CTE VL3 FM, VL3 User Manual

Technical And User Manual VL3 2500W FM AMPLIFIER

VL3 FM Radio Amplifier

User Manual

Issued: January 2008 -Version 3

CTE Digital Broadcast

Via Gadames 93 - 20151

Milano (Italy)

This document may be duplicated or otherwise used or its contents made known to third parties only
with permission of the originator or other authorized people.
Infringements constitute an offence and are subject to claim for damages.
All rights reserved for patenting or utility model registration.

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VL3 FM Radio 2500W amp.
88 - 108 MHz

The VL3 is a solid state FM amplifier with
2500W output power using MOSFET devices of
last generation. The RF amplification stage is
separated from the Power Supply Unit in order
to simplify the service and installation
procedures. Moreover, the amplifier is equipped
with a remote control interface that satisfies all
the standards regularly used in the Broadcast
field

•2500W Output Power

•High Efficiency And Reliability

•Connections for N+1 System

•Easy Maintenance

•RS232 and RS485 ports

•LAN and Parallel Remote Connection

Technical Characteristics

RF Unit

Frequency Range 88-108Mhz
Required Input Power 60W (typical < 50W) ; N female
Output Power 2500W ; 7/8 flange
Efficiency Typical 60%
Dimensions rack 19” 5U 35kg

Power Supply Unit

Mains 400 V Three-phase (with null and ground)

230 Single-phase
Power Supply Composition Rack modular n°3 PS 1800W Sinlge-phase
Dimensions rack 19” 2U 13kg
Type Switching Single-phase
PFC PFC active type PF 0,98

REMOTE CONTROL

Analogue Parallel Interface DB15
RS233 PC
RS485 BUS DATI
LAN Ethernet TCP/IP ; SNMP

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GENERAL INDEX

1 GENERAL SAFETY AND WARNING RECOMMENDATIONS................................................ 4

1.1 SAFETY SUGGESTIONS ....................................................................................................... 4

1.2 GENERAL SAFETY RECOMMENDATIONS ...................................................................... 5

1.3 GOOD PRACTICES ................................................................................................................ 5

1.4 FIRST AID IN CASE OF ELECTRICAL SHOCK ................................................................. 6

1.5 EMERGENCY RESUSCITATION TECHNIQUE.................................................................. 6

1.6 TREATMENT FOR BURNS ................................................................................................... 8

1.7 WARNING INSTRUCTION.................................................................................................... 9

1.8 VL3 WARNING:.................................................................................................................... 10

2 VL3 General Description................................................................................................................ 12

2.1 Amplifier composition 2500W ............................................................................................... 12

2.2 VL3 BLOCK DIAGRAM...................................................................................................... 13

2.3 Front Panel Description .......................................................................................................... 14

2.4 RF Unit Description................................................................................................................ 16

2.4.1 RF 2500W Module.......................................................................................................... 16

2.4.2 1300W RF Module Description...................................................................................... 18

2.5 Low Pass Filter and Directional Coupler................................................................................ 19

2.6 Ext Interface............................................................................................................................ 20

2.7 General Controller Circuit ...................................................................................................... 20

2.8 Fuse board............................................................................................................................... 21

2.9 Power Supply UNIT Description ............................................................................................ 21

2.9.1 Power Supply Board Description.................................................................................... 23

2.9.2 Power Supply Protections ............................................................................................... 24

3 Putting in operation Instructions..................................................................................................... 26

3.1.1 Unpacking ....................................................................................................................... 26

3.1.2 Connections..................................................................................................................... 26

3.1.3 Mains line power cord connection.................................................................................. 27

3.1.4 DB15 Parallel connection PIN Specification.................................................................. 28

3.1.5 Turning the system ON................................................................................................... 28

3.1.6 Cares and maintenance.................................................................................................... 29

3.1.7 Menu Display.................................................................................................................. 29

4 Mechanical Dimensions.................................................................................................................. 34

5 Technical Specifications ................................................................................................................. 35

6 File schematics diagram.................................................................................................................. 36

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1 GENERAL SAFETY AND WARNING RECOMMENDATIONS

1.1 SAFETY SUGGESTIONS

Regardless of how well electrical equipment is designed, personnel can be exposed to dangerous
electrical shock when protective covers are removed for maintenance or other activities. Therefore, it

is incumbent on the user to see that all safety regulations are consistently observed and that each
individual assigned to the equipment has a clear understanding of the first aid related to electrical
shocks. (see next pages)

In addition these safety practices must be followed:

• Do not attempt to adjust unprotected circuit controls or to dress leads with power on.

• Always avoid placing parts of the body in series between ground and circuit points.

• To avoid burns, do not touch heavily loaded or overheated components without precautions.

• Remember that some semiconductor cases and solid-state circuits carry high voltages.

• Do not assume that all danger of electrical shock is removed when the power is off. Charged

capacitors can retain dangerous voltages for a long time after power is turned off. These
capacitors should be discharged trough a suitable resistor before any circuit points are touched.

• Don't take chances. Be fully trained. CTE International equipment should be operated and

maintained by fully qualified personnel.

• Do not service alone and do not perform internal adjustments of this unit unless another person

capable of rendering first aid and resuscitation is present.

• Some components used in the construction of this equipment contain Beryllium Oxide (BeO).

This substance is harmless as it is, but becomes highly dangerous if it is ground to powder.
Special procedures of disposal must be observed in case of failure of these devices.

NOTE: This section is not intended to contain a complete statement of all safety precautions which
should be observed by personnel in using this electronic equipment or others.
CTE International shall not be responsible for injury or damage resulted from improper procedures or
from using it by improperly trained or inexperienced personnel.

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1.2 GENERAL SAFETY RECOMMENDATIONS

When connecting the equipment to the 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 way of the grounding conductor in
the power cord is essential for safe operation.

• This equipment is 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 insulating) can render an electric shock.

• To avoid fire hazard, use only the fuse of correct type, voltage rating, and current rating. Refer

fuse replacement to qualified service personnel.

• 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.

1.3 GOOD PRACTICES

In maintaining 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 to the affected portion of the equipment. After power is removed, allow
sufficient time for the power supplies to bleed down before reinserting PCBs.

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• 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.

1.4 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.

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.

1.5 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.

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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.

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 TWO BREATHS AND 15 PUMPS UNTIL HELP ARRIVES.

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1.6 TREATMENT FOR BURNS

• Continue treat 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 permit 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 to a medical facility

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1.7 WARNING INSTRUCTION

INTRODUCTION

The transmitter or the equipment that this manual is referred to is developed, produced and tested
following the relevant safety standards EN 602125.The following safety instruction advice the operator
about the dangerous operation concerning the equipment. The user must be read the safety instruction
contained in the manual and they must follow them. As mentioned on the safety rules qualified
technical staff only can operate this equipment. CTE declines any responsibility for damages caused
by an improper use or improper setting up performed by inexperienced staff, not qualified or operating
with instruments or tools not in compliance with safety set of rules.
The staff in charge, besides being technically qualified, must be trained in first aid in case of
emergency or accident (reanimation, heart massage, mouth to mouth respiration, etc.).
Before going on with the operations to be performed, it is necessary to know the position of the general
electric switch and the one of the extinguishers, which have to be used very quickly if necessary.

CHECKING OF SAFETY CONDITIONS

The following connection and verify must be observed to guarantee the safety for the personnel.

• Correct connection with the antenna cable

• Correct connection with a mains line cable

• Correct connection with a ground cable (EARTH CONNECTION)

• Verify that the ambient where the equipments is installed is in compliance with the specification

declared by the manufacturer : altitude, humidity, temperature.

AC/DC LINE WARNING

This equipment is working with dangerous high voltage and current. Any voltage present inside this
equipment can be potentially dangerous for personnel. The technical staff designed for the service and
repair operation must be qualified and they must take the appropriate safety measures stated on safety
rules.

SERVICE and OPERATIONAL WARNING

The technical staff in charge of the service operations inside the equipment with any cover removed
must check that the mains line is disconnected. After the service operation is completed the cover must
be correctly mounted before the connection with the mains line. The high voltage is present on the
mains stage of the equipments also when the mains switch is in OFF positions and the mains line cable
is connected.
If it is really necessary and after authorization of CTE very qualified technical staff only can work with
on live parts. In this special case special safety precautions must be taken. CTE declines any
responsibility if any safety rule is not respected. The replacement of the accessible fuse must be made
with the transmitters turned off and using a fuse with the identical characteristics only as specified by
the manufacturer.

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1.8 VL3 WARNING:

The VL-3 should be placed in a suitable cabinet; after this operation, the front panels will be the only
parts accessible without using tools.

Special care should be paid to the lithium battery placed inside the RF power unit: when exhausted, it
must be replaced with a new battery of the same type, whereas the disposal of the exhausted battery
will be in accordance to the normative.
The distributing frame of the mains connected to the equipment must be protected against short
circuits. (e.g. with magneto-thermal switch or fuses) . The connecting cables will be 4 mm² (AWG 10)
or of higher section if possible.
The general conditions of the shelter and the overall maintenance of the equipment should provide its
adequate safety. In the event of their intervention and in any case periodically, the protection devices
should be inspected and controlled by skilled and authorized personnel. All the safety and protection
devices must never be submitted to alteration, and they will be disconnected only at the time that their
replacement will be necessary.
The cooling fans of the equipment must be periodically (about 2 years) replaced. (120x120 cod.
E09030 , 80x80 code E09040 )
The air filters must be periodically cleaned and replaced if damaged.

Once the installation of the system including cables and antennas is completed, it must be in
compliance with the EMF clauses advised in the 1999/519/EC normative.

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WARNING SYMBOLS

The following symbol are used on this equipment to advise the user about the most important
dangerous parts.

DANGER SHOCK HAZARD

PE TERMINAL

WARNING ! TOXIC

HAZARD

THESE DEVICES
CONTAIN BERYLLIUM
OXIDE
OBSERVE SAFETY
INSTRUCTIONS !

Certain devices (for example
the RF final circuits
MOSFETS) contain
Beryllium Oxide BeO; these
components must not be
broken, crashed or heated.
This oxide passes through the
common systems of filtering,
including the respiratory
apparatus. The prolonged
inhalation at high degrees
causes poisoning with
respiratory apparatus
paralysis, until death.

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2 VL3 General Description

2.1 Amplifier composition 2500W

The VL-3 FM Radio amplifier is a wide band 2,5KW FM solid state amplifier composed by two 19U
racks, mechanically independent: the RF Unit and the Power Supply Unit. The main connections
between the two units are:

1 The 50Vdc feeding cable.
2 The AUX cable, used to connect the ± 20Vdc to the control signal necessary for the management of

the equipment and provided by the microprocessor Board placed on the RF UNIT.

COMPOSITION VL3 ( rear view)

Technical And User Manual VL3 2500W FM AMPLIFIER

2.2 VL3 BLOCK DIAGRAM

Vcc1

Vcc2

Dete ct Unb.

1250W

1250W

BPF

Directional
Coupler

RF Input
50W max

RF out
2500W

RF UNIT 2.5KW

PS1 1800W

Scheda
Shunt

Vcc1

Vcc2

PS2 1800W

PS3 1800W

L1

L2

L3

3 x PS 1800VA

Technical And User Manual VL3 2500W FM AMPLIFIER

2.3

Front Panel Description

RS232

Stand-By Alarm

ALC

VSWR

RF PROBE

19"

5U

Amplifier Front Panel

Amplifier Rear Panel

2

5 8

10

11

12

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Power Supply Unit Front view

Power Supply Unit Rear view

N° Description N° Description

1 RS232, communication port for internal use 11 50 V_dc Connection To The Power Supply Unit,

Cable Included On The Box

2 Stan-By(Orange): indication of Stand-By status

Alarm(Red): indication of General Alarm
ALC(Green): Automatic Loop Control is ON. Must

be ON .
VSWR: ON if 10% of Reflection Power is present

12 RF input, N female connector Max 100W

3 Display LCD 13 Grid with air filter
4 Keyboard 14 LED POWER SUPPLY STATUS

GREEN : Normal Condition
ORANGE: Stand-BY
RED: Alarm

5 RF Probe, -50dBc not directional 15 Output 230Vac for very low power auxiliary

equipment
6 Grid with air filter 16 ON/OFF MAINS BREAKER
7 Fans for RF unit 17 50 V_dc Connection To The Power Supply Unit,

Cable Included On The Box
8 Fans for internal load, Active only in presence of

unbalanced power.

18 AUX PS: Used For Power Supply Connection

9 Output connector, Flange 7/8. 19 Input for the Mains Line power cord
10 External Interface

AUX PS: Used For Power Supply Connection
DB15: Used for remote analogue control
LAN: RJ45 for TCP/IP ans SNMP connection
RS485: Internal BUS CONNECTION

1

319

15

14

16

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2.4 RF Unit Description

The RF unit is composed by :

1 Input Splitter –3dB 90°
2 Two RF Module 1300W (+ dedicate RF Control)
3 Combiner -3dB 90°
4 Unbalanced Dummy load Max 800W
5 Low Pass Filter (Typical harmonic suppression –90dBc)
6 High directivity Directional Coupler with two separate head probes (selectivity > 30dB)
7 Microprocessor Board
8 External interface end remote control
9 Cooling system composed by two redundant fans Type H3 PAPST, 280 m3/h each

2.4.1 RF 2500W Module

The RF Unit is placed in a 19” standard 5U rack, with 700mm depth and a total weight of 40Kgs. only.
Inside it, two RF Modules of 1300W nominal power are situated, using four MOSFET of new
generation SD2942. Every module is equipped with a control loop that guarantees maximum reliability
and high speed interventions to protect the equipment against over-temperature or excessive SWR. The
protections are independent with respect to the microprocessor.
The input is made by a 3dB 90° hybrid divider splitting the RF power coming from the FM driver
modulator. The output power of the two modules is connected to a - 3dB 90° hybrid combiner which
adds the RF power that arrives from the two 1300W modules. The output power of the 90° combiner
is placed between the two RF 1300W modules that are mounted in parallel position. This mechanical
solution guarantees great compactness and easy accessibility to the electronic parts. Moreover, the RF
2500W unit includes a built-in dummy load that in case of breakdown of one module assures continuity
of on-air operation. The unbalanced dummy load can stand up to 800W continuous.

-3dB 90° 2500W Combiner

OUT 2500W

INPUT 1250W

Unbalanced Load

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The Output of the Combiner is connected to the low-pass filter that eliminates the residual of the
harmonic frequencies, providing typical suppression figures of 90dBc. The output of the low-pass filter
is connected to the directional coupler, composed by two separate head probes equipped with the
necessary devices to keep under control the RF power level and to convert it in DC. The DC voltage is
used to monitor the direct and reflected power from the Menu, but for the protections of the ALC and
VSWR figures as well. The RF output is terminated with 7/8” EIA Flange.

Picture of the RF MODULE, 2,5KW. Detail of the RF module, 1,3KW

Nominal Power 350W

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2.4.2 1300W RF Module Description

The 1,3 kW modules is composed by the following stages:

• Power Splitter

• RF Amplifier

• Output Combiner

• Control Circuit

Power Splitter

The input power from the exciter is applied to a Wilkinson splitter; the signals on the outputs are in
phase with each other.
Both outputs are connected to the input of two 3 dB couplers.
The outputs 1 and 2 of the 3dB couplers are out of phase by 90° but they have the same power, just like
the
outputs 3 and 4.
The resistive termination resistors R1, ..., R4 absorb the unbalanced power when one of the SD2942
devices fails.

RF Amplifier

The amplifier circuit is composed of four identical base modules. The input matching of the active
device SD2942 composed of two FET is realized by means of the transformation ratio 4:1 of
transformer T1, by the capacitors C1, C2 and by the inductor L1.
The resistors R1 and R2 connected between the two gates of SD2942 increase the margin of stability of
the amplifier , at the same time providing an SWR figure that is acceptable over the whole operating
frequency band.
The two FET composing the SD2942 operate in push pull mode.
The line connected between the two drains compensates the capacitate part of the output impedance. by
the adapter circuit composed of C5, C7, L2 and L3, the ensuing impedance is raised by the
transformation ratio 1:4 of the transformer T2 up to the value of 50Ω. The parallel resonating circuit
composed of C6 and L2 is calculated so as to lower the value of the 2nd harmonic component
generated by the amplifier.
The gates of the two FET devices are connected, by means of R8 and L6, to the bias circuit. The direct
voltage on the gates are adjusted by means of the trimmer RV1.
The NTC which is located on the case of the active device, compensates the variation of the bias figure
according to the operating temperature. Through the point 13 connected to the control circuit and by
means of an appropriate negative voltage, it is possible setting at zero the level of the RF output power
in the event of any operating troubles detected by the control circuit itself.
The toroidal ferrite cores of the output transformer may be damaged by strong magnetic fields created
by electrical currents. This situation may arise in the event of failure of a FET device.

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Output Combiner

The power coming from the four SD2942 stages are sent to the input of two 3dB couplers whose output
are in phase with each other.
A Wilkinson type coupler adds these outputs. In the output line, a directional coupler detects the figures
of forward and reflected output power. The resistive terminations R1, R3, R5 and R6 absorb all the
unbalanced power. At the ends of the terminations there are three detectors. Their outputs, just as the
outputs coming from the forward and reflected power, are sent to the control circuit.

RF Control Circuit

The protection function of the four SD2942 devices is obtained by the Control Circuit.
The amplifier is protected against excessive SWR, excessive unbalanced powers and overheating. The
signal WR coming from the "reflected power detector", is amplified by U2A and will reach the
comparator U2D.
In case the reflected power will exceed the pre-set value, established by the resistive trimmer RV1, the
comparator U2D sets its output representing an excessive reflected power level.
The signal SB3 coming from the high impedance unbalanced detector is buffered by OP AMP U1 a
and transformed in low output impedance.
The signal of unbalanced SB1, SB2, SB3) previously processed, are offered to the three diodes D7, D8,
D9 to the input of buffer U1B.
The output of U1B is connected to the comparator U1D whose output represents excessive internal
unbalanced power error. The intervention protection level of SB1 SB2 SB3 can be adjusted by the
resistive trimmers RV2 RV3 and RV4.
When the temperature level of the heat-sink reaches the intervention threshold (80°C), the temperature
chip sensor placed at the centre of the same heat-sink transmits a signal to the microprocessor that in
this case will turn the Amplifier off.
The constant current generator made by transistor Q3 and surrounding components, feeds the diodes
D4 and DZ1. On the diodes, a voltage of 10V should be constantly present.
This is the bias and the control voltage of the basic module.
The previous described are led through D7 coming into the basis of the Darlington pair Q1 and Q2, in
case of intervention, can regulate the control voltage to a level of about -12V which totally cuts the
output power of the module. If the control voltage (-15V auxiliary supply) fails, the general control by
means of the microprocessor turns the amplifier off.

2.5 Low Pass Filter and Directional Coupler

The low pass filter is elliptic type with minimum inductor shapes Cauer-Chebyshev. A directional
coupler is placed on the output of the filter, which gives the tension to measure the direct and reflex
power. On the same line a signal for an “RF Proble” is taken at 40bD equalized in band .

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Low Pass Filter and Directional Coupler

2.6 Ext Interface

The Ext. Interface Board makes the interface functions between the VL3 and others external unit:

-Remote Control

- Connection to external control unit
By means of the connector C8, it is possible to use the 485 serial; on the EC4 connector (parallel
interface) the analogue and the digital signals are available at a voltage figure between 0 and +5V; by
means of the lan module U10 it is possible monitoring on a web-page all the functions of the
equipment. On this Ext Interface board, three identical DC-DC converters area also allocated: they
supply the necessary power to the cooling fans of the RF power modules and of the load.

2.7 General Controller Circuit

The Controller Circuit, placed on the rear side of the front panel has the following functions:

-Equipment control achieved by means of a Microprocessor M3062

-User Interface by a dedicated display LCD

- Setting and alarm threshold programming

Along with its own controller functions, the “General Controller Circuit” board also provides the
function of link for the several internal boards. The Controller is equipped with a flash memory and
allows via RS232 port any up-grades relevant to the new functions of the software. The I.C. RTC4543S
provides the function of clock-data. In case of a black-out event, all the data previously set are
memorized by means of the I.C. ST93C86. The communication with other external devices is
established by the I.C. UDS14C232 via the RS232 port, and by the I.C. DS75175 via the RS485 port.
The I.C.’s LM336 and LM358 are the interfaces between the temperature sensor placed on the power
amplifier and the input of the microprocessor.

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By means of the trimmer V5, the figure of the temperature on the display can be adjusted. The IC’s
LM358 supply the DC voltage which is adjusted by the trimmers RV8 and RV9 to display the figures
of the current and of the voltage of the power stage, whereas the trimmer RV6 adjusts the DC voltage
proceeding from the unbalancing resistor. The DC voltages relevant to the direct and to the reflected
power proceeding from the directional coupler (EC9 connector) are duly amplified and adjusted by the
trimmers RV4 e RV3 prior entering the microprocessor.

2.8 Fuse board

This board includes 8 fuseblocks with the relevant quick-break 6x30 fuses. These fuses are in series
configuration with respect to the +48V power supply of any single device; this means that in case of
short circuit of one or more stages, only the parts of the damaged stages will be off. On the same board
some shunts are located, thus allowing to detect the figures of the current of any single 1300W RF
block.

2.9 Power Supply UNIT Description

The Power Supply Unit has the standard dimensions of 19” and is 2U (88mm); its depth is 700mm and
its weight is 14Kgs. Only. The PSU is composed by three power supply boards able to operate with a
nominal current of 35A at 50Vdc. The three local power supply are connected in parallel and are
controlled by the connection named “Current Share”, which always guarantees a perfect balance of the

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output currents. Therefore, the power available at the output of the module is more than 100A. At
nominal working conditions, the required current is 78A.

Power Supply UNIT

PS parallel connection and current share control Benefits

• Reduced loss of power in case of damage

• Thanks to the Shunt Board, the 50Vdc is connected to both IPA 1,3KW. In case of PS faulty the

resultant unbalanced load will be not present and the total power loss will only -2.2 dB instead
of -6dB of the standard configuration.

• Equal and balanced working condition for all the PS connected to the parallel

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Cable Connection Power Supply UNIT

2.9.1 Power Supply Board Description

Name

The regulator module is referred to as SMPS4834, an abbreviation for “Switch Mode Power Supply
(for digital terrestrial amplifier), with output: 48 V

DC,

34 A.

Function

The SMPS4834 module supplies the necessary power for correct operation of the Digital Terrestrial

Amplifier and Frequency modulation transmitter . It can correctly operate either in single phase or in

three-phase configuration . It’s possible to connect in parallel two or more SMPS .

Structure

The SMPS4834 is a AC/DC converter including two main blocks.

The first one is a boost converter with Power Factor Correction module, that brings up the AC line

voltage from 230V to a DC voltage starting from 380V. It guarantees the compliance with the

requirements of EN61000-3-2 and the power supply’s maximum efficiency.
The second one is a phase-shifted full bridge converter, that brings down the bus voltage from 380 V
to the required DC value and allows a high efficiency even with high load . The SMPS is supplied of
inrush current limiting, over current and thermal protections. Analogue signals and colour-led are
available on the power supply’s front panel, to control the SMPS operation. SMPS4834 also provides
auxiliary voltages to supply external electronic circuits and fan . A detailed block diagram of the
circuit is shown in following paragraph. Electrical connections and pins out are described further .

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Specifications

Input voltage range

The power supply module in the range 185-265 V

AC

voltage range, 50/60 Hz.(400V three phase)

Operation temperature

The operating temperature range is 0°C ≤ T

OP

≤ +50°C.

Thermal protection may operate when T

AMB

>50°C

Storage temperature

The storage temperature range is -40°C≤ T

STG

≤ +90°

2.9.2 Power Supply Protections

Thermal protection

This condition occurs when temperature measured by the PTC exceeds the admitted maximum value.
The protection will be triggered whenever the output current is higher than the maximum value, or in
case the ambient temperature exceeds 50°C, or in case a fan stops. When it occurs , the power supply
will get the stand-by mode thus turning-off the SMPS’s controllers, the yellow led will get on and the
open collector output signal will go down . The fans will keep on cooling the SMPS. Whenever the
temperature gets under the established threshold, the SMPS will turn on and will leave the stand-by
condition , bringing to normal operation the power supply.

Block diagram of the single Power Supply 1800W@ 48Vdc

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Current Peak Limitation Protections

The SMPS4834 is protected by over current during the start-up by means of a PTC and relay circuit

The relay will be activated, shorting the PTC, when the start-up is over. Also the auxiliary supply stage
is protected against inrush current that may occur during the start-up

.

Over current protection

This condition occurs when the output current exceeds the maximum value. When the over current
protection is activated, the output voltage drops under 48V, thus keeping the output current figure
nearly constant. The SMPS automatically recovers when the over-current condition is removed.

l

Power Supply Unit: internal view

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3 Putting in operation Instructions

3.1.1 Unpacking

After unpacking the POWER AMPLIFIER and choosing a suitable place to locate it, check that all the
necessary parts are available to proceed:

• Spare fuses ( 3 x FUSE 10 X 38 500V 16 A gG spare parts)

• AC power plug (not included: use 4 mm or higher section, AWG10 type ).

• N° 3 bipolar line cords for +48V

• N° 1 DB15 male / female, denominated AUX cable.

• N° 1 core hitch for the line cord for mains.

• N° 3 jumpers for the connection in single-phase mains mode.

• N° 15x20 250V 4A T fuses.

• Documentation.

3.1.2 Connections

• Make sure that the AC power switch I O is in O (Off) position.

• Connect all the earth wires coming from the other devices fitted in the rack to the earth terminal

provided in the rear of the equipment and marked with the appropriate symbol.

• Connect the AC power cable to the AC power plug following the instructions printed on its

package, taking particular care with the earth connection

• Ensure that the AC mains supply voltage is either 230VCA (±15%) or 400 Vca ± (±15%)

• Connect the 3 bipolar cables from the +48V output of the power supply unit to the input +48V

input connector of the RF power amplifier.

• Connect the AUX cable from the Power Supply Unit to the Power amplifier.

• Place the DB 15 male plug (included) in the DB 15 socket located in the rear panel of the power

amplifier.( when external interlock is not available)

• Ensure that the antenna or amplifier is suitable for the FM broadcasting frequency range (from 87.5

to 108 MHz) and connect it to the 7/8”-type RF output connector available in the rear of the
transmitter.

• With 230V mains voltage: connect the line cord of the mains to the suitable fuse block using 4 mm

(minimum) cable and mount it by means of the core hitch (included). Mount the three jumpers on
the fuse block of the power supply unit in correspondence of the points denominated R-S-T.

• With 400V mains voltage: use 1,5 mm (minimum section). Do not mount the three jumpers on the

terminal board. Prior to ignition, make sure that the neutral is duly connected to the equipment
and that the ground connection is mounted.

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3.1.3 Mains line power cord connection

THREE-PHASE Connection.

SINGLE-PHASE Connection.

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3.1.4 DB15 Parallel connection PIN Specification

PIN

1. Ground

2. Power Supply Voltage (0 to 5V analogue proportional) full scale 5V=50Vdc

3. Forward Power, (0-5V analogue proportional ) full scale 5V=3000W

4. +15V dc max 30 mA auxiliary for test purpose)

5. Ground

6. Stand-BY Command (close to the ground )

7. Interlo ck (must be connected to ground for the start-up of the equipment)

8. Reset alarm for equipment block. (input +5)

9. Total Current RF Unit 2500W (0-5V analogue proportional ) 5V full scale=100A

10. Reflected Power , (0-5V analogue proportional ) full scale 5V=300W

11. Unbalanced Power (0-5V analogue proportional) full scale 5V=1000W

12. Stand-by OUT( closed to ground if active)

13. Alarm Signal N. Open(closed to the common if alarm: active)

14. Alarm Signal N. Closed (open with the common if alarm: active)

15. Common (for the PIN 13 e 14)

3.1.5 Turning the system ON

Turn the power amplifier on by pressing the AC Power switch I O in I position
Set the desired maximum operational output power, ranging from 500W minimum up to 2500 W
output. Make sure that the ALC led in ON. If the LCD led is OFF the amplifier efficiency is under a the
normal value and a temperature problem may present. .
Now the system is operating. In regular duty conditions, all leds are off:
Moreover the upper line of the LCD display should show the output power, whereas the lower one
should display the writing ’’Normal’’ (normal working condition). The back illumination of the LCD
Display should stay on for about 30 minutes after the last button has been pressed.
Check the figures of the forward and of the reflected RF power .

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3.1.6 Cares and maintenance

As many other electronic equipment, this transmitter need some care which is mandatory to guarantee
years of perfect operation. On the other hand, if maintenance operation is not regularly carried out,
faults can occur, particularly in harsh environments.
Air cooling fans must be regularly inspected and replaced every 10,000 hours. A The air filter must be
regularly replaced or cleaned according to the environmental conditions

3.1.7 Menu Display

General description On the front panel of the Amplifier RF Unit 2500W, a 4 lines display is

placed to allow the navigation through the functions of:

• PARAMETERS

• ALARMS

• SETTING PARAMETERS

The following Parameters are availab le on the Display:

1 Direct RF Output Power

2

Reflected RF Power

3

Voltage Power Supply UNIT

4

Total Current Absorption AMP.1 +AMP.2

5

Current Absorption module 1300W AMP.1

6

Current Absorption module 1300W AMP.2

7

Temperature module RF AMP.1

8

Temperature module RF AMP.2

9

Unbalanced Power

10

Temperature Unbalanced Dummy Load

The following alarm and events are available:
The list contains up to 99 line of events and alarms.

1 Normal (restore of normal condition)

2

Power ON (Start-up)

3

POWER LEVEL PROFILE selected ( P0…P9)

4

Low Power Alarm ( low power alarm of nominal value -3dB)

5

Excessive VSWR

6

Power Unbalanced

7

Over – Temperature RF Heat

8

Over – Temperature Unbalanced Dummy Load

9

Over Power Alarm (2% of the nominal)

10

Power Supply Alarm ( active with one o more of the following: Overload; Over-current; Faulty)

11

Stand-by Remote (activated by RS232/RS485 o LAN)

12

Interlock Status

13

Stand-by DB15(activated by parallel interface DB15)

< Normal >=Normal Condition
<Alarm Stand By>=Stand By condition by ext command

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<Alarm Block> = Block Condition by un excessive number of alarms ( reset pressing FACTORY RESET)
<Alarm Interlock>= Message for missing interlock( rear side connection)

The following Parameters are availab le on the Display:

11 Direct RF Output Power

12

Reflected RF Power

13

Voltage Power Supply UNIT

14

Total Current Absorption AMP.1 +AMP.2

15

Current Absorption module 1300W AMP.1

16

Current Absorption module 1300W AMP.2

17

Temperature module RF AMP.1

18

Temperature module RF AMP.2

19

Unbalanced Power

20

Temperature Unbalanced Dummy Load

The following setting parameters are available from the display Menu:

1 Local/ Remote

2

Setting power and 9 different profiles of the output power; this option is used on the N+1 System.

3

Access Password Setting Parameters.

4

Slave address for RS485 connection

5

Language: Italian – English

6

Client Name

7

Time and Data

8

Factory Reset Parameters

N+1 POWER LEVEL PROFILE(option)
This function is provided to use the VL3 as an Agile Power and Frequency Transmitter Reserve Unit in
N+1 Systems. The N+1 POWER LEVEL PROFILE option allows to preset 9 different output power
levels. One of the nine Power Level Profiles will be select from the N+1 Automatic Control System in
case of failure.

Symbol used on the display: The following signal are used on the menu.

Symbol Meaning Front panel display key

g

Go page down, or decrease value

g

f

Go page up, or increase value

f

h

Go left position

h

d

Go right position

d



Confirm of changing data ENTER

[ xxx ]

The Square Parenthesis indicate the active choice

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MENU MEASURE

The main Menu shows the following:

• FW 2520W= out put power

• REF 0W= reflected power

• Vpa 45,6 V= power supply voltage

• Ipa 77.9 A= Total Current Absorption

• < Normal >=Normal Condition

• <Alarm Stand By>=Stand By condition by external command

• <Alarm Block> = Block Condition by un excessive number of alarms

(reset pressing FACTORY RESET)

• <Alarm Interlock>= Message for missing interlock( rear side connection)

SET LOCAL and REMOTE OPERATION

On the thirds page are available the following Sub Menu:

1. MEASURE (Real time of R.F. and P.S. Measure)

2. PARAMETERS ( Setting data)

3. ALARM ( Alarm History )

Move

h or d to change from the above possibility and press g to go in the

Sub Menu.

On the side page are available the following Sub Menu:

1.

POWER (shows Direct; Reflected and Unbalance Power)

2.

CURRENT ( shows the current absorption of the two 1,3KW RF

module:

IPA1 and IPA2 )

3. SUPPLY (shows the PS voltage: Vpsu)

4. TEMPERATURE (

shows the temperature of the two RF heat

sink and the internal unbalanced load:

TPA1 and TPA2, TLOAD.

5. DATA/ HOUR

---MAIN MENU--­FW 2520W REF 0W
Vpa 45,6 V Ipa 77.9A

g

< Normal > LOC

SET LOC/REM SYSTEM

[LOC] REM

f g d  h

MAIN MENU

[

MEASURE]

h d f g

MAIN MEASURE

[

POWER]

f g d  h

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MENU SETTING PARAMETERS

On the side page are available the following Sub Menu:

1. MEASURE (Real time of R.F. and P.S. Measure)

2. PARAMETERS ( Setting data)

3. ALARM ( Alarm History )

Move h or d to change from the above possibility and press g to go in the
Sub Menu.

Enter the password pressing f to increase the data and d to change

position. Press  enter to confirm.
The default password is 000000.( six zero)

On the side page are available the following Sub Menu:

1. SET POWER

2. ETHERNET (LAN port Setting)

3. FACTORY RESET( reset to the default factory setting and cancel the
alarm counter )

4. SETTING TIME(local time and data can be adjusted)

5. CHANGE PASSWORD(personalised password can be set)

6. ABOUT SYSTEM ( data system setting)

7. SET LANGUAGE ( English or Italian can be set)

8. DEVISE ADDRESS ( set the address for RS485 bus connection)

9. HISTORY CLEAR ( cancel the alarm history )

10. STAND BY ( active the Stand-By Command)

11. RS 485 ADDRESS

12. FW UPDATE ( softwawe upgrade)

Move h or d to change from the above possibility and press g to go in the
Sub Menu.

---MAIN MENU--­FW 2520W REF 0W
Vpa 45,6 V Ipa 77.9A

g

< Normal > LOC

SET LOC/REM SYSTEM

[LOC] REM

f g d  h

MAIN MENU

[

PARAMETERS ]

h d f g

INSERT PASSWORD

000000

f g d  h

Menu Conf. Parameters

[

SET POWER ]

h d f g

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MENU ALARMS

On the side page are available the following Sub Menu:

1. MEASURE (Real time of R.F. and P.S. Measure)

2. PARAMETERS ( Setting data)

3. ALARM ( Alarm History )

Move h or d to change from the above possibility and press g to go in the
Sub Menu.

Press g to read the history alarm.

The indication MOn

shows the quantity of the alarms. In figure are 7.

The History can be deleted pressing “HISTORY CLEAR” available on the
PARAMETERS MENU.

---MAIN MENU--­FW 2520W REF 0W
Vpa 45,6 V Ipa 77.9A

g

< Normal > LOC

SET LOC/REM SYSTEM

[LOC] REM

f g d  h

MAIN MENU

[

ALARM ]

h d f g

MENU ALARM

[ HISTORY ALARM ]

f g MO 7

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4 Mechanical Dimensions

Power Supply Unit

RF Amplifier Unit

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5 Technical Specifications

RF UNIT

Frequency Range 88-108Mhz
RF Connectors N type for input; 7/8 flange for output
Max. Input Power 60W
Nominal Input Power 50W
Output Power Adjustable 2500W (ALC from 500W)

Output Power Stability better than 2%
Efficiency 60%
Max. Ambient Temperature 45°C
Harmonic Suppression >-80 dBc
Residual AM Asynchronous -74dB
Residual AM Synchronous -54dB
Dimensions (rack 19”X5U) 483X222X750
Weight 40KG

Power Supply Unit

Type switching Mono phase
PFC PFC active type PF 0,98
Single Phase
Input Voltage

230 Vac ± 15%

Three-Phase
Input Voltage

400 Vac ± 15%

R.M.S. Input current (50V) 8,5A, 230Vac
Efficiency 90%
Current 34A (48V)

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6 File schematics diagram

Code Description File name Type
K3110 1,3 KW RF MODULE K3110-EL Electrical schematics
K3110 1,3 KW RF MODULE K3110-LY Layout components
K3110 1,3 KW RF MODULE K3110-PL Part List
K3161 1,8KW POWER SUPPLY K3116-EL Electrical schematics
K3161 1,8KW POWER SUPPLY K3116-LY La out components
K3161 1,8KW POWER SUPPLY K3116-PL Part List
K3162 1,8KW POWER SUPPLY ( MAINS FILTER) K3116-EL Electrical schematics
K3162 1,8KW POWER SUPPLY ( MAINS FILTER) K3116-LY Layout components
K3162 1,8KW POWER SUPPLY ( MAINS FILTER) K3116-PL Part List
K3148 Internal Dummy Load K3148-ES Electrical schematics
K3148 Internal Dummy Load K3148-LY Layout components
K3148 Internal Dummy Load K3148-PL Part List
K3185 Load Interconnection K3185-SCH Electrical schematics
K3185 Load Interconnection K3185-PCB Layout components
K3185 Load Interconnection K3185.txt Part List
K3173 Directional Coupler K3173-EL Electrical schematics
K3173 Directional Coupler K3173-LY Layout components
K3173 Directional Coupler K3173-PL Part List
K3174 Fuse Holder K3174-EL Electrical schematics
K3174 Fuse Holder K3174.LY Layout components
K3174 Fuse Holder K3174-PL Part List
K3193 External Interface K3193-EL Electrical schematics
K3193 External Interface K3193-LY Layout components
K3193 External Interface K3193-PL Part List
K3190 Shunt Board K3190-EL Electrical schematics
K3190 Shunt Board K3190-LY Layout components
K3190 Shunt Board K3190-PL Part List
K3111 4Way output coupler K3111-EL Electrical schematics
K3111 4Way output coupler K3111-PL Part List
K3111 4Way output coupler K3111-LY Layout components
K3109 4Way input divider K3109-EL Electrical schematics
K3109 4Way input divider K3109-PL Part List
K3109 4Way input divider K3109-LY Layout components
K3189 RF control-measure K3109-EL Electrical schematics
K3189 RF control-measure K3109-PL Part List
K3189 RF control-measure K3109-LY Layout components
K3142 2Way input divider K3188-EL Electrical schematics
K3142 2Way input divider K3188-PL Part List
K3142 2Way input divider K3188-LY Layout components
K3188 2Way Output coupler K3188-EL Electrical schematics
K3188 2Way Output coupler K3188-PL Part List

VL3 2500W FM AMPLIFIER

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K3188 2Way Output coupler K3188-LY Layout components
K3191 Low Pass Filter K3191-EL Electrical schematics
K3191 Low Pass Filter K3191-PL Part List
K3191 Low Pass Filter K3191-LY Layout components
K3192 Controller K3192-EL Electrical schematics
K3192 Controller K3192-PL Part List
K3192 Controller K3192-LY Layout components
K3186 PSU-Interface K3186-EL Electrical schematics
K3186 PSU-Interface K3186-PL Part List
K3186 PSU-Interface K3186-LY Layout components