator transistor TR5, modulated by the varactor diode set D4~D7, which also sets the operating frequency. The circuit is sensitivity compensated vs.carrier frequency variation so that its modulation gain varies less then 0.5dB across the entire operating range. Modulation distortion is typically lower than 0.03% with over 90dB S/N ratio in the mono mode in the 30~20,000Hz band. The RF signal is buffered and amplified by three successive transistors TR6 ~ TR8, from which is derived the feedback signal to the PLL and the drive signal for the output RF stage.This latter is composed by two small MOSFET transistors TR9 and TR10 and attains some 900mW output level (+29dBm) over the full FM range.To correctly operate TR9 and TR10 require a gate bias voltage, which is factory pre-set by RT1. The digital PLL circuit is entirely contained in IC2, whose frequency reference is derived by a highly precise temperature compensated oscillator (TCXO1) running at 12.8MHz. To correctly operate on the chosen frequency, IC2 must be serially programmed with complex data.This task is done by the Exciter's Microcontroller through 3 control lines. Figure 3-2: Location of Main board (1) and R.F. Exciter unit (2). IC1 either performs loop filtering from IC2 frequency comparator output to the varactor diodes and lock detection. Note that bias voltage is removed from output transistors through TR4 and TR3 to turn off RF when the PLL is not locked on the right frequency.The control loop was designed to ensure that cross-talk added to stereo-composite signal is below -55dB at 30Hz,and is virtually not influent at just slightly higher frequencies. Technical Manual - v1.2 - November 2005 41 EM 100 DIG FM Exciter Date Name Signature: Drawn 01/11/04 OMB Eng. Dpt. Checked Standards Scale : Title: Replace: Replaced with: Drawing nr: Sistemas Electrónicos S.A. Date Signature: Name Drawn 01/11/04 OMB Eng. Dpt. Checked Standards Scale: Title: EM 100 DIG FM Exciter Sistemas Electrónicos S.A. Drawing nr: Replace: Replaced with: FM Transmitter Sistemas Electrónicos S.A EM 100 DIG 3.5 R.F. Power Amplifier module. This stage is designed with only one high-gain BLF-278 MOSFET RF power transistor capsule, in a broadband class AB1 common emitter design. The elements contained in this module are: 1 - Cooling fan directed towards heat sink's cooling fins. 2 - Output low pass filter and directional coupler. 3 - RF output Power amplifier section. 4 - Main Power supply. 6 - BLF-278 MOSFET output power amplifier twin-transistor capsule. 7 - RF output connector. 8 - RF monitor output. Output amplifier stage detail can be seen in Figure 3-3: Fig. 3-3: DETAIL OF OUTPUT AMPLIFIER SECTION. Technical Manual - v1.2 - November 2005 44 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG Elements numbered in Figure 3-3 can be described as follows: 1 - Input splitter transformer and coupling circuit. 2 - Bias adjustment potentiometer. 3 - Bias regulator circuit. 4 - MOSFET push-pull arranged, twin-transistor capsule. 5 - Output combiner transformer and matching circuit. Following this amplifier stage, module includes a low-pass filter in order to attenuate or suppress all harmonics and IM products beyond Band II limits, as shown in Figure 3-4: Fig. 3-4: DETAILED VIEW OF LOW-PASS FILTER and DIRECTIONAL COUPLER SECTION. The three-sections low-pass filter (1) attenuates the harmonics to a value that is generally below -70dBc, following the output transistor drain circuit. Also, included in the RF output path, a directional coupler (2) generates a dc signal, which is proportional to the forward and reflected RF power, and a RF non-demodulated sample (RF MONITOR) to be externally used by a frequency counter or a modulation monitor, for measurements purposes. The transistor gate is biased by a Zener network and a potentiometer which adjusts the idle current of the transistor. Varying the control voltage towards a negative supply progressively disables the amplifier transistor, so effectively acting as an AGC input. In fact the power management circuit, in a closed loop driven by the output sensor circuitry, varies this voltage. This will accordingly vary the output power to obtain the pre-set value and cope with alarm and start-up conditions. Technical Manual - v1.2 - November 2005 45 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG The output transistors capsule is a rugged device which easily could pass the nominal 100W power output, even increasing this power output out of limits, to 300W. OMB suggests never exceeding 250 ~ 270W output power, even when the transmitter could generate more than this. FM 300W Power Amplifier DESCRIPTION REFERENCE QUANTITY Cap. 33pF SMD 1206 100V C1 Cap. 470pF SMD 1210 5% 200V NPO C2, C11-C14 Cap. 1nF SMD 1206 100V C3-C6, C16,C20 Cap. 150pF 100V Ceramic C7,C8 Cap. 100uF SMD t50V Electrolytic C15 Cap. 22nF SMD 1206 200V Ceramic X7R C17 Cap. 47pF SMD 1210 5% 500V C17 C18 Cap. 15pF SMD 1210 5% 500V C17 C19 Diode BAT54 SMD SOT-23 D1,D2 Zener diode 10V SMD 0.35W D4 Thread 0.8mm Cu-Ag 30mm. approx. Material for L1 and TR2 fixing Thread 1mm Cu enamelled 250mm. approx. Material for L2 Thread 1.5mm Cu-Ag 50mm. approx. Material for L5 and TR1 fixing Axial ferrite L3,l4 Output transformer core L5 22: SMD 1206 1/4W r2,r3 Potentiometer 1turn 1K 3/8” R4 Metal 1 : / 2W L=12mm =3.9mm Non-inductive R5 Res. 10: SMD 1206 1/4W R6-R9 Res. 10: Coal 2W L=16mm =5.5mm Non-inductive R10 Res. 330: SMD 1206 R11 Res. 110: SMD 1206 R12 Res. 1K8: SMD 1206 R14 Res. 10: SMD 0805 R15 Output Transformer TR1 Input Transformer TR2 Connection terminals tab 2.8x0.5 CON1,CON2 Female-female hex. separator 10mm Brass-Nickel CON3 MOSFET, N 108MHz 300W SALD BLF278 Q1 Technical Manual - v1.2 - November 2005 46 A BIAS Off C20 1nF TR2 330 R11 C4 1nF GND D2 BAT54 10 R15 GND Input Transf. GND +12V Polarization D1 BAT54 GND R12 110 C1 33pF 300* R1 Elements marked with * are optional RF In R2 22 GND 1nF C6 GND 1nF C3 R4 P1K D4 BZX84C10 R14 1K8 R3 22 Ferrite L4 L1 C2 470pF Bridge Ferrite L3 1nF C5 GND 51 R9 GND GND GND 12pF* GND C10 C13 470pF C11 470pF 12pF* GND C9 GND GND GND C14 470pF C12 470pF 22nF C17 D3 LED* 15pF C19 47pF C18 GND GND Signature: RF Out 300W R.F. Power Amplifier MODPOT v1.3 Date Name Drawn 04/05/04 M. Tsvelev Checked Standards Scale : Title: 10K* R13 GND Output Transf. L5 Core TR2 R10 10 Ohm 2W +48v C16 1nF C15 100uF L2 Dext8 8turns Dcable 0.8-1 C8 150pF GND RF 100 Ohm R8 Q1 R5 BLF278 1R 2W C7 150pF GND RF 100 Ohm R7 51 R6 Replace: Replaced with: 04.04.01.003 Drawing nr: Sistemas Electrónicos S.A. Date Signature: Name Drawn 04/05/04 M. Tsvelev Checked Standards Scale: Title: MODPOT v1.3 300W R.F. Power Amplifier Sistemas Electrónicos S.A. Drawing nr: Replace: Replaced with: A RF IN C1 25pF 500V RF L1 4V D9mm d1.5mm C12 4.7pF 500V RF 500V RF C13 C3 51pF 500V RF 3V D9mm d1.5mm L3 9.1pF In case of using AD250 substrate C15= 6.8pF ; C14= 2x 5.6pF R9=R10=R11= 150 ohms C2 51pF 500V RF 3V D9mm d1.5mm L2 12pF 500V RF C14 C4 25pF 500V RF R2 51R R1 51R TL1 50 Ohm 22pF C5 Monitor TL2 R9 120R BAT54 22pF D2 C8 1nF R5 1K C9 1nF 300W FM FIlter Sistemas Electrónicos S.A. R8 10K Reflected Coupling RF Out Output Coupling Replace: Replaced with: 05.04.02.000 Drawing nr: R7 10K C11 1nF R11 120R Date Name Signature: Drawn 06/06/02 OMB Eng. Dpt. Checked Standards Scale : Title: C10 1nF 1K R6 Forward Power BAT54 C7 22pF R4 51R TL4 R3 51R D1 C6 Reflected Power Monitor TL3 R10 120R FM Transmitter Sistemas Electrónicos S.A EM 100 DIG 3.6 Control unit and display board. This circuit board is basically simple.It contains the Microcontroller,the keyboard and few other circuits which we will briefly discuss.Control & Display Units are shown in Figure 3-5 below. The Microcontroller has 3 digital 8-bit ports and an analog one. This latter is the interface with the analog signals that must be measured in the transmitter. A fast peak rectifier built around IC4 drives one of these analog lines. All audio or baseband modulation plus some steady state signals are multiplexed to its input by IC3, so requiring only one peak rectifier and increasing the number of the analog channels. One analog channel reads the internal temperature through the optional TR3 sensor. Figure 3-5: Detailed view of Control Unit. The simple specialized IC6 performs clock and date functions as a stand-alone unit, backed-up by a NiMnh battery which keeps circuit active for a long time when the power is removed. Figure 3-6: Detailed view of Display & External Control board. Elements numbered in Figure 3-6 are the following: 1 - MAIN/STANDBY push button switch. 2 - STANDBY indicator LED. 3 - ALARM indicator LED. 4 - VSWR indicator LED. 5 - LIMITER indicator LED. 6 - DISPLAY CONTRAST adjustment potentiometer. 7 - REMOTE operation indicator LED. 8 - LOCK indicator LED. Technical Manual - v1.2 - November 2005 50 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG 9 - ON THE AIR indicator LED. 10 - External control keyboard. 11 - CANCEL key, to suppress any order or command. 12 - OK data entering key, to confirm any order or command. 13 - Two-rows, backlighted alphanumeric LCD display. The keyboard switch set is sequentially interrogated one hundred times in a second to determine if a key was pushed. IC5,a serial to parallel converter, drives the front-panel LEDs and the display backlighting with TR2. The alphanumeric display is a separate module, connected to the board by a small flat-ribbon cable, as shown in Figure 3-6 above. Eleven digital lines incoming from the Microcontroller drive this module. The internal board potentiometer RT1 regulates the LCD contrast and may be used to change it for different situations. A separate power supply current for the backlight LEDs is provided by R41 and R42: these resistors become quite hot when the display is full on and their heat someway influence the internal temperature read by TR3. No other regulation is provided on the board.The precision of the measurements is guaranteed by design by the precision of the components and the reference voltage source IC1. Technical Manual - v1.2 - November 2005 51 EM 100 DIG Control unit Date Name Signature: Drawn 18/04/03 OMB Eng. Dpt. Checked Standards Scale : Title: Replace: Replaced with: Drawing nr: Sistemas Electrónicos S.A. Component side Solder side Date Signature: Name Drawn 18/04/03 OMB Eng. Dpt. Checked Standards Scale: Title: EM 100 DIG Control unit Sistemas Electrónicos S.A. Drawing nr: Replace: Replaced with: EM 100 DIG Keyboard / display interface Date Name Signature: Drawn 16/07/02 OMB Eng. Dpt. Checked Standards Scale : Title: Replace: Replaced with: Drawing nr: Sistemas Electrónicos S.A. SOLDER SIDE COMPONENT SIDE Date Signature: Name Drawn 16/07/02 OMB Eng. Dpt. Checked Standards Scale: Title: EM 100 DIG Sistemas Electrónicos S.A. Drawing nr: Keyboard / display interface Replace: Replaced with: FM Transmitter Sistemas Electrónicos S.A EM 100 DIG 3.7 Power Supply. The main switching power supply is a sturdy unit , having a high-efficiency, S-240-30. A diode bridge full-wave rectifies the power transformer secondary voltage in the externally preset 88~132VAC or 176~264VAC mains range transformer tap. The power supply accepts mains input variations generating an unregulated DC voltage which is used by the regulator as input voltage. This unit is intended to be replaced as a whole unit in event of damage, and not to be repaired in the field. This power supply delivers +30VDC to the load, at a nominal power rate of 240W. WARNING IN THIS UNIT, MAINS VOLTAGE AND OTHER DANGEROUS VOLTAGES ARE PRESENT. DO NOT MAKE ANY INTERVENTION ON THE BOARD WHEN IT IS CONNECTED TO MAINS. SERVICE IS LIMITED TO LABORATORIES ONLY. Technical Manual - v1.2 - November 2005 56 FM Transmitter Sistemas Electrónicos S.A EM 100 DIG INTENTIONALLY BLANK Technical Manual - v1.2 - November 2005 57
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